diff options
Diffstat (limited to 'clang')
111 files changed, 8988 insertions, 942 deletions
diff --git a/clang/docs/ReleaseNotes.rst b/clang/docs/ReleaseNotes.rst index db2b0f6..79ff821 100644 --- a/clang/docs/ReleaseNotes.rst +++ b/clang/docs/ReleaseNotes.rst @@ -191,6 +191,8 @@ C23 Feature Support - Added ``FLT_SNAN``, ``DBL_SNAN``, and ``LDBL_SNAN`` to Clang's ``<float.h>`` header in C23 and later modes. This implements `WG14 N2710 <https://www.open-std.org/jtc1/sc22/wg14/www/docs/n2710.htm>`_. +- Fixed accepting as compatible unnamed tag types with the same fields within + the same translation unit but from different types. Non-comprehensive list of changes in this release ------------------------------------------------- @@ -435,6 +437,7 @@ Bug Fixes to C++ Support - Suppress ``-Wdeprecated-declarations`` in implicitly generated functions. (#GH147293) - Fix a crash when deleting a pointer to an incomplete array (#GH150359). - Fixed a mismatched lambda scope bug when propagating up ``consteval`` within nested lambdas. (#GH145776) +- Disallow immediate escalation in destructors. (#GH109096) - Fix an assertion failure when expression in assumption attribute (``[[assume(expr)]]``) creates temporary objects. - Fix the dynamic_cast to final class optimization to correctly handle diff --git a/clang/docs/UsersManual.rst b/clang/docs/UsersManual.rst index 2d10489..01f0b27 100644 --- a/clang/docs/UsersManual.rst +++ b/clang/docs/UsersManual.rst @@ -2780,6 +2780,25 @@ usual build cycle when using sample profilers for optimization: /clang:-fdebug-info-for-profiling /clang:-funique-internal-linkage-names ^ code.cc /Fe:code -fuse-ld=lld /link /debug:dwarf + [OPTIONAL] Pseudo instrumentation can be used as the anchor for accurate + profile mapping with the ``-fpseudo-probe-for-profiling`` option. + + On Linux: + + .. code-block:: console + + $ clang++ -O2 -gline-tables-only \ + -fpseudo-probe-for-profiling -funique-internal-linkage-names \ + code.cc -o code + + On Windows: + + .. code-block:: winbatch + + > clang-cl /O2 -gdwarf -gline-tables-only ^ + -fpseudo-probe-for-profiling /clang:-funique-internal-linkage-names ^ + code.cc /Fe:code -fuse-ld=lld /link /debug:dwarf + .. note:: :ref:`-funique-internal-linkage-names <funique_internal_linkage_names>` @@ -2881,6 +2900,25 @@ usual build cycle when using sample profilers for optimization: /clang:-fdebug-info-for-profiling /clang:-funique-internal-linkage-names ^ -fprofile-sample-use=code.prof code.cc /Fe:code + [OPTIONAL] Pseudo instrumentation can be used as the anchor for accurate + profile mapping with the ``-fpseudo-probe-for-profiling`` option. + + On Linux: + + .. code-block:: console + + $ clang++ -O2 \ + -fpseudo-probe-for-profiling -funique-internal-linkage-names \ + -fprofile-sample-use=code.prof code.cc -o code + + On Windows: + + .. code-block:: winbatch + + > clang-cl /O2 ^ + -fpseudo-probe-for-profiling /clang:-funique-internal-linkage-names ^ + -fprofile-sample-use=code.prof code.cc /Fe:code + [OPTIONAL] Sampling-based profiles can have inaccuracies or missing block/ edge counters. The profile inference algorithm (profi) can be used to infer missing blocks and edge counts, and improve the quality of profile data. diff --git a/clang/include/clang/AST/OpenACCClause.h b/clang/include/clang/AST/OpenACCClause.h index 1e351f3..83f2b18 100644 --- a/clang/include/clang/AST/OpenACCClause.h +++ b/clang/include/clang/AST/OpenACCClause.h @@ -1301,46 +1301,25 @@ struct OpenACCReductionRecipe { // AST), or in a separate collection when being semantically analyzed. llvm::ArrayRef<CombinerRecipe> CombinerRecipes; + bool isSet() const { return AllocaDecl; } + +private: + friend class OpenACCReductionClause; OpenACCReductionRecipe(VarDecl *A, llvm::ArrayRef<CombinerRecipe> Combiners) : AllocaDecl(A), CombinerRecipes(Combiners) {} - - bool isSet() const { return AllocaDecl; } }; // A version of the above that is used for semantic analysis, at a time before // the OpenACCReductionClause node has been created. This one has storage for // the CombinerRecipe, since Trailing storage for it doesn't exist yet. -struct OpenACCReductionRecipeWithStorage : OpenACCReductionRecipe { -private: - llvm::SmallVector<CombinerRecipe, 1> CombinerRecipeStorage; - -public: - OpenACCReductionRecipeWithStorage(VarDecl *A, - llvm::ArrayRef<CombinerRecipe> Combiners) - : OpenACCReductionRecipe(A, {}), CombinerRecipeStorage(Combiners) { - CombinerRecipes = CombinerRecipeStorage; - } +struct OpenACCReductionRecipeWithStorage { + VarDecl *AllocaDecl; + llvm::SmallVector<OpenACCReductionRecipe::CombinerRecipe, 1> CombinerRecipes; OpenACCReductionRecipeWithStorage( - const OpenACCReductionRecipeWithStorage &Other) - : OpenACCReductionRecipe(Other), - CombinerRecipeStorage(Other.CombinerRecipeStorage) { - CombinerRecipes = CombinerRecipeStorage; - } - - OpenACCReductionRecipeWithStorage(OpenACCReductionRecipeWithStorage &&Other) - : OpenACCReductionRecipe(std::move(Other)), - CombinerRecipeStorage(std::move(Other.CombinerRecipeStorage)) { - CombinerRecipes = CombinerRecipeStorage; - } - - // There is no real problem implementing these, we just have to make sure the - // array-ref this inherits from stays in sync. But as we don't need it at the - // moment, make sure we don't accidentially call these. - OpenACCReductionRecipeWithStorage & - operator=(OpenACCReductionRecipeWithStorage &&) = delete; - OpenACCReductionRecipeWithStorage & - operator=(const OpenACCReductionRecipeWithStorage &) = delete; + VarDecl *A, + llvm::ArrayRef<OpenACCReductionRecipe::CombinerRecipe> Combiners) + : AllocaDecl(A), CombinerRecipes(Combiners) {} static OpenACCReductionRecipeWithStorage Empty() { return OpenACCReductionRecipeWithStorage(/*AllocaDecl=*/nullptr, {}); diff --git a/clang/include/clang/Basic/BuiltinsX86.td b/clang/include/clang/Basic/BuiltinsX86.td index b197d81..006a453 100644 --- a/clang/include/clang/Basic/BuiltinsX86.td +++ b/clang/include/clang/Basic/BuiltinsX86.td @@ -110,19 +110,20 @@ let Attributes = [Const, NoThrow, RequiredVectorWidth<128>] in { } let Features = "sse3" in { - foreach Op = ["addsub", "hadd", "hsub"] in { + foreach Op = ["addsub"] in { def Op#ps : X86Builtin<"_Vector<4, float>(_Vector<4, float>, _Vector<4, float>)">; def Op#pd : X86Builtin<"_Vector<2, double>(_Vector<2, double>, _Vector<2, double>)">; } } - let Features = "ssse3" in { - foreach Op = ["phadd", "phsub"] in { - def Op#w128 : X86Builtin<"_Vector<8, short>(_Vector<8, short>, _Vector<8, short>)">; - def Op#sw128 : X86Builtin<"_Vector<8, short>(_Vector<8, short>, _Vector<8, short>)">; - def Op#d128 : X86Builtin<"_Vector<4, int>(_Vector<4, int>, _Vector<4, int>)">; + let Features = "sse3", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWidth<128>] in { + foreach Op = ["hadd", "hsub"] in { + def Op#ps : X86Builtin<"_Vector<4, float>(_Vector<4, float>, _Vector<4, float>)">; + def Op#pd : X86Builtin<"_Vector<2, double>(_Vector<2, double>, _Vector<2, double>)">; } + } + let Features = "ssse3" in { def pmulhrsw128 : X86Builtin<"_Vector<8, short>(_Vector<8, short>, _Vector<8, short>)">; def pshufb128 : X86Builtin<"_Vector<16, char>(_Vector<16, char>, _Vector<16, char>)">; def psignb128 : X86Builtin<"_Vector<16, char>(_Vector<16, char>, _Vector<16, char>)">; @@ -137,7 +138,7 @@ let Attributes = [Const, NoThrow, RequiredVectorWidth<128>] in { // AVX let Attributes = [Const, NoThrow, RequiredVectorWidth<256>], Features = "avx" in { - foreach Op = ["addsub", "hadd", "hsub", "max", "min"] in { + foreach Op = ["addsub", "max", "min"] in { def Op#pd256 : X86Builtin<"_Vector<4, double>(_Vector<4, double>, _Vector<4, double>)">; def Op#ps256 : X86Builtin<"_Vector<8, float>(_Vector<8, float>, _Vector<8, float>)">; } @@ -316,6 +317,14 @@ let Features = "ssse3", Attributes = [NoThrow, Const, RequiredVectorWidth<128>] def palignr128 : X86Builtin<"_Vector<16, char>(_Vector<16, char>, _Vector<16, char>, _Constant int)">; } +let Features = "ssse3", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWidth<128>] in { + foreach Op = ["phadd", "phsub"] in { + def Op#w128 : X86Builtin<"_Vector<8, short>(_Vector<8, short>, _Vector<8, short>)">; + def Op#sw128 : X86Builtin<"_Vector<8, short>(_Vector<8, short>, _Vector<8, short>)">; + def Op#d128 : X86Builtin<"_Vector<4, int>(_Vector<4, int>, _Vector<4, int>)">; + } +} + let Features = "sse4.1", Attributes = [NoThrow, Const, RequiredVectorWidth<128>] in { def insertps128 : X86Builtin<"_Vector<4, float>(_Vector<4, float>, _Vector<4, float>, _Constant char)">; def roundps : X86Builtin<"_Vector<4, float>(_Vector<4, float>, _Constant int)">; @@ -515,6 +524,11 @@ let Features = "avx", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWid def vinsertf128_pd256 : X86Builtin<"_Vector<4, double>(_Vector<4, double>, _Vector<2, double>, _Constant int)">; def vinsertf128_ps256 : X86Builtin<"_Vector<8, float>(_Vector<8, float>, _Vector<4, float>, _Constant int)">; def vinsertf128_si256 : X86Builtin<"_Vector<8, int>(_Vector<8, int>, _Vector<4, int>, _Constant int)">; + + foreach Op = ["hadd", "hsub"] in { + def Op#pd256 : X86Builtin<"_Vector<4, double>(_Vector<4, double>, _Vector<4, double>)">; + def Op#ps256 : X86Builtin<"_Vector<8, float>(_Vector<8, float>, _Vector<8, float>)">; + } } let Features = "avx", Attributes = [NoThrow, Const, RequiredVectorWidth<256>] in { @@ -592,12 +606,7 @@ let Features = "avx", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWid let Features = "avx2", Attributes = [NoThrow, Const, RequiredVectorWidth<256>] in { def mpsadbw256 : X86Builtin<"_Vector<32, char>(_Vector<32, char>, _Vector<32, char>, _Constant char)">; def palignr256 : X86Builtin<"_Vector<32, char>(_Vector<32, char>, _Vector<32, char>, _Constant int)">; - def phaddw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; - def phaddd256 : X86Builtin<"_Vector<8, int>(_Vector<8, int>, _Vector<8, int>)">; - def phaddsw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; - def phsubw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; - def phsubd256 : X86Builtin<"_Vector<8, int>(_Vector<8, int>, _Vector<8, int>)">; - def phsubsw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; + def pmovmskb256 : X86Builtin<"int(_Vector<32, char>)">; def pmulhrsw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; def psadbw256 : X86Builtin<"_Vector<4, long long int>(_Vector<32, char>, _Vector<32, char>)">; @@ -666,6 +675,13 @@ let Features = "avx2", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWi def packssdw256 : X86Builtin<"_Vector<16, short>(_Vector<8, int>, _Vector<8, int>)">; def packuswb256 : X86Builtin<"_Vector<32, char>(_Vector<16, short>, _Vector<16, short>)">; + def phaddw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; + def phaddd256 : X86Builtin<"_Vector<8, int>(_Vector<8, int>, _Vector<8, int>)">; + def phaddsw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; + def phsubw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; + def phsubd256 : X86Builtin<"_Vector<8, int>(_Vector<8, int>, _Vector<8, int>)">; + def phsubsw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Vector<16, short>)">; + def pshuflw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Constant int)">; def pshufhw256 : X86Builtin<"_Vector<16, short>(_Vector<16, short>, _Constant int)">; def pshufd256 : X86Builtin<"_Vector<8, int>(_Vector<8, int>, _Constant int)">; @@ -2121,24 +2137,18 @@ let Features = "avx512vl", Attributes = [NoThrow, RequiredVectorWidth<256>] in { def movdqa64store256_mask : X86Builtin<"void(_Vector<4, long long int *>, _Vector<4, long long int>, unsigned char)">; } -let Features = "avx512ifma", Attributes = [NoThrow, Const, RequiredVectorWidth<512>] in { +let Features = "avx512ifma", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWidth<512>] in { def vpmadd52huq512 : X86Builtin<"_Vector<8, long long int>(_Vector<8, long long int>, _Vector<8, long long int>, _Vector<8, long long int>)">; def vpmadd52luq512 : X86Builtin<"_Vector<8, long long int>(_Vector<8, long long int>, _Vector<8, long long int>, _Vector<8, long long int>)">; } -let Features = "avx512ifma,avx512vl|avxifma", Attributes = [NoThrow, Const, RequiredVectorWidth<128>] in { +let Features = "avx512ifma,avx512vl|avxifma", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWidth<128>] in { def vpmadd52huq128 : X86Builtin<"_Vector<2, long long int>(_Vector<2, long long int>, _Vector<2, long long int>, _Vector<2, long long int>)">; -} - -let Features = "avx512ifma,avx512vl|avxifma", Attributes = [NoThrow, Const, RequiredVectorWidth<256>] in { - def vpmadd52huq256 : X86Builtin<"_Vector<4, long long int>(_Vector<4, long long int>, _Vector<4, long long int>, _Vector<4, long long int>)">; -} - -let Features = "avx512ifma,avx512vl|avxifma", Attributes = [NoThrow, Const, RequiredVectorWidth<128>] in { def vpmadd52luq128 : X86Builtin<"_Vector<2, long long int>(_Vector<2, long long int>, _Vector<2, long long int>, _Vector<2, long long int>)">; } -let Features = "avx512ifma,avx512vl|avxifma", Attributes = [NoThrow, Const, RequiredVectorWidth<256>] in { +let Features = "avx512ifma,avx512vl|avxifma", Attributes = [NoThrow, Const, Constexpr, RequiredVectorWidth<256>] in { + def vpmadd52huq256 : X86Builtin<"_Vector<4, long long int>(_Vector<4, long long int>, _Vector<4, long long int>, _Vector<4, long long int>)">; def vpmadd52luq256 : X86Builtin<"_Vector<4, long long int>(_Vector<4, long long int>, _Vector<4, long long int>, _Vector<4, long long int>)">; } diff --git a/clang/include/clang/Basic/TargetInfo.h b/clang/include/clang/Basic/TargetInfo.h index ceb16174..ea73ed9 100644 --- a/clang/include/clang/Basic/TargetInfo.h +++ b/clang/include/clang/Basic/TargetInfo.h @@ -1211,6 +1211,25 @@ public: TiedOperand = N; // Don't copy Name or constraint string. } + + // For output operand constraints, the target can set bounds to indicate + // that the result value is guaranteed to fall within a certain range. + // This will cause corresponding assertions to be emitted that will allow + // for potential optimization based of that guarantee. + // + // NOTE: This re-uses the `ImmRange` fields to store the range, which are + // otherwise unused for constraint types used for output operands. + void setOutputOperandBounds(unsigned Min, unsigned Max) { + ImmRange.Min = Min; + ImmRange.Max = Max; + ImmRange.isConstrained = true; + } + std::optional<std::pair<unsigned, unsigned>> + getOutputOperandBounds() const { + return ImmRange.isConstrained + ? std::make_pair(ImmRange.Min, ImmRange.Max) + : std::optional<std::pair<unsigned, unsigned>>(); + } }; /// Validate register name used for global register variables. diff --git a/clang/include/clang/CIR/Dialect/IR/CIRAttrs.td b/clang/include/clang/CIR/Dialect/IR/CIRAttrs.td index bb62223..610e349 100644 --- a/clang/include/clang/CIR/Dialect/IR/CIRAttrs.td +++ b/clang/include/clang/CIR/Dialect/IR/CIRAttrs.td @@ -814,6 +814,14 @@ def CIR_GlobalCtorAttr : CIR_GlobalCtorDtor<"Ctor", "ctor"> { }]; } +def CIR_GlobalDtorAttr : CIR_GlobalCtorDtor<"Dtor", "dtor"> { + let summary = "Marks a function as a global destructor"; + let description = [{ + Marks a function as a global destructor in the module dtors list. + The function will be executed before the module unloading. + }]; +} + //===----------------------------------------------------------------------===// // BitfieldInfoAttr //===----------------------------------------------------------------------===// diff --git a/clang/include/clang/CIR/Dialect/IR/CIRDialect.td b/clang/include/clang/CIR/Dialect/IR/CIRDialect.td index feb08d60..e915371 100644 --- a/clang/include/clang/CIR/Dialect/IR/CIRDialect.td +++ b/clang/include/clang/CIR/Dialect/IR/CIRDialect.td @@ -43,6 +43,7 @@ def CIR_Dialect : Dialect { static llvm::StringRef getSideEffectAttrName() { return "side_effect"; } static llvm::StringRef getModuleLevelAsmAttrName() { return "cir.module_asm"; } static llvm::StringRef getGlobalCtorsAttrName() { return "cir.global_ctors"; } + static llvm::StringRef getGlobalDtorsAttrName() { return "cir.global_dtors"; } void registerAttributes(); void registerTypes(); diff --git a/clang/include/clang/CIR/Dialect/IR/CIROps.td b/clang/include/clang/CIR/Dialect/IR/CIROps.td index 27fe0cc..baab156 100644 --- a/clang/include/clang/CIR/Dialect/IR/CIROps.td +++ b/clang/include/clang/CIR/Dialect/IR/CIROps.td @@ -89,6 +89,19 @@ class CIR_Op<string mnemonic, list<Trait> traits = []> : } //===----------------------------------------------------------------------===// +// CIR Operation Traits +//===----------------------------------------------------------------------===// + +class HasAtMostOneOfAttrsPred<list<string> names> : + CPred<!foldl("0", names, acc, name, acc # " + (" # name # " ? 1 : 0)") + # " <= 1">; + +class HasAtMostOneOfAttrs<list<string> names> : PredOpTrait< + "has only one of the optional attributes: " # !interleave(names, ", "), + HasAtMostOneOfAttrsPred<!foreach(name, names, "$" # name)> +>; + +//===----------------------------------------------------------------------===// // CastOp //===----------------------------------------------------------------------===// @@ -2422,9 +2435,17 @@ def CIR_GetMemberOp : CIR_Op<"get_member"> { // TODO(CIR): FuncOp is still a tiny shell of what it will become. Many more // properties and attributes will be added as upstreaming continues. +def CIR_OptionalPriorityAttr : OptionalAttr< + DefaultValuedAttr< + ConfinedAttr<I32Attr, [IntMinValue<101>, IntMaxValue<65535>]>, + "65535" + > +>; + def CIR_FuncOp : CIR_Op<"func", [ AutomaticAllocationScope, CallableOpInterface, FunctionOpInterface, DeclareOpInterfaceMethods<CIRGlobalValueInterface>, + HasAtMostOneOfAttrs<["global_ctor_priority", "global_dtor_priority"]>, IsolatedFromAbove ]> { let summary = "Declare or define a function"; @@ -2449,6 +2470,12 @@ def CIR_FuncOp : CIR_Op<"func", [ without a prototype and, consequently, may contain calls with invalid arguments and undefined behavior. + The `global_ctor` keyword indicates whether a function should execute before + `main()` function, as specified by `__attribute__((constructor))`. An + execution priority can also be specified `global_ctor(<priority>)`. + Similarly, for global destructors both `global_dtor` and + `global_dtor(<priority>)` are available. + Example: ```mlir @@ -2487,7 +2514,9 @@ def CIR_FuncOp : CIR_Op<"func", [ UnitAttr:$comdat, OptionalAttr<DictArrayAttr>:$arg_attrs, OptionalAttr<DictArrayAttr>:$res_attrs, - OptionalAttr<FlatSymbolRefAttr>:$aliasee); + OptionalAttr<FlatSymbolRefAttr>:$aliasee, + CIR_OptionalPriorityAttr:$global_ctor_priority, + CIR_OptionalPriorityAttr:$global_dtor_priority); let regions = (region AnyRegion:$body); @@ -4300,7 +4329,7 @@ def CIR_AllocExceptionOp : CIR_Op<"alloc.exception"> { // Atomic operations //===----------------------------------------------------------------------===// -def CIR_AtomicXchg : CIR_Op<"atomic.xchg", [ +def CIR_AtomicXchgOp : CIR_Op<"atomic.xchg", [ AllTypesMatch<["result", "val"]>, TypesMatchWith<"type of 'val' must match the pointee type of 'ptr'", "ptr", "val", "mlir::cast<cir::PointerType>($_self).getPointee()"> @@ -4318,9 +4347,7 @@ def CIR_AtomicXchg : CIR_Op<"atomic.xchg", [ Example: ```mlir - %res = cir.atomic.xchg(%ptr : !cir.ptr<!u64i>, - %val : !u64i, - seq_cst) : !u64i + %res = cir.atomic.xchg seq_cst %ptr, %val : !cir.ptr<!u64i> -> !u64i ``` }]; @@ -4335,12 +4362,16 @@ def CIR_AtomicXchg : CIR_Op<"atomic.xchg", [ let assemblyFormat = [{ $mem_order (`volatile` $is_volatile^)? $ptr `,` $val - `:` qualified(type($ptr)) `->` type($result) attr-dict + `:` functional-type(operands, results) attr-dict }]; } -def CIR_AtomicCmpXchg : CIR_Op<"atomic.cmpxchg", [ - AllTypesMatch<["old", "expected", "desired"]> +def CIR_AtomicCmpXchgOp : CIR_Op<"atomic.cmpxchg", [ + AllTypesMatch<["old", "expected", "desired"]>, + TypesMatchWith<"type of 'expected' must match the pointee type of 'ptr'", + "ptr", "expected", "mlir::cast<cir::PointerType>($_self).getPointee()">, + TypesMatchWith<"type of 'desired' must match the pointee type of 'ptr'", + "ptr", "desired", "mlir::cast<cir::PointerType>($_self).getPointee()"> ]> { let summary = "Atomic compare and exchange"; let description = [{ @@ -4373,12 +4404,9 @@ def CIR_AtomicCmpXchg : CIR_Op<"atomic.cmpxchg", [ Example: ```mlir - %old, %success = cir.atomic.cmpxchg(%ptr : !cir.ptr<!u64i>, - %expected : !u64i, - %desired : !u64i, - success = seq_cst, - failure = seq_cst) weak - : (!u64i, !cir.bool) + %old, %success = cir.atomic.cmpxchg weak success(seq_cst) failure(acquire) + %ptr, %expected, %desired + : (!cir.ptr<!u64i>, !u64i, !u64i) -> (!u64i, !cir.bool) ``` }]; let results = (outs CIR_AnyType:$old, CIR_BoolType:$success); @@ -4392,20 +4420,13 @@ def CIR_AtomicCmpXchg : CIR_Op<"atomic.cmpxchg", [ UnitAttr:$is_volatile); let assemblyFormat = [{ - `(` - $ptr `:` qualified(type($ptr)) `,` - $expected `:` type($expected) `,` - $desired `:` type($desired) `,` - `success` `=` $succ_order `,` - `failure` `=` $fail_order - `)` - (`align` `(` $alignment^ `)`)? (`weak` $weak^)? + `success` `(` $succ_order `)` `failure` `(` $fail_order `)` + $ptr `,` $expected `,` $desired + (`align` `(` $alignment^ `)`)? (`volatile` $is_volatile^)? - `:` `(` type($old) `,` type($success) `)` attr-dict + `:` functional-type(operands, results) attr-dict }]; - - let hasVerifier = 1; } #endif // CLANG_CIR_DIALECT_IR_CIROPS_TD diff --git a/clang/include/clang/CIR/MissingFeatures.h b/clang/include/clang/CIR/MissingFeatures.h index df82ca1..4fbae15 100644 --- a/clang/include/clang/CIR/MissingFeatures.h +++ b/clang/include/clang/CIR/MissingFeatures.h @@ -39,7 +39,6 @@ struct MissingFeatures { static bool opGlobalUsedOrCompilerUsed() { return false; } static bool opGlobalAnnotations() { return false; } static bool opGlobalCtorPriority() { return false; } - static bool opGlobalDtorList() { return false; } static bool setDSOLocal() { return false; } static bool setComdat() { return false; } @@ -175,6 +174,10 @@ struct MissingFeatures { static bool atomicScope() { return false; } static bool atomicSyncScopeID() { return false; } + // Global ctor handling + static bool globalCtorLexOrder() { return false; } + static bool globalCtorAssociatedData() { return false; } + // Misc static bool abiArgInfo() { return false; } static bool addHeapAllocSiteMetadata() { return false; } diff --git a/clang/include/clang/Sema/Template.h b/clang/include/clang/Sema/Template.h index 60c7d27..e963439b 100644 --- a/clang/include/clang/Sema/Template.h +++ b/clang/include/clang/Sema/Template.h @@ -205,8 +205,8 @@ enum class TemplateSubstitutionKind : char { /// Add a new outmost level to the multi-level template argument /// list. - /// A 'Final' substitution means that Subst* nodes won't be built - /// for the replacements. + /// A 'Final' substitution means that these Args don't need to be + /// resugared later. void addOuterTemplateArguments(Decl *AssociatedDecl, ArgList Args, bool Final) { assert(!NumRetainedOuterLevels && diff --git a/clang/lib/AST/ASTContext.cpp b/clang/lib/AST/ASTContext.cpp index a8b41ba..3603e9cd 100644 --- a/clang/lib/AST/ASTContext.cpp +++ b/clang/lib/AST/ASTContext.cpp @@ -11581,6 +11581,12 @@ QualType ASTContext::mergeTagDefinitions(QualType LHS, QualType RHS) { if (LangOpts.CPlusPlus || !LangOpts.C23) return {}; + // Nameless tags are comparable only within outer definitions. At the top + // level they are not comparable. + const TagDecl *LTagD = LHS->castAsTagDecl(), *RTagD = RHS->castAsTagDecl(); + if (!LTagD->getIdentifier() || !RTagD->getIdentifier()) + return {}; + // C23, on the other hand, requires the members to be "the same enough", so // we use a structural equivalence check. StructuralEquivalenceContext::NonEquivalentDeclSet NonEquivalentDecls; diff --git a/clang/lib/AST/ASTStructuralEquivalence.cpp b/clang/lib/AST/ASTStructuralEquivalence.cpp index 1557346..b17cd6f 100644 --- a/clang/lib/AST/ASTStructuralEquivalence.cpp +++ b/clang/lib/AST/ASTStructuralEquivalence.cpp @@ -1763,19 +1763,6 @@ static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context, // another anonymous structure or union, respectively, if their members // fulfill the preceding requirements. ... Otherwise, the structure, union, // or enumerated types are incompatible. - - // Note: "the same tag" refers to the identifier for the structure; two - // structures without names are not compatible within a TU. In C23, if either - // declaration has no name, they're not equivalent. However, the paragraph - // after the bulleted list goes on to talk about compatibility of anonymous - // structure and union members, so this prohibition only applies to top-level - // declarations; if either declaration is not a member, they cannot be - // compatible. - if (Context.LangOpts.C23 && (!D1->getIdentifier() || !D2->getIdentifier()) && - (!D1->getDeclContext()->isRecord() || !D2->getDeclContext()->isRecord())) - return false; - - // Otherwise, check the names for equivalence. if (!NameIsStructurallyEquivalent(*D1, *D2)) return false; diff --git a/clang/lib/AST/ByteCode/InterpBuiltin.cpp b/clang/lib/AST/ByteCode/InterpBuiltin.cpp index 84c5ecc..2d3cb6a 100644 --- a/clang/lib/AST/ByteCode/InterpBuiltin.cpp +++ b/clang/lib/AST/ByteCode/InterpBuiltin.cpp @@ -2587,6 +2587,82 @@ static bool interp__builtin_ia32_pmul( return true; } +static bool interp_builtin_horizontal_int_binop( + InterpState &S, CodePtr OpPC, const CallExpr *Call, + llvm::function_ref<APInt(const APSInt &, const APSInt &)> Fn) { + const auto *VT = Call->getArg(0)->getType()->castAs<VectorType>(); + PrimType ElemT = *S.getContext().classify(VT->getElementType()); + bool DestUnsigned = Call->getType()->isUnsignedIntegerOrEnumerationType(); + + const Pointer &RHS = S.Stk.pop<Pointer>(); + const Pointer &LHS = S.Stk.pop<Pointer>(); + const Pointer &Dst = S.Stk.peek<Pointer>(); + unsigned NumElts = VT->getNumElements(); + unsigned EltBits = S.getASTContext().getIntWidth(VT->getElementType()); + unsigned EltsPerLane = 128 / EltBits; + unsigned Lanes = NumElts * EltBits / 128; + unsigned DestIndex = 0; + + for (unsigned Lane = 0; Lane < Lanes; ++Lane) { + unsigned LaneStart = Lane * EltsPerLane; + for (unsigned I = 0; I < EltsPerLane; I += 2) { + INT_TYPE_SWITCH_NO_BOOL(ElemT, { + APSInt Elem1 = LHS.elem<T>(LaneStart + I).toAPSInt(); + APSInt Elem2 = LHS.elem<T>(LaneStart + I + 1).toAPSInt(); + APSInt ResL = APSInt(Fn(Elem1, Elem2), DestUnsigned); + Dst.elem<T>(DestIndex++) = static_cast<T>(ResL); + }); + } + + for (unsigned I = 0; I < EltsPerLane; I += 2) { + INT_TYPE_SWITCH_NO_BOOL(ElemT, { + APSInt Elem1 = RHS.elem<T>(LaneStart + I).toAPSInt(); + APSInt Elem2 = RHS.elem<T>(LaneStart + I + 1).toAPSInt(); + APSInt ResR = APSInt(Fn(Elem1, Elem2), DestUnsigned); + Dst.elem<T>(DestIndex++) = static_cast<T>(ResR); + }); + } + } + Dst.initializeAllElements(); + return true; +} + +static bool interp_builtin_horizontal_fp_binop( + InterpState &S, CodePtr OpPC, const CallExpr *Call, + llvm::function_ref<APFloat(const APFloat &, const APFloat &, + llvm::RoundingMode)> + Fn) { + const Pointer &RHS = S.Stk.pop<Pointer>(); + const Pointer &LHS = S.Stk.pop<Pointer>(); + const Pointer &Dst = S.Stk.peek<Pointer>(); + FPOptions FPO = Call->getFPFeaturesInEffect(S.Ctx.getLangOpts()); + llvm::RoundingMode RM = getRoundingMode(FPO); + const auto *VT = Call->getArg(0)->getType()->castAs<VectorType>(); + + unsigned NumElts = VT->getNumElements(); + unsigned EltBits = S.getASTContext().getTypeSize(VT->getElementType()); + unsigned NumLanes = NumElts * EltBits / 128; + unsigned NumElemsPerLane = NumElts / NumLanes; + unsigned HalfElemsPerLane = NumElemsPerLane / 2; + + for (unsigned L = 0; L != NumElts; L += NumElemsPerLane) { + using T = PrimConv<PT_Float>::T; + for (unsigned E = 0; E != HalfElemsPerLane; ++E) { + APFloat Elem1 = LHS.elem<T>(L + (2 * E) + 0).getAPFloat(); + APFloat Elem2 = LHS.elem<T>(L + (2 * E) + 1).getAPFloat(); + Dst.elem<T>(L + E) = static_cast<T>(Fn(Elem1, Elem2, RM)); + } + for (unsigned E = 0; E != HalfElemsPerLane; ++E) { + APFloat Elem1 = RHS.elem<T>(L + (2 * E) + 0).getAPFloat(); + APFloat Elem2 = RHS.elem<T>(L + (2 * E) + 1).getAPFloat(); + Dst.elem<T>(L + E + HalfElemsPerLane) = + static_cast<T>(Fn(Elem1, Elem2, RM)); + } + } + Dst.initializeAllElements(); + return true; +} + static bool interp__builtin_elementwise_triop_fp( InterpState &S, CodePtr OpPC, const CallExpr *Call, llvm::function_ref<APFloat(const APFloat &, const APFloat &, @@ -3665,6 +3741,53 @@ bool InterpretBuiltin(InterpState &S, CodePtr OpPC, const CallExpr *Call, case Builtin::BI__builtin_elementwise_min: return interp__builtin_elementwise_maxmin(S, OpPC, Call, BuiltinID); + case clang::X86::BI__builtin_ia32_phaddw128: + case clang::X86::BI__builtin_ia32_phaddw256: + case clang::X86::BI__builtin_ia32_phaddd128: + case clang::X86::BI__builtin_ia32_phaddd256: + return interp_builtin_horizontal_int_binop( + S, OpPC, Call, + [](const APSInt &LHS, const APSInt &RHS) { return LHS + RHS; }); + case clang::X86::BI__builtin_ia32_phaddsw128: + case clang::X86::BI__builtin_ia32_phaddsw256: + return interp_builtin_horizontal_int_binop( + S, OpPC, Call, + [](const APSInt &LHS, const APSInt &RHS) { return LHS.sadd_sat(RHS); }); + case clang::X86::BI__builtin_ia32_phsubw128: + case clang::X86::BI__builtin_ia32_phsubw256: + case clang::X86::BI__builtin_ia32_phsubd128: + case clang::X86::BI__builtin_ia32_phsubd256: + return interp_builtin_horizontal_int_binop( + S, OpPC, Call, + [](const APSInt &LHS, const APSInt &RHS) { return LHS - RHS; }); + case clang::X86::BI__builtin_ia32_phsubsw128: + case clang::X86::BI__builtin_ia32_phsubsw256: + return interp_builtin_horizontal_int_binop( + S, OpPC, Call, + [](const APSInt &LHS, const APSInt &RHS) { return LHS.ssub_sat(RHS); }); + case clang::X86::BI__builtin_ia32_haddpd: + case clang::X86::BI__builtin_ia32_haddps: + case clang::X86::BI__builtin_ia32_haddpd256: + case clang::X86::BI__builtin_ia32_haddps256: + return interp_builtin_horizontal_fp_binop( + S, OpPC, Call, + [](const APFloat &LHS, const APFloat &RHS, llvm::RoundingMode RM) { + APFloat F = LHS; + F.add(RHS, RM); + return F; + }); + case clang::X86::BI__builtin_ia32_hsubpd: + case clang::X86::BI__builtin_ia32_hsubps: + case clang::X86::BI__builtin_ia32_hsubpd256: + case clang::X86::BI__builtin_ia32_hsubps256: + return interp_builtin_horizontal_fp_binop( + S, OpPC, Call, + [](const APFloat &LHS, const APFloat &RHS, llvm::RoundingMode RM) { + APFloat F = LHS; + F.subtract(RHS, RM); + return F; + }); + case clang::X86::BI__builtin_ia32_pmuldq128: case clang::X86::BI__builtin_ia32_pmuldq256: case clang::X86::BI__builtin_ia32_pmuldq512: @@ -3695,6 +3818,21 @@ bool InterpretBuiltin(InterpState &S, CodePtr OpPC, const CallExpr *Call, return F; }); + case X86::BI__builtin_ia32_vpmadd52luq128: + case X86::BI__builtin_ia32_vpmadd52luq256: + case X86::BI__builtin_ia32_vpmadd52luq512: + return interp__builtin_elementwise_triop( + S, OpPC, Call, [](const APSInt &A, const APSInt &B, const APSInt &C) { + return A + (B.trunc(52) * C.trunc(52)).zext(64); + }); + case X86::BI__builtin_ia32_vpmadd52huq128: + case X86::BI__builtin_ia32_vpmadd52huq256: + case X86::BI__builtin_ia32_vpmadd52huq512: + return interp__builtin_elementwise_triop( + S, OpPC, Call, [](const APSInt &A, const APSInt &B, const APSInt &C) { + return A + llvm::APIntOps::mulhu(B.trunc(52), C.trunc(52)).zext(64); + }); + case X86::BI__builtin_ia32_vpshldd128: case X86::BI__builtin_ia32_vpshldd256: case X86::BI__builtin_ia32_vpshldd512: diff --git a/clang/lib/AST/Decl.cpp b/clang/lib/AST/Decl.cpp index c734155..69cbf6e 100644 --- a/clang/lib/AST/Decl.cpp +++ b/clang/lib/AST/Decl.cpp @@ -3316,6 +3316,10 @@ bool FunctionDecl::isImmediateEscalating() const { CD && CD->isInheritingConstructor()) return CD->getInheritedConstructor().getConstructor(); + // Destructors are not immediate escalating. + if (isa<CXXDestructorDecl>(this)) + return false; + // - a function that results from the instantiation of a templated entity // defined with the constexpr specifier. TemplatedKind TK = getTemplatedKind(); diff --git a/clang/lib/AST/ExprConstant.cpp b/clang/lib/AST/ExprConstant.cpp index dfdfef2..51c0382 100644 --- a/clang/lib/AST/ExprConstant.cpp +++ b/clang/lib/AST/ExprConstant.cpp @@ -11974,6 +11974,54 @@ bool VectorExprEvaluator::VisitCallExpr(const CallExpr *E) { return Success(APValue(ResultElements.data(), ResultElements.size()), E); } + + case X86::BI__builtin_ia32_vpmadd52luq128: + case X86::BI__builtin_ia32_vpmadd52luq256: + case X86::BI__builtin_ia32_vpmadd52luq512: { + APValue A, B, C; + if (!EvaluateAsRValue(Info, E->getArg(0), A) || + !EvaluateAsRValue(Info, E->getArg(1), B) || + !EvaluateAsRValue(Info, E->getArg(2), C)) + return false; + + unsigned ALen = A.getVectorLength(); + SmallVector<APValue, 4> ResultElements; + ResultElements.reserve(ALen); + + for (unsigned EltNum = 0; EltNum < ALen; EltNum += 1) { + APInt AElt = A.getVectorElt(EltNum).getInt(); + APInt BElt = B.getVectorElt(EltNum).getInt().trunc(52); + APInt CElt = C.getVectorElt(EltNum).getInt().trunc(52); + APSInt ResElt(AElt + (BElt * CElt).zext(64), false); + ResultElements.push_back(APValue(ResElt)); + } + + return Success(APValue(ResultElements.data(), ResultElements.size()), E); + } + case X86::BI__builtin_ia32_vpmadd52huq128: + case X86::BI__builtin_ia32_vpmadd52huq256: + case X86::BI__builtin_ia32_vpmadd52huq512: { + APValue A, B, C; + if (!EvaluateAsRValue(Info, E->getArg(0), A) || + !EvaluateAsRValue(Info, E->getArg(1), B) || + !EvaluateAsRValue(Info, E->getArg(2), C)) + return false; + + unsigned ALen = A.getVectorLength(); + SmallVector<APValue, 4> ResultElements; + ResultElements.reserve(ALen); + + for (unsigned EltNum = 0; EltNum < ALen; EltNum += 1) { + APInt AElt = A.getVectorElt(EltNum).getInt(); + APInt BElt = B.getVectorElt(EltNum).getInt().trunc(52); + APInt CElt = C.getVectorElt(EltNum).getInt().trunc(52); + APSInt ResElt(AElt + llvm::APIntOps::mulhu(BElt, CElt).zext(64), false); + ResultElements.push_back(APValue(ResElt)); + } + + return Success(APValue(ResultElements.data(), ResultElements.size()), E); + } + case clang::X86::BI__builtin_ia32_vprotbi: case clang::X86::BI__builtin_ia32_vprotdi: case clang::X86::BI__builtin_ia32_vprotqi: @@ -12381,6 +12429,169 @@ bool VectorExprEvaluator::VisitCallExpr(const CallExpr *E) { return Success(APValue(ResultElements.data(), ResultElements.size()), E); } + case clang::X86::BI__builtin_ia32_phaddw128: + case clang::X86::BI__builtin_ia32_phaddw256: + case clang::X86::BI__builtin_ia32_phaddd128: + case clang::X86::BI__builtin_ia32_phaddd256: + case clang::X86::BI__builtin_ia32_phaddsw128: + case clang::X86::BI__builtin_ia32_phaddsw256: + + case clang::X86::BI__builtin_ia32_phsubw128: + case clang::X86::BI__builtin_ia32_phsubw256: + case clang::X86::BI__builtin_ia32_phsubd128: + case clang::X86::BI__builtin_ia32_phsubd256: + case clang::X86::BI__builtin_ia32_phsubsw128: + case clang::X86::BI__builtin_ia32_phsubsw256: { + APValue SourceLHS, SourceRHS; + if (!EvaluateAsRValue(Info, E->getArg(0), SourceLHS) || + !EvaluateAsRValue(Info, E->getArg(1), SourceRHS)) + return false; + QualType DestEltTy = E->getType()->castAs<VectorType>()->getElementType(); + bool DestUnsigned = DestEltTy->isUnsignedIntegerOrEnumerationType(); + + unsigned NumElts = SourceLHS.getVectorLength(); + unsigned EltBits = Info.Ctx.getIntWidth(DestEltTy); + unsigned EltsPerLane = 128 / EltBits; + SmallVector<APValue, 4> ResultElements; + ResultElements.reserve(NumElts); + + for (unsigned LaneStart = 0; LaneStart != NumElts; + LaneStart += EltsPerLane) { + for (unsigned I = 0; I != EltsPerLane; I += 2) { + APSInt LHSA = SourceLHS.getVectorElt(LaneStart + I).getInt(); + APSInt LHSB = SourceLHS.getVectorElt(LaneStart + I + 1).getInt(); + switch (E->getBuiltinCallee()) { + case clang::X86::BI__builtin_ia32_phaddw128: + case clang::X86::BI__builtin_ia32_phaddw256: + case clang::X86::BI__builtin_ia32_phaddd128: + case clang::X86::BI__builtin_ia32_phaddd256: { + APSInt Res(LHSA + LHSB, DestUnsigned); + ResultElements.push_back(APValue(Res)); + break; + } + case clang::X86::BI__builtin_ia32_phaddsw128: + case clang::X86::BI__builtin_ia32_phaddsw256: { + APSInt Res(LHSA.sadd_sat(LHSB)); + ResultElements.push_back(APValue(Res)); + break; + } + case clang::X86::BI__builtin_ia32_phsubw128: + case clang::X86::BI__builtin_ia32_phsubw256: + case clang::X86::BI__builtin_ia32_phsubd128: + case clang::X86::BI__builtin_ia32_phsubd256: { + APSInt Res(LHSA - LHSB, DestUnsigned); + ResultElements.push_back(APValue(Res)); + break; + } + case clang::X86::BI__builtin_ia32_phsubsw128: + case clang::X86::BI__builtin_ia32_phsubsw256: { + APSInt Res(LHSA.ssub_sat(LHSB)); + ResultElements.push_back(APValue(Res)); + break; + } + } + } + for (unsigned I = 0; I != EltsPerLane; I += 2) { + APSInt RHSA = SourceRHS.getVectorElt(LaneStart + I).getInt(); + APSInt RHSB = SourceRHS.getVectorElt(LaneStart + I + 1).getInt(); + switch (E->getBuiltinCallee()) { + case clang::X86::BI__builtin_ia32_phaddw128: + case clang::X86::BI__builtin_ia32_phaddw256: + case clang::X86::BI__builtin_ia32_phaddd128: + case clang::X86::BI__builtin_ia32_phaddd256: { + APSInt Res(RHSA + RHSB, DestUnsigned); + ResultElements.push_back(APValue(Res)); + break; + } + case clang::X86::BI__builtin_ia32_phaddsw128: + case clang::X86::BI__builtin_ia32_phaddsw256: { + APSInt Res(RHSA.sadd_sat(RHSB)); + ResultElements.push_back(APValue(Res)); + break; + } + case clang::X86::BI__builtin_ia32_phsubw128: + case clang::X86::BI__builtin_ia32_phsubw256: + case clang::X86::BI__builtin_ia32_phsubd128: + case clang::X86::BI__builtin_ia32_phsubd256: { + APSInt Res(RHSA - RHSB, DestUnsigned); + ResultElements.push_back(APValue(Res)); + break; + } + case clang::X86::BI__builtin_ia32_phsubsw128: + case clang::X86::BI__builtin_ia32_phsubsw256: { + APSInt Res(RHSA.ssub_sat(RHSB)); + ResultElements.push_back(APValue(Res)); + break; + } + } + } + } + return Success(APValue(ResultElements.data(), ResultElements.size()), E); + } + case clang::X86::BI__builtin_ia32_haddpd: + case clang::X86::BI__builtin_ia32_haddps: + case clang::X86::BI__builtin_ia32_haddps256: + case clang::X86::BI__builtin_ia32_haddpd256: + case clang::X86::BI__builtin_ia32_hsubpd: + case clang::X86::BI__builtin_ia32_hsubps: + case clang::X86::BI__builtin_ia32_hsubps256: + case clang::X86::BI__builtin_ia32_hsubpd256: { + APValue SourceLHS, SourceRHS; + if (!EvaluateAsRValue(Info, E->getArg(0), SourceLHS) || + !EvaluateAsRValue(Info, E->getArg(1), SourceRHS)) + return false; + unsigned NumElts = SourceLHS.getVectorLength(); + SmallVector<APValue, 4> ResultElements; + ResultElements.reserve(NumElts); + llvm::RoundingMode RM = getActiveRoundingMode(getEvalInfo(), E); + QualType DestEltTy = E->getType()->castAs<VectorType>()->getElementType(); + unsigned EltBits = Info.Ctx.getTypeSize(DestEltTy); + unsigned NumLanes = NumElts * EltBits / 128; + unsigned NumElemsPerLane = NumElts / NumLanes; + unsigned HalfElemsPerLane = NumElemsPerLane / 2; + + for (unsigned L = 0; L != NumElts; L += NumElemsPerLane) { + for (unsigned I = 0; I != HalfElemsPerLane; ++I) { + APFloat LHSA = SourceLHS.getVectorElt(L + (2 * I) + 0).getFloat(); + APFloat LHSB = SourceLHS.getVectorElt(L + (2 * I) + 1).getFloat(); + switch (E->getBuiltinCallee()) { + case clang::X86::BI__builtin_ia32_haddpd: + case clang::X86::BI__builtin_ia32_haddps: + case clang::X86::BI__builtin_ia32_haddps256: + case clang::X86::BI__builtin_ia32_haddpd256: + LHSA.add(LHSB, RM); + break; + case clang::X86::BI__builtin_ia32_hsubpd: + case clang::X86::BI__builtin_ia32_hsubps: + case clang::X86::BI__builtin_ia32_hsubps256: + case clang::X86::BI__builtin_ia32_hsubpd256: + LHSA.subtract(LHSB, RM); + break; + } + ResultElements.push_back(APValue(LHSA)); + } + for (unsigned I = 0; I != HalfElemsPerLane; ++I) { + APFloat RHSA = SourceRHS.getVectorElt(L + (2 * I) + 0).getFloat(); + APFloat RHSB = SourceRHS.getVectorElt(L + (2 * I) + 1).getFloat(); + switch (E->getBuiltinCallee()) { + case clang::X86::BI__builtin_ia32_haddpd: + case clang::X86::BI__builtin_ia32_haddps: + case clang::X86::BI__builtin_ia32_haddps256: + case clang::X86::BI__builtin_ia32_haddpd256: + RHSA.add(RHSB, RM); + break; + case clang::X86::BI__builtin_ia32_hsubpd: + case clang::X86::BI__builtin_ia32_hsubps: + case clang::X86::BI__builtin_ia32_hsubps256: + case clang::X86::BI__builtin_ia32_hsubpd256: + RHSA.subtract(RHSB, RM); + break; + } + ResultElements.push_back(APValue(RHSA)); + } + } + return Success(APValue(ResultElements.data(), ResultElements.size()), E); + } case Builtin::BI__builtin_elementwise_fshl: case Builtin::BI__builtin_elementwise_fshr: { APValue SourceHi, SourceLo, SourceShift; diff --git a/clang/lib/AST/OpenACCClause.cpp b/clang/lib/AST/OpenACCClause.cpp index 17c6bec..142c932 100644 --- a/clang/lib/AST/OpenACCClause.cpp +++ b/clang/lib/AST/OpenACCClause.cpp @@ -509,7 +509,7 @@ OpenACCReductionClause *OpenACCReductionClause::Create( ArrayRef<OpenACCReductionRecipeWithStorage> Recipes, SourceLocation EndLoc) { size_t NumCombiners = llvm::accumulate( - Recipes, 0, [](size_t Num, const OpenACCReductionRecipe &R) { + Recipes, 0, [](size_t Num, const OpenACCReductionRecipeWithStorage &R) { return Num + R.CombinerRecipes.size(); }); diff --git a/clang/lib/Analysis/LifetimeSafety/FactsGenerator.cpp b/clang/lib/Analysis/LifetimeSafety/FactsGenerator.cpp index 485308f..9b68de1 100644 --- a/clang/lib/Analysis/LifetimeSafety/FactsGenerator.cpp +++ b/clang/lib/Analysis/LifetimeSafety/FactsGenerator.cpp @@ -9,9 +9,11 @@ #include "clang/Analysis/Analyses/LifetimeSafety/FactsGenerator.h" #include "clang/Analysis/Analyses/LifetimeSafety/LifetimeAnnotations.h" #include "clang/Analysis/Analyses/PostOrderCFGView.h" +#include "llvm/Support/Casting.h" #include "llvm/Support/TimeProfiler.h" namespace clang::lifetimes::internal { +using llvm::isa_and_present; static bool isGslPointerType(QualType QT) { if (const auto *RD = QT->getAsCXXRecordDecl()) { @@ -108,7 +110,7 @@ void FactsGenerator::VisitCXXMemberCallExpr(const CXXMemberCallExpr *MCE) { // Specifically for conversion operators, // like `std::string_view p = std::string{};` if (isGslPointerType(MCE->getType()) && - isa<CXXConversionDecl>(MCE->getCalleeDecl())) { + isa_and_present<CXXConversionDecl>(MCE->getCalleeDecl())) { // The argument is the implicit object itself. handleFunctionCall(MCE, MCE->getMethodDecl(), {MCE->getImplicitObjectArgument()}, diff --git a/clang/lib/Basic/Diagnostic.cpp b/clang/lib/Basic/Diagnostic.cpp index 8ecbd3c..2dec26e 100644 --- a/clang/lib/Basic/Diagnostic.cpp +++ b/clang/lib/Basic/Diagnostic.cpp @@ -525,7 +525,8 @@ std::unique_ptr<WarningsSpecialCaseList> WarningsSpecialCaseList::create(const llvm::MemoryBuffer &Input, std::string &Err) { auto WarningSuppressionList = std::make_unique<WarningsSpecialCaseList>(); - if (!WarningSuppressionList->createInternal(&Input, Err)) + if (!WarningSuppressionList->createInternal(&Input, Err, + /*OrderBySize=*/true)) return nullptr; return WarningSuppressionList; } diff --git a/clang/lib/Basic/Targets/AArch64.cpp b/clang/lib/Basic/Targets/AArch64.cpp index 9e03a08..18641a9 100644 --- a/clang/lib/Basic/Targets/AArch64.cpp +++ b/clang/lib/Basic/Targets/AArch64.cpp @@ -1568,6 +1568,7 @@ bool AArch64TargetInfo::validateAsmConstraint( if (const unsigned Len = matchAsmCCConstraint(Name)) { Name += Len - 1; Info.setAllowsRegister(); + Info.setOutputOperandBounds(0, 2); return true; } } diff --git a/clang/lib/Basic/Targets/SystemZ.cpp b/clang/lib/Basic/Targets/SystemZ.cpp index 13b8623..30f846c 100644 --- a/clang/lib/Basic/Targets/SystemZ.cpp +++ b/clang/lib/Basic/Targets/SystemZ.cpp @@ -99,6 +99,16 @@ bool SystemZTargetInfo::validateAsmConstraint( case 'T': // Likewise, plus an index Info.setAllowsMemory(); return true; + case '@': + // CC condition changes. + if (StringRef(Name) == "@cc") { + Name += 2; + Info.setAllowsRegister(); + // SystemZ has 2-bits CC, and hence Interval [0, 4). + Info.setOutputOperandBounds(0, 4); + return true; + } + return false; } } @@ -161,6 +171,9 @@ unsigned SystemZTargetInfo::getMinGlobalAlign(uint64_t Size, void SystemZTargetInfo::getTargetDefines(const LangOptions &Opts, MacroBuilder &Builder) const { + // Inline assembly supports SystemZ flag outputs. + Builder.defineMacro("__GCC_ASM_FLAG_OUTPUTS__"); + Builder.defineMacro("__s390__"); Builder.defineMacro("__s390x__"); Builder.defineMacro("__zarch__"); diff --git a/clang/lib/Basic/Targets/SystemZ.h b/clang/lib/Basic/Targets/SystemZ.h index dc2185e..4e15d5a 100644 --- a/clang/lib/Basic/Targets/SystemZ.h +++ b/clang/lib/Basic/Targets/SystemZ.h @@ -136,6 +136,12 @@ public: std::string convertConstraint(const char *&Constraint) const override { switch (Constraint[0]) { + case '@': // Flag output operand. + if (llvm::StringRef(Constraint) == "@cc") { + Constraint += 2; + return std::string("{@cc}"); + } + break; case 'p': // Keep 'p' constraint. return std::string("p"); case 'Z': diff --git a/clang/lib/Basic/Targets/X86.cpp b/clang/lib/Basic/Targets/X86.cpp index 6eb4db5..187815c 100644 --- a/clang/lib/Basic/Targets/X86.cpp +++ b/clang/lib/Basic/Targets/X86.cpp @@ -1516,6 +1516,7 @@ bool X86TargetInfo::validateAsmConstraint( if (auto Len = matchAsmCCConstraint(Name)) { Name += Len - 1; Info.setAllowsRegister(); + Info.setOutputOperandBounds(0, 2); return true; } return false; diff --git a/clang/lib/CIR/CodeGen/CIRGenAtomic.cpp b/clang/lib/CIR/CodeGen/CIRGenAtomic.cpp index 0f4d6d2..a9983f8 100644 --- a/clang/lib/CIR/CodeGen/CIRGenAtomic.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenAtomic.cpp @@ -255,7 +255,7 @@ static void emitAtomicCmpXchg(CIRGenFunction &cgf, AtomicExpr *e, bool isWeak, mlir::Value expected = builder.createLoad(loc, val1); mlir::Value desired = builder.createLoad(loc, val2); - auto cmpxchg = cir::AtomicCmpXchg::create( + auto cmpxchg = cir::AtomicCmpXchgOp::create( builder, loc, expected.getType(), builder.getBoolTy(), ptr.getPointer(), expected, desired, cir::MemOrderAttr::get(&cgf.getMLIRContext(), successOrder), @@ -404,7 +404,7 @@ static void emitAtomicOp(CIRGenFunction &cgf, AtomicExpr *expr, Address dest, case AtomicExpr::AO__c11_atomic_exchange: case AtomicExpr::AO__atomic_exchange_n: case AtomicExpr::AO__atomic_exchange: - opName = cir::AtomicXchg::getOperationName(); + opName = cir::AtomicXchgOp::getOperationName(); break; case AtomicExpr::AO__opencl_atomic_init: diff --git a/clang/lib/CIR/CodeGen/CIRGenModule.cpp b/clang/lib/CIR/CodeGen/CIRGenModule.cpp index fe1ea56..82b1051 100644 --- a/clang/lib/CIR/CodeGen/CIRGenModule.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenModule.cpp @@ -451,15 +451,47 @@ void CIRGenModule::emitGlobalFunctionDefinition(clang::GlobalDecl gd, setNonAliasAttributes(gd, funcOp); assert(!cir::MissingFeatures::opFuncAttributesForDefinition()); - if (funcDecl->getAttr<ConstructorAttr>()) - errorNYI(funcDecl->getSourceRange(), "constructor attribute"); - if (funcDecl->getAttr<DestructorAttr>()) - errorNYI(funcDecl->getSourceRange(), "destructor attribute"); + auto getPriority = [this](const auto *attr) -> int { + Expr *e = attr->getPriority(); + if (e) + return e->EvaluateKnownConstInt(this->getASTContext()).getExtValue(); + return attr->DefaultPriority; + }; + + if (const ConstructorAttr *ca = funcDecl->getAttr<ConstructorAttr>()) + addGlobalCtor(funcOp, getPriority(ca)); + if (const DestructorAttr *da = funcDecl->getAttr<DestructorAttr>()) + addGlobalDtor(funcOp, getPriority(da)); if (funcDecl->getAttr<AnnotateAttr>()) errorNYI(funcDecl->getSourceRange(), "deferredAnnotations"); } +/// Track functions to be called before main() runs. +void CIRGenModule::addGlobalCtor(cir::FuncOp ctor, + std::optional<int> priority) { + assert(!cir::MissingFeatures::globalCtorLexOrder()); + assert(!cir::MissingFeatures::globalCtorAssociatedData()); + + // Traditional LLVM codegen directly adds the function to the list of global + // ctors. In CIR we just add a global_ctor attribute to the function. The + // global list is created in LoweringPrepare. + // + // FIXME(from traditional LLVM): Type coercion of void()* types. + ctor.setGlobalCtorPriority(priority); +} + +/// Add a function to the list that will be called when the module is unloaded. +void CIRGenModule::addGlobalDtor(cir::FuncOp dtor, + std::optional<int> priority) { + if (codeGenOpts.RegisterGlobalDtorsWithAtExit && + (!getASTContext().getTargetInfo().getTriple().isOSAIX())) + errorNYI(dtor.getLoc(), "registerGlobalDtorsWithAtExit"); + + // FIXME(from traditional LLVM): Type coercion of void()* types. + dtor.setGlobalDtorPriority(priority); +} + void CIRGenModule::handleCXXStaticMemberVarInstantiation(VarDecl *vd) { VarDecl::DefinitionKind dk = vd->isThisDeclarationADefinition(); if (dk == VarDecl::Definition && vd->hasAttr<DLLImportAttr>()) diff --git a/clang/lib/CIR/CodeGen/CIRGenModule.h b/clang/lib/CIR/CodeGen/CIRGenModule.h index f627bae..690f0ed 100644 --- a/clang/lib/CIR/CodeGen/CIRGenModule.h +++ b/clang/lib/CIR/CodeGen/CIRGenModule.h @@ -159,6 +159,13 @@ public: bool isConstant = false, mlir::Operation *insertPoint = nullptr); + /// Add a global constructor or destructor to the module. + /// The priority is optional, if not specified, the default priority is used. + void addGlobalCtor(cir::FuncOp ctor, + std::optional<int> priority = std::nullopt); + void addGlobalDtor(cir::FuncOp dtor, + std::optional<int> priority = std::nullopt); + bool shouldZeroInitPadding() const { // In C23 (N3096) $6.7.10: // """ diff --git a/clang/lib/CIR/CodeGen/CIRGenOpenACCClause.cpp b/clang/lib/CIR/CodeGen/CIRGenOpenACCClause.cpp index 3d86f71..ce4ae7e 100644 --- a/clang/lib/CIR/CodeGen/CIRGenOpenACCClause.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenOpenACCClause.cpp @@ -1005,7 +1005,7 @@ public: /*temporary=*/nullptr, OpenACCReductionOperator::Invalid, Decl::castToDeclContext(cgf.curFuncDecl), opInfo.origType, opInfo.bounds.size(), opInfo.boundTypes, opInfo.baseType, - privateOp); + privateOp, /*reductionCombinerRecipes=*/{}); // TODO: OpenACC: The dialect is going to change in the near future to // have these be on a different operation, so when that changes, we // probably need to change these here. @@ -1046,7 +1046,7 @@ public: OpenACCReductionOperator::Invalid, Decl::castToDeclContext(cgf.curFuncDecl), opInfo.origType, opInfo.bounds.size(), opInfo.boundTypes, opInfo.baseType, - firstPrivateOp); + firstPrivateOp, /*reductionCombinerRecipe=*/{}); // TODO: OpenACC: The dialect is going to change in the near future to // have these be on a different operation, so when that changes, we @@ -1088,7 +1088,7 @@ public: /*temporary=*/nullptr, clause.getReductionOp(), Decl::castToDeclContext(cgf.curFuncDecl), opInfo.origType, opInfo.bounds.size(), opInfo.boundTypes, opInfo.baseType, - reductionOp); + reductionOp, varRecipe.CombinerRecipes); operation.addReduction(builder.getContext(), reductionOp, recipe); } diff --git a/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp b/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp index 24a5fc2..ce14aa8 100644 --- a/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp @@ -527,16 +527,142 @@ void OpenACCRecipeBuilderBase::createFirstprivateRecipeCopy( // doesn't restore it aftewards. void OpenACCRecipeBuilderBase::createReductionRecipeCombiner( mlir::Location loc, mlir::Location locEnd, mlir::Value mainOp, - mlir::acc::ReductionRecipeOp recipe, size_t numBounds) { + mlir::acc::ReductionRecipeOp recipe, size_t numBounds, QualType origType, + llvm::ArrayRef<OpenACCReductionRecipe::CombinerRecipe> combinerRecipes) { mlir::Block *block = createRecipeBlock(recipe.getCombinerRegion(), mainOp.getType(), loc, numBounds, /*isInit=*/false); builder.setInsertionPointToEnd(&recipe.getCombinerRegion().back()); CIRGenFunction::LexicalScope ls(cgf, loc, block); - mlir::BlockArgument lhsArg = block->getArgument(0); + mlir::Value lhsArg = block->getArgument(0); + mlir::Value rhsArg = block->getArgument(1); + llvm::MutableArrayRef<mlir::BlockArgument> boundsRange = + block->getArguments().drop_front(2); + + if (llvm::any_of(combinerRecipes, [](auto &r) { return r.Op == nullptr; })) { + cgf.cgm.errorNYI(loc, "OpenACC Reduction combiner not generated"); + mlir::acc::YieldOp::create(builder, locEnd, block->getArgument(0)); + return; + } + + // apply the bounds so that we can get our bounds emitted correctly. + for (mlir::BlockArgument boundArg : llvm::reverse(boundsRange)) + std::tie(lhsArg, rhsArg) = + createBoundsLoop(lhsArg, rhsArg, boundArg, loc, /*inverse=*/false); + + // Emitter for when we know this isn't a struct or array we have to loop + // through. This should work for the 'field' once the get-element call has + // been made. + auto emitSingleCombiner = + [&](mlir::Value lhsArg, mlir::Value rhsArg, + const OpenACCReductionRecipe::CombinerRecipe &combiner) { + mlir::Type elementTy = + mlir::cast<cir::PointerType>(lhsArg.getType()).getPointee(); + CIRGenFunction::DeclMapRevertingRAII declMapRAIILhs{cgf, combiner.LHS}; + cgf.setAddrOfLocalVar( + combiner.LHS, Address{lhsArg, elementTy, + cgf.getContext().getDeclAlign(combiner.LHS)}); + CIRGenFunction::DeclMapRevertingRAII declMapRAIIRhs{cgf, combiner.RHS}; + cgf.setAddrOfLocalVar( + combiner.RHS, Address{rhsArg, elementTy, + cgf.getContext().getDeclAlign(combiner.RHS)}); + + [[maybe_unused]] mlir::LogicalResult stmtRes = + cgf.emitStmt(combiner.Op, /*useCurrentScope=*/true); + }; + + // Emitter for when we know this is either a non-array or element of an array + // (which also shouldn't be an array type?). This function should generate the + // initialization code for an entire 'array-element'/non-array, including + // diving into each element of a struct (if necessary). + auto emitCombiner = [&](mlir::Value lhsArg, mlir::Value rhsArg, QualType ty) { + assert(!ty->isArrayType() && "Array type shouldn't get here"); + if (const auto *rd = ty->getAsRecordDecl()) { + if (combinerRecipes.size() == 1 && + cgf.getContext().hasSameType(ty, combinerRecipes[0].LHS->getType())) { + // If this is a 'top level' operator on the type we can just emit this + // as a simple one. + emitSingleCombiner(lhsArg, rhsArg, combinerRecipes[0]); + } else { + // else we have to handle each individual field after after a + // get-element. + for (const auto &[field, combiner] : + llvm::zip_equal(rd->fields(), combinerRecipes)) { + mlir::Type fieldType = cgf.convertType(field->getType()); + auto fieldPtr = cir::PointerType::get(fieldType); + + mlir::Value lhsField = builder.createGetMember( + loc, fieldPtr, lhsArg, field->getName(), field->getFieldIndex()); + mlir::Value rhsField = builder.createGetMember( + loc, fieldPtr, rhsArg, field->getName(), field->getFieldIndex()); + + emitSingleCombiner(lhsField, rhsField, combiner); + } + } + + } else { + // if this is a single-thing (because we should know this isn't an array, + // as Sema wouldn't let us get here), we can just do a normal emit call. + emitSingleCombiner(lhsArg, rhsArg, combinerRecipes[0]); + } + }; + + if (const auto *cat = cgf.getContext().getAsConstantArrayType(origType)) { + // If we're in an array, we have to emit the combiner for each element of + // the array. + auto itrTy = mlir::cast<cir::IntType>(cgf.PtrDiffTy); + auto itrPtrTy = cir::PointerType::get(itrTy); + + mlir::Value zero = + builder.getConstInt(loc, mlir::cast<cir::IntType>(cgf.PtrDiffTy), 0); + mlir::Value itr = + cir::AllocaOp::create(builder, loc, itrPtrTy, itrTy, "itr", + cgf.cgm.getSize(cgf.getPointerAlign())); + builder.CIRBaseBuilderTy::createStore(loc, zero, itr); + + builder.setInsertionPointAfter(builder.createFor( + loc, + /*condBuilder=*/ + [&](mlir::OpBuilder &b, mlir::Location loc) { + auto loadItr = cir::LoadOp::create(builder, loc, {itr}); + mlir::Value arraySize = builder.getConstInt( + loc, mlir::cast<cir::IntType>(cgf.PtrDiffTy), cat->getZExtSize()); + auto cmp = builder.createCompare(loc, cir::CmpOpKind::lt, loadItr, + arraySize); + builder.createCondition(cmp); + }, + /*bodyBuilder=*/ + [&](mlir::OpBuilder &b, mlir::Location loc) { + auto loadItr = cir::LoadOp::create(builder, loc, {itr}); + auto lhsElt = builder.getArrayElement( + loc, loc, lhsArg, cgf.convertType(cat->getElementType()), loadItr, + /*shouldDecay=*/true); + auto rhsElt = builder.getArrayElement( + loc, loc, rhsArg, cgf.convertType(cat->getElementType()), loadItr, + /*shouldDecay=*/true); + + emitCombiner(lhsElt, rhsElt, cat->getElementType()); + builder.createYield(loc); + }, + /*stepBuilder=*/ + [&](mlir::OpBuilder &b, mlir::Location loc) { + auto loadItr = cir::LoadOp::create(builder, loc, {itr}); + auto inc = cir::UnaryOp::create(builder, loc, loadItr.getType(), + cir::UnaryOpKind::Inc, loadItr); + builder.CIRBaseBuilderTy::createStore(loc, inc, itr); + builder.createYield(loc); + })); - mlir::acc::YieldOp::create(builder, locEnd, lhsArg); + } else if (origType->isArrayType()) { + cgf.cgm.errorNYI(loc, + "OpenACC Reduction combiner non-constant array recipe"); + } else { + emitCombiner(lhsArg, rhsArg, origType); + } + + builder.setInsertionPointToEnd(&recipe.getCombinerRegion().back()); + mlir::acc::YieldOp::create(builder, locEnd, block->getArgument(0)); } } // namespace clang::CIRGen diff --git a/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.h b/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.h index a5da744..745d424 100644 --- a/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.h +++ b/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.h @@ -64,10 +64,10 @@ protected: // that this function is not 'insertion point' clean, in that it alters the // insertion point to be inside of the 'combiner' section of the recipe, but // doesn't restore it aftewards. - void createReductionRecipeCombiner(mlir::Location loc, mlir::Location locEnd, - mlir::Value mainOp, - mlir::acc::ReductionRecipeOp recipe, - size_t numBounds); + void createReductionRecipeCombiner( + mlir::Location loc, mlir::Location locEnd, mlir::Value mainOp, + mlir::acc::ReductionRecipeOp recipe, size_t numBounds, QualType origType, + llvm::ArrayRef<OpenACCReductionRecipe::CombinerRecipe> combinerRecipes); void createInitRecipe(mlir::Location loc, mlir::Location locEnd, SourceRange exprRange, mlir::Value mainOp, @@ -169,7 +169,9 @@ public: const Expr *varRef, const VarDecl *varRecipe, const VarDecl *temporary, OpenACCReductionOperator reductionOp, DeclContext *dc, QualType origType, size_t numBounds, llvm::ArrayRef<QualType> boundTypes, QualType baseType, - mlir::Value mainOp) { + mlir::Value mainOp, + llvm::ArrayRef<OpenACCReductionRecipe::CombinerRecipe> + reductionCombinerRecipes) { assert(!varRecipe->getType()->isSpecificBuiltinType( BuiltinType::ArraySection) && "array section shouldn't make it to recipe creation"); @@ -208,7 +210,8 @@ public: createInitRecipe(loc, locEnd, varRef->getSourceRange(), mainOp, recipe.getInitRegion(), numBounds, boundTypes, varRecipe, origType, /*emitInitExpr=*/true); - createReductionRecipeCombiner(loc, locEnd, mainOp, recipe, numBounds); + createReductionRecipeCombiner(loc, locEnd, mainOp, recipe, numBounds, + origType, reductionCombinerRecipes); } else { static_assert(std::is_same_v<RecipeTy, mlir::acc::FirstprivateRecipeOp>); createInitRecipe(loc, locEnd, varRef->getSourceRange(), mainOp, diff --git a/clang/lib/CIR/CodeGen/CIRGenStmt.cpp b/clang/lib/CIR/CodeGen/CIRGenStmt.cpp index cfd48a2..5ba64dd 100644 --- a/clang/lib/CIR/CodeGen/CIRGenStmt.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenStmt.cpp @@ -536,7 +536,7 @@ mlir::LogicalResult CIRGenFunction::emitLabel(const clang::LabelDecl &d) { mlir::Block *currBlock = builder.getBlock(); mlir::Block *labelBlock = currBlock; - if (!currBlock->empty()) { + if (!currBlock->empty() || currBlock->isEntryBlock()) { { mlir::OpBuilder::InsertionGuard guard(builder); labelBlock = builder.createBlock(builder.getBlock()->getParent()); diff --git a/clang/lib/CIR/Dialect/IR/CIRDialect.cpp b/clang/lib/CIR/Dialect/IR/CIRDialect.cpp index 5f88590..7af3dc1 100644 --- a/clang/lib/CIR/Dialect/IR/CIRDialect.cpp +++ b/clang/lib/CIR/Dialect/IR/CIRDialect.cpp @@ -15,6 +15,7 @@ #include "clang/CIR/Dialect/IR/CIROpsEnums.h" #include "clang/CIR/Dialect/IR/CIRTypes.h" +#include "mlir/IR/DialectImplementation.h" #include "mlir/Interfaces/ControlFlowInterfaces.h" #include "mlir/Interfaces/FunctionImplementation.h" #include "mlir/Support/LLVM.h" @@ -1720,6 +1721,43 @@ ParseResult cir::FuncOp::parse(OpAsmParser &parser, OperationState &state) { hasAlias = true; } + auto parseGlobalDtorCtor = + [&](StringRef keyword, + llvm::function_ref<void(std::optional<int> prio)> createAttr) + -> mlir::LogicalResult { + if (mlir::succeeded(parser.parseOptionalKeyword(keyword))) { + std::optional<int> priority; + if (mlir::succeeded(parser.parseOptionalLParen())) { + auto parsedPriority = mlir::FieldParser<int>::parse(parser); + if (mlir::failed(parsedPriority)) + return parser.emitError(parser.getCurrentLocation(), + "failed to parse 'priority', of type 'int'"); + priority = parsedPriority.value_or(int()); + // Parse literal ')' + if (parser.parseRParen()) + return failure(); + } + createAttr(priority); + } + return success(); + }; + + if (parseGlobalDtorCtor("global_ctor", [&](std::optional<int> priority) { + mlir::IntegerAttr globalCtorPriorityAttr = + builder.getI32IntegerAttr(priority.value_or(65535)); + state.addAttribute(getGlobalCtorPriorityAttrName(state.name), + globalCtorPriorityAttr); + }).failed()) + return failure(); + + if (parseGlobalDtorCtor("global_dtor", [&](std::optional<int> priority) { + mlir::IntegerAttr globalDtorPriorityAttr = + builder.getI32IntegerAttr(priority.value_or(65535)); + state.addAttribute(getGlobalDtorPriorityAttrName(state.name), + globalDtorPriorityAttr); + }).failed()) + return failure(); + // Parse the optional function body. auto *body = state.addRegion(); OptionalParseResult parseResult = parser.parseOptionalRegion( @@ -1801,6 +1839,18 @@ void cir::FuncOp::print(OpAsmPrinter &p) { p << ")"; } + if (auto globalCtorPriority = getGlobalCtorPriority()) { + p << " global_ctor"; + if (globalCtorPriority.value() != 65535) + p << "(" << globalCtorPriority.value() << ")"; + } + + if (auto globalDtorPriority = getGlobalDtorPriority()) { + p << " global_dtor"; + if (globalDtorPriority.value() != 65535) + p << "(" << globalDtorPriority.value() << ")"; + } + // Print the body if this is not an external function. Region &body = getOperation()->getRegion(0); if (!body.empty()) { @@ -2851,20 +2901,6 @@ mlir::LogicalResult cir::ThrowOp::verify() { } //===----------------------------------------------------------------------===// -// AtomicCmpXchg -//===----------------------------------------------------------------------===// - -LogicalResult cir::AtomicCmpXchg::verify() { - mlir::Type pointeeType = getPtr().getType().getPointee(); - - if (pointeeType != getExpected().getType() || - pointeeType != getDesired().getType()) - return emitOpError("ptr, expected and desired types must match"); - - return success(); -} - -//===----------------------------------------------------------------------===// // TypeInfoAttr //===----------------------------------------------------------------------===// diff --git a/clang/lib/CIR/Dialect/Transforms/LoweringPrepare.cpp b/clang/lib/CIR/Dialect/Transforms/LoweringPrepare.cpp index dbff0b9..d99c362 100644 --- a/clang/lib/CIR/Dialect/Transforms/LoweringPrepare.cpp +++ b/clang/lib/CIR/Dialect/Transforms/LoweringPrepare.cpp @@ -105,6 +105,8 @@ struct LoweringPreparePass : public LoweringPrepareBase<LoweringPreparePass> { /// List of ctors and their priorities to be called before main() llvm::SmallVector<std::pair<std::string, uint32_t>, 4> globalCtorList; + /// List of dtors and their priorities to be called when unloading module. + llvm::SmallVector<std::pair<std::string, uint32_t>, 4> globalDtorList; void setASTContext(clang::ASTContext *c) { astCtx = c; @@ -823,10 +825,13 @@ void LoweringPreparePass::buildGlobalCtorDtorList() { mlir::ArrayAttr::get(&getContext(), globalCtors)); } - // We will eventual need to populate a global_dtor list, but that's not - // needed for globals with destructors. It will only be needed for functions - // that are marked as global destructors with an attribute. - assert(!cir::MissingFeatures::opGlobalDtorList()); + if (!globalDtorList.empty()) { + llvm::SmallVector<mlir::Attribute> globalDtors = + prepareCtorDtorAttrList<cir::GlobalDtorAttr>(&getContext(), + globalDtorList); + mlirModule->setAttr(cir::CIRDialect::getGlobalDtorsAttrName(), + mlir::ArrayAttr::get(&getContext(), globalDtors)); + } } void LoweringPreparePass::buildCXXGlobalInitFunc() { @@ -975,22 +980,28 @@ void LoweringPreparePass::lowerArrayCtor(cir::ArrayCtor op) { } void LoweringPreparePass::runOnOp(mlir::Operation *op) { - if (auto arrayCtor = dyn_cast<ArrayCtor>(op)) + if (auto arrayCtor = dyn_cast<cir::ArrayCtor>(op)) { lowerArrayCtor(arrayCtor); - else if (auto arrayDtor = dyn_cast<cir::ArrayDtor>(op)) + } else if (auto arrayDtor = dyn_cast<cir::ArrayDtor>(op)) { lowerArrayDtor(arrayDtor); - else if (auto cast = mlir::dyn_cast<cir::CastOp>(op)) + } else if (auto cast = mlir::dyn_cast<cir::CastOp>(op)) { lowerCastOp(cast); - else if (auto complexDiv = mlir::dyn_cast<cir::ComplexDivOp>(op)) + } else if (auto complexDiv = mlir::dyn_cast<cir::ComplexDivOp>(op)) { lowerComplexDivOp(complexDiv); - else if (auto complexMul = mlir::dyn_cast<cir::ComplexMulOp>(op)) + } else if (auto complexMul = mlir::dyn_cast<cir::ComplexMulOp>(op)) { lowerComplexMulOp(complexMul); - else if (auto glob = mlir::dyn_cast<cir::GlobalOp>(op)) + } else if (auto glob = mlir::dyn_cast<cir::GlobalOp>(op)) { lowerGlobalOp(glob); - else if (auto dynamicCast = mlir::dyn_cast<cir::DynamicCastOp>(op)) + } else if (auto dynamicCast = mlir::dyn_cast<cir::DynamicCastOp>(op)) { lowerDynamicCastOp(dynamicCast); - else if (auto unary = mlir::dyn_cast<cir::UnaryOp>(op)) + } else if (auto unary = mlir::dyn_cast<cir::UnaryOp>(op)) { lowerUnaryOp(unary); + } else if (auto fnOp = dyn_cast<cir::FuncOp>(op)) { + if (auto globalCtor = fnOp.getGlobalCtorPriority()) + globalCtorList.emplace_back(fnOp.getName(), globalCtor.value()); + else if (auto globalDtor = fnOp.getGlobalDtorPriority()) + globalDtorList.emplace_back(fnOp.getName(), globalDtor.value()); + } } void LoweringPreparePass::runOnOperation() { @@ -1003,7 +1014,7 @@ void LoweringPreparePass::runOnOperation() { op->walk([&](mlir::Operation *op) { if (mlir::isa<cir::ArrayCtor, cir::ArrayDtor, cir::CastOp, cir::ComplexMulOp, cir::ComplexDivOp, cir::DynamicCastOp, - cir::GlobalOp, cir::UnaryOp>(op)) + cir::FuncOp, cir::GlobalOp, cir::UnaryOp>(op)) opsToTransform.push_back(op); }); diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index 26e0ba9..3abba3d 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -694,8 +694,8 @@ getLLVMMemOrder(std::optional<cir::MemOrder> memorder) { llvm_unreachable("unknown memory order"); } -mlir::LogicalResult CIRToLLVMAtomicCmpXchgLowering::matchAndRewrite( - cir::AtomicCmpXchg op, OpAdaptor adaptor, +mlir::LogicalResult CIRToLLVMAtomicCmpXchgOpLowering::matchAndRewrite( + cir::AtomicCmpXchgOp op, OpAdaptor adaptor, mlir::ConversionPatternRewriter &rewriter) const { mlir::Value expected = adaptor.getExpected(); mlir::Value desired = adaptor.getDesired(); @@ -719,8 +719,8 @@ mlir::LogicalResult CIRToLLVMAtomicCmpXchgLowering::matchAndRewrite( return mlir::success(); } -mlir::LogicalResult CIRToLLVMAtomicXchgLowering::matchAndRewrite( - cir::AtomicXchg op, OpAdaptor adaptor, +mlir::LogicalResult CIRToLLVMAtomicXchgOpLowering::matchAndRewrite( + cir::AtomicXchgOp op, OpAdaptor adaptor, mlir::ConversionPatternRewriter &rewriter) const { assert(!cir::MissingFeatures::atomicSyncScopeID()); mlir::LLVM::AtomicOrdering llvmOrder = getLLVMMemOrder(adaptor.getMemOrder()); @@ -2598,7 +2598,13 @@ void ConvertCIRToLLVMPass::runOnOperation() { return std::make_pair(ctorAttr.getName(), ctorAttr.getPriority()); }); - assert(!cir::MissingFeatures::opGlobalDtorList()); + // Emit the llvm.global_dtors array. + buildCtorDtorList(module, cir::CIRDialect::getGlobalDtorsAttrName(), + "llvm.global_dtors", [](mlir::Attribute attr) { + auto dtorAttr = mlir::cast<cir::GlobalDtorAttr>(attr); + return std::make_pair(dtorAttr.getName(), + dtorAttr.getPriority()); + }); } mlir::LogicalResult CIRToLLVMBrOpLowering::matchAndRewrite( diff --git a/clang/lib/CodeGen/CGStmt.cpp b/clang/lib/CodeGen/CGStmt.cpp index 92636f2..fdc1a11 100644 --- a/clang/lib/CodeGen/CGStmt.cpp +++ b/clang/lib/CodeGen/CGStmt.cpp @@ -2674,7 +2674,8 @@ EmitAsmStores(CodeGenFunction &CGF, const AsmStmt &S, const llvm::ArrayRef<LValue> ResultRegDests, const llvm::ArrayRef<QualType> ResultRegQualTys, const llvm::BitVector &ResultTypeRequiresCast, - const llvm::BitVector &ResultRegIsFlagReg) { + const std::vector<std::optional<std::pair<unsigned, unsigned>>> + &ResultBounds) { CGBuilderTy &Builder = CGF.Builder; CodeGenModule &CGM = CGF.CGM; llvm::LLVMContext &CTX = CGF.getLLVMContext(); @@ -2685,18 +2686,20 @@ EmitAsmStores(CodeGenFunction &CGF, const AsmStmt &S, // ResultRegDests can be also populated by addReturnRegisterOutputs() above, // in which case its size may grow. assert(ResultTypeRequiresCast.size() <= ResultRegDests.size()); - assert(ResultRegIsFlagReg.size() <= ResultRegDests.size()); + assert(ResultBounds.size() <= ResultRegDests.size()); for (unsigned i = 0, e = RegResults.size(); i != e; ++i) { llvm::Value *Tmp = RegResults[i]; llvm::Type *TruncTy = ResultTruncRegTypes[i]; - if ((i < ResultRegIsFlagReg.size()) && ResultRegIsFlagReg[i]) { - // Target must guarantee the Value `Tmp` here is lowered to a boolean - // value. - llvm::Constant *Two = llvm::ConstantInt::get(Tmp->getType(), 2); + if ((i < ResultBounds.size()) && ResultBounds[i].has_value()) { + const auto [LowerBound, UpperBound] = ResultBounds[i].value(); + // FIXME: Support for nonzero lower bounds not yet implemented. + assert(LowerBound == 0 && "Output operand lower bound is not zero."); + llvm::Constant *UpperBoundConst = + llvm::ConstantInt::get(Tmp->getType(), UpperBound); llvm::Value *IsBooleanValue = - Builder.CreateCmp(llvm::CmpInst::ICMP_ULT, Tmp, Two); + Builder.CreateCmp(llvm::CmpInst::ICMP_ULT, Tmp, UpperBoundConst); llvm::Function *FnAssume = CGM.getIntrinsic(llvm::Intrinsic::assume); Builder.CreateCall(FnAssume, IsBooleanValue); } @@ -2825,7 +2828,7 @@ void CodeGenFunction::EmitAsmStmt(const AsmStmt &S) { std::vector<llvm::Type *> ArgElemTypes; std::vector<llvm::Value*> Args; llvm::BitVector ResultTypeRequiresCast; - llvm::BitVector ResultRegIsFlagReg; + std::vector<std::optional<std::pair<unsigned, unsigned>>> ResultBounds; // Keep track of inout constraints. std::string InOutConstraints; @@ -2883,8 +2886,7 @@ void CodeGenFunction::EmitAsmStmt(const AsmStmt &S) { ResultRegQualTys.push_back(QTy); ResultRegDests.push_back(Dest); - bool IsFlagReg = llvm::StringRef(OutputConstraint).starts_with("{@cc"); - ResultRegIsFlagReg.push_back(IsFlagReg); + ResultBounds.emplace_back(Info.getOutputOperandBounds()); llvm::Type *Ty = ConvertTypeForMem(QTy); const bool RequiresCast = Info.allowsRegister() && @@ -3231,7 +3233,7 @@ void CodeGenFunction::EmitAsmStmt(const AsmStmt &S) { EmitAsmStores(*this, S, RegResults, ResultRegTypes, ResultTruncRegTypes, ResultRegDests, ResultRegQualTys, ResultTypeRequiresCast, - ResultRegIsFlagReg); + ResultBounds); // If this is an asm goto with outputs, repeat EmitAsmStores, but with a // different insertion point; one for each indirect destination and with @@ -3242,7 +3244,7 @@ void CodeGenFunction::EmitAsmStmt(const AsmStmt &S) { Builder.SetInsertPoint(Succ, --(Succ->end())); EmitAsmStores(*this, S, CBRRegResults[Succ], ResultRegTypes, ResultTruncRegTypes, ResultRegDests, ResultRegQualTys, - ResultTypeRequiresCast, ResultRegIsFlagReg); + ResultTypeRequiresCast, ResultBounds); } } } diff --git a/clang/lib/CodeGen/Targets/RISCV.cpp b/clang/lib/CodeGen/Targets/RISCV.cpp index 0ef39b6..0d0941e 100644 --- a/clang/lib/CodeGen/Targets/RISCV.cpp +++ b/clang/lib/CodeGen/Targets/RISCV.cpp @@ -680,22 +680,22 @@ ABIArgInfo RISCVABIInfo::classifyArgumentType(QualType Ty, bool IsFixed, if (const auto *ED = Ty->getAsEnumDecl()) Ty = ED->getIntegerType(); - // All integral types are promoted to XLen width - if (Size < XLen && Ty->isIntegralOrEnumerationType()) { - return extendType(Ty, CGT.ConvertType(Ty)); - } - if (const auto *EIT = Ty->getAs<BitIntType>()) { - if (EIT->getNumBits() < XLen) + + if (XLen == 64 && EIT->getNumBits() == 32) return extendType(Ty, CGT.ConvertType(Ty)); - if (EIT->getNumBits() > 128 || - (!getContext().getTargetInfo().hasInt128Type() && - EIT->getNumBits() > 64)) - return getNaturalAlignIndirect( - Ty, /*AddrSpace=*/getDataLayout().getAllocaAddrSpace(), - /*ByVal=*/false); + + if (EIT->getNumBits() <= 2 * XLen) + return ABIArgInfo::getExtend(Ty, CGT.ConvertType(Ty)); + return getNaturalAlignIndirect( + Ty, /*AddrSpace=*/getDataLayout().getAllocaAddrSpace(), + /*ByVal=*/false); } + // All integral types are promoted to XLen width + if (Size < XLen && Ty->isIntegralOrEnumerationType()) + return extendType(Ty, CGT.ConvertType(Ty)); + return ABIArgInfo::getDirect(); } diff --git a/clang/lib/Format/FormatToken.cpp b/clang/lib/Format/FormatToken.cpp index c2956a1..cb3fc1c 100644 --- a/clang/lib/Format/FormatToken.cpp +++ b/clang/lib/Format/FormatToken.cpp @@ -41,8 +41,7 @@ static constexpr std::array<StringRef, 14> QtPropertyKeywords = { bool FormatToken::isQtProperty() const { assert(llvm::is_sorted(QtPropertyKeywords)); - return std::binary_search(QtPropertyKeywords.begin(), - QtPropertyKeywords.end(), TokenText); + return llvm::binary_search(QtPropertyKeywords, TokenText); } // Sorted common C++ non-keyword types. diff --git a/clang/lib/Headers/avx2intrin.h b/clang/lib/Headers/avx2intrin.h index 4aaca2d..e150aa6 100644 --- a/clang/lib/Headers/avx2intrin.h +++ b/clang/lib/Headers/avx2intrin.h @@ -834,10 +834,9 @@ _mm256_cmpgt_epi64(__m256i __a, __m256i __b) /// \param __b /// A 256-bit vector of [16 x i16] containing one of the source operands. /// \returns A 256-bit vector of [16 x i16] containing the sums. -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_hadd_epi16(__m256i __a, __m256i __b) -{ - return (__m256i)__builtin_ia32_phaddw256((__v16hi)__a, (__v16hi)__b); +static __inline__ __m256i __DEFAULT_FN_ATTRS256_CONSTEXPR +_mm256_hadd_epi16(__m256i __a, __m256i __b) { + return (__m256i)__builtin_ia32_phaddw256((__v16hi)__a, (__v16hi)__b); } /// Horizontally adds the adjacent pairs of 32-bit integers from two 256-bit @@ -866,10 +865,9 @@ _mm256_hadd_epi16(__m256i __a, __m256i __b) /// \param __b /// A 256-bit vector of [8 x i32] containing one of the source operands. /// \returns A 256-bit vector of [8 x i32] containing the sums. -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_hadd_epi32(__m256i __a, __m256i __b) -{ - return (__m256i)__builtin_ia32_phaddd256((__v8si)__a, (__v8si)__b); +static __inline__ __m256i __DEFAULT_FN_ATTRS256_CONSTEXPR +_mm256_hadd_epi32(__m256i __a, __m256i __b) { + return (__m256i)__builtin_ia32_phaddd256((__v8si)__a, (__v8si)__b); } /// Horizontally adds the adjacent pairs of 16-bit integers from two 256-bit @@ -901,10 +899,9 @@ _mm256_hadd_epi32(__m256i __a, __m256i __b) /// \param __b /// A 256-bit vector of [16 x i16] containing one of the source operands. /// \returns A 256-bit vector of [16 x i16] containing the sums. -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_hadds_epi16(__m256i __a, __m256i __b) -{ - return (__m256i)__builtin_ia32_phaddsw256((__v16hi)__a, (__v16hi)__b); +static __inline__ __m256i __DEFAULT_FN_ATTRS256_CONSTEXPR +_mm256_hadds_epi16(__m256i __a, __m256i __b) { + return (__m256i)__builtin_ia32_phaddsw256((__v16hi)__a, (__v16hi)__b); } /// Horizontally subtracts adjacent pairs of 16-bit integers from two 256-bit @@ -937,10 +934,9 @@ _mm256_hadds_epi16(__m256i __a, __m256i __b) /// \param __b /// A 256-bit vector of [16 x i16] containing one of the source operands. /// \returns A 256-bit vector of [16 x i16] containing the differences. -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_hsub_epi16(__m256i __a, __m256i __b) -{ - return (__m256i)__builtin_ia32_phsubw256((__v16hi)__a, (__v16hi)__b); +static __inline__ __m256i __DEFAULT_FN_ATTRS256_CONSTEXPR +_mm256_hsub_epi16(__m256i __a, __m256i __b) { + return (__m256i)__builtin_ia32_phsubw256((__v16hi)__a, (__v16hi)__b); } /// Horizontally subtracts adjacent pairs of 32-bit integers from two 256-bit @@ -969,10 +965,9 @@ _mm256_hsub_epi16(__m256i __a, __m256i __b) /// \param __b /// A 256-bit vector of [8 x i32] containing one of the source operands. /// \returns A 256-bit vector of [8 x i32] containing the differences. -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_hsub_epi32(__m256i __a, __m256i __b) -{ - return (__m256i)__builtin_ia32_phsubd256((__v8si)__a, (__v8si)__b); +static __inline__ __m256i __DEFAULT_FN_ATTRS256_CONSTEXPR +_mm256_hsub_epi32(__m256i __a, __m256i __b) { + return (__m256i)__builtin_ia32_phsubd256((__v8si)__a, (__v8si)__b); } /// Horizontally subtracts adjacent pairs of 16-bit integers from two 256-bit @@ -1005,10 +1000,9 @@ _mm256_hsub_epi32(__m256i __a, __m256i __b) /// \param __b /// A 256-bit vector of [16 x i16] containing one of the source operands. /// \returns A 256-bit vector of [16 x i16] containing the differences. -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_hsubs_epi16(__m256i __a, __m256i __b) -{ - return (__m256i)__builtin_ia32_phsubsw256((__v16hi)__a, (__v16hi)__b); +static __inline__ __m256i __DEFAULT_FN_ATTRS256_CONSTEXPR +_mm256_hsubs_epi16(__m256i __a, __m256i __b) { + return (__m256i)__builtin_ia32_phsubsw256((__v16hi)__a, (__v16hi)__b); } /// Multiplies each unsigned byte from the 256-bit integer vector in \a __a diff --git a/clang/lib/Headers/avx512ifmaintrin.h b/clang/lib/Headers/avx512ifmaintrin.h index f01b322..625a8ff 100644 --- a/clang/lib/Headers/avx512ifmaintrin.h +++ b/clang/lib/Headers/avx512ifmaintrin.h @@ -15,54 +15,53 @@ #define __IFMAINTRIN_H /* Define the default attributes for the functions in this file. */ +#if defined(__cplusplus) && (__cplusplus >= 201103L) +#define __DEFAULT_FN_ATTRS \ + constexpr \ + __attribute__((__always_inline__, __nodebug__, __target__("avx512ifma"), \ + __min_vector_width__(512))) +#else #define __DEFAULT_FN_ATTRS \ __attribute__((__always_inline__, __nodebug__, __target__("avx512ifma"), \ __min_vector_width__(512))) +#endif static __inline__ __m512i __DEFAULT_FN_ATTRS -_mm512_madd52hi_epu64 (__m512i __X, __m512i __Y, __m512i __Z) -{ - return (__m512i)__builtin_ia32_vpmadd52huq512((__v8di) __X, (__v8di) __Y, - (__v8di) __Z); +_mm512_madd52hi_epu64(__m512i __X, __m512i __Y, __m512i __Z) { + return (__m512i)__builtin_ia32_vpmadd52huq512((__v8di)__X, (__v8di)__Y, + (__v8di)__Z); } -static __inline__ __m512i __DEFAULT_FN_ATTRS -_mm512_mask_madd52hi_epu64 (__m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) -{ - return (__m512i)__builtin_ia32_selectq_512(__M, - (__v8di)_mm512_madd52hi_epu64(__W, __X, __Y), - (__v8di)__W); +static __inline__ __m512i __DEFAULT_FN_ATTRS _mm512_mask_madd52hi_epu64( + __m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) { + return (__m512i)__builtin_ia32_selectq_512( + __M, (__v8di)_mm512_madd52hi_epu64(__W, __X, __Y), (__v8di)__W); } -static __inline__ __m512i __DEFAULT_FN_ATTRS -_mm512_maskz_madd52hi_epu64 (__mmask8 __M, __m512i __X, __m512i __Y, __m512i __Z) -{ - return (__m512i)__builtin_ia32_selectq_512(__M, - (__v8di)_mm512_madd52hi_epu64(__X, __Y, __Z), - (__v8di)_mm512_setzero_si512()); +static __inline__ __m512i __DEFAULT_FN_ATTRS _mm512_maskz_madd52hi_epu64( + __mmask8 __M, __m512i __X, __m512i __Y, __m512i __Z) { + return (__m512i)__builtin_ia32_selectq_512( + __M, (__v8di)_mm512_madd52hi_epu64(__X, __Y, __Z), + (__v8di)_mm512_setzero_si512()); } static __inline__ __m512i __DEFAULT_FN_ATTRS -_mm512_madd52lo_epu64 (__m512i __X, __m512i __Y, __m512i __Z) -{ - return (__m512i)__builtin_ia32_vpmadd52luq512((__v8di) __X, (__v8di) __Y, - (__v8di) __Z); +_mm512_madd52lo_epu64(__m512i __X, __m512i __Y, __m512i __Z) { + return (__m512i)__builtin_ia32_vpmadd52luq512((__v8di)__X, (__v8di)__Y, + (__v8di)__Z); } -static __inline__ __m512i __DEFAULT_FN_ATTRS -_mm512_mask_madd52lo_epu64 (__m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) -{ - return (__m512i)__builtin_ia32_selectq_512(__M, - (__v8di)_mm512_madd52lo_epu64(__W, __X, __Y), - (__v8di)__W); +static __inline__ __m512i __DEFAULT_FN_ATTRS _mm512_mask_madd52lo_epu64( + __m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) { + return (__m512i)__builtin_ia32_selectq_512( + __M, (__v8di)_mm512_madd52lo_epu64(__W, __X, __Y), (__v8di)__W); } -static __inline__ __m512i __DEFAULT_FN_ATTRS -_mm512_maskz_madd52lo_epu64 (__mmask8 __M, __m512i __X, __m512i __Y, __m512i __Z) -{ - return (__m512i)__builtin_ia32_selectq_512(__M, - (__v8di)_mm512_madd52lo_epu64(__X, __Y, __Z), - (__v8di)_mm512_setzero_si512()); +static __inline__ __m512i __DEFAULT_FN_ATTRS _mm512_maskz_madd52lo_epu64( + __mmask8 __M, __m512i __X, __m512i __Y, __m512i __Z) { + return (__m512i)__builtin_ia32_selectq_512( + __M, (__v8di)_mm512_madd52lo_epu64(__X, __Y, __Z), + (__v8di)_mm512_setzero_si512()); } #undef __DEFAULT_FN_ATTRS diff --git a/clang/lib/Headers/avx512ifmavlintrin.h b/clang/lib/Headers/avx512ifmavlintrin.h index a72b561..c4449c7 100644 --- a/clang/lib/Headers/avx512ifmavlintrin.h +++ b/clang/lib/Headers/avx512ifmavlintrin.h @@ -8,13 +8,24 @@ *===-----------------------------------------------------------------------=== */ #ifndef __IMMINTRIN_H -#error "Never use <avx512ifmavlintrin.h> directly; include <immintrin.h> instead." +#error \ + "Never use <avx512ifmavlintrin.h> directly; include <immintrin.h> instead." #endif #ifndef __IFMAVLINTRIN_H #define __IFMAVLINTRIN_H /* Define the default attributes for the functions in this file. */ +#if defined(__cplusplus) && (__cplusplus >= 201103L) +#define __DEFAULT_FN_ATTRS128 \ + constexpr __attribute__((__always_inline__, __nodebug__, \ + __target__("avx512ifma,avx512vl"), \ + __min_vector_width__(128))) +#define __DEFAULT_FN_ATTRS256 \ + constexpr __attribute__((__always_inline__, __nodebug__, \ + __target__("avx512ifma,avx512vl"), \ + __min_vector_width__(256))) +#else #define __DEFAULT_FN_ATTRS128 \ __attribute__((__always_inline__, __nodebug__, \ __target__("avx512ifma,avx512vl"), \ @@ -24,6 +35,8 @@ __target__("avx512ifma,avx512vl"), \ __min_vector_width__(256))) +#endif + #define _mm_madd52hi_epu64(X, Y, Z) \ ((__m128i)__builtin_ia32_vpmadd52huq128((__v2di)(X), (__v2di)(Y), \ (__v2di)(Z))) @@ -41,70 +54,57 @@ (__v4di)(Z))) static __inline__ __m128i __DEFAULT_FN_ATTRS128 -_mm_mask_madd52hi_epu64 (__m128i __W, __mmask8 __M, __m128i __X, __m128i __Y) -{ - return (__m128i)__builtin_ia32_selectq_128(__M, - (__v2di)_mm_madd52hi_epu64(__W, __X, __Y), - (__v2di)__W); +_mm_mask_madd52hi_epu64(__m128i __W, __mmask8 __M, __m128i __X, __m128i __Y) { + return (__m128i)__builtin_ia32_selectq_128( + __M, (__v2di)_mm_madd52hi_epu64(__W, __X, __Y), (__v2di)__W); } static __inline__ __m128i __DEFAULT_FN_ATTRS128 -_mm_maskz_madd52hi_epu64 (__mmask8 __M, __m128i __X, __m128i __Y, __m128i __Z) -{ - return (__m128i)__builtin_ia32_selectq_128(__M, - (__v2di)_mm_madd52hi_epu64(__X, __Y, __Z), - (__v2di)_mm_setzero_si128()); +_mm_maskz_madd52hi_epu64(__mmask8 __M, __m128i __X, __m128i __Y, __m128i __Z) { + return (__m128i)__builtin_ia32_selectq_128( + __M, (__v2di)_mm_madd52hi_epu64(__X, __Y, __Z), + (__v2di)_mm_setzero_si128()); } -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_mask_madd52hi_epu64 (__m256i __W, __mmask8 __M, __m256i __X, __m256i __Y) -{ - return (__m256i)__builtin_ia32_selectq_256(__M, - (__v4di)_mm256_madd52hi_epu64(__W, __X, __Y), - (__v4di)__W); +static __inline__ __m256i __DEFAULT_FN_ATTRS256 _mm256_mask_madd52hi_epu64( + __m256i __W, __mmask8 __M, __m256i __X, __m256i __Y) { + return (__m256i)__builtin_ia32_selectq_256( + __M, (__v4di)_mm256_madd52hi_epu64(__W, __X, __Y), (__v4di)__W); } -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_maskz_madd52hi_epu64 (__mmask8 __M, __m256i __X, __m256i __Y, __m256i __Z) -{ - return (__m256i)__builtin_ia32_selectq_256(__M, - (__v4di)_mm256_madd52hi_epu64(__X, __Y, __Z), - (__v4di)_mm256_setzero_si256()); +static __inline__ __m256i __DEFAULT_FN_ATTRS256 _mm256_maskz_madd52hi_epu64( + __mmask8 __M, __m256i __X, __m256i __Y, __m256i __Z) { + return (__m256i)__builtin_ia32_selectq_256( + __M, (__v4di)_mm256_madd52hi_epu64(__X, __Y, __Z), + (__v4di)_mm256_setzero_si256()); } static __inline__ __m128i __DEFAULT_FN_ATTRS128 -_mm_mask_madd52lo_epu64 (__m128i __W, __mmask8 __M, __m128i __X, __m128i __Y) -{ - return (__m128i)__builtin_ia32_selectq_128(__M, - (__v2di)_mm_madd52lo_epu64(__W, __X, __Y), - (__v2di)__W); +_mm_mask_madd52lo_epu64(__m128i __W, __mmask8 __M, __m128i __X, __m128i __Y) { + return (__m128i)__builtin_ia32_selectq_128( + __M, (__v2di)_mm_madd52lo_epu64(__W, __X, __Y), (__v2di)__W); } static __inline__ __m128i __DEFAULT_FN_ATTRS128 -_mm_maskz_madd52lo_epu64 (__mmask8 __M, __m128i __X, __m128i __Y, __m128i __Z) -{ - return (__m128i)__builtin_ia32_selectq_128(__M, - (__v2di)_mm_madd52lo_epu64(__X, __Y, __Z), - (__v2di)_mm_setzero_si128()); +_mm_maskz_madd52lo_epu64(__mmask8 __M, __m128i __X, __m128i __Y, __m128i __Z) { + return (__m128i)__builtin_ia32_selectq_128( + __M, (__v2di)_mm_madd52lo_epu64(__X, __Y, __Z), + (__v2di)_mm_setzero_si128()); } -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_mask_madd52lo_epu64 (__m256i __W, __mmask8 __M, __m256i __X, __m256i __Y) -{ - return (__m256i)__builtin_ia32_selectq_256(__M, - (__v4di)_mm256_madd52lo_epu64(__W, __X, __Y), - (__v4di)__W); +static __inline__ __m256i __DEFAULT_FN_ATTRS256 _mm256_mask_madd52lo_epu64( + __m256i __W, __mmask8 __M, __m256i __X, __m256i __Y) { + return (__m256i)__builtin_ia32_selectq_256( + __M, (__v4di)_mm256_madd52lo_epu64(__W, __X, __Y), (__v4di)__W); } -static __inline__ __m256i __DEFAULT_FN_ATTRS256 -_mm256_maskz_madd52lo_epu64 (__mmask8 __M, __m256i __X, __m256i __Y, __m256i __Z) -{ - return (__m256i)__builtin_ia32_selectq_256(__M, - (__v4di)_mm256_madd52lo_epu64(__X, __Y, __Z), - (__v4di)_mm256_setzero_si256()); +static __inline__ __m256i __DEFAULT_FN_ATTRS256 _mm256_maskz_madd52lo_epu64( + __mmask8 __M, __m256i __X, __m256i __Y, __m256i __Z) { + return (__m256i)__builtin_ia32_selectq_256( + __M, (__v4di)_mm256_madd52lo_epu64(__X, __Y, __Z), + (__v4di)_mm256_setzero_si256()); } - #undef __DEFAULT_FN_ATTRS128 #undef __DEFAULT_FN_ATTRS256 diff --git a/clang/lib/Headers/avxifmaintrin.h b/clang/lib/Headers/avxifmaintrin.h index 5c782d2a..a2ef601 100644 --- a/clang/lib/Headers/avxifmaintrin.h +++ b/clang/lib/Headers/avxifmaintrin.h @@ -15,12 +15,21 @@ #define __AVXIFMAINTRIN_H /* Define the default attributes for the functions in this file. */ +#if defined(__cplusplus) && (__cplusplus >= 201103L) +#define __DEFAULT_FN_ATTRS128 \ + constexpr __attribute__((__always_inline__, __nodebug__, \ + __target__("avxifma"), __min_vector_width__(128))) +#define __DEFAULT_FN_ATTRS256 \ + constexpr __attribute__((__always_inline__, __nodebug__, \ + __target__("avxifma"), __min_vector_width__(256))) +#else #define __DEFAULT_FN_ATTRS128 \ __attribute__((__always_inline__, __nodebug__, __target__("avxifma"), \ __min_vector_width__(128))) #define __DEFAULT_FN_ATTRS256 \ __attribute__((__always_inline__, __nodebug__, __target__("avxifma"), \ __min_vector_width__(256))) +#endif // must vex-encoding diff --git a/clang/lib/Headers/avxintrin.h b/clang/lib/Headers/avxintrin.h index 123fa79..696ec31 100644 --- a/clang/lib/Headers/avxintrin.h +++ b/clang/lib/Headers/avxintrin.h @@ -694,9 +694,8 @@ _mm256_xor_ps(__m256 __a, __m256 __b) /// elements of a vector of [4 x double]. /// \returns A 256-bit vector of [4 x double] containing the horizontal sums of /// both operands. -static __inline __m256d __DEFAULT_FN_ATTRS -_mm256_hadd_pd(__m256d __a, __m256d __b) -{ +static __inline __m256d __DEFAULT_FN_ATTRS_CONSTEXPR +_mm256_hadd_pd(__m256d __a, __m256d __b) { return (__m256d)__builtin_ia32_haddpd256((__v4df)__a, (__v4df)__b); } @@ -717,9 +716,8 @@ _mm256_hadd_pd(__m256d __a, __m256d __b) /// index 2, 3, 6, 7 of a vector of [8 x float]. /// \returns A 256-bit vector of [8 x float] containing the horizontal sums of /// both operands. -static __inline __m256 __DEFAULT_FN_ATTRS -_mm256_hadd_ps(__m256 __a, __m256 __b) -{ +static __inline __m256 __DEFAULT_FN_ATTRS_CONSTEXPR _mm256_hadd_ps(__m256 __a, + __m256 __b) { return (__m256)__builtin_ia32_haddps256((__v8sf)__a, (__v8sf)__b); } @@ -740,9 +738,8 @@ _mm256_hadd_ps(__m256 __a, __m256 __b) /// odd-indexed elements of a vector of [4 x double]. /// \returns A 256-bit vector of [4 x double] containing the horizontal /// differences of both operands. -static __inline __m256d __DEFAULT_FN_ATTRS -_mm256_hsub_pd(__m256d __a, __m256d __b) -{ +static __inline __m256d __DEFAULT_FN_ATTRS_CONSTEXPR +_mm256_hsub_pd(__m256d __a, __m256d __b) { return (__m256d)__builtin_ia32_hsubpd256((__v4df)__a, (__v4df)__b); } @@ -763,9 +760,8 @@ _mm256_hsub_pd(__m256d __a, __m256d __b) /// elements with index 2, 3, 6, 7 of a vector of [8 x float]. /// \returns A 256-bit vector of [8 x float] containing the horizontal /// differences of both operands. -static __inline __m256 __DEFAULT_FN_ATTRS -_mm256_hsub_ps(__m256 __a, __m256 __b) -{ +static __inline __m256 __DEFAULT_FN_ATTRS_CONSTEXPR _mm256_hsub_ps(__m256 __a, + __m256 __b) { return (__m256)__builtin_ia32_hsubps256((__v8sf)__a, (__v8sf)__b); } diff --git a/clang/lib/Headers/pmmintrin.h b/clang/lib/Headers/pmmintrin.h index f0c9b2b..42bd343 100644 --- a/clang/lib/Headers/pmmintrin.h +++ b/clang/lib/Headers/pmmintrin.h @@ -83,9 +83,8 @@ _mm_addsub_ps(__m128 __a, __m128 __b) /// destination. /// \returns A 128-bit vector of [4 x float] containing the horizontal sums of /// both operands. -static __inline__ __m128 __DEFAULT_FN_ATTRS -_mm_hadd_ps(__m128 __a, __m128 __b) -{ +static __inline__ __m128 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hadd_ps(__m128 __a, + __m128 __b) { return __builtin_ia32_haddps((__v4sf)__a, (__v4sf)__b); } @@ -106,9 +105,8 @@ _mm_hadd_ps(__m128 __a, __m128 __b) /// bits of the destination. /// \returns A 128-bit vector of [4 x float] containing the horizontal /// differences of both operands. -static __inline__ __m128 __DEFAULT_FN_ATTRS -_mm_hsub_ps(__m128 __a, __m128 __b) -{ +static __inline__ __m128 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hsub_ps(__m128 __a, + __m128 __b) { return __builtin_ia32_hsubps((__v4sf)__a, (__v4sf)__b); } @@ -168,9 +166,8 @@ _mm_moveldup_ps(__m128 __a) /// A 128-bit vector of [2 x double] containing the right source operand. /// \returns A 128-bit vector of [2 x double] containing the alternating sums /// and differences of both operands. -static __inline__ __m128d __DEFAULT_FN_ATTRS -_mm_addsub_pd(__m128d __a, __m128d __b) -{ +static __inline__ __m128d __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_addsub_pd(__m128d __a, __m128d __b) { return __builtin_ia32_addsubpd((__v2df)__a, (__v2df)__b); } @@ -191,9 +188,8 @@ _mm_addsub_pd(__m128d __a, __m128d __b) /// destination. /// \returns A 128-bit vector of [2 x double] containing the horizontal sums of /// both operands. -static __inline__ __m128d __DEFAULT_FN_ATTRS -_mm_hadd_pd(__m128d __a, __m128d __b) -{ +static __inline__ __m128d __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hadd_pd(__m128d __a, __m128d __b) { return __builtin_ia32_haddpd((__v2df)__a, (__v2df)__b); } @@ -214,9 +210,8 @@ _mm_hadd_pd(__m128d __a, __m128d __b) /// the destination. /// \returns A 128-bit vector of [2 x double] containing the horizontal /// differences of both operands. -static __inline__ __m128d __DEFAULT_FN_ATTRS -_mm_hsub_pd(__m128d __a, __m128d __b) -{ +static __inline__ __m128d __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hsub_pd(__m128d __a, __m128d __b) { return __builtin_ia32_hsubpd((__v2df)__a, (__v2df)__b); } diff --git a/clang/lib/Headers/tmmintrin.h b/clang/lib/Headers/tmmintrin.h index 3fc9f98..9d007c8 100644 --- a/clang/lib/Headers/tmmintrin.h +++ b/clang/lib/Headers/tmmintrin.h @@ -202,10 +202,9 @@ _mm_abs_epi32(__m128i __a) { /// destination. /// \returns A 128-bit vector of [8 x i16] containing the horizontal sums of /// both operands. -static __inline__ __m128i __DEFAULT_FN_ATTRS -_mm_hadd_epi16(__m128i __a, __m128i __b) -{ - return (__m128i)__builtin_ia32_phaddw128((__v8hi)__a, (__v8hi)__b); +static __inline__ __m128i __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hadd_epi16(__m128i __a, __m128i __b) { + return (__m128i)__builtin_ia32_phaddw128((__v8hi)__a, (__v8hi)__b); } /// Horizontally adds the adjacent pairs of values contained in 2 packed @@ -225,10 +224,9 @@ _mm_hadd_epi16(__m128i __a, __m128i __b) /// destination. /// \returns A 128-bit vector of [4 x i32] containing the horizontal sums of /// both operands. -static __inline__ __m128i __DEFAULT_FN_ATTRS -_mm_hadd_epi32(__m128i __a, __m128i __b) -{ - return (__m128i)__builtin_ia32_phaddd128((__v4si)__a, (__v4si)__b); +static __inline__ __m128i __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hadd_epi32(__m128i __a, __m128i __b) { + return (__m128i)__builtin_ia32_phaddd128((__v4si)__a, (__v4si)__b); } /// Horizontally adds the adjacent pairs of values contained in 2 packed @@ -248,11 +246,10 @@ _mm_hadd_epi32(__m128i __a, __m128i __b) /// destination. /// \returns A 64-bit vector of [4 x i16] containing the horizontal sums of both /// operands. -static __inline__ __m64 __DEFAULT_FN_ATTRS -_mm_hadd_pi16(__m64 __a, __m64 __b) -{ - return __trunc64(__builtin_ia32_phaddw128( - (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); +static __inline__ __m64 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hadd_pi16(__m64 __a, + __m64 __b) { + return __trunc64(__builtin_ia32_phaddw128( + (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); } /// Horizontally adds the adjacent pairs of values contained in 2 packed @@ -272,11 +269,10 @@ _mm_hadd_pi16(__m64 __a, __m64 __b) /// destination. /// \returns A 64-bit vector of [2 x i32] containing the horizontal sums of both /// operands. -static __inline__ __m64 __DEFAULT_FN_ATTRS -_mm_hadd_pi32(__m64 __a, __m64 __b) -{ - return __trunc64(__builtin_ia32_phaddd128( - (__v4si)__builtin_shufflevector(__a, __b, 0, 1), (__v4si){})); +static __inline__ __m64 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hadd_pi32(__m64 __a, + __m64 __b) { + return __trunc64(__builtin_ia32_phaddd128( + (__v4si)__builtin_shufflevector(__a, __b, 0, 1), (__v4si){})); } /// Horizontally adds, with saturation, the adjacent pairs of values contained @@ -299,10 +295,9 @@ _mm_hadd_pi32(__m64 __a, __m64 __b) /// destination. /// \returns A 128-bit vector of [8 x i16] containing the horizontal saturated /// sums of both operands. -static __inline__ __m128i __DEFAULT_FN_ATTRS -_mm_hadds_epi16(__m128i __a, __m128i __b) -{ - return (__m128i)__builtin_ia32_phaddsw128((__v8hi)__a, (__v8hi)__b); +static __inline__ __m128i __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hadds_epi16(__m128i __a, __m128i __b) { + return (__m128i)__builtin_ia32_phaddsw128((__v8hi)__a, (__v8hi)__b); } /// Horizontally adds, with saturation, the adjacent pairs of values contained @@ -325,11 +320,10 @@ _mm_hadds_epi16(__m128i __a, __m128i __b) /// destination. /// \returns A 64-bit vector of [4 x i16] containing the horizontal saturated /// sums of both operands. -static __inline__ __m64 __DEFAULT_FN_ATTRS -_mm_hadds_pi16(__m64 __a, __m64 __b) -{ - return __trunc64(__builtin_ia32_phaddsw128( - (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); +static __inline__ __m64 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hadds_pi16(__m64 __a, + __m64 __b) { + return __trunc64(__builtin_ia32_phaddsw128( + (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); } /// Horizontally subtracts the adjacent pairs of values contained in 2 @@ -349,10 +343,9 @@ _mm_hadds_pi16(__m64 __a, __m64 __b) /// the destination. /// \returns A 128-bit vector of [8 x i16] containing the horizontal differences /// of both operands. -static __inline__ __m128i __DEFAULT_FN_ATTRS -_mm_hsub_epi16(__m128i __a, __m128i __b) -{ - return (__m128i)__builtin_ia32_phsubw128((__v8hi)__a, (__v8hi)__b); +static __inline__ __m128i __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hsub_epi16(__m128i __a, __m128i __b) { + return (__m128i)__builtin_ia32_phsubw128((__v8hi)__a, (__v8hi)__b); } /// Horizontally subtracts the adjacent pairs of values contained in 2 @@ -372,10 +365,9 @@ _mm_hsub_epi16(__m128i __a, __m128i __b) /// the destination. /// \returns A 128-bit vector of [4 x i32] containing the horizontal differences /// of both operands. -static __inline__ __m128i __DEFAULT_FN_ATTRS -_mm_hsub_epi32(__m128i __a, __m128i __b) -{ - return (__m128i)__builtin_ia32_phsubd128((__v4si)__a, (__v4si)__b); +static __inline__ __m128i __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hsub_epi32(__m128i __a, __m128i __b) { + return (__m128i)__builtin_ia32_phsubd128((__v4si)__a, (__v4si)__b); } /// Horizontally subtracts the adjacent pairs of values contained in 2 @@ -395,11 +387,10 @@ _mm_hsub_epi32(__m128i __a, __m128i __b) /// the destination. /// \returns A 64-bit vector of [4 x i16] containing the horizontal differences /// of both operands. -static __inline__ __m64 __DEFAULT_FN_ATTRS -_mm_hsub_pi16(__m64 __a, __m64 __b) -{ - return __trunc64(__builtin_ia32_phsubw128( - (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); +static __inline__ __m64 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hsub_pi16(__m64 __a, + __m64 __b) { + return __trunc64(__builtin_ia32_phsubw128( + (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); } /// Horizontally subtracts the adjacent pairs of values contained in 2 @@ -419,11 +410,10 @@ _mm_hsub_pi16(__m64 __a, __m64 __b) /// the destination. /// \returns A 64-bit vector of [2 x i32] containing the horizontal differences /// of both operands. -static __inline__ __m64 __DEFAULT_FN_ATTRS -_mm_hsub_pi32(__m64 __a, __m64 __b) -{ - return __trunc64(__builtin_ia32_phsubd128( - (__v4si)__builtin_shufflevector(__a, __b, 0, 1), (__v4si){})); +static __inline__ __m64 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hsub_pi32(__m64 __a, + __m64 __b) { + return __trunc64(__builtin_ia32_phsubd128( + (__v4si)__builtin_shufflevector(__a, __b, 0, 1), (__v4si){})); } /// Horizontally subtracts, with saturation, the adjacent pairs of values @@ -446,10 +436,9 @@ _mm_hsub_pi32(__m64 __a, __m64 __b) /// the destination. /// \returns A 128-bit vector of [8 x i16] containing the horizontal saturated /// differences of both operands. -static __inline__ __m128i __DEFAULT_FN_ATTRS -_mm_hsubs_epi16(__m128i __a, __m128i __b) -{ - return (__m128i)__builtin_ia32_phsubsw128((__v8hi)__a, (__v8hi)__b); +static __inline__ __m128i __DEFAULT_FN_ATTRS_CONSTEXPR +_mm_hsubs_epi16(__m128i __a, __m128i __b) { + return (__m128i)__builtin_ia32_phsubsw128((__v8hi)__a, (__v8hi)__b); } /// Horizontally subtracts, with saturation, the adjacent pairs of values @@ -472,11 +461,10 @@ _mm_hsubs_epi16(__m128i __a, __m128i __b) /// the destination. /// \returns A 64-bit vector of [4 x i16] containing the horizontal saturated /// differences of both operands. -static __inline__ __m64 __DEFAULT_FN_ATTRS -_mm_hsubs_pi16(__m64 __a, __m64 __b) -{ - return __trunc64(__builtin_ia32_phsubsw128( - (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); +static __inline__ __m64 __DEFAULT_FN_ATTRS_CONSTEXPR _mm_hsubs_pi16(__m64 __a, + __m64 __b) { + return __trunc64(__builtin_ia32_phsubsw128( + (__v8hi)__builtin_shufflevector(__a, __b, 0, 1), (__v8hi){})); } /// Multiplies corresponding pairs of packed 8-bit unsigned integer @@ -556,10 +544,9 @@ _mm_maddubs_pi16(__m64 __a, __m64 __b) { /// A 128-bit vector of [8 x i16] containing one of the source operands. /// \returns A 128-bit vector of [8 x i16] containing the rounded and scaled /// products of both operands. -static __inline__ __m128i __DEFAULT_FN_ATTRS -_mm_mulhrs_epi16(__m128i __a, __m128i __b) -{ - return (__m128i)__builtin_ia32_pmulhrsw128((__v8hi)__a, (__v8hi)__b); +static __inline__ __m128i __DEFAULT_FN_ATTRS _mm_mulhrs_epi16(__m128i __a, + __m128i __b) { + return (__m128i)__builtin_ia32_pmulhrsw128((__v8hi)__a, (__v8hi)__b); } /// Multiplies packed 16-bit signed integer values, truncates the 32-bit diff --git a/clang/lib/Sema/SemaConcept.cpp b/clang/lib/Sema/SemaConcept.cpp index 7c44efd..87dd682 100644 --- a/clang/lib/Sema/SemaConcept.cpp +++ b/clang/lib/Sema/SemaConcept.cpp @@ -606,15 +606,15 @@ ConstraintSatisfactionChecker::SubstitutionInTemplateArguments( Constraint.mappingOccurenceList(); // The empty MLTAL situation should only occur when evaluating non-dependent // constraints. - if (!MLTAL.getNumSubstitutedLevels()) - MLTAL.addOuterTemplateArguments(TD, {}, /*Final=*/false); - SubstitutedOuterMost = - llvm::to_vector_of<TemplateArgument>(MLTAL.getOutermost()); + if (MLTAL.getNumSubstitutedLevels()) + SubstitutedOuterMost = + llvm::to_vector_of<TemplateArgument>(MLTAL.getOutermost()); unsigned Offset = 0; for (unsigned I = 0, MappedIndex = 0; I < Used.size(); I++) { TemplateArgument Arg; if (Used[I]) - Arg = CTAI.SugaredConverted[MappedIndex++]; + Arg = S.Context.getCanonicalTemplateArgument( + CTAI.SugaredConverted[MappedIndex++]); if (I < SubstitutedOuterMost.size()) { SubstitutedOuterMost[I] = Arg; Offset = I + 1; @@ -626,8 +626,10 @@ ConstraintSatisfactionChecker::SubstitutionInTemplateArguments( if (Offset < SubstitutedOuterMost.size()) SubstitutedOuterMost.erase(SubstitutedOuterMost.begin() + Offset); - MLTAL.replaceOutermostTemplateArguments(TD, SubstitutedOuterMost); - return std::move(MLTAL); + MultiLevelTemplateArgumentList SubstitutedTemplateArgs; + SubstitutedTemplateArgs.addOuterTemplateArguments(TD, SubstitutedOuterMost, + /*Final=*/false); + return std::move(SubstitutedTemplateArgs); } ExprResult ConstraintSatisfactionChecker::EvaluateSlow( diff --git a/clang/lib/Sema/SemaOpenACCClause.cpp b/clang/lib/Sema/SemaOpenACCClause.cpp index ead9781..17078e8 100644 --- a/clang/lib/Sema/SemaOpenACCClause.cpp +++ b/clang/lib/Sema/SemaOpenACCClause.cpp @@ -1924,7 +1924,7 @@ bool SemaOpenACC::CheckReductionVarType(Expr *VarExpr) { // off here. This will result in CurType being the actual 'type' of the // expression, which is what we are looking to check. QualType CurType = isa<ArraySectionExpr>(VarExpr) - ? ArraySectionExpr::getBaseOriginalType(VarExpr) + ? cast<ArraySectionExpr>(VarExpr)->getElementType() : VarExpr->getType(); // This can happen when we have a dependent type in an array element that the diff --git a/clang/lib/Sema/SemaTemplateInstantiateDecl.cpp b/clang/lib/Sema/SemaTemplateInstantiateDecl.cpp index 85e3d20..73fd33a 100644 --- a/clang/lib/Sema/SemaTemplateInstantiateDecl.cpp +++ b/clang/lib/Sema/SemaTemplateInstantiateDecl.cpp @@ -5727,7 +5727,7 @@ void Sema::InstantiateFunctionDefinition(SourceLocation PointOfInstantiation, Function->setDeclarationNameLoc(NameLocPointsToPattern()); EnterExpressionEvaluationContextForFunction EvalContext( - *this, Sema::ExpressionEvaluationContext::PotentiallyEvaluated); + *this, Sema::ExpressionEvaluationContext::PotentiallyEvaluated, Function); Qualifiers ThisTypeQuals; CXXRecordDecl *ThisContext = nullptr; diff --git a/clang/lib/StaticAnalyzer/Checkers/CStringChecker.cpp b/clang/lib/StaticAnalyzer/Checkers/CStringChecker.cpp index 0ae784c..1444114 100644 --- a/clang/lib/StaticAnalyzer/Checkers/CStringChecker.cpp +++ b/clang/lib/StaticAnalyzer/Checkers/CStringChecker.cpp @@ -251,6 +251,8 @@ public: const Expr *Ex, const MemRegion *MR, bool hypothetical); + static const StringLiteral *getStringLiteralFromRegion(const MemRegion *MR); + SVal getCStringLength(CheckerContext &C, ProgramStateRef &state, const Expr *Ex, @@ -983,6 +985,21 @@ SVal CStringChecker::getCStringLengthForRegion(CheckerContext &C, return strLength; } +const StringLiteral * +CStringChecker::getStringLiteralFromRegion(const MemRegion *MR) { + switch (MR->getKind()) { + case MemRegion::StringRegionKind: + return cast<StringRegion>(MR)->getStringLiteral(); + case MemRegion::NonParamVarRegionKind: + if (const VarDecl *Decl = cast<NonParamVarRegion>(MR)->getDecl(); + Decl->getType().isConstQualified() && Decl->hasGlobalStorage()) + return dyn_cast_or_null<StringLiteral>(Decl->getInit()); + return nullptr; + default: + return nullptr; + } +} + SVal CStringChecker::getCStringLength(CheckerContext &C, ProgramStateRef &state, const Expr *Ex, SVal Buf, bool hypothetical) const { @@ -1013,30 +1030,19 @@ SVal CStringChecker::getCStringLength(CheckerContext &C, ProgramStateRef &state, // its length. For anything we can't figure out, just return UnknownVal. MR = MR->StripCasts(); - switch (MR->getKind()) { - case MemRegion::StringRegionKind: { - // Modifying the contents of string regions is undefined [C99 6.4.5p6], - // so we can assume that the byte length is the correct C string length. - SValBuilder &svalBuilder = C.getSValBuilder(); - QualType sizeTy = svalBuilder.getContext().getSizeType(); - const StringLiteral *strLit = cast<StringRegion>(MR)->getStringLiteral(); - return svalBuilder.makeIntVal(strLit->getLength(), sizeTy); - } - case MemRegion::NonParamVarRegionKind: { + if (const StringLiteral *StrLit = getStringLiteralFromRegion(MR)) { // If we have a global constant with a string literal initializer, // compute the initializer's length. - const VarDecl *Decl = cast<NonParamVarRegion>(MR)->getDecl(); - if (Decl->getType().isConstQualified() && Decl->hasGlobalStorage()) { - if (const Expr *Init = Decl->getInit()) { - if (auto *StrLit = dyn_cast<StringLiteral>(Init)) { - SValBuilder &SvalBuilder = C.getSValBuilder(); - QualType SizeTy = SvalBuilder.getContext().getSizeType(); - return SvalBuilder.makeIntVal(StrLit->getLength(), SizeTy); - } - } - } - [[fallthrough]]; + // Modifying the contents of string regions is undefined [C99 6.4.5p6], + // so we can assume that the byte length is the correct C string length. + // FIXME: Embedded null characters are not handled. + SValBuilder &SVB = C.getSValBuilder(); + return SVB.makeIntVal(StrLit->getLength(), SVB.getContext().getSizeType()); } + + switch (MR->getKind()) { + case MemRegion::StringRegionKind: + case MemRegion::NonParamVarRegionKind: case MemRegion::SymbolicRegionKind: case MemRegion::AllocaRegionKind: case MemRegion::ParamVarRegionKind: @@ -1046,10 +1052,28 @@ SVal CStringChecker::getCStringLength(CheckerContext &C, ProgramStateRef &state, case MemRegion::CompoundLiteralRegionKind: // FIXME: Can we track this? Is it necessary? return UnknownVal(); - case MemRegion::ElementRegionKind: - // FIXME: How can we handle this? It's not good enough to subtract the - // offset from the base string length; consider "123\x00567" and &a[5]. + case MemRegion::ElementRegionKind: { + // If an offset into the string literal is used, use the original length + // minus the offset. + // FIXME: Embedded null characters are not handled. + const ElementRegion *ER = cast<ElementRegion>(MR); + const SubRegion *SuperReg = + cast<SubRegion>(ER->getSuperRegion()->StripCasts()); + const StringLiteral *StrLit = getStringLiteralFromRegion(SuperReg); + if (!StrLit) + return UnknownVal(); + SValBuilder &SVB = C.getSValBuilder(); + NonLoc Idx = ER->getIndex(); + QualType SizeTy = SVB.getContext().getSizeType(); + NonLoc LengthVal = + SVB.makeIntVal(StrLit->getLength(), SizeTy).castAs<NonLoc>(); + if (state->assume(SVB.evalBinOpNN(state, BO_LE, Idx, LengthVal, + SVB.getConditionType()) + .castAs<DefinedOrUnknownSVal>(), + true)) + return SVB.evalBinOp(state, BO_Sub, LengthVal, Idx, SizeTy); return UnknownVal(); + } default: // Other regions (mostly non-data) can't have a reliable C string length. // In this case, an error is emitted and UndefinedVal is returned. @@ -1074,6 +1098,7 @@ SVal CStringChecker::getCStringLength(CheckerContext &C, ProgramStateRef &state, const StringLiteral *CStringChecker::getCStringLiteral(CheckerContext &C, ProgramStateRef &state, const Expr *expr, SVal val) const { + // FIXME: use getStringLiteralFromRegion (and remove unused parameters)? // Get the memory region pointed to by the val. const MemRegion *bufRegion = val.getAsRegion(); diff --git a/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.cpp b/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.cpp index 66cfccb..c1a5000 100644 --- a/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.cpp +++ b/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.cpp @@ -26,6 +26,7 @@ bool tryToFindPtrOrigin( const Expr *E, bool StopAtFirstRefCountedObj, std::function<bool(const clang::CXXRecordDecl *)> isSafePtr, std::function<bool(const clang::QualType)> isSafePtrType, + std::function<bool(const clang::Decl *)> isSafeGlobalDecl, std::function<bool(const clang::Expr *, bool)> callback) { while (E) { if (auto *DRE = dyn_cast<DeclRefExpr>(E)) { @@ -34,6 +35,8 @@ bool tryToFindPtrOrigin( auto IsImmortal = safeGetName(VD) == "NSApp"; if (VD->hasGlobalStorage() && (IsImmortal || QT.isConstQualified())) return callback(E, true); + if (VD->hasGlobalStorage() && isSafeGlobalDecl(VD)) + return callback(E, true); } } if (auto *tempExpr = dyn_cast<MaterializeTemporaryExpr>(E)) { @@ -71,9 +74,11 @@ bool tryToFindPtrOrigin( } if (auto *Expr = dyn_cast<ConditionalOperator>(E)) { return tryToFindPtrOrigin(Expr->getTrueExpr(), StopAtFirstRefCountedObj, - isSafePtr, isSafePtrType, callback) && + isSafePtr, isSafePtrType, isSafeGlobalDecl, + callback) && tryToFindPtrOrigin(Expr->getFalseExpr(), StopAtFirstRefCountedObj, - isSafePtr, isSafePtrType, callback); + isSafePtr, isSafePtrType, isSafeGlobalDecl, + callback); } if (auto *cast = dyn_cast<CastExpr>(E)) { if (StopAtFirstRefCountedObj) { @@ -93,7 +98,8 @@ bool tryToFindPtrOrigin( if (auto *call = dyn_cast<CallExpr>(E)) { if (auto *Callee = call->getCalleeDecl()) { if (Callee->hasAttr<CFReturnsRetainedAttr>() || - Callee->hasAttr<NSReturnsRetainedAttr>()) { + Callee->hasAttr<NSReturnsRetainedAttr>() || + Callee->hasAttr<NSReturnsAutoreleasedAttr>()) { return callback(E, true); } } diff --git a/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.h b/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.h index 3a009d6..9fff456 100644 --- a/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.h +++ b/clang/lib/StaticAnalyzer/Checkers/WebKit/ASTUtils.h @@ -56,6 +56,7 @@ bool tryToFindPtrOrigin( const clang::Expr *E, bool StopAtFirstRefCountedObj, std::function<bool(const clang::CXXRecordDecl *)> isSafePtr, std::function<bool(const clang::QualType)> isSafePtrType, + std::function<bool(const clang::Decl *)> isSafeGlobalDecl, std::function<bool(const clang::Expr *, bool)> callback); /// For \p E referring to a ref-countable/-counted pointer/reference we return diff --git a/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefCallArgsChecker.cpp b/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefCallArgsChecker.cpp index 9585ceb..791e709 100644 --- a/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefCallArgsChecker.cpp +++ b/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefCallArgsChecker.cpp @@ -29,12 +29,12 @@ namespace { class RawPtrRefCallArgsChecker : public Checker<check::ASTDecl<TranslationUnitDecl>> { BugType Bug; - mutable BugReporter *BR; TrivialFunctionAnalysis TFA; EnsureFunctionAnalysis EFA; protected: + mutable BugReporter *BR; mutable std::optional<RetainTypeChecker> RTC; public: @@ -46,6 +46,7 @@ public: virtual bool isSafePtr(const CXXRecordDecl *Record) const = 0; virtual bool isSafePtrType(const QualType type) const = 0; virtual bool isSafeExpr(const Expr *) const { return false; } + virtual bool isSafeDecl(const Decl *) const { return false; } virtual const char *ptrKind() const = 0; void checkASTDecl(const TranslationUnitDecl *TUD, AnalysisManager &MGR, @@ -214,6 +215,7 @@ public: Arg, /*StopAtFirstRefCountedObj=*/true, [&](const clang::CXXRecordDecl *Record) { return isSafePtr(Record); }, [&](const clang::QualType T) { return isSafePtrType(T); }, + [&](const clang::Decl *D) { return isSafeDecl(D); }, [&](const clang::Expr *ArgOrigin, bool IsSafe) { if (IsSafe) return true; @@ -479,6 +481,11 @@ public: isa<ObjCMessageExpr>(E); } + bool isSafeDecl(const Decl *D) const final { + // Treat NS/CF globals in system header as immortal. + return BR->getSourceManager().isInSystemHeader(D->getLocation()); + } + const char *ptrKind() const final { return "unretained"; } }; diff --git a/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefLocalVarsChecker.cpp b/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefLocalVarsChecker.cpp index dd9701f..c13df479 100644 --- a/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefLocalVarsChecker.cpp +++ b/clang/lib/StaticAnalyzer/Checkers/WebKit/RawPtrRefLocalVarsChecker.cpp @@ -166,10 +166,10 @@ bool isGuardedScopeEmbeddedInGuardianScope(const VarDecl *Guarded, class RawPtrRefLocalVarsChecker : public Checker<check::ASTDecl<TranslationUnitDecl>> { BugType Bug; - mutable BugReporter *BR; EnsureFunctionAnalysis EFA; protected: + mutable BugReporter *BR; mutable std::optional<RetainTypeChecker> RTC; public: @@ -180,6 +180,7 @@ public: virtual bool isSafePtr(const CXXRecordDecl *) const = 0; virtual bool isSafePtrType(const QualType) const = 0; virtual bool isSafeExpr(const Expr *) const { return false; } + virtual bool isSafeDecl(const Decl *) const { return false; } virtual const char *ptrKind() const = 0; void checkASTDecl(const TranslationUnitDecl *TUD, AnalysisManager &MGR, @@ -288,6 +289,7 @@ public: return isSafePtr(Record); }, [&](const clang::QualType Type) { return isSafePtrType(Type); }, + [&](const clang::Decl *D) { return isSafeDecl(D); }, [&](const clang::Expr *InitArgOrigin, bool IsSafe) { if (!InitArgOrigin || IsSafe) return true; @@ -443,6 +445,10 @@ public: return ento::cocoa::isCocoaObjectRef(E->getType()) && isa<ObjCMessageExpr>(E); } + bool isSafeDecl(const Decl *D) const final { + // Treat NS/CF globals in system header as immortal. + return BR->getSourceManager().isInSystemHeader(D->getLocation()); + } const char *ptrKind() const final { return "unretained"; } }; diff --git a/clang/lib/StaticAnalyzer/Core/SimpleSValBuilder.cpp b/clang/lib/StaticAnalyzer/Core/SimpleSValBuilder.cpp index 84a9c43..6108931 100644 --- a/clang/lib/StaticAnalyzer/Core/SimpleSValBuilder.cpp +++ b/clang/lib/StaticAnalyzer/Core/SimpleSValBuilder.cpp @@ -1111,6 +1111,10 @@ SVal SimpleSValBuilder::evalBinOpLN(ProgramStateRef state, assert(!BinaryOperator::isComparisonOp(op) && "arguments to comparison ops must be of the same type"); + SVal simplifiedRhs = simplifySVal(state, rhs); + if (auto simplifiedRhsAsNonLoc = simplifiedRhs.getAs<NonLoc>()) + rhs = *simplifiedRhsAsNonLoc; + // Special case: rhs is a zero constant. if (rhs.isZeroConstant()) return lhs; diff --git a/clang/test/Analysis/Checkers/WebKit/mock-system-header.h b/clang/test/Analysis/Checkers/WebKit/mock-system-header.h index 1e44de8..d55b3ab 100644 --- a/clang/test/Analysis/Checkers/WebKit/mock-system-header.h +++ b/clang/test/Analysis/Checkers/WebKit/mock-system-header.h @@ -34,6 +34,8 @@ void os_log_msg(os_log_t oslog, os_log_type_t type, const char *msg, ...); typedef const struct __attribute__((objc_bridge(NSString))) __CFString * CFStringRef; +extern CFStringRef const kCFURLTagNamesKey; + #ifdef __OBJC__ @class NSString; @interface SystemObject { @@ -41,4 +43,8 @@ typedef const struct __attribute__((objc_bridge(NSString))) __CFString * CFStrin CFStringRef cf_string; } @end + +typedef NSString *NSNotificationName; +extern "C" NSNotificationName NSApplicationDidBecomeActiveNotification; + #endif diff --git a/clang/test/Analysis/Checkers/WebKit/unretained-call-args.mm b/clang/test/Analysis/Checkers/WebKit/unretained-call-args.mm index a517dbc..5dc3b38 100644 --- a/clang/test/Analysis/Checkers/WebKit/unretained-call-args.mm +++ b/clang/test/Analysis/Checkers/WebKit/unretained-call-args.mm @@ -567,6 +567,17 @@ struct Derived : Base { } // namespace ns_retained_return_value +namespace autoreleased { + +NSString *provideAutoreleased() __attribute__((ns_returns_autoreleased)); +void consume(NSString *); + +void foo() { + consume(provideAutoreleased()); +} + +} // autoreleased + @interface TestObject : NSObject - (void)doWork:(NSString *)msg, ...; - (void)doWorkOnSelf; diff --git a/clang/test/Analysis/Checkers/WebKit/unretained-local-vars.mm b/clang/test/Analysis/Checkers/WebKit/unretained-local-vars.mm index 307a4d03..f49e7bd 100644 --- a/clang/test/Analysis/Checkers/WebKit/unretained-local-vars.mm +++ b/clang/test/Analysis/Checkers/WebKit/unretained-local-vars.mm @@ -1,8 +1,11 @@ // RUN: %clang_analyze_cc1 -analyzer-checker=alpha.webkit.UnretainedLocalVarsChecker -verify %s #import "objc-mock-types.h" +#import "mock-system-header.h" void someFunction(); +extern "C" CFStringRef LocalGlobalCFString; +extern "C" NSString *LocalGlobalNSString; namespace raw_ptr { void foo() { @@ -535,6 +538,41 @@ unsigned foo() { } // namespace ns_retained_return_value +namespace autoreleased { + +NSString *provideAutoreleased() __attribute__((ns_returns_autoreleased)); +void consume(NSString *); + +void foo() { + auto *string = provideAutoreleased(); + consume(string); +} + +} // autoreleased + +namespace ns_global { + +void consumeCFString(CFStringRef); +void consumeNSString(NSString *); + +void cf() { + auto *str = kCFURLTagNamesKey; + consumeCFString(str); + auto *localStr = LocalGlobalCFString; + // expected-warning@-1{{Local variable 'localStr' is unretained and unsafe [alpha.webkit.UnretainedLocalVarsChecker]}} + consumeCFString(localStr); +} + +void ns() { + auto *str = NSApplicationDidBecomeActiveNotification; + consumeNSString(str); + auto *localStr = LocalGlobalNSString; + // expected-warning@-1{{Local variable 'localStr' is unretained and unsafe [alpha.webkit.UnretainedLocalVarsChecker]}} + consumeNSString(localStr); +} + +} + bool doMoreWorkOpaque(OtherObj*); SomeObj* provide(); diff --git a/clang/test/Analysis/Checkers/WebKit/unretained-obj-arg.mm b/clang/test/Analysis/Checkers/WebKit/unretained-obj-arg.mm new file mode 100644 index 0000000..5c78b21 --- /dev/null +++ b/clang/test/Analysis/Checkers/WebKit/unretained-obj-arg.mm @@ -0,0 +1,18 @@ +// RUN: %clang_analyze_cc1 -analyzer-checker=alpha.webkit.UnretainedCallArgsChecker -verify %s + +#import "mock-types.h" +#import "mock-system-header.h" + +void consumeCFString(CFStringRef); +extern "C" CFStringRef LocalGlobalCFString; +void consumeNSString(NSString *); +extern "C" NSString *LocalGlobalNSString; + +void foo() { + consumeCFString(kCFURLTagNamesKey); + consumeCFString(LocalGlobalCFString); + // expected-warning@-1{{Call argument is unretained and unsafe}} + consumeNSString(NSApplicationDidBecomeActiveNotification); + consumeNSString(LocalGlobalNSString); + // expected-warning@-1{{Call argument is unretained and unsafe}} +} diff --git a/clang/test/Analysis/loc-folding.cpp b/clang/test/Analysis/loc-folding.cpp new file mode 100644 index 0000000..1fcb066 --- /dev/null +++ b/clang/test/Analysis/loc-folding.cpp @@ -0,0 +1,61 @@ +// RUN: %clang_analyze_cc1 -verify %s -analyzer-config eagerly-assume=false \ +// RUN: -analyzer-checker=core,debug.ExprInspection + +void clang_analyzer_eval(bool); + +void element_constant() { + char arr[10]; + clang_analyzer_eval(arr + 1 > arr); // expected-warning{{TRUE}} +} + +void element_known() { + char arr[10]; + int off = 1; + clang_analyzer_eval(arr + off > arr); // expected-warning{{TRUE}} +} + +void element_constrained(int off) { + char arr[10]; + if (off == 1) { + clang_analyzer_eval(arr + off > arr); // expected-warning{{TRUE}} + } +} + +void element_unknown(int off) { + char arr[10]; + clang_analyzer_eval(arr + off > arr); // expected-warning{{UNKNOWN}} +} + +void element_complex(int off) { + char arr[10]; + int comp = off * 2; + if (off == 1) { + clang_analyzer_eval(arr + comp); // expected-warning{{TRUE}} + } +} + +void base_constant(int *arr) { + clang_analyzer_eval(arr + 1 > arr); // expected-warning{{TRUE}} +} + +void base_known(int *arr) { + int off = 1; + clang_analyzer_eval(arr + off > arr); // expected-warning{{TRUE}} +} + +void base_constrained(int *arr, int off) { + if (off == 1) { + clang_analyzer_eval(arr + off > arr); // expected-warning{{TRUE}} + } +} + +void base_unknown(int *arr, int off) { + clang_analyzer_eval(arr + off > arr); // expected-warning{{UNKNOWN}} +} + +void base_complex(int *arr, int off) { + int comp = off * 2; + if (off == 1) { + clang_analyzer_eval(arr + comp > arr); // expected-warning{{TRUE}} + } +} diff --git a/clang/test/Analysis/string.c b/clang/test/Analysis/string.c index cdd3627..9d24583 100644 --- a/clang/test/Analysis/string.c +++ b/clang/test/Analysis/string.c @@ -82,16 +82,21 @@ size_t strlen(const char *s); void strlen_constant0(void) { clang_analyzer_eval(strlen("123") == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strlen(&("123"[1])) == 2); // expected-warning{{TRUE}} } void strlen_constant1(void) { const char *a = "123"; clang_analyzer_eval(strlen(a) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strlen(a + 1) == 2); // expected-warning{{TRUE}} + clang_analyzer_eval(strlen(a + 3) == 0); // expected-warning{{TRUE}} + clang_analyzer_eval(strlen(a + 4)); // expected-warning{{UNKNOWN}} } void strlen_constant2(char x) { char a[] = "123"; clang_analyzer_eval(strlen(a) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strlen(a + 1) == 2); // expected-warning{{UNKNOWN}} a[0] = x; clang_analyzer_eval(strlen(a) == 3); // expected-warning{{UNKNOWN}} @@ -105,10 +110,12 @@ char global_non_const_arr[] = "op"; void strlen_global_constant_ptr(void) { clang_analyzer_eval(strlen(global_str_ptr) == 4); // expected-warning{{TRUE}} + clang_analyzer_eval(strlen(global_str_ptr + 1) == 3); // expected-warning{{TRUE}} } void strlen_global_constant_arr(void) { clang_analyzer_eval(strlen(global_str_arr) == 4); // expected-warning{{TRUE}} + clang_analyzer_eval(strlen(global_str_arr + 1) == 3); // expected-warning{{TRUE}} } void strlen_global_non_const_ptr(void) { @@ -235,6 +242,17 @@ void testStrlenCallee(void) { clang_analyzer_eval(lenBefore == lenAfter); // expected-warning{{UNKNOWN}} } +void strlen_symbolic_offset(unsigned x) { + const char *str = "abcd"; + if (x < 1 || x > 3) + return; + // FIXME: these should be TRUE + clang_analyzer_eval(strlen(str + x) >= 1); // expected-warning{{UNKNOWN}} + clang_analyzer_eval(strlen(str + x) <= 3); // expected-warning{{UNKNOWN}} + if (x != 1) + return; + clang_analyzer_eval(strlen(str + x) == 3); // expected-warning{{TRUE}} +} //===----------------------------------------------------------------------=== // strnlen() @@ -244,32 +262,38 @@ size_t strnlen(const char *s, size_t maxlen); void strnlen_constant0(void) { clang_analyzer_eval(strnlen("123", 10) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strnlen(&("123"[1]), 10) == 2); // expected-warning{{TRUE}} } void strnlen_constant1(void) { const char *a = "123"; clang_analyzer_eval(strnlen(a, 10) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strnlen(a + 1, 10) == 2); // expected-warning{{TRUE}} } void strnlen_constant2(char x) { char a[] = "123"; clang_analyzer_eval(strnlen(a, 10) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strnlen(a + 1, 10) == 2); // expected-warning{{UNKNOWN}} a[0] = x; clang_analyzer_eval(strnlen(a, 10) == 3); // expected-warning{{UNKNOWN}} } void strnlen_constant4(void) { clang_analyzer_eval(strnlen("123456", 3) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strnlen(&("123456"[1]), 3) == 3); // expected-warning{{TRUE}} } void strnlen_constant5(void) { const char *a = "123456"; clang_analyzer_eval(strnlen(a, 3) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strnlen(a + 1, 3) == 3); // expected-warning{{TRUE}} } void strnlen_constant6(char x) { char a[] = "123456"; clang_analyzer_eval(strnlen(a, 3) == 3); // expected-warning{{TRUE}} + clang_analyzer_eval(strnlen(a + 1, 3) == 3); // expected-warning{{UNKNOWN}} a[0] = x; clang_analyzer_eval(strnlen(a, 3) == 3); // expected-warning{{UNKNOWN}} } @@ -326,6 +350,19 @@ void strnlen_at_actual(size_t limit) { } } +void strnlen_at_actual_1(size_t limit) { + const char *str = "abc"; + size_t len = strnlen(str + 1, limit); + clang_analyzer_eval(len <= 2); // expected-warning{{TRUE}} + // This is due to eager assertion in strnlen. + if (limit == 0) { + clang_analyzer_eval(len == 0); // expected-warning{{TRUE}} + } else { + clang_analyzer_eval(len == 2); // expected-warning{{UNKNOWN}} + clang_analyzer_eval(len < 2); // expected-warning{{UNKNOWN}} + } +} + //===----------------------------------------------------------------------=== // strcpy() //===----------------------------------------------------------------------=== diff --git a/clang/test/C/C23/n3037.c b/clang/test/C/C23/n3037.c index 3748375..113ecf7 100644 --- a/clang/test/C/C23/n3037.c +++ b/clang/test/C/C23/n3037.c @@ -30,11 +30,24 @@ void func2(PRODUCT(int, SUM(float, double)) y) { // c17-warning {{declaration of struct foop { struct { int x; }; }; // c17-note {{previous definition is here}} struct foop { struct { int x; }; }; // c17-error {{redefinition of 'foop'}} +// Test the field lookup compatibility isn't sufficient, the structure of types should be compatible. +struct AnonymousStructNotMatchingFields { // c17-note {{previous definition is here}} + struct { // c23-note {{field has name '' here}} + int x; + }; +}; +struct AnonymousStructNotMatchingFields { // c23-error {{type 'struct AnonymousStructNotMatchingFields' has incompatible definitions}} \ + c17-error {{redefinition of 'AnonymousStructNotMatchingFields'}} + int x; // c23-note {{field has name 'x' here}} +}; + union barp { int x; float y; }; // c17-note {{previous definition is here}} union barp { int x; float y; }; // c17-error {{redefinition of 'barp'}} typedef struct q { int x; } q_t; // c17-note 2 {{previous definition is here}} typedef struct q { int x; } q_t; // c17-error {{redefinition of 'q'}} \ c17-error-re {{typedef redefinition with different types ('struct (unnamed struct at {{.*}})' vs 'struct q')}} +typedef struct { int x; } untagged_q_t; // both-note {{previous definition is here}} +typedef struct { int x; } untagged_q_t; // both-error {{typedef redefinition with different types}} void func3(void) { struct S { int x; }; // c17-note {{previous definition is here}} struct T { struct S s; }; // c17-note {{previous definition is here}} @@ -389,13 +402,40 @@ void nontag_both_in_params(struct { int i; } Arg1, struct { int i; } Arg2) { _Static_assert(0 == _Generic(__typeof__(Arg1), __typeof__(Arg2) : 1, default : 0)); // both-warning {{passing a type argument as the first operand to '_Generic' is a C2y extension}} } -struct InnerAnonStruct { +struct InnerUnnamedStruct { struct { int i; } untagged; -} inner_anon_tagged; +} inner_unnamed_tagged; +_Static_assert(0 == _Generic(inner_unnamed_tagged.untagged, struct { int i; } : 1, default : 0)); -_Static_assert(0 == _Generic(inner_anon_tagged.untagged, struct { int i; } : 1, default : 0)); +struct InnerUnnamedStruct_same { + struct { + int i; + } untagged; +}; +struct InnerUnnamedStruct_differentNaming { + struct { + int i; + } untaggedDifferent; +}; +struct InnerUnnamedStruct_differentShape { + float x; + struct { + int i; + } untagged; + int y; +}; +void compare_unnamed_struct_from_different_outer_type( + struct InnerUnnamedStruct sameOuterType, + struct InnerUnnamedStruct_same matchingType, + struct InnerUnnamedStruct_differentNaming differentFieldName, + struct InnerUnnamedStruct_differentShape differentType) { + inner_unnamed_tagged.untagged = sameOuterType.untagged; + inner_unnamed_tagged.untagged = matchingType.untagged; // both-error-re {{assigning to 'struct (unnamed struct at {{.*}})' from incompatible type 'struct (unnamed struct at {{.*}})'}} + inner_unnamed_tagged.untagged = differentFieldName.untaggedDifferent; // both-error-re {{assigning to 'struct (unnamed struct at {{.*}})' from incompatible type 'struct (unnamed struct at {{.*}})'}} + inner_unnamed_tagged.untagged = differentType.untagged; // both-error-re {{assigning to 'struct (unnamed struct at {{.*}})' from incompatible type 'struct (unnamed struct at {{.*}})'}} +} // Test the same thing with enumerations (test for unions is omitted because // unions and structures are both RecordDecl objects, whereas EnumDecl is not). diff --git a/clang/test/CIR/CodeGen/atomic.c b/clang/test/CIR/CodeGen/atomic.c index 76289c5..440010a 100644 --- a/clang/test/CIR/CodeGen/atomic.c +++ b/clang/test/CIR/CodeGen/atomic.c @@ -211,7 +211,7 @@ void c11_atomic_cmpxchg_strong(_Atomic(int) *ptr, int *expected, int desired) { __c11_atomic_compare_exchange_strong(ptr, expected, desired, __ATOMIC_SEQ_CST, __ATOMIC_ACQUIRE); - // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg(%{{.+}} : !cir.ptr<!s32i>, %{{.+}} : !s32i, %{{.+}} : !s32i, success = seq_cst, failure = acquire) align(4) : (!s32i, !cir.bool) + // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} align(4) : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) // CIR-NEXT: %[[FAILED:.+]] = cir.unary(not, %[[SUCCESS]]) : !cir.bool, !cir.bool // CIR-NEXT: cir.if %[[FAILED]] { // CIR-NEXT: cir.store align(4) %[[OLD]], %{{.+}} : !s32i, !cir.ptr<!s32i> @@ -249,7 +249,7 @@ void c11_atomic_cmpxchg_weak(_Atomic(int) *ptr, int *expected, int desired) { __c11_atomic_compare_exchange_weak(ptr, expected, desired, __ATOMIC_SEQ_CST, __ATOMIC_ACQUIRE); - // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg(%{{.+}} : !cir.ptr<!s32i>, %{{.+}} : !s32i, %{{.+}} : !s32i, success = seq_cst, failure = acquire) align(4) weak : (!s32i, !cir.bool) + // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg weak success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} align(4) : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) // CIR-NEXT: %[[FAILED:.+]] = cir.unary(not, %[[SUCCESS]]) : !cir.bool, !cir.bool // CIR-NEXT: cir.if %[[FAILED]] { // CIR-NEXT: cir.store align(4) %[[OLD]], %{{.+}} : !s32i, !cir.ptr<!s32i> @@ -286,7 +286,7 @@ void atomic_cmpxchg(int *ptr, int *expected, int *desired) { // OGCG-LABEL: @atomic_cmpxchg __atomic_compare_exchange(ptr, expected, desired, /*weak=*/0, __ATOMIC_SEQ_CST, __ATOMIC_ACQUIRE); - // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg(%{{.+}} : !cir.ptr<!s32i>, %{{.+}} : !s32i, %{{.+}} : !s32i, success = seq_cst, failure = acquire) align(4) : (!s32i, !cir.bool) + // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} align(4) : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) // CIR-NEXT: %[[FAILED:.+]] = cir.unary(not, %[[SUCCESS]]) : !cir.bool, !cir.bool // CIR-NEXT: cir.if %[[FAILED]] { // CIR-NEXT: cir.store align(4) %[[OLD]], %{{.+}} : !s32i, !cir.ptr<!s32i> @@ -317,7 +317,7 @@ void atomic_cmpxchg(int *ptr, int *expected, int *desired) { // OGCG-NEXT: store i8 %[[SUCCESS_2]], ptr %{{.+}}, align 1 __atomic_compare_exchange(ptr, expected, desired, /*weak=*/1, __ATOMIC_SEQ_CST, __ATOMIC_ACQUIRE); - // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg(%{{.+}} : !cir.ptr<!s32i>, %{{.+}} : !s32i, %{{.+}} : !s32i, success = seq_cst, failure = acquire) align(4) weak : (!s32i, !cir.bool) + // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg weak success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} align(4) : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) // CIR-NEXT: %[[FAILED:.+]] = cir.unary(not, %[[SUCCESS]]) : !cir.bool, !cir.bool // CIR-NEXT: cir.if %[[FAILED]] { // CIR-NEXT: cir.store align(4) %[[OLD]], %{{.+}} : !s32i, !cir.ptr<!s32i> @@ -354,7 +354,7 @@ void atomic_cmpxchg_n(int *ptr, int *expected, int desired) { // OGCG-LABEL: @atomic_cmpxchg_n __atomic_compare_exchange_n(ptr, expected, desired, /*weak=*/0, __ATOMIC_SEQ_CST, __ATOMIC_ACQUIRE); - // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg(%{{.+}} : !cir.ptr<!s32i>, %{{.+}} : !s32i, %{{.+}} : !s32i, success = seq_cst, failure = acquire) align(4) : (!s32i, !cir.bool) + // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} align(4) : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) // CIR-NEXT: %[[FAILED:.+]] = cir.unary(not, %[[SUCCESS]]) : !cir.bool, !cir.bool // CIR-NEXT: cir.if %[[FAILED]] { // CIR-NEXT: cir.store align(4) %[[OLD]], %{{.+}} : !s32i, !cir.ptr<!s32i> @@ -385,7 +385,7 @@ void atomic_cmpxchg_n(int *ptr, int *expected, int desired) { // OGCG-NEXT: store i8 %[[SUCCESS_2]], ptr %{{.+}}, align 1 __atomic_compare_exchange_n(ptr, expected, desired, /*weak=*/1, __ATOMIC_SEQ_CST, __ATOMIC_ACQUIRE); - // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg(%{{.+}} : !cir.ptr<!s32i>, %{{.+}} : !s32i, %{{.+}} : !s32i, success = seq_cst, failure = acquire) align(4) weak : (!s32i, !cir.bool) + // CIR: %[[OLD:.+]], %[[SUCCESS:.+]] = cir.atomic.cmpxchg weak success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} align(4) : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) // CIR-NEXT: %[[FAILED:.+]] = cir.unary(not, %[[SUCCESS]]) : !cir.bool, !cir.bool // CIR-NEXT: cir.if %[[FAILED]] { // CIR-NEXT: cir.store align(4) %[[OLD]], %{{.+}} : !s32i, !cir.ptr<!s32i> @@ -427,12 +427,12 @@ void c11_atomic_exchange(_Atomic(int) *ptr, int value) { __c11_atomic_exchange(ptr, value, __ATOMIC_RELEASE); __c11_atomic_exchange(ptr, value, __ATOMIC_ACQ_REL); __c11_atomic_exchange(ptr, value, __ATOMIC_SEQ_CST); - // CIR: %{{.+}} = cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg consume %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg acquire %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg release %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg consume %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg acquire %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg release %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i // LLVM: %{{.+}} = atomicrmw xchg ptr %{{.+}}, i32 %{{.+}} monotonic, align 4 // LLVM: %{{.+}} = atomicrmw xchg ptr %{{.+}}, i32 %{{.+}} acquire, align 4 @@ -460,12 +460,12 @@ void atomic_exchange(int *ptr, int *value, int *old) { __atomic_exchange(ptr, value, old, __ATOMIC_RELEASE); __atomic_exchange(ptr, value, old, __ATOMIC_ACQ_REL); __atomic_exchange(ptr, value, old, __ATOMIC_SEQ_CST); - // CIR: %{{.+}} = cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg consume %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg acquire %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg release %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg consume %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg acquire %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg release %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i // LLVM: %{{.+}} = atomicrmw xchg ptr %{{.+}}, i32 %{{.+}} monotonic, align 4 // LLVM: %{{.+}} = atomicrmw xchg ptr %{{.+}}, i32 %{{.+}} acquire, align 4 @@ -493,12 +493,12 @@ void atomic_exchange_n(int *ptr, int value) { __atomic_exchange_n(ptr, value, __ATOMIC_RELEASE); __atomic_exchange_n(ptr, value, __ATOMIC_ACQ_REL); __atomic_exchange_n(ptr, value, __ATOMIC_SEQ_CST); - // CIR: %{{.+}} = cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg consume %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg acquire %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg release %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - // CIR: %{{.+}} = cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg consume %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg acquire %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg release %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CIR: %{{.+}} = cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i // LLVM: %{{.+}} = atomicrmw xchg ptr %{{.+}}, i32 %{{.+}} monotonic, align 4 // LLVM: %{{.+}} = atomicrmw xchg ptr %{{.+}}, i32 %{{.+}} acquire, align 4 diff --git a/clang/test/CIR/CodeGen/global-ctor-dtor.cpp b/clang/test/CIR/CodeGen/global-ctor-dtor.cpp new file mode 100644 index 0000000..2e03ff3 --- /dev/null +++ b/clang/test/CIR/CodeGen/global-ctor-dtor.cpp @@ -0,0 +1,45 @@ +// RUN: %clang_cc1 -std=c++20 -triple x86_64-unknown-linux-gnu -fclangir -emit-cir -mmlir --mlir-print-ir-before=cir-lowering-prepare %s -o %t.cir 2> %t-before.cir +// RUN: FileCheck --input-file=%t-before.cir %s --check-prefix=CIR-BEFORE-LPP +// RUN: FileCheck --input-file=%t.cir %s --check-prefix=CIR-AFTER +// RUN: FileCheck --check-prefix=CIR-AFTER --input-file=%t.cir %s +// RUN: %clang_cc1 -std=c++20 -triple x86_64-unknown-linux-gnu -fclangir -emit-llvm %s -o %t-cir.ll +// RUN: FileCheck --check-prefix=LLVM --input-file=%t-cir.ll %s +// RUN: %clang_cc1 -std=c++20 -triple x86_64-unknown-linux-gnu -emit-llvm %s -o %t.ll +// RUN: FileCheck --check-prefix=OGCG --input-file=%t.ll %s + +extern int bar(); +void foo(void) __attribute__((constructor)); +void foo(void) { + bar(); +} + +// CIR-BEFORE-LPP: cir.func dso_local @_Z3foov() global_ctor + +void foo2(void) __attribute__((constructor(777))); +void foo2(void) { + bar(); +} + +// CIR-BEFORE-LPP: cir.func dso_local @_Z4foo2v() global_ctor(777) + +void foo3(void) __attribute__((destructor)); +void foo3(void) { + bar(); +} + +// CIR-BEFORE-LPP: cir.func dso_local @_Z4foo3v() global_dtor + +void foo4(void) __attribute__((destructor(789))); +void foo4(void) { + bar(); +} + +// CIR-BEFORE-LPP: cir.func dso_local @_Z4foo4v() global_dtor(789) + +// CIR-AFTER: module @{{.*}} attributes {cir.global_ctors = [#cir.global_ctor<"_Z3foov", 65535>, #cir.global_ctor<"_Z4foo2v", 777>], cir.global_dtors = [#cir.global_dtor<"_Z4foo3v", 65535>, #cir.global_dtor<"_Z4foo4v", 789>] + +// LLVM: @llvm.global_ctors = appending global [2 x { i32, ptr, ptr }] [{ i32, ptr, ptr } { i32 65535, ptr @_Z3foov, ptr null }, { i32, ptr, ptr } { i32 777, ptr @_Z4foo2v, ptr null }] +// LLVM: @llvm.global_dtors = appending global [2 x { i32, ptr, ptr }] [{ i32, ptr, ptr } { i32 65535, ptr @_Z4foo3v, ptr null }, { i32, ptr, ptr } { i32 789, ptr @_Z4foo4v, ptr null }] + +// OGCG: @llvm.global_ctors = appending global [2 x { i32, ptr, ptr }] [{ i32, ptr, ptr } { i32 65535, ptr @_Z3foov, ptr null }, { i32, ptr, ptr } { i32 777, ptr @_Z4foo2v, ptr null }] +// OGCG: @llvm.global_dtors = appending global [2 x { i32, ptr, ptr }] [{ i32, ptr, ptr } { i32 65535, ptr @_Z4foo3v, ptr null }, { i32, ptr, ptr } { i32 789, ptr @_Z4foo4v, ptr null }] diff --git a/clang/test/CIR/CodeGen/goto.cpp b/clang/test/CIR/CodeGen/goto.cpp index 48cb44e..257c255 100644 --- a/clang/test/CIR/CodeGen/goto.cpp +++ b/clang/test/CIR/CodeGen/goto.cpp @@ -205,6 +205,8 @@ extern "C" void case_follow_label(int v) { // CIR: cir.func dso_local @case_follow_label // CIR: cir.switch // CIR: cir.case(equal, [#cir.int<1> : !s32i]) { +// CIR: cir.br ^bb1 +// CIR: ^bb1: // CIR: cir.label "label" // CIR: cir.case(equal, [#cir.int<2> : !s32i]) { // CIR: cir.call @action1() @@ -215,9 +217,11 @@ extern "C" void case_follow_label(int v) { // LLVM: define dso_local void @case_follow_label // LLVM: switch i32 {{.*}}, label %[[SWDEFAULT:.*]] [ -// LLVM: i32 1, label %[[LABEL:.*]] +// LLVM: i32 1, label %[[CASE1:.*]] // LLVM: i32 2, label %[[CASE2:.*]] // LLVM: ] +// LLVM: [[CASE1]]: +// LLVM: br label %[[LABEL:.*]] // LLVM: [[LABEL]]: // LLVM: br label %[[CASE2]] // LLVM: [[CASE2]]: @@ -303,3 +307,24 @@ extern "C" void default_follow_label(int v) { // OGCG: br label %label // OGCG: sw.epilog: // OGCG: ret void + +void g3() { +label: + goto label; +} + +// CIR: cir.func dso_local @_Z2g3v +// CIR: cir.br ^bb1 +// CIR: ^bb1: +// CIR: cir.label "label" +// CIR: cir.goto "label" + +// LLVM: define dso_local void @_Z2g3v() +// LLVM: br label %1 +// LLVM: 1: +// LLVM: br label %1 + +// OGCG: define dso_local void @_Z2g3v() +// OGCG: br label %label +// OGCG: label: +// OGCG: br label %label diff --git a/clang/test/CIR/CodeGen/label.c b/clang/test/CIR/CodeGen/label.c index a050094..f5345ef 100644 --- a/clang/test/CIR/CodeGen/label.c +++ b/clang/test/CIR/CodeGen/label.c @@ -11,10 +11,14 @@ labelA: } // CIR: cir.func no_proto dso_local @label +// CIR: cir.br ^bb1 +// CIR: ^bb1: // CIR: cir.label "labelA" // CIR: cir.return // LLVM:define dso_local void @label +// LLVM: br label %1 +// LLVM: 1: // LLVM: ret void // OGCG: define dso_local void @label @@ -29,15 +33,19 @@ labelC: } // CIR: cir.func no_proto dso_local @multiple_labels -// CIR: cir.label "labelB" // CIR: cir.br ^bb1 -// CIR: ^bb1: // pred: ^bb0 +// CIR: ^bb1: +// CIR: cir.label "labelB" +// CIR: cir.br ^bb2 +// CIR: ^bb2: // CIR: cir.label "labelC" // CIR: cir.return // LLVM: define dso_local void @multiple_labels() // LLVM: br label %1 // LLVM: 1: +// LLVM: br label %2 +// LLVM: 2: // LLVM: ret void // OGCG: define dso_local void @multiple_labels @@ -56,6 +64,8 @@ labelD: // CIR: cir.func dso_local @label_in_if // CIR: cir.if {{.*}} { +// CIR: cir.br ^bb1 +// CIR: ^bb1: // CIR: cir.label "labelD" // CIR: [[LOAD:%.*]] = cir.load align(4) [[COND:%.*]] : !cir.ptr<!s32i>, !s32i // CIR: [[INC:%.*]] = cir.unary(inc, %3) nsw : !s32i, !s32i @@ -68,15 +78,17 @@ labelD: // LLVM: 3: // LLVM: [[LOAD:%.*]] = load i32, ptr [[COND:%.*]], align 4 // LLVM: [[CMP:%.*]] = icmp ne i32 [[LOAD]], 0 -// LLVM: br i1 [[CMP]], label %6, label %9 +// LLVM: br i1 [[CMP]], label %6, label %10 // LLVM: 6: +// LLVM: br label %7 +// LLVM: 7: // LLVM: [[LOAD2:%.*]] = load i32, ptr [[COND]], align 4 // LLVM: [[ADD1:%.*]] = add nsw i32 [[LOAD2]], 1 // LLVM: store i32 [[ADD1]], ptr [[COND]], align 4 -// LLVM: br label %9 -// LLVM: 9: // LLVM: br label %10 // LLVM: 10: +// LLVM: br label %11 +// LLVM: 11: // LLVM: ret void // OGCG: define dso_local void @label_in_if @@ -142,11 +154,15 @@ end: return; } // CIR: cir.func no_proto dso_local @labelWithoutMatch +// CIR: cir.br ^bb1 +// CIR: ^bb1: // CIR: cir.label "end" // CIR: cir.return // CIR: } // LLVM: define dso_local void @labelWithoutMatch +// LLVM: br label %1 +// LLVM: 1: // LLVM: ret void // OGCG: define dso_local void @labelWithoutMatch @@ -167,13 +183,17 @@ void foo() { // CIR: cir.func no_proto dso_local @foo // CIR: cir.scope { -// CIR: cir.label "label" // CIR: %0 = cir.alloca !rec_S, !cir.ptr<!rec_S>, ["agg.tmp0"] +// CIR: cir.br ^bb1 +// CIR: ^bb1: +// CIR: cir.label "label" // LLVM:define dso_local void @foo() { // LLVM: [[ALLOC:%.*]] = alloca %struct.S, i64 1, align 1 // LLVM: br label %2 // LLVM:2: +// LLVM: br label %3 +// LLVM:3: // LLVM: [[CALL:%.*]] = call %struct.S @get() // LLVM: store %struct.S [[CALL]], ptr [[ALLOC]], align 1 // LLVM: [[LOAD:%.*]] = load %struct.S, ptr [[ALLOC]], align 1 diff --git a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-default-ops.cpp b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-default-ops.cpp index 040ddd3..ee4fffe 100644 --- a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-default-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-default-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct DefaultOperators { int i; @@ -43,12 +43,43 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(*:someVar) - // CHECK-NEXT: acc.reduction.recipe @reduction_mul__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_DefaultOperators, !cir.ptr<!rec_DefaultOperators>, ["openacc.reduction.init", init] @@ -71,10 +102,42 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(max:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -101,7 +164,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(min:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_min__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -128,7 +191,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(&:someVarNoFloats) // CHECK-NEXT: acc.reduction.recipe @reduction_iand__ZTS24DefaultOperatorsNoFloats : !cir.ptr<!rec_DefaultOperatorsNoFloats> reduction_operator <iand> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats>{{.*}}) @@ -146,7 +209,27 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } for(int i = 0; i < 5; ++i); @@ -167,7 +250,27 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } for(int i = 0; i < 5; ++i); @@ -188,10 +291,30 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(&&:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -218,7 +341,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(||:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -245,7 +368,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(+:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_add__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <add> init { @@ -286,10 +409,65 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(*:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_mul__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) @@ -388,11 +566,67 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(max:someVarArr) + // CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_DefaultOperators x 5>, !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>, ["openacc.reduction.init", init] @@ -493,7 +727,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(min:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_min__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) @@ -664,10 +898,53 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(|:someVarArrNoFloats) // CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}) @@ -702,7 +979,50 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } for(int i = 0; i < 5; ++i); @@ -739,10 +1059,53 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(&&:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) @@ -844,9 +1207,9 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(||:someVarArr) -// CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { +// CHECK: acc.reduction.recipe @reduction_lor__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_DefaultOperators x 5>, !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[TEMP_ITR:.*]] = cir.alloca !cir.ptr<!rec_DefaultOperators>, !cir.ptr<!cir.ptr<!rec_DefaultOperators>>, ["arrayinit.temp"] @@ -888,7 +1251,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(+:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_add__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <add> init { @@ -935,9 +1298,67 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(*:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_mul__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -983,9 +1404,67 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(max:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_max__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1033,7 +1512,7 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(min:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_min__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1081,7 +1560,7 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(&:someVarArrNoFloats[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_iand__Bcnt1__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <iand> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1121,9 +1600,55 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(|:someVarArrNoFloats[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_ior__Bcnt1__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1163,9 +1688,55 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(^:someVarArrNoFloats[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_xor__Bcnt1__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1205,9 +1776,55 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(&&:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_land__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1255,7 +1872,7 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(||:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_lor__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1303,26 +1920,26 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(+:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(*:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(max:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(min:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(&:someVarArrNoFloats[1:1]) for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(|:someVarArrNoFloats[1:1]) for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(^:someVarArrNoFloats[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(&&:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc parallel loop reduction(||:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); // CHECK-NEXT: cir.func {{.*}}@_Z12acc_combined } diff --git a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-float.cpp b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-float.cpp index 6e885cc..472e4ac 100644 --- a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-float.cpp +++ b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-float.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s template<typename T> void acc_combined() { T someVar; @@ -13,7 +13,10 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -26,7 +29,10 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } @@ -111,7 +117,31 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -142,7 +172,31 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -302,6 +356,35 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -337,6 +420,35 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -372,6 +484,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -407,6 +520,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -442,6 +556,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -477,6 +592,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); diff --git a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-inline-ops.cpp b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-inline-ops.cpp index 3d46ac7..112ff656 100644 --- a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-inline-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-inline-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct HasOperatorsInline { int i; @@ -48,7 +48,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -79,7 +79,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -88,7 +88,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(max:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <max> init { +// CHECK: acc.reduction.recipe @reduction_max__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -172,7 +172,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -181,7 +181,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(|:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <ior> init { +// CHECK: acc.reduction.recipe @reduction_ior__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -203,7 +203,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -212,7 +212,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(^:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_xor__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <xor> init { +// CHECK: acc.reduction.recipe @reduction_xor__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -234,7 +234,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -243,7 +243,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(&&:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <land> init { +// CHECK: acc.reduction.recipe @reduction_land__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -344,7 +344,29 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -466,7 +488,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -832,7 +875,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -896,7 +960,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -959,7 +1044,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -1216,6 +1322,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1293,6 +1425,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1524,6 +1682,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1601,6 +1785,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1678,6 +1888,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): diff --git a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-int.cpp b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-int.cpp index e9669d3..7eaa822b 100644 --- a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-int.cpp +++ b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-int.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s template<typename T> void acc_combined() { @@ -14,7 +14,10 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -28,7 +31,10 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -67,7 +73,10 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -81,7 +90,10 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -95,7 +107,10 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } @@ -155,7 +170,31 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -186,7 +225,31 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -279,7 +342,31 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -309,7 +396,31 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -339,7 +450,31 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -437,6 +572,35 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -472,6 +636,35 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -507,6 +700,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -542,6 +736,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -577,6 +772,35 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -612,6 +836,35 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -647,6 +900,35 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -682,6 +964,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -717,6 +1000,7 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); diff --git a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-outline-ops.cpp b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-outline-ops.cpp index c99e3c1..c2c0c77 100644 --- a/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-outline-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/combined-reduction-clause-outline-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct HasOperatorsOutline { int i; unsigned u; @@ -47,7 +47,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -55,7 +55,6 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } for(int i=0;i < 5; ++i); - #pragma acc parallel loop reduction(*:someVar) // CHECK: acc.reduction.recipe @reduction_mul__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) @@ -78,17 +77,17 @@ void acc_combined() { // CHECK-NEXT: acc.yield // // CHECK-NEXT: } combiner { - for(int i=0;i < 5; ++i); -#pragma acc parallel loop reduction(max:someVar) // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): // CHECK-NEXT: cir.call @_ZN19HasOperatorsOutlineD1Ev(%[[ARG]]) nothrow : (!cir.ptr<!rec_HasOperatorsOutline>) // CHECK-NEXT: acc.yield // CHECK-NEXT: } -// CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <max> init { + for(int i=0;i < 5; ++i); +#pragma acc parallel loop reduction(max:someVar) +// CHECK: acc.reduction.recipe @reduction_max__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -172,7 +171,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -181,7 +180,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(|:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <ior> init { +// CHECK: acc.reduction.recipe @reduction_ior__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -203,7 +202,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -212,7 +211,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(^:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_xor__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <xor> init { +// CHECK: acc.reduction.recipe @reduction_xor__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -234,7 +233,7 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -243,7 +242,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(&&:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <land> init { +// CHECK: acc.reduction.recipe @reduction_land__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -344,7 +343,29 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -466,7 +487,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -832,7 +874,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -896,7 +959,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -959,7 +1043,28 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -982,6 +1087,7 @@ void acc_combined() { // CHECK-NEXT: } // CHECK-NEXT: acc.yield // CHECK-NEXT: } + for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(&&:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <land> init { @@ -1106,8 +1212,7 @@ void acc_combined() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc parallel loop reduction(||:someVarArr) - -// CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <lor> init { +// CHECK: acc.reduction.recipe @reduction_lor__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[TEMP_ITR:.*]] = cir.alloca !cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!cir.ptr<!rec_HasOperatorsOutline>>, ["arrayinit.temp"] @@ -1216,6 +1321,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1293,6 +1424,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1524,6 +1681,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1601,6 +1784,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1678,6 +1887,32 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.c b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.c index c99dc09..b439623 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.c +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.c @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -std=c23 -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -std=c23 -triple x86_64-linux-pc %s -o - | FileCheck %s struct DefaultOperators { int i; @@ -42,7 +42,39 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } ; @@ -69,7 +101,39 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } ; @@ -144,7 +208,27 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } ; @@ -165,7 +249,27 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } ; @@ -186,7 +290,27 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } ; @@ -271,7 +395,62 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; @@ -373,7 +552,62 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; @@ -650,7 +884,50 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -680,7 +957,50 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -710,7 +1030,50 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -892,6 +1255,64 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; @@ -940,6 +1361,64 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; @@ -1056,7 +1535,6 @@ void acc_compute() { // CHECK-NEXT: cir.condition(%[[COND]]) // CHECK-NEXT: } body { // CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i - // CHECK-NEXT: %[[DECAY:.*]] = cir.cast array_to_ptrdecay %[[ALLOCA]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: %[[STRIDE:.*]] = cir.ptr_stride %[[DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> @@ -1079,6 +1557,52 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -1121,6 +1645,52 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -1163,6 +1733,52 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.cpp b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.cpp index b90a2fc..f997902 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-default-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct DefaultOperators { int i; @@ -21,7 +21,6 @@ void acc_compute() { struct DefaultOperatorsNoFloats someVarNoFloats; struct DefaultOperatorsNoFloats someVarArrNoFloats[5]; #pragma acc parallel reduction(+:someVar) - ; // CHECK: acc.reduction.recipe @reduction_add__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <add> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_DefaultOperators, !cir.ptr<!rec_DefaultOperators>, ["openacc.reduction.init", init] @@ -44,11 +43,43 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } + ; #pragma acc parallel reduction(*:someVar) - // CHECK-NEXT: acc.reduction.recipe @reduction_mul__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_DefaultOperators, !cir.ptr<!rec_DefaultOperators>, ["openacc.reduction.init", init] @@ -71,7 +102,39 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } ; @@ -146,7 +209,27 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } ; @@ -167,7 +250,27 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } ; @@ -188,7 +291,27 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } ; @@ -286,7 +409,62 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; @@ -388,11 +566,67 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; #pragma acc parallel reduction(max:someVarArr) + // CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_DefaultOperators x 5>, !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>, ["openacc.reduction.init", init] @@ -664,7 +898,50 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -702,7 +979,50 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -739,7 +1059,50 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -846,7 +1209,7 @@ void acc_compute() { // CHECK-NEXT: } ; #pragma acc parallel reduction(||:someVarArr) -// CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { +// CHECK: acc.reduction.recipe @reduction_lor__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_DefaultOperators x 5>, !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[TEMP_ITR:.*]] = cir.alloca !cir.ptr<!rec_DefaultOperators>, !cir.ptr<!cir.ptr<!rec_DefaultOperators>>, ["arrayinit.temp"] @@ -935,6 +1298,64 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; @@ -983,6 +1404,64 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } ; @@ -1121,6 +1600,52 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -1163,6 +1688,52 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -1205,6 +1776,52 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } ; @@ -1323,9 +1940,11 @@ void acc_compute() { ; #pragma acc parallel reduction(||:someVarArr[1:1]) ; + // CHECK-NEXT: cir.func {{.*}}@_Z11acc_compute } void uses() { acc_compute<DefaultOperators>(); } + diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.c b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.c index 0f7fd84..3e4583f 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.c +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.c @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s void acc_compute() { float someVar; @@ -13,7 +13,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } ; @@ -26,7 +29,10 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } ; @@ -110,7 +116,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -141,7 +171,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -301,6 +355,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -336,6 +419,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -371,6 +483,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -406,6 +519,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -441,6 +555,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -476,6 +591,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.cpp b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.cpp index 4d99a43..833cfad 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.cpp +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-float.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s template<typename T> void acc_compute() { @@ -14,7 +14,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } ; @@ -27,7 +30,10 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } @@ -112,7 +118,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -143,7 +173,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -303,6 +357,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -338,6 +421,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -373,6 +485,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -443,6 +556,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; @@ -478,6 +592,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } ; diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-inline-ops.cpp b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-inline-ops.cpp index ea00c07..ec4372d 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-inline-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-inline-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct HasOperatorsInline { int i; @@ -48,7 +48,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -79,7 +79,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -88,7 +88,7 @@ void acc_compute() { // CHECK-NEXT: } ; #pragma acc parallel reduction(max:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <max> init { +// CHECK: acc.reduction.recipe @reduction_max__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -172,7 +172,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -181,7 +181,7 @@ void acc_compute() { // CHECK-NEXT: } ; #pragma acc parallel reduction(|:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <ior> init { +// CHECK: acc.reduction.recipe @reduction_ior__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -203,7 +203,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -212,7 +212,7 @@ void acc_compute() { // CHECK-NEXT: } ; #pragma acc parallel reduction(^:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_xor__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <xor> init { +// CHECK: acc.reduction.recipe @reduction_xor__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -234,7 +234,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -243,7 +243,7 @@ void acc_compute() { // CHECK-NEXT: } ; #pragma acc parallel reduction(&&:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <land> init { +// CHECK: acc.reduction.recipe @reduction_land__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -344,7 +344,29 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -466,7 +488,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -832,7 +875,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -896,7 +960,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -959,7 +1044,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -1216,6 +1322,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1293,6 +1425,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1524,6 +1682,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1601,6 +1785,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1678,6 +1888,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.c b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.c index b170ed0bf..0cee5c6 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.c +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.c @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s void acc_compute() { int someVar; @@ -13,7 +13,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -27,7 +30,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -66,7 +72,10 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -80,7 +89,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -94,9 +106,13 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } + ; #pragma acc parallel reduction(&&:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTSi : !cir.ptr<!s32i> reduction_operator <land> init { @@ -153,7 +169,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -184,7 +224,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -277,7 +341,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -307,7 +395,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -337,7 +449,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -435,6 +571,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -470,6 +635,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -505,6 +699,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -540,6 +735,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -575,6 +771,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -610,6 +835,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -645,6 +899,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -680,6 +963,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -715,6 +999,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.cpp b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.cpp index c678eae..822dd9f6 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.cpp +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-int.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s template<typename T> void acc_compute() { @@ -14,7 +14,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -28,7 +31,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -67,7 +73,10 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -81,7 +90,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } ; @@ -95,7 +107,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } @@ -155,7 +170,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -186,7 +225,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -279,7 +342,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -309,7 +396,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -339,7 +450,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -437,6 +572,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -472,6 +636,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -507,6 +700,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -542,6 +736,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -577,6 +772,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -612,6 +836,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -647,6 +900,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -682,6 +964,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; @@ -717,6 +1000,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } ; diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-outline-ops.cpp b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-outline-ops.cpp index 9ccaea2..873bf51 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-outline-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-outline-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct HasOperatorsOutline { int i; unsigned u; @@ -24,7 +24,7 @@ template<typename T> void acc_compute() { T someVar; T someVarArr[5]; -#pragma acc parallel reduction(+:someVar) +#pragma acc parallel reduction(+:someVar) // CHECK: acc.reduction.recipe @reduction_add__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <add> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] @@ -47,7 +47,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -55,8 +55,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; - -#pragma acc parallel reduction(*:someVar) +#pragma acc parallel reduction(*:someVar) // CHECK: acc.reduction.recipe @reduction_mul__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] @@ -78,17 +77,17 @@ void acc_compute() { // CHECK-NEXT: acc.yield // // CHECK-NEXT: } combiner { - ; -#pragma acc parallel reduction(max:someVar) // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): // CHECK-NEXT: cir.call @_ZN19HasOperatorsOutlineD1Ev(%[[ARG]]) nothrow : (!cir.ptr<!rec_HasOperatorsOutline>) // CHECK-NEXT: acc.yield // CHECK-NEXT: } -// CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <max> init { + ; +#pragma acc parallel reduction(max:someVar) +// CHECK: acc.reduction.recipe @reduction_max__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -118,7 +117,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(min:someVar) +#pragma acc parallel reduction(min:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_min__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] @@ -149,7 +148,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(&:someVar) +#pragma acc parallel reduction(&:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_iand__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <iand> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] @@ -172,7 +171,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -180,8 +179,8 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(|:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <ior> init { +#pragma acc parallel reduction(|:someVar) +// CHECK: acc.reduction.recipe @reduction_ior__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -203,7 +202,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -211,8 +210,8 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(^:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_xor__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <xor> init { +#pragma acc parallel reduction(^:someVar) +// CHECK: acc.reduction.recipe @reduction_xor__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -234,7 +233,7 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -242,8 +241,8 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(&&:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <land> init { +#pragma acc parallel reduction(&&:someVar) +// CHECK: acc.reduction.recipe @reduction_land__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -273,7 +272,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(||:someVar) +#pragma acc parallel reduction(||:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] @@ -305,7 +304,7 @@ void acc_compute() { // CHECK-NEXT: } ; -#pragma acc parallel reduction(+:someVarArr) +#pragma acc parallel reduction(+:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_add__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <add> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -344,7 +343,29 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -368,7 +389,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(*:someVarArr) +#pragma acc parallel reduction(*:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_mul__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -466,7 +487,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -490,7 +532,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(max:someVarArr) +#pragma acc parallel reduction(max:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -612,7 +654,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(min:someVarArr) +#pragma acc parallel reduction(min:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_min__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -734,7 +776,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(&:someVarArr) +#pragma acc parallel reduction(&:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_iand__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <iand> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -832,7 +874,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -856,7 +919,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(|:someVarArr) +#pragma acc parallel reduction(|:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -896,7 +959,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -920,7 +1004,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(^:someVarArr) +#pragma acc parallel reduction(^:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_xor__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -959,7 +1043,28 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -982,8 +1087,9 @@ void acc_compute() { // CHECK-NEXT: } // CHECK-NEXT: acc.yield // CHECK-NEXT: } + ; -#pragma acc parallel reduction(&&:someVarArr) +#pragma acc parallel reduction(&&:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] @@ -1105,9 +1211,8 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(||:someVarArr) - -// CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <lor> init { +#pragma acc parallel reduction(||:someVarArr) +// CHECK: acc.reduction.recipe @reduction_lor__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[TEMP_ITR:.*]] = cir.alloca !cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!cir.ptr<!rec_HasOperatorsOutline>>, ["arrayinit.temp"] @@ -1171,7 +1276,7 @@ void acc_compute() { // CHECK-NEXT: } ; -#pragma acc parallel reduction(+:someVarArr[2]) +#pragma acc parallel reduction(+:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_add__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <add> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1216,6 +1321,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1248,7 +1379,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(*:someVarArr[2]) +#pragma acc parallel reduction(*:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_mul__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1293,6 +1424,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1325,7 +1482,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(max:someVarArr[2]) +#pragma acc parallel reduction(max:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_max__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1402,7 +1559,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(min:someVarArr[2]) +#pragma acc parallel reduction(min:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_min__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1479,7 +1636,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(&:someVarArr[2]) +#pragma acc parallel reduction(&:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_iand__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <iand> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1524,6 +1681,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1556,7 +1739,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(|:someVarArr[2]) +#pragma acc parallel reduction(|:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_ior__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1601,6 +1784,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1633,7 +1842,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(^:someVarArr[2]) +#pragma acc parallel reduction(^:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_xor__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1678,6 +1887,32 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1710,7 +1945,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(&&:someVarArr[2]) +#pragma acc parallel reduction(&&:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_land__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] @@ -1787,7 +2022,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } ; -#pragma acc parallel reduction(||:someVarArr[2]) +#pragma acc parallel reduction(||:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_lor__Bcnt1__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init"] diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c index 783aa9a..b2d1362 100644 --- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c +++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s void acc_compute() { unsigned int someVar; @@ -13,7 +13,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i> // CHECK-NEXT: } ; @@ -27,7 +30,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i> // CHECK-NEXT: } ; @@ -66,7 +72,10 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i> // CHECK-NEXT: } ; @@ -80,7 +89,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i> // CHECK-NEXT: } ; @@ -94,7 +106,10 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i> +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i> // CHECK-NEXT: } ; @@ -153,7 +168,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -184,7 +223,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -277,7 +340,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -307,7 +394,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -337,7 +448,31 @@ void acc_compute() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -435,6 +570,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -470,6 +634,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -505,6 +698,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -540,6 +734,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -575,6 +770,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -610,6 +834,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -645,6 +898,35 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -680,6 +962,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; @@ -715,6 +998,7 @@ void acc_compute() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> // CHECK-NEXT: } ; diff --git a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-default-ops.cpp b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-default-ops.cpp index 038afcaa..349e0fb 100644 --- a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-default-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-default-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct DefaultOperators { int i; @@ -15,7 +15,7 @@ struct DefaultOperatorsNoFloats { }; template<typename T> -void acc_combined() { +void acc_loop() { T someVar; T someVarArr[5]; struct DefaultOperatorsNoFloats someVarNoFloats; @@ -43,12 +43,43 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(*:someVar) - // CHECK-NEXT: acc.reduction.recipe @reduction_mul__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_DefaultOperators, !cir.ptr<!rec_DefaultOperators>, ["openacc.reduction.init", init] @@ -71,10 +102,42 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperators> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(max:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -101,7 +164,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(min:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_min__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -128,7 +191,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(&:someVarNoFloats) // CHECK-NEXT: acc.reduction.recipe @reduction_iand__ZTS24DefaultOperatorsNoFloats : !cir.ptr<!rec_DefaultOperatorsNoFloats> reduction_operator <iand> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats>{{.*}}) @@ -146,7 +209,27 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } for(int i = 0; i < 5; ++i); @@ -167,7 +250,27 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } for(int i = 0; i < 5; ++i); @@ -188,10 +291,30 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_DefaultOperatorsNoFloats> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHSARG]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperatorsNoFloats> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(&&:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -218,7 +341,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(||:someVar) // CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTS16DefaultOperators : !cir.ptr<!rec_DefaultOperators> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_DefaultOperators>{{.*}}) @@ -245,7 +368,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_DefaultOperators> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(+:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_add__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <add> init { @@ -286,10 +409,65 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(*:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_mul__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) @@ -388,11 +566,67 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !s64i) -> !cir.ptr<!rec_DefaultOperators> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(max:someVarArr) + // CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_DefaultOperators x 5>, !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>, ["openacc.reduction.init", init] @@ -493,7 +727,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(min:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_min__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) @@ -664,10 +898,53 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(|:someVarArrNoFloats) // CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}) @@ -702,7 +979,50 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } for(int i = 0; i < 5; ++i); @@ -739,10 +1059,53 @@ void acc_combined() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !s64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(&&:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) @@ -844,9 +1207,9 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(||:someVarArr) -// CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { +// CHECK: acc.reduction.recipe @reduction_lor__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_DefaultOperators x 5>, !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[TEMP_ITR:.*]] = cir.alloca !cir.ptr<!rec_DefaultOperators>, !cir.ptr<!cir.ptr<!rec_DefaultOperators>>, ["arrayinit.temp"] @@ -888,7 +1251,7 @@ void acc_combined() { // TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(+:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_add__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <add> init { @@ -935,9 +1298,67 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[ADD]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(*:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_mul__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -983,9 +1404,67 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperators>, !u64i) -> !cir.ptr<!rec_DefaultOperators> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "f"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.float, !cir.ptr<!cir.float> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][3] {name = "d"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.double> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.double>, !cir.double +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.double +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[GET_MEM_LHS]] : !cir.double, !cir.ptr<!cir.double> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][4] {name = "b"} : !cir.ptr<!rec_DefaultOperators> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) nsw : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[MUL]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(max:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_max__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1033,7 +1512,7 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(min:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_min__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <min> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1081,7 +1560,7 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(&:someVarArrNoFloats[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_iand__Bcnt1__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <iand> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1121,9 +1600,55 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[AND]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(|:someVarArrNoFloats[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_ior__Bcnt1__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1163,9 +1688,55 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[OR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(^:someVarArrNoFloats[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_xor__Bcnt1__ZTSA5_24DefaultOperatorsNoFloats : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1205,9 +1776,55 @@ void acc_combined() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_DefaultOperatorsNoFloats>, !u64i) -> !cir.ptr<!rec_DefaultOperatorsNoFloats> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !s32i, !cir.ptr<!s32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][1] {name = "u"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!u32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!u32i>, !u32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[GET_MEM_LHS]] : !u32i, !cir.ptr<!u32i> +// CHECK-NEXT: %[[GET_MEM_LHS:.*]] = cir.get_member %[[LHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[GET_MEM_RHS:.*]] = cir.get_member %[[RHS_STRIDE]][2] {name = "b"} : !cir.ptr<!rec_DefaultOperatorsNoFloats> -> !cir.ptr<!cir.bool> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_RHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[RHS_INT_CAST:.*]] = cir.cast bool_to_int %[[RHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load{{.*}} %[[GET_MEM_LHS]] : !cir.ptr<!cir.bool>, !cir.bool +// CHECK-NEXT: %[[LHS_INT_CAST:.*]] = cir.cast bool_to_int %[[LHS_LOAD]] : !cir.bool -> !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_INT_CAST]], %[[RHS_INT_CAST]]) : !s32i +// CHECK-NEXT: %[[RES_TO_BOOL_CAST:.*]] = cir.cast int_to_bool %[[XOR]] : !s32i -> !cir.bool +// CHECK-NEXT: cir.store {{.*}} %[[RES_TO_BOOL_CAST]], %[[GET_MEM_LHS]] : !cir.bool, !cir.ptr<!cir.bool> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperatorsNoFloats x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(&&:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_land__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1255,7 +1872,7 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(||:someVarArr[2]) // CHECK-NEXT: acc.reduction.recipe @reduction_lor__Bcnt1__ZTSA5_16DefaultOperators : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>>{{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) @@ -1303,29 +1920,29 @@ void acc_combined() { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_DefaultOperators x 5>> // CHECK-NEXT: } - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(+:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(*:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(max:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(min:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(&:someVarArrNoFloats[1:1]) for(int i = 0; i < 5; ++i); #pragma acc loop reduction(|:someVarArrNoFloats[1:1]) for(int i = 0; i < 5; ++i); #pragma acc loop reduction(^:someVarArrNoFloats[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(&&:someVarArr[1:1]) - for(int i=0;i < 5; ++i); + for(int i = 0; i < 5; ++i); #pragma acc loop reduction(||:someVarArr[1:1]) - for(int i=0;i < 5; ++i); - // CHECK-NEXT: cir.func {{.*}}@_Z12acc_combined + for(int i = 0; i < 5; ++i); + // CHECK-NEXT: cir.func {{.*}}@_Z8acc_loop } void uses() { - acc_combined<DefaultOperators>(); + acc_loop<DefaultOperators>(); } diff --git a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-float.cpp b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-float.cpp index 11b7c35..8d9269b 100644 --- a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-float.cpp +++ b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-float.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s template<typename T> void acc_loop() { @@ -14,7 +14,10 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -27,7 +30,10 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.float> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!cir.float> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.float> // CHECK-NEXT: } @@ -112,7 +118,31 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -143,7 +173,31 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !s64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -303,6 +357,35 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -338,6 +421,35 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!cir.float>, !u64i) -> !cir.ptr<!cir.float> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!cir.float>, !cir.float +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !cir.float +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -373,6 +485,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -408,6 +521,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -443,6 +557,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -478,6 +593,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.float x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!cir.float x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); diff --git a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-inline-ops.cpp b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-inline-ops.cpp index d95da8c..1c89515 100644 --- a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-inline-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-inline-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct HasOperatorsInline { int i; @@ -48,7 +48,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -79,7 +79,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -88,7 +88,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(max:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <max> init { +// CHECK: acc.reduction.recipe @reduction_max__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -172,7 +172,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -181,7 +181,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(|:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <ior> init { +// CHECK: acc.reduction.recipe @reduction_ior__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -203,7 +203,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -212,7 +212,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(^:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_xor__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <xor> init { +// CHECK: acc.reduction.recipe @reduction_xor__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -234,7 +234,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsInline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline> {{.*}}): @@ -243,7 +243,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(&&:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <land> init { +// CHECK: acc.reduction.recipe @reduction_land__ZTS18HasOperatorsInline : !cir.ptr<!rec_HasOperatorsInline> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsInline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsInline, !cir.ptr<!rec_HasOperatorsInline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsInline> -> !cir.ptr<!s32i> @@ -344,7 +344,29 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -466,7 +488,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -832,7 +875,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -896,7 +960,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -959,7 +1044,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !s64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}): @@ -1216,6 +1322,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinepLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1293,6 +1425,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlinemLERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1524,6 +1682,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineaNERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1601,6 +1785,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineoRERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1678,6 +1888,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsInline>, !u64i) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.call @_ZN18HasOperatorsInlineeOERS_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsInline>, !cir.ptr<!rec_HasOperatorsInline>) -> !cir.ptr<!rec_HasOperatorsInline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsInline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): diff --git a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-int.cpp b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-int.cpp index d207e07b..72e9d1f 100644 --- a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-int.cpp +++ b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-int.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s template<typename T> void acc_loop() { @@ -14,7 +14,10 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -28,7 +31,10 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -67,7 +73,10 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -81,7 +90,10 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -95,7 +107,10 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!s32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!s32i> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!s32i> +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHSARG]] // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!s32i> // CHECK-NEXT: } @@ -155,7 +170,31 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -186,7 +225,31 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -279,7 +342,31 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -309,7 +396,31 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -339,7 +450,31 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !s64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -437,6 +572,35 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[ADD:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[ADD]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -472,6 +636,35 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[MUL:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[MUL]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -507,6 +700,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -542,6 +736,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -577,6 +772,35 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[AND:.*]] = cir.binop(and, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[AND]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -612,6 +836,35 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OR:.*]] = cir.binop(or, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[OR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -647,6 +900,35 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!s32i>, !u64i) -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[XOR:.*]] = cir.binop(xor, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !s32i +// CHECK-NEXT: cir.store {{.*}} %[[XOR]], %[[LHS_STRIDE]] +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -682,6 +964,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); @@ -717,6 +1000,7 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!s32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// TODO OpenACC: Expecting combination operation here // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!s32i x 5>> // CHECK-NEXT: } for(int i=0;i < 5; ++i); diff --git a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-outline-ops.cpp b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-outline-ops.cpp index a33c25a..a36d41c1 100644 --- a/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-outline-ops.cpp +++ b/clang/test/CIR/CodeGenOpenACC/loop-reduction-clause-outline-ops.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s struct HasOperatorsOutline { int i; unsigned u; @@ -47,7 +47,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -55,7 +55,6 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } for(int i=0;i < 5; ++i); - #pragma acc loop reduction(*:someVar) // CHECK: acc.reduction.recipe @reduction_mul__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <mul> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) @@ -78,17 +77,17 @@ void acc_loop() { // CHECK-NEXT: acc.yield // // CHECK-NEXT: } combiner { - for(int i=0;i < 5; ++i); -#pragma acc loop reduction(max:someVar) // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): // CHECK-NEXT: cir.call @_ZN19HasOperatorsOutlineD1Ev(%[[ARG]]) nothrow : (!cir.ptr<!rec_HasOperatorsOutline>) // CHECK-NEXT: acc.yield // CHECK-NEXT: } -// CHECK-NEXT: acc.reduction.recipe @reduction_max__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <max> init { + for(int i=0;i < 5; ++i); +#pragma acc loop reduction(max:someVar) +// CHECK: acc.reduction.recipe @reduction_max__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <max> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -172,7 +171,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -181,7 +180,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(|:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_ior__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <ior> init { +// CHECK: acc.reduction.recipe @reduction_ior__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <ior> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -203,7 +202,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -212,7 +211,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(^:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_xor__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <xor> init { +// CHECK: acc.reduction.recipe @reduction_xor__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <xor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -234,7 +233,7 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHSARG]], %[[RHSARG]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!rec_HasOperatorsOutline> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}, %[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline> {{.*}}): @@ -243,7 +242,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(&&:someVar) -// CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <land> init { +// CHECK: acc.reduction.recipe @reduction_land__ZTS19HasOperatorsOutline : !cir.ptr<!rec_HasOperatorsOutline> reduction_operator <land> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!rec_HasOperatorsOutline>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !rec_HasOperatorsOutline, !cir.ptr<!rec_HasOperatorsOutline>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[GET_I:.*]] = cir.get_member %[[ALLOCA]][0] {name = "i"} : !cir.ptr<!rec_HasOperatorsOutline> -> !cir.ptr<!s32i> @@ -344,7 +343,29 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -466,7 +487,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -832,7 +874,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -896,7 +959,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -959,7 +1043,28 @@ void acc_loop() { // // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}) -// TODO OpenACC: Expecting combination operation here +// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i +// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[CMP]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !s64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}): @@ -982,6 +1087,7 @@ void acc_loop() { // CHECK-NEXT: } // CHECK-NEXT: acc.yield // CHECK-NEXT: } + for(int i=0;i < 5; ++i); #pragma acc loop reduction(&&:someVarArr) // CHECK-NEXT: acc.reduction.recipe @reduction_land__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <land> init { @@ -1106,8 +1212,7 @@ void acc_loop() { // CHECK-NEXT: } for(int i=0;i < 5; ++i); #pragma acc loop reduction(||:someVarArr) - -// CHECK-NEXT: acc.reduction.recipe @reduction_lor__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <lor> init { +// CHECK: acc.reduction.recipe @reduction_lor__ZTSA5_19HasOperatorsOutline : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> reduction_operator <lor> init { // CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>{{.*}}) // CHECK-NEXT: %[[ALLOCA:.*]] = cir.alloca !cir.array<!rec_HasOperatorsOutline x 5>, !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>>, ["openacc.reduction.init", init] // CHECK-NEXT: %[[TEMP_ITR:.*]] = cir.alloca !cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!cir.ptr<!rec_HasOperatorsOutline>>, ["arrayinit.temp"] @@ -1216,6 +1321,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZpLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1293,6 +1424,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZmLR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1524,6 +1681,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZaNR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1601,6 +1784,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZoRR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): @@ -1678,6 +1887,32 @@ void acc_loop() { // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}})) +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i +// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i +// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!rec_HasOperatorsOutline>, !u64i) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.call @_ZeOR19HasOperatorsOutlineS0_(%[[LHS_STRIDE]], %[[RHS_STRIDE]]) : (!cir.ptr<!rec_HasOperatorsOutline>, !cir.ptr<!rec_HasOperatorsOutline>) -> !cir.ptr<!rec_HasOperatorsOutline> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[ORIG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[ARG:.*]]: !cir.ptr<!cir.array<!rec_HasOperatorsOutline x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}): diff --git a/clang/test/CIR/CodeGenOpenACC/reduction-clause-recipes.cpp b/clang/test/CIR/CodeGenOpenACC/reduction-clause-recipes.cpp index fc696ff..20ad7a3 100644 --- a/clang/test/CIR/CodeGenOpenACC/reduction-clause-recipes.cpp +++ b/clang/test/CIR/CodeGenOpenACC/reduction-clause-recipes.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s +// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s // Note: unlike the 'private' recipe checks, this is just for spot-checking, // so this test isn't as comprehensive. The same code paths are used for @@ -90,7 +90,88 @@ void do_things(unsigned A, unsigned B) { // CHECK-NEXT: } // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { -// CHECK-NEXT: ^bb0(%[[REF:.*]]: !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> {{.*}}, %[[PRIVATE:.*]]: !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}): +// CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}): +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB3:.*]] = acc.get_lowerbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB3]] : index to !u64i +// CHECK-NEXT: %[[UB3:.*]] = acc.get_upperbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB3]] : index to !u64i +// CHECK-NEXT: %[[ITR3:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB3_CAST]], %[[ITR3]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR3_LOAD:.*]] = cir.load %[[ITR3]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR3_LOAD]], %[[UB3_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR3_LOAD:.*]] = cir.load %[[ITR3]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_TLA_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> -> !cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>> +// CHECK-NEXT: %[[LHS_BOUND3_STRIDE:.*]] = cir.ptr_stride %[[LHS_TLA_DECAY]], %[[ITR3_LOAD]] : (!cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>>, !u64i) -> !cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>> +// CHECK-NEXT: %[[RHS_TLA_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> -> !cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>> +// CHECK-NEXT: %[[RHS_BOUND3_STRIDE:.*]] = cir.ptr_stride %[[RHS_TLA_DECAY]], %[[ITR3_LOAD]] : (!cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>>, !u64i) -> !cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>> +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB2:.*]] = acc.get_lowerbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB2]] : index to !u64i +// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i +// CHECK-NEXT: %[[ITR2:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB2_CAST]], %[[ITR2]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR2_LOAD:.*]] = cir.load %[[ITR2]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR2_LOAD]], %[[UB2_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR2_LOAD:.*]] = cir.load %[[ITR2]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_BOUND3_STRIDE_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHS_BOUND3_STRIDE]] : !cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>> -> !cir.ptr<!cir.array<!rec_NoOps x 5>> +// CHECK-NEXT: %[[LHS_BOUND2_STRIDE:.*]] = cir.ptr_stride %[[LHS_BOUND3_STRIDE_DECAY]], %[[ITR2_LOAD]] : (!cir.ptr<!cir.array<!rec_NoOps x 5>>, !u64i) -> !cir.ptr<!cir.array<!rec_NoOps x 5>> +// CHECK-NEXT: %[[RHS_BOUND3_STRIDE_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHS_BOUND3_STRIDE]] : !cir.ptr<!cir.array<!cir.array<!rec_NoOps x 5> x 5>> -> !cir.ptr<!cir.array<!rec_NoOps x 5>> +// CHECK-NEXT: %[[RHS_BOUND2_STRIDE:.*]] = cir.ptr_stride %[[RHS_BOUND3_STRIDE_DECAY]], %[[ITR2_LOAD]] : (!cir.ptr<!cir.array<!rec_NoOps x 5>>, !u64i) -> !cir.ptr<!cir.array<!rec_NoOps x 5>> +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB1:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB1]] : index to !u64i +// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i +// CHECK-NEXT: %[[ITR1:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB1_CAST]], %[[ITR1]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR1_LOAD:.*]] = cir.load %[[ITR1]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR1_LOAD]], %[[UB1_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR1_LOAD:.*]] = cir.load %[[ITR1]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_BOUND2_STRIDE_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHS_BOUND2_STRIDE]] : !cir.ptr<!cir.array<!rec_NoOps x 5>> -> !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[LHS_BOUND1_STRIDE:.*]] = cir.ptr_stride %[[LHS_BOUND2_STRIDE_DECAY]], %[[ITR1_LOAD]] : (!cir.ptr<!rec_NoOps>, !u64i) -> !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[RHS_BOUND2_STRIDE_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHS_BOUND2_STRIDE]] : !cir.ptr<!cir.array<!rec_NoOps x 5>> -> !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[RHS_BOUND1_STRIDE:.*]] = cir.ptr_stride %[[RHS_BOUND2_STRIDE_DECAY]], %[[ITR1_LOAD]] : (!cir.ptr<!rec_NoOps>, !u64i) -> !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[LHS_GET_I:.*]] = cir.get_member %[[LHS_BOUND1_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_NoOps> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_GET_I:.*]] = cir.get_member %[[RHS_BOUND1_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_NoOps> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_GET_I]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_GET_I]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OP:.*]] = cir.binop(add, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw +// CHECK-NEXT: cir.store{{.*}} %[[OP]], %[[LHS_GET_I]] : !s32i +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR1_LOAD]] = cir.load %[[ITR1]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR1_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR1]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR2_LOAD]] = cir.load %[[ITR2]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR2_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR2]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR3_LOAD]] = cir.load %[[ITR3]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR3_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR3]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield // CHECK-NEXT:} destroy { // CHECK-NEXT: ^bb0(%[[REF:.*]]: !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> {{.*}}, %[[PRIVATE:.*]]: !cir.ptr<!cir.array<!cir.array<!cir.array<!rec_NoOps x 5> x 5> x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}): @@ -355,7 +436,89 @@ void do_things(unsigned A, unsigned B) { // // CHECK-NEXT: acc.yield // CHECK-NEXT: } combiner { -// CHECK-NEXT: ^bb0(%[[REF:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>> {{.*}}, %[[PRIVATE:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}): +// CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}): +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB3:.*]] = acc.get_lowerbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB3]] : index to !u64i +// CHECK-NEXT: %[[UB3:.*]] = acc.get_upperbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB3]] : index to !u64i +// CHECK-NEXT: %[[ITR3:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB3_CAST]], %[[ITR3]] : !u64i, !cir.ptr<!u64i> + +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR3_LOAD:.*]] = cir.load %[[ITR3]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR3_LOAD]], %[[UB3_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR3_LOAD:.*]] = cir.load %[[ITR3]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_TLA_LOAD:.*]] = cir.load %[[LHSARG]] : !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>>, !cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>> +// CHECK-NEXT: %[[LHS_BOUND3_STRIDE:.*]] = cir.ptr_stride %[[LHS_TLA_LOAD]], %[[ITR3_LOAD]] : (!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>, !u64i) -> !cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>> +// CHECK-NEXT: %[[RHS_TLA_LOAD:.*]] = cir.load %[[RHSARG]] : !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>>, !cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>> +// CHECK-NEXT: %[[RHS_BOUND3_STRIDE:.*]] = cir.ptr_stride %[[RHS_TLA_LOAD]], %[[ITR3_LOAD]] : (!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>, !u64i) -> !cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>> +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB2:.*]] = acc.get_lowerbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB2]] : index to !u64i +// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i +// CHECK-NEXT: %[[ITR2:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB2_CAST]], %[[ITR2]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR2_LOAD:.*]] = cir.load %[[ITR2]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR2_LOAD]], %[[UB2_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR2_LOAD:.*]] = cir.load %[[ITR2]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_BOUND3_STRIDE_LOAD:.*]] = cir.load %[[LHS_BOUND3_STRIDE]] : !cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>, !cir.ptr<!cir.ptr<!rec_NoOps>> +// CHECK-NEXT: %[[LHS_BOUND2_STRIDE:.*]] = cir.ptr_stride %[[LHS_BOUND3_STRIDE_LOAD]], %[[ITR2_LOAD]] : (!cir.ptr<!cir.ptr<!rec_NoOps>>, !u64i) -> !cir.ptr<!cir.ptr<!rec_NoOps>> +// CHECK-NEXT: %[[RHS_BOUND3_STRIDE_LOAD:.*]] = cir.load %[[RHS_BOUND3_STRIDE]] : !cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>, !cir.ptr<!cir.ptr<!rec_NoOps>> +// CHECK-NEXT: %[[RHS_BOUND2_STRIDE:.*]] = cir.ptr_stride %[[RHS_BOUND3_STRIDE_LOAD]], %[[ITR2_LOAD]] : (!cir.ptr<!cir.ptr<!rec_NoOps>>, !u64i) -> !cir.ptr<!cir.ptr<!rec_NoOps>> +// CHECK-NEXT: cir.scope { +// CHECK-NEXT: %[[LB1:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[LB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB1]] : index to !u64i +// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index +// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i +// CHECK-NEXT: %[[ITR1:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64} +// CHECK-NEXT: cir.store %[[LB1_CAST]], %[[ITR1]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.for : cond { +// CHECK-NEXT: %[[ITR1_LOAD:.*]] = cir.load %[[ITR1]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR1_LOAD]], %[[UB1_CAST]]) : !u64i, !cir.bool +// CHECK-NEXT: cir.condition(%[[COND]]) +// CHECK-NEXT: } body { +// CHECK-NEXT: %[[ITR1_LOAD:.*]] = cir.load %[[ITR1]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[LHS_BOUND2_STRIDE_LOAD:.*]] = cir.load %[[LHS_BOUND2_STRIDE]] : !cir.ptr<!cir.ptr<!rec_NoOps>>, !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_BOUND2_STRIDE_LOAD]], %[[ITR1_LOAD]] : (!cir.ptr<!rec_NoOps>, !u64i) -> !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[RHS_BOUND2_STRIDE_LOAD:.*]] = cir.load %[[RHS_BOUND2_STRIDE]] : !cir.ptr<!cir.ptr<!rec_NoOps>>, !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_BOUND2_STRIDE_LOAD]], %[[ITR1_LOAD]] : (!cir.ptr<!rec_NoOps>, !u64i) -> !cir.ptr<!rec_NoOps> +// CHECK-NEXT: %[[LHS_GET_I:.*]] = cir.get_member %[[LHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_NoOps> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_GET_I:.*]] = cir.get_member %[[RHS_STRIDE]][0] {name = "i"} : !cir.ptr<!rec_NoOps> -> !cir.ptr<!s32i> +// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_GET_I]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_GET_I]] : !cir.ptr<!s32i>, !s32i +// CHECK-NEXT: %[[OP:.*]] = cir.binop(mul, %[[LHS_LOAD]], %[[RHS_LOAD]]) nsw +// CHECK-NEXT: cir.store{{.*}} %[[OP]], %[[LHS_GET_I]] : !s32i +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR1_LOAD]] = cir.load %[[ITR1]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR1_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR1]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR2_LOAD]] = cir.load %[[ITR2]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR2_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR2]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } step { +// CHECK-NEXT: %[[ITR3_LOAD]] = cir.load %[[ITR3]] : !cir.ptr<!u64i>, !u64i +// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR3_LOAD]]) : !u64i, !u64i +// CHECK-NEXT: cir.store %[[INC]], %[[ITR3]] : !u64i, !cir.ptr<!u64i> +// CHECK-NEXT: cir.yield +// CHECK-NEXT: } +// CHECK-NEXT: } // CHECK-NEXT: acc.yield // CHECK-NEXT: } destroy { // CHECK-NEXT: ^bb0(%[[REF:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>> {{.*}}, %[[PRIVATE:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!rec_NoOps>>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}): diff --git a/clang/test/CIR/IR/atomic.cir b/clang/test/CIR/IR/atomic.cir index 8520763..790297f 100644 --- a/clang/test/CIR/IR/atomic.cir +++ b/clang/test/CIR/IR/atomic.cir @@ -5,17 +5,30 @@ cir.func @atomic_xchg(%ptr: !cir.ptr<!s32i>, %val: !s32i) { // CHECK-LABEL: @atomic_xchg - %0 = cir.atomic.xchg relaxed %ptr, %val : !cir.ptr<!s32i> -> !s32i - // CHECK: cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - %1 = cir.atomic.xchg consume %ptr, %val : !cir.ptr<!s32i> -> !s32i - // CHECK: cir.atomic.xchg consume %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - %2 = cir.atomic.xchg acquire %ptr, %val : !cir.ptr<!s32i> -> !s32i - // CHECK: cir.atomic.xchg acquire %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - %3 = cir.atomic.xchg release %ptr, %val : !cir.ptr<!s32i> -> !s32i - // CHECK: cir.atomic.xchg release %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - %4 = cir.atomic.xchg acq_rel %ptr, %val : !cir.ptr<!s32i> -> !s32i - // CHECK: cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i - %5 = cir.atomic.xchg seq_cst %ptr, %val : !cir.ptr<!s32i> -> !s32i - // CHECK: cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : !cir.ptr<!s32i> -> !s32i + %0 = cir.atomic.xchg relaxed %ptr, %val : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CHECK: cir.atomic.xchg relaxed %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + %1 = cir.atomic.xchg consume %ptr, %val : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CHECK: cir.atomic.xchg consume %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + %2 = cir.atomic.xchg acquire %ptr, %val : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CHECK: cir.atomic.xchg acquire %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + %3 = cir.atomic.xchg release %ptr, %val : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CHECK: cir.atomic.xchg release %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + %4 = cir.atomic.xchg acq_rel %ptr, %val : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CHECK: cir.atomic.xchg acq_rel %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + %5 = cir.atomic.xchg seq_cst %ptr, %val : (!cir.ptr<!s32i>, !s32i) -> !s32i + // CHECK: cir.atomic.xchg seq_cst %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i) -> !s32i + cir.return +} + +cir.func @atomic_cmpxchg(%ptr: !cir.ptr<!s32i>, %expected: !s32i, %desired: !s32i) { + // CHECK-LABEL: @atomic_cmpxchg + %0, %1 = cir.atomic.cmpxchg success(relaxed) failure(relaxed) %ptr, %expected, %desired : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) + // CHECK: cir.atomic.cmpxchg success(relaxed) failure(relaxed) %{{.+}}, %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) + %2, %3 = cir.atomic.cmpxchg weak success(relaxed) failure(relaxed) %ptr, %expected, %desired : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) + // CHECK: cir.atomic.cmpxchg weak success(relaxed) failure(relaxed) %{{.+}}, %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) + %4, %5 = cir.atomic.cmpxchg success(seq_cst) failure(acquire) %ptr, %expected, %desired : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) + // CHECK: cir.atomic.cmpxchg success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) + %6, %7 = cir.atomic.cmpxchg weak success(seq_cst) failure(acquire) %ptr, %expected, %desired : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) + // CHECK: cir.atomic.cmpxchg weak success(seq_cst) failure(acquire) %{{.+}}, %{{.+}}, %{{.+}} : (!cir.ptr<!s32i>, !s32i, !s32i) -> (!s32i, !cir.bool) cir.return } diff --git a/clang/test/CIR/IR/func.cir b/clang/test/CIR/IR/func.cir index d7e8184..6e91898 100644 --- a/clang/test/CIR/IR/func.cir +++ b/clang/test/CIR/IR/func.cir @@ -110,4 +110,36 @@ cir.func builtin @builtin() { } // CHECK: cir.func{{.*}} builtin @builtin() +cir.func @global_ctor_func() global_ctor { + cir.return +} + +// CHECK: cir.func @global_ctor_func() global_ctor { +// CHECK: cir.return +// CHECK: } + +cir.func @global_ctor_with_priority() global_ctor(200) { + cir.return +} + +// CHECK: cir.func @global_ctor_with_priority() global_ctor(200) { +// CHECK: cir.return +// CHECK: } + +cir.func @global_dtor_func() global_dtor { + cir.return +} + +// CHECK: cir.func @global_dtor_func() global_dtor { +// CHECK: cir.return +// CHECK: } + +cir.func @global_dtor_with_priority() global_dtor(201) { + cir.return +} + +// CHECK: cir.func @global_dtor_with_priority() global_dtor(201) { +// CHECK: cir.return +// CHECK: } + } diff --git a/clang/test/CXX/expr/expr.prim/expr.prim.req/compound-requirement.cpp b/clang/test/CXX/expr/expr.prim/expr.prim.req/compound-requirement.cpp index 5f1243a..af2dce8 100644 --- a/clang/test/CXX/expr/expr.prim/expr.prim.req/compound-requirement.cpp +++ b/clang/test/CXX/expr/expr.prim/expr.prim.req/compound-requirement.cpp @@ -149,7 +149,7 @@ namespace std_example { template<typename T> constexpr bool is_same_v<T, T> = true; template<typename T, typename U> concept same_as = is_same_v<T, U>; - // expected-note@-1 {{because 'is_same_v<int, typename T2::inner>' evaluated to false}} + // expected-note@-1 {{because 'is_same_v<int, typename std_example::T2::inner>' evaluated to false}} static_assert(C1<int>); static_assert(C1<int*>); @@ -160,7 +160,7 @@ namespace std_example { template<typename T> concept C2 = requires(T x) { {*x} -> same_as<typename T::inner>; - // expected-note@-1{{because 'same_as<int, typename T2::inner>' evaluated to false}} + // expected-note@-1{{because 'same_as<int, typename std_example::T2::inner>' evaluated to false}} // expected-note@-2{{because '*x' would be invalid: indirection requires pointer operand ('int' invalid)}} }; diff --git a/clang/test/CXX/expr/expr.prim/expr.prim.req/nested-requirement.cpp b/clang/test/CXX/expr/expr.prim/expr.prim.req/nested-requirement.cpp index 9fc4906..70a96be 100644 --- a/clang/test/CXX/expr/expr.prim/expr.prim.req/nested-requirement.cpp +++ b/clang/test/CXX/expr/expr.prim/expr.prim.req/nested-requirement.cpp @@ -27,7 +27,7 @@ using r4i = X<void>::r4<int>; // expected-error{{constraints not satisfied for c // C++ [expr.prim.req.nested] Examples namespace std_example { - template<typename U> concept C1 = sizeof(U) == 1; // expected-note{{because 'sizeof(decltype(+t)) == 1' (4 == 1) evaluated to false}} + template<typename U> concept C1 = sizeof(U) == 1; // expected-note{{because 'sizeof(int) == 1' (4 == 1) evaluated to false}} template<typename T> concept D = requires (T t) { requires C1<decltype (+t)>; // expected-note{{because 'decltype(+t)' (aka 'int') does not satisfy 'C1'}} diff --git a/clang/test/CXX/temp/temp.param/p10-2a.cpp b/clang/test/CXX/temp/temp.param/p10-2a.cpp index 4f192d3..c0406f8 100644 --- a/clang/test/CXX/temp/temp.param/p10-2a.cpp +++ b/clang/test/CXX/temp/temp.param/p10-2a.cpp @@ -95,8 +95,8 @@ concept OneOf = (is_same_v<T, Ts> || ...); // #OneOf // expected-note@#OneOf 3{{because 'is_same_v<int, char[1]>' evaluated to false}} // expected-note@#OneOf 3{{and 'is_same_v<int, char[2]>' evaluated to false}} // expected-note@#OneOf {{because 'is_same_v<decltype(nullptr), char>' evaluated to false}} -// expected-note@#OneOf {{because 'is_same_v<decltype(nullptr), char>' evaluated to false}} -// expected-note@#OneOf {{and 'is_same_v<decltype(nullptr), int>' evaluated to false}} +// expected-note@#OneOf {{because 'is_same_v<std::nullptr_t, char>' evaluated to false}} +// expected-note@#OneOf {{and 'is_same_v<std::nullptr_t, int>' evaluated to false}} // expected-note@#OneOf {{and 'is_same_v<decltype(nullptr), int>' evaluated to false}} template<OneOf<char[1], char[2]> T, OneOf<int, long, char> U> diff --git a/clang/test/CodeGen/RISCV/bitint.c b/clang/test/CodeGen/RISCV/bitint.c new file mode 100644 index 0000000..1ad43af --- /dev/null +++ b/clang/test/CodeGen/RISCV/bitint.c @@ -0,0 +1,342 @@ +// NOTE: Assertions have been autogenerated by utils/update_cc_test_checks.py UTC_ARGS: --function-signature +// RUN: %clang_cc1 -triple riscv64 -O2 -emit-llvm -o - %s | FileCheck %s --check-prefix=RISCV64 +// RUN: %clang_cc1 -triple riscv32 -O2 -emit-llvm -o - %s | FileCheck %s --check-prefix=RISCV32 +// RUN: %clang_cc1 -triple riscv32 -fforce-enable-int128 -O2 -emit-llvm -o - %s | FileCheck %s --check-prefix=RISCV32_INT128 + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_17_add_unsigned +// RISCV64-SAME: (i17 noundef zeroext [[A:%.*]], i17 noundef zeroext [[B:%.*]]) local_unnamed_addr #[[ATTR0:[0-9]+]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add i17 [[B]], [[A]] +// RISCV64-NEXT: ret i17 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_17_add_unsigned +// RISCV32-SAME: (i17 noundef zeroext [[A:%.*]], i17 noundef zeroext [[B:%.*]]) local_unnamed_addr #[[ATTR0:[0-9]+]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[ADD:%.*]] = add i17 [[B]], [[A]] +// RISCV32-NEXT: ret i17 [[ADD]] +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_17_add_unsigned +// RISCV32_INT128-SAME: (i17 noundef zeroext [[A:%.*]], i17 noundef zeroext [[B:%.*]]) local_unnamed_addr #[[ATTR0:[0-9]+]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add i17 [[B]], [[A]] +// RISCV32_INT128-NEXT: ret i17 [[ADD]] +// +unsigned _BitInt(17) test_bitint_17_add_unsigned(unsigned _BitInt(17) a, unsigned _BitInt(17) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_17_add_signed +// RISCV64-SAME: (i17 noundef signext [[A:%.*]], i17 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i17 [[B]], [[A]] +// RISCV64-NEXT: ret i17 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_17_add_signed +// RISCV32-SAME: (i17 noundef signext [[A:%.*]], i17 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i17 [[B]], [[A]] +// RISCV32-NEXT: ret i17 [[ADD]] +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_17_add_signed +// RISCV32_INT128-SAME: (i17 noundef signext [[A:%.*]], i17 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i17 [[B]], [[A]] +// RISCV32_INT128-NEXT: ret i17 [[ADD]] +// +signed _BitInt(17) test_bitint_17_add_signed(signed _BitInt(17) a, signed _BitInt(17) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_17_add_default +// RISCV64-SAME: (i17 noundef signext [[A:%.*]], i17 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i17 [[B]], [[A]] +// RISCV64-NEXT: ret i17 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_17_add_default +// RISCV32-SAME: (i17 noundef signext [[A:%.*]], i17 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i17 [[B]], [[A]] +// RISCV32-NEXT: ret i17 [[ADD]] +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_17_add_default +// RISCV32_INT128-SAME: (i17 noundef signext [[A:%.*]], i17 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i17 [[B]], [[A]] +// RISCV32_INT128-NEXT: ret i17 [[ADD]] +// +_BitInt(17) test_bitint_17_add_default(_BitInt(17) a, _BitInt(17) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_32_add_unsigned +// RISCV64-SAME: (i32 noundef signext [[A:%.*]], i32 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add i32 [[B]], [[A]] +// RISCV64-NEXT: ret i32 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_32_add_unsigned +// RISCV32-SAME: (i32 noundef zeroext [[A:%.*]], i32 noundef zeroext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[ADD:%.*]] = add i32 [[B]], [[A]] +// RISCV32-NEXT: ret i32 [[ADD]] +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_32_add_unsigned +// RISCV32_INT128-SAME: (i32 noundef zeroext [[A:%.*]], i32 noundef zeroext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add i32 [[B]], [[A]] +// RISCV32_INT128-NEXT: ret i32 [[ADD]] +// +unsigned _BitInt(32) test_bitint_32_add_unsigned(unsigned _BitInt(32) a, unsigned _BitInt(32) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_32_add_signed +// RISCV64-SAME: (i32 noundef signext [[A:%.*]], i32 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i32 [[B]], [[A]] +// RISCV64-NEXT: ret i32 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_32_add_signed +// RISCV32-SAME: (i32 noundef signext [[A:%.*]], i32 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i32 [[B]], [[A]] +// RISCV32-NEXT: ret i32 [[ADD]] +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_32_add_signed +// RISCV32_INT128-SAME: (i32 noundef signext [[A:%.*]], i32 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i32 [[B]], [[A]] +// RISCV32_INT128-NEXT: ret i32 [[ADD]] +// +signed _BitInt(32) test_bitint_32_add_signed(signed _BitInt(32) a, signed _BitInt(32) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_32_add_default +// RISCV64-SAME: (i32 noundef signext [[A:%.*]], i32 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i32 [[B]], [[A]] +// RISCV64-NEXT: ret i32 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_32_add_default +// RISCV32-SAME: (i32 noundef signext [[A:%.*]], i32 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i32 [[B]], [[A]] +// RISCV32-NEXT: ret i32 [[ADD]] +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_32_add_default +// RISCV32_INT128-SAME: (i32 noundef signext [[A:%.*]], i32 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i32 [[B]], [[A]] +// RISCV32_INT128-NEXT: ret i32 [[ADD]] +// +_BitInt(32) test_bitint_32_add_default(_BitInt(32) a, _BitInt(32) b) { + return a + b; +} + + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_65_add_unsigned +// RISCV64-SAME: (i65 noundef zeroext [[A:%.*]], i65 noundef zeroext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add i65 [[B]], [[A]] +// RISCV64-NEXT: ret i65 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_65_add_unsigned +// RISCV32-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1:[0-9]+]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA6:![0-9]+]] +// RISCV32-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i65 +// RISCV32-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i65 +// RISCV32-NEXT: [[ADD:%.*]] = add i65 [[B]], [[A]] +// RISCV32-NEXT: [[STOREDV4:%.*]] = zext i65 [[ADD]] to i128 +// RISCV32-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: ret void +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_65_add_unsigned +// RISCV32_INT128-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1:[0-9]+]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA6:![0-9]+]] +// RISCV32_INT128-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i65 +// RISCV32_INT128-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i65 +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add i65 [[B]], [[A]] +// RISCV32_INT128-NEXT: [[STOREDV4:%.*]] = zext i65 [[ADD]] to i128 +// RISCV32_INT128-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: ret void +// +unsigned _BitInt(65) test_bitint_65_add_unsigned(unsigned _BitInt(65) a, unsigned _BitInt(65) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_65_add_signed +// RISCV64-SAME: (i65 noundef signext [[A:%.*]], i65 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i65 [[B]], [[A]] +// RISCV64-NEXT: ret i65 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_65_add_signed +// RISCV32-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i65 +// RISCV32-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i65 +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i65 [[B]], [[A]] +// RISCV32-NEXT: [[STOREDV4:%.*]] = sext i65 [[ADD]] to i128 +// RISCV32-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: ret void +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_65_add_signed +// RISCV32_INT128-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i65 +// RISCV32_INT128-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i65 +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i65 [[B]], [[A]] +// RISCV32_INT128-NEXT: [[STOREDV4:%.*]] = sext i65 [[ADD]] to i128 +// RISCV32_INT128-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: ret void +// +signed _BitInt(65) test_bitint_65_add_signed(signed _BitInt(65) a, signed _BitInt(65) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_65_add_default +// RISCV64-SAME: (i65 noundef signext [[A:%.*]], i65 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i65 [[B]], [[A]] +// RISCV64-NEXT: ret i65 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_65_add_default +// RISCV32-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i65 +// RISCV32-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i65 +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i65 [[B]], [[A]] +// RISCV32-NEXT: [[STOREDV4:%.*]] = sext i65 [[ADD]] to i128 +// RISCV32-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA6]] +// RISCV32-NEXT: ret void +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_65_add_default +// RISCV32_INT128-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i65 +// RISCV32_INT128-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i65 +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i65 [[B]], [[A]] +// RISCV32_INT128-NEXT: [[STOREDV4:%.*]] = sext i65 [[ADD]] to i128 +// RISCV32_INT128-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA6]] +// RISCV32_INT128-NEXT: ret void +// +_BitInt(65) test_bitint_65_add_default(_BitInt(65) a, _BitInt(65) b) { + return a + b; +} + + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_77_add_unsigned +// RISCV64-SAME: (i77 noundef zeroext [[A:%.*]], i77 noundef zeroext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add i77 [[B]], [[A]] +// RISCV64-NEXT: ret i77 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_77_add_unsigned +// RISCV32-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA10:![0-9]+]] +// RISCV32-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i77 +// RISCV32-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i77 +// RISCV32-NEXT: [[ADD:%.*]] = add i77 [[B]], [[A]] +// RISCV32-NEXT: [[STOREDV4:%.*]] = zext i77 [[ADD]] to i128 +// RISCV32-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: ret void +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_77_add_unsigned +// RISCV32_INT128-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA10:![0-9]+]] +// RISCV32_INT128-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i77 +// RISCV32_INT128-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i77 +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add i77 [[B]], [[A]] +// RISCV32_INT128-NEXT: [[STOREDV4:%.*]] = zext i77 [[ADD]] to i128 +// RISCV32_INT128-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: ret void +// +unsigned _BitInt(77) test_bitint_77_add_unsigned(unsigned _BitInt(77) a, unsigned _BitInt(77) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_77_add_signed +// RISCV64-SAME: (i77 noundef signext [[A:%.*]], i77 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i77 [[B]], [[A]] +// RISCV64-NEXT: ret i77 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_77_add_signed +// RISCV32-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i77 +// RISCV32-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i77 +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i77 [[B]], [[A]] +// RISCV32-NEXT: [[STOREDV4:%.*]] = sext i77 [[ADD]] to i128 +// RISCV32-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: ret void +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_77_add_signed +// RISCV32_INT128-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i77 +// RISCV32_INT128-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i77 +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i77 [[B]], [[A]] +// RISCV32_INT128-NEXT: [[STOREDV4:%.*]] = sext i77 [[ADD]] to i128 +// RISCV32_INT128-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: ret void +// +signed _BitInt(77) test_bitint_77_add_signed(signed _BitInt(77) a, signed _BitInt(77) b) { + return a + b; +} + +// RISCV64-LABEL: define {{[^@]+}}@test_bitint_77_add_default +// RISCV64-SAME: (i77 noundef signext [[A:%.*]], i77 noundef signext [[B:%.*]]) local_unnamed_addr #[[ATTR0]] { +// RISCV64-NEXT: entry: +// RISCV64-NEXT: [[ADD:%.*]] = add nsw i77 [[B]], [[A]] +// RISCV64-NEXT: ret i77 [[ADD]] +// +// RISCV32-LABEL: define {{[^@]+}}@test_bitint_77_add_default +// RISCV32-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32-NEXT: entry: +// RISCV32-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i77 +// RISCV32-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i77 +// RISCV32-NEXT: [[ADD:%.*]] = add nsw i77 [[B]], [[A]] +// RISCV32-NEXT: [[STOREDV4:%.*]] = sext i77 [[ADD]] to i128 +// RISCV32-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA10]] +// RISCV32-NEXT: ret void +// +// RISCV32_INT128-LABEL: define {{[^@]+}}@test_bitint_77_add_default +// RISCV32_INT128-SAME: (ptr dead_on_unwind noalias writable writeonly sret(i128) align 8 captures(none) initializes((0, 16)) [[AGG_RESULT:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP0:%.*]], ptr dead_on_return noundef readonly captures(none) [[TMP1:%.*]]) local_unnamed_addr #[[ATTR1]] { +// RISCV32_INT128-NEXT: entry: +// RISCV32_INT128-NEXT: [[TMP2:%.*]] = load i128, ptr [[TMP0]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: [[A:%.*]] = trunc i128 [[TMP2]] to i77 +// RISCV32_INT128-NEXT: [[TMP3:%.*]] = load i128, ptr [[TMP1]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: [[B:%.*]] = trunc i128 [[TMP3]] to i77 +// RISCV32_INT128-NEXT: [[ADD:%.*]] = add nsw i77 [[B]], [[A]] +// RISCV32_INT128-NEXT: [[STOREDV4:%.*]] = sext i77 [[ADD]] to i128 +// RISCV32_INT128-NEXT: store i128 [[STOREDV4]], ptr [[AGG_RESULT]], align 8, !tbaa [[TBAA10]] +// RISCV32_INT128-NEXT: ret void +// +_BitInt(77) test_bitint_77_add_default(_BitInt(77) a, _BitInt(77) b) { + return a + b; +} diff --git a/clang/test/CodeGen/X86/avx-builtins.c b/clang/test/CodeGen/X86/avx-builtins.c index 8f3d459..bcffd861 100644 --- a/clang/test/CodeGen/X86/avx-builtins.c +++ b/clang/test/CodeGen/X86/avx-builtins.c @@ -1100,6 +1100,7 @@ __m256d test_mm256_hadd_pd(__m256d A, __m256d B) { // CHECK: call {{.*}}<4 x double> @llvm.x86.avx.hadd.pd.256(<4 x double> %{{.*}}, <4 x double> %{{.*}}) return _mm256_hadd_pd(A, B); } +TEST_CONSTEXPR(match_m256d(_mm256_hadd_pd((__m256d){+1.0, +2.0, +3.0, +4.0}, (__m256d){+5.0, +6.0, +7.0, +8.0}), +3.0, +11.0, +7.0, +15.0)); __m256 test_mm256_hadd_ps(__m256 A, __m256 B) { // CHECK-LABEL: test_mm256_hadd_ps @@ -1107,17 +1108,27 @@ __m256 test_mm256_hadd_ps(__m256 A, __m256 B) { return _mm256_hadd_ps(A, B); } +TEST_CONSTEXPR(match_m256(_mm256_hadd_ps( + (__m256){+1.0f, +2.0f, +3.0f, +4.0f, +5.0f, +6.0f, +7.0f, +8.0f}, + (__m256){+9.0f, +10.0f, +11.0f, +12.0f, +13.0f, +14.0f, +15.0f, +16.0f}), + +3.0f, +7.0f, +19.0f, +23.0f, +11.0f, +15.0f, +27.0f, +31.0f)); + __m256d test_mm256_hsub_pd(__m256d A, __m256d B) { // CHECK-LABEL: test_mm256_hsub_pd // CHECK: call {{.*}}<4 x double> @llvm.x86.avx.hsub.pd.256(<4 x double> %{{.*}}, <4 x double> %{{.*}}) return _mm256_hsub_pd(A, B); } +TEST_CONSTEXPR(match_m256d(_mm256_hsub_pd((__m256d){+1.0, +2.0, +4.0, +3.0}, (__m256d){+10.0, +6.0, +16.0, +8.0}), -1.0,+4.0,+1.0,+8.0)); __m256 test_mm256_hsub_ps(__m256 A, __m256 B) { // CHECK-LABEL: test_mm256_hsub_ps // CHECK: call {{.*}}<8 x float> @llvm.x86.avx.hsub.ps.256(<8 x float> %{{.*}}, <8 x float> %{{.*}}) return _mm256_hsub_ps(A, B); } +TEST_CONSTEXPR(match_m256(_mm256_hsub_ps( + (__m256){1.0f, 2.0f, 4.0f, 3.0f, 5.0f, 7.0f, 7.0f, 5.0f}, + (__m256){6.0f, 9.0f, 11.0f, 8.0f, 13.0f, 17.0f, 15.0f, 11.0f}), + -1.0f, 1.0f, -3.0f, 3.0f, -2.0f, 2.0f, -4.0f, 4.0f)); __m256i test_mm256_insert_epi8(__m256i x, char b) { // CHECK-LABEL: test_mm256_insert_epi8 diff --git a/clang/test/CodeGen/X86/avx2-builtins.c b/clang/test/CodeGen/X86/avx2-builtins.c index 55f18f9..dc64f96 100644 --- a/clang/test/CodeGen/X86/avx2-builtins.c +++ b/clang/test/CodeGen/X86/avx2-builtins.c @@ -485,36 +485,60 @@ __m256i test_mm256_hadd_epi16(__m256i a, __m256i b) { // CHECK: call <16 x i16> @llvm.x86.avx2.phadd.w(<16 x i16> %{{.*}}, <16 x i16> %{{.*}}) return _mm256_hadd_epi16(a, b); } +TEST_CONSTEXPR(match_v16hi(_mm256_hadd_epi16( + (__m256i)(__v16hi){1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16}, + (__m256i)(__v16hi){17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32}), + 3,7,11,15,35,39,43,47,19,23,27,31,51,55,59,63)); __m256i test_mm256_hadd_epi32(__m256i a, __m256i b) { // CHECK-LABEL: test_mm256_hadd_epi32 // CHECK: call <8 x i32> @llvm.x86.avx2.phadd.d(<8 x i32> %{{.*}}, <8 x i32> %{{.*}}) return _mm256_hadd_epi32(a, b); } +TEST_CONSTEXPR(match_v8si(_mm256_hadd_epi32( + (__m256i)(__v8si){10, 20, 30, 40, 50, 60, 70, 80}, + (__m256i)(__v8si){5, 15, 25, 35, 45, 55, 65, 75}), + 30,70,20,60,110,150,100,140)); __m256i test_mm256_hadds_epi16(__m256i a, __m256i b) { // CHECK-LABEL: test_mm256_hadds_epi16 // CHECK:call <16 x i16> @llvm.x86.avx2.phadd.sw(<16 x i16> %{{.*}}, <16 x i16> %{{.*}}) return _mm256_hadds_epi16(a, b); } +TEST_CONSTEXPR(match_v16hi( _mm256_hadds_epi16( + (__m256i)(__v16hi){32767, 32767, 1,2,3,4,5,6,7,8,9,10,11,12,13,14}, + (__m256i)(__v16hi){19,20,21,22,23,24,25,26,27,28,29,30,31,32, 32767, 5}), + 32767, 3,7,11, 39,43,47,51,15,19,23,27, 55,59,63, 32767)); __m256i test_mm256_hsub_epi16(__m256i a, __m256i b) { // CHECK-LABEL: test_mm256_hsub_epi16 // CHECK: call <16 x i16> @llvm.x86.avx2.phsub.w(<16 x i16> %{{.*}}, <16 x i16> %{{.*}}) return _mm256_hsub_epi16(a, b); } +TEST_CONSTEXPR(match_v16hi(_mm256_hsub_epi16( + (__m256i)(__v16hi){2,1,1,2,5,3,3,5,7,4,4,7,9,5,5,9}, + (__m256i)(__v16hi){10,5,5,10,12,6,6,12,21,14,14,21,24,16,16,24}), + 1,-1,2,-2,5,-5,6,-6,3,-3,4,-4, 7,-7,8,-8)); __m256i test_mm256_hsub_epi32(__m256i a, __m256i b) { // CHECK-LABEL: test_mm256_hsub_epi32 // CHECK: call <8 x i32> @llvm.x86.avx2.phsub.d(<8 x i32> %{{.*}}, <8 x i32> %{{.*}}) return _mm256_hsub_epi32(a, b); } +TEST_CONSTEXPR(match_v8si(_mm256_hsub_epi32( + (__m256i)(__v8si){10, 20, 30,50,60,90,100,140}, + (__m256i)(__v8si){200,150,260,200,420,350,800,720}), + -10,-20,50,60, -30,-40, 70,80)); __m256i test_mm256_hsubs_epi16(__m256i a, __m256i b) { // CHECK-LABEL: test_mm256_hsubs_epi16 // CHECK:call <16 x i16> @llvm.x86.avx2.phsub.sw(<16 x i16> %{{.*}}, <16 x i16> %{{.*}}) return _mm256_hsubs_epi16(a, b); } +TEST_CONSTEXPR(match_v16hi(_mm256_hsubs_epi16( + (__m256i)(__v16hi){32726, -100, 3, 2, 6, 4, 8, 5,15,10 ,21, 14, 27, 18, 100, 90}, + (__m256i)(__v16hi){40, 20, 100, 70, 200,150, 100,40, 1000,900,300,150, 500,300, 1, 1}), + 32767, 1, 2, 3, 20, 30, 50, 60, 5, 7, 9, 10, 100, 150, 200, 0)); __m128i test_mm_i32gather_epi32(int const *b, __m128i c) { // CHECK-LABEL: test_mm_i32gather_epi32 diff --git a/clang/test/CodeGen/X86/avx512ifma-builtins.c b/clang/test/CodeGen/X86/avx512ifma-builtins.c index eebefb0..f90697e 100644 --- a/clang/test/CodeGen/X86/avx512ifma-builtins.c +++ b/clang/test/CodeGen/X86/avx512ifma-builtins.c @@ -8,45 +8,230 @@ // RUN: %clang_cc1 -x c++ -flax-vector-conversions=none -ffreestanding %s -triple=x86_64-apple-darwin -target-feature +avx512ifma -emit-llvm -o - -Wall -Werror -fexperimental-new-constant-interpreter | FileCheck %s // RUN: %clang_cc1 -x c++ -flax-vector-conversions=none -ffreestanding %s -triple=i386-apple-darwin -target-feature +avx512ifma -emit-llvm -o - -Wall -Werror -fexperimental-new-constant-interpreter | FileCheck %s - #include <immintrin.h> +#include "builtin_test_helpers.h" __m512i test_mm512_madd52hi_epu64(__m512i __X, __m512i __Y, __m512i __Z) { // CHECK-LABEL: test_mm512_madd52hi_epu64 // CHECK: call {{.*}}<8 x i64> @llvm.x86.avx512.vpmadd52h.uq.512(<8 x i64> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}}) - return _mm512_madd52hi_epu64(__X, __Y, __Z); + return _mm512_madd52hi_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v8di(_mm512_madd52hi_epu64( + (__m512i)(__v8du){100, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){10, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){5, 0, 0, 0, 0, 0, 0, 0}), + 100, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52hi_epu64( + (__m512i)(__v8du){0, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){0xFFFFFFFFFFFFFull, 0, 0, 0, + 0, 0, 0, 0}, + (__m512i)(__v8du){0xFFFFFFFFFFFFFull, 0, 0, 0, + 0, 0, 0, 0}), + 0xFFFFFFFFFFFFEull, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52hi_epu64( + (__m512i)(__v8du){1, 2, 3, 4, 5, 6, 7, 8}, + (__m512i)(__v8du){0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull}, + (__m512i)(__v8du){0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull}), + 4503599627370495ull, 4503599627370496ull, + 4503599627370497ull, 4503599627370498ull, + 4503599627370499ull, 4503599627370500ull, + 4503599627370501ull, 4503599627370502ull)); + __m512i test_mm512_mask_madd52hi_epu64(__m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) { // CHECK-LABEL: test_mm512_mask_madd52hi_epu64 // CHECK: call {{.*}}<8 x i64> @llvm.x86.avx512.vpmadd52h.uq.512(<8 x i64> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}}) // CHECK: select <8 x i1> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}} - return _mm512_mask_madd52hi_epu64(__W, __M, __X, __Y); + return _mm512_mask_madd52hi_epu64(__W, __M, __X, __Y); } +TEST_CONSTEXPR(match_v8di(_mm512_mask_madd52hi_epu64( + (__m512i)(__v8du){111, 222, 333, 444, 555, 666, + 777, 888}, + 0x00, + (__m512i)(__v8du){1, 2, 3, 4, 5, 6, 7, 8}, + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}), + 111, 222, 333, 444, 555, 666, 777, 888)); + +TEST_CONSTEXPR(match_v8di(_mm512_mask_madd52hi_epu64( + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}, + 0xFF, + (__m512i)(__v8du){100, 200, 300, 400, 500, 600, + 700, 800}, + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}), + 10, 20, 30, 40, 50, 60, 70, 80)); + __m512i test_mm512_maskz_madd52hi_epu64(__mmask8 __M, __m512i __X, __m512i __Y, __m512i __Z) { // CHECK-LABEL: test_mm512_maskz_madd52hi_epu64 // CHECK: call {{.*}}<8 x i64> @llvm.x86.avx512.vpmadd52h.uq.512(<8 x i64> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}}) // CHECK: select <8 x i1> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}} - return _mm512_maskz_madd52hi_epu64(__M, __X, __Y, __Z); + return _mm512_maskz_madd52hi_epu64(__M, __X, __Y, __Z); } +TEST_CONSTEXPR(match_v8di(_mm512_maskz_madd52hi_epu64( + 0x00, + (__m512i)(__v8du){1, 2, 3, 4, 5, 6, 7, 8}, + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}, + (__m512i)(__v8du){100, 200, 300, 400, 500, 600, + 700, 800}), + 0, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_maskz_madd52hi_epu64( + 0xFF, + (__m512i)(__v8du){1, 2, 3, 4, 5, 6, 7, 8}, + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}, + (__m512i)(__v8du){100, 200, 300, 400, 500, 600, + 700, 800}), + 1, 2, 3, 4, 5, 6, 7, 8)); + __m512i test_mm512_madd52lo_epu64(__m512i __X, __m512i __Y, __m512i __Z) { // CHECK-LABEL: test_mm512_madd52lo_epu64 // CHECK: call {{.*}}<8 x i64> @llvm.x86.avx512.vpmadd52l.uq.512(<8 x i64> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}}) - return _mm512_madd52lo_epu64(__X, __Y, __Z); + return _mm512_madd52lo_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){0, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){10, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){5, 0, 0, 0, 0, 0, 0, 0}), + 50, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){100, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){20, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){30, 0, 0, 0, 0, 0, 0, 0}), + 700, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){0, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){0xFFFFFFFFFFFFFull, 0, 0, 0, + 0, 0, 0, 0}, + (__m512i)(__v8du){1, 0, 0, 0, 0, 0, 0, 0}), + 0xFFFFFFFFFFFFFull, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){0, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){0x1F000000000000ull, 0, 0, 0, + 0, 0, 0, 0}, + (__m512i)(__v8du){2, 0, 0, 0, 0, 0, 0, 0}), + 0xE000000000000ull, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){1, 2, 3, 4, 5, 6, 7, 8}, + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}, + (__m512i)(__v8du){2, 3, 4, 5, 6, 7, 8, 9}), + 21, 62, 123, 204, 305, 426, 567, 728)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){0xFFFFFFFFFFFFFull, 0, 0, 0, + 0, 0, 0, 0}, + (__m512i)(__v8du){10, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){5, 0, 0, 0, 0, 0, 0, 0}), + 4503599627370545ull, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}, + (__m512i)(__v8du){100, 200, 300, 400, 500, 600, + 700, 800}, + (__m512i)(__v8du){2, 3, 4, 5, 6, 7, 8, 9}), + 210, 620, 1230, 2040, 3050, 4260, 5670, 7280)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){0, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){0x1F000000000000ull, + 0x1F000000000000ull, 0, 0, 0, + 0, 0, 0}, + (__m512i)(__v8du){2, 3, 0, 0, 0, 0, 0, 0}), + 0xE000000000000ull, 0xD000000000000ull, 0, 0, 0, 0, + 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_madd52lo_epu64( + (__m512i)(__v8du){0, 0, 0, 0, 0, 0, 0, 0}, + (__m512i)(__v8du){0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull}, + (__m512i)(__v8du){1, 1, 1, 1, 1, 1, 1, 1}), + 0xFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFull)); + __m512i test_mm512_mask_madd52lo_epu64(__m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) { // CHECK-LABEL: test_mm512_mask_madd52lo_epu64 // CHECK: call {{.*}}<8 x i64> @llvm.x86.avx512.vpmadd52l.uq.512(<8 x i64> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}}) // CHECK: select <8 x i1> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}} - return _mm512_mask_madd52lo_epu64(__W, __M, __X, __Y); + return _mm512_mask_madd52lo_epu64(__W, __M, __X, __Y); } +TEST_CONSTEXPR(match_v8di(_mm512_mask_madd52lo_epu64( + (__m512i)(__v8du){111, 222, 333, 444, 555, 666, + 777, 888}, + 0x00, + (__m512i)(__v8du){1, 2, 3, 4, 5, 6, 7, 8}, + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}), + 111, 222, 333, 444, 555, 666, 777, 888)); + +TEST_CONSTEXPR(match_v8di(_mm512_mask_madd52lo_epu64( + (__m512i)(__v8du){1000, 2000, 3000, 4000, 5000, + 6000, 7000, 8000}, + 0xFF, + (__m512i)(__v8du){100, 200, 300, 400, 500, 600, + 700, 800}, + (__m512i)(__v8du){20, 30, 40, 50, 60, 70, 80, + 90}), + 3000, 8000, 15000, 24000, 35000, 48000, 63000, + 80000)); + __m512i test_mm512_maskz_madd52lo_epu64(__mmask8 __M, __m512i __X, __m512i __Y, __m512i __Z) { // CHECK-LABEL: test_mm512_maskz_madd52lo_epu64 // CHECK: call {{.*}}<8 x i64> @llvm.x86.avx512.vpmadd52l.uq.512(<8 x i64> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}}) // CHECK: select <8 x i1> %{{.*}}, <8 x i64> %{{.*}}, <8 x i64> %{{.*}} - return _mm512_maskz_madd52lo_epu64(__M, __X, __Y, __Z); + return _mm512_maskz_madd52lo_epu64(__M, __X, __Y, __Z); } + +TEST_CONSTEXPR(match_v8di(_mm512_maskz_madd52lo_epu64( + 0x00, + (__m512i)(__v8du){1, 2, 3, 4, 5, 6, 7, 8}, + (__m512i)(__v8du){10, 20, 30, 40, 50, 60, 70, + 80}, + (__m512i)(__v8du){2, 3, 4, 5, 6, 7, 8, 9}), + 0, 0, 0, 0, 0, 0, 0, 0)); + +TEST_CONSTEXPR(match_v8di(_mm512_maskz_madd52lo_epu64( + 0xFF, + (__m512i)(__v8du){100, 200, 300, 400, 500, 600, + 700, 800}, + (__m512i)(__v8du){20, 30, 40, 50, 60, 70, 80, + 90}, + (__m512i)(__v8du){30, 40, 50, 60, 70, 80, 90, + 100}), + 700, 1400, 2300, 3400, 4700, 6200, 7900, 9800)); diff --git a/clang/test/CodeGen/X86/avx512ifmavl-builtins.c b/clang/test/CodeGen/X86/avx512ifmavl-builtins.c index 89108fc..1cbb580 100644 --- a/clang/test/CodeGen/X86/avx512ifmavl-builtins.c +++ b/clang/test/CodeGen/X86/avx512ifmavl-builtins.c @@ -8,85 +8,241 @@ // RUN: %clang_cc1 -x c++ %s -flax-vector-conversions=none -ffreestanding -triple=x86_64-apple-darwin -target-feature +avx512ifma -target-feature +avx512vl -emit-llvm -o - -Wall -Werror -fexperimental-new-constant-interpreter | FileCheck %s // RUN: %clang_cc1 -x c++ %s -flax-vector-conversions=none -ffreestanding -triple=i386-apple-darwin -target-feature +avx512ifma -target-feature +avx512vl -emit-llvm -o - -Wall -Werror -fexperimental-new-constant-interpreter | FileCheck %s - #include <immintrin.h> +#include "builtin_test_helpers.h" __m128i test_mm_madd52hi_epu64(__m128i __X, __m128i __Y, __m128i __Z) { // CHECK-LABEL: test_mm_madd52hi_epu64 // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52h.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) - return _mm_madd52hi_epu64(__X, __Y, __Z); + return _mm_madd52hi_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_madd52hi_epu64( + (__m128i)((__v2du){100, 0}), + (__m128i)((__v2du){10, 0}), + (__m128i)((__v2du){5, 0})), + 100, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52hi_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0})), + 0xFFFFFFFFFFFFEull, 0)); + __m128i test_mm_mask_madd52hi_epu64(__m128i __W, __mmask8 __M, __m128i __X, __m128i __Y) { // CHECK-LABEL: test_mm_mask_madd52hi_epu64 // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52h.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) // CHECK: select <2 x i1> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}} - return _mm_mask_madd52hi_epu64(__W, __M, __X, __Y); + return _mm_mask_madd52hi_epu64(__W, __M, __X, __Y); } +TEST_CONSTEXPR(match_v2di(_mm_mask_madd52hi_epu64((__m128i)((__v2du){111, 222}), + 0x0, + (__m128i)((__v2du){1, 2}), + (__m128i)((__v2du){10, 20})), + 111, 222)); + +TEST_CONSTEXPR(match_v2di(_mm_mask_madd52hi_epu64((__m128i)((__v2du){10, 20}), + 0x2, + (__m128i)((__v2du){0x1000000000000ULL, 0x1000000000000ULL}), + (__m128i)((__v2du){0x1000000000000ULL, 0x1000000000000ULL})), + 10, 0x100000000014ULL)); + __m128i test_mm_maskz_madd52hi_epu64(__mmask8 __M, __m128i __X, __m128i __Y, __m128i __Z) { // CHECK-LABEL: test_mm_maskz_madd52hi_epu64 // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52h.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) // CHECK: select <2 x i1> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}} - return _mm_maskz_madd52hi_epu64(__M, __X, __Y, __Z); + return _mm_maskz_madd52hi_epu64(__M, __X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_maskz_madd52hi_epu64(0x3, + (__m128i)((__v2du){1, 2}), + (__m128i)((__v2du){10, 20}), + (__m128i)((__v2du){100, 200})), + 1, 2)); + +TEST_CONSTEXPR(match_v2di(_mm_maskz_madd52hi_epu64(0x1, + (__m128i)((__v2du){0x1000000000000ULL, 0x1000000000000ULL}), + (__m128i)((__v2du){0x1000000000000ULL, 0x1000000000000ULL}), + (__m128i)((__v2du){0, 0})), + 0x1000000000000ULL, 0)); + __m256i test_mm256_madd52hi_epu64(__m256i __X, __m256i __Y, __m256i __Z) { // CHECK-LABEL: test_mm256_madd52hi_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52h.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) - return _mm256_madd52hi_epu64(__X, __Y, __Z); + return _mm256_madd52hi_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v4di(_mm256_madd52hi_epu64( + (__m256i)((__v4du){100, 200, 300, 400}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){5, 6, 7, 8})), + 100, 200, 300, 400)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52hi_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, 0, 0, + 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, 0, 0, + 0})), + 0xFFFFFFFFFFFFEull, 0, 0, 0)); + __m256i test_mm256_mask_madd52hi_epu64(__m256i __W, __mmask8 __M, __m256i __X, __m256i __Y) { // CHECK-LABEL: test_mm256_mask_madd52hi_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52h.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) // CHECK: select <4 x i1> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}} - return _mm256_mask_madd52hi_epu64(__W, __M, __X, __Y); + return _mm256_mask_madd52hi_epu64(__W, __M, __X, __Y); } +TEST_CONSTEXPR(match_v4di(_mm256_mask_madd52hi_epu64((__m256i)((__v4du){111, 222, 333, 444}), + 0x0, + (__m256i)((__v4du){1, 2, 3, 4}), + (__m256i)((__v4du){10, 20, 30, 40})), + 111, 222, 333, 444)); + +TEST_CONSTEXPR(match_v4di(_mm256_mask_madd52hi_epu64((__m256i)((__v4du){10, 20, 30, 40}), + 0xA, + (__m256i)((__v4du){0x1000000000000ULL, 0x1000000000000ULL, + 0x1000000000000ULL, 0x1000000000000ULL}), + (__m256i)((__v4du){0x1000000000000ULL, 0x1000000000000ULL, + 0x1000000000000ULL, 0x1000000000000ULL})), + 10, 0x100000000014ULL, 30, 0x100000000028ULL)); + __m256i test_mm256_maskz_madd52hi_epu64(__mmask8 __M, __m256i __X, __m256i __Y, __m256i __Z) { // CHECK-LABEL: test_mm256_maskz_madd52hi_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52h.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) // CHECK: select <4 x i1> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}} - return _mm256_maskz_madd52hi_epu64(__M, __X, __Y, __Z); + return _mm256_maskz_madd52hi_epu64(__M, __X, __Y, __Z); } +TEST_CONSTEXPR(match_v4di(_mm256_maskz_madd52hi_epu64(0xF, + (__m256i)((__v4du){1, 2, 3, 4}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){100, 200, 300, 400})), + 1, 2, 3, 4)); + +TEST_CONSTEXPR(match_v4di(_mm256_maskz_madd52hi_epu64(0x5, + (__m256i)((__v4du){0x1000000000000ULL, 0x1000000000000ULL, + 0x1000000000000ULL, 0x1000000000000ULL}), + (__m256i)((__v4du){0x1000000000000ULL, 0x1000000000000ULL, + 0x1000000000000ULL, 0x1000000000000ULL}), + (__m256i)((__v4du){0, 0, 0, 0})), + 0x1000000000000ULL, 0, 0x1000000000000ULL, 0)); + __m128i test_mm_madd52lo_epu64(__m128i __X, __m128i __Y, __m128i __Z) { // CHECK-LABEL: test_mm_madd52lo_epu64 // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52l.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) - return _mm_madd52lo_epu64(__X, __Y, __Z); + return _mm_madd52lo_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){10, 0}), + (__m128i)((__v2du){5, 0})), + 50, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_epu64( + (__m128i)((__v2du){100, 0}), + (__m128i)((__v2du){20, 0}), + (__m128i)((__v2du){30, 0})), + 700, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_epu64( + (__m128i)((__v2du){1, 2}), + (__m128i)((__v2du){10, 20}), + (__m128i)((__v2du){2, 3})), + 21, 62)); + __m128i test_mm_mask_madd52lo_epu64(__m128i __W, __mmask8 __M, __m128i __X, __m128i __Y) { // CHECK-LABEL: test_mm_mask_madd52lo_epu64 // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52l.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) // CHECK: select <2 x i1> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}} - return _mm_mask_madd52lo_epu64(__W, __M, __X, __Y); + return _mm_mask_madd52lo_epu64(__W, __M, __X, __Y); } +TEST_CONSTEXPR(match_v2di(_mm_mask_madd52lo_epu64((__m128i)((__v2du){1000, 2000}), + 0x3, + (__m128i)((__v2du){100, 200}), + (__m128i)((__v2du){20, 30})), + 3000, 8000)); + +TEST_CONSTEXPR(match_v2di(_mm_mask_madd52lo_epu64((__m128i)((__v2du){111, 222}), + 0x0, + (__m128i)((__v2du){1, 2}), + (__m128i)((__v2du){10, 20})), + 111, 222)); + __m128i test_mm_maskz_madd52lo_epu64(__mmask8 __M, __m128i __X, __m128i __Y, __m128i __Z) { // CHECK-LABEL: test_mm_maskz_madd52lo_epu64 // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52l.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) // CHECK: select <2 x i1> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}} - return _mm_maskz_madd52lo_epu64(__M, __X, __Y, __Z); + return _mm_maskz_madd52lo_epu64(__M, __X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_maskz_madd52lo_epu64(0x3, + (__m128i)((__v2du){100, 200}), + (__m128i)((__v2du){20, 30}), + (__m128i)((__v2du){30, 40})), + 700, 1400)); + +TEST_CONSTEXPR(match_v2di(_mm_maskz_madd52lo_epu64(0x1, + (__m128i)((__v2du){100, 0}), + (__m128i)((__v2du){20, 0}), + (__m128i)((__v2du){30, 0})), + 700, 0)); + __m256i test_mm256_madd52lo_epu64(__m256i __X, __m256i __Y, __m256i __Z) { // CHECK-LABEL: test_mm256_madd52lo_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52l.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) - return _mm256_madd52lo_epu64(__X, __Y, __Z); + return _mm256_madd52lo_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_epu64( + (__m256i)((__v4du){1, 2, 3, 4}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){2, 3, 4, 5})), + 21, 62, 123, 204)); + __m256i test_mm256_mask_madd52lo_epu64(__m256i __W, __mmask8 __M, __m256i __X, __m256i __Y) { // CHECK-LABEL: test_mm256_mask_madd52lo_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52l.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) // CHECK: select <4 x i1> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}} - return _mm256_mask_madd52lo_epu64(__W, __M, __X, __Y); + return _mm256_mask_madd52lo_epu64(__W, __M, __X, __Y); } +TEST_CONSTEXPR(match_v4di(_mm256_mask_madd52lo_epu64((__m256i)((__v4du){1000, 2000, 3000, 4000}), + 0xF, + (__m256i)((__v4du){100, 200, 300, 400}), + (__m256i)((__v4du){20, 30, 40, 50})), + 3000, 8000, 15000, 24000)); + +TEST_CONSTEXPR(match_v4di(_mm256_mask_madd52lo_epu64((__m256i)((__v4du){111, 222, 333, 444}), + 0x0, + (__m256i)((__v4du){1, 2, 3, 4}), + (__m256i)((__v4du){10, 20, 30, 40})), + 111, 222, 333, 444)); + +TEST_CONSTEXPR(match_v4di(_mm256_mask_madd52lo_epu64((__m256i)((__v4du){11, 22, 33, 44}), + 0x5, + (__m256i)((__v4du){100, 200, 300, 400}), + (__m256i)((__v4du){10, 20, 30, 40})), + 1011, 22, 9033, 44)); + __m256i test_mm256_maskz_madd52lo_epu64(__mmask8 __M, __m256i __X, __m256i __Y, __m256i __Z) { // CHECK-LABEL: test_mm256_maskz_madd52lo_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52l.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) // CHECK: select <4 x i1> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}} - return _mm256_maskz_madd52lo_epu64(__M, __X, __Y, __Z); + return _mm256_maskz_madd52lo_epu64(__M, __X, __Y, __Z); } + +TEST_CONSTEXPR(match_v4di(_mm256_maskz_madd52lo_epu64(0xF, + (__m256i)((__v4du){100, 200, 300, 400}), + (__m256i)((__v4du){20, 30, 40, 50}), + (__m256i)((__v4du){30, 40, 50, 60})), + 700, 1400, 2300, 3400)); + +TEST_CONSTEXPR(match_v4di(_mm256_maskz_madd52lo_epu64(0x9, + (__m256i)((__v4du){100, 200, 300, 400}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){5, 10, 15, 20})), + 150, 0, 0, 1200)); diff --git a/clang/test/CodeGen/X86/avxifma-builtins.c b/clang/test/CodeGen/X86/avxifma-builtins.c index aa15159..70531da 100644 --- a/clang/test/CodeGen/X86/avxifma-builtins.c +++ b/clang/test/CodeGen/X86/avxifma-builtins.c @@ -8,8 +8,9 @@ // RUN: %clang_cc1 -x c++ -ffreestanding %s -triple=x86_64-apple-darwin -target-feature +avxifma -emit-llvm -o - -Wall -Werror -fexperimental-new-constant-interpreter | FileCheck %s // RUN: %clang_cc1 -x c++ -ffreestanding %s -triple=i386-apple-darwin -target-feature +avxifma -emit-llvm -o - -Wall -Werror -fexperimental-new-constant-interpreter | FileCheck %s - #include <immintrin.h> +#include "builtin_test_helpers.h" + __m128i test_mm_madd52hi_epu64(__m128i __X, __m128i __Y, __m128i __Z) { // CHECK-LABEL: test_mm_madd52hi_epu64 @@ -17,44 +18,207 @@ __m128i test_mm_madd52hi_epu64(__m128i __X, __m128i __Y, __m128i __Z) { return _mm_madd52hi_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_madd52hi_epu64( + (__m128i)((__v2du){50, 100}), + (__m128i)((__v2du){10, 20}), + (__m128i)((__v2du){5, 6})), + 50, 100)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52hi_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0})), + 0xFFFFFFFFFFFFEull, 0)); + __m256i test_mm256_madd52hi_epu64(__m256i __X, __m256i __Y, __m256i __Z) { // CHECK-LABEL: test_mm256_madd52hi_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52h.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) return _mm256_madd52hi_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v4di(_mm256_madd52hi_epu64( + (__m256i)((__v4du){100, 200, 300, 400}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){5, 6, 7, 8})), + 100, 200, 300, 400)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52hi_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, 0, 0})), + 0xFFFFFFFFFFFFEull, 0xFFFFFFFFFFFFEull, 0, 0)); + __m128i test_mm_madd52lo_epu64(__m128i __X, __m128i __Y, __m128i __Z) { // CHECK-LABEL: test_mm_madd52lo_epu64 // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52l.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) return _mm_madd52lo_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){10, 0}), + (__m128i)((__v2du){5, 0})), + 50, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_epu64( + (__m128i)((__v2du){1, 2}), + (__m128i)((__v2du){10, 20}), + (__m128i)((__v2du){2, 3})), + 21, 62)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0}), + (__m128i)((__v2du){1, 0})), + 0xFFFFFFFFFFFFFull, 0)); + __m256i test_mm256_madd52lo_epu64(__m256i __X, __m256i __Y, __m256i __Z) { // CHECK-LABEL: test_mm256_madd52lo_epu64 // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52l.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) return _mm256_madd52lo_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_epu64( + (__m256i)((__v4du){1, 2, 3, 4}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){2, 3, 4, 5})), + 21, 62, 123, 204)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, 0, 0, + 0}), + (__m256i)((__v4du){1, 0, 0, 0})), + 0xFFFFFFFFFFFFFull, 0, 0, 0)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0x1F000000000000ull, 0, 0, + 0}), + (__m256i)((__v4du){2, 0, 0, 0})), + 0xE000000000000ull, 0, 0, 0)); + __m128i test_mm_madd52hi_avx_epu64(__m128i __X, __m128i __Y, __m128i __Z) { -// CHECK-LABEL: test_mm_madd52hi_avx_epu64 -// CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52h.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) + // CHECK-LABEL: test_mm_madd52hi_avx_epu64 + // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52h.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) return _mm_madd52hi_avx_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_madd52hi_avx_epu64( + (__m128i)((__v2du){50, 100}), + (__m128i)((__v2du){10, 20}), + (__m128i)((__v2du){5, 6})), + 50, 100)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52hi_avx_epu64( + (__m128i)((__v2du){100, 0}), + (__m128i)((__v2du){10, 0}), + (__m128i)((__v2du){5, 0})), + 100, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52hi_avx_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0})), + 0xFFFFFFFFFFFFEull, 0)); + __m256i test_mm256_madd52hi_avx_epu64(__m256i __X, __m256i __Y, __m256i __Z) { -// CHECK-LABEL: test_mm256_madd52hi_avx_epu64 -// CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52h.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) + // CHECK-LABEL: test_mm256_madd52hi_avx_epu64 + // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52h.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) return _mm256_madd52hi_avx_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v4di(_mm256_madd52hi_avx_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, + 0xFFFFFFFFFFFFFull, 0, 0})), + 0xFFFFFFFFFFFFEull, 0xFFFFFFFFFFFFEull, 0, 0)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52hi_avx_epu64( + (__m256i)((__v4du){100, 200, 300, 400}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){5, 6, 7, 8})), + 100, 200, 300, 400)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52hi_avx_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, 0, 0, + 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, 0, 0, + 0})), + 0xFFFFFFFFFFFFEull, 0, 0, 0)); + __m128i test_mm_madd52lo_avx_epu64(__m128i __X, __m128i __Y, __m128i __Z) { -// CHECK-LABEL: test_mm_madd52lo_avx_epu64 -// CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52l.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) + // CHECK-LABEL: test_mm_madd52lo_avx_epu64 + // CHECK: call {{.*}}<2 x i64> @llvm.x86.avx512.vpmadd52l.uq.128(<2 x i64> %{{.*}}, <2 x i64> %{{.*}}, <2 x i64> %{{.*}}) return _mm_madd52lo_avx_epu64(__X, __Y, __Z); } +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_avx_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){10, 0}), + (__m128i)((__v2du){5, 0})), + 50, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_avx_epu64( + (__m128i)((__v2du){100, 0}), + (__m128i)((__v2du){20, 0}), + (__m128i)((__v2du){30, 0})), + 700, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_avx_epu64( + (__m128i)((__v2du){1, 2}), + (__m128i)((__v2du){10, 20}), + (__m128i)((__v2du){2, 3})), + 21, 62)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_avx_epu64( + (__m128i)((__v2du){0, 0}), + (__m128i)((__v2du){0xFFFFFFFFFFFFFull, 0}), + (__m128i)((__v2du){1, 0})), + 0xFFFFFFFFFFFFFull, 0)); + __m256i test_mm256_madd52lo_avx_epu64(__m256i __X, __m256i __Y, __m256i __Z) { -// CHECK-LABEL: test_mm256_madd52lo_avx_epu64 -// CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52l.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) + // CHECK-LABEL: test_mm256_madd52lo_avx_epu64 + // CHECK: call {{.*}}<4 x i64> @llvm.x86.avx512.vpmadd52l.uq.256(<4 x i64> %{{.*}}, <4 x i64> %{{.*}}, <4 x i64> %{{.*}}) return _mm256_madd52lo_avx_epu64(__X, __Y, __Z); } + +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_avx_epu64( + (__m256i)((__v4du){1, 2, 3, 4}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){2, 3, 4, 5})), + 21, 62, 123, 204)); + + + +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_avx_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0xFFFFFFFFFFFFFull, 0, 0, + 0}), + (__m256i)((__v4du){1, 0, 0, 0})), + 0xFFFFFFFFFFFFFull, 0, 0, 0)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_avx_epu64( + (__m256i)((__v4du){0, 0, 0, 0}), + (__m256i)((__v4du){0x1F000000000000ull, 0, 0, + 0}), + (__m256i)((__v4du){2, 0, 0, 0})), + 0xE000000000000ull, 0, 0, 0)); + +TEST_CONSTEXPR(match_v2di(_mm_madd52lo_avx_epu64( + (__m128i)((__v2du){5, 10}), + (__m128i)((__v2du){100, 200}), + (__m128i)((__v2du){7, 8})), + 705, 1610)); + +TEST_CONSTEXPR(match_v4di(_mm256_madd52lo_avx_epu64( + (__m256i)((__v4du){1, 2, 3, 4}), + (__m256i)((__v4du){10, 20, 30, 40}), + (__m256i)((__v4du){2, 3, 4, 5})), + 21, 62, 123, 204)); + diff --git a/clang/test/CodeGen/X86/mmx-builtins.c b/clang/test/CodeGen/X86/mmx-builtins.c index 2b45b92..a1e05a1 100644 --- a/clang/test/CodeGen/X86/mmx-builtins.c +++ b/clang/test/CodeGen/X86/mmx-builtins.c @@ -312,36 +312,42 @@ __m64 test_mm_hadd_pi16(__m64 a, __m64 b) { // CHECK: call <8 x i16> @llvm.x86.ssse3.phadd.w.128( return _mm_hadd_pi16(a, b); } +TEST_CONSTEXPR(match_v4hi(_mm_hadd_pi16((__m64)(__v4hi){1,2,3,4},(__m64)(__v4hi){5,6,7,8}),3,7,11,15)); __m64 test_mm_hadd_pi32(__m64 a, __m64 b) { // CHECK-LABEL: test_mm_hadd_pi32 // CHECK: call <4 x i32> @llvm.x86.ssse3.phadd.d.128( return _mm_hadd_pi32(a, b); } +TEST_CONSTEXPR(match_v2si(_mm_hadd_pi32((__m64)(__v2si){1,2},(__m64)(__v2si){3,4}),3,7)); __m64 test_mm_hadds_pi16(__m64 a, __m64 b) { // CHECK-LABEL: test_mm_hadds_pi16 // CHECK: call <8 x i16> @llvm.x86.ssse3.phadd.sw.128( return _mm_hadds_pi16(a, b); } +TEST_CONSTEXPR(match_v4hi(_mm_hadds_pi16((__m64)(__v4hi){32767, 32767, 1,3},(__m64)(__v4hi){-1,3, 40, 60}),32767, 4, 2,100)); __m64 test_mm_hsub_pi16(__m64 a, __m64 b) { // CHECK-LABEL: test_mm_hsub_pi16 // CHECK: call <8 x i16> @llvm.x86.ssse3.phsub.w.128( return _mm_hsub_pi16(a, b); } +TEST_CONSTEXPR(match_v4hi(_mm_hsub_pi16((__m64)(__v4hi){1,2,4,3},(__m64)(__v4hi){10,5,0,-10}),-1,1,5,10)); __m64 test_mm_hsub_pi32(__m64 a, __m64 b) { // CHECK-LABEL: test_mm_hsub_pi32 // CHECK: call <4 x i32> @llvm.x86.ssse3.phsub.d.128( return _mm_hsub_pi32(a, b); } +TEST_CONSTEXPR(match_v2si(_mm_hsub_pi32((__m64)(__v2si){1,2},(__m64)(__v2si){4,3}),-1,1)); __m64 test_mm_hsubs_pi16(__m64 a, __m64 b) { // CHECK-LABEL: test_mm_hsubs_pi16 // CHECK: call <8 x i16> @llvm.x86.ssse3.phsub.sw.128( return _mm_hsubs_pi16(a, b); } +TEST_CONSTEXPR(match_v4hi(_mm_hsubs_pi16((__m64)(__v4hi){32767, 32767, 5, -32767},(__m64)(__v4hi){4,5,10,5}),0,32767,-1,5)); __m64 test_mm_insert_pi16(__m64 a, int d) { // CHECK-LABEL: test_mm_insert_pi16 diff --git a/clang/test/CodeGen/X86/sse3-builtins.c b/clang/test/CodeGen/X86/sse3-builtins.c index c53afc5..a82dd40 100644 --- a/clang/test/CodeGen/X86/sse3-builtins.c +++ b/clang/test/CodeGen/X86/sse3-builtins.c @@ -31,24 +31,28 @@ __m128d test_mm_hadd_pd(__m128d A, __m128d B) { // CHECK: call {{.*}}<2 x double> @llvm.x86.sse3.hadd.pd(<2 x double> %{{.*}}, <2 x double> %{{.*}}) return _mm_hadd_pd(A, B); } +TEST_CONSTEXPR(match_m128d(_mm_hadd_pd((__m128d){+1.0, +2.0}, (__m128d){+3.0, +4.0}), +3.0, +7.0)); __m128 test_mm_hadd_ps(__m128 A, __m128 B) { // CHECK-LABEL: test_mm_hadd_ps // CHECK: call {{.*}}<4 x float> @llvm.x86.sse3.hadd.ps(<4 x float> %{{.*}}, <4 x float> %{{.*}}) return _mm_hadd_ps(A, B); } +TEST_CONSTEXPR(match_m128(_mm_hadd_ps((__m128){+1.0f, +2.0f, +3.0f, +4.0f}, (__m128){+5.0f,+6.0f,+7.0f,+8.0f}), +3.0f, +7.0f, +11.0f, +15.0f)); __m128d test_mm_hsub_pd(__m128d A, __m128d B) { // CHECK-LABEL: test_mm_hsub_pd // CHECK: call {{.*}}<2 x double> @llvm.x86.sse3.hsub.pd(<2 x double> %{{.*}}, <2 x double> %{{.*}}) return _mm_hsub_pd(A, B); } +TEST_CONSTEXPR(match_m128d(_mm_hsub_pd((__m128d){+1.0, +2.0}, (__m128d){+4.0, +3.0}), -1.0, +1.0)); __m128 test_mm_hsub_ps(__m128 A, __m128 B) { // CHECK-LABEL: test_mm_hsub_ps // CHECK: call {{.*}}<4 x float> @llvm.x86.sse3.hsub.ps(<4 x float> %{{.*}}, <4 x float> %{{.*}}) return _mm_hsub_ps(A, B); } +TEST_CONSTEXPR(match_m128(_mm_hsub_ps((__m128){+1.0f, +2.0f, +4.0f, +3.0f}, (__m128){+5.0f,+7.0f,+10.0f,+8.0f}), -1.0f, +1.0f, -2.0f, +2.0f)); __m128i test_mm_lddqu_si128(__m128i const* P) { // CHECK-LABEL: test_mm_lddqu_si128 diff --git a/clang/test/CodeGen/X86/ssse3-builtins.c b/clang/test/CodeGen/X86/ssse3-builtins.c index 5885768..e623599 100644 --- a/clang/test/CodeGen/X86/ssse3-builtins.c +++ b/clang/test/CodeGen/X86/ssse3-builtins.c @@ -60,36 +60,43 @@ __m128i test_mm_hadd_epi16(__m128i a, __m128i b) { // CHECK: call <8 x i16> @llvm.x86.ssse3.phadd.w.128(<8 x i16> %{{.*}}, <8 x i16> %{{.*}}) return _mm_hadd_epi16(a, b); } +TEST_CONSTEXPR(match_v8hi(_mm_hadd_epi16((__m128i)(__v8hi){1,2,3,4,5,6,7,8}, (__m128i)(__v8hi){17,18,19,20,21,22,23,24}), 3,7,11,15,35,39,43,47)); __m128i test_mm_hadd_epi32(__m128i a, __m128i b) { // CHECK-LABEL: test_mm_hadd_epi32 // CHECK: call <4 x i32> @llvm.x86.ssse3.phadd.d.128(<4 x i32> %{{.*}}, <4 x i32> %{{.*}}) return _mm_hadd_epi32(a, b); } +TEST_CONSTEXPR(match_v4si(_mm_hadd_epi32((__m128i)(__v4si){1,2,3,4}, (__m128i)(__v4si){5,6,7,8}), 3,7,11,15)); __m128i test_mm_hadds_epi16(__m128i a, __m128i b) { // CHECK-LABEL: test_mm_hadds_epi16 // CHECK: call <8 x i16> @llvm.x86.ssse3.phadd.sw.128(<8 x i16> %{{.*}}, <8 x i16> %{{.*}}) return _mm_hadds_epi16(a, b); } +TEST_CONSTEXPR(match_v8hi(_mm_hadds_epi16((__m128i)(__v8hi){30000,30000,-1,2,-3,3,1,4}, (__m128i)(__v8hi){2,6,1,9,-4,16,7,8}), 32767, 1,0,5,8,10,12,15)); + __m128i test_mm_hsub_epi16(__m128i a, __m128i b) { // CHECK-LABEL: test_mm_hsub_epi16 // CHECK: call <8 x i16> @llvm.x86.ssse3.phsub.w.128(<8 x i16> %{{.*}}, <8 x i16> %{{.*}}) return _mm_hsub_epi16(a, b); } +TEST_CONSTEXPR(match_v8hi(_mm_hsub_epi16((__m128i)(__v8hi){20,15,16,12,9,6,4,2}, (__m128i)(__v8hi){3,2,1,1,4,5,0,2}), 5,4,3,2,1,0,-1,-2)); __m128i test_mm_hsub_epi32(__m128i a, __m128i b) { // CHECK-LABEL: test_mm_hsub_epi32 // CHECK: call <4 x i32> @llvm.x86.ssse3.phsub.d.128(<4 x i32> %{{.*}}, <4 x i32> %{{.*}}) return _mm_hsub_epi32(a, b); } +TEST_CONSTEXPR(match_v4si(_mm_hsub_epi32((__m128i)(__v4si){4,3,1,1}, (__m128i)(__v4si){7,5,10,5}), 1,0,2,5)); __m128i test_mm_hsubs_epi16(__m128i a, __m128i b) { // CHECK-LABEL: test_mm_hsubs_epi16 // CHECK: call <8 x i16> @llvm.x86.ssse3.phsub.sw.128(<8 x i16> %{{.*}}, <8 x i16> %{{.*}}) return _mm_hsubs_epi16(a, b); } +TEST_CONSTEXPR(match_v8hi(_mm_hsubs_epi16((__m128i)(__v8hi){32767, -15,16,12,9,6,4,2},(__m128i)(__v8hi){3,2,1,1,4,5,0,2}), 32767,4,3,2,1,0,-1,-2)); __m128i test_mm_maddubs_epi16(__m128i a, __m128i b) { // CHECK-LABEL: test_mm_maddubs_epi16 diff --git a/clang/test/CodeGen/ext-int-cc.c b/clang/test/CodeGen/ext-int-cc.c index 7cfd992..f845afc 100644 --- a/clang/test/CodeGen/ext-int-cc.c +++ b/clang/test/CodeGen/ext-int-cc.c @@ -49,8 +49,8 @@ void ParamPassing(_BitInt(128) b, _BitInt(64) c) {} // R600: define{{.*}} void @ParamPassing(ptr addrspace(5) byval(i128) align 8 %{{.+}}, i64 %{{.+}}) // ARC: define{{.*}} void @ParamPassing(ptr byval(i128) align 4 %{{.+}}, i64 inreg %{{.+}}) // XCORE: define{{.*}} void @ParamPassing(ptr byval(i128) align 4 %{{.+}}, i64 %{{.+}}) -// RISCV64: define{{.*}} void @ParamPassing(i128 %{{.+}}, i64 %{{.+}}) -// RISCV32: define{{.*}} void @ParamPassing(ptr dead_on_return %{{.+}}, i64 %{{.+}}) +// RISCV64: define{{.*}} void @ParamPassing(i128 signext %{{.+}}, i64 signext %{{.+}}) +// RISCV32: define{{.*}} void @ParamPassing(ptr dead_on_return %{{.+}}, i64 signext %{{.+}}) // WASM: define{{.*}} void @ParamPassing(i128 %{{.+}}, i64 %{{.+}}) // SYSTEMZ: define{{.*}} void @ParamPassing(ptr dead_on_return %{{.+}}, i64 %{{.+}}) // PPC64: define{{.*}} void @ParamPassing(i128 %{{.+}}, i64 %{{.+}}) @@ -79,8 +79,8 @@ void ParamPassing2(_BitInt(127) b, _BitInt(63) c) {} // R600: define{{.*}} void @ParamPassing2(ptr addrspace(5) byval(i128) align 8 %{{.+}}, i63 %{{.+}}) // ARC: define{{.*}} void @ParamPassing2(ptr byval(i128) align 4 %{{.+}}, i63 inreg %{{.+}}) // XCORE: define{{.*}} void @ParamPassing2(ptr byval(i128) align 4 %{{.+}}, i63 %{{.+}}) -// RISCV64: define{{.*}} void @ParamPassing2(i127 %{{.+}}, i63 signext %{{.+}}) -// RISCV32: define{{.*}} void @ParamPassing2(ptr dead_on_return %{{.+}}, i63 %{{.+}}) +// RISCV64: define{{.*}} void @ParamPassing2(i127 signext %{{.+}}, i63 signext %{{.+}}) +// RISCV32: define{{.*}} void @ParamPassing2(ptr dead_on_return %{{.+}}, i63 signext %{{.+}}) // WASM: define{{.*}} void @ParamPassing2(i127 %{{.+}}, i63 %{{.+}}) // SYSTEMZ: define{{.*}} void @ParamPassing2(ptr dead_on_return %{{.+}}, i63 signext %{{.+}}) // PPC64: define{{.*}} void @ParamPassing2(i127 %{{.+}}, i63 signext %{{.+}}) diff --git a/clang/test/CodeGen/inline-asm-systemz-flag-output.c b/clang/test/CodeGen/inline-asm-systemz-flag-output.c new file mode 100644 index 0000000..041797b --- /dev/null +++ b/clang/test/CodeGen/inline-asm-systemz-flag-output.c @@ -0,0 +1,57 @@ +// NOTE: Assertions have been autogenerated by utils/update_cc_test_checks.py UTC_ARGS: --version 6 +// RUN: %clang_cc1 -O2 -triple s390x-linux -emit-llvm -o - %s | FileCheck %s + +// CHECK-LABEL: define dso_local signext range(i32 0, 4) i32 @test( +// CHECK-SAME: i32 noundef signext [[X:%.*]]) local_unnamed_addr #[[ATTR0:[0-9]+]] { +// CHECK-NEXT: [[ENTRY:.*:]] +// CHECK-NEXT: [[TMP0:%.*]] = tail call { i32, i32 } asm "ahi $0,42\0A", "=d,={@cc},0"(i32 [[X]]) #[[ATTR2:[0-9]+]], !srcloc [[META2:![0-9]+]] +// CHECK-NEXT: [[ASMRESULT1:%.*]] = extractvalue { i32, i32 } [[TMP0]], 1 +// CHECK-NEXT: [[TMP1:%.*]] = icmp ult i32 [[ASMRESULT1]], 4 +// CHECK-NEXT: tail call void @llvm.assume(i1 [[TMP1]]) +// CHECK-NEXT: ret i32 [[ASMRESULT1]] +// +int test(int x) { + int cc; + asm ("ahi %[x],42\n" : [x] "+d"(x), "=@cc" (cc)); + return cc; +} + +// CHECK-LABEL: define dso_local signext range(i32 0, 2) i32 @test_low_high_transformation( +// CHECK-SAME: i32 noundef signext [[X:%.*]]) local_unnamed_addr #[[ATTR0]] { +// CHECK-NEXT: [[ENTRY:.*:]] +// CHECK-NEXT: [[TMP0:%.*]] = tail call { i32, i32 } asm "ahi $0,42\0A", "=d,={@cc},0"(i32 [[X]]) #[[ATTR2]], !srcloc [[META3:![0-9]+]] +// CHECK-NEXT: [[ASMRESULT1:%.*]] = extractvalue { i32, i32 } [[TMP0]], 1 +// CHECK-NEXT: [[TMP1:%.*]] = icmp ult i32 [[ASMRESULT1]], 4 +// CHECK-NEXT: tail call void @llvm.assume(i1 [[TMP1]]) +// CHECK-NEXT: [[TMP2:%.*]] = add nsw i32 [[ASMRESULT1]], -1 +// CHECK-NEXT: [[TMP3:%.*]] = icmp ult i32 [[TMP2]], 2 +// CHECK-NEXT: [[LOR_EXT:%.*]] = zext i1 [[TMP3]] to i32 +// CHECK-NEXT: ret i32 [[LOR_EXT]] +// +int test_low_high_transformation(int x) { + int cc; + asm ("ahi %[x],42\n" : [x] "+d"(x), "=@cc" (cc)); + return cc == 1 || cc == 2; +} + +// CHECK-LABEL: define dso_local signext range(i32 0, 2) i32 @test_equal_high_transformation( +// CHECK-SAME: i32 noundef signext [[X:%.*]]) local_unnamed_addr #[[ATTR0]] { +// CHECK-NEXT: [[ENTRY:.*:]] +// CHECK-NEXT: [[TMP0:%.*]] = tail call { i32, i32 } asm "ahi $0,42\0A", "=d,={@cc},0"(i32 [[X]]) #[[ATTR2]], !srcloc [[META4:![0-9]+]] +// CHECK-NEXT: [[ASMRESULT1:%.*]] = extractvalue { i32, i32 } [[TMP0]], 1 +// CHECK-NEXT: [[TMP1:%.*]] = icmp ult i32 [[ASMRESULT1]], 4 +// CHECK-NEXT: tail call void @llvm.assume(i1 [[TMP1]]) +// CHECK-NEXT: [[TMP2:%.*]] = and i32 [[ASMRESULT1]], 1 +// CHECK-NEXT: [[LOR_EXT:%.*]] = xor i32 [[TMP2]], 1 +// CHECK-NEXT: ret i32 [[LOR_EXT]] +// +int test_equal_high_transformation(int x) { + int cc; + asm ("ahi %[x],42\n" : [x] "+d"(x), "=@cc" (cc)); + return cc == 0 || cc == 2; +} +//. +// CHECK: [[META2]] = !{i64 788} +// CHECK: [[META3]] = !{i64 1670} +// CHECK: [[META4]] = !{i64 2505} +//. diff --git a/clang/test/CodeGenHLSL/resources/RWBuffer-elementtype.hlsl b/clang/test/CodeGenHLSL/resources/RWBuffer-elementtype.hlsl deleted file mode 100644 index f48521b..0000000 --- a/clang/test/CodeGenHLSL/resources/RWBuffer-elementtype.hlsl +++ /dev/null @@ -1,70 +0,0 @@ -// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.2-compute -finclude-default-header -fnative-half-type -emit-llvm -o - %s | FileCheck %s -check-prefixes=DXIL -// RUN: %clang_cc1 -triple spirv-pc-vulkan-compute -finclude-default-header -fnative-half-type -emit-llvm -o - %s | FileCheck %s -check-prefixes=SPIRV - -// DXIL: %"class.hlsl::RWBuffer" = type { target("dx.TypedBuffer", i16, 1, 0, 1) } -// DXIL: %"class.hlsl::RWBuffer.0" = type { target("dx.TypedBuffer", i16, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.1" = type { target("dx.TypedBuffer", i32, 1, 0, 1) } -// DXIL: %"class.hlsl::RWBuffer.2" = type { target("dx.TypedBuffer", i32, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.3" = type { target("dx.TypedBuffer", i64, 1, 0, 1) } -// DXIL: %"class.hlsl::RWBuffer.4" = type { target("dx.TypedBuffer", i64, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.5" = type { target("dx.TypedBuffer", half, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.6" = type { target("dx.TypedBuffer", float, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.7" = type { target("dx.TypedBuffer", double, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.8" = type { target("dx.TypedBuffer", <4 x i16>, 1, 0, 1) } -// DXIL: %"class.hlsl::RWBuffer.9" = type { target("dx.TypedBuffer", <3 x i32>, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.10" = type { target("dx.TypedBuffer", <2 x half>, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.11" = type { target("dx.TypedBuffer", <3 x float>, 1, 0, 0) } -// DXIL: %"class.hlsl::RWBuffer.12" = type { target("dx.TypedBuffer", <4 x i32>, 1, 0, 1) } - -// SPIRV: %"class.hlsl::RWBuffer" = type { target("spirv.SignedImage", i16, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.0" = type { target("spirv.Image", i16, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.1" = type { target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 24) } -// SPIRV: %"class.hlsl::RWBuffer.2" = type { target("spirv.Image", i32, 5, 2, 0, 0, 2, 33) } -// SPIRV: %"class.hlsl::RWBuffer.3" = type { target("spirv.SignedImage", i64, 5, 2, 0, 0, 2, 41) } -// SPIRV: %"class.hlsl::RWBuffer.4" = type { target("spirv.Image", i64, 5, 2, 0, 0, 2, 40) } -// SPIRV: %"class.hlsl::RWBuffer.5" = type { target("spirv.Image", half, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.6" = type { target("spirv.Image", float, 5, 2, 0, 0, 2, 3) } -// SPIRV: %"class.hlsl::RWBuffer.7" = type { target("spirv.Image", double, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.8" = type { target("spirv.SignedImage", i16, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.9" = type { target("spirv.Image", i32, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.10" = type { target("spirv.Image", half, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.11" = type { target("spirv.Image", float, 5, 2, 0, 0, 2, 0) } -// SPIRV: %"class.hlsl::RWBuffer.12" = type { target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 21) } - -RWBuffer<int16_t> BufI16; -RWBuffer<uint16_t> BufU16; -RWBuffer<int> BufI32; -RWBuffer<uint> BufU32; -RWBuffer<int64_t> BufI64; -RWBuffer<uint64_t> BufU64; -RWBuffer<half> BufF16; -RWBuffer<float> BufF32; -RWBuffer<double> BufF64; -RWBuffer< vector<int16_t, 4> > BufI16x4; -RWBuffer< vector<uint, 3> > BufU32x3; -RWBuffer<half2> BufF16x2; -RWBuffer<float3> BufF32x3; -RWBuffer<int4> BufI32x4; -// TODO: RWBuffer<snorm half> BufSNormF16; -> 11 -// TODO: RWBuffer<unorm half> BufUNormF16; -> 12 -// TODO: RWBuffer<snorm float> BufSNormF32; -> 13 -// TODO: RWBuffer<unorm float> BufUNormF32; -> 14 -// TODO: RWBuffer<snorm double> BufSNormF64; -> 15 -// TODO: RWBuffer<unorm double> BufUNormF64; -> 16 - -[numthreads(1,1,1)] -void main(int GI : SV_GroupIndex) { - BufI16[GI] = 0; - BufU16[GI] = 0; - BufI32[GI] = 0; - BufU32[GI] = 0; - BufI64[GI] = 0; - BufU64[GI] = 0; - BufF16[GI] = 0; - BufF32[GI] = 0; - BufF64[GI] = 0; - BufI16x4[GI] = 0; - BufU32x3[GI] = 0; - BufF16x2[GI] = 0; - BufF32x3[GI] = 0; -} diff --git a/clang/test/CodeGenHLSL/resources/RWBuffer-subscript.hlsl b/clang/test/CodeGenHLSL/resources/RWBuffer-subscript.hlsl deleted file mode 100644 index 0de171c..0000000 --- a/clang/test/CodeGenHLSL/resources/RWBuffer-subscript.hlsl +++ /dev/null @@ -1,26 +0,0 @@ -// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.0-compute -emit-llvm -o - -O0 %s | FileCheck %s --check-prefixes=DXC,CHECK -// RUN: %clang_cc1 -triple spirv1.6-pc-vulkan1.3-compute -fspv-use-unknown-image-format -emit-llvm -o - -O0 %s | FileCheck %s --check-prefixes=SPIRV,CHECK - -RWBuffer<int> In; -RWBuffer<int> Out; - -[numthreads(1,1,1)] -void main(unsigned GI : SV_GroupIndex) { - // CHECK: define void @main() - - // DXC: %[[INPTR:.*]] = call noundef nonnull align 4 dereferenceable(4) ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_1_0_1t(target("dx.TypedBuffer", i32, 1, 0, 1) %{{.*}}, i32 %{{.*}}) - // SPIRV: %[[INPTR:.*]] = call noundef align 4 dereferenceable(4) ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_2_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 0) %{{.*}}, i32 %{{.*}}) - // CHECK: %[[LOAD:.*]] = load i32, ptr {{.*}}%[[INPTR]] - // DXC: %[[OUTPTR:.*]] = call noundef nonnull align 4 dereferenceable(4) ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_1_0_1t(target("dx.TypedBuffer", i32, 1, 0, 1) %{{.*}}, i32 %{{.*}}) - // SPIRV: %[[OUTPTR:.*]] = call noundef align 4 dereferenceable(4) ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_2_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 0) %{{.*}}, i32 %{{.*}}) - // CHECK: store i32 %[[LOAD]], ptr {{.*}}%[[OUTPTR]] - Out[GI] = In[GI]; - - // DXC: %[[INPTR:.*]] = call ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_1_0_1t(target("dx.TypedBuffer", i32, 1, 0, 1) %{{.*}}, i32 %{{.*}}) - // SPIRV: %[[INPTR:.*]] = call ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_2_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 0) %{{.*}}, i32 %{{.*}}) - // CHECK: %[[LOAD:.*]] = load i32, ptr {{.*}}%[[INPTR]] - // DXC: %[[OUTPTR:.*]] = call noundef nonnull align 4 dereferenceable(4) ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_1_0_1t(target("dx.TypedBuffer", i32, 1, 0, 1) %{{.*}}, i32 %{{.*}}) - // SPIRV: %[[OUTPTR:.*]] = call noundef align 4 dereferenceable(4) ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_2_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 0) %{{.*}}, i32 %{{.*}}) - // CHECK: store i32 %[[LOAD]], ptr {{.*}}%[[OUTPTR]] - Out[GI] = In.Load(GI); -} diff --git a/clang/test/CodeGenHLSL/resources/RWBuffer-constructor.hlsl b/clang/test/CodeGenHLSL/resources/TypedBuffers-constructor.hlsl index ca33c42..1ec9f0f 100644 --- a/clang/test/CodeGenHLSL/resources/RWBuffer-constructor.hlsl +++ b/clang/test/CodeGenHLSL/resources/TypedBuffers-constructor.hlsl @@ -1,5 +1,5 @@ // RUN: %clang_cc1 -triple dxil-pc-shadermodel6.3-library -emit-llvm -disable-llvm-passes -o - %s | \ -// RUN: llvm-cxxfilt | FileCheck %s --check-prefixes=CHECK,CHECK-DXIL +// RUN: llvm-cxxfilt | FileCheck %s --check-prefixes=CHECK,CHECK-DXIL // FIXME: SPIR-V codegen of llvm.spv.resource.handlefrombinding and resource types is not yet implemented // RUN-DISABLED: %clang_cc1 -triple spirv-vulkan-library -x hlsl -emit-llvm -disable-llvm-passes -o - %s | \ // llvm-cxxfilt | FileCheck %s --check-prefixes=CHECK,CHECK-SPIRV @@ -14,7 +14,7 @@ RWBuffer<float> Buf1 : register(u5, space3); // Resource with implicit binding -RWBuffer<double> Buf2; +Buffer<double> Buf2; export void foo() { // Local resource declaration @@ -22,12 +22,12 @@ export void foo() { } // CHECK: %"class.hlsl::RWBuffer" = type { target("dx.TypedBuffer", float, 1, 0, 0) } -// CHECK: %"class.hlsl::RWBuffer.0" = type { target("dx.TypedBuffer", double, 1, 0, 0) } -// CHECK: %"class.hlsl::RWBuffer.1" = type { target("dx.TypedBuffer", i32, 1, 0, 1) } +// CHECK: %"class.hlsl::Buffer" = type { target("dx.TypedBuffer", double, 0, 0, 0) } +// CHECK: %"class.hlsl::RWBuffer.0" = type { target("dx.TypedBuffer", i32, 1, 0, 1) } // CHECK: @Buf1 = internal global %"class.hlsl::RWBuffer" poison, align 4 // CHECK: @[[Buf1Str:.*]] = private unnamed_addr constant [5 x i8] c"Buf1\00", align 1 -// CHECK: @Buf2 = internal global %"class.hlsl::RWBuffer.0" poison, align 4 +// CHECK: @Buf2 = internal global %"class.hlsl::Buffer" poison, align 4 // CHECK: @[[Buf2Str:.*]] = private unnamed_addr constant [5 x i8] c"Buf2\00", align 1 // Buf1 initialization part 1 - global init function that calls RWBuffer<float>::__createFromBinding @@ -50,24 +50,24 @@ export void foo() { // Buf2 initialization part 1 - global init function that RWBuffer<float>::__createFromImplicitBinding // CHECK: define internal void @__cxx_global_var_init.1() // CHECK-NEXT: entry: -// CHECK-NEXT: call void @hlsl::RWBuffer<double>::__createFromImplicitBinding(unsigned int, unsigned int, int, unsigned int, char const*) +// CHECK-NEXT: call void @hlsl::Buffer<double>::__createFromImplicitBinding(unsigned int, unsigned int, int, unsigned int, char const*) // CHECK-SAME: (ptr {{.*}} @Buf2, i32 noundef 0, i32 noundef 0, i32 noundef 1, i32 noundef 0, ptr noundef @[[Buf2Str]]) -// Buf2 initialization part 2 - body of RWBuffer<float>::__createFromImplicitBinding call -// CHECK: define linkonce_odr hidden void @hlsl::RWBuffer<double>::__createFromImplicitBinding(unsigned int, unsigned int, int, unsigned int, char const*) -// CHECK-SAME: (ptr {{.*}} sret(%"class.hlsl::RWBuffer.0") align 4 %[[RetValue2:.*]], i32 noundef %orderId, +// Buf2 initialization part 2 - body of Buffer<double>::__createFromImplicitBinding call +// CHECK: define linkonce_odr hidden void @hlsl::Buffer<double>::__createFromImplicitBinding(unsigned int, unsigned int, int, unsigned int, char const*) +// CHECK-SAME: (ptr {{.*}} sret(%"class.hlsl::Buffer") align 4 %[[RetValue2:.*]], i32 noundef %orderId, // CHECK-SAME: i32 noundef %spaceNo, i32 noundef %range, i32 noundef %index, ptr noundef %name) -// CHECK: %[[Tmp2:.*]] = alloca %"class.hlsl::RWBuffer.0", align 4 -// CHECK: %[[Handle2:.*]] = call target("dx.TypedBuffer", double, 1, 0, 0) -// CHECK-SAME: @llvm.dx.resource.handlefromimplicitbinding.tdx.TypedBuffer_f64_1_0_0t( -// CHECK: %__handle = getelementptr inbounds nuw %"class.hlsl::RWBuffer.0", ptr %[[Tmp2]], i32 0, i32 0 -// CHECK-DXIL: store target("dx.TypedBuffer", double, 1, 0, 0) %[[Handle2]], ptr %__handle, align 4 -// CHECK: call void @hlsl::RWBuffer<double>::RWBuffer(hlsl::RWBuffer<double> const&)(ptr {{.*}} %[[RetValue2]], ptr {{.*}} %[[Tmp2]]) +// CHECK: %[[Tmp2:.*]] = alloca %"class.hlsl::Buffer", align 4 +// CHECK: %[[Handle2:.*]] = call target("dx.TypedBuffer", double, 0, 0, 0) +// CHECK-SAME: @llvm.dx.resource.handlefromimplicitbinding.tdx.TypedBuffer_f64_0_0_0t( +// CHECK: %__handle = getelementptr inbounds nuw %"class.hlsl::Buffer", ptr %[[Tmp2]], i32 0, i32 0 +// CHECK-DXIL: store target("dx.TypedBuffer", double, 0, 0, 0) %[[Handle2]], ptr %__handle, align 4 +// CHECK: call void @hlsl::Buffer<double>::Buffer(hlsl::Buffer<double> const&)(ptr {{.*}} %[[RetValue2]], ptr {{.*}} %[[Tmp2]]) // Buf3 initialization part 1 - local variable declared in function foo() is initialized by RWBuffer<int> C1 default constructor // CHECK: define void @foo() // CHECK-NEXT: entry: -// CHECK-NEXT: %Buf3 = alloca %"class.hlsl::RWBuffer.1", align 4 +// CHECK-NEXT: %Buf3 = alloca %"class.hlsl::RWBuffer.0", align 4 // CHECK-NEXT: call void @hlsl::RWBuffer<int>::RWBuffer()(ptr {{.*}} %Buf3) // Buf3 initialization part 2 - body of RWBuffer<int> default C1 constructor that calls the default C2 constructor @@ -76,11 +76,11 @@ export void foo() { // Buf3 initialization part 3 - body of RWBuffer<int> default C2 constructor that initializes handle to poison // CHECK: define linkonce_odr hidden void @hlsl::RWBuffer<int>::RWBuffer()(ptr {{.*}} %this) -// CHECK: %__handle = getelementptr inbounds nuw %"class.hlsl::RWBuffer.1", ptr %{{.*}}, i32 0, i32 0 +// CHECK: %__handle = getelementptr inbounds nuw %"class.hlsl::RWBuffer.0", ptr %{{.*}}, i32 0, i32 0 // CHECK-NEXT: store target("dx.TypedBuffer", i32, 1, 0, 1) poison, ptr %__handle, align 4 // Module initialization -// CHECK: define internal void @_GLOBAL__sub_I_RWBuffer_constructor.hlsl() +// CHECK: define internal void @_GLOBAL__sub_I_TypedBuffers_constructor.hlsl() // CHECK-NEXT: entry: // CHECK-NEXT: call void @__cxx_global_var_init() // CHECK-NEXT: call void @__cxx_global_var_init.1() diff --git a/clang/test/CodeGenHLSL/resources/TypedBuffers-elementtype.hlsl b/clang/test/CodeGenHLSL/resources/TypedBuffers-elementtype.hlsl new file mode 100644 index 0000000..d3dba8a --- /dev/null +++ b/clang/test/CodeGenHLSL/resources/TypedBuffers-elementtype.hlsl @@ -0,0 +1,94 @@ +// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.2-compute -finclude-default-header -fnative-half-type \ +// RUN: -emit-llvm -o - -DRESOURCE=Buffer %s | FileCheck %s -DRESOURCE=Buffer -DRW=0 -check-prefixes=DXIL + +// RUN: %clang_cc1 -triple spirv-pc-vulkan-compute -finclude-default-header -fnative-half-type \ +// RUN: -emit-llvm -o - -DRESOURCE=Buffer %s | FileCheck %s -DRESOURCE=Buffer -DRW=1 -check-prefixes=SPV-RO + +// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.2-compute -finclude-default-header -fnative-half-type \ +// RUN: -emit-llvm -o - -DRESOURCE=RWBuffer %s | FileCheck %s -DRESOURCE=RWBuffer -DRW=1 -check-prefixes=DXIL + +// RUN: %clang_cc1 -triple spirv-pc-vulkan-compute -finclude-default-header -fnative-half-type \ +// RUN: -emit-llvm -o - -DRESOURCE=RWBuffer %s | FileCheck %s -DRESOURCE=RWBuffer --DRW=2 -check-prefixes=SPV-RW + +// DXIL: %"class.hlsl::[[RESOURCE]]" = type { target("dx.TypedBuffer", i16, [[RW]], 0, 1) } +// DXIL: %"class.hlsl::[[RESOURCE]].0" = type { target("dx.TypedBuffer", i16, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].1" = type { target("dx.TypedBuffer", i32, [[RW]], 0, 1) } +// DXIL: %"class.hlsl::[[RESOURCE]].2" = type { target("dx.TypedBuffer", i32, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].3" = type { target("dx.TypedBuffer", i64, [[RW]], 0, 1) } +// DXIL: %"class.hlsl::[[RESOURCE]].4" = type { target("dx.TypedBuffer", i64, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].5" = type { target("dx.TypedBuffer", half, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].6" = type { target("dx.TypedBuffer", float, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].7" = type { target("dx.TypedBuffer", double, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].8" = type { target("dx.TypedBuffer", <4 x i16>, [[RW]], 0, 1) } +// DXIL: %"class.hlsl::[[RESOURCE]].9" = type { target("dx.TypedBuffer", <3 x i32>, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].10" = type { target("dx.TypedBuffer", <2 x half>, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].11" = type { target("dx.TypedBuffer", <3 x float>, [[RW]], 0, 0) } +// DXIL: %"class.hlsl::[[RESOURCE]].12" = type { target("dx.TypedBuffer", <4 x i32>, [[RW]], 0, 1) } + +// SPV-RO: %"class.hlsl::[[RESOURCE]]" = type { target("spirv.SignedImage", i16, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].0" = type { target("spirv.Image", i16, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].1" = type { target("spirv.SignedImage", i32, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].2" = type { target("spirv.Image", i32, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].3" = type { target("spirv.SignedImage", i64, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].4" = type { target("spirv.Image", i64, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].5" = type { target("spirv.Image", half, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].6" = type { target("spirv.Image", float, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].7" = type { target("spirv.Image", double, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].8" = type { target("spirv.SignedImage", i16, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].9" = type { target("spirv.Image", i32, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].10" = type { target("spirv.Image", half, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].11" = type { target("spirv.Image", float, 5, 2, 0, 0, 1, 0) } +// SPV-RO: %"class.hlsl::[[RESOURCE]].12" = type { target("spirv.SignedImage", i32, 5, 2, 0, 0, 1, 0) } + +// SPV-RW: %"class.hlsl::[[RESOURCE]]" = type { target("spirv.SignedImage", i16, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].0" = type { target("spirv.Image", i16, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].1" = type { target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 24) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].2" = type { target("spirv.Image", i32, 5, 2, 0, 0, 2, 33) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].3" = type { target("spirv.SignedImage", i64, 5, 2, 0, 0, 2, 41) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].4" = type { target("spirv.Image", i64, 5, 2, 0, 0, 2, 40) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].5" = type { target("spirv.Image", half, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].6" = type { target("spirv.Image", float, 5, 2, 0, 0, 2, 3) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].7" = type { target("spirv.Image", double, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].8" = type { target("spirv.SignedImage", i16, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].9" = type { target("spirv.Image", i32, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].10" = type { target("spirv.Image", half, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].11" = type { target("spirv.Image", float, 5, 2, 0, 0, 2, 0) } +// SPV-RW: %"class.hlsl::[[RESOURCE]].12" = type { target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 21) } + +RESOURCE<int16_t> BufI16; +RESOURCE<uint16_t> BufU16; +RESOURCE<int> BufI32; +RESOURCE<uint> BufU32; +RESOURCE<int64_t> BufI64; +RESOURCE<uint64_t> BufU64; +RESOURCE<half> BufF16; +RESOURCE<float> BufF32; +RESOURCE<double> BufF64; +RESOURCE< vector<int16_t, 4> > BufI16x4; +RESOURCE< vector<uint, 3> > BufU32x3; +RESOURCE<half2> BufF16x2; +RESOURCE<float3> BufF32x3; +RESOURCE<int4> BufI32x4; +// TODO: RESOURCE<snorm half> BufSNormF16; -> 11 +// TODO: RESOURCE<unorm half> BufUNormF16; -> 12 +// TODO: RESOURCE<snorm float> BufSNormF32; -> 13 +// TODO: RESOURCE<unorm float> BufUNormF32; -> 14 +// TODO: RESOURCE<snorm double> BufSNormF64; -> 15 +// TODO: RESOURCE<unorm double> BufUNormF64; -> 16 + +[numthreads(1,1,1)] +void main(int GI : SV_GroupIndex) { + int16_t v1 = BufI16[GI]; + uint16_t v2 = BufU16[GI]; + int v3 = BufI32[GI]; + uint v4 = BufU32[GI]; + int64_t v5 = BufI64[GI]; + uint64_t v6 = BufU64[GI]; + half v7 = BufF16[GI]; + float v8 = BufF32[GI]; + double v9 = BufF64[GI]; + vector<int16_t,4> v10 = BufI16x4[GI]; + vector<int, 3> v11 = BufU32x3[GI]; + half2 v12 = BufF16x2[GI]; + float3 v13 = BufF32x3[GI]; +} diff --git a/clang/test/CodeGenHLSL/resources/TypedBuffers-methods.hlsl b/clang/test/CodeGenHLSL/resources/TypedBuffers-methods.hlsl new file mode 100644 index 0000000..b153bda --- /dev/null +++ b/clang/test/CodeGenHLSL/resources/TypedBuffers-methods.hlsl @@ -0,0 +1,42 @@ +// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.3-library -finclude-default-header -emit-llvm -disable-llvm-passes -o - %s | llvm-cxxfilt | FileCheck %s --check-prefixes=CHECK,DXIL +// RUN-DISABLED: %clang_cc1 -triple spirv-vulkan-library -finclude-default-header -emit-llvm -disable-llvm-passes -o - %s | llvm-cxxfilt | FileCheck %s --check-prefixes=CHECK,SPIRV + +// NOTE: SPIRV codegen for resource methods is not yet implemented + +Buffer<float> Buf : register(t0); +RWBuffer<uint4> RWBuf : register(u0); + +// DXIL: %"class.hlsl::Buffer" = type { target("dx.TypedBuffer", float, 0, 0, 0) } +// DXIL: %"class.hlsl::RWBuffer" = type { target("dx.TypedBuffer", <4 x i32>, 1, 0, 0) } + +// DXIL: @Buf = internal global %"class.hlsl::Buffer" poison +// DXIL: @RWBuf = internal global %"class.hlsl::RWBuffer" poison + +export float TestLoad() { + return Buf.Load(1) + RWBuf.Load(2).y; +} + +// CHECK: define noundef nofpclass(nan inf) float @TestLoad()() +// CHECK: call {{.*}} float @hlsl::Buffer<float>::Load(unsigned int)(ptr {{.*}} @Buf, i32 noundef 1) +// CHECK: call {{.*}} <4 x i32> @hlsl::RWBuffer<unsigned int vector[4]>::Load(unsigned int)(ptr {{.*}} @RWBuf, i32 noundef 2) +// CHECK: add +// CHECK: ret float + +// CHECK: define {{.*}} float @hlsl::Buffer<float>::Load(unsigned int)(ptr {{.*}} %this, i32 noundef %Index) +// CHECK: %__handle = getelementptr inbounds nuw %"class.hlsl::Buffer", ptr %{{.*}}, i32 0, i32 0 +// DXIL-NEXT: %[[HANDLE:.*]] = load target("dx.TypedBuffer", float, 0, 0, 0), ptr %__handle +// CHECK-NEXT: %[[INDEX:.*]] = load i32, ptr %Index.addr +// DXIL-NEXT: %[[PTR:.*]] = call ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_f32_0_0_0t(target("dx.TypedBuffer", float, 0, 0, 0) %[[HANDLE]], i32 %[[INDEX]]) +// CHECK-NEXT: %[[VAL:.*]] = load float, ptr %[[PTR]] +// CHECK-NEXT: ret float %[[VAL]] + +// CHECK: define {{.*}} <4 x i32> @hlsl::RWBuffer<unsigned int vector[4]>::Load(unsigned int)(ptr {{.*}} %this, i32 noundef %Index) +// CHECK: %__handle = getelementptr inbounds nuw %"class.hlsl::RWBuffer", ptr %{{.*}}, i32 0, i32 0 +// DXIL-NEXT: %[[HANDLE:.*]] = load target("dx.TypedBuffer", <4 x i32>, 1, 0, 0), ptr %__handle +// CHECK-NEXT: %[[INDEX:.*]] = load i32, ptr %Index.addr +// DXIL-NEXT: %[[PTR:.*]] = call ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_v4i32_1_0_0t(target("dx.TypedBuffer", <4 x i32>, 1, 0, 0) %[[HANDLE]], i32 %[[INDEX]]) +// CHECK-NEXT: %[[VEC:.*]] = load <4 x i32>, ptr %[[PTR]] +// CHECK-NEXT: ret <4 x i32> %[[VEC]] + +// DXIL: declare ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_f32_0_0_0t(target("dx.TypedBuffer", float, 0, 0, 0), i32) +// DXIL: declare ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_v4i32_1_0_0t(target("dx.TypedBuffer", <4 x i32>, 1, 0, 0), i32) diff --git a/clang/test/CodeGenHLSL/resources/TypedBuffers-subscript.hlsl b/clang/test/CodeGenHLSL/resources/TypedBuffers-subscript.hlsl new file mode 100644 index 0000000..adc35f6 --- /dev/null +++ b/clang/test/CodeGenHLSL/resources/TypedBuffers-subscript.hlsl @@ -0,0 +1,26 @@ +// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.0-compute -emit-llvm -o - -O0 %s | FileCheck %s --check-prefixes=DXIL,CHECK +// RUN: %clang_cc1 -triple spirv1.6-pc-vulkan1.3-compute -fspv-use-unknown-image-format -emit-llvm -o - -O0 %s | FileCheck %s --check-prefixes=SPIRV,CHECK + +Buffer<int> In; +RWBuffer<int> Out; + +[numthreads(1,1,1)] +void main(unsigned GI : SV_GroupIndex) { + // CHECK: define void @main() + + // DXIL: %[[INPTR:.*]] = call {{.*}} ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_0_0_1t(target("dx.TypedBuffer", i32, 0, 0, 1) %{{.*}}, i32 %{{.*}}) + // SPIRV: %[[INPTR:.*]] = call {{.*}} ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_1_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 1, 0) %{{.*}}, i32 %{{.*}}) + // CHECK: %[[LOAD:.*]] = load i32, ptr {{.*}}%[[INPTR]] + // DXIL: %[[OUTPTR:.*]] = call {{.*}} ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_1_0_1t(target("dx.TypedBuffer", i32, 1, 0, 1) %{{.*}}, i32 %{{.*}}) + // SPIRV: %[[OUTPTR:.*]] = call {{.*}} ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_2_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 0) %{{.*}}, i32 %{{.*}}) + // CHECK: store i32 %[[LOAD]], ptr {{.*}}%[[OUTPTR]] + Out[GI] = In[GI]; + + // DXIL: %[[INPTR:.*]] = call {{.*}} ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_1_0_1t(target("dx.TypedBuffer", i32, 1, 0, 1) %{{.*}}, i32 %{{.*}}) + // SPIRV: %[[INPTR:.*]] = call {{.*}} ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_2_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 0) %{{.*}}, i32 %{{.*}}) + // CHECK: %[[LOAD:.*]] = load i32, ptr {{.*}}%[[INPTR]] + // DXIL: %[[OUTPTR:.*]] = call {{.*}} ptr @llvm.dx.resource.getpointer.p0.tdx.TypedBuffer_i32_1_0_1t(target("dx.TypedBuffer", i32, 1, 0, 1) %{{.*}}, i32 %{{.*}}) + // SPIRV: %[[OUTPTR:.*]] = call {{.*}} ptr addrspace(11) @llvm.spv.resource.getpointer.p11.tspirv.SignedImage_i32_5_2_0_0_2_0t(target("spirv.SignedImage", i32, 5, 2, 0, 0, 2, 0) %{{.*}}, i32 %{{.*}}) + // CHECK: store i32 %[[LOAD]], ptr {{.*}}%[[OUTPTR]] + Out[GI + 1] = Out[GI]; +} diff --git a/clang/test/Preprocessor/predefined-arch-macros.c b/clang/test/Preprocessor/predefined-arch-macros.c index ecddf13..44089c4 100644 --- a/clang/test/Preprocessor/predefined-arch-macros.c +++ b/clang/test/Preprocessor/predefined-arch-macros.c @@ -2525,10 +2525,10 @@ // RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M32,CHECK_ARLS_M32,CHECK_KL_M32 // RUN: %clang -march=pantherlake -m32 -E -dM %s -o - 2>&1 \ // RUN: -target i386-unknown-linux \ -// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M32,CHECK_ARLS_M32,CHECK_PTL_M32,CHECK_NKL_M32 +// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M32,CHECK_ARLS_M32,CHECK_NKL_M32 // RUN: %clang -march=clearwaterforest -m32 -E -dM %s -o - 2>&1 \ // RUN: -target i386-unknown-linux \ -// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_SRF_M32,CHECK_ARLS_M32,CHECK_PTL_M32,CHECK_CWF_M32,CHECK_NKL_M32 +// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_SRF_M32,CHECK_ARLS_M32,CHECK_CWF_M32,CHECK_NKL_M32 // CHECK_ARL_M32: #define __ADX__ 1 // CHECK_ARL_M32: #define __AES__ 1 // CHECK_ARL_M32: #define __AVX2__ 1 @@ -2568,7 +2568,7 @@ // CHECK_ARL_M32: #define __POPCNT__ 1 // CHECK_ARL_M32-NOT: #define __PREFETCHI__ 1 // CHECK_ARLS_M32-NOT: #define __PREFETCHI__ 1 -// CHECK_PTL_M32: #define __PREFETCHI__ 1 +// CHECK_CWF_M32: #define __PREFETCHI__ 1 // CHECK_ARL_M32: #define __PRFCHW__ 1 // CHECK_ARL_M32: #define __PTWRITE__ 1 // CHECK_ARL_M32-NOT: #define __RAOINT__ 1 @@ -2595,7 +2595,6 @@ // CHECK_ARL_M32: #define __UINTR__ 1 // CHECK_ARL_M32-NOT: #define __USERMSR__ 1 // CHECK_ARLS_M32-NOT: #define __USERMSR__ 1 -// CHECK_PTL_M32-NOT: #define __USERMSR__ 1 // CHECK_CWF_M32: #define __USERMSR__ 1 // CHECK_ARL_M32: #define __VAES__ 1 // CHECK_ARL_M32: #define __VPCLMULQDQ__ 1 @@ -2630,10 +2629,10 @@ // RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M64,CHECK_ARLS_M64,CHECK_KL_M64 // RUN: %clang -march=pantherlake -m64 -E -dM %s -o - 2>&1 \ // RUN: -target i386-unknown-linux \ -// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M64,CHECK_ARLS_M64,CHECK_PTL_M64,CHECK_NKL_M64 +// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M64,CHECK_ARLS_M64,CHECK_NKL_M64 // RUN: %clang -march=clearwaterforest -m64 -E -dM %s -o - 2>&1 \ // RUN: -target i386-unknown-linux \ -// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M64,CHECK_SRF_M64,CHECK_ARLS_M64,CHECK_PTL_M64,CHECK_CWF_M64,CHECK_NKL_M64 +// RUN: | FileCheck -match-full-lines %s -check-prefixes=CHECK_ARL_M64,CHECK_SRF_M64,CHECK_ARLS_M64,CHECK_CWF_M64,CHECK_NKL_M64 // CHECK_ARL_M64: #define __ADX__ 1 // CHECK_ARL_M64: #define __AES__ 1 // CHECK_ARL_M64: #define __AVX2__ 1 @@ -2673,7 +2672,7 @@ // CHECK_ARL_M64: #define __POPCNT__ 1 // CHECK_ARL_M64-NOT: #define __PREFETCHI__ 1 // CHECK_ARLS_M64-NOT: #define __PREFETCHI__ 1 -// CHECK_PTL_M64: #define __PREFETCHI__ 1 +// CHECK_CWF_M64: #define __PREFETCHI__ 1 // CHECK_ARL_M64: #define __PRFCHW__ 1 // CHECK_ARL_M64: #define __PTWRITE__ 1 // CHECK_ARL_M64-NOT: #define __RAOINT__ 1 @@ -2701,7 +2700,6 @@ // CHECK_ARL_M64: #define __UINTR__ 1 // CHECK_ARL_M64-NOT: #define __USERMSR__ 1 // CHECK_ARLS_M64-NOT: #define __USERMSR__ 1 -// CHECK_PTL_M64-NOT: #define __USERMSR__ 1 // CHECK_CWF_M64: #define __USERMSR__ 1 // CHECK_ARL_M64: #define __VAES__ 1 // CHECK_ARL_M64: #define __VPCLMULQDQ__ 1 diff --git a/clang/test/Preprocessor/systemz_asm_flag_output.c b/clang/test/Preprocessor/systemz_asm_flag_output.c new file mode 100644 index 0000000..b627499 --- /dev/null +++ b/clang/test/Preprocessor/systemz_asm_flag_output.c @@ -0,0 +1,4 @@ +// RUN: %clang -target systemz-unknown-unknown -x c -E -dM -o - %s | FileCheck -match-full-lines %s +// RUN: %clang -target s390x-unknown-unknown -x c -E -dM -o - %s | FileCheck -match-full-lines %s + +// CHECK: #define __GCC_ASM_FLAG_OUTPUTS__ 1 diff --git a/clang/test/SemaCXX/cxx2b-consteval-propagate.cpp b/clang/test/SemaCXX/cxx2b-consteval-propagate.cpp index 6cf0e02..331fe83 100644 --- a/clang/test/SemaCXX/cxx2b-consteval-propagate.cpp +++ b/clang/test/SemaCXX/cxx2b-consteval-propagate.cpp @@ -626,3 +626,20 @@ void fn() { } } + + +namespace GH109096 { +consteval void undefined(); +template <typename T> +struct scope_exit { + T t; + constexpr ~scope_exit() { t(); } + // expected-error@-1 {{call to immediate function 'GH109096::(anonymous class)::operator()' is not a constant expression}} \ + // expected-note@-1 {{implicit use of 'this' pointer is only allowed within the evaluation}} +}; + +scope_exit guard( // expected-note {{in instantiation of member function}} + []() { undefined(); } +); + +} diff --git a/clang/test/SemaHLSL/BuiltIns/Buffers.hlsl b/clang/test/SemaHLSL/BuiltIns/Buffers.hlsl index 3f0a37d..999372c 100644 --- a/clang/test/SemaHLSL/BuiltIns/Buffers.hlsl +++ b/clang/test/SemaHLSL/BuiltIns/Buffers.hlsl @@ -20,7 +20,7 @@ Buffer<double2> r4; // expected-error@+4 {{constraints not satisfied for class template 'Buffer'}} // expected-note@*:* {{template declaration from hidden source: template <typename element_type> requires __is_typed_resource_element_compatible<element_type> class Buffer}} // expected-note@*:* {{because 'Buffer<int>' does not satisfy '__is_typed_resource_element_compatible'}} -// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(Buffer<int>)' evaluated to false}} +// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(hlsl::Buffer<int>)' evaluated to false}} Buffer<Buffer<int> > r5; struct s { @@ -66,7 +66,7 @@ Buffer<half[4]> r10; typedef vector<int, 8> int8; // expected-error@+3 {{constraints not satisfied for class template 'Buffer'}} // expected-note@*:* {{because 'int8' (aka 'vector<int, 8>') does not satisfy '__is_typed_resource_element_compatible'}} -// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(int8)' evaluated to false}} +// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(vector<int, 8>)' evaluated to false}} Buffer<int8> r11; typedef int MyInt; @@ -91,7 +91,7 @@ Buffer<numbers> r15; // expected-error@+3 {{constraints not satisfied for class template 'Buffer'}} // expected-note@*:* {{because 'double3' (aka 'vector<double, 3>') does not satisfy '__is_typed_resource_element_compatible'}} -// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(double3)' evaluated to false}} +// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(vector<double, 3>)' evaluated to false}} Buffer<double3> r16; diff --git a/clang/test/SemaHLSL/BuiltIns/RWBuffers.hlsl b/clang/test/SemaHLSL/BuiltIns/RWBuffers.hlsl index aa36c48..b33f2af 100644 --- a/clang/test/SemaHLSL/BuiltIns/RWBuffers.hlsl +++ b/clang/test/SemaHLSL/BuiltIns/RWBuffers.hlsl @@ -20,7 +20,7 @@ RWBuffer<double2> r4; // expected-error@+4 {{constraints not satisfied for class template 'RWBuffer'}} // expected-note@*:* {{template declaration from hidden source: template <typename element_type> requires __is_typed_resource_element_compatible<element_type> class RWBuffer}} // expected-note@*:* {{because 'RWBuffer<int>' does not satisfy '__is_typed_resource_element_compatible'}} -// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(RWBuffer<int>)' evaluated to false}} +// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(hlsl::RWBuffer<int>)' evaluated to false}} RWBuffer<RWBuffer<int> > r5; struct s { @@ -66,7 +66,7 @@ RWBuffer<half[4]> r10; typedef vector<int, 8> int8; // expected-error@+3 {{constraints not satisfied for class template 'RWBuffer'}} // expected-note@*:* {{because 'int8' (aka 'vector<int, 8>') does not satisfy '__is_typed_resource_element_compatible'}} -// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(int8)' evaluated to false}} +// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(vector<int, 8>)' evaluated to false}} RWBuffer<int8> r11; typedef int MyInt; @@ -91,7 +91,7 @@ RWBuffer<numbers> r15; // expected-error@+3 {{constraints not satisfied for class template 'RWBuffer'}} // expected-note@*:* {{because 'double3' (aka 'vector<double, 3>') does not satisfy '__is_typed_resource_element_compatible'}} -// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(double3)' evaluated to false}} +// expected-note@*:* {{because '__builtin_hlsl_is_typed_resource_element_compatible(vector<double, 3>)' evaluated to false}} RWBuffer<double3> r16; diff --git a/clang/test/SemaTemplate/concepts-recursive-inst.cpp b/clang/test/SemaTemplate/concepts-recursive-inst.cpp index d36c6a8..73dce93 100644 --- a/clang/test/SemaTemplate/concepts-recursive-inst.cpp +++ b/clang/test/SemaTemplate/concepts-recursive-inst.cpp @@ -68,8 +68,8 @@ struct my_range{ void baz() { auto it = begin(rng); // #BEGIN_CALL // expected-error-re@#INF_REQ {{satisfaction of constraint {{.*}} depends on itself}} -// expected-note@#INF_BEGIN {{while checking the satisfaction of concept 'Inf<struct my_range>' requested here}} -// expected-note@#INF_BEGIN_EXPR {{while checking constraint satisfaction for template 'begin<struct my_range>' required here}} +// expected-note@#INF_BEGIN {{while checking the satisfaction of concept 'Inf<DirectRecursiveCheck::my_range>' requested here}} +// expected-note@#INF_BEGIN_EXPR {{while checking constraint satisfaction for template 'begin<DirectRecursiveCheck::my_range>' required here}} // expected-note@#INF_BEGIN_EXPR {{while substituting deduced template arguments into function template 'begin'}} // expected-note@#INF_BEGIN_EXPR {{in instantiation of requirement here}} // expected-note@#INF_REQ {{while substituting template arguments into constraint expression here}} diff --git a/clang/test/SemaTemplate/concepts.cpp b/clang/test/SemaTemplate/concepts.cpp index ee2bb8d..aaa20f6 100644 --- a/clang/test/SemaTemplate/concepts.cpp +++ b/clang/test/SemaTemplate/concepts.cpp @@ -833,13 +833,13 @@ struct Parent { static_assert(Parent<void>::TakesUnary<int, 0>::i == 0); // expected-error@+3{{constraints not satisfied for class template 'TakesUnary'}} // expected-note@#UNARY{{because 'decltype(0ULL)' (aka 'unsigned long long') does not satisfy 'C'}} -// expected-note@#61777_C{{because 'sizeof(decltype(0ULL)) == 4' (8 == 4) evaluated to false}} +// expected-note@#61777_C{{because 'sizeof(unsigned long long) == 4' (8 == 4) evaluated to false}} static_assert(Parent<void>::TakesUnary<int, 0uLL>::i == 0); static_assert(Parent<int>::TakesBinary<int, 0>::i == 0); // expected-error@+3{{constraints not satisfied for class template 'TakesBinary'}} // expected-note@#BINARY{{because 'C2<decltype(0ULL), int>' evaluated to false}} -// expected-note@#61777_C2{{because 'sizeof(decltype(0ULL)) == sizeof(int)' (8 == 4) evaluated to false}} +// expected-note@#61777_C2{{because 'sizeof(unsigned long long) == sizeof(int)' (8 == 4) evaluated to false}} static_assert(Parent<int>::TakesBinary<int, 0ULL>::i == 0); } @@ -1329,8 +1329,8 @@ static_assert(__cpp17_iterator<not_move_constructible>); \ // expected-error {{static assertion failed}} \ // expected-note {{because 'not_move_constructible' does not satisfy '__cpp17_iterator'}} \ // expected-note@#__cpp17_copy_constructible {{because 'not_move_constructible' does not satisfy '__cpp17_copy_constructible'}} \ -// expected-note@#__cpp17_move_constructible {{because 'not_move_constructible' does not satisfy '__cpp17_move_constructible'}} \ -// expected-note@#is_move_constructible_v {{because 'is_move_constructible_v<not_move_constructible>' evaluated to false}} +// expected-note@#__cpp17_move_constructible {{because 'parameter_mapping_regressions::case3::not_move_constructible' does not satisfy '__cpp17_move_constructible'}} \ +// expected-note@#is_move_constructible_v {{because 'is_move_constructible_v<parameter_mapping_regressions::case3::not_move_constructible>' evaluated to false}} } namespace case4 { @@ -1416,6 +1416,31 @@ concept IsEntitySpec = } +namespace case8 { + +template <class T> +struct type_identity { + using type = T; +}; + +template <typename Inner> +struct Cat {}; + +template <typename T> +concept CatConcept = requires { + []<class Inner>(type_identity<Cat<Inner>>) {}(type_identity<T>{}); +}; + +template <typename Dummy> +struct Feeder { + template <CatConcept Dummy2> + void feed() noexcept {} +}; + +void main() { Feeder<int>{}.feed<Cat<int>>(); } + +} + } namespace GH162125 { |