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The result must be False as per the RM 4.5.2 (30.2/4) clause.
gcc/ada/
* exp_ch4.adb (Expand_N_In): Deal specifically with a null operand.
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The same guard must be added to Expand_Simple_Function_Return as the one
that was added to Analyze_Function_Return.
gcc/ada/
* exp_ch6.adb (Expand_Simple_Function_Return): Deal with a rewriting
of the simple return during the adjustment of its expression.
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This happens when the call is a dependent expression of the conditional
expression, and the conditional expression is either the expression of a
simple return statement or the return expression of an expression function.
The reason is that the special processing of "tail calls" for BIP functions,
i.e. calls that are the expression of simple return statements or the return
expression of expression functions, is not applied.
This change makes sure that it is applied by distributing the simple return
statements enclosing conditional expressions into the dependent expressions
of the conditional expressions in almost all cases. As a side effect, this
elides a temporary in the nonlimited by-reference case, as well as a pair of
calls to Adjust/Finalize in the nonlimited controlled case.
gcc/ada/
* exp_ch4.adb (Expand_N_Case_Expression): Distribute simple return
statements enclosing the conditional expression into the dependent
expressions in almost all cases.
(Expand_N_If_Expression): Likewise.
(Process_Transient_In_Expression): Adjust to the above distribution.
* exp_ch6.adb (Expand_Ctrl_Function_Call): Deal with calls in the
dependent expressions of a conditional expression.
* sem_ch6.adb (Analyze_Function_Return): Deal with the rewriting of
a simple return statement during the resolution of its expression.
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Rules about parameters of modes OUT and IN OUT in aspect
Exceptional_Cases only apply to the parameters of the current
subprogram.
gcc/ada/
* sem_res.adb (Resolve_Entity_Name): Refine rules for Exceptional_Cases.
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Initializing a vector using
Vec : V.Vector := [Some_Type'(Some_Abstract_Type with F => 0)];
may crash the compiler. The expander marks the N_Extension_Aggregate for
delayed expansion which never happens and incorrectly ends up in gigi.
The delayed expansion is needed for nested aggregates, which the
original code is testing for, but container aggregates are handled
differently.
Such assignments to container aggregates are later transformed into
procedure calls to the procedures named in the Aggregate aspect
definition, for which the delayed expansion is not required/expected.
gcc/ada/
* exp_aggr.adb (Convert_To_Assignments): Do not mark node for
delayed expansion if parent type has the Aggregate aspect.
* sem_util.adb (Is_Container_Aggregate): Move...
* sem_util.ads (Is_Container_Aggregate): ... here and make it
public.
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Attributes that do not read data from the object can be safely used in
consequences of Exceptional_Cases regardless of the parameter passing
mode.
gcc/ada/
* sem_res.adb (Resolve_Entity_Name): Relax rules for Exceptional_Cases.
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It was partially broken to fix a regression in error reporting, because the
fix was applied to the first pass of resolution instead of the second pass,
as needs to be done for user-defined literals.
gcc/ada/
* sem_ch4.ads (Unresolved_Operator): New procedure.
* sem_ch4.adb (Has_Possible_Literal_Aspects): Rename into...
(Has_Possible_User_Defined_Literal): ...this. Tidy up.
(Operator_Check): Accept again unresolved operators if they have a
possible user-defined literal as operand. Factor out the handling
of the general error message into...
(Unresolved_Operator): ...this new procedure.
* sem_res.adb (Resolve): Be prepared for unresolved operators on
entry in Ada 2022 or later. If they are still unresolved on exit,
call Unresolved_Operator to give the error message.
(Try_User_Defined_Literal): Tidy up.
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If the Default_Component_Value aspect is specified for an array type, then
specifying Initialize_Scalars or Normalize_Scalars should have no effect
on the default initialization of an object of the array type.
gcc/ada/
* exp_ch3.adb
(Expand_N_Object_Declaration.Default_Initialize_Object): Add test for
specified Default_Component_Value aspect when deciding whether
either Initialize_Scalars or Normalize_Scalars impacts default
initialization of an array object.
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The frontend may crash processing an aggregate initializing
a derived tagged record type that has discriminants.
gcc/ada/
* sem_aggr.adb
(Resolve_Record_Aggregate): For aggregates of derived tagged
record types with discriminants, when collecting components
from ancestors, pass to subprogram Gather_Components the
parent type. Required to report errors on wrong aggregate
components.
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Cleanup related to handling of access-to-subprogram types with Pre and
Post aspects. Behavior is unaffected.
gcc/ada/
* sem_util.adb (Check_Result_And_Post_State): Replace low-level
navigation with a high-level Unique_Entity.
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When retrieving entities of subprogram spec we only handled functions
and procedures, but not entries. This had no consequences, because we
then only applied checks to functions, but still is worth a cleanup, so
the code is easier to adapt for access-to-subprogram entities as well.
gcc/ada/
* sem_util.adb (Check_Result_And_Post_State): Properly handle entry
bodies.
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When preanalysing class-wide conditions, we restore "Function (Object)"
to its original "Object.Function" notation. This requires the Parent
links to be fixed. We did it for nodes; now we do it for lists as well.
This patch is enough to fix assertion failure in CCG and to make the
tree well-connected. Perhaps there is a more elegant solution, but that
remains to be investigated.
gcc/ada/
* contracts.adb (Fix_Parent): Fir part both for lists and nodes.
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By marking relevant functions inline when -gnatn is used.
gcc/ada/
* sem_ch7.adb: Refine handling of inlining for CCG
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The problem is that the renaming slightly changes the form of a global
reference that was saved during the analysis of a generic package, and
that is sufficient to fool the code adjusting global references during
the instantiation.
gcc/ada/
* sem_ch12.adb (Copy_Generic_Node): Test the original node kind
for the sake of consistency. For identifiers and other entity
names and operators, accept an expanded name as associated node.
Replace "or" with "or else" in condtion and fix its formatting.
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Make the message consistent with the one for postcondition.
gcc/ada/
* sem_util.adb (Check_Result_And_Post_State): Tune message.
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Calls to Install_Formals are typically enclosed by Push_Scope/End_Scope.
There were just two such calls that instead used Pop_Scope, but most
likely that was by mistake.
Cleanup related to handling of class-wide contracts. Behavior appears to
be unaffected.
gcc/ada/
* contracts.adb (Remove_Formals): Remove.
(Preanalyze_Condition): Replace Pop_Scope with End_Scope.
* sem_ch13.adb (Build_Discrete_Static_Predicate): Replace
Pop_Scope with End_Scope; enclose Install_Formals within
Push_Scope/End_Scope.
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Fix grammar in error message; make it consistent with a similar message
for pre/postcondition on formal subprogram.
gcc/ada/
* sem_prag.adb (Analyze_Pre_Post_Condition): Tune error message.
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The frontend reports spurious errors on operators found in
interpolated string literals.
gcc/ada/
* scans.ads (Inside_Interpolated_String_Expression): New variable.
* par-ch2.adb (P_Interpolated_String_Literal): Set/clear new
variable when parsing interpolated string expressions.
* scng.adb (Set_String): Skip processing operator symbols when we
arescanning an interpolated string literal.
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The QNX runtimes used the default implementation of
System.Parameters that defines a default stack size
of 2 MB. The QNX specific version uses the QNX default
stack size of 256 KB instead.
gcc/ada/
* Makefile.rtl (QNX): Use s-parame__qnx.adb for s-parame.adb.
* libgnat/s-parame__qnx.adb: Add QNX specific version of
System.Parameters.
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GNATprove has ad-hoc support for the standard numerical functions, which
consists in emitting an unprovable preconditions on cases which could
lead to an overflow. These functions are thus valid to call from SPARK
code.
gcc/ada/
* libgnat/a-ngelfu.ads: Restore SPARK_Mode from context.
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When resetting the parent link after having restored the selected
component node, the assertion used was incorrectly triggered when the
traversal hits the members of the parameters association list, as in:
This.Some_Func (Param1, Param2).Dispatching_Call
When restoring the selected component for Dispatching_Call, the
assertion was wrongly triggered when passed Param1 and Param2.
gcc/ada/
* contracts.adb (Restore_Original_Selected_Component): Adjust assertion.
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Aspects Pre/Post attached to an access-to-subprogram type were relocated
to a spec of a wrapper subprogram and analyzed there; the body of the
wrapper was only created with expansion enabled. However, there were
several problems with this approach.
When switch -gnat2022 was missing, we didn't relocate the Pre/Post
aspects to wrapper and complained that their placement is incorrect
(because we wrongly assumed that relocation is unconditional). Now we
gently inform, that these aspects are Ada 2022 features that require
-gnat20222 switch.
When switch -gnata was missing, we entirely bypassed analysis of the
Pre/Post aspects on access-to-subprogram. This was unlike for Pre/Post
aspects on subprograms, which are checked for legality regardless of the
-gnata switch.
Finally, in the GNATprove backend we were picking the Pre/Post contract
on an access-to-subprogram type from the wrapper, which was awkward as
otherwise we had to ignore the wrapper specs and special-case for their
missing bodies. In general, it is cleaner for GNATprove to extract the
aspect expressions from where they originally appear and not from
various expansion artifacts like access-to-subprogram wrappers (but the
same applies to predication functions, type invariant procedures and
default initialization procedures).
Now we analyze the Pre/Post aspects on the types where they are
originally attached, regardless of the -gnata switch. Once we adapt
GNATprove to pick the aspect expression from there, we will stop
creating the wrapper spec when expansion is disabled.
gcc/ada/
* contracts.adb
(Add_Pre_Post_Condition): Adapt to handle pre/post of an
access-to-subprogram type.
(Analyze_Type_Contract): Analyze pre/post of an
access-to-subprogram.
* contracts.ads
(Analyze_Type_Contract): Adapt comment.
* sem_ch3.adb
(Build_Access_Subprogram_Wrapper): Copy pre/post aspects to
wrapper spec and keep it on the type.
* sem_prag.adb
(Analyze_Pre_Post_Condition): Expect pre/post aspects on
access-to-subprogram and complain if they appear without -gnat2022
switch.
(Analyze_Pre_Post_Condition_In_Decl_Part): Adapt to handle
pre/post on an access-to-subprogram type entity.
* sem_attr.adb (Analyze_Attribute_Old_Result): Likewise.
(Result): Likewise.
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Fix bug reported here:
https://gcc.gnu.org/bugzilla/show_bug.cgi?id=109974
PR target/109974
Signed-off-by: Juzhe-Zhong <juzhe.zhong@rivai.ai>
gcc/ChangeLog:
* config/riscv/riscv-vsetvl.cc (source_equal_p): Fix ICE.
gcc/testsuite/ChangeLog:
* gcc.target/riscv/rvv/vsetvl/pr109974.c: New test.
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Notice that this testcase cause unexpected fail:
FAIL: gcc.target/riscv/rvv/autovec/unop/abs-run.c (test for excess
errors)
Excess errors:
/work/home/jzzhong/work/rvv-opensource/software/host/toolchain/gcc/riscv-gcc/gcc/testsuite/gcc.target/riscv/rvv/autovec/unop/abs-run.c:22:7:
warning: implicit declaration of function 'printf'
[-Wimplicit-function-declaration]
/work/home/jzzhong/work/rvv-opensource/software/host/toolchain/gcc/riscv-gcc/gcc/testsuite/gcc.target/riscv/rvv/autovec/unop/abs-run.c:22:7:
warning: incompatible implicit declaration of built-in function 'printf'
[-Wbuiltin-declaration-mismatch]
/work/home/jzzhong/work/rvv-opensource/software/host/toolchain/gcc/riscv-gcc/gcc/testsuite/gcc.target/riscv/rvv/autovec/unop/abs-run.c:22:7:
warning: incompatible implicit declaration of built-in function 'printf'
[-Wbuiltin-declaration-mismatch]
/work/home/jzzhong/work/rvv-opensource/software/host/toolchain/gcc/riscv-gcc/gcc/testsuite/gcc.target/riscv/rvv/autovec/unop/abs-run.c:22:7:
warning: incompatible implicit declaration of built-in function 'printf'
[-Wbuiltin-declaration-mismatch]
/work/home/jzzhong/work/rvv-opensource/software/host/toolchain/gcc/riscv-gcc/gcc/testsuite/gcc.target/riscv/rvv/autovec/unop/abs-run.c:22:7:
warning: incompatible implicit declaration of built-in function 'printf'
[-Wbuiltin-declaration-mismatch]
spawn /work/home/jzzhong/work/rvv-opensource/output/sim/bin/spike
--isa=RV64GCVZfh
/work/home/jzzhong/work/rvv-opensource/output/sim/riscv64-rivai-elf/bin/pk
./abs-run.exe^M
bbl loader^M^M
0 0 -64^M
1 63 -63^M
2 2 -62^M
3 61 -61^M
4 4 -60^M
5 59 -59^M
6 6 -58^M
7 57 -57^M
8 8 -56^M
9 55 -55^M
10 10 -54^M
11 53 -53^M
12 12 -52^M
13 51 -51^M
Remove printf since it's unnecessary.
Signed-off-by: Juzhe-Zhong <juzhe.zhong@rivai.ai>
gcc/testsuite/ChangeLog:
* gcc.target/riscv/rvv/autovec/unop/abs-run.c: Remove redundant printf.
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This patch support FMA auto-vectorization pattern. Let's RA decide
vmacc or vmadd.
Signed-off-by: Juzhe-Zhong <juzhe.zhong@rivai.ai>
gcc/ChangeLog:
* config/riscv/autovec.md (fma<mode>4): New pattern.
(*fma<mode>): Ditto.
* config/riscv/riscv-protos.h (enum insn_type): New enum.
(emit_vlmax_ternary_insn): New function.
* config/riscv/riscv-v.cc (emit_vlmax_ternary_insn): Ditto.
gcc/testsuite/ChangeLog:
* gcc.target/riscv/rvv/rvv.exp: Add ternary tests
* gcc.target/riscv/rvv/autovec/ternop/ternop-1.c: New test.
* gcc.target/riscv/rvv/autovec/ternop/ternop-2.c: New test.
* gcc.target/riscv/rvv/autovec/ternop/ternop-3.c: New test.
* gcc.target/riscv/rvv/autovec/ternop/ternop_run-1.c: New test.
* gcc.target/riscv/rvv/autovec/ternop/ternop_run-2.c: New test.
* gcc.target/riscv/rvv/autovec/ternop/ternop_run-3.c: New test.
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Fix bug of vector.md which generate incorrect information to
VSETVL PASS when testing FMA auto vectorization ternop-3.c.
Signed-off-by: Juzhe-Zhong <juzhe.zhong@rivai.ai>
gcc/ChangeLog:
* config/riscv/vector.md: Fix vimuladd instruction bug.
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Currently mode switching incorrect codegen for the following case:
void fn (void);
void f (void * in, void *out, int32_t x, int n, int m)
{
for (int i = 0; i < n; i++) {
vint32m1_t v = __riscv_vle32_v_i32m1 (in + i, 4);
vint32m1_t v2 = __riscv_vle32_v_i32m1_tu (v, in + 100 + i, 4);
vint32m1_t v3 = __riscv_vaadd_vx_i32m1 (v2, 0, VXRM_RDN, 4);
fn ();
v3 = __riscv_vaadd_vx_i32m1 (v3, 3, VXRM_RDN, 4);
__riscv_vse32_v_i32m1 (out + 100 + i, v3, 4);
}
}
Before this patch:
Preheader:
...
csrwi vxrm,2
Loop Body:
... (no cswri vxrm,2)
vaadd.vx
...
vaadd.vx
...
This codegen is incorrect.
After this patch:
Preheader:
...
csrwi vxrm,2
Loop Body:
...
vaadd.vx
...
csrwi vxrm,2
...
vaadd.vx
...
cross-compile build PASS and regression PASS.
Signed-off-by: Juzhe-Zhong <juzhe.zhong@rivai.ai>
gcc/ChangeLog:
* config/riscv/riscv.cc (global_state_unknown_p): New function.
(riscv_mode_after): Fix incorrect VXM.
gcc/testsuite/ChangeLog:
* gcc.target/riscv/rvv/base/vxrm-11.c: New test.
* gcc.target/riscv/rvv/base/vxrm-12.c: New test.
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This patch would like to add new sub extension (aka ZVFHMIN) to the
-march= option. To make it simple, only the sub extension itself is
involved in this patch, and the underlying FP16 related RVV intrinsic
API depends on the TARGET_ZVFHMIN.
The Zvfhmin extension depends on the Zve32f extension. You can locate
more information about ZVFHMIN from below spec doc.
https://github.com/riscv/riscv-v-spec/blob/master/v-spec.adoc#zvfhmin-vector-extension-for-minimal-half-precision-floating-point
Signed-off-by: Pan Li <pan2.li@intel.com>
gcc/ChangeLog:
* common/config/riscv/riscv-common.cc:
(riscv_implied_info): Add zvfhmin item.
(riscv_ext_version_table): Ditto.
(riscv_ext_flag_table): Ditto.
* config/riscv/riscv-opts.h (MASK_ZVFHMIN): New macro.
(TARGET_ZFHMIN): Align indent.
(TARGET_ZFH): Ditto.
(TARGET_ZVFHMIN): New macro.
gcc/testsuite/ChangeLog:
* gcc.target/riscv/arch-20.c: New test.
* gcc.target/riscv/predef-26.c: New test.
Signed-off-by: Pan Li <pan2.li@intel.com>
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r12-5595-gc39d77f252e895306ef88c1efb3eff04e4232554 adds 2 splitter to
transform notl + pbroadcast + pand to pbroadcast + pandn for
VI124_AVX2 which leaves out all DI-element-size ones as
well as all 512-bit ones.
This patch extend the splitter to VI_AVX2 which will handle DImode for
AVX2, and V64QImode,V32HImode,V16SImode,V8DImode for AVX512.
gcc/ChangeLog:
PR target/100711
* config/i386/sse.md (*andnot<mode>3): Extend below splitter
to VI_AVX2 to cover more modes.
gcc/testsuite/ChangeLog:
* gcc.target/i386/pr100711-2.c: Add v4di/v2di testcases.
* gcc.target/i386/pr100711-3.c: New test.
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lzcnt/tzcnt has been fixed since skylake, popcnt has been fixed since
icelake. At least for icelake and later intel Core processors, the
errata tune is not needed. And the tune isn't need for ATOM either.
gcc/ChangeLog:
* config/i386/x86-tune.def (X86_TUNE_AVOID_FALSE_DEP_FOR_BMI):
Remove ATOM and ICELAKE(and later) core processors.
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Warnings from -Wstringop-overflow do not appear for parameters declared
as VLAs when the bound refers to a parameter forward declaration. This
is fixed by splitting the loop that passes through parameters into two,
first only recording the positions of all possible size expressions
and then processing the parameters.
PR c/109970
gcc/c-family:
* c-attribs.cc (build_attr_access_from_parms): Split loop to first
record all parameters.
gcc/testsuite:
* gcc.dg/pr109970.c: New test.
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This patch implements abs<mode>2, vneg<mode>2 and vnot<mode>2
expanders for integer vector registers and adds tests for them.
gcc/ChangeLog:
* config/riscv/autovec.md (<optab><mode>2): Add vneg/vnot.
(abs<mode>2): Add.
* config/riscv/riscv-protos.h (emit_vlmax_masked_mu_insn):
Declare.
* config/riscv/riscv-v.cc (emit_vlmax_masked_mu_insn): New
function.
gcc/testsuite/ChangeLog:
* gcc.target/riscv/rvv/rvv.exp: Add unop tests.
* gcc.target/riscv/rvv/autovec/unop/abs-run.c: New test.
* gcc.target/riscv/rvv/autovec/unop/abs-rv32gcv.c: New test.
* gcc.target/riscv/rvv/autovec/unop/abs-rv64gcv.c: New test.
* gcc.target/riscv/rvv/autovec/unop/abs-template.h: New test.
* gcc.target/riscv/rvv/autovec/unop/vneg-run.c: New test.
* gcc.target/riscv/rvv/autovec/unop/vneg-rv32gcv.c: New test.
* gcc.target/riscv/rvv/autovec/unop/vneg-rv64gcv.c: New test.
* gcc.target/riscv/rvv/autovec/unop/vneg-template.h: New test.
* gcc.target/riscv/rvv/autovec/unop/vnot-run.c: New test.
* gcc.target/riscv/rvv/autovec/unop/vnot-rv32gcv.c: New test.
* gcc.target/riscv/rvv/autovec/unop/vnot-rv64gcv.c: New test.
* gcc.target/riscv/rvv/autovec/unop/vnot-template.h: New test.
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This patch implements the autovec expanders for sign and zero extension
patterns as well as the accompanying truncations. In order to use them
additional mode_attr iterators as well as vectorizer hooks are required.
Using these hooks we can e.g. vectorize with VNx4QImode as base mode
and extend VNx4SI to VNx4DI. They are still going to be expanded in the
future.
vf4 and vf8 truncations are emulated by truncating two and three times
respectively.
The patch also adds tests and changes some expectations for already
existing ones.
Combine does not yet handle binary operations of two widened operands
as we are missing the necessary split/rewrite patterns. These will be
added at a later time.
Co-authored-by: Juzhe Zhong <juzhe.zhong@rivai.ai>
gcc/ChangeLog:
* config/riscv/autovec.md (<optab><v_double_trunc><mode>2): New
expander.
(<optab><v_quad_trunc><mode>2): Dito.
(<optab><v_oct_trunc><mode>2): Dito.
(trunc<mode><v_double_trunc>2): Dito.
(trunc<mode><v_quad_trunc>2): Dito.
(trunc<mode><v_oct_trunc>2): Dito.
* config/riscv/riscv-protos.h (vectorize_related_mode): Define.
(autovectorize_vector_modes): Define.
* config/riscv/riscv-v.cc (vectorize_related_mode): Implement
hook.
(autovectorize_vector_modes): Implement hook.
* config/riscv/riscv.cc (riscv_autovectorize_vector_modes):
Implement target hook.
(riscv_vectorize_related_mode): Implement target hook.
(TARGET_VECTORIZE_AUTOVECTORIZE_VECTOR_MODES): Define.
(TARGET_VECTORIZE_RELATED_MODE): Define.
* config/riscv/vector-iterators.md: Add lowercase versions of
mode_attr iterators.
gcc/testsuite/ChangeLog:
* gcc.target/riscv/rvv/autovec/binop/shift-rv32gcv.c: Adjust
expectation.
* gcc.target/riscv/rvv/autovec/binop/shift-rv64gcv.c: Dito.
* gcc.target/riscv/rvv/autovec/binop/vdiv-run.c: Dito.
* gcc.target/riscv/rvv/autovec/binop/vdiv-rv32gcv.c: Dito.
* gcc.target/riscv/rvv/autovec/binop/vdiv-rv64gcv.c: Dito.
* gcc.target/riscv/rvv/autovec/binop/vdiv-template.h: Dito.
* gcc.target/riscv/rvv/autovec/binop/vrem-rv32gcv.c: Dito.
* gcc.target/riscv/rvv/autovec/binop/vrem-rv64gcv.c: Dito.
* gcc.target/riscv/rvv/autovec/zve32f_zvl128b-2.c: Dito.
* gcc.target/riscv/rvv/autovec/zve32x_zvl128b-2.c: Dito.
* gcc.target/riscv/rvv/autovec/zve64d-2.c: Dito.
* gcc.target/riscv/rvv/autovec/zve64f-2.c: Dito.
* gcc.target/riscv/rvv/autovec/zve64x-2.c: Dito.
* gcc.target/riscv/rvv/rvv.exp: Add new conversion tests.
* gcc.target/riscv/rvv/vsetvl/avl_single-38.c: Do not vectorize.
* gcc.target/riscv/rvv/vsetvl/avl_single-47.c: Dito.
* gcc.target/riscv/rvv/vsetvl/avl_single-48.c: Dito.
* gcc.target/riscv/rvv/vsetvl/avl_single-49.c: Dito.
* gcc.target/riscv/rvv/vsetvl/imm_switch-8.c: Dito.
* gcc.target/riscv/rvv/autovec/conversions/vncvt-run.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vncvt-rv32gcv.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vncvt-rv64gcv.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vncvt-template.h: New test.
* gcc.target/riscv/rvv/autovec/conversions/vsext-run.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vsext-rv32gcv.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vsext-rv64gcv.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vsext-template.h: New test.
* gcc.target/riscv/rvv/autovec/conversions/vzext-run.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vzext-rv32gcv.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vzext-rv64gcv.c: New test.
* gcc.target/riscv/rvv/autovec/conversions/vzext-template.h: New test.
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gcc/fortran/ChangeLog:
* dump-parse-tree.cc (show_omp_namelist): Update allocator, fix
align dump.
(show_omp_node, show_code_node): Handle EXEC_OMP_ALLOCATE.
* gfortran.h (enum gfc_statement): Add ST_OMP_ALLOCATE and ..._EXEC.
(enum gfc_exec_op): Add EXEC_OMP_ALLOCATE.
(struct gfc_omp_namelist): Add 'allocator' to 'u2' union.
(struct gfc_namespace): Add omp_allocate.
(gfc_resolve_omp_allocate): New.
* match.cc (gfc_free_omp_namelist): Free 'u2.allocator'.
* match.h (gfc_match_omp_allocate, gfc_match_omp_allocators): New.
* openmp.cc (gfc_omp_directives): Uncomment allocate/allocators.
(gfc_match_omp_variable_list): Add bool arg for
rejecting listening common-block vars separately.
(gfc_match_omp_clauses): Update for u2.allocators.
(OMP_ALLOCATORS_CLAUSES, gfc_match_omp_allocate,
gfc_match_omp_allocators, is_predefined_allocator,
gfc_resolve_omp_allocate): New.
(resolve_omp_clauses): Update 'allocate' clause checks.
(omp_code_to_statement, gfc_resolve_omp_directive): Handle
OMP ALLOCATE/ALLOCATORS.
* parse.cc (in_exec_part): New global var.
(check_omp_allocate_stmt, parse_openmp_allocate_block): New.
(decode_omp_directive, case_exec_markers, case_omp_decl,
gfc_ascii_statement, parse_omp_structured_block): Handle
OMP allocate/allocators.
(verify_st_order, parse_executable): Set in_exec_part.
* resolve.cc (gfc_resolve_blocks, resolve_codes): Handle
allocate/allocators.
* st.cc (gfc_free_statement): Likewise.
* trans.cc (trans_code): Likewise.
* trans-openmp.cc (gfc_trans_omp_directive): Likewise.
(gfc_trans_omp_clauses, gfc_split_omp_clauses): Update for
u2.allocator, fix for u.align.
libgomp/ChangeLog:
* testsuite/libgomp.fortran/allocate-4.f90: Update dg-error.
gcc/testsuite/ChangeLog:
* gfortran.dg/gomp/allocate-2.f90: Update dg-error.
* gfortran.dg/gomp/allocate-4.f90: New test.
* gfortran.dg/gomp/allocate-5.f90: New test.
* gfortran.dg/gomp/allocate-6.f90: New test.
* gfortran.dg/gomp/allocate-7.f90: New test.
* gfortran.dg/gomp/allocators-1.f90: New test.
* gfortran.dg/gomp/allocators-2.f90: New test.
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I looked at the commit, proof reading the commit, but missed
a <tab> in the changelog, fixing it with 'git ... --amend',
the new files sneaked in - and the auto-accept new files
without ChangeLog entry feature let it pass.
Hence, remove those bogus files again that were added
in r14-1299-g366e3d30b8d5dc2bf226696987dfbd2a7df192f5
gcc/testsuite:
* gfortran.dg/gomp/allocate-4.f90: Remove autoadded file.
* gfortran.dg/gomp/allocate-5.f90: Likewise.
* gfortran.dg/gomp/allocate-6.f90: Likewise.
* gfortran.dg/gomp/allocate-7.f90: Likewise.
* gfortran.dg/gomp/allocators-1.f90: Likewise.
* gfortran.dg/gomp/allocators-2.f90: Likewise.
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Since object code target ID V4, xnack has the values unspecified, '+' and '-',
which with this commit is represented in GCC as 'any', 'on', and 'off',
following the precidence for 'sram(-)ecc' and -msram-ecc=.
The current default was 'no' and is now 'off'; however, once XNACK is
implemented, the default should be probably 'any'.
This commit updates the commandline options to permit the new tristate and
updates the documentation. As the feature itself is currently not really
supported in GCC, the change should not affect real-world users.
The XNACK feature allows memory load instructions to restart safely following
a page-miss interrupt. This is useful for shared-memory devices, like APUs,
and to implement OpenMP Unified Shared Memory.
2023-05-26 Andrew Stubbs <ams@codesourcery.com>
Tobias Burnus <tobias@codesourcery.com>
* config/gcn/gcn-hsa.h (XNACKOPT): New macro.
(ASM_SPEC): Use XNACKOPT.
* config/gcn/gcn-opts.h (enum sram_ecc_type): Rename to ...
(enum hsaco_attr_type): ... this, and generalize the names.
(TARGET_XNACK): New macro.
* config/gcn/gcn.cc (gcn_option_override): Update to sorry for all
but -mxnack=off.
(output_file_start): Update xnack handling.
(gcn_hsa_declare_function_name): Use TARGET_XNACK.
* config/gcn/gcn.opt (-mxnack): Add the "on/off/any" syntax.
(sram_ecc_type): Rename to ...
(hsaco_attr_type: ... this.)
* config/gcn/mkoffload.cc (SET_XNACK_ANY): New macro.
(TEST_XNACK): Delete.
(TEST_XNACK_ANY): New macro.
(TEST_XNACK_ON): New macro.
(main): Support the new -mxnack=on/off/any syntax.
* doc/invoke.texi (-mxnack): Update for new syntax.
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This is based on the review of https://gcc.gnu.org/pipermail/gcc-patches/2023-May/619342.html .
Instead of emitting debug message even if we don't apply a pattern, this fixes the issue
by only emitting it if it the pattern finally succeeded.
OK? Bootstrapped and tested on x86_64-linux-gnu with no regressions.
gcc/ChangeLog:
* genmatch.cc (emit_debug_printf): New function.
(dt_simplify::gen_1): Emit printf into the code
before the `return true` or returning the folded result
instead of emitting it always.
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In order to reject voodoo estimation logic with lots of magic numbers,
this patch revises the code to measure the costs of the three memset
methods based on the actual emission size of the insn sequence
corresponding to each method and choose the smallest one.
gcc/ChangeLog:
* config/xtensa/xtensa-protos.h
(xtensa_expand_block_set_unrolled_loop,
xtensa_expand_block_set_small_loop): Remove.
(xtensa_expand_block_set): New prototype.
* config/xtensa/xtensa.cc
(xtensa_expand_block_set_libcall): New subfunction.
(xtensa_expand_block_set_unrolled_loop,
xtensa_expand_block_set_small_loop): Rewrite as subfunctions.
(xtensa_expand_block_set): New function that calls the above
subfunctions.
* config/xtensa/xtensa.md (memsetsi): Change to invoke only
xtensa_expand_block_set().
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This patch makes try to eliminate using temporary pseudo for
'(minus:SI (const_int) (reg:SI))' if the addition of negative constant
value can be emitted in a single machine instruction.
/* example */
int test0(int x) {
return 1 - x;
}
int test1(int x) {
return 100 - x;
}
int test2(int x) {
return 25600 - x;
}
;; before
test0:
movi.n a9, 1
sub a2, a9, a2
ret.n
test1:
movi a9, 0x64
sub a2, a9, a2
ret.n
test2:
movi.n a9, 0x19
slli a9, a9, 10
sub a2, a9, a2
ret.n
;; after
test0:
addi.n a2, a2, -1
neg a2, a2
ret.n
test1:
addi a2, a2, -100
neg a2, a2
ret.n
test2:
addmi a2, a2, -0x6400
neg a2, a2
ret.n
gcc/ChangeLog:
* config/xtensa/xtensa-protos.h (xtensa_m1_or_1_thru_15):
New prototype.
* config/xtensa/xtensa.cc (xtensa_m1_or_1_thru_15):
New function.
* config/xtensa/constraints.md (O):
Change to use the above function.
* config/xtensa/xtensa.md (*subsi3_from_const):
New insn_and_split pattern.
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gcc/ChangeLog:
* config/xtensa/xtensa.md (*extzvsi-1bit_ashlsi3):
Retract excessive line folding, and correct the value of
the "length" insn attribute related to TARGET_DENSITY.
(*extzvsi-1bit_addsubx): Ditto.
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This patch corrects the implementation of RM-8.3(17),
which says that a record extension is self-hidden until "record".
Previously, such premature references could cause a compiler crash.
gcc/ada/
* sem_ch3.adb
(Build_Derived_Record_Type): Temporarily set the state of the
Derived_Type to "self-hidden" while processing constraints
and discriminants of a record extension.
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...caused by moving code here from Atree.
gcc/ada/
* einfo.ads: Add comma.
* contracts.adb: Fix typos.
* exp_attr.adb: Likewise.
* exp_ch5.adb: Likewise.
* exp_ch6.adb: Likewise.
* lib-xref.adb: Likewise.
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This changes the implementation of dynamic conversions from floating-point
to ordinary fixed-point types, from rounding (to the nearest number) to
truncation (toward zero), so as to make them consistent with both static
conversions between these types and also the value of the Machine_Rounds
attribute, which is False for all fixed-point types with GNAT.
The rounding is still available under the debug switch -gnatd.N for the
sake of backward compatibility with the previous implementation.
gcc/ada/
* debug.adb (d.N): Document new usage.
* exp_ch4.adb (Expand_N_Type_Conversion): Copy the Float_Truncate
flag when rewriting a floating-point to fixed-point conversion as
a floating-point to integer conversion.
* exp_fixd.adb: Add with and use clauses for Debug.
(Expand_Convert_Fixed_To_Fixed): Generate a truncation in all cases
except if the result is explicitly rounded.
(Expand_Convert_Integer_To_Fixed): Likewise.
(Expand_Convert_Float_To_Fixed): Generate a truncation for all kind
of fixed-point types, except if the result is explicitly rounded, or
-gnatd.N is specified and the type is an ordinary fixed-point type.
* sinfo.ads (Float_Truncate): Document usage for floating-point to
fixed-point conversions.
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The frontend crashes when a function returns an object of a
limited type that may have task components, has discriminants,
and the object is created with an allocator.
gcc/ada/
* exp_ch4.adb
(Expand_N_Allocator): If an allocator with constraints is called
in the return statement of a function returning a general access
type, then propagate to the itype the master of the general
access type (since it is the master associated with the
returned object).
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CodePeer issues a false alarm when reading local entity Component later
if not initialized by default. Fix this.
gcc/ada/
* sem_aggr.adb (Resolve_Record_Aggregate): Add dummy initialization and
assertion that clarifies when we reassigned to a useful value.
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Pattern Matching extension does not apply yet to case expressions.
This is worth stating clearly, as this is a natural use of pattern
matching to program in more functional style.
gcc/ada/
* doc/gnat_rm/gnat_language_extensions.rst: Be more explicit on
pattern matching limitation.
* gnat_rm.texi: Regenerate.
* gnat_ugn.texi: Regenerate.
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SPARK units in the standard library (both Ada and GNAT ones) should have
subprograms correctly annotated with contracts, so that a SPARK subprogram
should always return (not fail or raise an exception) under the conditions
expressed in its precondition, unless it is a procedure annotated with
Might_Not_Return.
gcc/ada/
* libgnat/a-calend.ads: Mark with SPARK_Mode=>Off the functions which may
raise Time_Error.
* libgnat/a-ngelfu.ads: Mark with SPARK_Mode=>Off the functions which may
lead to an overflow (which is not the case of Tan with one parameter for
example, or Arctanh or Arcoth, despite their mathematical range covering
the reals).
* libgnat/a-textio.ads: Remove Always_Return annotation from functions, as
this is now compulsory for functions to always return in SPARK.
* libgnat/i-cstrin.ads: Add Might_Not_Return annotation to Update procedure
which may not return.
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'Image is allowed as an actual for a generic formal function.
This patch fixes a crash when 'Img is used instead of 'Image
in that context.
Misc cleanups.
gcc/ada/
* exp_put_image.adb (Build_Image_Call): Treat 'Img the same as
'Image.
* exp_imgv.adb (Expand_Image_Attribute): If Discard_Names, expand
to 'Image instead of 'Img.
* snames.ads-tmpl, par-ch4.adb, sem_attr.adb, sem_attr.ads:
Cleanups: Rename Attribute_Class_Array to be Attribute_Set. Remove
unnecessary qualifications. DRY: Don't repeat "True".
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