diff options
Diffstat (limited to 'clang/lib/CIR/CodeGen')
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenBuilder.h | 34 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenClass.cpp | 4 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenCoroutine.cpp | 8 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenDecl.cpp | 4 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenExpr.cpp | 2 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenExprAggregate.cpp | 8 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenExprCXX.cpp | 4 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenExprConstant.cpp | 2 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp | 18 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenFunction.cpp | 8 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenItaniumCXXABI.cpp | 10 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenModule.cpp | 48 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp | 6 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenTypeCache.h | 48 | ||||
| -rw-r--r-- | clang/lib/CIR/CodeGen/CIRGenTypes.cpp | 32 |
15 files changed, 118 insertions, 118 deletions
diff --git a/clang/lib/CIR/CodeGen/CIRGenBuilder.h b/clang/lib/CIR/CodeGen/CIRGenBuilder.h index 50d585d..e5066fa 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuilder.h +++ b/clang/lib/CIR/CodeGen/CIRGenBuilder.h @@ -108,11 +108,11 @@ public: cir::LongDoubleType getLongDoubleTy(const llvm::fltSemantics &format) const { if (&format == &llvm::APFloat::IEEEdouble()) - return cir::LongDoubleType::get(getContext(), typeCache.DoubleTy); + return cir::LongDoubleType::get(getContext(), typeCache.doubleTy); if (&format == &llvm::APFloat::x87DoubleExtended()) - return cir::LongDoubleType::get(getContext(), typeCache.FP80Ty); + return cir::LongDoubleType::get(getContext(), typeCache.fP80Ty); if (&format == &llvm::APFloat::IEEEquad()) - return cir::LongDoubleType::get(getContext(), typeCache.FP128Ty); + return cir::LongDoubleType::get(getContext(), typeCache.fP128Ty); if (&format == &llvm::APFloat::PPCDoubleDouble()) llvm_unreachable("NYI: PPC double-double format for long double"); llvm_unreachable("Unsupported format for long double"); @@ -258,17 +258,17 @@ public: } } - cir::VoidType getVoidTy() { return typeCache.VoidTy; } + cir::VoidType getVoidTy() { return typeCache.voidTy; } - cir::IntType getSInt8Ty() { return typeCache.SInt8Ty; } - cir::IntType getSInt16Ty() { return typeCache.SInt16Ty; } - cir::IntType getSInt32Ty() { return typeCache.SInt32Ty; } - cir::IntType getSInt64Ty() { return typeCache.SInt64Ty; } + cir::IntType getSInt8Ty() { return typeCache.sInt8Ty; } + cir::IntType getSInt16Ty() { return typeCache.sInt16Ty; } + cir::IntType getSInt32Ty() { return typeCache.sInt32Ty; } + cir::IntType getSInt64Ty() { return typeCache.sInt64Ty; } - cir::IntType getUInt8Ty() { return typeCache.UInt8Ty; } - cir::IntType getUInt16Ty() { return typeCache.UInt16Ty; } - cir::IntType getUInt32Ty() { return typeCache.UInt32Ty; } - cir::IntType getUInt64Ty() { return typeCache.UInt64Ty; } + cir::IntType getUInt8Ty() { return typeCache.uInt8Ty; } + cir::IntType getUInt16Ty() { return typeCache.uInt16Ty; } + cir::IntType getUInt32Ty() { return typeCache.uInt32Ty; } + cir::IntType getUInt64Ty() { return typeCache.uInt64Ty; } cir::ConstantOp getConstInt(mlir::Location loc, llvm::APSInt intVal); @@ -280,21 +280,21 @@ public: llvm::APFloat fpVal); bool isInt8Ty(mlir::Type i) { - return i == typeCache.UInt8Ty || i == typeCache.SInt8Ty; + return i == typeCache.uInt8Ty || i == typeCache.sInt8Ty; } bool isInt16Ty(mlir::Type i) { - return i == typeCache.UInt16Ty || i == typeCache.SInt16Ty; + return i == typeCache.uInt16Ty || i == typeCache.sInt16Ty; } bool isInt32Ty(mlir::Type i) { - return i == typeCache.UInt32Ty || i == typeCache.SInt32Ty; + return i == typeCache.uInt32Ty || i == typeCache.sInt32Ty; } bool isInt64Ty(mlir::Type i) { - return i == typeCache.UInt64Ty || i == typeCache.SInt64Ty; + return i == typeCache.uInt64Ty || i == typeCache.sInt64Ty; } bool isInt(mlir::Type i) { return mlir::isa<cir::IntType>(i); } // Fetch the type representing a pointer to unsigned int8 values. - cir::PointerType getUInt8PtrTy() { return typeCache.UInt8PtrTy; } + cir::PointerType getUInt8PtrTy() { return typeCache.uInt8PtrTy; } /// Get a CIR anonymous record type. cir::RecordType getAnonRecordTy(llvm::ArrayRef<mlir::Type> members, diff --git a/clang/lib/CIR/CodeGen/CIRGenClass.cpp b/clang/lib/CIR/CodeGen/CIRGenClass.cpp index 5046e09..a829678 100644 --- a/clang/lib/CIR/CodeGen/CIRGenClass.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenClass.cpp @@ -362,7 +362,7 @@ static Address applyNonVirtualAndVirtualOffset( // not bytes. So the pointer must be cast to a byte pointer and back. mlir::Value ptr = addr.getPointer(); - mlir::Type charPtrType = cgf.cgm.UInt8PtrTy; + mlir::Type charPtrType = cgf.cgm.uInt8PtrTy; mlir::Value charPtr = cgf.getBuilder().createBitcast(ptr, charPtrType); mlir::Value adjusted = cir::PtrStrideOp::create( cgf.getBuilder(), loc, charPtrType, charPtr, baseOffset); @@ -1105,7 +1105,7 @@ mlir::Value CIRGenFunction::getVTTParameter(GlobalDecl gd, bool forVirtualBase, // We're the complete constructor, so get the VTT by name. cir::GlobalOp vtt = cgm.getVTables().getAddrOfVTT(rd); return builder.createVTTAddrPoint( - loc, builder.getPointerTo(cgm.VoidPtrTy), + loc, builder.getPointerTo(cgm.voidPtrTy), mlir::FlatSymbolRefAttr::get(vtt.getSymNameAttr()), subVTTIndex); } } diff --git a/clang/lib/CIR/CodeGen/CIRGenCoroutine.cpp b/clang/lib/CIR/CodeGen/CIRGenCoroutine.cpp index 8723a6e..930ae55 100644 --- a/clang/lib/CIR/CodeGen/CIRGenCoroutine.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenCoroutine.cpp @@ -55,7 +55,7 @@ cir::CallOp CIRGenFunction::emitCoroIDBuiltinCall(mlir::Location loc, if (!builtin) { fnOp = cgm.createCIRBuiltinFunction( loc, cgm.builtinCoroId, - cir::FuncType::get({int32Ty, VoidPtrTy, VoidPtrTy, VoidPtrTy}, int32Ty), + cir::FuncType::get({int32Ty, voidPtrTy, voidPtrTy, voidPtrTy}, int32Ty), /*FD=*/nullptr); assert(fnOp && "should always succeed"); } else { @@ -75,7 +75,7 @@ cir::CallOp CIRGenFunction::emitCoroAllocBuiltinCall(mlir::Location loc) { cir::FuncOp fnOp; if (!builtin) { fnOp = cgm.createCIRBuiltinFunction(loc, cgm.builtinCoroAlloc, - cir::FuncType::get({UInt32Ty}, boolTy), + cir::FuncType::get({uInt32Ty}, boolTy), /*fd=*/nullptr); assert(fnOp && "should always succeed"); } else { @@ -95,7 +95,7 @@ CIRGenFunction::emitCoroBeginBuiltinCall(mlir::Location loc, if (!builtin) { fnOp = cgm.createCIRBuiltinFunction( loc, cgm.builtinCoroBegin, - cir::FuncType::get({UInt32Ty, VoidPtrTy}, VoidPtrTy), + cir::FuncType::get({uInt32Ty, voidPtrTy}, voidPtrTy), /*fd=*/nullptr); assert(fnOp && "should always succeed"); } else { @@ -110,7 +110,7 @@ CIRGenFunction::emitCoroBeginBuiltinCall(mlir::Location loc, mlir::LogicalResult CIRGenFunction::emitCoroutineBody(const CoroutineBodyStmt &s) { mlir::Location openCurlyLoc = getLoc(s.getBeginLoc()); - cir::ConstantOp nullPtrCst = builder.getNullPtr(VoidPtrTy, openCurlyLoc); + cir::ConstantOp nullPtrCst = builder.getNullPtr(voidPtrTy, openCurlyLoc); auto fn = mlir::cast<cir::FuncOp>(curFn); fn.setCoroutine(true); diff --git a/clang/lib/CIR/CodeGen/CIRGenDecl.cpp b/clang/lib/CIR/CodeGen/CIRGenDecl.cpp index 5667273..aeea0ef 100644 --- a/clang/lib/CIR/CodeGen/CIRGenDecl.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenDecl.cpp @@ -80,13 +80,13 @@ CIRGenFunction::emitAutoVarAlloca(const VarDecl &d, assert(!cir::MissingFeatures::openMP()); if (!didCallStackSave) { // Save the stack. - cir::PointerType defaultTy = AllocaInt8PtrTy; + cir::PointerType defaultTy = allocaInt8PtrTy; CharUnits align = CharUnits::fromQuantity( cgm.getDataLayout().getAlignment(defaultTy, false)); Address stack = createTempAlloca(defaultTy, align, loc, "saved_stack"); mlir::Value v = builder.createStackSave(loc, defaultTy); - assert(v.getType() == AllocaInt8PtrTy); + assert(v.getType() == allocaInt8PtrTy); builder.createStore(loc, v, stack); didCallStackSave = true; diff --git a/clang/lib/CIR/CodeGen/CIRGenExpr.cpp b/clang/lib/CIR/CodeGen/CIRGenExpr.cpp index df6ee56..5ccb431 100644 --- a/clang/lib/CIR/CodeGen/CIRGenExpr.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenExpr.cpp @@ -2529,7 +2529,7 @@ CIRGenFunction::emitConditionalBlocks(const AbstractConditionalOperator *e, // If both arms are void, so be it. if (!yieldTy) - yieldTy = VoidTy; + yieldTy = voidTy; // Insert required yields. for (mlir::OpBuilder::InsertPoint &toInsert : insertPoints) { diff --git a/clang/lib/CIR/CodeGen/CIRGenExprAggregate.cpp b/clang/lib/CIR/CodeGen/CIRGenExprAggregate.cpp index 8fe0d9b4..3d3030c 100644 --- a/clang/lib/CIR/CodeGen/CIRGenExprAggregate.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenExprAggregate.cpp @@ -490,7 +490,7 @@ void AggExprEmitter::emitArrayInit(Address destPtr, cir::ArrayType arrayTy, for (uint64_t i = 0; i != numInitElements; ++i) { // Advance to the next element. if (i > 0) { - one = builder.getConstantInt(loc, cgf.PtrDiffTy, i); + one = builder.getConstantInt(loc, cgf.ptrDiffTy, i); element = builder.createPtrStride(loc, begin, one); } @@ -512,7 +512,7 @@ void AggExprEmitter::emitArrayInit(Address destPtr, cir::ArrayType arrayTy, cgf.getTypes().isZeroInitializable(elementType))) { // Advance to the start of the rest of the array. if (numInitElements) { - one = builder.getConstantInt(loc, cgf.PtrDiffTy, 1); + one = builder.getConstantInt(loc, cgf.ptrDiffTy, 1); element = cir::PtrStrideOp::create(builder, loc, cirElementPtrType, element, one); } @@ -526,7 +526,7 @@ void AggExprEmitter::emitArrayInit(Address destPtr, cir::ArrayType arrayTy, // Compute the end of array cir::ConstantOp numArrayElementsConst = builder.getConstInt( - loc, mlir::cast<cir::IntType>(cgf.PtrDiffTy), numArrayElements); + loc, mlir::cast<cir::IntType>(cgf.ptrDiffTy), numArrayElements); mlir::Value end = cir::PtrStrideOp::create(builder, loc, cirElementPtrType, begin, numArrayElementsConst); @@ -563,7 +563,7 @@ void AggExprEmitter::emitArrayInit(Address destPtr, cir::ArrayType arrayTy, // Advance pointer and store them to temporary variable cir::ConstantOp one = builder.getConstInt( - loc, mlir::cast<cir::IntType>(cgf.PtrDiffTy), 1); + loc, mlir::cast<cir::IntType>(cgf.ptrDiffTy), 1); auto nextElement = cir::PtrStrideOp::create( builder, loc, cirElementPtrType, currentElement, one); cgf.emitStoreThroughLValue(RValue::get(nextElement), tmpLV); diff --git a/clang/lib/CIR/CodeGen/CIRGenExprCXX.cpp b/clang/lib/CIR/CodeGen/CIRGenExprCXX.cpp index 7a35382..9dd9b6d 100644 --- a/clang/lib/CIR/CodeGen/CIRGenExprCXX.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenExprCXX.cpp @@ -257,12 +257,12 @@ static mlir::Value emitCXXNewAllocSize(CIRGenFunction &cgf, const CXXNewExpr *e, if (!e->isArray()) { CharUnits typeSize = cgf.getContext().getTypeSizeInChars(type); sizeWithoutCookie = cgf.getBuilder().getConstant( - loc, cir::IntAttr::get(cgf.SizeTy, typeSize.getQuantity())); + loc, cir::IntAttr::get(cgf.sizeTy, typeSize.getQuantity())); return sizeWithoutCookie; } // The width of size_t. - unsigned sizeWidth = cgf.cgm.getDataLayout().getTypeSizeInBits(cgf.SizeTy); + unsigned sizeWidth = cgf.cgm.getDataLayout().getTypeSizeInBits(cgf.sizeTy); // The number of elements can be have an arbitrary integer type; // essentially, we need to multiply it by a constant factor, add a diff --git a/clang/lib/CIR/CodeGen/CIRGenExprConstant.cpp b/clang/lib/CIR/CodeGen/CIRGenExprConstant.cpp index 928e5aa..6af87a0 100644 --- a/clang/lib/CIR/CodeGen/CIRGenExprConstant.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenExprConstant.cpp @@ -46,7 +46,7 @@ namespace { class ConstExprEmitter; static mlir::TypedAttr computePadding(CIRGenModule &cgm, CharUnits size) { - mlir::Type eltTy = cgm.UCharTy; + mlir::Type eltTy = cgm.uCharTy; clang::CharUnits::QuantityType arSize = size.getQuantity(); CIRGenBuilderTy &bld = cgm.getBuilder(); if (size > CharUnits::One()) { diff --git a/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp b/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp index db6878d..119314f 100644 --- a/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp @@ -762,9 +762,9 @@ public: // FIXME(cir): For now lets pretend we shouldn't use the conversion // intrinsics and insert a cast here unconditionally. src = builder.createCast(cgf.getLoc(loc), cir::CastKind::floating, src, - cgf.FloatTy); + cgf.floatTy); srcType = cgf.getContext().FloatTy; - mlirSrcType = cgf.FloatTy; + mlirSrcType = cgf.floatTy; } } @@ -1738,7 +1738,7 @@ mlir::Value ScalarExprEmitter::emitSub(const BinOpInfo &ops) { // // See more in `EmitSub` in CGExprScalar.cpp. assert(!cir::MissingFeatures::llvmLoweringPtrDiffConsidersPointee()); - return cir::PtrDiffOp::create(builder, cgf.getLoc(ops.loc), cgf.PtrDiffTy, + return cir::PtrDiffOp::create(builder, cgf.getLoc(ops.loc), cgf.ptrDiffTy, ops.lhs, ops.rhs); } @@ -2220,7 +2220,7 @@ mlir::Value ScalarExprEmitter::VisitUnaryExprOrTypeTraitExpr( "sizeof operator for VariableArrayType", e->getStmtClassName()); return builder.getConstant( - loc, cir::IntAttr::get(cgf.cgm.UInt64Ty, + loc, cir::IntAttr::get(cgf.cgm.uInt64Ty, llvm::APSInt(llvm::APInt(64, 1), true))); } } else if (e->getKind() == UETT_OpenMPRequiredSimdAlign) { @@ -2228,12 +2228,12 @@ mlir::Value ScalarExprEmitter::VisitUnaryExprOrTypeTraitExpr( e->getSourceRange(), "sizeof operator for OpenMpRequiredSimdAlign", e->getStmtClassName()); return builder.getConstant( - loc, cir::IntAttr::get(cgf.cgm.UInt64Ty, + loc, cir::IntAttr::get(cgf.cgm.uInt64Ty, llvm::APSInt(llvm::APInt(64, 1), true))); } return builder.getConstant( - loc, cir::IntAttr::get(cgf.cgm.UInt64Ty, + loc, cir::IntAttr::get(cgf.cgm.uInt64Ty, e->EvaluateKnownConstInt(cgf.getContext()))); } @@ -2329,14 +2329,14 @@ mlir::Value ScalarExprEmitter::VisitAbstractConditionalOperator( mlir::Value lhs = Visit(lhsExpr); if (!lhs) { - lhs = builder.getNullValue(cgf.VoidTy, loc); + lhs = builder.getNullValue(cgf.voidTy, loc); lhsIsVoid = true; } mlir::Value rhs = Visit(rhsExpr); if (lhsIsVoid) { assert(!rhs && "lhs and rhs types must match"); - rhs = builder.getNullValue(cgf.VoidTy, loc); + rhs = builder.getNullValue(cgf.voidTy, loc); } return builder.createSelect(loc, condV, lhs, rhs); @@ -2381,7 +2381,7 @@ mlir::Value ScalarExprEmitter::VisitAbstractConditionalOperator( if (!insertPoints.empty()) { // If both arms are void, so be it. if (!yieldTy) - yieldTy = cgf.VoidTy; + yieldTy = cgf.voidTy; // Insert required yields. for (mlir::OpBuilder::InsertPoint &toInsert : insertPoints) { diff --git a/clang/lib/CIR/CodeGen/CIRGenFunction.cpp b/clang/lib/CIR/CodeGen/CIRGenFunction.cpp index 58feb36..71ff20a 100644 --- a/clang/lib/CIR/CodeGen/CIRGenFunction.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenFunction.cpp @@ -1008,7 +1008,7 @@ CIRGenFunction::emitArrayLength(const clang::ArrayType *origArrayType, if (isa<VariableArrayType>(arrayType)) { assert(cir::MissingFeatures::vlas()); cgm.errorNYI(*currSrcLoc, "VLAs"); - return builder.getConstInt(*currSrcLoc, SizeTy, 0); + return builder.getConstInt(*currSrcLoc, sizeTy, 0); } uint64_t countFromCLAs = 1; @@ -1037,7 +1037,7 @@ CIRGenFunction::emitArrayLength(const clang::ArrayType *origArrayType, } baseType = eltType; - return builder.getConstInt(*currSrcLoc, SizeTy, countFromCLAs); + return builder.getConstInt(*currSrcLoc, sizeTy, countFromCLAs); } mlir::Value CIRGenFunction::emitAlignmentAssumption( @@ -1074,7 +1074,7 @@ CIRGenFunction::getVLASize(const VariableArrayType *type) { elementType = type->getElementType(); mlir::Value vlaSize = vlaSizeMap[type->getSizeExpr()]; assert(vlaSize && "no size for VLA!"); - assert(vlaSize.getType() == SizeTy); + assert(vlaSize.getType() == sizeTy); if (!numElements) { numElements = vlaSize; @@ -1188,7 +1188,7 @@ void CIRGenFunction::emitVariablyModifiedType(QualType type) { // Always zexting here would be wrong if it weren't // undefined behavior to have a negative bound. // FIXME: What about when size's type is larger than size_t? - entry = builder.createIntCast(size, SizeTy); + entry = builder.createIntCast(size, sizeTy); } } type = vat->getElementType(); diff --git a/clang/lib/CIR/CodeGen/CIRGenItaniumCXXABI.cpp b/clang/lib/CIR/CodeGen/CIRGenItaniumCXXABI.cpp index 88fedf1..f603f5ec 100644 --- a/clang/lib/CIR/CodeGen/CIRGenItaniumCXXABI.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenItaniumCXXABI.cpp @@ -1846,13 +1846,13 @@ mlir::Value CIRGenItaniumCXXABI::getVirtualBaseClassOffset( const CXXRecordDecl *classDecl, const CXXRecordDecl *baseClassDecl) { CIRGenBuilderTy &builder = cgf.getBuilder(); mlir::Value vtablePtr = cgf.getVTablePtr(loc, thisAddr, classDecl); - mlir::Value vtableBytePtr = builder.createBitcast(vtablePtr, cgm.UInt8PtrTy); + mlir::Value vtableBytePtr = builder.createBitcast(vtablePtr, cgm.uInt8PtrTy); CharUnits vbaseOffsetOffset = cgm.getItaniumVTableContext().getVirtualBaseOffsetOffset(classDecl, baseClassDecl); mlir::Value offsetVal = builder.getSInt64(vbaseOffsetOffset.getQuantity(), loc); - auto vbaseOffsetPtr = cir::PtrStrideOp::create(builder, loc, cgm.UInt8PtrTy, + auto vbaseOffsetPtr = cir::PtrStrideOp::create(builder, loc, cgm.uInt8PtrTy, vtableBytePtr, offsetVal); mlir::Value vbaseOffset; @@ -1861,9 +1861,9 @@ mlir::Value CIRGenItaniumCXXABI::getVirtualBaseClassOffset( cgm.errorNYI(loc, "getVirtualBaseClassOffset: relative layout"); } else { mlir::Value offsetPtr = builder.createBitcast( - vbaseOffsetPtr, builder.getPointerTo(cgm.PtrDiffTy)); + vbaseOffsetPtr, builder.getPointerTo(cgm.ptrDiffTy)); vbaseOffset = builder.createLoad( - loc, Address(offsetPtr, cgm.PtrDiffTy, cgf.getPointerAlign())); + loc, Address(offsetPtr, cgm.ptrDiffTy, cgf.getPointerAlign())); } return vbaseOffset; } @@ -2244,7 +2244,7 @@ Address CIRGenItaniumCXXABI::initializeArrayCookie(CIRGenFunction &cgf, // Write the number of elements into the appropriate slot. Address numElementsPtr = - cookiePtr.withElementType(cgf.getBuilder(), cgf.SizeTy); + cookiePtr.withElementType(cgf.getBuilder(), cgf.sizeTy); cgf.getBuilder().createStore(loc, numElements, numElementsPtr); // Finally, compute a pointer to the actual data buffer by skipping diff --git a/clang/lib/CIR/CodeGen/CIRGenModule.cpp b/clang/lib/CIR/CodeGen/CIRGenModule.cpp index 46adfe2..9f9b2db 100644 --- a/clang/lib/CIR/CodeGen/CIRGenModule.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenModule.cpp @@ -67,28 +67,28 @@ CIRGenModule::CIRGenModule(mlir::MLIRContext &mlirContext, abi(createCXXABI(*this)), genTypes(*this), vtables(*this) { // Initialize cached types - VoidTy = cir::VoidType::get(&getMLIRContext()); - VoidPtrTy = cir::PointerType::get(VoidTy); - SInt8Ty = cir::IntType::get(&getMLIRContext(), 8, /*isSigned=*/true); - SInt16Ty = cir::IntType::get(&getMLIRContext(), 16, /*isSigned=*/true); - SInt32Ty = cir::IntType::get(&getMLIRContext(), 32, /*isSigned=*/true); - SInt64Ty = cir::IntType::get(&getMLIRContext(), 64, /*isSigned=*/true); - SInt128Ty = cir::IntType::get(&getMLIRContext(), 128, /*isSigned=*/true); - UInt8Ty = cir::IntType::get(&getMLIRContext(), 8, /*isSigned=*/false); - UInt8PtrTy = cir::PointerType::get(UInt8Ty); + voidTy = cir::VoidType::get(&getMLIRContext()); + voidPtrTy = cir::PointerType::get(voidTy); + sInt8Ty = cir::IntType::get(&getMLIRContext(), 8, /*isSigned=*/true); + sInt16Ty = cir::IntType::get(&getMLIRContext(), 16, /*isSigned=*/true); + sInt32Ty = cir::IntType::get(&getMLIRContext(), 32, /*isSigned=*/true); + sInt64Ty = cir::IntType::get(&getMLIRContext(), 64, /*isSigned=*/true); + sInt128Ty = cir::IntType::get(&getMLIRContext(), 128, /*isSigned=*/true); + uInt8Ty = cir::IntType::get(&getMLIRContext(), 8, /*isSigned=*/false); + uInt8PtrTy = cir::PointerType::get(uInt8Ty); cirAllocaAddressSpace = getTargetCIRGenInfo().getCIRAllocaAddressSpace(); - UInt16Ty = cir::IntType::get(&getMLIRContext(), 16, /*isSigned=*/false); - UInt32Ty = cir::IntType::get(&getMLIRContext(), 32, /*isSigned=*/false); - UInt64Ty = cir::IntType::get(&getMLIRContext(), 64, /*isSigned=*/false); - UInt128Ty = cir::IntType::get(&getMLIRContext(), 128, /*isSigned=*/false); - FP16Ty = cir::FP16Type::get(&getMLIRContext()); - BFloat16Ty = cir::BF16Type::get(&getMLIRContext()); - FloatTy = cir::SingleType::get(&getMLIRContext()); - DoubleTy = cir::DoubleType::get(&getMLIRContext()); - FP80Ty = cir::FP80Type::get(&getMLIRContext()); - FP128Ty = cir::FP128Type::get(&getMLIRContext()); - - AllocaInt8PtrTy = cir::PointerType::get(UInt8Ty, cirAllocaAddressSpace); + uInt16Ty = cir::IntType::get(&getMLIRContext(), 16, /*isSigned=*/false); + uInt32Ty = cir::IntType::get(&getMLIRContext(), 32, /*isSigned=*/false); + uInt64Ty = cir::IntType::get(&getMLIRContext(), 64, /*isSigned=*/false); + uInt128Ty = cir::IntType::get(&getMLIRContext(), 128, /*isSigned=*/false); + fP16Ty = cir::FP16Type::get(&getMLIRContext()); + bFloat16Ty = cir::BF16Type::get(&getMLIRContext()); + floatTy = cir::SingleType::get(&getMLIRContext()); + doubleTy = cir::DoubleType::get(&getMLIRContext()); + fP80Ty = cir::FP80Type::get(&getMLIRContext()); + fP128Ty = cir::FP128Type::get(&getMLIRContext()); + + allocaInt8PtrTy = cir::PointerType::get(uInt8Ty, cirAllocaAddressSpace); PointerAlignInBytes = astContext @@ -97,16 +97,16 @@ CIRGenModule::CIRGenModule(mlir::MLIRContext &mlirContext, .getQuantity(); const unsigned charSize = astContext.getTargetInfo().getCharWidth(); - UCharTy = cir::IntType::get(&getMLIRContext(), charSize, /*isSigned=*/false); + uCharTy = cir::IntType::get(&getMLIRContext(), charSize, /*isSigned=*/false); // TODO(CIR): Should be updated once TypeSizeInfoAttr is upstreamed const unsigned sizeTypeSize = astContext.getTypeSize(astContext.getSignedSizeType()); SizeSizeInBytes = astContext.toCharUnitsFromBits(sizeTypeSize).getQuantity(); // In CIRGenTypeCache, UIntPtrTy and SizeType are fields of the same union - UIntPtrTy = + uIntPtrTy = cir::IntType::get(&getMLIRContext(), sizeTypeSize, /*isSigned=*/false); - PtrDiffTy = + ptrDiffTy = cir::IntType::get(&getMLIRContext(), sizeTypeSize, /*isSigned=*/true); std::optional<cir::SourceLanguage> sourceLanguage = getCIRSourceLanguage(); diff --git a/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp b/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp index be063033..890f8a6 100644 --- a/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenOpenACCRecipe.cpp @@ -617,11 +617,11 @@ void OpenACCRecipeBuilderBase::createReductionRecipeCombiner( 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 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); + 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())); @@ -633,7 +633,7 @@ void OpenACCRecipeBuilderBase::createReductionRecipeCombiner( [&](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()); + loc, mlir::cast<cir::IntType>(cgf.ptrDiffTy), cat->getZExtSize()); auto cmp = builder.createCompare(loc, cir::CmpOpKind::lt, loadItr, arraySize); builder.createCondition(cmp); diff --git a/clang/lib/CIR/CodeGen/CIRGenTypeCache.h b/clang/lib/CIR/CodeGen/CIRGenTypeCache.h index ff5842c..0f63e91 100644 --- a/clang/lib/CIR/CodeGen/CIRGenTypeCache.h +++ b/clang/lib/CIR/CodeGen/CIRGenTypeCache.h @@ -26,47 +26,47 @@ struct CIRGenTypeCache { CIRGenTypeCache() {} // ClangIR void type - cir::VoidType VoidTy; + cir::VoidType voidTy; // ClangIR signed integral types of common sizes - cir::IntType SInt8Ty; - cir::IntType SInt16Ty; - cir::IntType SInt32Ty; - cir::IntType SInt64Ty; - cir::IntType SInt128Ty; + cir::IntType sInt8Ty; + cir::IntType sInt16Ty; + cir::IntType sInt32Ty; + cir::IntType sInt64Ty; + cir::IntType sInt128Ty; // ClangIR unsigned integral type of common sizes - cir::IntType UInt8Ty; - cir::IntType UInt16Ty; - cir::IntType UInt32Ty; - cir::IntType UInt64Ty; - cir::IntType UInt128Ty; + cir::IntType uInt8Ty; + cir::IntType uInt16Ty; + cir::IntType uInt32Ty; + cir::IntType uInt64Ty; + cir::IntType uInt128Ty; // ClangIR floating-point types with fixed formats - cir::FP16Type FP16Ty; - cir::BF16Type BFloat16Ty; - cir::SingleType FloatTy; - cir::DoubleType DoubleTy; - cir::FP80Type FP80Ty; - cir::FP128Type FP128Ty; + cir::FP16Type fP16Ty; + cir::BF16Type bFloat16Ty; + cir::SingleType floatTy; + cir::DoubleType doubleTy; + cir::FP80Type fP80Ty; + cir::FP128Type fP128Ty; /// ClangIR char - mlir::Type UCharTy; + mlir::Type uCharTy; /// intptr_t, size_t, and ptrdiff_t, which we assume are the same size. union { - mlir::Type UIntPtrTy; - mlir::Type SizeTy; + mlir::Type uIntPtrTy; + mlir::Type sizeTy; }; - mlir::Type PtrDiffTy; + mlir::Type ptrDiffTy; /// void* in address space 0 - cir::PointerType VoidPtrTy; - cir::PointerType UInt8PtrTy; + cir::PointerType voidPtrTy; + cir::PointerType uInt8PtrTy; /// void* in alloca address space - cir::PointerType AllocaInt8PtrTy; + cir::PointerType allocaInt8PtrTy; /// The size and alignment of a pointer into the generic address space. union { diff --git a/clang/lib/CIR/CodeGen/CIRGenTypes.cpp b/clang/lib/CIR/CodeGen/CIRGenTypes.cpp index d1b91d0..03618d4 100644 --- a/clang/lib/CIR/CodeGen/CIRGenTypes.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenTypes.cpp @@ -71,7 +71,7 @@ mlir::Type CIRGenTypes::convertFunctionTypeInternal(QualType qft) { if (!isFuncTypeConvertible(ft)) { cgm.errorNYI(SourceLocation(), "function type involving an incomplete type", qft); - return cir::FuncType::get(SmallVector<mlir::Type, 1>{}, cgm.VoidTy); + return cir::FuncType::get(SmallVector<mlir::Type, 1>{}, cgm.voidTy); } const CIRGenFunctionInfo *fi; @@ -298,7 +298,7 @@ mlir::Type CIRGenTypes::convertType(QualType type) { switch (cast<BuiltinType>(ty)->getKind()) { // void case BuiltinType::Void: - resultType = cgm.VoidTy; + resultType = cgm.voidTy; break; // bool @@ -338,42 +338,42 @@ mlir::Type CIRGenTypes::convertType(QualType type) { // Floating-point types case BuiltinType::Float16: - resultType = cgm.FP16Ty; + resultType = cgm.fP16Ty; break; case BuiltinType::Half: if (astContext.getLangOpts().NativeHalfType || !astContext.getTargetInfo().useFP16ConversionIntrinsics()) { - resultType = cgm.FP16Ty; + resultType = cgm.fP16Ty; } else { cgm.errorNYI(SourceLocation(), "processing of built-in type", type); - resultType = cgm.SInt32Ty; + resultType = cgm.sInt32Ty; } break; case BuiltinType::BFloat16: - resultType = cgm.BFloat16Ty; + resultType = cgm.bFloat16Ty; break; case BuiltinType::Float: assert(&astContext.getFloatTypeSemantics(type) == &llvm::APFloat::IEEEsingle() && "ClangIR NYI: 'float' in a format other than IEEE 32-bit"); - resultType = cgm.FloatTy; + resultType = cgm.floatTy; break; case BuiltinType::Double: assert(&astContext.getFloatTypeSemantics(type) == &llvm::APFloat::IEEEdouble() && "ClangIR NYI: 'double' in a format other than IEEE 64-bit"); - resultType = cgm.DoubleTy; + resultType = cgm.doubleTy; break; case BuiltinType::LongDouble: resultType = builder.getLongDoubleTy(astContext.getFloatTypeSemantics(type)); break; case BuiltinType::Float128: - resultType = cgm.FP128Ty; + resultType = cgm.fP128Ty; break; case BuiltinType::Ibm128: cgm.errorNYI(SourceLocation(), "processing of built-in type", type); - resultType = cgm.SInt32Ty; + resultType = cgm.sInt32Ty; break; case BuiltinType::NullPtr: @@ -386,7 +386,7 @@ mlir::Type CIRGenTypes::convertType(QualType type) { default: cgm.errorNYI(SourceLocation(), "processing of built-in type", type); - resultType = cgm.SInt32Ty; + resultType = cgm.sInt32Ty; break; } break; @@ -439,7 +439,7 @@ mlir::Type CIRGenTypes::convertType(QualType type) { // int X[] -> [0 x int], unless the element type is not sized. If it is // unsized (e.g. an incomplete record) just use [0 x i8]. if (!cir::isSized(elemTy)) { - elemTy = cgm.SInt8Ty; + elemTy = cgm.sInt8Ty; } resultType = cir::ArrayType::get(elemTy, 0); @@ -454,7 +454,7 @@ mlir::Type CIRGenTypes::convertType(QualType type) { // i8 just to have a concrete type" if (!cir::isSized(elemTy)) { cgm.errorNYI(SourceLocation(), "arrays of undefined struct type", type); - resultType = cgm.UInt32Ty; + resultType = cgm.uInt32Ty; break; } @@ -477,7 +477,7 @@ mlir::Type CIRGenTypes::convertType(QualType type) { // Return a placeholder 'i32' type. This can be changed later when the // type is defined (see UpdateCompletedType), but is likely to be the // "right" answer. - resultType = cgm.UInt32Ty; + resultType = cgm.uInt32Ty; break; } @@ -490,7 +490,7 @@ mlir::Type CIRGenTypes::convertType(QualType type) { const auto *bitIntTy = cast<BitIntType>(type); if (bitIntTy->getNumBits() > cir::IntType::maxBitwidth()) { cgm.errorNYI(SourceLocation(), "large _BitInt type", type); - resultType = cgm.SInt32Ty; + resultType = cgm.sInt32Ty; } else { resultType = cir::IntType::get(&getMLIRContext(), bitIntTy->getNumBits(), bitIntTy->isSigned()); @@ -515,7 +515,7 @@ mlir::Type CIRGenTypes::convertType(QualType type) { default: cgm.errorNYI(SourceLocation(), "processing of type", type->getTypeClassName()); - resultType = cgm.SInt32Ty; + resultType = cgm.sInt32Ty; break; } |