From 7abb2167def4dfceeb96c4b231a94fd8308c6e08 Mon Sep 17 00:00:00 2001 From: Adam Smith Date: Wed, 5 Nov 2025 13:04:40 -0800 Subject: [PATCH 01/21] [CIR] Upstream overflow builtins This implements the builtins that handle overflow. --- .../CIR/Dialect/Builder/CIRBaseBuilder.h | 14 + clang/include/clang/CIR/Dialect/IR/CIROps.td | 76 ++++ clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 194 ++++++++++ .../CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 112 ++++++ clang/test/CIR/CodeGen/builtins-overflow.cpp | 364 ++++++++++++++++++ 5 files changed, 760 insertions(+) create mode 100644 clang/test/CIR/CodeGen/builtins-overflow.cpp diff --git a/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h b/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h index 3288f5b12c77e..6c1951714ba1f 100644 --- a/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h +++ b/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h @@ -408,6 +408,20 @@ class CIRBaseBuilderTy : public mlir::OpBuilder { callee.getFunctionType().getReturnType(), operands); } + struct BinOpOverflowResults { + mlir::Value result; + mlir::Value overflow; + }; + + BinOpOverflowResults createBinOpOverflowOp(mlir::Location loc, + cir::IntType resultTy, + cir::BinOpOverflowKind kind, + mlir::Value lhs, mlir::Value rhs) { + auto op = + cir::BinOpOverflowOp::create(*this, loc, resultTy, kind, lhs, rhs); + return {op.getResult(), op.getOverflow()}; + } + //===--------------------------------------------------------------------===// // Cast/Conversion Operators //===--------------------------------------------------------------------===// diff --git a/clang/include/clang/CIR/Dialect/IR/CIROps.td b/clang/include/clang/CIR/Dialect/IR/CIROps.td index dc56db1bbd4ea..328880d6f3581 100644 --- a/clang/include/clang/CIR/Dialect/IR/CIROps.td +++ b/clang/include/clang/CIR/Dialect/IR/CIROps.td @@ -1628,6 +1628,82 @@ def CIR_CmpOp : CIR_Op<"cmp", [Pure, SameTypeOperands]> { let isLLVMLoweringRecursive = true; } +//===----------------------------------------------------------------------===// +// BinOpOverflowOp +//===----------------------------------------------------------------------===// + +def CIR_BinOpOverflowKind : CIR_I32EnumAttr< + "BinOpOverflowKind", "checked binary arithmetic operation kind", [ + I32EnumAttrCase<"Add", 0, "add">, + I32EnumAttrCase<"Sub", 1, "sub">, + I32EnumAttrCase<"Mul", 2, "mul"> +]>; + +def CIR_BinOpOverflowOp : CIR_Op<"binop.overflow", [Pure, SameTypeOperands]> { + let summary = "Perform binary integral arithmetic with overflow checking"; + let description = [{ + `cir.binop.overflow` performs binary arithmetic operations with overflow + checking on integral operands. + + The `kind` argument specifies the kind of arithmetic operation to perform. + It can be either `add`, `sub`, or `mul`. The `lhs` and `rhs` arguments + specify the input operands of the arithmetic operation. The types of `lhs` + and `rhs` must be the same. + + `cir.binop.overflow` produces two SSA values. `result` is the result of the + arithmetic operation truncated to its specified type. `overflow` is a + boolean value indicating whether overflow happens during the operation. + + The exact semantic of this operation is as follows: + + - `lhs` and `rhs` are promoted to an imaginary integral type that has + infinite precision. + - The arithmetic operation is performed on the promoted operands. + - The infinite-precision result is truncated to the type of `result`. The + truncated result is assigned to `result`. + - If the truncated result is equal to the un-truncated result, `overflow` + is assigned to false. Otherwise, `overflow` is assigned to true. + }]; + + let arguments = (ins + CIR_BinOpOverflowKind:$kind, + CIR_IntType:$lhs, + CIR_IntType:$rhs + ); + + let results = (outs CIR_IntType:$result, CIR_BoolType:$overflow); + + let assemblyFormat = [{ + `(` $kind `,` $lhs `,` $rhs `)` `:` type($lhs) `,` + `(` type($result) `,` type($overflow) `)` + attr-dict + }]; + + let builders = [ + OpBuilder<(ins "cir::IntType":$resultTy, + "cir::BinOpOverflowKind":$kind, + "mlir::Value":$lhs, + "mlir::Value":$rhs), [{ + auto overflowTy = cir::BoolType::get($_builder.getContext()); + build($_builder, $_state, resultTy, overflowTy, kind, lhs, rhs); + }]> + ]; + + let extraLLVMLoweringPatternDecl = [{ + static std::string getLLVMIntrinName(cir::BinOpOverflowKind opKind, + bool isSigned, unsigned width); + + struct EncompassedTypeInfo { + bool sign; + unsigned width; + }; + + static EncompassedTypeInfo computeEncompassedTypeWidth(cir::IntType operandTy, + cir::IntType resultTy); + }]; +} + + //===----------------------------------------------------------------------===// // BinOp //===----------------------------------------------------------------------===// diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index d9b9e3b877b50..19ce15ca5aeeb 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -58,6 +58,52 @@ static RValue emitBuiltinBitOp(CIRGenFunction &cgf, const CallExpr *e, return RValue::get(result); } +namespace { +struct WidthAndSignedness { + unsigned Width; + bool Signed; +}; +} // namespace + +static WidthAndSignedness +getIntegerWidthAndSignedness(const clang::ASTContext &astContext, + const clang::QualType Type) { + assert(Type->isIntegerType() && "Given type is not an integer."); + unsigned Width = Type->isBooleanType() ? 1 + : Type->isBitIntType() ? astContext.getIntWidth(Type) + : astContext.getTypeInfo(Type).Width; + bool Signed = Type->isSignedIntegerType(); + return {Width, Signed}; +} + +// Given one or more integer types, this function produces an integer type that +// encompasses them: any value in one of the given types could be expressed in +// the encompassing type. +static struct WidthAndSignedness +EncompassingIntegerType(ArrayRef Types) { + assert(Types.size() > 0 && "Empty list of types."); + + // If any of the given types is signed, we must return a signed type. + bool Signed = false; + for (const auto &Type : Types) { + Signed |= Type.Signed; + } + + // The encompassing type must have a width greater than or equal to the width + // of the specified types. Additionally, if the encompassing type is signed, + // its width must be strictly greater than the width of any unsigned types + // given. + unsigned Width = 0; + for (const auto &Type : Types) { + unsigned MinWidth = Type.Width + (Signed && !Type.Signed); + if (Width < MinWidth) { + Width = MinWidth; + } + } + + return {Width, Signed}; +} + RValue CIRGenFunction::emitRotate(const CallExpr *e, bool isRotateLeft) { mlir::Value input = emitScalarExpr(e->getArg(0)); mlir::Value amount = emitScalarExpr(e->getArg(1)); @@ -491,6 +537,154 @@ RValue CIRGenFunction::emitBuiltinExpr(const GlobalDecl &gd, unsigned builtinID, cir::PrefetchOp::create(builder, loc, address, locality, isWrite); return RValue::get(nullptr); } + case Builtin::BI__builtin_add_overflow: + case Builtin::BI__builtin_sub_overflow: + case Builtin::BI__builtin_mul_overflow: { + const clang::Expr *LeftArg = e->getArg(0); + const clang::Expr *RightArg = e->getArg(1); + const clang::Expr *ResultArg = e->getArg(2); + + clang::QualType ResultQTy = + ResultArg->getType()->castAs()->getPointeeType(); + + WidthAndSignedness LeftInfo = + getIntegerWidthAndSignedness(cgm.getASTContext(), LeftArg->getType()); + WidthAndSignedness RightInfo = + getIntegerWidthAndSignedness(cgm.getASTContext(), RightArg->getType()); + WidthAndSignedness ResultInfo = + getIntegerWidthAndSignedness(cgm.getASTContext(), ResultQTy); + + // Note we compute the encompassing type with the consideration to the + // result type, so later in LLVM lowering we don't get redundant integral + // extension casts. + WidthAndSignedness EncompassingInfo = + EncompassingIntegerType({LeftInfo, RightInfo, ResultInfo}); + + auto EncompassingCIRTy = cir::IntType::get( + &getMLIRContext(), EncompassingInfo.Width, EncompassingInfo.Signed); + auto ResultCIRTy = mlir::cast(cgm.convertType(ResultQTy)); + + mlir::Value Left = emitScalarExpr(LeftArg); + mlir::Value Right = emitScalarExpr(RightArg); + Address ResultPtr = emitPointerWithAlignment(ResultArg); + + // Extend each operand to the encompassing type, if necessary. + if (Left.getType() != EncompassingCIRTy) + Left = + builder.createCast(cir::CastKind::integral, Left, EncompassingCIRTy); + if (Right.getType() != EncompassingCIRTy) + Right = + builder.createCast(cir::CastKind::integral, Right, EncompassingCIRTy); + + // Perform the operation on the extended values. + cir::BinOpOverflowKind OpKind; + switch (builtinID) { + default: + llvm_unreachable("Unknown overflow builtin id."); + case Builtin::BI__builtin_add_overflow: + OpKind = cir::BinOpOverflowKind::Add; + break; + case Builtin::BI__builtin_sub_overflow: + OpKind = cir::BinOpOverflowKind::Sub; + break; + case Builtin::BI__builtin_mul_overflow: + OpKind = cir::BinOpOverflowKind::Mul; + break; + } + + auto Loc = getLoc(e->getSourceRange()); + auto ArithResult = + builder.createBinOpOverflowOp(Loc, ResultCIRTy, OpKind, Left, Right); + + // Here is a slight difference from the original clang CodeGen: + // - In the original clang CodeGen, the checked arithmetic result is + // first computed as a value of the encompassing type, and then it is + // truncated to the actual result type with a second overflow checking. + // - In CIRGen, the checked arithmetic operation directly produce the + // checked arithmetic result in its expected type. + // + // So we don't need a truncation and a second overflow checking here. + + // Finally, store the result using the pointer. + bool isVolatile = + ResultArg->getType()->getPointeeType().isVolatileQualified(); + builder.createStore(Loc, emitToMemory(ArithResult.result, ResultQTy), + ResultPtr, isVolatile); + + return RValue::get(ArithResult.overflow); + } + + case Builtin::BI__builtin_uadd_overflow: + case Builtin::BI__builtin_uaddl_overflow: + case Builtin::BI__builtin_uaddll_overflow: + case Builtin::BI__builtin_usub_overflow: + case Builtin::BI__builtin_usubl_overflow: + case Builtin::BI__builtin_usubll_overflow: + case Builtin::BI__builtin_umul_overflow: + case Builtin::BI__builtin_umull_overflow: + case Builtin::BI__builtin_umulll_overflow: + case Builtin::BI__builtin_sadd_overflow: + case Builtin::BI__builtin_saddl_overflow: + case Builtin::BI__builtin_saddll_overflow: + case Builtin::BI__builtin_ssub_overflow: + case Builtin::BI__builtin_ssubl_overflow: + case Builtin::BI__builtin_ssubll_overflow: + case Builtin::BI__builtin_smul_overflow: + case Builtin::BI__builtin_smull_overflow: + case Builtin::BI__builtin_smulll_overflow: { + // Scalarize our inputs. + mlir::Value X = emitScalarExpr(e->getArg(0)); + mlir::Value Y = emitScalarExpr(e->getArg(1)); + + const clang::Expr *ResultArg = e->getArg(2); + Address ResultPtr = emitPointerWithAlignment(ResultArg); + + // Decide which of the arithmetic operation we are lowering to: + cir::BinOpOverflowKind ArithKind; + switch (builtinID) { + default: + llvm_unreachable("Unknown overflow builtin id."); + case Builtin::BI__builtin_uadd_overflow: + case Builtin::BI__builtin_uaddl_overflow: + case Builtin::BI__builtin_uaddll_overflow: + case Builtin::BI__builtin_sadd_overflow: + case Builtin::BI__builtin_saddl_overflow: + case Builtin::BI__builtin_saddll_overflow: + ArithKind = cir::BinOpOverflowKind::Add; + break; + case Builtin::BI__builtin_usub_overflow: + case Builtin::BI__builtin_usubl_overflow: + case Builtin::BI__builtin_usubll_overflow: + case Builtin::BI__builtin_ssub_overflow: + case Builtin::BI__builtin_ssubl_overflow: + case Builtin::BI__builtin_ssubll_overflow: + ArithKind = cir::BinOpOverflowKind::Sub; + break; + case Builtin::BI__builtin_umul_overflow: + case Builtin::BI__builtin_umull_overflow: + case Builtin::BI__builtin_umulll_overflow: + case Builtin::BI__builtin_smul_overflow: + case Builtin::BI__builtin_smull_overflow: + case Builtin::BI__builtin_smulll_overflow: + ArithKind = cir::BinOpOverflowKind::Mul; + break; + } + + clang::QualType ResultQTy = + ResultArg->getType()->castAs()->getPointeeType(); + auto ResultCIRTy = mlir::cast(cgm.convertType(ResultQTy)); + + auto Loc = getLoc(e->getSourceRange()); + auto ArithResult = + builder.createBinOpOverflowOp(Loc, ResultCIRTy, ArithKind, X, Y); + + bool isVolatile = + ResultArg->getType()->getPointeeType().isVolatileQualified(); + builder.createStore(Loc, emitToMemory(ArithResult.result, ResultQTy), + ResultPtr, isVolatile); + + return RValue::get(ArithResult.overflow); + } } // If this is an alias for a lib function (e.g. __builtin_sin), emit diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index d94108294a9a3..c81f7cc657137 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2503,6 +2503,118 @@ mlir::LogicalResult CIRToLLVMCmpOpLowering::matchAndRewrite( return cmpOp.emitError() << "unsupported type for CmpOp: " << type; } +mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( + cir::BinOpOverflowOp op, OpAdaptor adaptor, + mlir::ConversionPatternRewriter &rewriter) const { + auto loc = op.getLoc(); + auto arithKind = op.getKind(); + auto operandTy = op.getLhs().getType(); + auto resultTy = op.getResult().getType(); + + auto encompassedTyInfo = computeEncompassedTypeWidth(operandTy, resultTy); + auto encompassedLLVMTy = rewriter.getIntegerType(encompassedTyInfo.width); + + auto lhs = adaptor.getLhs(); + auto rhs = adaptor.getRhs(); + if (operandTy.getWidth() < encompassedTyInfo.width) { + if (operandTy.isSigned()) { + lhs = rewriter.create(loc, encompassedLLVMTy, lhs); + rhs = rewriter.create(loc, encompassedLLVMTy, rhs); + } else { + lhs = rewriter.create(loc, encompassedLLVMTy, lhs); + rhs = rewriter.create(loc, encompassedLLVMTy, rhs); + } + } + + auto intrinName = getLLVMIntrinName(arithKind, encompassedTyInfo.sign, + encompassedTyInfo.width); + auto intrinNameAttr = mlir::StringAttr::get(op.getContext(), intrinName); + + auto overflowLLVMTy = rewriter.getI1Type(); + auto intrinRetTy = mlir::LLVM::LLVMStructType::getLiteral( + rewriter.getContext(), {encompassedLLVMTy, overflowLLVMTy}); + + auto callLLVMIntrinOp = rewriter.create( + loc, intrinRetTy, intrinNameAttr, mlir::ValueRange{lhs, rhs}); + auto intrinRet = callLLVMIntrinOp.getResult(0); + + auto result = rewriter + .create(loc, intrinRet, + ArrayRef{0}) + .getResult(); + auto overflow = rewriter + .create(loc, intrinRet, + ArrayRef{1}) + .getResult(); + + if (resultTy.getWidth() < encompassedTyInfo.width) { + auto resultLLVMTy = getTypeConverter()->convertType(resultTy); + auto truncResult = + rewriter.create(loc, resultLLVMTy, result); + + // Extend the truncated result back to the encompassing type to check for + // any overflows during the truncation. + mlir::Value truncResultExt; + if (resultTy.isSigned()) + truncResultExt = rewriter.create( + loc, encompassedLLVMTy, truncResult); + else + truncResultExt = rewriter.create( + loc, encompassedLLVMTy, truncResult); + auto truncOverflow = rewriter.create( + loc, mlir::LLVM::ICmpPredicate::ne, truncResultExt, result); + + result = truncResult; + overflow = rewriter.create(loc, overflow, truncOverflow); + } + + auto boolLLVMTy = getTypeConverter()->convertType(op.getOverflow().getType()); + if (boolLLVMTy != rewriter.getI1Type()) + overflow = rewriter.create(loc, boolLLVMTy, overflow); + + rewriter.replaceOp(op, mlir::ValueRange{result, overflow}); + + return mlir::success(); +} + +std::string CIRToLLVMBinOpOverflowOpLowering::getLLVMIntrinName( + cir::BinOpOverflowKind opKind, bool isSigned, unsigned width) { + // The intrinsic name is `@llvm.{s|u}{opKind}.with.overflow.i{width}` + + std::string name = "llvm."; + + if (isSigned) + name.push_back('s'); + else + name.push_back('u'); + + switch (opKind) { + case cir::BinOpOverflowKind::Add: + name.append("add."); + break; + case cir::BinOpOverflowKind::Sub: + name.append("sub."); + break; + case cir::BinOpOverflowKind::Mul: + name.append("mul."); + break; + } + + name.append("with.overflow.i"); + name.append(std::to_string(width)); + + return name; +} + +CIRToLLVMBinOpOverflowOpLowering::EncompassedTypeInfo +CIRToLLVMBinOpOverflowOpLowering::computeEncompassedTypeWidth( + cir::IntType operandTy, cir::IntType resultTy) { + auto sign = operandTy.getIsSigned() || resultTy.getIsSigned(); + auto width = std::max(operandTy.getWidth() + (sign && operandTy.isUnsigned()), + resultTy.getWidth() + (sign && resultTy.isUnsigned())); + return {sign, width}; +} + mlir::LogicalResult CIRToLLVMShiftOpLowering::matchAndRewrite( cir::ShiftOp op, OpAdaptor adaptor, mlir::ConversionPatternRewriter &rewriter) const { diff --git a/clang/test/CIR/CodeGen/builtins-overflow.cpp b/clang/test/CIR/CodeGen/builtins-overflow.cpp new file mode 100644 index 0000000000000..8cd227d58686d --- /dev/null +++ b/clang/test/CIR/CodeGen/builtins-overflow.cpp @@ -0,0 +1,364 @@ +// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -fclangir -emit-cir %s -o %t.cir +// RUN: FileCheck %s --check-prefix=CIR --input-file=%t.cir + +bool test_add_overflow_uint_uint_uint(unsigned x, unsigned y, unsigned *res) { + return __builtin_add_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z32test_add_overflow_uint_uint_uintjjPj +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#LHS]], %[[#RHS]]) : !u32i, (!u32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u32i, !cir.ptr +// CIR: } + +bool test_add_overflow_int_int_int(int x, int y, int *res) { + return __builtin_add_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z29test_add_overflow_int_int_intiiPi +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#LHS]], %[[#RHS]]) : !s32i, (!s32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_add_overflow_xint31_xint31_xint31(_BitInt(31) x, _BitInt(31) y, _BitInt(31) *res) { + return __builtin_add_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z38test_add_overflow_xint31_xint31_xint31DB31_S_PS_ +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.int +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.int +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>>, !cir.ptr> +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#LHS]], %[[#RHS]]) : , (, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !cir.int, !cir.ptr> +// CIR: } + +bool test_sub_overflow_uint_uint_uint(unsigned x, unsigned y, unsigned *res) { + return __builtin_sub_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z32test_sub_overflow_uint_uint_uintjjPj +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#LHS]], %[[#RHS]]) : !u32i, (!u32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u32i, !cir.ptr +// CIR: } + +bool test_sub_overflow_int_int_int(int x, int y, int *res) { + return __builtin_sub_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z29test_sub_overflow_int_int_intiiPi +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#LHS]], %[[#RHS]]) : !s32i, (!s32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_sub_overflow_xint31_xint31_xint31(_BitInt(31) x, _BitInt(31) y, _BitInt(31) *res) { + return __builtin_sub_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z38test_sub_overflow_xint31_xint31_xint31DB31_S_PS_ +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.int +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.int +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>>, !cir.ptr> +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#LHS]], %[[#RHS]]) : , (, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !cir.int, !cir.ptr> +// CIR: } + +bool test_mul_overflow_uint_uint_uint(unsigned x, unsigned y, unsigned *res) { + return __builtin_mul_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z32test_mul_overflow_uint_uint_uintjjPj +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#LHS]], %[[#RHS]]) : !u32i, (!u32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u32i, !cir.ptr +// CIR: } + +bool test_mul_overflow_int_int_int(int x, int y, int *res) { + return __builtin_mul_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z29test_mul_overflow_int_int_intiiPi +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#LHS]], %[[#RHS]]) : !s32i, (!s32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_mul_overflow_xint31_xint31_xint31(_BitInt(31) x, _BitInt(31) y, _BitInt(31) *res) { + return __builtin_mul_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z38test_mul_overflow_xint31_xint31_xint31DB31_S_PS_ +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.int +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.int +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>>, !cir.ptr> +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#LHS]], %[[#RHS]]) : , (, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !cir.int, !cir.ptr> +// CIR: } + +bool test_mul_overflow_ulong_ulong_long(unsigned long x, unsigned long y, unsigned long *res) { + return __builtin_mul_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z34test_mul_overflow_ulong_ulong_longmmPm +// CIR: %[[#LHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RHS:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#LHS]], %[[#RHS]]) : !u64i, (!u64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u64i, !cir.ptr +// CIR: } + +bool test_add_overflow_uint_int_int(unsigned x, int y, int *res) { + return __builtin_add_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z30test_add_overflow_uint_int_intjiPi +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[#PROM_X:]] = cir.cast integral %[[#X]] : !u32i -> !cir.int +// CIR-NEXT: %[[#PROM_Y:]] = cir.cast integral %[[#Y]] : !s32i -> !cir.int +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#PROM_X]], %[[#PROM_Y]]) : , (!s32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_add_overflow_volatile(int x, int y, volatile int *res) { + return __builtin_add_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z26test_add_overflow_volatileiiPVi +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#X]], %[[#Y]]) : !s32i, (!s32i, !cir.bool) +// CIR-NEXT: cir.store volatile{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_uadd_overflow(unsigned x, unsigned y, unsigned *res) { + return __builtin_uadd_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z18test_uadd_overflowjjPj +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#X]], %[[#Y]]) : !u32i, (!u32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u32i, !cir.ptr +// CIR: } + +bool test_uaddl_overflow(unsigned long x, unsigned long y, unsigned long *res) { + return __builtin_uaddl_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z19test_uaddl_overflowmmPm +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#X]], %[[#Y]]) : !u64i, (!u64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u64i, !cir.ptr +// CIR: } + +bool test_uaddll_overflow(unsigned long long x, unsigned long long y, unsigned long long *res) { + return __builtin_uaddll_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z20test_uaddll_overflowyyPy +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#X]], %[[#Y]]) : !u64i, (!u64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u64i, !cir.ptr +// CIR: } + +bool test_usub_overflow(unsigned x, unsigned y, unsigned *res) { + return __builtin_usub_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z18test_usub_overflowjjPj +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#X]], %[[#Y]]) : !u32i, (!u32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u32i, !cir.ptr +// CIR: } + +bool test_usubl_overflow(unsigned long x, unsigned long y, unsigned long *res) { + return __builtin_usubl_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z19test_usubl_overflowmmPm +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#X]], %[[#Y]]) : !u64i, (!u64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u64i, !cir.ptr +// CIR: } + +bool test_usubll_overflow(unsigned long long x, unsigned long long y, unsigned long long *res) { + return __builtin_usubll_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z20test_usubll_overflowyyPy +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#X]], %[[#Y]]) : !u64i, (!u64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u64i, !cir.ptr +// CIR: } + +bool test_umul_overflow(unsigned x, unsigned y, unsigned *res) { + return __builtin_umul_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z18test_umul_overflowjjPj +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#X]], %[[#Y]]) : !u32i, (!u32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u32i, !cir.ptr +// CIR: } + +bool test_umull_overflow(unsigned long x, unsigned long y, unsigned long *res) { + return __builtin_umull_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z19test_umull_overflowmmPm +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#X]], %[[#Y]]) : !u64i, (!u64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u64i, !cir.ptr +// CIR: } + +bool test_umulll_overflow(unsigned long long x, unsigned long long y, unsigned long long *res) { + return __builtin_umulll_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z20test_umulll_overflowyyPy +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !u64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#X]], %[[#Y]]) : !u64i, (!u64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !u64i, !cir.ptr +// CIR: } + +bool test_sadd_overflow(int x, int y, int *res) { + return __builtin_sadd_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z18test_sadd_overflowiiPi +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#X]], %[[#Y]]) : !s32i, (!s32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_saddl_overflow(long x, long y, long *res) { + return __builtin_saddl_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z19test_saddl_overflowllPl +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#X]], %[[#Y]]) : !s64i, (!s64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s64i, !cir.ptr +// CIR: } + +bool test_saddll_overflow(long long x, long long y, long long *res) { + return __builtin_saddll_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z20test_saddll_overflowxxPx +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(add, %[[#X]], %[[#Y]]) : !s64i, (!s64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s64i, !cir.ptr +// CIR: } + +bool test_ssub_overflow(int x, int y, int *res) { + return __builtin_ssub_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z18test_ssub_overflowiiPi +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#X]], %[[#Y]]) : !s32i, (!s32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_ssubl_overflow(long x, long y, long *res) { + return __builtin_ssubl_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z19test_ssubl_overflowllPl +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#X]], %[[#Y]]) : !s64i, (!s64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s64i, !cir.ptr +// CIR: } + +bool test_ssubll_overflow(long long x, long long y, long long *res) { + return __builtin_ssubll_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z20test_ssubll_overflowxxPx +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(sub, %[[#X]], %[[#Y]]) : !s64i, (!s64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s64i, !cir.ptr +// CIR: } + +bool test_smul_overflow(int x, int y, int *res) { + return __builtin_smul_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z18test_smul_overflowiiPi +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s32i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#X]], %[[#Y]]) : !s32i, (!s32i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s32i, !cir.ptr +// CIR: } + +bool test_smull_overflow(long x, long y, long *res) { + return __builtin_smull_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z19test_smull_overflowllPl +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#X]], %[[#Y]]) : !s64i, (!s64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s64i, !cir.ptr +// CIR: } + +bool test_smulll_overflow(long long x, long long y, long long *res) { + return __builtin_smulll_overflow(x, y, res); +} + +// CIR: cir.func dso_local @_Z20test_smulll_overflowxxPx +// CIR: %[[#X:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#Y:]] = cir.load{{.*}} %{{.+}} : !cir.ptr, !s64i +// CIR-NEXT: %[[#RES_PTR:]] = cir.load{{.*}} %{{.+}} : !cir.ptr>, !cir.ptr +// CIR-NEXT: %[[RES:.+]], %{{.+}} = cir.binop.overflow(mul, %[[#X]], %[[#Y]]) : !s64i, (!s64i, !cir.bool) +// CIR-NEXT: cir.store{{.*}} %[[RES]], %[[#RES_PTR]] : !s64i, !cir.ptr +// CIR: } From d03208983759d5fcffc1531b5c0c99aa57275e7f Mon Sep 17 00:00:00 2001 From: adams381 Date: Tue, 18 Nov 2025 15:48:57 -0600 Subject: [PATCH 02/21] Update clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 10 +++------- 1 file changed, 3 insertions(+), 7 deletions(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index 19ce15ca5aeeb..c56ae5ac9028b 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -93,13 +93,9 @@ EncompassingIntegerType(ArrayRef Types) { // of the specified types. Additionally, if the encompassing type is signed, // its width must be strictly greater than the width of any unsigned types // given. - unsigned Width = 0; - for (const auto &Type : Types) { - unsigned MinWidth = Type.Width + (Signed && !Type.Signed); - if (Width < MinWidth) { - Width = MinWidth; - } - } +unsigned Width = 0; +for (const auto &Type : Types) + Width = std::max(Width, Type.Width + (Signed && !Type.Signed)); return {Width, Signed}; } From 7d73c087a161cfe1f8dd9f03ac2f8e28bce62018 Mon Sep 17 00:00:00 2001 From: adams381 Date: Tue, 18 Nov 2025 15:49:26 -0600 Subject: [PATCH 03/21] Update clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 5 +---- 1 file changed, 1 insertion(+), 4 deletions(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index c56ae5ac9028b..ce53b4039e1f9 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -84,10 +84,7 @@ EncompassingIntegerType(ArrayRef Types) { assert(Types.size() > 0 && "Empty list of types."); // If any of the given types is signed, we must return a signed type. - bool Signed = false; - for (const auto &Type : Types) { - Signed |= Type.Signed; - } +bool Signed = llvm::any_of(Types, [](const auto &T) { return T.Signed; }); // The encompassing type must have a width greater than or equal to the width // of the specified types. Additionally, if the encompassing type is signed, From 848fbe751dd73e588b95d8b3781df622f7e56c13 Mon Sep 17 00:00:00 2001 From: adams381 Date: Tue, 18 Nov 2025 15:57:21 -0600 Subject: [PATCH 04/21] Update clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp Co-authored-by: Andy Kaylor --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index ce53b4039e1f9..6caad2c15fb86 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -67,7 +67,7 @@ struct WidthAndSignedness { static WidthAndSignedness getIntegerWidthAndSignedness(const clang::ASTContext &astContext, - const clang::QualType Type) { + const clang::QualType type) { assert(Type->isIntegerType() && "Given type is not an integer."); unsigned Width = Type->isBooleanType() ? 1 : Type->isBitIntType() ? astContext.getIntWidth(Type) From d42d9281957c4533063bcd0eb286cf654b2fa2f0 Mon Sep 17 00:00:00 2001 From: adams381 Date: Tue, 18 Nov 2025 15:57:36 -0600 Subject: [PATCH 05/21] Update clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp Co-authored-by: Andy Kaylor --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index 6caad2c15fb86..be944d0bd9ce0 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -72,7 +72,7 @@ getIntegerWidthAndSignedness(const clang::ASTContext &astContext, unsigned Width = Type->isBooleanType() ? 1 : Type->isBitIntType() ? astContext.getIntWidth(Type) : astContext.getTypeInfo(Type).Width; - bool Signed = Type->isSignedIntegerType(); + bool signed = Type->isSignedIntegerType(); return {Width, Signed}; } From e2b36299c550f3b25fd84420f099b3ba436083e5 Mon Sep 17 00:00:00 2001 From: adams381 Date: Tue, 18 Nov 2025 18:06:14 -0600 Subject: [PATCH 06/21] Update clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp Co-authored-by: Andy Kaylor --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index be944d0bd9ce0..cd0fd5177297b 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -60,8 +60,8 @@ static RValue emitBuiltinBitOp(CIRGenFunction &cgf, const CallExpr *e, namespace { struct WidthAndSignedness { - unsigned Width; - bool Signed; + unsigned width; + bool signed; }; } // namespace From f77a61d165ea31e989808d66d5fb1ba1ec523776 Mon Sep 17 00:00:00 2001 From: adams381 Date: Tue, 18 Nov 2025 18:06:37 -0600 Subject: [PATCH 07/21] Update clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp Co-authored-by: Andy Kaylor --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index cd0fd5177297b..f965450fc7d89 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -69,7 +69,7 @@ static WidthAndSignedness getIntegerWidthAndSignedness(const clang::ASTContext &astContext, const clang::QualType type) { assert(Type->isIntegerType() && "Given type is not an integer."); - unsigned Width = Type->isBooleanType() ? 1 + unsigned width = type->isBooleanType() ? 1 : Type->isBitIntType() ? astContext.getIntWidth(Type) : astContext.getTypeInfo(Type).Width; bool signed = Type->isSignedIntegerType(); From 781e7bb0ac38bd974d7ae9b6137d2b995e989762 Mon Sep 17 00:00:00 2001 From: adams381 Date: Tue, 18 Nov 2025 18:07:32 -0600 Subject: [PATCH 08/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Andy Kaylor --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index c81f7cc657137..f1cab4c4ebbbe 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2534,7 +2534,7 @@ mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( auto intrinRetTy = mlir::LLVM::LLVMStructType::getLiteral( rewriter.getContext(), {encompassedLLVMTy, overflowLLVMTy}); - auto callLLVMIntrinOp = rewriter.create( + auto callLLVMIntrinOp = mlir::LLVM::CallIntrinsicOp::create(rewriter, loc, intrinRetTy, intrinNameAttr, mlir::ValueRange{lhs, rhs}); auto intrinRet = callLLVMIntrinOp.getResult(0); From 3b01b5a20b7961fbb485f92ebaef8c39482a4cf9 Mon Sep 17 00:00:00 2001 From: Adam Smith Date: Tue, 18 Nov 2025 16:05:17 -0800 Subject: [PATCH 09/21] [CIR] Remove createBinOpOverflowOp helper function Remove the BinOpOverflowResults struct and createBinOpOverflowOp helper function from CIRBaseBuilder. Instead, call cir::BinOpOverflowOp::create directly and use getResult() and getOverflow() on the returned operation. This simplifies the API and makes it more natural to use, as suggested by reviewer feedback. --- .../clang/CIR/Dialect/Builder/CIRBaseBuilder.h | 14 -------------- 1 file changed, 14 deletions(-) diff --git a/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h b/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h index 6c1951714ba1f..3288f5b12c77e 100644 --- a/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h +++ b/clang/include/clang/CIR/Dialect/Builder/CIRBaseBuilder.h @@ -408,20 +408,6 @@ class CIRBaseBuilderTy : public mlir::OpBuilder { callee.getFunctionType().getReturnType(), operands); } - struct BinOpOverflowResults { - mlir::Value result; - mlir::Value overflow; - }; - - BinOpOverflowResults createBinOpOverflowOp(mlir::Location loc, - cir::IntType resultTy, - cir::BinOpOverflowKind kind, - mlir::Value lhs, mlir::Value rhs) { - auto op = - cir::BinOpOverflowOp::create(*this, loc, resultTy, kind, lhs, rhs); - return {op.getResult(), op.getOverflow()}; - } - //===--------------------------------------------------------------------===// // Cast/Conversion Operators //===--------------------------------------------------------------------===// From 05600b8d9ee33478f707de4fec8e18aff8ca6a1c Mon Sep 17 00:00:00 2001 From: Adam Smith Date: Tue, 18 Nov 2025 16:23:58 -0800 Subject: [PATCH 10/21] [CIR] Fix style and deprecated API in overflow builtins lowering Replace auto with explicit types and use lowerCamelCase. Replace deprecated rewriter.create with Op::create. --- .../CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 89 ++++++++++--------- 1 file changed, 48 insertions(+), 41 deletions(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index f1cab4c4ebbbe..1896b89f6758f 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2506,71 +2506,78 @@ mlir::LogicalResult CIRToLLVMCmpOpLowering::matchAndRewrite( mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( cir::BinOpOverflowOp op, OpAdaptor adaptor, mlir::ConversionPatternRewriter &rewriter) const { - auto loc = op.getLoc(); - auto arithKind = op.getKind(); - auto operandTy = op.getLhs().getType(); - auto resultTy = op.getResult().getType(); + mlir::Location loc = op.getLoc(); + cir::BinOpOverflowKind arithKind = op.getKind(); + cir::IntType operandTy = op.getLhs().getType(); + cir::IntType resultTy = op.getResult().getType(); - auto encompassedTyInfo = computeEncompassedTypeWidth(operandTy, resultTy); - auto encompassedLLVMTy = rewriter.getIntegerType(encompassedTyInfo.width); + EncompassedTypeInfo encompassedTyInfo = + computeEncompassedTypeWidth(operandTy, resultTy); + mlir::IntegerType encompassedLLVMTy = + rewriter.getIntegerType(encompassedTyInfo.width); - auto lhs = adaptor.getLhs(); - auto rhs = adaptor.getRhs(); + mlir::Value lhs = adaptor.getLhs(); + mlir::Value rhs = adaptor.getRhs(); if (operandTy.getWidth() < encompassedTyInfo.width) { if (operandTy.isSigned()) { - lhs = rewriter.create(loc, encompassedLLVMTy, lhs); - rhs = rewriter.create(loc, encompassedLLVMTy, rhs); + lhs = mlir::LLVM::SExtOp::create(rewriter, loc, encompassedLLVMTy, lhs); + rhs = mlir::LLVM::SExtOp::create(rewriter, loc, encompassedLLVMTy, rhs); } else { - lhs = rewriter.create(loc, encompassedLLVMTy, lhs); - rhs = rewriter.create(loc, encompassedLLVMTy, rhs); + lhs = mlir::LLVM::ZExtOp::create(rewriter, loc, encompassedLLVMTy, lhs); + rhs = mlir::LLVM::ZExtOp::create(rewriter, loc, encompassedLLVMTy, rhs); } } - auto intrinName = getLLVMIntrinName(arithKind, encompassedTyInfo.sign, - encompassedTyInfo.width); - auto intrinNameAttr = mlir::StringAttr::get(op.getContext(), intrinName); + std::string intrinName = getLLVMIntrinName( + arithKind, encompassedTyInfo.sign, encompassedTyInfo.width); + mlir::StringAttr intrinNameAttr = + mlir::StringAttr::get(op.getContext(), intrinName); - auto overflowLLVMTy = rewriter.getI1Type(); - auto intrinRetTy = mlir::LLVM::LLVMStructType::getLiteral( - rewriter.getContext(), {encompassedLLVMTy, overflowLLVMTy}); + mlir::IntegerType overflowLLVMTy = rewriter.getI1Type(); + mlir::LLVM::LLVMStructType intrinRetTy = + mlir::LLVM::LLVMStructType::getLiteral( + rewriter.getContext(), {encompassedLLVMTy, overflowLLVMTy}); - auto callLLVMIntrinOp = mlir::LLVM::CallIntrinsicOp::create(rewriter, - loc, intrinRetTy, intrinNameAttr, mlir::ValueRange{lhs, rhs}); - auto intrinRet = callLLVMIntrinOp.getResult(0); + mlir::LLVM::CallIntrinsicOp callLLVMIntrinOp = + mlir::LLVM::CallIntrinsicOp::create(rewriter, loc, intrinRetTy, + intrinNameAttr, mlir::ValueRange{lhs, rhs}); + mlir::Value intrinRet = callLLVMIntrinOp.getResult(0); - auto result = rewriter - .create(loc, intrinRet, - ArrayRef{0}) - .getResult(); - auto overflow = rewriter - .create(loc, intrinRet, - ArrayRef{1}) - .getResult(); + mlir::Value result = + mlir::LLVM::ExtractValueOp::create(rewriter, loc, intrinRet, + ArrayRef{0}) + .getResult(); + mlir::Value overflow = + mlir::LLVM::ExtractValueOp::create(rewriter, loc, intrinRet, + ArrayRef{1}) + .getResult(); if (resultTy.getWidth() < encompassedTyInfo.width) { - auto resultLLVMTy = getTypeConverter()->convertType(resultTy); - auto truncResult = - rewriter.create(loc, resultLLVMTy, result); + mlir::Type resultLLVMTy = getTypeConverter()->convertType(resultTy); + mlir::Value truncResult = + mlir::LLVM::TruncOp::create(rewriter, loc, resultLLVMTy, result); // Extend the truncated result back to the encompassing type to check for // any overflows during the truncation. mlir::Value truncResultExt; if (resultTy.isSigned()) - truncResultExt = rewriter.create( - loc, encompassedLLVMTy, truncResult); + truncResultExt = mlir::LLVM::SExtOp::create(rewriter, loc, + encompassedLLVMTy, truncResult); else - truncResultExt = rewriter.create( - loc, encompassedLLVMTy, truncResult); - auto truncOverflow = rewriter.create( - loc, mlir::LLVM::ICmpPredicate::ne, truncResultExt, result); + truncResultExt = mlir::LLVM::ZExtOp::create(rewriter, loc, + encompassedLLVMTy, truncResult); + mlir::Value truncOverflow = + mlir::LLVM::ICmpOp::create(rewriter, loc, mlir::LLVM::ICmpPredicate::ne, + truncResultExt, result); result = truncResult; - overflow = rewriter.create(loc, overflow, truncOverflow); + overflow = mlir::LLVM::OrOp::create(rewriter, loc, overflow, truncOverflow); } - auto boolLLVMTy = getTypeConverter()->convertType(op.getOverflow().getType()); + mlir::Type boolLLVMTy = + getTypeConverter()->convertType(op.getOverflow().getType()); if (boolLLVMTy != rewriter.getI1Type()) - overflow = rewriter.create(loc, boolLLVMTy, overflow); + overflow = mlir::LLVM::ZExtOp::create(rewriter, loc, boolLLVMTy, overflow); rewriter.replaceOp(op, mlir::ValueRange{result, overflow}); From 5c00c3de0958f57ce05dd789d11ecc68fb62ed79 Mon Sep 17 00:00:00 2001 From: Adam Smith Date: Tue, 18 Nov 2025 16:30:51 -0800 Subject: [PATCH 11/21] [CIR] Fix style and remove helper function in overflow builtins - Rename 'signed' field to 'isSigned' (signed is a keyword) - Use lowerCamelCase for all variables and parameters - Replace createBinOpOverflowOp helper with direct BinOpOverflowOp::create calls --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 44 ++++++++++++------------- 1 file changed, 22 insertions(+), 22 deletions(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index f965450fc7d89..8ac6bc2bdb80d 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -61,40 +61,40 @@ static RValue emitBuiltinBitOp(CIRGenFunction &cgf, const CallExpr *e, namespace { struct WidthAndSignedness { unsigned width; - bool signed; + bool isSigned; }; } // namespace static WidthAndSignedness getIntegerWidthAndSignedness(const clang::ASTContext &astContext, const clang::QualType type) { - assert(Type->isIntegerType() && "Given type is not an integer."); + assert(type->isIntegerType() && "Given type is not an integer."); unsigned width = type->isBooleanType() ? 1 - : Type->isBitIntType() ? astContext.getIntWidth(Type) - : astContext.getTypeInfo(Type).Width; - bool signed = Type->isSignedIntegerType(); - return {Width, Signed}; + : type->isBitIntType() ? astContext.getIntWidth(type) + : astContext.getTypeInfo(type).Width; + bool isSigned = type->isSignedIntegerType(); + return {width, isSigned}; } // Given one or more integer types, this function produces an integer type that // encompasses them: any value in one of the given types could be expressed in // the encompassing type. static struct WidthAndSignedness -EncompassingIntegerType(ArrayRef Types) { - assert(Types.size() > 0 && "Empty list of types."); +EncompassingIntegerType(ArrayRef types) { + assert(types.size() > 0 && "Empty list of types."); // If any of the given types is signed, we must return a signed type. -bool Signed = llvm::any_of(Types, [](const auto &T) { return T.Signed; }); + bool isSigned = llvm::any_of(types, [](const auto &t) { return t.isSigned; }); // The encompassing type must have a width greater than or equal to the width // of the specified types. Additionally, if the encompassing type is signed, // its width must be strictly greater than the width of any unsigned types // given. -unsigned Width = 0; -for (const auto &Type : Types) - Width = std::max(Width, Type.Width + (Signed && !Type.Signed)); + unsigned width = 0; + for (const auto &type : types) + width = std::max(width, type.width + (isSigned && !type.isSigned)); - return {Width, Signed}; + return {width, isSigned}; } RValue CIRGenFunction::emitRotate(const CallExpr *e, bool isRotateLeft) { @@ -554,7 +554,7 @@ RValue CIRGenFunction::emitBuiltinExpr(const GlobalDecl &gd, unsigned builtinID, EncompassingIntegerType({LeftInfo, RightInfo, ResultInfo}); auto EncompassingCIRTy = cir::IntType::get( - &getMLIRContext(), EncompassingInfo.Width, EncompassingInfo.Signed); + &getMLIRContext(), EncompassingInfo.width, EncompassingInfo.isSigned); auto ResultCIRTy = mlir::cast(cgm.convertType(ResultQTy)); mlir::Value Left = emitScalarExpr(LeftArg); @@ -586,8 +586,8 @@ RValue CIRGenFunction::emitBuiltinExpr(const GlobalDecl &gd, unsigned builtinID, } auto Loc = getLoc(e->getSourceRange()); - auto ArithResult = - builder.createBinOpOverflowOp(Loc, ResultCIRTy, OpKind, Left, Right); + cir::BinOpOverflowOp ArithOp = + cir::BinOpOverflowOp::create(builder, Loc, ResultCIRTy, OpKind, Left, Right); // Here is a slight difference from the original clang CodeGen: // - In the original clang CodeGen, the checked arithmetic result is @@ -601,10 +601,10 @@ RValue CIRGenFunction::emitBuiltinExpr(const GlobalDecl &gd, unsigned builtinID, // Finally, store the result using the pointer. bool isVolatile = ResultArg->getType()->getPointeeType().isVolatileQualified(); - builder.createStore(Loc, emitToMemory(ArithResult.result, ResultQTy), + builder.createStore(Loc, emitToMemory(ArithOp.getResult(), ResultQTy), ResultPtr, isVolatile); - return RValue::get(ArithResult.overflow); + return RValue::get(ArithOp.getOverflow()); } case Builtin::BI__builtin_uadd_overflow: @@ -668,15 +668,15 @@ RValue CIRGenFunction::emitBuiltinExpr(const GlobalDecl &gd, unsigned builtinID, auto ResultCIRTy = mlir::cast(cgm.convertType(ResultQTy)); auto Loc = getLoc(e->getSourceRange()); - auto ArithResult = - builder.createBinOpOverflowOp(Loc, ResultCIRTy, ArithKind, X, Y); + cir::BinOpOverflowOp ArithOp = + cir::BinOpOverflowOp::create(builder, Loc, ResultCIRTy, ArithKind, X, Y); bool isVolatile = ResultArg->getType()->getPointeeType().isVolatileQualified(); - builder.createStore(Loc, emitToMemory(ArithResult.result, ResultQTy), + builder.createStore(Loc, emitToMemory(ArithOp.getResult(), ResultQTy), ResultPtr, isVolatile); - return RValue::get(ArithResult.overflow); + return RValue::get(ArithOp.getOverflow()); } } From afa0bda9a75892db753c932632e6c26a72242f4a Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:16:55 -0600 Subject: [PATCH 12/21] Update clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp Co-authored-by: Andy Kaylor --- clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp index 8ac6bc2bdb80d..a2300dcaef36c 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenBuiltin.cpp @@ -586,7 +586,7 @@ RValue CIRGenFunction::emitBuiltinExpr(const GlobalDecl &gd, unsigned builtinID, } auto Loc = getLoc(e->getSourceRange()); - cir::BinOpOverflowOp ArithOp = + auto arithOp = cir::BinOpOverflowOp::create(builder, Loc, ResultCIRTy, OpKind, Left, Right); // Here is a slight difference from the original clang CodeGen: From 28d8de42a1054f9b215a7e2ce1f10a75f6056cf3 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:17:32 -0600 Subject: [PATCH 13/21] Update clang/test/CIR/CodeGen/builtins-overflow.cpp Co-authored-by: Andy Kaylor --- clang/test/CIR/CodeGen/builtins-overflow.cpp | 4 ++++ 1 file changed, 4 insertions(+) diff --git a/clang/test/CIR/CodeGen/builtins-overflow.cpp b/clang/test/CIR/CodeGen/builtins-overflow.cpp index 8cd227d58686d..0014aa960b539 100644 --- a/clang/test/CIR/CodeGen/builtins-overflow.cpp +++ b/clang/test/CIR/CodeGen/builtins-overflow.cpp @@ -1,5 +1,9 @@ // RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -fclangir -emit-cir %s -o %t.cir // RUN: FileCheck %s --check-prefix=CIR --input-file=%t.cir +// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -fclangir -emit-llvm %s -o %t-cir.ll +// RUN: FileCheck %s --check-prefix=LLVM --input-file=%t-cir.ll +// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -emit-llvm %s -o %t.ll +// RUN: FileCheck %s --check-prefix=OGCG --input-file=%t.ll bool test_add_overflow_uint_uint_uint(unsigned x, unsigned y, unsigned *res) { return __builtin_add_overflow(x, y, res); From 1767a9794da9a4f408ed0500c08712e754726f12 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:17:45 -0600 Subject: [PATCH 14/21] Update clang/include/clang/CIR/Dialect/IR/CIROps.td Co-authored-by: Henrich Lauko --- clang/include/clang/CIR/Dialect/IR/CIROps.td | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/clang/include/clang/CIR/Dialect/IR/CIROps.td b/clang/include/clang/CIR/Dialect/IR/CIROps.td index 328880d6f3581..acbc3a805ec70 100644 --- a/clang/include/clang/CIR/Dialect/IR/CIROps.td +++ b/clang/include/clang/CIR/Dialect/IR/CIROps.td @@ -1674,8 +1674,8 @@ def CIR_BinOpOverflowOp : CIR_Op<"binop.overflow", [Pure, SameTypeOperands]> { let results = (outs CIR_IntType:$result, CIR_BoolType:$overflow); let assemblyFormat = [{ - `(` $kind `,` $lhs `,` $rhs `)` `:` type($lhs) `,` - `(` type($result) `,` type($overflow) `)` + `(` $kind `,` $lhs `,` $rhs `)` `:` qualified(type($lhs)) `->` + `(` qualified(type($result)) `,` qualified(type($overflow)) `)` attr-dict }]; From 8e7c9a494bb2dd207a1463e335756c7196f6f7ec Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:17:59 -0600 Subject: [PATCH 15/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index 1896b89f6758f..728f72d27e978 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2534,7 +2534,7 @@ mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( mlir::StringAttr::get(op.getContext(), intrinName); mlir::IntegerType overflowLLVMTy = rewriter.getI1Type(); - mlir::LLVM::LLVMStructType intrinRetTy = + auto intrinRetTy = mlir::LLVM::LLVMStructType::getLiteral( rewriter.getContext(), {encompassedLLVMTy, overflowLLVMTy}); From 03f4133a72fd8c65a7a19c31df973fdde94839a6 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:18:09 -0600 Subject: [PATCH 16/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index 728f72d27e978..d57b4b092d996 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2538,7 +2538,7 @@ mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( mlir::LLVM::LLVMStructType::getLiteral( rewriter.getContext(), {encompassedLLVMTy, overflowLLVMTy}); - mlir::LLVM::CallIntrinsicOp callLLVMIntrinOp = + auto callLLVMIntrinOp = mlir::LLVM::CallIntrinsicOp::create(rewriter, loc, intrinRetTy, intrinNameAttr, mlir::ValueRange{lhs, rhs}); mlir::Value intrinRet = callLLVMIntrinOp.getResult(0); From 7efb03f47358f71067623b7581a70f13440c5362 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:18:18 -0600 Subject: [PATCH 17/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index d57b4b092d996..fa0569588dd8c 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2554,7 +2554,7 @@ mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( if (resultTy.getWidth() < encompassedTyInfo.width) { mlir::Type resultLLVMTy = getTypeConverter()->convertType(resultTy); - mlir::Value truncResult = + auto mlir::Value truncResult = mlir::LLVM::TruncOp::create(rewriter, loc, resultLLVMTy, result); // Extend the truncated result back to the encompassing type to check for From 1c61733b0ffa0f453fe61874c7e3950f5ed91858 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:18:27 -0600 Subject: [PATCH 18/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index fa0569588dd8c..3cc90f1a51549 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2566,7 +2566,7 @@ mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( else truncResultExt = mlir::LLVM::ZExtOp::create(rewriter, loc, encompassedLLVMTy, truncResult); - mlir::Value truncOverflow = + auto truncOverflow = mlir::LLVM::ICmpOp::create(rewriter, loc, mlir::LLVM::ICmpPredicate::ne, truncResultExt, result); From b18aedfce1cb00a47a1e8a273cfaeeec2db1dc01 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:18:35 -0600 Subject: [PATCH 19/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index 3cc90f1a51549..a5b46e6d7376e 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2617,7 +2617,7 @@ CIRToLLVMBinOpOverflowOpLowering::EncompassedTypeInfo CIRToLLVMBinOpOverflowOpLowering::computeEncompassedTypeWidth( cir::IntType operandTy, cir::IntType resultTy) { auto sign = operandTy.getIsSigned() || resultTy.getIsSigned(); - auto width = std::max(operandTy.getWidth() + (sign && operandTy.isUnsigned()), + unsigned width = std::max(operandTy.getWidth() + (sign && operandTy.isUnsigned()), resultTy.getWidth() + (sign && resultTy.isUnsigned())); return {sign, width}; } From ebcb5094c16fafd505df20a33e14ea00b1cd53f2 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:18:45 -0600 Subject: [PATCH 20/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index a5b46e6d7376e..0043df4c11f00 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2616,7 +2616,7 @@ std::string CIRToLLVMBinOpOverflowOpLowering::getLLVMIntrinName( CIRToLLVMBinOpOverflowOpLowering::EncompassedTypeInfo CIRToLLVMBinOpOverflowOpLowering::computeEncompassedTypeWidth( cir::IntType operandTy, cir::IntType resultTy) { - auto sign = operandTy.getIsSigned() || resultTy.getIsSigned(); + bool sign = operandTy.getIsSigned() || resultTy.getIsSigned(); unsigned width = std::max(operandTy.getWidth() + (sign && operandTy.isUnsigned()), resultTy.getWidth() + (sign && resultTy.isUnsigned())); return {sign, width}; From 27a3db7655ac90826842814e18faeafa009eaac2 Mon Sep 17 00:00:00 2001 From: adams381 Date: Wed, 19 Nov 2025 16:18:54 -0600 Subject: [PATCH 21/21] Update clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp Co-authored-by: Henrich Lauko --- clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp index 0043df4c11f00..67725e438cb33 100644 --- a/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp +++ b/clang/lib/CIR/Lowering/DirectToLLVM/LowerToLLVM.cpp @@ -2530,7 +2530,7 @@ mlir::LogicalResult CIRToLLVMBinOpOverflowOpLowering::matchAndRewrite( std::string intrinName = getLLVMIntrinName( arithKind, encompassedTyInfo.sign, encompassedTyInfo.width); - mlir::StringAttr intrinNameAttr = + auto intrinNameAttr = mlir::StringAttr::get(op.getContext(), intrinName); mlir::IntegerType overflowLLVMTy = rewriter.getI1Type();