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llvm-capstone/clang/lib/CodeGen/CGBuilder.h
James Y Knight 751fe286dc [opaque pointer types] Cleanup CGBuilder's Create*GEP. 
The various EltSize, Offset, DataLayout, and StructLayout arguments
are all computable from the Address's element type and the DataLayout
which the CGBuilder already has access to.

After having previously asserted that the computed values are the same
as those passed in, now remove the redundant arguments from
CGBuilder's Create*GEP functions.

Differential Revision: https://reviews.llvm.org/D57767

llvm-svn: 353629
2019-02-09 22:22:28 +00:00

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//===-- CGBuilder.h - Choose IRBuilder implementation ----------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_LIB_CODEGEN_CGBUILDER_H
#define LLVM_CLANG_LIB_CODEGEN_CGBUILDER_H
#include "llvm/IR/DataLayout.h"
#include "llvm/IR/IRBuilder.h"
#include "Address.h"
#include "CodeGenTypeCache.h"
namespace clang {
namespace CodeGen {
class CodeGenFunction;
/// This is an IRBuilder insertion helper that forwards to
/// CodeGenFunction::InsertHelper, which adds necessary metadata to
/// instructions.
class CGBuilderInserter : protected llvm::IRBuilderDefaultInserter {
public:
CGBuilderInserter() = default;
explicit CGBuilderInserter(CodeGenFunction *CGF) : CGF(CGF) {}
protected:
/// This forwards to CodeGenFunction::InsertHelper.
void InsertHelper(llvm::Instruction *I, const llvm::Twine &Name,
llvm::BasicBlock *BB,
llvm::BasicBlock::iterator InsertPt) const;
private:
CodeGenFunction *CGF = nullptr;
};
typedef CGBuilderInserter CGBuilderInserterTy;
typedef llvm::IRBuilder<llvm::ConstantFolder, CGBuilderInserterTy>
CGBuilderBaseTy;
class CGBuilderTy : public CGBuilderBaseTy {
/// Storing a reference to the type cache here makes it a lot easier
/// to build natural-feeling, target-specific IR.
const CodeGenTypeCache &TypeCache;
public:
CGBuilderTy(const CodeGenTypeCache &TypeCache, llvm::LLVMContext &C)
: CGBuilderBaseTy(C), TypeCache(TypeCache) {}
CGBuilderTy(const CodeGenTypeCache &TypeCache,
llvm::LLVMContext &C, const llvm::ConstantFolder &F,
const CGBuilderInserterTy &Inserter)
: CGBuilderBaseTy(C, F, Inserter), TypeCache(TypeCache) {}
CGBuilderTy(const CodeGenTypeCache &TypeCache, llvm::Instruction *I)
: CGBuilderBaseTy(I), TypeCache(TypeCache) {}
CGBuilderTy(const CodeGenTypeCache &TypeCache, llvm::BasicBlock *BB)
: CGBuilderBaseTy(BB), TypeCache(TypeCache) {}
llvm::ConstantInt *getSize(CharUnits N) {
return llvm::ConstantInt::get(TypeCache.SizeTy, N.getQuantity());
}
llvm::ConstantInt *getSize(uint64_t N) {
return llvm::ConstantInt::get(TypeCache.SizeTy, N);
}
// Note that we intentionally hide the CreateLoad APIs that don't
// take an alignment.
llvm::LoadInst *CreateLoad(Address Addr, const llvm::Twine &Name = "") {
return CreateAlignedLoad(Addr.getPointer(),
Addr.getAlignment().getQuantity(),
Name);
}
llvm::LoadInst *CreateLoad(Address Addr, const char *Name) {
// This overload is required to prevent string literals from
// ending up in the IsVolatile overload.
return CreateAlignedLoad(Addr.getPointer(),
Addr.getAlignment().getQuantity(),
Name);
}
llvm::LoadInst *CreateLoad(Address Addr, bool IsVolatile,
const llvm::Twine &Name = "") {
return CreateAlignedLoad(Addr.getPointer(),
Addr.getAlignment().getQuantity(),
IsVolatile,
Name);
}
using CGBuilderBaseTy::CreateAlignedLoad;
llvm::LoadInst *CreateAlignedLoad(llvm::Value *Addr, CharUnits Align,
const llvm::Twine &Name = "") {
return CreateAlignedLoad(Addr, Align.getQuantity(), Name);
}
llvm::LoadInst *CreateAlignedLoad(llvm::Value *Addr, CharUnits Align,
const char *Name) {
return CreateAlignedLoad(Addr, Align.getQuantity(), Name);
}
llvm::LoadInst *CreateAlignedLoad(llvm::Type *Ty, llvm::Value *Addr,
CharUnits Align,
const llvm::Twine &Name = "") {
assert(Addr->getType()->getPointerElementType() == Ty);
return CreateAlignedLoad(Addr, Align.getQuantity(), Name);
}
// Note that we intentionally hide the CreateStore APIs that don't
// take an alignment.
llvm::StoreInst *CreateStore(llvm::Value *Val, Address Addr,
bool IsVolatile = false) {
return CreateAlignedStore(Val, Addr.getPointer(),
Addr.getAlignment().getQuantity(), IsVolatile);
}
using CGBuilderBaseTy::CreateAlignedStore;
llvm::StoreInst *CreateAlignedStore(llvm::Value *Val, llvm::Value *Addr,
CharUnits Align, bool IsVolatile = false) {
return CreateAlignedStore(Val, Addr, Align.getQuantity(), IsVolatile);
}
// FIXME: these "default-aligned" APIs should be removed,
// but I don't feel like fixing all the builtin code right now.
llvm::StoreInst *CreateDefaultAlignedStore(llvm::Value *Val,
llvm::Value *Addr,
bool IsVolatile = false) {
return CGBuilderBaseTy::CreateStore(Val, Addr, IsVolatile);
}
/// Emit a load from an i1 flag variable.
llvm::LoadInst *CreateFlagLoad(llvm::Value *Addr,
const llvm::Twine &Name = "") {
assert(Addr->getType()->getPointerElementType() == getInt1Ty());
return CreateAlignedLoad(getInt1Ty(), Addr, CharUnits::One(), Name);
}
/// Emit a store to an i1 flag variable.
llvm::StoreInst *CreateFlagStore(bool Value, llvm::Value *Addr) {
assert(Addr->getType()->getPointerElementType() == getInt1Ty());
return CreateAlignedStore(getInt1(Value), Addr, CharUnits::One());
}
using CGBuilderBaseTy::CreateBitCast;
Address CreateBitCast(Address Addr, llvm::Type *Ty,
const llvm::Twine &Name = "") {
return Address(CreateBitCast(Addr.getPointer(), Ty, Name),
Addr.getAlignment());
}
using CGBuilderBaseTy::CreateAddrSpaceCast;
Address CreateAddrSpaceCast(Address Addr, llvm::Type *Ty,
const llvm::Twine &Name = "") {
return Address(CreateAddrSpaceCast(Addr.getPointer(), Ty, Name),
Addr.getAlignment());
}
/// Cast the element type of the given address to a different type,
/// preserving information like the alignment and address space.
Address CreateElementBitCast(Address Addr, llvm::Type *Ty,
const llvm::Twine &Name = "") {
auto PtrTy = Ty->getPointerTo(Addr.getAddressSpace());
return CreateBitCast(Addr, PtrTy, Name);
}
using CGBuilderBaseTy::CreatePointerBitCastOrAddrSpaceCast;
Address CreatePointerBitCastOrAddrSpaceCast(Address Addr, llvm::Type *Ty,
const llvm::Twine &Name = "") {
llvm::Value *Ptr =
CreatePointerBitCastOrAddrSpaceCast(Addr.getPointer(), Ty, Name);
return Address(Ptr, Addr.getAlignment());
}
/// Given
/// %addr = {T1, T2...}* ...
/// produce
/// %name = getelementptr inbounds %addr, i32 0, i32 index
///
/// This API assumes that drilling into a struct like this is always an
/// inbounds operation.
using CGBuilderBaseTy::CreateStructGEP;
Address CreateStructGEP(Address Addr, unsigned Index,
const llvm::Twine &Name = "") {
llvm::StructType *ElTy = cast<llvm::StructType>(Addr.getElementType());
const llvm::DataLayout &DL = BB->getParent()->getParent()->getDataLayout();
const llvm::StructLayout *Layout = DL.getStructLayout(ElTy);
auto Offset = CharUnits::fromQuantity(Layout->getElementOffset(Index));
return Address(CreateStructGEP(Addr.getElementType(),
Addr.getPointer(), Index, Name),
Addr.getAlignment().alignmentAtOffset(Offset));
}
/// Given
/// %addr = [n x T]* ...
/// produce
/// %name = getelementptr inbounds %addr, i64 0, i64 index
/// where i64 is actually the target word size.
///
/// This API assumes that drilling into an array like this is always
/// an inbounds operation.
Address CreateConstArrayGEP(Address Addr, uint64_t Index,
const llvm::Twine &Name = "") {
llvm::ArrayType *ElTy = cast<llvm::ArrayType>(Addr.getElementType());
const llvm::DataLayout &DL = BB->getParent()->getParent()->getDataLayout();
CharUnits EltSize =
CharUnits::fromQuantity(DL.getTypeAllocSize(ElTy->getElementType()));
return Address(
CreateInBoundsGEP(Addr.getPointer(),
{getSize(CharUnits::Zero()), getSize(Index)}, Name),
Addr.getAlignment().alignmentAtOffset(Index * EltSize));
}
/// Given
/// %addr = T* ...
/// produce
/// %name = getelementptr inbounds %addr, i64 index
/// where i64 is actually the target word size.
Address CreateConstInBoundsGEP(Address Addr, uint64_t Index,
const llvm::Twine &Name = "") {
llvm::Type *ElTy = Addr.getElementType();
const llvm::DataLayout &DL = BB->getParent()->getParent()->getDataLayout();
CharUnits EltSize = CharUnits::fromQuantity(DL.getTypeAllocSize(ElTy));
return Address(CreateInBoundsGEP(Addr.getElementType(), Addr.getPointer(),
getSize(Index), Name),
Addr.getAlignment().alignmentAtOffset(Index * EltSize));
}
/// Given
/// %addr = T* ...
/// produce
/// %name = getelementptr inbounds %addr, i64 index
/// where i64 is actually the target word size.
Address CreateConstGEP(Address Addr, uint64_t Index,
const llvm::Twine &Name = "") {
const llvm::DataLayout &DL = BB->getParent()->getParent()->getDataLayout();
CharUnits EltSize =
CharUnits::fromQuantity(DL.getTypeAllocSize(Addr.getElementType()));
return Address(CreateGEP(Addr.getElementType(), Addr.getPointer(),
getSize(Index), Name),
Addr.getAlignment().alignmentAtOffset(Index * EltSize));
}
/// Given a pointer to i8, adjust it by a given constant offset.
Address CreateConstInBoundsByteGEP(Address Addr, CharUnits Offset,
const llvm::Twine &Name = "") {
assert(Addr.getElementType() == TypeCache.Int8Ty);
return Address(CreateInBoundsGEP(Addr.getPointer(), getSize(Offset), Name),
Addr.getAlignment().alignmentAtOffset(Offset));
}
Address CreateConstByteGEP(Address Addr, CharUnits Offset,
const llvm::Twine &Name = "") {
assert(Addr.getElementType() == TypeCache.Int8Ty);
return Address(CreateGEP(Addr.getPointer(), getSize(Offset), Name),
Addr.getAlignment().alignmentAtOffset(Offset));
}
using CGBuilderBaseTy::CreateConstInBoundsGEP2_32;
Address CreateConstInBoundsGEP2_32(Address Addr, unsigned Idx0, unsigned Idx1,
const llvm::Twine &Name = "") {
const llvm::DataLayout &DL = BB->getParent()->getParent()->getDataLayout();
auto *GEP = cast<llvm::GetElementPtrInst>(CreateConstInBoundsGEP2_32(
Addr.getElementType(), Addr.getPointer(), Idx0, Idx1, Name));
llvm::APInt Offset(
DL.getIndexSizeInBits(Addr.getType()->getPointerAddressSpace()), 0,
/*IsSigned=*/true);
if (!GEP->accumulateConstantOffset(DL, Offset))
llvm_unreachable("offset of GEP with constants is always computable");
return Address(GEP, Addr.getAlignment().alignmentAtOffset(
CharUnits::fromQuantity(Offset.getSExtValue())));
}
using CGBuilderBaseTy::CreateMemCpy;
llvm::CallInst *CreateMemCpy(Address Dest, Address Src, llvm::Value *Size,
bool IsVolatile = false) {
return CreateMemCpy(Dest.getPointer(), Dest.getAlignment().getQuantity(),
Src.getPointer(), Src.getAlignment().getQuantity(),
Size,IsVolatile);
}
llvm::CallInst *CreateMemCpy(Address Dest, Address Src, uint64_t Size,
bool IsVolatile = false) {
return CreateMemCpy(Dest.getPointer(), Dest.getAlignment().getQuantity(),
Src.getPointer(), Src.getAlignment().getQuantity(),
Size, IsVolatile);
}
using CGBuilderBaseTy::CreateMemMove;
llvm::CallInst *CreateMemMove(Address Dest, Address Src, llvm::Value *Size,
bool IsVolatile = false) {
return CreateMemMove(Dest.getPointer(), Dest.getAlignment().getQuantity(),
Src.getPointer(), Src.getAlignment().getQuantity(),
Size, IsVolatile);
}
using CGBuilderBaseTy::CreateMemSet;
llvm::CallInst *CreateMemSet(Address Dest, llvm::Value *Value,
llvm::Value *Size, bool IsVolatile = false) {
return CreateMemSet(Dest.getPointer(), Value, Size,
Dest.getAlignment().getQuantity(), IsVolatile);
}
};
} // end namespace CodeGen
} // end namespace clang
#endif
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