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- //===--- CGExprConstant.cpp - Emit LLVM Code from Constant Expressions ----===//
- //
- // 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
- //
- //===----------------------------------------------------------------------===//
- //
- // This contains code to emit Constant Expr nodes as LLVM code.
- //
- //===----------------------------------------------------------------------===//
- #include "CGCXXABI.h"
- #include "CGObjCRuntime.h"
- #include "CGRecordLayout.h"
- #include "CodeGenFunction.h"
- #include "CodeGenModule.h"
- #include "ConstantEmitter.h"
- #include "TargetInfo.h"
- #include "clang/AST/APValue.h"
- #include "clang/AST/ASTContext.h"
- #include "clang/AST/Attr.h"
- #include "clang/AST/RecordLayout.h"
- #include "clang/AST/StmtVisitor.h"
- #include "clang/Basic/Builtins.h"
- #include "llvm/ADT/STLExtras.h"
- #include "llvm/ADT/Sequence.h"
- #include "llvm/IR/Constants.h"
- #include "llvm/IR/DataLayout.h"
- #include "llvm/IR/Function.h"
- #include "llvm/IR/GlobalVariable.h"
- using namespace clang;
- using namespace CodeGen;
- //===----------------------------------------------------------------------===//
- // ConstantAggregateBuilder
- //===----------------------------------------------------------------------===//
- namespace {
- class ConstExprEmitter;
- struct ConstantAggregateBuilderUtils {
- CodeGenModule &CGM;
- ConstantAggregateBuilderUtils(CodeGenModule &CGM) : CGM(CGM) {}
- CharUnits getAlignment(const llvm::Constant *C) const {
- return CharUnits::fromQuantity(
- CGM.getDataLayout().getABITypeAlignment(C->getType()));
- }
- CharUnits getSize(llvm::Type *Ty) const {
- return CharUnits::fromQuantity(CGM.getDataLayout().getTypeAllocSize(Ty));
- }
- CharUnits getSize(const llvm::Constant *C) const {
- return getSize(C->getType());
- }
- llvm::Constant *getPadding(CharUnits PadSize) const {
- llvm::Type *Ty = CGM.CharTy;
- if (PadSize > CharUnits::One())
- Ty = llvm::ArrayType::get(Ty, PadSize.getQuantity());
- return llvm::UndefValue::get(Ty);
- }
- llvm::Constant *getZeroes(CharUnits ZeroSize) const {
- llvm::Type *Ty = llvm::ArrayType::get(CGM.CharTy, ZeroSize.getQuantity());
- return llvm::ConstantAggregateZero::get(Ty);
- }
- };
- /// Incremental builder for an llvm::Constant* holding a struct or array
- /// constant.
- class ConstantAggregateBuilder : private ConstantAggregateBuilderUtils {
- /// The elements of the constant. These two arrays must have the same size;
- /// Offsets[i] describes the offset of Elems[i] within the constant. The
- /// elements are kept in increasing offset order, and we ensure that there
- /// is no overlap: Offsets[i+1] >= Offsets[i] + getSize(Elemes[i]).
- ///
- /// This may contain explicit padding elements (in order to create a
- /// natural layout), but need not. Gaps between elements are implicitly
- /// considered to be filled with undef.
- llvm::SmallVector<llvm::Constant*, 32> Elems;
- llvm::SmallVector<CharUnits, 32> Offsets;
- /// The size of the constant (the maximum end offset of any added element).
- /// May be larger than the end of Elems.back() if we split the last element
- /// and removed some trailing undefs.
- CharUnits Size = CharUnits::Zero();
- /// This is true only if laying out Elems in order as the elements of a
- /// non-packed LLVM struct will give the correct layout.
- bool NaturalLayout = true;
- bool split(size_t Index, CharUnits Hint);
- Optional<size_t> splitAt(CharUnits Pos);
- static llvm::Constant *buildFrom(CodeGenModule &CGM,
- ArrayRef<llvm::Constant *> Elems,
- ArrayRef<CharUnits> Offsets,
- CharUnits StartOffset, CharUnits Size,
- bool NaturalLayout, llvm::Type *DesiredTy,
- bool AllowOversized);
- public:
- ConstantAggregateBuilder(CodeGenModule &CGM)
- : ConstantAggregateBuilderUtils(CGM) {}
- /// Update or overwrite the value starting at \p Offset with \c C.
- ///
- /// \param AllowOverwrite If \c true, this constant might overwrite (part of)
- /// a constant that has already been added. This flag is only used to
- /// detect bugs.
- bool add(llvm::Constant *C, CharUnits Offset, bool AllowOverwrite);
- /// Update or overwrite the bits starting at \p OffsetInBits with \p Bits.
- bool addBits(llvm::APInt Bits, uint64_t OffsetInBits, bool AllowOverwrite);
- /// Attempt to condense the value starting at \p Offset to a constant of type
- /// \p DesiredTy.
- void condense(CharUnits Offset, llvm::Type *DesiredTy);
- /// Produce a constant representing the entire accumulated value, ideally of
- /// the specified type. If \p AllowOversized, the constant might be larger
- /// than implied by \p DesiredTy (eg, if there is a flexible array member).
- /// Otherwise, the constant will be of exactly the same size as \p DesiredTy
- /// even if we can't represent it as that type.
- llvm::Constant *build(llvm::Type *DesiredTy, bool AllowOversized) const {
- return buildFrom(CGM, Elems, Offsets, CharUnits::Zero(), Size,
- NaturalLayout, DesiredTy, AllowOversized);
- }
- };
- template<typename Container, typename Range = std::initializer_list<
- typename Container::value_type>>
- static void replace(Container &C, size_t BeginOff, size_t EndOff, Range Vals) {
- assert(BeginOff <= EndOff && "invalid replacement range");
- llvm::replace(C, C.begin() + BeginOff, C.begin() + EndOff, Vals);
- }
- bool ConstantAggregateBuilder::add(llvm::Constant *C, CharUnits Offset,
- bool AllowOverwrite) {
- // Common case: appending to a layout.
- if (Offset >= Size) {
- CharUnits Align = getAlignment(C);
- CharUnits AlignedSize = Size.alignTo(Align);
- if (AlignedSize > Offset || Offset.alignTo(Align) != Offset)
- NaturalLayout = false;
- else if (AlignedSize < Offset) {
- Elems.push_back(getPadding(Offset - Size));
- Offsets.push_back(Size);
- }
- Elems.push_back(C);
- Offsets.push_back(Offset);
- Size = Offset + getSize(C);
- return true;
- }
- // Uncommon case: constant overlaps what we've already created.
- llvm::Optional<size_t> FirstElemToReplace = splitAt(Offset);
- if (!FirstElemToReplace)
- return false;
- CharUnits CSize = getSize(C);
- llvm::Optional<size_t> LastElemToReplace = splitAt(Offset + CSize);
- if (!LastElemToReplace)
- return false;
- assert((FirstElemToReplace == LastElemToReplace || AllowOverwrite) &&
- "unexpectedly overwriting field");
- replace(Elems, *FirstElemToReplace, *LastElemToReplace, {C});
- replace(Offsets, *FirstElemToReplace, *LastElemToReplace, {Offset});
- Size = std::max(Size, Offset + CSize);
- NaturalLayout = false;
- return true;
- }
- bool ConstantAggregateBuilder::addBits(llvm::APInt Bits, uint64_t OffsetInBits,
- bool AllowOverwrite) {
- const ASTContext &Context = CGM.getContext();
- const uint64_t CharWidth = CGM.getContext().getCharWidth();
- // Offset of where we want the first bit to go within the bits of the
- // current char.
- unsigned OffsetWithinChar = OffsetInBits % CharWidth;
- // We split bit-fields up into individual bytes. Walk over the bytes and
- // update them.
- for (CharUnits OffsetInChars =
- Context.toCharUnitsFromBits(OffsetInBits - OffsetWithinChar);
- /**/; ++OffsetInChars) {
- // Number of bits we want to fill in this char.
- unsigned WantedBits =
- std::min((uint64_t)Bits.getBitWidth(), CharWidth - OffsetWithinChar);
- // Get a char containing the bits we want in the right places. The other
- // bits have unspecified values.
- llvm::APInt BitsThisChar = Bits;
- if (BitsThisChar.getBitWidth() < CharWidth)
- BitsThisChar = BitsThisChar.zext(CharWidth);
- if (CGM.getDataLayout().isBigEndian()) {
- // Figure out how much to shift by. We may need to left-shift if we have
- // less than one byte of Bits left.
- int Shift = Bits.getBitWidth() - CharWidth + OffsetWithinChar;
- if (Shift > 0)
- BitsThisChar.lshrInPlace(Shift);
- else if (Shift < 0)
- BitsThisChar = BitsThisChar.shl(-Shift);
- } else {
- BitsThisChar = BitsThisChar.shl(OffsetWithinChar);
- }
- if (BitsThisChar.getBitWidth() > CharWidth)
- BitsThisChar = BitsThisChar.trunc(CharWidth);
- if (WantedBits == CharWidth) {
- // Got a full byte: just add it directly.
- add(llvm::ConstantInt::get(CGM.getLLVMContext(), BitsThisChar),
- OffsetInChars, AllowOverwrite);
- } else {
- // Partial byte: update the existing integer if there is one. If we
- // can't split out a 1-CharUnit range to update, then we can't add
- // these bits and fail the entire constant emission.
- llvm::Optional<size_t> FirstElemToUpdate = splitAt(OffsetInChars);
- if (!FirstElemToUpdate)
- return false;
- llvm::Optional<size_t> LastElemToUpdate =
- splitAt(OffsetInChars + CharUnits::One());
- if (!LastElemToUpdate)
- return false;
- assert(*LastElemToUpdate - *FirstElemToUpdate < 2 &&
- "should have at most one element covering one byte");
- // Figure out which bits we want and discard the rest.
- llvm::APInt UpdateMask(CharWidth, 0);
- if (CGM.getDataLayout().isBigEndian())
- UpdateMask.setBits(CharWidth - OffsetWithinChar - WantedBits,
- CharWidth - OffsetWithinChar);
- else
- UpdateMask.setBits(OffsetWithinChar, OffsetWithinChar + WantedBits);
- BitsThisChar &= UpdateMask;
- if (*FirstElemToUpdate == *LastElemToUpdate ||
- Elems[*FirstElemToUpdate]->isNullValue() ||
- isa<llvm::UndefValue>(Elems[*FirstElemToUpdate])) {
- // All existing bits are either zero or undef.
- add(llvm::ConstantInt::get(CGM.getLLVMContext(), BitsThisChar),
- OffsetInChars, /*AllowOverwrite*/ true);
- } else {
- llvm::Constant *&ToUpdate = Elems[*FirstElemToUpdate];
- // In order to perform a partial update, we need the existing bitwise
- // value, which we can only extract for a constant int.
- auto *CI = dyn_cast<llvm::ConstantInt>(ToUpdate);
- if (!CI)
- return false;
- // Because this is a 1-CharUnit range, the constant occupying it must
- // be exactly one CharUnit wide.
- assert(CI->getBitWidth() == CharWidth && "splitAt failed");
- assert((!(CI->getValue() & UpdateMask) || AllowOverwrite) &&
- "unexpectedly overwriting bitfield");
- BitsThisChar |= (CI->getValue() & ~UpdateMask);
- ToUpdate = llvm::ConstantInt::get(CGM.getLLVMContext(), BitsThisChar);
- }
- }
- // Stop if we've added all the bits.
- if (WantedBits == Bits.getBitWidth())
- break;
- // Remove the consumed bits from Bits.
- if (!CGM.getDataLayout().isBigEndian())
- Bits.lshrInPlace(WantedBits);
- Bits = Bits.trunc(Bits.getBitWidth() - WantedBits);
- // The remanining bits go at the start of the following bytes.
- OffsetWithinChar = 0;
- }
- return true;
- }
- /// Returns a position within Elems and Offsets such that all elements
- /// before the returned index end before Pos and all elements at or after
- /// the returned index begin at or after Pos. Splits elements as necessary
- /// to ensure this. Returns None if we find something we can't split.
- Optional<size_t> ConstantAggregateBuilder::splitAt(CharUnits Pos) {
- if (Pos >= Size)
- return Offsets.size();
- while (true) {
- auto FirstAfterPos = llvm::upper_bound(Offsets, Pos);
- if (FirstAfterPos == Offsets.begin())
- return 0;
- // If we already have an element starting at Pos, we're done.
- size_t LastAtOrBeforePosIndex = FirstAfterPos - Offsets.begin() - 1;
- if (Offsets[LastAtOrBeforePosIndex] == Pos)
- return LastAtOrBeforePosIndex;
- // We found an element starting before Pos. Check for overlap.
- if (Offsets[LastAtOrBeforePosIndex] +
- getSize(Elems[LastAtOrBeforePosIndex]) <= Pos)
- return LastAtOrBeforePosIndex + 1;
- // Try to decompose it into smaller constants.
- if (!split(LastAtOrBeforePosIndex, Pos))
- return None;
- }
- }
- /// Split the constant at index Index, if possible. Return true if we did.
- /// Hint indicates the location at which we'd like to split, but may be
- /// ignored.
- bool ConstantAggregateBuilder::split(size_t Index, CharUnits Hint) {
- NaturalLayout = false;
- llvm::Constant *C = Elems[Index];
- CharUnits Offset = Offsets[Index];
- if (auto *CA = dyn_cast<llvm::ConstantAggregate>(C)) {
- // Expand the sequence into its contained elements.
- // FIXME: This assumes vector elements are byte-sized.
- replace(Elems, Index, Index + 1,
- llvm::map_range(llvm::seq(0u, CA->getNumOperands()),
- [&](unsigned Op) { return CA->getOperand(Op); }));
- if (isa<llvm::ArrayType>(CA->getType()) ||
- isa<llvm::VectorType>(CA->getType())) {
- // Array or vector.
- llvm::Type *ElemTy =
- llvm::GetElementPtrInst::getTypeAtIndex(CA->getType(), (uint64_t)0);
- CharUnits ElemSize = getSize(ElemTy);
- replace(
- Offsets, Index, Index + 1,
- llvm::map_range(llvm::seq(0u, CA->getNumOperands()),
- [&](unsigned Op) { return Offset + Op * ElemSize; }));
- } else {
- // Must be a struct.
- auto *ST = cast<llvm::StructType>(CA->getType());
- const llvm::StructLayout *Layout =
- CGM.getDataLayout().getStructLayout(ST);
- replace(Offsets, Index, Index + 1,
- llvm::map_range(
- llvm::seq(0u, CA->getNumOperands()), [&](unsigned Op) {
- return Offset + CharUnits::fromQuantity(
- Layout->getElementOffset(Op));
- }));
- }
- return true;
- }
- if (auto *CDS = dyn_cast<llvm::ConstantDataSequential>(C)) {
- // Expand the sequence into its contained elements.
- // FIXME: This assumes vector elements are byte-sized.
- // FIXME: If possible, split into two ConstantDataSequentials at Hint.
- CharUnits ElemSize = getSize(CDS->getElementType());
- replace(Elems, Index, Index + 1,
- llvm::map_range(llvm::seq(0u, CDS->getNumElements()),
- [&](unsigned Elem) {
- return CDS->getElementAsConstant(Elem);
- }));
- replace(Offsets, Index, Index + 1,
- llvm::map_range(
- llvm::seq(0u, CDS->getNumElements()),
- [&](unsigned Elem) { return Offset + Elem * ElemSize; }));
- return true;
- }
- if (isa<llvm::ConstantAggregateZero>(C)) {
- // Split into two zeros at the hinted offset.
- CharUnits ElemSize = getSize(C);
- assert(Hint > Offset && Hint < Offset + ElemSize && "nothing to split");
- replace(Elems, Index, Index + 1,
- {getZeroes(Hint - Offset), getZeroes(Offset + ElemSize - Hint)});
- replace(Offsets, Index, Index + 1, {Offset, Hint});
- return true;
- }
- if (isa<llvm::UndefValue>(C)) {
- // Drop undef; it doesn't contribute to the final layout.
- replace(Elems, Index, Index + 1, {});
- replace(Offsets, Index, Index + 1, {});
- return true;
- }
- // FIXME: We could split a ConstantInt if the need ever arose.
- // We don't need to do this to handle bit-fields because we always eagerly
- // split them into 1-byte chunks.
- return false;
- }
- static llvm::Constant *
- EmitArrayConstant(CodeGenModule &CGM, llvm::ArrayType *DesiredType,
- llvm::Type *CommonElementType, unsigned ArrayBound,
- SmallVectorImpl<llvm::Constant *> &Elements,
- llvm::Constant *Filler);
- llvm::Constant *ConstantAggregateBuilder::buildFrom(
- CodeGenModule &CGM, ArrayRef<llvm::Constant *> Elems,
- ArrayRef<CharUnits> Offsets, CharUnits StartOffset, CharUnits Size,
- bool NaturalLayout, llvm::Type *DesiredTy, bool AllowOversized) {
- ConstantAggregateBuilderUtils Utils(CGM);
- if (Elems.empty())
- return llvm::UndefValue::get(DesiredTy);
- auto Offset = [&](size_t I) { return Offsets[I] - StartOffset; };
- // If we want an array type, see if all the elements are the same type and
- // appropriately spaced.
- if (llvm::ArrayType *ATy = dyn_cast<llvm::ArrayType>(DesiredTy)) {
- assert(!AllowOversized && "oversized array emission not supported");
- bool CanEmitArray = true;
- llvm::Type *CommonType = Elems[0]->getType();
- llvm::Constant *Filler = llvm::Constant::getNullValue(CommonType);
- CharUnits ElemSize = Utils.getSize(ATy->getElementType());
- SmallVector<llvm::Constant*, 32> ArrayElements;
- for (size_t I = 0; I != Elems.size(); ++I) {
- // Skip zeroes; we'll use a zero value as our array filler.
- if (Elems[I]->isNullValue())
- continue;
- // All remaining elements must be the same type.
- if (Elems[I]->getType() != CommonType ||
- Offset(I) % ElemSize != 0) {
- CanEmitArray = false;
- break;
- }
- ArrayElements.resize(Offset(I) / ElemSize + 1, Filler);
- ArrayElements.back() = Elems[I];
- }
- if (CanEmitArray) {
- return EmitArrayConstant(CGM, ATy, CommonType, ATy->getNumElements(),
- ArrayElements, Filler);
- }
- // Can't emit as an array, carry on to emit as a struct.
- }
- CharUnits DesiredSize = Utils.getSize(DesiredTy);
- CharUnits Align = CharUnits::One();
- for (llvm::Constant *C : Elems)
- Align = std::max(Align, Utils.getAlignment(C));
- CharUnits AlignedSize = Size.alignTo(Align);
- bool Packed = false;
- ArrayRef<llvm::Constant*> UnpackedElems = Elems;
- llvm::SmallVector<llvm::Constant*, 32> UnpackedElemStorage;
- if ((DesiredSize < AlignedSize && !AllowOversized) ||
- DesiredSize.alignTo(Align) != DesiredSize) {
- // The natural layout would be the wrong size; force use of a packed layout.
- NaturalLayout = false;
- Packed = true;
- } else if (DesiredSize > AlignedSize) {
- // The constant would be too small. Add padding to fix it.
- UnpackedElemStorage.assign(Elems.begin(), Elems.end());
- UnpackedElemStorage.push_back(Utils.getPadding(DesiredSize - Size));
- UnpackedElems = UnpackedElemStorage;
- }
- // If we don't have a natural layout, insert padding as necessary.
- // As we go, double-check to see if we can actually just emit Elems
- // as a non-packed struct and do so opportunistically if possible.
- llvm::SmallVector<llvm::Constant*, 32> PackedElems;
- if (!NaturalLayout) {
- CharUnits SizeSoFar = CharUnits::Zero();
- for (size_t I = 0; I != Elems.size(); ++I) {
- CharUnits Align = Utils.getAlignment(Elems[I]);
- CharUnits NaturalOffset = SizeSoFar.alignTo(Align);
- CharUnits DesiredOffset = Offset(I);
- assert(DesiredOffset >= SizeSoFar && "elements out of order");
- if (DesiredOffset != NaturalOffset)
- Packed = true;
- if (DesiredOffset != SizeSoFar)
- PackedElems.push_back(Utils.getPadding(DesiredOffset - SizeSoFar));
- PackedElems.push_back(Elems[I]);
- SizeSoFar = DesiredOffset + Utils.getSize(Elems[I]);
- }
- // If we're using the packed layout, pad it out to the desired size if
- // necessary.
- if (Packed) {
- assert((SizeSoFar <= DesiredSize || AllowOversized) &&
- "requested size is too small for contents");
- if (SizeSoFar < DesiredSize)
- PackedElems.push_back(Utils.getPadding(DesiredSize - SizeSoFar));
- }
- }
- llvm::StructType *STy = llvm::ConstantStruct::getTypeForElements(
- CGM.getLLVMContext(), Packed ? PackedElems : UnpackedElems, Packed);
- // Pick the type to use. If the type is layout identical to the desired
- // type then use it, otherwise use whatever the builder produced for us.
- if (llvm::StructType *DesiredSTy = dyn_cast<llvm::StructType>(DesiredTy)) {
- if (DesiredSTy->isLayoutIdentical(STy))
- STy = DesiredSTy;
- }
- return llvm::ConstantStruct::get(STy, Packed ? PackedElems : UnpackedElems);
- }
- void ConstantAggregateBuilder::condense(CharUnits Offset,
- llvm::Type *DesiredTy) {
- CharUnits Size = getSize(DesiredTy);
- llvm::Optional<size_t> FirstElemToReplace = splitAt(Offset);
- if (!FirstElemToReplace)
- return;
- size_t First = *FirstElemToReplace;
- llvm::Optional<size_t> LastElemToReplace = splitAt(Offset + Size);
- if (!LastElemToReplace)
- return;
- size_t Last = *LastElemToReplace;
- size_t Length = Last - First;
- if (Length == 0)
- return;
- if (Length == 1 && Offsets[First] == Offset &&
- getSize(Elems[First]) == Size) {
- // Re-wrap single element structs if necessary. Otherwise, leave any single
- // element constant of the right size alone even if it has the wrong type.
- auto *STy = dyn_cast<llvm::StructType>(DesiredTy);
- if (STy && STy->getNumElements() == 1 &&
- STy->getElementType(0) == Elems[First]->getType())
- Elems[First] = llvm::ConstantStruct::get(STy, Elems[First]);
- return;
- }
- llvm::Constant *Replacement = buildFrom(
- CGM, makeArrayRef(Elems).slice(First, Length),
- makeArrayRef(Offsets).slice(First, Length), Offset, getSize(DesiredTy),
- /*known to have natural layout=*/false, DesiredTy, false);
- replace(Elems, First, Last, {Replacement});
- replace(Offsets, First, Last, {Offset});
- }
- //===----------------------------------------------------------------------===//
- // ConstStructBuilder
- //===----------------------------------------------------------------------===//
- class ConstStructBuilder {
- CodeGenModule &CGM;
- ConstantEmitter &Emitter;
- ConstantAggregateBuilder &Builder;
- CharUnits StartOffset;
- public:
- static llvm::Constant *BuildStruct(ConstantEmitter &Emitter,
- InitListExpr *ILE, QualType StructTy);
- static llvm::Constant *BuildStruct(ConstantEmitter &Emitter,
- const APValue &Value, QualType ValTy);
- static bool UpdateStruct(ConstantEmitter &Emitter,
- ConstantAggregateBuilder &Const, CharUnits Offset,
- InitListExpr *Updater);
- private:
- ConstStructBuilder(ConstantEmitter &Emitter,
- ConstantAggregateBuilder &Builder, CharUnits StartOffset)
- : CGM(Emitter.CGM), Emitter(Emitter), Builder(Builder),
- StartOffset(StartOffset) {}
- bool AppendField(const FieldDecl *Field, uint64_t FieldOffset,
- llvm::Constant *InitExpr, bool AllowOverwrite = false);
- bool AppendBytes(CharUnits FieldOffsetInChars, llvm::Constant *InitCst,
- bool AllowOverwrite = false);
- bool AppendBitField(const FieldDecl *Field, uint64_t FieldOffset,
- llvm::ConstantInt *InitExpr, bool AllowOverwrite = false);
- bool Build(InitListExpr *ILE, bool AllowOverwrite);
- bool Build(const APValue &Val, const RecordDecl *RD, bool IsPrimaryBase,
- const CXXRecordDecl *VTableClass, CharUnits BaseOffset);
- llvm::Constant *Finalize(QualType Ty);
- };
- bool ConstStructBuilder::AppendField(
- const FieldDecl *Field, uint64_t FieldOffset, llvm::Constant *InitCst,
- bool AllowOverwrite) {
- const ASTContext &Context = CGM.getContext();
- CharUnits FieldOffsetInChars = Context.toCharUnitsFromBits(FieldOffset);
- return AppendBytes(FieldOffsetInChars, InitCst, AllowOverwrite);
- }
- bool ConstStructBuilder::AppendBytes(CharUnits FieldOffsetInChars,
- llvm::Constant *InitCst,
- bool AllowOverwrite) {
- return Builder.add(InitCst, StartOffset + FieldOffsetInChars, AllowOverwrite);
- }
- bool ConstStructBuilder::AppendBitField(
- const FieldDecl *Field, uint64_t FieldOffset, llvm::ConstantInt *CI,
- bool AllowOverwrite) {
- const CGRecordLayout &RL =
- CGM.getTypes().getCGRecordLayout(Field->getParent());
- const CGBitFieldInfo &Info = RL.getBitFieldInfo(Field);
- llvm::APInt FieldValue = CI->getValue();
- // Promote the size of FieldValue if necessary
- // FIXME: This should never occur, but currently it can because initializer
- // constants are cast to bool, and because clang is not enforcing bitfield
- // width limits.
- if (Info.Size > FieldValue.getBitWidth())
- FieldValue = FieldValue.zext(Info.Size);
- // Truncate the size of FieldValue to the bit field size.
- if (Info.Size < FieldValue.getBitWidth())
- FieldValue = FieldValue.trunc(Info.Size);
- return Builder.addBits(FieldValue,
- CGM.getContext().toBits(StartOffset) + FieldOffset,
- AllowOverwrite);
- }
- static bool EmitDesignatedInitUpdater(ConstantEmitter &Emitter,
- ConstantAggregateBuilder &Const,
- CharUnits Offset, QualType Type,
- InitListExpr *Updater) {
- if (Type->isRecordType())
- return ConstStructBuilder::UpdateStruct(Emitter, Const, Offset, Updater);
- auto CAT = Emitter.CGM.getContext().getAsConstantArrayType(Type);
- if (!CAT)
- return false;
- QualType ElemType = CAT->getElementType();
- CharUnits ElemSize = Emitter.CGM.getContext().getTypeSizeInChars(ElemType);
- llvm::Type *ElemTy = Emitter.CGM.getTypes().ConvertTypeForMem(ElemType);
- llvm::Constant *FillC = nullptr;
- if (Expr *Filler = Updater->getArrayFiller()) {
- if (!isa<NoInitExpr>(Filler)) {
- FillC = Emitter.tryEmitAbstractForMemory(Filler, ElemType);
- if (!FillC)
- return false;
- }
- }
- unsigned NumElementsToUpdate =
- FillC ? CAT->getSize().getZExtValue() : Updater->getNumInits();
- for (unsigned I = 0; I != NumElementsToUpdate; ++I, Offset += ElemSize) {
- Expr *Init = nullptr;
- if (I < Updater->getNumInits())
- Init = Updater->getInit(I);
- if (!Init && FillC) {
- if (!Const.add(FillC, Offset, true))
- return false;
- } else if (!Init || isa<NoInitExpr>(Init)) {
- continue;
- } else if (InitListExpr *ChildILE = dyn_cast<InitListExpr>(Init)) {
- if (!EmitDesignatedInitUpdater(Emitter, Const, Offset, ElemType,
- ChildILE))
- return false;
- // Attempt to reduce the array element to a single constant if necessary.
- Const.condense(Offset, ElemTy);
- } else {
- llvm::Constant *Val = Emitter.tryEmitPrivateForMemory(Init, ElemType);
- if (!Const.add(Val, Offset, true))
- return false;
- }
- }
- return true;
- }
- bool ConstStructBuilder::Build(InitListExpr *ILE, bool AllowOverwrite) {
- RecordDecl *RD = ILE->getType()->castAs<RecordType>()->getDecl();
- const ASTRecordLayout &Layout = CGM.getContext().getASTRecordLayout(RD);
- unsigned FieldNo = -1;
- unsigned ElementNo = 0;
- // Bail out if we have base classes. We could support these, but they only
- // arise in C++1z where we will have already constant folded most interesting
- // cases. FIXME: There are still a few more cases we can handle this way.
- if (auto *CXXRD = dyn_cast<CXXRecordDecl>(RD))
- if (CXXRD->getNumBases())
- return false;
- for (FieldDecl *Field : RD->fields()) {
- ++FieldNo;
- // If this is a union, skip all the fields that aren't being initialized.
- if (RD->isUnion() &&
- !declaresSameEntity(ILE->getInitializedFieldInUnion(), Field))
- continue;
- // Don't emit anonymous bitfields or zero-sized fields.
- if (Field->isUnnamedBitfield() || Field->isZeroSize(CGM.getContext()))
- continue;
- // Get the initializer. A struct can include fields without initializers,
- // we just use explicit null values for them.
- Expr *Init = nullptr;
- if (ElementNo < ILE->getNumInits())
- Init = ILE->getInit(ElementNo++);
- if (Init && isa<NoInitExpr>(Init))
- continue;
- // When emitting a DesignatedInitUpdateExpr, a nested InitListExpr
- // represents additional overwriting of our current constant value, and not
- // a new constant to emit independently.
- if (AllowOverwrite &&
- (Field->getType()->isArrayType() || Field->getType()->isRecordType())) {
- if (auto *SubILE = dyn_cast<InitListExpr>(Init)) {
- CharUnits Offset = CGM.getContext().toCharUnitsFromBits(
- Layout.getFieldOffset(FieldNo));
- if (!EmitDesignatedInitUpdater(Emitter, Builder, StartOffset + Offset,
- Field->getType(), SubILE))
- return false;
- // If we split apart the field's value, try to collapse it down to a
- // single value now.
- Builder.condense(StartOffset + Offset,
- CGM.getTypes().ConvertTypeForMem(Field->getType()));
- continue;
- }
- }
- llvm::Constant *EltInit =
- Init ? Emitter.tryEmitPrivateForMemory(Init, Field->getType())
- : Emitter.emitNullForMemory(Field->getType());
- if (!EltInit)
- return false;
- if (!Field->isBitField()) {
- // Handle non-bitfield members.
- if (!AppendField(Field, Layout.getFieldOffset(FieldNo), EltInit,
- AllowOverwrite))
- return false;
- // After emitting a non-empty field with [[no_unique_address]], we may
- // need to overwrite its tail padding.
- if (Field->hasAttr<NoUniqueAddressAttr>())
- AllowOverwrite = true;
- } else {
- // Otherwise we have a bitfield.
- if (auto *CI = dyn_cast<llvm::ConstantInt>(EltInit)) {
- if (!AppendBitField(Field, Layout.getFieldOffset(FieldNo), CI,
- AllowOverwrite))
- return false;
- } else {
- // We are trying to initialize a bitfield with a non-trivial constant,
- // this must require run-time code.
- return false;
- }
- }
- }
- return true;
- }
- namespace {
- struct BaseInfo {
- BaseInfo(const CXXRecordDecl *Decl, CharUnits Offset, unsigned Index)
- : Decl(Decl), Offset(Offset), Index(Index) {
- }
- const CXXRecordDecl *Decl;
- CharUnits Offset;
- unsigned Index;
- bool operator<(const BaseInfo &O) const { return Offset < O.Offset; }
- };
- }
- bool ConstStructBuilder::Build(const APValue &Val, const RecordDecl *RD,
- bool IsPrimaryBase,
- const CXXRecordDecl *VTableClass,
- CharUnits Offset) {
- const ASTRecordLayout &Layout = CGM.getContext().getASTRecordLayout(RD);
- if (const CXXRecordDecl *CD = dyn_cast<CXXRecordDecl>(RD)) {
- // Add a vtable pointer, if we need one and it hasn't already been added.
- if (Layout.hasOwnVFPtr()) {
- llvm::Constant *VTableAddressPoint =
- CGM.getCXXABI().getVTableAddressPointForConstExpr(
- BaseSubobject(CD, Offset), VTableClass);
- if (!AppendBytes(Offset, VTableAddressPoint))
- return false;
- }
- // Accumulate and sort bases, in order to visit them in address order, which
- // may not be the same as declaration order.
- SmallVector<BaseInfo, 8> Bases;
- Bases.reserve(CD->getNumBases());
- unsigned BaseNo = 0;
- for (CXXRecordDecl::base_class_const_iterator Base = CD->bases_begin(),
- BaseEnd = CD->bases_end(); Base != BaseEnd; ++Base, ++BaseNo) {
- assert(!Base->isVirtual() && "should not have virtual bases here");
- const CXXRecordDecl *BD = Base->getType()->getAsCXXRecordDecl();
- CharUnits BaseOffset = Layout.getBaseClassOffset(BD);
- Bases.push_back(BaseInfo(BD, BaseOffset, BaseNo));
- }
- llvm::stable_sort(Bases);
- for (unsigned I = 0, N = Bases.size(); I != N; ++I) {
- BaseInfo &Base = Bases[I];
- bool IsPrimaryBase = Layout.getPrimaryBase() == Base.Decl;
- Build(Val.getStructBase(Base.Index), Base.Decl, IsPrimaryBase,
- VTableClass, Offset + Base.Offset);
- }
- }
- unsigned FieldNo = 0;
- uint64_t OffsetBits = CGM.getContext().toBits(Offset);
- bool AllowOverwrite = false;
- for (RecordDecl::field_iterator Field = RD->field_begin(),
- FieldEnd = RD->field_end(); Field != FieldEnd; ++Field, ++FieldNo) {
- // If this is a union, skip all the fields that aren't being initialized.
- if (RD->isUnion() && !declaresSameEntity(Val.getUnionField(), *Field))
- continue;
- // Don't emit anonymous bitfields or zero-sized fields.
- if (Field->isUnnamedBitfield() || Field->isZeroSize(CGM.getContext()))
- continue;
- // Emit the value of the initializer.
- const APValue &FieldValue =
- RD->isUnion() ? Val.getUnionValue() : Val.getStructField(FieldNo);
- llvm::Constant *EltInit =
- Emitter.tryEmitPrivateForMemory(FieldValue, Field->getType());
- if (!EltInit)
- return false;
- if (!Field->isBitField()) {
- // Handle non-bitfield members.
- if (!AppendField(*Field, Layout.getFieldOffset(FieldNo) + OffsetBits,
- EltInit, AllowOverwrite))
- return false;
- // After emitting a non-empty field with [[no_unique_address]], we may
- // need to overwrite its tail padding.
- if (Field->hasAttr<NoUniqueAddressAttr>())
- AllowOverwrite = true;
- } else {
- // Otherwise we have a bitfield.
- if (!AppendBitField(*Field, Layout.getFieldOffset(FieldNo) + OffsetBits,
- cast<llvm::ConstantInt>(EltInit), AllowOverwrite))
- return false;
- }
- }
- return true;
- }
- llvm::Constant *ConstStructBuilder::Finalize(QualType Type) {
- Type = Type.getNonReferenceType();
- RecordDecl *RD = Type->castAs<RecordType>()->getDecl();
- llvm::Type *ValTy = CGM.getTypes().ConvertType(Type);
- return Builder.build(ValTy, RD->hasFlexibleArrayMember());
- }
- llvm::Constant *ConstStructBuilder::BuildStruct(ConstantEmitter &Emitter,
- InitListExpr *ILE,
- QualType ValTy) {
- ConstantAggregateBuilder Const(Emitter.CGM);
- ConstStructBuilder Builder(Emitter, Const, CharUnits::Zero());
- if (!Builder.Build(ILE, /*AllowOverwrite*/false))
- return nullptr;
- return Builder.Finalize(ValTy);
- }
- llvm::Constant *ConstStructBuilder::BuildStruct(ConstantEmitter &Emitter,
- const APValue &Val,
- QualType ValTy) {
- ConstantAggregateBuilder Const(Emitter.CGM);
- ConstStructBuilder Builder(Emitter, Const, CharUnits::Zero());
- const RecordDecl *RD = ValTy->castAs<RecordType>()->getDecl();
- const CXXRecordDecl *CD = dyn_cast<CXXRecordDecl>(RD);
- if (!Builder.Build(Val, RD, false, CD, CharUnits::Zero()))
- return nullptr;
- return Builder.Finalize(ValTy);
- }
- bool ConstStructBuilder::UpdateStruct(ConstantEmitter &Emitter,
- ConstantAggregateBuilder &Const,
- CharUnits Offset, InitListExpr *Updater) {
- return ConstStructBuilder(Emitter, Const, Offset)
- .Build(Updater, /*AllowOverwrite*/ true);
- }
- //===----------------------------------------------------------------------===//
- // ConstExprEmitter
- //===----------------------------------------------------------------------===//
- static ConstantAddress tryEmitGlobalCompoundLiteral(CodeGenModule &CGM,
- CodeGenFunction *CGF,
- const CompoundLiteralExpr *E) {
- CharUnits Align = CGM.getContext().getTypeAlignInChars(E->getType());
- if (llvm::GlobalVariable *Addr =
- CGM.getAddrOfConstantCompoundLiteralIfEmitted(E))
- return ConstantAddress(Addr, Addr->getValueType(), Align);
- LangAS addressSpace = E->getType().getAddressSpace();
- ConstantEmitter emitter(CGM, CGF);
- llvm::Constant *C = emitter.tryEmitForInitializer(E->getInitializer(),
- addressSpace, E->getType());
- if (!C) {
- assert(!E->isFileScope() &&
- "file-scope compound literal did not have constant initializer!");
- return ConstantAddress::invalid();
- }
- auto GV = new llvm::GlobalVariable(CGM.getModule(), C->getType(),
- CGM.isTypeConstant(E->getType(), true),
- llvm::GlobalValue::InternalLinkage,
- C, ".compoundliteral", nullptr,
- llvm::GlobalVariable::NotThreadLocal,
- CGM.getContext().getTargetAddressSpace(addressSpace));
- emitter.finalize(GV);
- GV->setAlignment(Align.getAsAlign());
- CGM.setAddrOfConstantCompoundLiteral(E, GV);
- return ConstantAddress(GV, GV->getValueType(), Align);
- }
- static llvm::Constant *
- EmitArrayConstant(CodeGenModule &CGM, llvm::ArrayType *DesiredType,
- llvm::Type *CommonElementType, unsigned ArrayBound,
- SmallVectorImpl<llvm::Constant *> &Elements,
- llvm::Constant *Filler) {
- // Figure out how long the initial prefix of non-zero elements is.
- unsigned NonzeroLength = ArrayBound;
- if (Elements.size() < NonzeroLength && Filler->isNullValue())
- NonzeroLength = Elements.size();
- if (NonzeroLength == Elements.size()) {
- while (NonzeroLength > 0 && Elements[NonzeroLength - 1]->isNullValue())
- --NonzeroLength;
- }
- if (NonzeroLength == 0)
- return llvm::ConstantAggregateZero::get(DesiredType);
- // Add a zeroinitializer array filler if we have lots of trailing zeroes.
- unsigned TrailingZeroes = ArrayBound - NonzeroLength;
- if (TrailingZeroes >= 8) {
- assert(Elements.size() >= NonzeroLength &&
- "missing initializer for non-zero element");
- // If all the elements had the same type up to the trailing zeroes, emit a
- // struct of two arrays (the nonzero data and the zeroinitializer).
- if (CommonElementType && NonzeroLength >= 8) {
- llvm::Constant *Initial = llvm::ConstantArray::get(
- llvm::ArrayType::get(CommonElementType, NonzeroLength),
- makeArrayRef(Elements).take_front(NonzeroLength));
- Elements.resize(2);
- Elements[0] = Initial;
- } else {
- Elements.resize(NonzeroLength + 1);
- }
- auto *FillerType =
- CommonElementType ? CommonElementType : DesiredType->getElementType();
- FillerType = llvm::ArrayType::get(FillerType, TrailingZeroes);
- Elements.back() = llvm::ConstantAggregateZero::get(FillerType);
- CommonElementType = nullptr;
- } else if (Elements.size() != ArrayBound) {
- // Otherwise pad to the right size with the filler if necessary.
- Elements.resize(ArrayBound, Filler);
- if (Filler->getType() != CommonElementType)
- CommonElementType = nullptr;
- }
- // If all elements have the same type, just emit an array constant.
- if (CommonElementType)
- return llvm::ConstantArray::get(
- llvm::ArrayType::get(CommonElementType, ArrayBound), Elements);
- // We have mixed types. Use a packed struct.
- llvm::SmallVector<llvm::Type *, 16> Types;
- Types.reserve(Elements.size());
- for (llvm::Constant *Elt : Elements)
- Types.push_back(Elt->getType());
- llvm::StructType *SType =
- llvm::StructType::get(CGM.getLLVMContext(), Types, true);
- return llvm::ConstantStruct::get(SType, Elements);
- }
- // This class only needs to handle arrays, structs and unions. Outside C++11
- // mode, we don't currently constant fold those types. All other types are
- // handled by constant folding.
- //
- // Constant folding is currently missing support for a few features supported
- // here: CK_ToUnion, CK_ReinterpretMemberPointer, and DesignatedInitUpdateExpr.
- class ConstExprEmitter :
- public StmtVisitor<ConstExprEmitter, llvm::Constant*, QualType> {
- CodeGenModule &CGM;
- ConstantEmitter &Emitter;
- llvm::LLVMContext &VMContext;
- public:
- ConstExprEmitter(ConstantEmitter &emitter)
- : CGM(emitter.CGM), Emitter(emitter), VMContext(CGM.getLLVMContext()) {
- }
- //===--------------------------------------------------------------------===//
- // Visitor Methods
- //===--------------------------------------------------------------------===//
- llvm::Constant *VisitStmt(Stmt *S, QualType T) {
- return nullptr;
- }
- llvm::Constant *VisitConstantExpr(ConstantExpr *CE, QualType T) {
- if (llvm::Constant *Result = Emitter.tryEmitConstantExpr(CE))
- return Result;
- return Visit(CE->getSubExpr(), T);
- }
- llvm::Constant *VisitParenExpr(ParenExpr *PE, QualType T) {
- return Visit(PE->getSubExpr(), T);
- }
- llvm::Constant *
- VisitSubstNonTypeTemplateParmExpr(SubstNonTypeTemplateParmExpr *PE,
- QualType T) {
- return Visit(PE->getReplacement(), T);
- }
- llvm::Constant *VisitGenericSelectionExpr(GenericSelectionExpr *GE,
- QualType T) {
- return Visit(GE->getResultExpr(), T);
- }
- llvm::Constant *VisitChooseExpr(ChooseExpr *CE, QualType T) {
- return Visit(CE->getChosenSubExpr(), T);
- }
- llvm::Constant *VisitCompoundLiteralExpr(CompoundLiteralExpr *E, QualType T) {
- return Visit(E->getInitializer(), T);
- }
- llvm::Constant *VisitCastExpr(CastExpr *E, QualType destType) {
- if (const auto *ECE = dyn_cast<ExplicitCastExpr>(E))
- CGM.EmitExplicitCastExprType(ECE, Emitter.CGF);
- Expr *subExpr = E->getSubExpr();
- switch (E->getCastKind()) {
- case CK_ToUnion: {
- // GCC cast to union extension
- assert(E->getType()->isUnionType() &&
- "Destination type is not union type!");
- auto field = E->getTargetUnionField();
- auto C = Emitter.tryEmitPrivateForMemory(subExpr, field->getType());
- if (!C) return nullptr;
- auto destTy = ConvertType(destType);
- if (C->getType() == destTy) return C;
- // Build a struct with the union sub-element as the first member,
- // and padded to the appropriate size.
- SmallVector<llvm::Constant*, 2> Elts;
- SmallVector<llvm::Type*, 2> Types;
- Elts.push_back(C);
- Types.push_back(C->getType());
- unsigned CurSize = CGM.getDataLayout().getTypeAllocSize(C->getType());
- unsigned TotalSize = CGM.getDataLayout().getTypeAllocSize(destTy);
- assert(CurSize <= TotalSize && "Union size mismatch!");
- if (unsigned NumPadBytes = TotalSize - CurSize) {
- llvm::Type *Ty = CGM.CharTy;
- if (NumPadBytes > 1)
- Ty = llvm::ArrayType::get(Ty, NumPadBytes);
- Elts.push_back(llvm::UndefValue::get(Ty));
- Types.push_back(Ty);
- }
- llvm::StructType *STy = llvm::StructType::get(VMContext, Types, false);
- return llvm::ConstantStruct::get(STy, Elts);
- }
- case CK_AddressSpaceConversion: {
- auto C = Emitter.tryEmitPrivate(subExpr, subExpr->getType());
- if (!C) return nullptr;
- LangAS destAS = E->getType()->getPointeeType().getAddressSpace();
- LangAS srcAS = subExpr->getType()->getPointeeType().getAddressSpace();
- llvm::Type *destTy = ConvertType(E->getType());
- return CGM.getTargetCodeGenInfo().performAddrSpaceCast(CGM, C, srcAS,
- destAS, destTy);
- }
- case CK_LValueToRValue:
- case CK_AtomicToNonAtomic:
- case CK_NonAtomicToAtomic:
- case CK_NoOp:
- case CK_ConstructorConversion:
- return Visit(subExpr, destType);
- case CK_IntToOCLSampler:
- llvm_unreachable("global sampler variables are not generated");
- case CK_Dependent: llvm_unreachable("saw dependent cast!");
- case CK_BuiltinFnToFnPtr:
- llvm_unreachable("builtin functions are handled elsewhere");
- case CK_ReinterpretMemberPointer:
- case CK_DerivedToBaseMemberPointer:
- case CK_BaseToDerivedMemberPointer: {
- auto C = Emitter.tryEmitPrivate(subExpr, subExpr->getType());
- if (!C) return nullptr;
- return CGM.getCXXABI().EmitMemberPointerConversion(E, C);
- }
- // These will never be supported.
- case CK_ObjCObjectLValueCast:
- case CK_ARCProduceObject:
- case CK_ARCConsumeObject:
- case CK_ARCReclaimReturnedObject:
- case CK_ARCExtendBlockObject:
- case CK_CopyAndAutoreleaseBlockObject:
- return nullptr;
- // These don't need to be handled here because Evaluate knows how to
- // evaluate them in the cases where they can be folded.
- case CK_BitCast:
- case CK_ToVoid:
- case CK_Dynamic:
- case CK_LValueBitCast:
- case CK_LValueToRValueBitCast:
- case CK_NullToMemberPointer:
- case CK_UserDefinedConversion:
- case CK_CPointerToObjCPointerCast:
- case CK_BlockPointerToObjCPointerCast:
- case CK_AnyPointerToBlockPointerCast:
- case CK_ArrayToPointerDecay:
- case CK_FunctionToPointerDecay:
- case CK_BaseToDerived:
- case CK_DerivedToBase:
- case CK_UncheckedDerivedToBase:
- case CK_MemberPointerToBoolean:
- case CK_VectorSplat:
- case CK_FloatingRealToComplex:
- case CK_FloatingComplexToReal:
- case CK_FloatingComplexToBoolean:
- case CK_FloatingComplexCast:
- case CK_FloatingComplexToIntegralComplex:
- case CK_IntegralRealToComplex:
- case CK_IntegralComplexToReal:
- case CK_IntegralComplexToBoolean:
- case CK_IntegralComplexCast:
- case CK_IntegralComplexToFloatingComplex:
- case CK_PointerToIntegral:
- case CK_PointerToBoolean:
- case CK_NullToPointer:
- case CK_IntegralCast:
- case CK_BooleanToSignedIntegral:
- case CK_IntegralToPointer:
- case CK_IntegralToBoolean:
- case CK_IntegralToFloating:
- case CK_FloatingToIntegral:
- case CK_FloatingToBoolean:
- case CK_FloatingCast:
- case CK_FloatingToFixedPoint:
- case CK_FixedPointToFloating:
- case CK_FixedPointCast:
- case CK_FixedPointToBoolean:
- case CK_FixedPointToIntegral:
- case CK_IntegralToFixedPoint:
- case CK_ZeroToOCLOpaqueType:
- case CK_MatrixCast:
- return nullptr;
- }
- llvm_unreachable("Invalid CastKind");
- }
- llvm::Constant *VisitCXXDefaultInitExpr(CXXDefaultInitExpr *DIE, QualType T) {
- // No need for a DefaultInitExprScope: we don't handle 'this' in a
- // constant expression.
- return Visit(DIE->getExpr(), T);
- }
- llvm::Constant *VisitExprWithCleanups(ExprWithCleanups *E, QualType T) {
- return Visit(E->getSubExpr(), T);
- }
- llvm::Constant *VisitMaterializeTemporaryExpr(MaterializeTemporaryExpr *E,
- QualType T) {
- return Visit(E->getSubExpr(), T);
- }
- llvm::Constant *EmitArrayInitialization(InitListExpr *ILE, QualType T) {
- auto *CAT = CGM.getContext().getAsConstantArrayType(ILE->getType());
- assert(CAT && "can't emit array init for non-constant-bound array");
- unsigned NumInitElements = ILE->getNumInits();
- unsigned NumElements = CAT->getSize().getZExtValue();
- // Initialising an array requires us to automatically
- // initialise any elements that have not been initialised explicitly
- unsigned NumInitableElts = std::min(NumInitElements, NumElements);
- QualType EltType = CAT->getElementType();
- // Initialize remaining array elements.
- llvm::Constant *fillC = nullptr;
- if (Expr *filler = ILE->getArrayFiller()) {
- fillC = Emitter.tryEmitAbstractForMemory(filler, EltType);
- if (!fillC)
- return nullptr;
- }
- // Copy initializer elements.
- SmallVector<llvm::Constant*, 16> Elts;
- if (fillC && fillC->isNullValue())
- Elts.reserve(NumInitableElts + 1);
- else
- Elts.reserve(NumElements);
- llvm::Type *CommonElementType = nullptr;
- for (unsigned i = 0; i < NumInitableElts; ++i) {
- Expr *Init = ILE->getInit(i);
- llvm::Constant *C = Emitter.tryEmitPrivateForMemory(Init, EltType);
- if (!C)
- return nullptr;
- if (i == 0)
- CommonElementType = C->getType();
- else if (C->getType() != CommonElementType)
- CommonElementType = nullptr;
- Elts.push_back(C);
- }
- llvm::ArrayType *Desired =
- cast<llvm::ArrayType>(CGM.getTypes().ConvertType(ILE->getType()));
- return EmitArrayConstant(CGM, Desired, CommonElementType, NumElements, Elts,
- fillC);
- }
- llvm::Constant *EmitRecordInitialization(InitListExpr *ILE, QualType T) {
- return ConstStructBuilder::BuildStruct(Emitter, ILE, T);
- }
- llvm::Constant *VisitImplicitValueInitExpr(ImplicitValueInitExpr* E,
- QualType T) {
- return CGM.EmitNullConstant(T);
- }
- llvm::Constant *VisitInitListExpr(InitListExpr *ILE, QualType T) {
- if (ILE->isTransparent())
- return Visit(ILE->getInit(0), T);
- if (ILE->getType()->isArrayType())
- return EmitArrayInitialization(ILE, T);
- if (ILE->getType()->isRecordType())
- return EmitRecordInitialization(ILE, T);
- return nullptr;
- }
- llvm::Constant *VisitDesignatedInitUpdateExpr(DesignatedInitUpdateExpr *E,
- QualType destType) {
- auto C = Visit(E->getBase(), destType);
- if (!C)
- return nullptr;
- ConstantAggregateBuilder Const(CGM);
- Const.add(C, CharUnits::Zero(), false);
- if (!EmitDesignatedInitUpdater(Emitter, Const, CharUnits::Zero(), destType,
- E->getUpdater()))
- return nullptr;
- llvm::Type *ValTy = CGM.getTypes().ConvertType(destType);
- bool HasFlexibleArray = false;
- if (auto *RT = destType->getAs<RecordType>())
- HasFlexibleArray = RT->getDecl()->hasFlexibleArrayMember();
- return Const.build(ValTy, HasFlexibleArray);
- }
- llvm::Constant *VisitCXXConstructExpr(CXXConstructExpr *E, QualType Ty) {
- if (!E->getConstructor()->isTrivial())
- return nullptr;
- // Only default and copy/move constructors can be trivial.
- if (E->getNumArgs()) {
- assert(E->getNumArgs() == 1 && "trivial ctor with > 1 argument");
- assert(E->getConstructor()->isCopyOrMoveConstructor() &&
- "trivial ctor has argument but isn't a copy/move ctor");
- Expr *Arg = E->getArg(0);
- assert(CGM.getContext().hasSameUnqualifiedType(Ty, Arg->getType()) &&
- "argument to copy ctor is of wrong type");
- return Visit(Arg, Ty);
- }
- return CGM.EmitNullConstant(Ty);
- }
- llvm::Constant *VisitStringLiteral(StringLiteral *E, QualType T) {
- // This is a string literal initializing an array in an initializer.
- return CGM.GetConstantArrayFromStringLiteral(E);
- }
- llvm::Constant *VisitObjCEncodeExpr(ObjCEncodeExpr *E, QualType T) {
- // This must be an @encode initializing an array in a static initializer.
- // Don't emit it as the address of the string, emit the string data itself
- // as an inline array.
- std::string Str;
- CGM.getContext().getObjCEncodingForType(E->getEncodedType(), Str);
- const ConstantArrayType *CAT = CGM.getContext().getAsConstantArrayType(T);
- // Resize the string to the right size, adding zeros at the end, or
- // truncating as needed.
- Str.resize(CAT->getSize().getZExtValue(), '\0');
- return llvm::ConstantDataArray::getString(VMContext, Str, false);
- }
- llvm::Constant *VisitUnaryExtension(const UnaryOperator *E, QualType T) {
- return Visit(E->getSubExpr(), T);
- }
- // Utility methods
- llvm::Type *ConvertType(QualType T) {
- return CGM.getTypes().ConvertType(T);
- }
- };
- } // end anonymous namespace.
- llvm::Constant *ConstantEmitter::validateAndPopAbstract(llvm::Constant *C,
- AbstractState saved) {
- Abstract = saved.OldValue;
- assert(saved.OldPlaceholdersSize == PlaceholderAddresses.size() &&
- "created a placeholder while doing an abstract emission?");
- // No validation necessary for now.
- // No cleanup to do for now.
- return C;
- }
- llvm::Constant *
- ConstantEmitter::tryEmitAbstractForInitializer(const VarDecl &D) {
- auto state = pushAbstract();
- auto C = tryEmitPrivateForVarInit(D);
- return validateAndPopAbstract(C, state);
- }
- llvm::Constant *
- ConstantEmitter::tryEmitAbstract(const Expr *E, QualType destType) {
- auto state = pushAbstract();
- auto C = tryEmitPrivate(E, destType);
- return validateAndPopAbstract(C, state);
- }
- llvm::Constant *
- ConstantEmitter::tryEmitAbstract(const APValue &value, QualType destType) {
- auto state = pushAbstract();
- auto C = tryEmitPrivate(value, destType);
- return validateAndPopAbstract(C, state);
- }
- llvm::Constant *ConstantEmitter::tryEmitConstantExpr(const ConstantExpr *CE) {
- if (!CE->hasAPValueResult())
- return nullptr;
- const Expr *Inner = CE->getSubExpr()->IgnoreImplicit();
- QualType RetType;
- if (auto *Call = dyn_cast<CallExpr>(Inner))
- RetType = Call->getCallReturnType(CGM.getContext());
- else if (auto *Ctor = dyn_cast<CXXConstructExpr>(Inner))
- RetType = Ctor->getType();
- llvm::Constant *Res =
- emitAbstract(CE->getBeginLoc(), CE->getAPValueResult(), RetType);
- return Res;
- }
- llvm::Constant *
- ConstantEmitter::emitAbstract(const Expr *E, QualType destType) {
- auto state = pushAbstract();
- auto C = tryEmitPrivate(E, destType);
- C = validateAndPopAbstract(C, state);
- if (!C) {
- CGM.Error(E->getExprLoc(),
- "internal error: could not emit constant value \"abstractly\"");
- C = CGM.EmitNullConstant(destType);
- }
- return C;
- }
- llvm::Constant *
- ConstantEmitter::emitAbstract(SourceLocation loc, const APValue &value,
- QualType destType) {
- auto state = pushAbstract();
- auto C = tryEmitPrivate(value, destType);
- C = validateAndPopAbstract(C, state);
- if (!C) {
- CGM.Error(loc,
- "internal error: could not emit constant value \"abstractly\"");
- C = CGM.EmitNullConstant(destType);
- }
- return C;
- }
- llvm::Constant *ConstantEmitter::tryEmitForInitializer(const VarDecl &D) {
- initializeNonAbstract(D.getType().getAddressSpace());
- return markIfFailed(tryEmitPrivateForVarInit(D));
- }
- llvm::Constant *ConstantEmitter::tryEmitForInitializer(const Expr *E,
- LangAS destAddrSpace,
- QualType destType) {
- initializeNonAbstract(destAddrSpace);
- return markIfFailed(tryEmitPrivateForMemory(E, destType));
- }
- llvm::Constant *ConstantEmitter::emitForInitializer(const APValue &value,
- LangAS destAddrSpace,
- QualType destType) {
- initializeNonAbstract(destAddrSpace);
- auto C = tryEmitPrivateForMemory(value, destType);
- assert(C && "couldn't emit constant value non-abstractly?");
- return C;
- }
- llvm::GlobalValue *ConstantEmitter::getCurrentAddrPrivate() {
- assert(!Abstract && "cannot get current address for abstract constant");
- // Make an obviously ill-formed global that should blow up compilation
- // if it survives.
- auto global = new llvm::GlobalVariable(CGM.getModule(), CGM.Int8Ty, true,
- llvm::GlobalValue::PrivateLinkage,
- /*init*/ nullptr,
- /*name*/ "",
- /*before*/ nullptr,
- llvm::GlobalVariable::NotThreadLocal,
- CGM.getContext().getTargetAddressSpace(DestAddressSpace));
- PlaceholderAddresses.push_back(std::make_pair(nullptr, global));
- return global;
- }
- void ConstantEmitter::registerCurrentAddrPrivate(llvm::Constant *signal,
- llvm::GlobalValue *placeholder) {
- assert(!PlaceholderAddresses.empty());
- assert(PlaceholderAddresses.back().first == nullptr);
- assert(PlaceholderAddresses.back().second == placeholder);
- PlaceholderAddresses.back().first = signal;
- }
- namespace {
- struct ReplacePlaceholders {
- CodeGenModule &CGM;
- /// The base address of the global.
- llvm::Constant *Base;
- llvm::Type *BaseValueTy = nullptr;
- /// The placeholder addresses that were registered during emission.
- llvm::DenseMap<llvm::Constant*, llvm::GlobalVariable*> PlaceholderAddresses;
- /// The locations of the placeholder signals.
- llvm::DenseMap<llvm::GlobalVariable*, llvm::Constant*> Locations;
- /// The current index stack. We use a simple unsigned stack because
- /// we assume that placeholders will be relatively sparse in the
- /// initializer, but we cache the index values we find just in case.
- llvm::SmallVector<unsigned, 8> Indices;
- llvm::SmallVector<llvm::Constant*, 8> IndexValues;
- ReplacePlaceholders(CodeGenModule &CGM, llvm::Constant *base,
- ArrayRef<std::pair<llvm::Constant*,
- llvm::GlobalVariable*>> addresses)
- : CGM(CGM), Base(base),
- PlaceholderAddresses(addresses.begin(), addresses.end()) {
- }
- void replaceInInitializer(llvm::Constant *init) {
- // Remember the type of the top-most initializer.
- BaseValueTy = init->getType();
- // Initialize the stack.
- Indices.push_back(0);
- IndexValues.push_back(nullptr);
- // Recurse into the initializer.
- findLocations(init);
- // Check invariants.
- assert(IndexValues.size() == Indices.size() && "mismatch");
- assert(Indices.size() == 1 && "didn't pop all indices");
- // Do the replacement; this basically invalidates 'init'.
- assert(Locations.size() == PlaceholderAddresses.size() &&
- "missed a placeholder?");
- // We're iterating over a hashtable, so this would be a source of
- // non-determinism in compiler output *except* that we're just
- // messing around with llvm::Constant structures, which never itself
- // does anything that should be visible in compiler output.
- for (auto &entry : Locations) {
- assert(entry.first->getParent() == nullptr && "not a placeholder!");
- entry.first->replaceAllUsesWith(entry.second);
- entry.first->eraseFromParent();
- }
- }
- private:
- void findLocations(llvm::Constant *init) {
- // Recurse into aggregates.
- if (auto agg = dyn_cast<llvm::ConstantAggregate>(init)) {
- for (unsigned i = 0, e = agg->getNumOperands(); i != e; ++i) {
- Indices.push_back(i);
- IndexValues.push_back(nullptr);
- findLocations(agg->getOperand(i));
- IndexValues.pop_back();
- Indices.pop_back();
- }
- return;
- }
- // Otherwise, check for registered constants.
- while (true) {
- auto it = PlaceholderAddresses.find(init);
- if (it != PlaceholderAddresses.end()) {
- setLocation(it->second);
- break;
- }
- // Look through bitcasts or other expressions.
- if (auto expr = dyn_cast<llvm::ConstantExpr>(init)) {
- init = expr->getOperand(0);
- } else {
- break;
- }
- }
- }
- void setLocation(llvm::GlobalVariable *placeholder) {
- assert(Locations.find(placeholder) == Locations.end() &&
- "already found location for placeholder!");
- // Lazily fill in IndexValues with the values from Indices.
- // We do this in reverse because we should always have a strict
- // prefix of indices from the start.
- assert(Indices.size() == IndexValues.size());
- for (size_t i = Indices.size() - 1; i != size_t(-1); --i) {
- if (IndexValues[i]) {
- #ifndef NDEBUG
- for (size_t j = 0; j != i + 1; ++j) {
- assert(IndexValues[j] &&
- isa<llvm::ConstantInt>(IndexValues[j]) &&
- cast<llvm::ConstantInt>(IndexValues[j])->getZExtValue()
- == Indices[j]);
- }
- #endif
- break;
- }
- IndexValues[i] = llvm::ConstantInt::get(CGM.Int32Ty, Indices[i]);
- }
- // Form a GEP and then bitcast to the placeholder type so that the
- // replacement will succeed.
- llvm::Constant *location =
- llvm::ConstantExpr::getInBoundsGetElementPtr(BaseValueTy,
- Base, IndexValues);
- location = llvm::ConstantExpr::getBitCast(location,
- placeholder->getType());
- Locations.insert({placeholder, location});
- }
- };
- }
- void ConstantEmitter::finalize(llvm::GlobalVariable *global) {
- assert(InitializedNonAbstract &&
- "finalizing emitter that was used for abstract emission?");
- assert(!Finalized && "finalizing emitter multiple times");
- assert(global->getInitializer());
- // Note that we might also be Failed.
- Finalized = true;
- if (!PlaceholderAddresses.empty()) {
- ReplacePlaceholders(CGM, global, PlaceholderAddresses)
- .replaceInInitializer(global->getInitializer());
- PlaceholderAddresses.clear(); // satisfy
- }
- }
- ConstantEmitter::~ConstantEmitter() {
- assert((!InitializedNonAbstract || Finalized || Failed) &&
- "not finalized after being initialized for non-abstract emission");
- assert(PlaceholderAddresses.empty() && "unhandled placeholders");
- }
- static QualType getNonMemoryType(CodeGenModule &CGM, QualType type) {
- if (auto AT = type->getAs<AtomicType>()) {
- return CGM.getContext().getQualifiedType(AT->getValueType(),
- type.getQualifiers());
- }
- return type;
- }
- llvm::Constant *ConstantEmitter::tryEmitPrivateForVarInit(const VarDecl &D) {
- // Make a quick check if variable can be default NULL initialized
- // and avoid going through rest of code which may do, for c++11,
- // initialization of memory to all NULLs.
- if (!D.hasLocalStorage()) {
- QualType Ty = CGM.getContext().getBaseElementType(D.getType());
- if (Ty->isRecordType())
- if (const CXXConstructExpr *E =
- dyn_cast_or_null<CXXConstructExpr>(D.getInit())) {
- const CXXConstructorDecl *CD = E->getConstructor();
- if (CD->isTrivial() && CD->isDefaultConstructor())
- return CGM.EmitNullConstant(D.getType());
- }
- }
- InConstantContext = D.hasConstantInitialization();
- QualType destType = D.getType();
- // Try to emit the initializer. Note that this can allow some things that
- // are not allowed by tryEmitPrivateForMemory alone.
- if (auto value = D.evaluateValue()) {
- return tryEmitPrivateForMemory(*value, destType);
- }
- // FIXME: Implement C++11 [basic.start.init]p2: if the initializer of a
- // reference is a constant expression, and the reference binds to a temporary,
- // then constant initialization is performed. ConstExprEmitter will
- // incorrectly emit a prvalue constant in this case, and the calling code
- // interprets that as the (pointer) value of the reference, rather than the
- // desired value of the referee.
- if (destType->isReferenceType())
- return nullptr;
- const Expr *E = D.getInit();
- assert(E && "No initializer to emit");
- auto nonMemoryDestType = getNonMemoryType(CGM, destType);
- auto C =
- ConstExprEmitter(*this).Visit(const_cast<Expr*>(E), nonMemoryDestType);
- return (C ? emitForMemory(C, destType) : nullptr);
- }
- llvm::Constant *
- ConstantEmitter::tryEmitAbstractForMemory(const Expr *E, QualType destType) {
- auto nonMemoryDestType = getNonMemoryType(CGM, destType);
- auto C = tryEmitAbstract(E, nonMemoryDestType);
- return (C ? emitForMemory(C, destType) : nullptr);
- }
- llvm::Constant *
- ConstantEmitter::tryEmitAbstractForMemory(const APValue &value,
- QualType destType) {
- auto nonMemoryDestType = getNonMemoryType(CGM, destType);
- auto C = tryEmitAbstract(value, nonMemoryDestType);
- return (C ? emitForMemory(C, destType) : nullptr);
- }
- llvm::Constant *ConstantEmitter::tryEmitPrivateForMemory(const Expr *E,
- QualType destType) {
- auto nonMemoryDestType = getNonMemoryType(CGM, destType);
- llvm::Constant *C = tryEmitPrivate(E, nonMemoryDestType);
- return (C ? emitForMemory(C, destType) : nullptr);
- }
- llvm::Constant *ConstantEmitter::tryEmitPrivateForMemory(const APValue &value,
- QualType destType) {
- auto nonMemoryDestType = getNonMemoryType(CGM, destType);
- auto C = tryEmitPrivate(value, nonMemoryDestType);
- return (C ? emitForMemory(C, destType) : nullptr);
- }
- llvm::Constant *ConstantEmitter::emitForMemory(CodeGenModule &CGM,
- llvm::Constant *C,
- QualType destType) {
- // For an _Atomic-qualified constant, we may need to add tail padding.
- if (auto AT = destType->getAs<AtomicType>()) {
- QualType destValueType = AT->getValueType();
- C = emitForMemory(CGM, C, destValueType);
- uint64_t innerSize = CGM.getContext().getTypeSize(destValueType);
- uint64_t outerSize = CGM.getContext().getTypeSize(destType);
- if (innerSize == outerSize)
- return C;
- assert(innerSize < outerSize && "emitted over-large constant for atomic");
- llvm::Constant *elts[] = {
- C,
- llvm::ConstantAggregateZero::get(
- llvm::ArrayType::get(CGM.Int8Ty, (outerSize - innerSize) / 8))
- };
- return llvm::ConstantStruct::getAnon(elts);
- }
- // Zero-extend bool.
- if (C->getType()->isIntegerTy(1)) {
- llvm::Type *boolTy = CGM.getTypes().ConvertTypeForMem(destType);
- return llvm::ConstantExpr::getZExt(C, boolTy);
- }
- return C;
- }
- llvm::Constant *ConstantEmitter::tryEmitPrivate(const Expr *E,
- QualType destType) {
- assert(!destType->isVoidType() && "can't emit a void constant");
- Expr::EvalResult Result;
- bool Success = false;
- if (destType->isReferenceType())
- Success = E->EvaluateAsLValue(Result, CGM.getContext());
- else
- Success = E->EvaluateAsRValue(Result, CGM.getContext(), InConstantContext);
- llvm::Constant *C;
- if (Success && !Result.HasSideEffects)
- C = tryEmitPrivate(Result.Val, destType);
- else
- C = ConstExprEmitter(*this).Visit(const_cast<Expr*>(E), destType);
- return C;
- }
- llvm::Constant *CodeGenModule::getNullPointer(llvm::PointerType *T, QualType QT) {
- return getTargetCodeGenInfo().getNullPointer(*this, T, QT);
- }
- namespace {
- /// A struct which can be used to peephole certain kinds of finalization
- /// that normally happen during l-value emission.
- struct ConstantLValue {
- llvm::Constant *Value;
- bool HasOffsetApplied;
- /*implicit*/ ConstantLValue(llvm::Constant *value,
- bool hasOffsetApplied = false)
- : Value(value), HasOffsetApplied(hasOffsetApplied) {}
- /*implicit*/ ConstantLValue(ConstantAddress address)
- : ConstantLValue(address.getPointer()) {}
- };
- /// A helper class for emitting constant l-values.
- class ConstantLValueEmitter : public ConstStmtVisitor<ConstantLValueEmitter,
- ConstantLValue> {
- CodeGenModule &CGM;
- ConstantEmitter &Emitter;
- const APValue &Value;
- QualType DestType;
- // Befriend StmtVisitorBase so that we don't have to expose Visit*.
- friend StmtVisitorBase;
- public:
- ConstantLValueEmitter(ConstantEmitter &emitter, const APValue &value,
- QualType destType)
- : CGM(emitter.CGM), Emitter(emitter), Value(value), DestType(destType) {}
- llvm::Constant *tryEmit();
- private:
- llvm::Constant *tryEmitAbsolute(llvm::Type *destTy);
- ConstantLValue tryEmitBase(const APValue::LValueBase &base);
- ConstantLValue VisitStmt(const Stmt *S) { return nullptr; }
- ConstantLValue VisitConstantExpr(const ConstantExpr *E);
- ConstantLValue VisitCompoundLiteralExpr(const CompoundLiteralExpr *E);
- ConstantLValue VisitStringLiteral(const StringLiteral *E);
- ConstantLValue VisitObjCBoxedExpr(const ObjCBoxedExpr *E);
- ConstantLValue VisitObjCEncodeExpr(const ObjCEncodeExpr *E);
- ConstantLValue VisitObjCStringLiteral(const ObjCStringLiteral *E);
- ConstantLValue VisitPredefinedExpr(const PredefinedExpr *E);
- ConstantLValue VisitAddrLabelExpr(const AddrLabelExpr *E);
- ConstantLValue VisitCallExpr(const CallExpr *E);
- ConstantLValue VisitBlockExpr(const BlockExpr *E);
- ConstantLValue VisitCXXTypeidExpr(const CXXTypeidExpr *E);
- ConstantLValue VisitMaterializeTemporaryExpr(
- const MaterializeTemporaryExpr *E);
- bool hasNonZeroOffset() const {
- return !Value.getLValueOffset().isZero();
- }
- /// Return the value offset.
- llvm::Constant *getOffset() {
- return llvm::ConstantInt::get(CGM.Int64Ty,
- Value.getLValueOffset().getQuantity());
- }
- /// Apply the value offset to the given constant.
- llvm::Constant *applyOffset(llvm::Constant *C) {
- if (!hasNonZeroOffset())
- return C;
- llvm::Type *origPtrTy = C->getType();
- unsigned AS = origPtrTy->getPointerAddressSpace();
- llvm::Type *charPtrTy = CGM.Int8Ty->getPointerTo(AS);
- C = llvm::ConstantExpr::getBitCast(C, charPtrTy);
- C = llvm::ConstantExpr::getGetElementPtr(CGM.Int8Ty, C, getOffset());
- C = llvm::ConstantExpr::getPointerCast(C, origPtrTy);
- return C;
- }
- };
- }
- llvm::Constant *ConstantLValueEmitter::tryEmit() {
- const APValue::LValueBase &base = Value.getLValueBase();
- // The destination type should be a pointer or reference
- // type, but it might also be a cast thereof.
- //
- // FIXME: the chain of casts required should be reflected in the APValue.
- // We need this in order to correctly handle things like a ptrtoint of a
- // non-zero null pointer and addrspace casts that aren't trivially
- // represented in LLVM IR.
- auto destTy = CGM.getTypes().ConvertTypeForMem(DestType);
- assert(isa<llvm::IntegerType>(destTy) || isa<llvm::PointerType>(destTy));
- // If there's no base at all, this is a null or absolute pointer,
- // possibly cast back to an integer type.
- if (!base) {
- return tryEmitAbsolute(destTy);
- }
- // Otherwise, try to emit the base.
- ConstantLValue result = tryEmitBase(base);
- // If that failed, we're done.
- llvm::Constant *value = result.Value;
- if (!value) return nullptr;
- // Apply the offset if necessary and not already done.
- if (!result.HasOffsetApplied) {
- value = applyOffset(value);
- }
- // Convert to the appropriate type; this could be an lvalue for
- // an integer. FIXME: performAddrSpaceCast
- if (isa<llvm::PointerType>(destTy))
- return llvm::ConstantExpr::getPointerCast(value, destTy);
- return llvm::ConstantExpr::getPtrToInt(value, destTy);
- }
- /// Try to emit an absolute l-value, such as a null pointer or an integer
- /// bitcast to pointer type.
- llvm::Constant *
- ConstantLValueEmitter::tryEmitAbsolute(llvm::Type *destTy) {
- // If we're producing a pointer, this is easy.
- auto destPtrTy = cast<llvm::PointerType>(destTy);
- if (Value.isNullPointer()) {
- // FIXME: integer offsets from non-zero null pointers.
- return CGM.getNullPointer(destPtrTy, DestType);
- }
- // Convert the integer to a pointer-sized integer before converting it
- // to a pointer.
- // FIXME: signedness depends on the original integer type.
- auto intptrTy = CGM.getDataLayout().getIntPtrType(destPtrTy);
- llvm::Constant *C;
- C = llvm::ConstantExpr::getIntegerCast(getOffset(), intptrTy,
- /*isSigned*/ false);
- C = llvm::ConstantExpr::getIntToPtr(C, destPtrTy);
- return C;
- }
- ConstantLValue
- ConstantLValueEmitter::tryEmitBase(const APValue::LValueBase &base) {
- // Handle values.
- if (const ValueDecl *D = base.dyn_cast<const ValueDecl*>()) {
- // The constant always points to the canonical declaration. We want to look
- // at properties of the most recent declaration at the point of emission.
- D = cast<ValueDecl>(D->getMostRecentDecl());
- if (D->hasAttr<WeakRefAttr>())
- return CGM.GetWeakRefReference(D).getPointer();
- if (auto FD = dyn_cast<FunctionDecl>(D))
- return CGM.GetAddrOfFunction(FD);
- if (auto VD = dyn_cast<VarDecl>(D)) {
- // We can never refer to a variable with local storage.
- if (!VD->hasLocalStorage()) {
- if (VD->isFileVarDecl() || VD->hasExternalStorage())
- return CGM.GetAddrOfGlobalVar(VD);
- if (VD->isLocalVarDecl()) {
- return CGM.getOrCreateStaticVarDecl(
- *VD, CGM.getLLVMLinkageVarDefinition(VD, /*IsConstant=*/false));
- }
- }
- }
- if (auto *GD = dyn_cast<MSGuidDecl>(D))
- return CGM.GetAddrOfMSGuidDecl(GD);
- if (auto *TPO = dyn_cast<TemplateParamObjectDecl>(D))
- return CGM.GetAddrOfTemplateParamObject(TPO);
- return nullptr;
- }
- // Handle typeid(T).
- if (TypeInfoLValue TI = base.dyn_cast<TypeInfoLValue>()) {
- llvm::Type *StdTypeInfoPtrTy =
- CGM.getTypes().ConvertType(base.getTypeInfoType())->getPointerTo();
- llvm::Constant *TypeInfo =
- CGM.GetAddrOfRTTIDescriptor(QualType(TI.getType(), 0));
- if (TypeInfo->getType() != StdTypeInfoPtrTy)
- TypeInfo = llvm::ConstantExpr::getBitCast(TypeInfo, StdTypeInfoPtrTy);
- return TypeInfo;
- }
- // Otherwise, it must be an expression.
- return Visit(base.get<const Expr*>());
- }
- ConstantLValue
- ConstantLValueEmitter::VisitConstantExpr(const ConstantExpr *E) {
- if (llvm::Constant *Result = Emitter.tryEmitConstantExpr(E))
- return Result;
- return Visit(E->getSubExpr());
- }
- ConstantLValue
- ConstantLValueEmitter::VisitCompoundLiteralExpr(const CompoundLiteralExpr *E) {
- return tryEmitGlobalCompoundLiteral(CGM, Emitter.CGF, E);
- }
- ConstantLValue
- ConstantLValueEmitter::VisitStringLiteral(const StringLiteral *E) {
- return CGM.GetAddrOfConstantStringFromLiteral(E);
- }
- ConstantLValue
- ConstantLValueEmitter::VisitObjCEncodeExpr(const ObjCEncodeExpr *E) {
- return CGM.GetAddrOfConstantStringFromObjCEncode(E);
- }
- static ConstantLValue emitConstantObjCStringLiteral(const StringLiteral *S,
- QualType T,
- CodeGenModule &CGM) {
- auto C = CGM.getObjCRuntime().GenerateConstantString(S);
- return C.getElementBitCast(CGM.getTypes().ConvertTypeForMem(T));
- }
- ConstantLValue
- ConstantLValueEmitter::VisitObjCStringLiteral(const ObjCStringLiteral *E) {
- return emitConstantObjCStringLiteral(E->getString(), E->getType(), CGM);
- }
- ConstantLValue
- ConstantLValueEmitter::VisitObjCBoxedExpr(const ObjCBoxedExpr *E) {
- assert(E->isExpressibleAsConstantInitializer() &&
- "this boxed expression can't be emitted as a compile-time constant");
- auto *SL = cast<StringLiteral>(E->getSubExpr()->IgnoreParenCasts());
- return emitConstantObjCStringLiteral(SL, E->getType(), CGM);
- }
- ConstantLValue
- ConstantLValueEmitter::VisitPredefinedExpr(const PredefinedExpr *E) {
- return CGM.GetAddrOfConstantStringFromLiteral(E->getFunctionName());
- }
- ConstantLValue
- ConstantLValueEmitter::VisitAddrLabelExpr(const AddrLabelExpr *E) {
- assert(Emitter.CGF && "Invalid address of label expression outside function");
- llvm::Constant *Ptr = Emitter.CGF->GetAddrOfLabel(E->getLabel());
- Ptr = llvm::ConstantExpr::getBitCast(Ptr,
- CGM.getTypes().ConvertType(E->getType()));
- return Ptr;
- }
- ConstantLValue
- ConstantLValueEmitter::VisitCallExpr(const CallExpr *E) {
- unsigned builtin = E->getBuiltinCallee();
- if (builtin == Builtin::BI__builtin_function_start)
- return CGM.GetFunctionStart(
- E->getArg(0)->getAsBuiltinConstantDeclRef(CGM.getContext()));
- if (builtin != Builtin::BI__builtin___CFStringMakeConstantString &&
- builtin != Builtin::BI__builtin___NSStringMakeConstantString)
- return nullptr;
- auto literal = cast<StringLiteral>(E->getArg(0)->IgnoreParenCasts());
- if (builtin == Builtin::BI__builtin___NSStringMakeConstantString) {
- return CGM.getObjCRuntime().GenerateConstantString(literal);
- } else {
- // FIXME: need to deal with UCN conversion issues.
- return CGM.GetAddrOfConstantCFString(literal);
- }
- }
- ConstantLValue
- ConstantLValueEmitter::VisitBlockExpr(const BlockExpr *E) {
- StringRef functionName;
- if (auto CGF = Emitter.CGF)
- functionName = CGF->CurFn->getName();
- else
- functionName = "global";
- return CGM.GetAddrOfGlobalBlock(E, functionName);
- }
- ConstantLValue
- ConstantLValueEmitter::VisitCXXTypeidExpr(const CXXTypeidExpr *E) {
- QualType T;
- if (E->isTypeOperand())
- T = E->getTypeOperand(CGM.getContext());
- else
- T = E->getExprOperand()->getType();
- return CGM.GetAddrOfRTTIDescriptor(T);
- }
- ConstantLValue
- ConstantLValueEmitter::VisitMaterializeTemporaryExpr(
- const MaterializeTemporaryExpr *E) {
- assert(E->getStorageDuration() == SD_Static);
- SmallVector<const Expr *, 2> CommaLHSs;
- SmallVector<SubobjectAdjustment, 2> Adjustments;
- const Expr *Inner =
- E->getSubExpr()->skipRValueSubobjectAdjustments(CommaLHSs, Adjustments);
- return CGM.GetAddrOfGlobalTemporary(E, Inner);
- }
- llvm::Constant *ConstantEmitter::tryEmitPrivate(const APValue &Value,
- QualType DestType) {
- switch (Value.getKind()) {
- case APValue::None:
- case APValue::Indeterminate:
- // Out-of-lifetime and indeterminate values can be modeled as 'undef'.
- return llvm::UndefValue::get(CGM.getTypes().ConvertType(DestType));
- case APValue::LValue:
- return ConstantLValueEmitter(*this, Value, DestType).tryEmit();
- case APValue::Int:
- return llvm::ConstantInt::get(CGM.getLLVMContext(), Value.getInt());
- case APValue::FixedPoint:
- return llvm::ConstantInt::get(CGM.getLLVMContext(),
- Value.getFixedPoint().getValue());
- case APValue::ComplexInt: {
- llvm::Constant *Complex[2];
- Complex[0] = llvm::ConstantInt::get(CGM.getLLVMContext(),
- Value.getComplexIntReal());
- Complex[1] = llvm::ConstantInt::get(CGM.getLLVMContext(),
- Value.getComplexIntImag());
- // FIXME: the target may want to specify that this is packed.
- llvm::StructType *STy =
- llvm::StructType::get(Complex[0]->getType(), Complex[1]->getType());
- return llvm::ConstantStruct::get(STy, Complex);
- }
- case APValue::Float: {
- const llvm::APFloat &Init = Value.getFloat();
- if (&Init.getSemantics() == &llvm::APFloat::IEEEhalf() &&
- !CGM.getContext().getLangOpts().NativeHalfType &&
- CGM.getContext().getTargetInfo().useFP16ConversionIntrinsics())
- return llvm::ConstantInt::get(CGM.getLLVMContext(),
- Init.bitcastToAPInt());
- else
- return llvm::ConstantFP::get(CGM.getLLVMContext(), Init);
- }
- case APValue::ComplexFloat: {
- llvm::Constant *Complex[2];
- Complex[0] = llvm::ConstantFP::get(CGM.getLLVMContext(),
- Value.getComplexFloatReal());
- Complex[1] = llvm::ConstantFP::get(CGM.getLLVMContext(),
- Value.getComplexFloatImag());
- // FIXME: the target may want to specify that this is packed.
- llvm::StructType *STy =
- llvm::StructType::get(Complex[0]->getType(), Complex[1]->getType());
- return llvm::ConstantStruct::get(STy, Complex);
- }
- case APValue::Vector: {
- unsigned NumElts = Value.getVectorLength();
- SmallVector<llvm::Constant *, 4> Inits(NumElts);
- for (unsigned I = 0; I != NumElts; ++I) {
- const APValue &Elt = Value.getVectorElt(I);
- if (Elt.isInt())
- Inits[I] = llvm::ConstantInt::get(CGM.getLLVMContext(), Elt.getInt());
- else if (Elt.isFloat())
- Inits[I] = llvm::ConstantFP::get(CGM.getLLVMContext(), Elt.getFloat());
- else
- llvm_unreachable("unsupported vector element type");
- }
- return llvm::ConstantVector::get(Inits);
- }
- case APValue::AddrLabelDiff: {
- const AddrLabelExpr *LHSExpr = Value.getAddrLabelDiffLHS();
- const AddrLabelExpr *RHSExpr = Value.getAddrLabelDiffRHS();
- llvm::Constant *LHS = tryEmitPrivate(LHSExpr, LHSExpr->getType());
- llvm::Constant *RHS = tryEmitPrivate(RHSExpr, RHSExpr->getType());
- if (!LHS || !RHS) return nullptr;
- // Compute difference
- llvm::Type *ResultType = CGM.getTypes().ConvertType(DestType);
- LHS = llvm::ConstantExpr::getPtrToInt(LHS, CGM.IntPtrTy);
- RHS = llvm::ConstantExpr::getPtrToInt(RHS, CGM.IntPtrTy);
- llvm::Constant *AddrLabelDiff = llvm::ConstantExpr::getSub(LHS, RHS);
- // LLVM is a bit sensitive about the exact format of the
- // address-of-label difference; make sure to truncate after
- // the subtraction.
- return llvm::ConstantExpr::getTruncOrBitCast(AddrLabelDiff, ResultType);
- }
- case APValue::Struct:
- case APValue::Union:
- return ConstStructBuilder::BuildStruct(*this, Value, DestType);
- case APValue::Array: {
- const ArrayType *ArrayTy = CGM.getContext().getAsArrayType(DestType);
- unsigned NumElements = Value.getArraySize();
- unsigned NumInitElts = Value.getArrayInitializedElts();
- // Emit array filler, if there is one.
- llvm::Constant *Filler = nullptr;
- if (Value.hasArrayFiller()) {
- Filler = tryEmitAbstractForMemory(Value.getArrayFiller(),
- ArrayTy->getElementType());
- if (!Filler)
- return nullptr;
- }
- // Emit initializer elements.
- SmallVector<llvm::Constant*, 16> Elts;
- if (Filler && Filler->isNullValue())
- Elts.reserve(NumInitElts + 1);
- else
- Elts.reserve(NumElements);
- llvm::Type *CommonElementType = nullptr;
- for (unsigned I = 0; I < NumInitElts; ++I) {
- llvm::Constant *C = tryEmitPrivateForMemory(
- Value.getArrayInitializedElt(I), ArrayTy->getElementType());
- if (!C) return nullptr;
- if (I == 0)
- CommonElementType = C->getType();
- else if (C->getType() != CommonElementType)
- CommonElementType = nullptr;
- Elts.push_back(C);
- }
- llvm::ArrayType *Desired =
- cast<llvm::ArrayType>(CGM.getTypes().ConvertType(DestType));
- return EmitArrayConstant(CGM, Desired, CommonElementType, NumElements, Elts,
- Filler);
- }
- case APValue::MemberPointer:
- return CGM.getCXXABI().EmitMemberPointer(Value, DestType);
- }
- llvm_unreachable("Unknown APValue kind");
- }
- llvm::GlobalVariable *CodeGenModule::getAddrOfConstantCompoundLiteralIfEmitted(
- const CompoundLiteralExpr *E) {
- return EmittedCompoundLiterals.lookup(E);
- }
- void CodeGenModule::setAddrOfConstantCompoundLiteral(
- const CompoundLiteralExpr *CLE, llvm::GlobalVariable *GV) {
- bool Ok = EmittedCompoundLiterals.insert(std::make_pair(CLE, GV)).second;
- (void)Ok;
- assert(Ok && "CLE has already been emitted!");
- }
- ConstantAddress
- CodeGenModule::GetAddrOfConstantCompoundLiteral(const CompoundLiteralExpr *E) {
- assert(E->isFileScope() && "not a file-scope compound literal expr");
- return tryEmitGlobalCompoundLiteral(*this, nullptr, E);
- }
- llvm::Constant *
- CodeGenModule::getMemberPointerConstant(const UnaryOperator *uo) {
- // Member pointer constants always have a very particular form.
- const MemberPointerType *type = cast<MemberPointerType>(uo->getType());
- const ValueDecl *decl = cast<DeclRefExpr>(uo->getSubExpr())->getDecl();
- // A member function pointer.
- if (const CXXMethodDecl *method = dyn_cast<CXXMethodDecl>(decl))
- return getCXXABI().EmitMemberFunctionPointer(method);
- // Otherwise, a member data pointer.
- uint64_t fieldOffset = getContext().getFieldOffset(decl);
- CharUnits chars = getContext().toCharUnitsFromBits((int64_t) fieldOffset);
- return getCXXABI().EmitMemberDataPointer(type, chars);
- }
- static llvm::Constant *EmitNullConstantForBase(CodeGenModule &CGM,
- llvm::Type *baseType,
- const CXXRecordDecl *base);
- static llvm::Constant *EmitNullConstant(CodeGenModule &CGM,
- const RecordDecl *record,
- bool asCompleteObject) {
- const CGRecordLayout &layout = CGM.getTypes().getCGRecordLayout(record);
- llvm::StructType *structure =
- (asCompleteObject ? layout.getLLVMType()
- : layout.getBaseSubobjectLLVMType());
- unsigned numElements = structure->getNumElements();
- std::vector<llvm::Constant *> elements(numElements);
- auto CXXR = dyn_cast<CXXRecordDecl>(record);
- // Fill in all the bases.
- if (CXXR) {
- for (const auto &I : CXXR->bases()) {
- if (I.isVirtual()) {
- // Ignore virtual bases; if we're laying out for a complete
- // object, we'll lay these out later.
- continue;
- }
- const CXXRecordDecl *base =
- cast<CXXRecordDecl>(I.getType()->castAs<RecordType>()->getDecl());
- // Ignore empty bases.
- if (base->isEmpty() ||
- CGM.getContext().getASTRecordLayout(base).getNonVirtualSize()
- .isZero())
- continue;
- unsigned fieldIndex = layout.getNonVirtualBaseLLVMFieldNo(base);
- llvm::Type *baseType = structure->getElementType(fieldIndex);
- elements[fieldIndex] = EmitNullConstantForBase(CGM, baseType, base);
- }
- }
- // Fill in all the fields.
- for (const auto *Field : record->fields()) {
- // Fill in non-bitfields. (Bitfields always use a zero pattern, which we
- // will fill in later.)
- if (!Field->isBitField() && !Field->isZeroSize(CGM.getContext())) {
- unsigned fieldIndex = layout.getLLVMFieldNo(Field);
- elements[fieldIndex] = CGM.EmitNullConstant(Field->getType());
- }
- // For unions, stop after the first named field.
- if (record->isUnion()) {
- if (Field->getIdentifier())
- break;
- if (const auto *FieldRD = Field->getType()->getAsRecordDecl())
- if (FieldRD->findFirstNamedDataMember())
- break;
- }
- }
- // Fill in the virtual bases, if we're working with the complete object.
- if (CXXR && asCompleteObject) {
- for (const auto &I : CXXR->vbases()) {
- const CXXRecordDecl *base =
- cast<CXXRecordDecl>(I.getType()->castAs<RecordType>()->getDecl());
- // Ignore empty bases.
- if (base->isEmpty())
- continue;
- unsigned fieldIndex = layout.getVirtualBaseIndex(base);
- // We might have already laid this field out.
- if (elements[fieldIndex]) continue;
- llvm::Type *baseType = structure->getElementType(fieldIndex);
- elements[fieldIndex] = EmitNullConstantForBase(CGM, baseType, base);
- }
- }
- // Now go through all other fields and zero them out.
- for (unsigned i = 0; i != numElements; ++i) {
- if (!elements[i])
- elements[i] = llvm::Constant::getNullValue(structure->getElementType(i));
- }
- return llvm::ConstantStruct::get(structure, elements);
- }
- /// Emit the null constant for a base subobject.
- static llvm::Constant *EmitNullConstantForBase(CodeGenModule &CGM,
- llvm::Type *baseType,
- const CXXRecordDecl *base) {
- const CGRecordLayout &baseLayout = CGM.getTypes().getCGRecordLayout(base);
- // Just zero out bases that don't have any pointer to data members.
- if (baseLayout.isZeroInitializableAsBase())
- return llvm::Constant::getNullValue(baseType);
- // Otherwise, we can just use its null constant.
- return EmitNullConstant(CGM, base, /*asCompleteObject=*/false);
- }
- llvm::Constant *ConstantEmitter::emitNullForMemory(CodeGenModule &CGM,
- QualType T) {
- return emitForMemory(CGM, CGM.EmitNullConstant(T), T);
- }
- llvm::Constant *CodeGenModule::EmitNullConstant(QualType T) {
- if (T->getAs<PointerType>())
- return getNullPointer(
- cast<llvm::PointerType>(getTypes().ConvertTypeForMem(T)), T);
- if (getTypes().isZeroInitializable(T))
- return llvm::Constant::getNullValue(getTypes().ConvertTypeForMem(T));
- if (const ConstantArrayType *CAT = Context.getAsConstantArrayType(T)) {
- llvm::ArrayType *ATy =
- cast<llvm::ArrayType>(getTypes().ConvertTypeForMem(T));
- QualType ElementTy = CAT->getElementType();
- llvm::Constant *Element =
- ConstantEmitter::emitNullForMemory(*this, ElementTy);
- unsigned NumElements = CAT->getSize().getZExtValue();
- SmallVector<llvm::Constant *, 8> Array(NumElements, Element);
- return llvm::ConstantArray::get(ATy, Array);
- }
- if (const RecordType *RT = T->getAs<RecordType>())
- return ::EmitNullConstant(*this, RT->getDecl(), /*complete object*/ true);
- assert(T->isMemberDataPointerType() &&
- "Should only see pointers to data members here!");
- return getCXXABI().EmitNullMemberPointer(T->castAs<MemberPointerType>());
- }
- llvm::Constant *
- CodeGenModule::EmitNullConstantForBase(const CXXRecordDecl *Record) {
- return ::EmitNullConstant(*this, Record, false);
- }
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