123ee4b77SDaniel Dunbar //===--- CGRecordLayoutBuilder.cpp - CGRecordLayout builder ----*- C++ -*-===//
2307846feSAnders Carlsson //
32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information.
52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6307846feSAnders Carlsson //
7307846feSAnders Carlsson //===----------------------------------------------------------------------===//
8307846feSAnders Carlsson //
923ee4b77SDaniel Dunbar // Builder implementation for CGRecordLayout objects.
10307846feSAnders Carlsson //
11307846feSAnders Carlsson //===----------------------------------------------------------------------===//
12307846feSAnders Carlsson
13072d0bb2SDaniel Dunbar #include "CGRecordLayout.h"
143a02247dSChandler Carruth #include "CGCXXABI.h"
153a02247dSChandler Carruth #include "CodeGenTypes.h"
16307846feSAnders Carlsson #include "clang/AST/ASTContext.h"
17307846feSAnders Carlsson #include "clang/AST/Attr.h"
184131f00aSAnders Carlsson #include "clang/AST/CXXInheritance.h"
19307846feSAnders Carlsson #include "clang/AST/DeclCXX.h"
20307846feSAnders Carlsson #include "clang/AST/Expr.h"
21307846feSAnders Carlsson #include "clang/AST/RecordLayout.h"
226368818fSRichard Trieu #include "clang/Basic/CodeGenOptions.h"
23ffd5551bSChandler Carruth #include "llvm/IR/DataLayout.h"
24ffd5551bSChandler Carruth #include "llvm/IR/DerivedTypes.h"
25ffd5551bSChandler Carruth #include "llvm/IR/Type.h"
262ba67440SDaniel Dunbar #include "llvm/Support/Debug.h"
27fb00c887SWarren Hunt #include "llvm/Support/MathExtras.h"
28b97bff9aSDaniel Dunbar #include "llvm/Support/raw_ostream.h"
29307846feSAnders Carlsson using namespace clang;
30307846feSAnders Carlsson using namespace CodeGen;
31307846feSAnders Carlsson
32bcd38217SJohn McCall namespace {
33fb00c887SWarren Hunt /// The CGRecordLowering is responsible for lowering an ASTRecordLayout to an
34fb00c887SWarren Hunt /// llvm::Type. Some of the lowering is straightforward, some is not. Here we
35fb00c887SWarren Hunt /// detail some of the complexities and weirdnesses here.
36fb00c887SWarren Hunt /// * LLVM does not have unions - Unions can, in theory be represented by any
37fb00c887SWarren Hunt /// llvm::Type with correct size. We choose a field via a specific heuristic
38fb00c887SWarren Hunt /// and add padding if necessary.
39fb00c887SWarren Hunt /// * LLVM does not have bitfields - Bitfields are collected into contiguous
40fb00c887SWarren Hunt /// runs and allocated as a single storage type for the run. ASTRecordLayout
41fb00c887SWarren Hunt /// contains enough information to determine where the runs break. Microsoft
42fb00c887SWarren Hunt /// and Itanium follow different rules and use different codepaths.
43fb00c887SWarren Hunt /// * It is desired that, when possible, bitfields use the appropriate iN type
44fb00c887SWarren Hunt /// when lowered to llvm types. For example unsigned x : 24 gets lowered to
45fb00c887SWarren Hunt /// i24. This isn't always possible because i24 has storage size of 32 bit
46fb00c887SWarren Hunt /// and if it is possible to use that extra byte of padding we must use
47fb00c887SWarren Hunt /// [i8 x 3] instead of i24. The function clipTailPadding does this.
48fb00c887SWarren Hunt /// C++ examples that require clipping:
49fb00c887SWarren Hunt /// struct { int a : 24; char b; }; // a must be clipped, b goes at offset 3
50fb00c887SWarren Hunt /// struct A { int a : 24; }; // a must be clipped because a struct like B
51fb00c887SWarren Hunt // could exist: struct B : A { char b; }; // b goes at offset 3
52fb00c887SWarren Hunt /// * Clang ignores 0 sized bitfields and 0 sized bases but *not* zero sized
53fb00c887SWarren Hunt /// fields. The existing asserts suggest that LLVM assumes that *every* field
54fb00c887SWarren Hunt /// has an underlying storage type. Therefore empty structures containing
55fb00c887SWarren Hunt /// zero sized subobjects such as empty records or zero sized arrays still get
56fb00c887SWarren Hunt /// a zero sized (empty struct) storage type.
57fb00c887SWarren Hunt /// * Clang reads the complete type rather than the base type when generating
58fb00c887SWarren Hunt /// code to access fields. Bitfields in tail position with tail padding may
59fb00c887SWarren Hunt /// be clipped in the base class but not the complete class (we may discover
60fb00c887SWarren Hunt /// that the tail padding is not used in the complete class.) However,
61fb00c887SWarren Hunt /// because LLVM reads from the complete type it can generate incorrect code
62fb00c887SWarren Hunt /// if we do not clip the tail padding off of the bitfield in the complete
63fb00c887SWarren Hunt /// layout. This introduces a somewhat awkward extra unnecessary clip stage.
642a8c18d9SAlexander Kornienko /// The location of the clip is stored internally as a sentinel of type
65fb00c887SWarren Hunt /// SCISSOR. If LLVM were updated to read base types (which it probably
66fb00c887SWarren Hunt /// should because locations of things such as VBases are bogus in the llvm
67fb00c887SWarren Hunt /// type anyway) then we could eliminate the SCISSOR.
68fb00c887SWarren Hunt /// * Itanium allows nearly empty primary virtual bases. These bases don't get
69fb00c887SWarren Hunt /// get their own storage because they're laid out as part of another base
70fb00c887SWarren Hunt /// or at the beginning of the structure. Determining if a VBase actually
71fb00c887SWarren Hunt /// gets storage awkwardly involves a walk of all bases.
72fb00c887SWarren Hunt /// * VFPtrs and VBPtrs do *not* make a record NotZeroInitializable.
73fb00c887SWarren Hunt struct CGRecordLowering {
74fb00c887SWarren Hunt // MemberInfo is a helper structure that contains information about a record
75fb00c887SWarren Hunt // member. In additional to the standard member types, there exists a
762a8c18d9SAlexander Kornienko // sentinel member type that ensures correct rounding.
77fb00c887SWarren Hunt struct MemberInfo {
78fb00c887SWarren Hunt CharUnits Offset;
79fb00c887SWarren Hunt enum InfoKind { VFPtr, VBPtr, Field, Base, VBase, Scissor } Kind;
80fb00c887SWarren Hunt llvm::Type *Data;
81fb00c887SWarren Hunt union {
82fb00c887SWarren Hunt const FieldDecl *FD;
83fb00c887SWarren Hunt const CXXRecordDecl *RD;
84fb00c887SWarren Hunt };
MemberInfo__anone97a347c0111::CGRecordLowering::MemberInfo85fb00c887SWarren Hunt MemberInfo(CharUnits Offset, InfoKind Kind, llvm::Type *Data,
868a13c418SCraig Topper const FieldDecl *FD = nullptr)
87fb00c887SWarren Hunt : Offset(Offset), Kind(Kind), Data(Data), FD(FD) {}
MemberInfo__anone97a347c0111::CGRecordLowering::MemberInfo88fb00c887SWarren Hunt MemberInfo(CharUnits Offset, InfoKind Kind, llvm::Type *Data,
89fb00c887SWarren Hunt const CXXRecordDecl *RD)
90fb00c887SWarren Hunt : Offset(Offset), Kind(Kind), Data(Data), RD(RD) {}
91fb00c887SWarren Hunt // MemberInfos are sorted so we define a < operator.
operator <__anone97a347c0111::CGRecordLowering::MemberInfo92fb00c887SWarren Hunt bool operator <(const MemberInfo& a) const { return Offset < a.Offset; }
93fb00c887SWarren Hunt };
94fb00c887SWarren Hunt // The constructor.
95bb513009SDavid Majnemer CGRecordLowering(CodeGenTypes &Types, const RecordDecl *D, bool Packed);
96fb00c887SWarren Hunt // Short helper routines.
979fc8faf9SAdrian Prantl /// Constructs a MemberInfo instance from an offset and llvm::Type *.
StorageInfo__anone97a347c0111::CGRecordLowering98fb00c887SWarren Hunt MemberInfo StorageInfo(CharUnits Offset, llvm::Type *Data) {
99fb00c887SWarren Hunt return MemberInfo(Offset, MemberInfo::Field, Data);
100fb00c887SWarren Hunt }
101f3e86a7aSJohn McCall
102f3e86a7aSJohn McCall /// The Microsoft bitfield layout rule allocates discrete storage
103f3e86a7aSJohn McCall /// units of the field's formal type and only combines adjacent
104f3e86a7aSJohn McCall /// fields of the same formal type. We want to emit a layout with
105f3e86a7aSJohn McCall /// these discrete storage units instead of combining them into a
106f3e86a7aSJohn McCall /// continuous run.
isDiscreteBitFieldABI__anone97a347c0111::CGRecordLowering107f3e86a7aSJohn McCall bool isDiscreteBitFieldABI() {
108fb00c887SWarren Hunt return Context.getTargetInfo().getCXXABI().isMicrosoft() ||
109fb00c887SWarren Hunt D->isMsStruct(Context);
110fb00c887SWarren Hunt }
111f3e86a7aSJohn McCall
11220898784STies Stuij /// Helper function to check if we are targeting AAPCS.
isAAPCS__anone97a347c0111::CGRecordLowering11320898784STies Stuij bool isAAPCS() const {
11420898784STies Stuij return Context.getTargetInfo().getABI().startswith("aapcs");
11520898784STies Stuij }
11620898784STies Stuij
11720898784STies Stuij /// Helper function to check if the target machine is BigEndian.
isBE__anone97a347c0111::CGRecordLowering11820898784STies Stuij bool isBE() const { return Context.getTargetInfo().isBigEndian(); }
11920898784STies Stuij
120f3e86a7aSJohn McCall /// The Itanium base layout rule allows virtual bases to overlap
121f3e86a7aSJohn McCall /// other bases, which complicates layout in specific ways.
122f3e86a7aSJohn McCall ///
123f3e86a7aSJohn McCall /// Note specifically that the ms_struct attribute doesn't change this.
isOverlappingVBaseABI__anone97a347c0111::CGRecordLowering124f3e86a7aSJohn McCall bool isOverlappingVBaseABI() {
125f3e86a7aSJohn McCall return !Context.getTargetInfo().getCXXABI().isMicrosoft();
126f3e86a7aSJohn McCall }
127f3e86a7aSJohn McCall
1289fc8faf9SAdrian Prantl /// Wraps llvm::Type::getIntNTy with some implicit arguments.
getIntNType__anone97a347c0111::CGRecordLowering129fb00c887SWarren Hunt llvm::Type *getIntNType(uint64_t NumBits) {
13072f863fdSBjorn Pettersson unsigned AlignedBits = llvm::alignTo(NumBits, Context.getCharWidth());
13172f863fdSBjorn Pettersson return llvm::Type::getIntNTy(Types.getLLVMContext(), AlignedBits);
132fb00c887SWarren Hunt }
13372f863fdSBjorn Pettersson /// Get the LLVM type sized as one character unit.
getCharType__anone97a347c0111::CGRecordLowering13472f863fdSBjorn Pettersson llvm::Type *getCharType() {
13572f863fdSBjorn Pettersson return llvm::Type::getIntNTy(Types.getLLVMContext(),
13672f863fdSBjorn Pettersson Context.getCharWidth());
13772f863fdSBjorn Pettersson }
13872f863fdSBjorn Pettersson /// Gets an llvm type of size NumChars and alignment 1.
getByteArrayType__anone97a347c0111::CGRecordLowering13972f863fdSBjorn Pettersson llvm::Type *getByteArrayType(CharUnits NumChars) {
14072f863fdSBjorn Pettersson assert(!NumChars.isZero() && "Empty byte arrays aren't allowed.");
14172f863fdSBjorn Pettersson llvm::Type *Type = getCharType();
14272f863fdSBjorn Pettersson return NumChars == CharUnits::One() ? Type :
14372f863fdSBjorn Pettersson (llvm::Type *)llvm::ArrayType::get(Type, NumChars.getQuantity());
144fb00c887SWarren Hunt }
1459fc8faf9SAdrian Prantl /// Gets the storage type for a field decl and handles storage
146fb00c887SWarren Hunt /// for itanium bitfields that are smaller than their declared type.
getStorageType__anone97a347c0111::CGRecordLowering147fb00c887SWarren Hunt llvm::Type *getStorageType(const FieldDecl *FD) {
148fb00c887SWarren Hunt llvm::Type *Type = Types.ConvertTypeForMem(FD->getType());
149f3e86a7aSJohn McCall if (!FD->isBitField()) return Type;
150f3e86a7aSJohn McCall if (isDiscreteBitFieldABI()) return Type;
151f3e86a7aSJohn McCall return getIntNType(std::min(FD->getBitWidthValue(Context),
152fb00c887SWarren Hunt (unsigned)Context.toBits(getSize(Type))));
153fb00c887SWarren Hunt }
1549fc8faf9SAdrian Prantl /// Gets the llvm Basesubobject type from a CXXRecordDecl.
getStorageType__anone97a347c0111::CGRecordLowering155fb00c887SWarren Hunt llvm::Type *getStorageType(const CXXRecordDecl *RD) {
156fb00c887SWarren Hunt return Types.getCGRecordLayout(RD).getBaseSubobjectLLVMType();
157fb00c887SWarren Hunt }
bitsToCharUnits__anone97a347c0111::CGRecordLowering158fb00c887SWarren Hunt CharUnits bitsToCharUnits(uint64_t BitOffset) {
159fb00c887SWarren Hunt return Context.toCharUnitsFromBits(BitOffset);
160fb00c887SWarren Hunt }
getSize__anone97a347c0111::CGRecordLowering161fb00c887SWarren Hunt CharUnits getSize(llvm::Type *Type) {
162fb00c887SWarren Hunt return CharUnits::fromQuantity(DataLayout.getTypeAllocSize(Type));
163fb00c887SWarren Hunt }
getAlignment__anone97a347c0111::CGRecordLowering164fb00c887SWarren Hunt CharUnits getAlignment(llvm::Type *Type) {
165fb00c887SWarren Hunt return CharUnits::fromQuantity(DataLayout.getABITypeAlignment(Type));
166fb00c887SWarren Hunt }
isZeroInitializable__anone97a347c0111::CGRecordLowering167fb00c887SWarren Hunt bool isZeroInitializable(const FieldDecl *FD) {
16867fa0b85SDavid Majnemer return Types.isZeroInitializable(FD->getType());
169fb00c887SWarren Hunt }
isZeroInitializable__anone97a347c0111::CGRecordLowering170fb00c887SWarren Hunt bool isZeroInitializable(const RecordDecl *RD) {
17167fa0b85SDavid Majnemer return Types.isZeroInitializable(RD);
172fb00c887SWarren Hunt }
appendPaddingBytes__anone97a347c0111::CGRecordLowering173fb00c887SWarren Hunt void appendPaddingBytes(CharUnits Size) {
174fb00c887SWarren Hunt if (!Size.isZero())
175fb00c887SWarren Hunt FieldTypes.push_back(getByteArrayType(Size));
176fb00c887SWarren Hunt }
getFieldBitOffset__anone97a347c0111::CGRecordLowering177fb00c887SWarren Hunt uint64_t getFieldBitOffset(const FieldDecl *FD) {
178fb00c887SWarren Hunt return Layout.getFieldOffset(FD->getFieldIndex());
179fb00c887SWarren Hunt }
180fb00c887SWarren Hunt // Layout routines.
181fb00c887SWarren Hunt void setBitFieldInfo(const FieldDecl *FD, CharUnits StartOffset,
182fb00c887SWarren Hunt llvm::Type *StorageType);
1839fc8faf9SAdrian Prantl /// Lowers an ASTRecordLayout to a llvm type.
184fb00c887SWarren Hunt void lower(bool NonVirtualBaseType);
185fb00c887SWarren Hunt void lowerUnion();
186fb00c887SWarren Hunt void accumulateFields();
187fb00c887SWarren Hunt void accumulateBitFields(RecordDecl::field_iterator Field,
188fb00c887SWarren Hunt RecordDecl::field_iterator FieldEnd);
18920898784STies Stuij void computeVolatileBitfields();
190fb00c887SWarren Hunt void accumulateBases();
191fb00c887SWarren Hunt void accumulateVPtrs();
192fb00c887SWarren Hunt void accumulateVBases();
1939fc8faf9SAdrian Prantl /// Recursively searches all of the bases to find out if a vbase is
194fb00c887SWarren Hunt /// not the primary vbase of some base class.
195fb00c887SWarren Hunt bool hasOwnStorage(const CXXRecordDecl *Decl, const CXXRecordDecl *Query);
196fb00c887SWarren Hunt void calculateZeroInit();
1979fc8faf9SAdrian Prantl /// Lowers bitfield storage types to I8 arrays for bitfields with tail
198fb00c887SWarren Hunt /// padding that is or can potentially be used.
199fb00c887SWarren Hunt void clipTailPadding();
2009fc8faf9SAdrian Prantl /// Determines if we need a packed llvm struct.
201bb513009SDavid Majnemer void determinePacked(bool NVBaseType);
2029fc8faf9SAdrian Prantl /// Inserts padding everywhere it's needed.
203fb00c887SWarren Hunt void insertPadding();
2049fc8faf9SAdrian Prantl /// Fills out the structures that are ultimately consumed.
205fb00c887SWarren Hunt void fillOutputFields();
206fb00c887SWarren Hunt // Input memoization fields.
207fb00c887SWarren Hunt CodeGenTypes &Types;
208fb00c887SWarren Hunt const ASTContext &Context;
209fb00c887SWarren Hunt const RecordDecl *D;
210fb00c887SWarren Hunt const CXXRecordDecl *RD;
211fb00c887SWarren Hunt const ASTRecordLayout &Layout;
212fb00c887SWarren Hunt const llvm::DataLayout &DataLayout;
213fb00c887SWarren Hunt // Helpful intermediate data-structures.
214fb00c887SWarren Hunt std::vector<MemberInfo> Members;
215fb00c887SWarren Hunt // Output fields, consumed by CodeGenTypes::ComputeRecordLayout.
2160e62c1ccSChris Lattner SmallVector<llvm::Type *, 16> FieldTypes;
2170217dfc2SJohn McCall llvm::DenseMap<const FieldDecl *, unsigned> Fields;
2180217dfc2SJohn McCall llvm::DenseMap<const FieldDecl *, CGBitFieldInfo> BitFields;
2190217dfc2SJohn McCall llvm::DenseMap<const CXXRecordDecl *, unsigned> NonVirtualBases;
2200217dfc2SJohn McCall llvm::DenseMap<const CXXRecordDecl *, unsigned> VirtualBases;
221fb00c887SWarren Hunt bool IsZeroInitializable : 1;
222fb00c887SWarren Hunt bool IsZeroInitializableAsBase : 1;
223fb00c887SWarren Hunt bool Packed : 1;
22423ee4b77SDaniel Dunbar private:
225abc18920SAaron Ballman CGRecordLowering(const CGRecordLowering &) = delete;
226abc18920SAaron Ballman void operator =(const CGRecordLowering &) = delete;
22723ee4b77SDaniel Dunbar };
228ab9db510SAlexander Kornienko } // namespace {
22923ee4b77SDaniel Dunbar
CGRecordLowering(CodeGenTypes & Types,const RecordDecl * D,bool Packed)230cf3c4a9fSErich Keane CGRecordLowering::CGRecordLowering(CodeGenTypes &Types, const RecordDecl *D,
231cf3c4a9fSErich Keane bool Packed)
2320afa2d2fSWarren Hunt : Types(Types), Context(Types.getContext()), D(D),
2330afa2d2fSWarren Hunt RD(dyn_cast<CXXRecordDecl>(D)),
234fb00c887SWarren Hunt Layout(Types.getContext().getASTRecordLayout(D)),
2350afa2d2fSWarren Hunt DataLayout(Types.getDataLayout()), IsZeroInitializable(true),
236bb513009SDavid Majnemer IsZeroInitializableAsBase(true), Packed(Packed) {}
237fb00c887SWarren Hunt
setBitFieldInfo(const FieldDecl * FD,CharUnits StartOffset,llvm::Type * StorageType)238fb00c887SWarren Hunt void CGRecordLowering::setBitFieldInfo(
239fb00c887SWarren Hunt const FieldDecl *FD, CharUnits StartOffset, llvm::Type *StorageType) {
240cd45dbc5SRichard Smith CGBitFieldInfo &Info = BitFields[FD->getCanonicalDecl()];
241fb00c887SWarren Hunt Info.IsSigned = FD->getType()->isSignedIntegerOrEnumerationType();
242fb00c887SWarren Hunt Info.Offset = (unsigned)(getFieldBitOffset(FD) - Context.toBits(StartOffset));
243fb00c887SWarren Hunt Info.Size = FD->getBitWidthValue(Context);
244fb00c887SWarren Hunt Info.StorageSize = (unsigned)DataLayout.getTypeAllocSizeInBits(StorageType);
24503ce2a16SUlrich Weigand Info.StorageOffset = StartOffset;
246fb00c887SWarren Hunt if (Info.Size > Info.StorageSize)
247fb00c887SWarren Hunt Info.Size = Info.StorageSize;
248fb00c887SWarren Hunt // Reverse the bit offsets for big endian machines. Because we represent
249fb00c887SWarren Hunt // a bitfield as a single large integer load, we can imagine the bits
250fb00c887SWarren Hunt // counting from the most-significant-bit instead of the
251fb00c887SWarren Hunt // least-significant-bit.
252fb00c887SWarren Hunt if (DataLayout.isBigEndian())
253fb00c887SWarren Hunt Info.Offset = Info.StorageSize - (Info.Offset + Info.Size);
25420898784STies Stuij
25520898784STies Stuij Info.VolatileStorageSize = 0;
25620898784STies Stuij Info.VolatileOffset = 0;
25720898784STies Stuij Info.VolatileStorageOffset = CharUnits::Zero();
25823ee4b77SDaniel Dunbar }
25923ee4b77SDaniel Dunbar
lower(bool NVBaseType)260fb00c887SWarren Hunt void CGRecordLowering::lower(bool NVBaseType) {
261fb00c887SWarren Hunt // The lowering process implemented in this function takes a variety of
262fb00c887SWarren Hunt // carefully ordered phases.
263fb00c887SWarren Hunt // 1) Store all members (fields and bases) in a list and sort them by offset.
264fb00c887SWarren Hunt // 2) Add a 1-byte capstone member at the Size of the structure.
265fb00c887SWarren Hunt // 3) Clip bitfield storages members if their tail padding is or might be
266fb00c887SWarren Hunt // used by another field or base. The clipping process uses the capstone
267fb00c887SWarren Hunt // by treating it as another object that occurs after the record.
268fb00c887SWarren Hunt // 4) Determine if the llvm-struct requires packing. It's important that this
269fb00c887SWarren Hunt // phase occur after clipping, because clipping changes the llvm type.
270fb00c887SWarren Hunt // This phase reads the offset of the capstone when determining packedness
271fb00c887SWarren Hunt // and updates the alignment of the capstone to be equal of the alignment
272fb00c887SWarren Hunt // of the record after doing so.
273fb00c887SWarren Hunt // 5) Insert padding everywhere it is needed. This phase requires 'Packed' to
274fb00c887SWarren Hunt // have been computed and needs to know the alignment of the record in
275fb00c887SWarren Hunt // order to understand if explicit tail padding is needed.
276fb00c887SWarren Hunt // 6) Remove the capstone, we don't need it anymore.
277fb00c887SWarren Hunt // 7) Determine if this record can be zero-initialized. This phase could have
278fb00c887SWarren Hunt // been placed anywhere after phase 1.
279fb00c887SWarren Hunt // 8) Format the complete list of members in a way that can be consumed by
280fb00c887SWarren Hunt // CodeGenTypes::ComputeRecordLayout.
281fb00c887SWarren Hunt CharUnits Size = NVBaseType ? Layout.getNonVirtualSize() : Layout.getSize();
28220898784STies Stuij if (D->isUnion()) {
28320898784STies Stuij lowerUnion();
28420898784STies Stuij computeVolatileBitfields();
28520898784STies Stuij return;
28620898784STies Stuij }
287fb00c887SWarren Hunt accumulateFields();
288fb00c887SWarren Hunt // RD implies C++.
289fb00c887SWarren Hunt if (RD) {
290fb00c887SWarren Hunt accumulateVPtrs();
291fb00c887SWarren Hunt accumulateBases();
29220898784STies Stuij if (Members.empty()) {
29320898784STies Stuij appendPaddingBytes(Size);
29420898784STies Stuij computeVolatileBitfields();
29520898784STies Stuij return;
29620898784STies Stuij }
297fb00c887SWarren Hunt if (!NVBaseType)
298fb00c887SWarren Hunt accumulateVBases();
299fb00c887SWarren Hunt }
300899d1392SFangrui Song llvm::stable_sort(Members);
301fb00c887SWarren Hunt Members.push_back(StorageInfo(Size, getIntNType(8)));
302fb00c887SWarren Hunt clipTailPadding();
303bb513009SDavid Majnemer determinePacked(NVBaseType);
304fb00c887SWarren Hunt insertPadding();
305fb00c887SWarren Hunt Members.pop_back();
306fb00c887SWarren Hunt calculateZeroInit();
307fb00c887SWarren Hunt fillOutputFields();
30820898784STies Stuij computeVolatileBitfields();
309697f6594SAnders Carlsson }
310697f6594SAnders Carlsson
lowerUnion()311fb00c887SWarren Hunt void CGRecordLowering::lowerUnion() {
312fed55979SWarren Hunt CharUnits LayoutSize = Layout.getSize();
3138a13c418SCraig Topper llvm::Type *StorageType = nullptr;
314b00ddf31SDavid Majnemer bool SeenNamedMember = false;
315fb00c887SWarren Hunt // Iterate through the fields setting bitFieldInfo and the Fields array. Also
316fb00c887SWarren Hunt // locate the "most appropriate" storage type. The heuristic for finding the
317fb00c887SWarren Hunt // storage type isn't necessary, the first (non-0-length-bitfield) field's
3182e29b40dSDavid Majnemer // type would work fine and be simpler but would be different than what we've
319fb00c887SWarren Hunt // been doing and cause lit tests to change.
320e8a8baefSAaron Ballman for (const auto *Field : D->fields()) {
321fb00c887SWarren Hunt if (Field->isBitField()) {
322866dee4eSRichard Smith if (Field->isZeroLengthBitField(Context))
323fb00c887SWarren Hunt continue;
324e8a8baefSAaron Ballman llvm::Type *FieldType = getStorageType(Field);
325fed55979SWarren Hunt if (LayoutSize < getSize(FieldType))
326fed55979SWarren Hunt FieldType = getByteArrayType(LayoutSize);
327e8a8baefSAaron Ballman setBitFieldInfo(Field, CharUnits::Zero(), FieldType);
328fb00c887SWarren Hunt }
329cd45dbc5SRichard Smith Fields[Field->getCanonicalDecl()] = 0;
330e8a8baefSAaron Ballman llvm::Type *FieldType = getStorageType(Field);
3318476abe2SDavid Majnemer // Compute zero-initializable status.
332b00ddf31SDavid Majnemer // This union might not be zero initialized: it may contain a pointer to
333b00ddf31SDavid Majnemer // data member which might have some exotic initialization sequence.
334b00ddf31SDavid Majnemer // If this is the case, then we aught not to try and come up with a "better"
335b00ddf31SDavid Majnemer // type, it might not be very easy to come up with a Constant which
336b00ddf31SDavid Majnemer // correctly initializes it.
3374e51dfc4SDavid Majnemer if (!SeenNamedMember) {
3384e51dfc4SDavid Majnemer SeenNamedMember = Field->getIdentifier();
3394e51dfc4SDavid Majnemer if (!SeenNamedMember)
34039e5137fSGeorge Karpenkov if (const auto *FieldRD = Field->getType()->getAsRecordDecl())
3414e51dfc4SDavid Majnemer SeenNamedMember = FieldRD->findFirstNamedDataMember();
3424e51dfc4SDavid Majnemer if (SeenNamedMember && !isZeroInitializable(Field)) {
3438476abe2SDavid Majnemer IsZeroInitializable = IsZeroInitializableAsBase = false;
344b00ddf31SDavid Majnemer StorageType = FieldType;
345b00ddf31SDavid Majnemer }
346b00ddf31SDavid Majnemer }
3478476abe2SDavid Majnemer // Because our union isn't zero initializable, we won't be getting a better
3488476abe2SDavid Majnemer // storage type.
3498476abe2SDavid Majnemer if (!IsZeroInitializable)
3508476abe2SDavid Majnemer continue;
351fb00c887SWarren Hunt // Conditionally update our storage type if we've got a new "better" one.
352fb00c887SWarren Hunt if (!StorageType ||
353fb00c887SWarren Hunt getAlignment(FieldType) > getAlignment(StorageType) ||
354fb00c887SWarren Hunt (getAlignment(FieldType) == getAlignment(StorageType) &&
355fb00c887SWarren Hunt getSize(FieldType) > getSize(StorageType)))
356fb00c887SWarren Hunt StorageType = FieldType;
357fb00c887SWarren Hunt }
358fb00c887SWarren Hunt // If we have no storage type just pad to the appropriate size and return.
359fb00c887SWarren Hunt if (!StorageType)
360fb00c887SWarren Hunt return appendPaddingBytes(LayoutSize);
361fb00c887SWarren Hunt // If our storage size was bigger than our required size (can happen in the
362fb00c887SWarren Hunt // case of packed bitfields on Itanium) then just use an I8 array.
363fb00c887SWarren Hunt if (LayoutSize < getSize(StorageType))
364fb00c887SWarren Hunt StorageType = getByteArrayType(LayoutSize);
365fb00c887SWarren Hunt FieldTypes.push_back(StorageType);
366fb00c887SWarren Hunt appendPaddingBytes(LayoutSize - getSize(StorageType));
367fb00c887SWarren Hunt // Set packed if we need it.
368fb00c887SWarren Hunt if (LayoutSize % getAlignment(StorageType))
369d78fc89fSAnders Carlsson Packed = true;
370fb00c887SWarren Hunt }
371307846feSAnders Carlsson
accumulateFields()372fb00c887SWarren Hunt void CGRecordLowering::accumulateFields() {
373fb00c887SWarren Hunt for (RecordDecl::field_iterator Field = D->field_begin(),
374fb00c887SWarren Hunt FieldEnd = D->field_end();
37578b239eaSRichard Smith Field != FieldEnd;) {
376fb00c887SWarren Hunt if (Field->isBitField()) {
377fb00c887SWarren Hunt RecordDecl::field_iterator Start = Field;
378fb00c887SWarren Hunt // Iterate to gather the list of bitfields.
379fb00c887SWarren Hunt for (++Field; Field != FieldEnd && Field->isBitField(); ++Field);
380fb00c887SWarren Hunt accumulateBitFields(Start, Field);
38178b239eaSRichard Smith } else if (!Field->isZeroSize(Context)) {
382fb00c887SWarren Hunt Members.push_back(MemberInfo(
383fb00c887SWarren Hunt bitsToCharUnits(getFieldBitOffset(*Field)), MemberInfo::Field,
384fb00c887SWarren Hunt getStorageType(*Field), *Field));
385fb00c887SWarren Hunt ++Field;
38678b239eaSRichard Smith } else {
38778b239eaSRichard Smith ++Field;
38878b239eaSRichard Smith }
389fb00c887SWarren Hunt }
390fb00c887SWarren Hunt }
391fb00c887SWarren Hunt
392fb00c887SWarren Hunt void
accumulateBitFields(RecordDecl::field_iterator Field,RecordDecl::field_iterator FieldEnd)393fb00c887SWarren Hunt CGRecordLowering::accumulateBitFields(RecordDecl::field_iterator Field,
394fb00c887SWarren Hunt RecordDecl::field_iterator FieldEnd) {
395fb00c887SWarren Hunt // Run stores the first element of the current run of bitfields. FieldEnd is
396fb00c887SWarren Hunt // used as a special value to note that we don't have a current run. A
397fb00c887SWarren Hunt // bitfield run is a contiguous collection of bitfields that can be stored in
398fb00c887SWarren Hunt // the same storage block. Zero-sized bitfields and bitfields that would
399fb00c887SWarren Hunt // cross an alignment boundary break a run and start a new one.
400fb00c887SWarren Hunt RecordDecl::field_iterator Run = FieldEnd;
401fb00c887SWarren Hunt // Tail is the offset of the first bit off the end of the current run. It's
402fb00c887SWarren Hunt // used to determine if the ASTRecordLayout is treating these two bitfields as
403fb00c887SWarren Hunt // contiguous. StartBitOffset is offset of the beginning of the Run.
404fb00c887SWarren Hunt uint64_t StartBitOffset, Tail = 0;
405f3e86a7aSJohn McCall if (isDiscreteBitFieldABI()) {
406fb00c887SWarren Hunt for (; Field != FieldEnd; ++Field) {
407fb00c887SWarren Hunt uint64_t BitOffset = getFieldBitOffset(*Field);
408fb00c887SWarren Hunt // Zero-width bitfields end runs.
409866dee4eSRichard Smith if (Field->isZeroLengthBitField(Context)) {
410fb00c887SWarren Hunt Run = FieldEnd;
411fb00c887SWarren Hunt continue;
412fb00c887SWarren Hunt }
4135f0903e9SErich Keane llvm::Type *Type =
414*17d4bd3dSKazu Hirata Types.ConvertTypeForMem(Field->getType(), /*ForBitField=*/true);
415fb00c887SWarren Hunt // If we don't have a run yet, or don't live within the previous run's
416fb00c887SWarren Hunt // allocated storage then we allocate some storage and start a new run.
417fb00c887SWarren Hunt if (Run == FieldEnd || BitOffset >= Tail) {
418fb00c887SWarren Hunt Run = Field;
419fb00c887SWarren Hunt StartBitOffset = BitOffset;
420fb00c887SWarren Hunt Tail = StartBitOffset + DataLayout.getTypeAllocSizeInBits(Type);
421fb00c887SWarren Hunt // Add the storage member to the record. This must be added to the
422fb00c887SWarren Hunt // record before the bitfield members so that it gets laid out before
423fb00c887SWarren Hunt // the bitfields it contains get laid out.
424fb00c887SWarren Hunt Members.push_back(StorageInfo(bitsToCharUnits(StartBitOffset), Type));
425fb00c887SWarren Hunt }
426fb00c887SWarren Hunt // Bitfields get the offset of their storage but come afterward and remain
427fb00c887SWarren Hunt // there after a stable sort.
428fb00c887SWarren Hunt Members.push_back(MemberInfo(bitsToCharUnits(StartBitOffset),
4298a13c418SCraig Topper MemberInfo::Field, nullptr, *Field));
430fb00c887SWarren Hunt }
431fb00c887SWarren Hunt return;
432fb00c887SWarren Hunt }
4339b3d6272SWei Mi
4343dcfd482SAlex Bradbury // Check if OffsetInRecord (the size in bits of the current run) is better
4353dcfd482SAlex Bradbury // as a single field run. When OffsetInRecord has legal integer width, and
4363dcfd482SAlex Bradbury // its bitfield offset is naturally aligned, it is better to make the
4373dcfd482SAlex Bradbury // bitfield a separate storage component so as it can be accessed directly
4383dcfd482SAlex Bradbury // with lower cost.
4390f274c01SStrahinja Petrovic auto IsBetterAsSingleFieldRun = [&](uint64_t OffsetInRecord,
4400f274c01SStrahinja Petrovic uint64_t StartBitOffset) {
4419b3d6272SWei Mi if (!Types.getCodeGenOpts().FineGrainedBitfieldAccesses)
4429b3d6272SWei Mi return false;
4433dcfd482SAlex Bradbury if (OffsetInRecord < 8 || !llvm::isPowerOf2_64(OffsetInRecord) ||
4443dcfd482SAlex Bradbury !DataLayout.fitsInLegalInteger(OffsetInRecord))
4459b3d6272SWei Mi return false;
44620898784STies Stuij // Make sure StartBitOffset is naturally aligned if it is treated as an
4470f274c01SStrahinja Petrovic // IType integer.
4480f274c01SStrahinja Petrovic if (StartBitOffset %
4490f274c01SStrahinja Petrovic Context.toBits(getAlignment(getIntNType(OffsetInRecord))) !=
4509b3d6272SWei Mi 0)
4519b3d6272SWei Mi return false;
4529b3d6272SWei Mi return true;
4539b3d6272SWei Mi };
4549b3d6272SWei Mi
4559b3d6272SWei Mi // The start field is better as a single field run.
4569b3d6272SWei Mi bool StartFieldAsSingleRun = false;
457fb00c887SWarren Hunt for (;;) {
458fb00c887SWarren Hunt // Check to see if we need to start a new run.
459fb00c887SWarren Hunt if (Run == FieldEnd) {
460fb00c887SWarren Hunt // If we're out of fields, return.
461fb00c887SWarren Hunt if (Field == FieldEnd)
462fb00c887SWarren Hunt break;
463fb00c887SWarren Hunt // Any non-zero-length bitfield can start a new run.
464866dee4eSRichard Smith if (!Field->isZeroLengthBitField(Context)) {
465fb00c887SWarren Hunt Run = Field;
466fb00c887SWarren Hunt StartBitOffset = getFieldBitOffset(*Field);
467fb00c887SWarren Hunt Tail = StartBitOffset + Field->getBitWidthValue(Context);
4680f274c01SStrahinja Petrovic StartFieldAsSingleRun = IsBetterAsSingleFieldRun(Tail - StartBitOffset,
4690f274c01SStrahinja Petrovic StartBitOffset);
470fb00c887SWarren Hunt }
471fb00c887SWarren Hunt ++Field;
472fb00c887SWarren Hunt continue;
473fb00c887SWarren Hunt }
4749b3d6272SWei Mi
4759b3d6272SWei Mi // If the start field of a new run is better as a single run, or
4760f274c01SStrahinja Petrovic // if current field (or consecutive fields) is better as a single run, or
477fc681efdSAkira Hatanaka // if current field has zero width bitfield and either
478fc681efdSAkira Hatanaka // UseZeroLengthBitfieldAlignment or UseBitFieldTypeAlignment is set to
479fc681efdSAkira Hatanaka // true, or
4809b3d6272SWei Mi // if the offset of current field is inconsistent with the offset of
4819b3d6272SWei Mi // previous field plus its offset,
4829b3d6272SWei Mi // skip the block below and go ahead to emit the storage.
4839b3d6272SWei Mi // Otherwise, try to add bitfields to the run.
4849b3d6272SWei Mi if (!StartFieldAsSingleRun && Field != FieldEnd &&
4850f274c01SStrahinja Petrovic !IsBetterAsSingleFieldRun(Tail - StartBitOffset, StartBitOffset) &&
486866dee4eSRichard Smith (!Field->isZeroLengthBitField(Context) ||
487fc681efdSAkira Hatanaka (!Context.getTargetInfo().useZeroLengthBitfieldAlignment() &&
488fc681efdSAkira Hatanaka !Context.getTargetInfo().useBitFieldTypeAlignment())) &&
489085c4b29SJustin Bogner Tail == getFieldBitOffset(*Field)) {
490fb00c887SWarren Hunt Tail += Field->getBitWidthValue(Context);
491fb00c887SWarren Hunt ++Field;
492fb00c887SWarren Hunt continue;
493fb00c887SWarren Hunt }
4949b3d6272SWei Mi
495fb00c887SWarren Hunt // We've hit a break-point in the run and need to emit a storage field.
496fb00c887SWarren Hunt llvm::Type *Type = getIntNType(Tail - StartBitOffset);
497fb00c887SWarren Hunt // Add the storage member to the record and set the bitfield info for all of
498fb00c887SWarren Hunt // the bitfields in the run. Bitfields get the offset of their storage but
499fb00c887SWarren Hunt // come afterward and remain there after a stable sort.
500fb00c887SWarren Hunt Members.push_back(StorageInfo(bitsToCharUnits(StartBitOffset), Type));
501fb00c887SWarren Hunt for (; Run != Field; ++Run)
502fb00c887SWarren Hunt Members.push_back(MemberInfo(bitsToCharUnits(StartBitOffset),
5038a13c418SCraig Topper MemberInfo::Field, nullptr, *Run));
504fb00c887SWarren Hunt Run = FieldEnd;
5059b3d6272SWei Mi StartFieldAsSingleRun = false;
506fb00c887SWarren Hunt }
507fb00c887SWarren Hunt }
508fb00c887SWarren Hunt
accumulateBases()509fb00c887SWarren Hunt void CGRecordLowering::accumulateBases() {
510fb00c887SWarren Hunt // If we've got a primary virtual base, we need to add it with the bases.
511f0ffdb2eSWarren Hunt if (Layout.isPrimaryBaseVirtual()) {
512f0ffdb2eSWarren Hunt const CXXRecordDecl *BaseDecl = Layout.getPrimaryBase();
513f0ffdb2eSWarren Hunt Members.push_back(MemberInfo(CharUnits::Zero(), MemberInfo::Base,
514f0ffdb2eSWarren Hunt getStorageType(BaseDecl), BaseDecl));
515f0ffdb2eSWarren Hunt }
516fb00c887SWarren Hunt // Accumulate the non-virtual bases.
517574705edSAaron Ballman for (const auto &Base : RD->bases()) {
518574705edSAaron Ballman if (Base.isVirtual())
519fb00c887SWarren Hunt continue;
5209fc700e7SJohn McCall
5219fc700e7SJohn McCall // Bases can be zero-sized even if not technically empty if they
5229fc700e7SJohn McCall // contain only a trailing array member.
523574705edSAaron Ballman const CXXRecordDecl *BaseDecl = Base.getType()->getAsCXXRecordDecl();
5249fc700e7SJohn McCall if (!BaseDecl->isEmpty() &&
52578945d07SDavid Majnemer !Context.getASTRecordLayout(BaseDecl).getNonVirtualSize().isZero())
526fb00c887SWarren Hunt Members.push_back(MemberInfo(Layout.getBaseClassOffset(BaseDecl),
527fb00c887SWarren Hunt MemberInfo::Base, getStorageType(BaseDecl), BaseDecl));
528fb00c887SWarren Hunt }
529fb00c887SWarren Hunt }
530fb00c887SWarren Hunt
53120898784STies Stuij /// The AAPCS that defines that, when possible, bit-fields should
53220898784STies Stuij /// be accessed using containers of the declared type width:
53320898784STies Stuij /// When a volatile bit-field is read, and its container does not overlap with
53420898784STies Stuij /// any non-bit-field member or any zero length bit-field member, its container
53520898784STies Stuij /// must be read exactly once using the access width appropriate to the type of
53620898784STies Stuij /// the container. When a volatile bit-field is written, and its container does
53720898784STies Stuij /// not overlap with any non-bit-field member or any zero-length bit-field
53820898784STies Stuij /// member, its container must be read exactly once and written exactly once
53920898784STies Stuij /// using the access width appropriate to the type of the container. The two
54020898784STies Stuij /// accesses are not atomic.
54120898784STies Stuij ///
54220898784STies Stuij /// Enforcing the width restriction can be disabled using
54320898784STies Stuij /// -fno-aapcs-bitfield-width.
computeVolatileBitfields()54420898784STies Stuij void CGRecordLowering::computeVolatileBitfields() {
54520898784STies Stuij if (!isAAPCS() || !Types.getCodeGenOpts().AAPCSBitfieldWidth)
54620898784STies Stuij return;
54720898784STies Stuij
54820898784STies Stuij for (auto &I : BitFields) {
54920898784STies Stuij const FieldDecl *Field = I.first;
55020898784STies Stuij CGBitFieldInfo &Info = I.second;
55120898784STies Stuij llvm::Type *ResLTy = Types.ConvertTypeForMem(Field->getType());
55220898784STies Stuij // If the record alignment is less than the type width, we can't enforce a
55320898784STies Stuij // aligned load, bail out.
55420898784STies Stuij if ((uint64_t)(Context.toBits(Layout.getAlignment())) <
55520898784STies Stuij ResLTy->getPrimitiveSizeInBits())
55620898784STies Stuij continue;
55720898784STies Stuij // CGRecordLowering::setBitFieldInfo() pre-adjusts the bit-field offsets
55820898784STies Stuij // for big-endian targets, but it assumes a container of width
55920898784STies Stuij // Info.StorageSize. Since AAPCS uses a different container size (width
56020898784STies Stuij // of the type), we first undo that calculation here and redo it once
56120898784STies Stuij // the bit-field offset within the new container is calculated.
56220898784STies Stuij const unsigned OldOffset =
56320898784STies Stuij isBE() ? Info.StorageSize - (Info.Offset + Info.Size) : Info.Offset;
56420898784STies Stuij // Offset to the bit-field from the beginning of the struct.
56520898784STies Stuij const unsigned AbsoluteOffset =
56620898784STies Stuij Context.toBits(Info.StorageOffset) + OldOffset;
56720898784STies Stuij
56820898784STies Stuij // Container size is the width of the bit-field type.
56920898784STies Stuij const unsigned StorageSize = ResLTy->getPrimitiveSizeInBits();
57020898784STies Stuij // Nothing to do if the access uses the desired
57120898784STies Stuij // container width and is naturally aligned.
57220898784STies Stuij if (Info.StorageSize == StorageSize && (OldOffset % StorageSize == 0))
57320898784STies Stuij continue;
57420898784STies Stuij
57520898784STies Stuij // Offset within the container.
57620898784STies Stuij unsigned Offset = AbsoluteOffset & (StorageSize - 1);
57720898784STies Stuij // Bail out if an aligned load of the container cannot cover the entire
57820898784STies Stuij // bit-field. This can happen for example, if the bit-field is part of a
57920898784STies Stuij // packed struct. AAPCS does not define access rules for such cases, we let
58020898784STies Stuij // clang to follow its own rules.
58120898784STies Stuij if (Offset + Info.Size > StorageSize)
58220898784STies Stuij continue;
58320898784STies Stuij
58420898784STies Stuij // Re-adjust offsets for big-endian targets.
58520898784STies Stuij if (isBE())
58620898784STies Stuij Offset = StorageSize - (Offset + Info.Size);
58720898784STies Stuij
58820898784STies Stuij const CharUnits StorageOffset =
58920898784STies Stuij Context.toCharUnitsFromBits(AbsoluteOffset & ~(StorageSize - 1));
59020898784STies Stuij const CharUnits End = StorageOffset +
59120898784STies Stuij Context.toCharUnitsFromBits(StorageSize) -
59220898784STies Stuij CharUnits::One();
59320898784STies Stuij
59420898784STies Stuij const ASTRecordLayout &Layout =
59520898784STies Stuij Context.getASTRecordLayout(Field->getParent());
59620898784STies Stuij // If we access outside memory outside the record, than bail out.
59720898784STies Stuij const CharUnits RecordSize = Layout.getSize();
59820898784STies Stuij if (End >= RecordSize)
59920898784STies Stuij continue;
60020898784STies Stuij
60120898784STies Stuij // Bail out if performing this load would access non-bit-fields members.
60220898784STies Stuij bool Conflict = false;
60320898784STies Stuij for (const auto *F : D->fields()) {
60420898784STies Stuij // Allow sized bit-fields overlaps.
60520898784STies Stuij if (F->isBitField() && !F->isZeroLengthBitField(Context))
60620898784STies Stuij continue;
60720898784STies Stuij
60820898784STies Stuij const CharUnits FOffset = Context.toCharUnitsFromBits(
60920898784STies Stuij Layout.getFieldOffset(F->getFieldIndex()));
61020898784STies Stuij
61120898784STies Stuij // As C11 defines, a zero sized bit-field defines a barrier, so
61220898784STies Stuij // fields after and before it should be race condition free.
61320898784STies Stuij // The AAPCS acknowledges it and imposes no restritions when the
61420898784STies Stuij // natural container overlaps a zero-length bit-field.
61520898784STies Stuij if (F->isZeroLengthBitField(Context)) {
61620898784STies Stuij if (End > FOffset && StorageOffset < FOffset) {
61720898784STies Stuij Conflict = true;
61820898784STies Stuij break;
61920898784STies Stuij }
62020898784STies Stuij }
62120898784STies Stuij
62220898784STies Stuij const CharUnits FEnd =
62320898784STies Stuij FOffset +
62420898784STies Stuij Context.toCharUnitsFromBits(
62520898784STies Stuij Types.ConvertTypeForMem(F->getType())->getPrimitiveSizeInBits()) -
62620898784STies Stuij CharUnits::One();
62720898784STies Stuij // If no overlap, continue.
62820898784STies Stuij if (End < FOffset || FEnd < StorageOffset)
62920898784STies Stuij continue;
63020898784STies Stuij
63120898784STies Stuij // The desired load overlaps a non-bit-field member, bail out.
63220898784STies Stuij Conflict = true;
63320898784STies Stuij break;
63420898784STies Stuij }
63520898784STies Stuij
63620898784STies Stuij if (Conflict)
63720898784STies Stuij continue;
63820898784STies Stuij // Write the new bit-field access parameters.
63920898784STies Stuij // As the storage offset now is defined as the number of elements from the
64020898784STies Stuij // start of the structure, we should divide the Offset by the element size.
64120898784STies Stuij Info.VolatileStorageOffset =
64220898784STies Stuij StorageOffset / Context.toCharUnitsFromBits(StorageSize).getQuantity();
64320898784STies Stuij Info.VolatileStorageSize = StorageSize;
64420898784STies Stuij Info.VolatileOffset = Offset;
64520898784STies Stuij }
64620898784STies Stuij }
64720898784STies Stuij
accumulateVPtrs()648fb00c887SWarren Hunt void CGRecordLowering::accumulateVPtrs() {
649fb00c887SWarren Hunt if (Layout.hasOwnVFPtr())
650fb00c887SWarren Hunt Members.push_back(MemberInfo(CharUnits::Zero(), MemberInfo::VFPtr,
651fb00c887SWarren Hunt llvm::FunctionType::get(getIntNType(32), /*isVarArg=*/true)->
652fb00c887SWarren Hunt getPointerTo()->getPointerTo()));
653fb00c887SWarren Hunt if (Layout.hasOwnVBPtr())
654fb00c887SWarren Hunt Members.push_back(MemberInfo(Layout.getVBPtrOffset(), MemberInfo::VBPtr,
655fb00c887SWarren Hunt llvm::Type::getInt32PtrTy(Types.getLLVMContext())));
656fb00c887SWarren Hunt }
657fb00c887SWarren Hunt
accumulateVBases()658fb00c887SWarren Hunt void CGRecordLowering::accumulateVBases() {
659f0ffdb2eSWarren Hunt CharUnits ScissorOffset = Layout.getNonVirtualSize();
660f0ffdb2eSWarren Hunt // In the itanium ABI, it's possible to place a vbase at a dsize that is
661f0ffdb2eSWarren Hunt // smaller than the nvsize. Here we check to see if such a base is placed
662f0ffdb2eSWarren Hunt // before the nvsize and set the scissor offset to that, instead of the
663f0ffdb2eSWarren Hunt // nvsize.
664f3e86a7aSJohn McCall if (isOverlappingVBaseABI())
665f0ffdb2eSWarren Hunt for (const auto &Base : RD->vbases()) {
666f0ffdb2eSWarren Hunt const CXXRecordDecl *BaseDecl = Base.getType()->getAsCXXRecordDecl();
667f0ffdb2eSWarren Hunt if (BaseDecl->isEmpty())
668f0ffdb2eSWarren Hunt continue;
669f0ffdb2eSWarren Hunt // If the vbase is a primary virtual base of some base, then it doesn't
670f0ffdb2eSWarren Hunt // get its own storage location but instead lives inside of that base.
671f0ffdb2eSWarren Hunt if (Context.isNearlyEmpty(BaseDecl) && !hasOwnStorage(RD, BaseDecl))
672f0ffdb2eSWarren Hunt continue;
673f0ffdb2eSWarren Hunt ScissorOffset = std::min(ScissorOffset,
674f0ffdb2eSWarren Hunt Layout.getVBaseClassOffset(BaseDecl));
675f0ffdb2eSWarren Hunt }
6768a13c418SCraig Topper Members.push_back(MemberInfo(ScissorOffset, MemberInfo::Scissor, nullptr,
6778a13c418SCraig Topper RD));
678445a939dSAaron Ballman for (const auto &Base : RD->vbases()) {
679445a939dSAaron Ballman const CXXRecordDecl *BaseDecl = Base.getType()->getAsCXXRecordDecl();
680fb00c887SWarren Hunt if (BaseDecl->isEmpty())
681fb00c887SWarren Hunt continue;
682fb00c887SWarren Hunt CharUnits Offset = Layout.getVBaseClassOffset(BaseDecl);
683fb00c887SWarren Hunt // If the vbase is a primary virtual base of some base, then it doesn't
684fb00c887SWarren Hunt // get its own storage location but instead lives inside of that base.
685f3e86a7aSJohn McCall if (isOverlappingVBaseABI() &&
686f3e86a7aSJohn McCall Context.isNearlyEmpty(BaseDecl) &&
687fb00c887SWarren Hunt !hasOwnStorage(RD, BaseDecl)) {
6888a13c418SCraig Topper Members.push_back(MemberInfo(Offset, MemberInfo::VBase, nullptr,
6898a13c418SCraig Topper BaseDecl));
690fb00c887SWarren Hunt continue;
691fb00c887SWarren Hunt }
692fb00c887SWarren Hunt // If we've got a vtordisp, add it as a storage type.
693fb00c887SWarren Hunt if (Layout.getVBaseOffsetsMap().find(BaseDecl)->second.hasVtorDisp())
694fb00c887SWarren Hunt Members.push_back(StorageInfo(Offset - CharUnits::fromQuantity(4),
695fb00c887SWarren Hunt getIntNType(32)));
696fb00c887SWarren Hunt Members.push_back(MemberInfo(Offset, MemberInfo::VBase,
697fb00c887SWarren Hunt getStorageType(BaseDecl), BaseDecl));
698fb00c887SWarren Hunt }
699fb00c887SWarren Hunt }
700fb00c887SWarren Hunt
hasOwnStorage(const CXXRecordDecl * Decl,const CXXRecordDecl * Query)701fb00c887SWarren Hunt bool CGRecordLowering::hasOwnStorage(const CXXRecordDecl *Decl,
702fb00c887SWarren Hunt const CXXRecordDecl *Query) {
703fb00c887SWarren Hunt const ASTRecordLayout &DeclLayout = Context.getASTRecordLayout(Decl);
704fb00c887SWarren Hunt if (DeclLayout.isPrimaryBaseVirtual() && DeclLayout.getPrimaryBase() == Query)
705fb00c887SWarren Hunt return false;
706574705edSAaron Ballman for (const auto &Base : Decl->bases())
707574705edSAaron Ballman if (!hasOwnStorage(Base.getType()->getAsCXXRecordDecl(), Query))
708fb00c887SWarren Hunt return false;
709fb00c887SWarren Hunt return true;
710fb00c887SWarren Hunt }
711fb00c887SWarren Hunt
calculateZeroInit()712fb00c887SWarren Hunt void CGRecordLowering::calculateZeroInit() {
713fb00c887SWarren Hunt for (std::vector<MemberInfo>::const_iterator Member = Members.begin(),
714fb00c887SWarren Hunt MemberEnd = Members.end();
715fb00c887SWarren Hunt IsZeroInitializableAsBase && Member != MemberEnd; ++Member) {
716fb00c887SWarren Hunt if (Member->Kind == MemberInfo::Field) {
717fb00c887SWarren Hunt if (!Member->FD || isZeroInitializable(Member->FD))
718fb00c887SWarren Hunt continue;
719fb00c887SWarren Hunt IsZeroInitializable = IsZeroInitializableAsBase = false;
720fb00c887SWarren Hunt } else if (Member->Kind == MemberInfo::Base ||
721fb00c887SWarren Hunt Member->Kind == MemberInfo::VBase) {
722fb00c887SWarren Hunt if (isZeroInitializable(Member->RD))
723fb00c887SWarren Hunt continue;
724fb00c887SWarren Hunt IsZeroInitializable = false;
725fb00c887SWarren Hunt if (Member->Kind == MemberInfo::Base)
726fb00c887SWarren Hunt IsZeroInitializableAsBase = false;
727fb00c887SWarren Hunt }
728fb00c887SWarren Hunt }
729fb00c887SWarren Hunt }
730fb00c887SWarren Hunt
clipTailPadding()731fb00c887SWarren Hunt void CGRecordLowering::clipTailPadding() {
732fb00c887SWarren Hunt std::vector<MemberInfo>::iterator Prior = Members.begin();
733fb00c887SWarren Hunt CharUnits Tail = getSize(Prior->Data);
734fb00c887SWarren Hunt for (std::vector<MemberInfo>::iterator Member = Prior + 1,
735fb00c887SWarren Hunt MemberEnd = Members.end();
736fb00c887SWarren Hunt Member != MemberEnd; ++Member) {
737fb00c887SWarren Hunt // Only members with data and the scissor can cut into tail padding.
738fb00c887SWarren Hunt if (!Member->Data && Member->Kind != MemberInfo::Scissor)
739fb00c887SWarren Hunt continue;
740fb00c887SWarren Hunt if (Member->Offset < Tail) {
74178b239eaSRichard Smith assert(Prior->Kind == MemberInfo::Field &&
742fb00c887SWarren Hunt "Only storage fields have tail padding!");
74378b239eaSRichard Smith if (!Prior->FD || Prior->FD->isBitField())
74483aa9794SRui Ueyama Prior->Data = getByteArrayType(bitsToCharUnits(llvm::alignTo(
745fb00c887SWarren Hunt cast<llvm::IntegerType>(Prior->Data)->getIntegerBitWidth(), 8)));
74678b239eaSRichard Smith else {
74778b239eaSRichard Smith assert(Prior->FD->hasAttr<NoUniqueAddressAttr>() &&
74878b239eaSRichard Smith "should not have reused this field's tail padding");
74978b239eaSRichard Smith Prior->Data = getByteArrayType(
750101309feSBevin Hansson Context.getTypeInfoDataSizeInChars(Prior->FD->getType()).Width);
75178b239eaSRichard Smith }
752fb00c887SWarren Hunt }
753fb00c887SWarren Hunt if (Member->Data)
754fb00c887SWarren Hunt Prior = Member;
755fb00c887SWarren Hunt Tail = Prior->Offset + getSize(Prior->Data);
756fb00c887SWarren Hunt }
757fb00c887SWarren Hunt }
758fb00c887SWarren Hunt
determinePacked(bool NVBaseType)759bb513009SDavid Majnemer void CGRecordLowering::determinePacked(bool NVBaseType) {
760bb513009SDavid Majnemer if (Packed)
761bb513009SDavid Majnemer return;
762fb00c887SWarren Hunt CharUnits Alignment = CharUnits::One();
763bb513009SDavid Majnemer CharUnits NVAlignment = CharUnits::One();
764bb513009SDavid Majnemer CharUnits NVSize =
765bb513009SDavid Majnemer !NVBaseType && RD ? Layout.getNonVirtualSize() : CharUnits::Zero();
766fb00c887SWarren Hunt for (std::vector<MemberInfo>::const_iterator Member = Members.begin(),
767fb00c887SWarren Hunt MemberEnd = Members.end();
768fb00c887SWarren Hunt Member != MemberEnd; ++Member) {
769fb00c887SWarren Hunt if (!Member->Data)
770fb00c887SWarren Hunt continue;
771fb00c887SWarren Hunt // If any member falls at an offset that it not a multiple of its alignment,
772fb00c887SWarren Hunt // then the entire record must be packed.
773fb00c887SWarren Hunt if (Member->Offset % getAlignment(Member->Data))
774fb00c887SWarren Hunt Packed = true;
775bb513009SDavid Majnemer if (Member->Offset < NVSize)
776bb513009SDavid Majnemer NVAlignment = std::max(NVAlignment, getAlignment(Member->Data));
777fb00c887SWarren Hunt Alignment = std::max(Alignment, getAlignment(Member->Data));
778fb00c887SWarren Hunt }
779fb00c887SWarren Hunt // If the size of the record (the capstone's offset) is not a multiple of the
780fb00c887SWarren Hunt // record's alignment, it must be packed.
781fb00c887SWarren Hunt if (Members.back().Offset % Alignment)
782fb00c887SWarren Hunt Packed = true;
783bb513009SDavid Majnemer // If the non-virtual sub-object is not a multiple of the non-virtual
784bb513009SDavid Majnemer // sub-object's alignment, it must be packed. We cannot have a packed
785bb513009SDavid Majnemer // non-virtual sub-object and an unpacked complete object or vise versa.
786bb513009SDavid Majnemer if (NVSize % NVAlignment)
787bb513009SDavid Majnemer Packed = true;
7882a8c18d9SAlexander Kornienko // Update the alignment of the sentinel.
789fb00c887SWarren Hunt if (!Packed)
790fb00c887SWarren Hunt Members.back().Data = getIntNType(Context.toBits(Alignment));
791fb00c887SWarren Hunt }
792fb00c887SWarren Hunt
insertPadding()793fb00c887SWarren Hunt void CGRecordLowering::insertPadding() {
794fb00c887SWarren Hunt std::vector<std::pair<CharUnits, CharUnits> > Padding;
795fb00c887SWarren Hunt CharUnits Size = CharUnits::Zero();
796fb00c887SWarren Hunt for (std::vector<MemberInfo>::const_iterator Member = Members.begin(),
797fb00c887SWarren Hunt MemberEnd = Members.end();
798fb00c887SWarren Hunt Member != MemberEnd; ++Member) {
799fb00c887SWarren Hunt if (!Member->Data)
800fb00c887SWarren Hunt continue;
801fb00c887SWarren Hunt CharUnits Offset = Member->Offset;
802fb00c887SWarren Hunt assert(Offset >= Size);
803fb00c887SWarren Hunt // Insert padding if we need to.
80483aa9794SRui Ueyama if (Offset !=
80583aa9794SRui Ueyama Size.alignTo(Packed ? CharUnits::One() : getAlignment(Member->Data)))
806fb00c887SWarren Hunt Padding.push_back(std::make_pair(Size, Offset - Size));
807fb00c887SWarren Hunt Size = Offset + getSize(Member->Data);
808fb00c887SWarren Hunt }
809fb00c887SWarren Hunt if (Padding.empty())
810fb00c887SWarren Hunt return;
811fb00c887SWarren Hunt // Add the padding to the Members list and sort it.
812fb00c887SWarren Hunt for (std::vector<std::pair<CharUnits, CharUnits> >::const_iterator
813fb00c887SWarren Hunt Pad = Padding.begin(), PadEnd = Padding.end();
814fb00c887SWarren Hunt Pad != PadEnd; ++Pad)
815fb00c887SWarren Hunt Members.push_back(StorageInfo(Pad->first, getByteArrayType(Pad->second)));
816899d1392SFangrui Song llvm::stable_sort(Members);
817fb00c887SWarren Hunt }
818fb00c887SWarren Hunt
fillOutputFields()819fb00c887SWarren Hunt void CGRecordLowering::fillOutputFields() {
820fb00c887SWarren Hunt for (std::vector<MemberInfo>::const_iterator Member = Members.begin(),
821fb00c887SWarren Hunt MemberEnd = Members.end();
822fb00c887SWarren Hunt Member != MemberEnd; ++Member) {
823fb00c887SWarren Hunt if (Member->Data)
824fb00c887SWarren Hunt FieldTypes.push_back(Member->Data);
825fb00c887SWarren Hunt if (Member->Kind == MemberInfo::Field) {
826fb00c887SWarren Hunt if (Member->FD)
827cd45dbc5SRichard Smith Fields[Member->FD->getCanonicalDecl()] = FieldTypes.size() - 1;
828fb00c887SWarren Hunt // A field without storage must be a bitfield.
829fb00c887SWarren Hunt if (!Member->Data)
830fb00c887SWarren Hunt setBitFieldInfo(Member->FD, Member->Offset, FieldTypes.back());
831fb00c887SWarren Hunt } else if (Member->Kind == MemberInfo::Base)
832fb00c887SWarren Hunt NonVirtualBases[Member->RD] = FieldTypes.size() - 1;
833fb00c887SWarren Hunt else if (Member->Kind == MemberInfo::VBase)
834fb00c887SWarren Hunt VirtualBases[Member->RD] = FieldTypes.size() - 1;
835fb00c887SWarren Hunt }
836307846feSAnders Carlsson }
837307846feSAnders Carlsson
MakeInfo(CodeGenTypes & Types,const FieldDecl * FD,uint64_t Offset,uint64_t Size,uint64_t StorageSize,CharUnits StorageOffset)838c7f9bbafSDaniel Dunbar CGBitFieldInfo CGBitFieldInfo::MakeInfo(CodeGenTypes &Types,
839f9c24f84SDaniel Dunbar const FieldDecl *FD,
840ff0e3a1eSChandler Carruth uint64_t Offset, uint64_t Size,
841ff0e3a1eSChandler Carruth uint64_t StorageSize,
84203ce2a16SUlrich Weigand CharUnits StorageOffset) {
843fb00c887SWarren Hunt // This function is vestigial from CGRecordLayoutBuilder days but is still
844fb00c887SWarren Hunt // used in GCObjCRuntime.cpp. That usage has a "fixme" attached to it that
845fb00c887SWarren Hunt // when addressed will allow for the removal of this function.
8462192fe50SChris Lattner llvm::Type *Ty = Types.ConvertTypeForMem(FD->getType());
8478a3c5556SJohn McCall CharUnits TypeSizeInBytes =
848dd31ca10SMicah Villmow CharUnits::fromQuantity(Types.getDataLayout().getTypeAllocSize(Ty));
8498a3c5556SJohn McCall uint64_t TypeSizeInBits = Types.getContext().toBits(TypeSizeInBytes);
850f9c24f84SDaniel Dunbar
8516ab2fa8fSDouglas Gregor bool IsSigned = FD->getType()->isSignedIntegerOrEnumerationType();
852f9c24f84SDaniel Dunbar
853ff0e3a1eSChandler Carruth if (Size > TypeSizeInBits) {
854d5f27b05SAnders Carlsson // We have a wide bit-field. The extra bits are only used for padding, so
855d5f27b05SAnders Carlsson // if we have a bitfield of type T, with size N:
856d5f27b05SAnders Carlsson //
857d5f27b05SAnders Carlsson // T t : N;
858d5f27b05SAnders Carlsson //
859d5f27b05SAnders Carlsson // We can just assume that it's:
860d5f27b05SAnders Carlsson //
861d5f27b05SAnders Carlsson // T t : sizeof(T);
862d5f27b05SAnders Carlsson //
863ff0e3a1eSChandler Carruth Size = TypeSizeInBits;
864be6f3181SAnders Carlsson }
865be6f3181SAnders Carlsson
866fd8eca20SChandler Carruth // Reverse the bit offsets for big endian machines. Because we represent
867fd8eca20SChandler Carruth // a bitfield as a single large integer load, we can imagine the bits
868fd8eca20SChandler Carruth // counting from the most-significant-bit instead of the
869fd8eca20SChandler Carruth // least-significant-bit.
870fd8eca20SChandler Carruth if (Types.getDataLayout().isBigEndian()) {
871fd8eca20SChandler Carruth Offset = StorageSize - (Offset + Size);
872fd8eca20SChandler Carruth }
873ff0e3a1eSChandler Carruth
87403ce2a16SUlrich Weigand return CGBitFieldInfo(Offset, Size, IsSigned, StorageSize, StorageOffset);
875fb59c7c7SChris Lattner }
876fb59c7c7SChris Lattner
8779b77242cSDavid Blaikie std::unique_ptr<CGRecordLayout>
ComputeRecordLayout(const RecordDecl * D,llvm::StructType * Ty)8789b77242cSDavid Blaikie CodeGenTypes::ComputeRecordLayout(const RecordDecl *D, llvm::StructType *Ty) {
879bb513009SDavid Majnemer CGRecordLowering Builder(*this, D, /*Packed=*/false);
880307846feSAnders Carlsson
881bb513009SDavid Majnemer Builder.lower(/*NonVirtualBaseType=*/false);
882307846feSAnders Carlsson
8830217dfc2SJohn McCall // If we're in C++, compute the base subobject type.
8848a13c418SCraig Topper llvm::StructType *BaseTy = nullptr;
885fb00c887SWarren Hunt if (isa<CXXRecordDecl>(D) && !D->isUnion() && !D->hasAttr<FinalAttr>()) {
886fb00c887SWarren Hunt BaseTy = Ty;
887fb00c887SWarren Hunt if (Builder.Layout.getNonVirtualSize() != Builder.Layout.getSize()) {
888bb513009SDavid Majnemer CGRecordLowering BaseBuilder(*this, D, /*Packed=*/Builder.Packed);
889bb513009SDavid Majnemer BaseBuilder.lower(/*NonVirtualBaseType=*/true);
890fb00c887SWarren Hunt BaseTy = llvm::StructType::create(
891fb00c887SWarren Hunt getLLVMContext(), BaseBuilder.FieldTypes, "", BaseBuilder.Packed);
892fb00c887SWarren Hunt addRecordTypeName(D, BaseTy, ".base");
893bb513009SDavid Majnemer // BaseTy and Ty must agree on their packedness for getLLVMFieldNo to work
894bb513009SDavid Majnemer // on both of them with the same index.
895bb513009SDavid Majnemer assert(Builder.Packed == BaseBuilder.Packed &&
896bb513009SDavid Majnemer "Non-virtual and complete types must agree on packedness");
897fb00c887SWarren Hunt }
898c1351cacSAnders Carlsson }
899c1351cacSAnders Carlsson
900c497f1d4SReid Kleckner // Fill in the struct *after* computing the base type. Filling in the body
901c497f1d4SReid Kleckner // signifies that the type is no longer opaque and record layout is complete,
902c497f1d4SReid Kleckner // but we may need to recursively layout D while laying D out as a base type.
903c497f1d4SReid Kleckner Ty->setBody(Builder.FieldTypes, Builder.Packed);
904c497f1d4SReid Kleckner
9059b77242cSDavid Blaikie auto RL = std::make_unique<CGRecordLayout>(
9069b77242cSDavid Blaikie Ty, BaseTy, (bool)Builder.IsZeroInitializable,
9079b77242cSDavid Blaikie (bool)Builder.IsZeroInitializableAsBase);
908034299efSDaniel Dunbar
9090217dfc2SJohn McCall RL->NonVirtualBases.swap(Builder.NonVirtualBases);
9100217dfc2SJohn McCall RL->CompleteObjectVirtualBases.swap(Builder.VirtualBases);
911061ca524SAnders Carlsson
912307846feSAnders Carlsson // Add all the field numbers.
9130217dfc2SJohn McCall RL->FieldInfo.swap(Builder.Fields);
914307846feSAnders Carlsson
915307846feSAnders Carlsson // Add bitfield info.
9160217dfc2SJohn McCall RL->BitFields.swap(Builder.BitFields);
917307846feSAnders Carlsson
9182ea5183bSDaniel Dunbar // Dump the layout, if requested.
919bbafb8a7SDavid Blaikie if (getContext().getLangOpts().DumpRecordLayouts) {
9208ade08edSArgyrios Kyrtzidis llvm::outs() << "\n*** Dumping IRgen Record Layout\n";
9218ade08edSArgyrios Kyrtzidis llvm::outs() << "Record: ";
9228ade08edSArgyrios Kyrtzidis D->dump(llvm::outs());
9238ade08edSArgyrios Kyrtzidis llvm::outs() << "\nLayout: ";
9248ade08edSArgyrios Kyrtzidis RL->print(llvm::outs());
925b935b937SDaniel Dunbar }
926b97bff9aSDaniel Dunbar
927488f55c2SDaniel Dunbar #ifndef NDEBUG
9282ea5183bSDaniel Dunbar // Verify that the computed LLVM struct size matches the AST layout size.
929c1351cacSAnders Carlsson const ASTRecordLayout &Layout = getContext().getASTRecordLayout(D);
930c1351cacSAnders Carlsson
931b0fcc59eSKen Dyck uint64_t TypeSizeInBits = getContext().toBits(Layout.getSize());
932dd31ca10SMicah Villmow assert(TypeSizeInBits == getDataLayout().getTypeAllocSizeInBits(Ty) &&
9332ea5183bSDaniel Dunbar "Type size mismatch!");
9342ea5183bSDaniel Dunbar
935c1351cacSAnders Carlsson if (BaseTy) {
936bec0285dSKen Dyck CharUnits NonVirtualSize = Layout.getNonVirtualSize();
937bec0285dSKen Dyck
938c1351cacSAnders Carlsson uint64_t AlignedNonVirtualTypeSizeInBits =
939fb00c887SWarren Hunt getContext().toBits(NonVirtualSize);
940c1351cacSAnders Carlsson
941c1351cacSAnders Carlsson assert(AlignedNonVirtualTypeSizeInBits ==
942dd31ca10SMicah Villmow getDataLayout().getTypeAllocSizeInBits(BaseTy) &&
943c1351cacSAnders Carlsson "Type size mismatch!");
944c1351cacSAnders Carlsson }
945c1351cacSAnders Carlsson
9462ba67440SDaniel Dunbar // Verify that the LLVM and AST field offsets agree.
94700f70bd9SGeorge Burgess IV llvm::StructType *ST = RL->getLLVMType();
948dd31ca10SMicah Villmow const llvm::StructLayout *SL = getDataLayout().getStructLayout(ST);
9492ba67440SDaniel Dunbar
9502ba67440SDaniel Dunbar const ASTRecordLayout &AST_RL = getContext().getASTRecordLayout(D);
9512ba67440SDaniel Dunbar RecordDecl::field_iterator it = D->field_begin();
9522ba67440SDaniel Dunbar for (unsigned i = 0, e = AST_RL.getFieldCount(); i != e; ++i, ++it) {
95340ed2973SDavid Blaikie const FieldDecl *FD = *it;
954488f55c2SDaniel Dunbar
95578b239eaSRichard Smith // Ignore zero-sized fields.
95678b239eaSRichard Smith if (FD->isZeroSize(getContext()))
95778b239eaSRichard Smith continue;
95878b239eaSRichard Smith
959488f55c2SDaniel Dunbar // For non-bit-fields, just check that the LLVM struct offset matches the
960488f55c2SDaniel Dunbar // AST offset.
961488f55c2SDaniel Dunbar if (!FD->isBitField()) {
9622ba67440SDaniel Dunbar unsigned FieldNo = RL->getLLVMFieldNo(FD);
9632ba67440SDaniel Dunbar assert(AST_RL.getFieldOffset(i) == SL->getElementOffsetInBits(FieldNo) &&
9642ba67440SDaniel Dunbar "Invalid field offset!");
965488f55c2SDaniel Dunbar continue;
966488f55c2SDaniel Dunbar }
967488f55c2SDaniel Dunbar
968bcb23a18SFariborz Jahanian // Ignore unnamed bit-fields.
9692782dacfSEli Friedman if (!FD->getDeclName())
970bcb23a18SFariborz Jahanian continue;
971488f55c2SDaniel Dunbar
972ff0e3a1eSChandler Carruth const CGBitFieldInfo &Info = RL->getBitFieldInfo(FD);
973ed72cdc0SChandler Carruth llvm::Type *ElementTy = ST->getTypeAtIndex(RL->getLLVMFieldNo(FD));
974ed72cdc0SChandler Carruth
975ff0e3a1eSChandler Carruth // Unions have overlapping elements dictating their layout, but for
976ff0e3a1eSChandler Carruth // non-unions we can verify that this section of the layout is the exact
977ed72cdc0SChandler Carruth // expected size.
978ff0e3a1eSChandler Carruth if (D->isUnion()) {
979ed72cdc0SChandler Carruth // For unions we verify that the start is zero and the size
980ed72cdc0SChandler Carruth // is in-bounds. However, on BE systems, the offset may be non-zero, but
981ed72cdc0SChandler Carruth // the size + offset should match the storage size in that case as it
982ed72cdc0SChandler Carruth // "starts" at the back.
983ed72cdc0SChandler Carruth if (getDataLayout().isBigEndian())
984464d2195SDavid Greene assert(static_cast<unsigned>(Info.Offset + Info.Size) ==
985464d2195SDavid Greene Info.StorageSize &&
986ed72cdc0SChandler Carruth "Big endian union bitfield does not end at the back");
987ed72cdc0SChandler Carruth else
988ed72cdc0SChandler Carruth assert(Info.Offset == 0 &&
989ed72cdc0SChandler Carruth "Little endian union bitfield with a non-zero offset");
990ff0e3a1eSChandler Carruth assert(Info.StorageSize <= SL->getSizeInBits() &&
991ff0e3a1eSChandler Carruth "Union not large enough for bitfield storage");
992ff0e3a1eSChandler Carruth } else {
99320898784STies Stuij assert((Info.StorageSize ==
99420898784STies Stuij getDataLayout().getTypeAllocSizeInBits(ElementTy) ||
99520898784STies Stuij Info.VolatileStorageSize ==
99620898784STies Stuij getDataLayout().getTypeAllocSizeInBits(ElementTy)) &&
997ff0e3a1eSChandler Carruth "Storage size does not match the element type size");
9982ba67440SDaniel Dunbar }
999ff0e3a1eSChandler Carruth assert(Info.Size > 0 && "Empty bitfield!");
100076bd3d85SEli Bendersky assert(static_cast<unsigned>(Info.Offset) + Info.Size <= Info.StorageSize &&
1001ff0e3a1eSChandler Carruth "Bitfield outside of its allocated storage");
10022ba67440SDaniel Dunbar }
10032ba67440SDaniel Dunbar #endif
10042ea5183bSDaniel Dunbar
1005034299efSDaniel Dunbar return RL;
1006307846feSAnders Carlsson }
1007b97bff9aSDaniel Dunbar
print(raw_ostream & OS) const10080e62c1ccSChris Lattner void CGRecordLayout::print(raw_ostream &OS) const {
1009b97bff9aSDaniel Dunbar OS << "<CGRecordLayout\n";
10100217dfc2SJohn McCall OS << " LLVMType:" << *CompleteObjectType << "\n";
10110217dfc2SJohn McCall if (BaseSubobjectType)
10120217dfc2SJohn McCall OS << " NonVirtualBaseLLVMType:" << *BaseSubobjectType << "\n";
1013614dbdcdSJohn McCall OS << " IsZeroInitializable:" << IsZeroInitializable << "\n";
1014b97bff9aSDaniel Dunbar OS << " BitFields:[\n";
1015b6f4b059SDaniel Dunbar
1016b6f4b059SDaniel Dunbar // Print bit-field infos in declaration order.
1017b6f4b059SDaniel Dunbar std::vector<std::pair<unsigned, const CGBitFieldInfo*> > BFIs;
1018b97bff9aSDaniel Dunbar for (llvm::DenseMap<const FieldDecl*, CGBitFieldInfo>::const_iterator
1019b97bff9aSDaniel Dunbar it = BitFields.begin(), ie = BitFields.end();
1020b97bff9aSDaniel Dunbar it != ie; ++it) {
1021b6f4b059SDaniel Dunbar const RecordDecl *RD = it->first->getParent();
1022b6f4b059SDaniel Dunbar unsigned Index = 0;
1023b6f4b059SDaniel Dunbar for (RecordDecl::field_iterator
102440ed2973SDavid Blaikie it2 = RD->field_begin(); *it2 != it->first; ++it2)
1025b6f4b059SDaniel Dunbar ++Index;
1026b6f4b059SDaniel Dunbar BFIs.push_back(std::make_pair(Index, &it->second));
1027b6f4b059SDaniel Dunbar }
1028b6f4b059SDaniel Dunbar llvm::array_pod_sort(BFIs.begin(), BFIs.end());
1029b6f4b059SDaniel Dunbar for (unsigned i = 0, e = BFIs.size(); i != e; ++i) {
1030b935b937SDaniel Dunbar OS.indent(4);
1031b6f4b059SDaniel Dunbar BFIs[i].second->print(OS);
1032b97bff9aSDaniel Dunbar OS << "\n";
1033b97bff9aSDaniel Dunbar }
1034b6f4b059SDaniel Dunbar
1035b97bff9aSDaniel Dunbar OS << "]>\n";
1036b97bff9aSDaniel Dunbar }
1037b97bff9aSDaniel Dunbar
dump() const1038cdae941eSYaron Keren LLVM_DUMP_METHOD void CGRecordLayout::dump() const {
1039b97bff9aSDaniel Dunbar print(llvm::errs());
1040b97bff9aSDaniel Dunbar }
1041b97bff9aSDaniel Dunbar
print(raw_ostream & OS) const10420e62c1ccSChris Lattner void CGBitFieldInfo::print(raw_ostream &OS) const {
1043ff0e3a1eSChandler Carruth OS << "<CGBitFieldInfo"
104420898784STies Stuij << " Offset:" << Offset << " Size:" << Size << " IsSigned:" << IsSigned
1045ff0e3a1eSChandler Carruth << " StorageSize:" << StorageSize
104620898784STies Stuij << " StorageOffset:" << StorageOffset.getQuantity()
104720898784STies Stuij << " VolatileOffset:" << VolatileOffset
104820898784STies Stuij << " VolatileStorageSize:" << VolatileStorageSize
104920898784STies Stuij << " VolatileStorageOffset:" << VolatileStorageOffset.getQuantity() << ">";
1050b97bff9aSDaniel Dunbar }
1051b97bff9aSDaniel Dunbar
dump() const1052cdae941eSYaron Keren LLVM_DUMP_METHOD void CGBitFieldInfo::dump() const {
1053b97bff9aSDaniel Dunbar print(llvm::errs());
1054b97bff9aSDaniel Dunbar }
1055