Mercurial > hg > CbC > CbC_llvm
view clang-tools-extra/clang-doc/BitcodeWriter.cpp @ 266:00f31e85ec16 default tip
Added tag current for changeset 31d058e83c98
| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Sat, 14 Oct 2023 10:13:55 +0900 |
| parents | 1f2b6ac9f198 |
| children |
line wrap: on
line source
//===-- BitcodeWriter.cpp - ClangDoc Bitcode Writer ------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "BitcodeWriter.h" #include "llvm/ADT/IndexedMap.h" #include <initializer_list> namespace clang { namespace doc { // Empty SymbolID for comparison, so we don't have to construct one every time. static const SymbolID EmptySID = SymbolID(); // Since id enums are not zero-indexed, we need to transform the given id into // its associated index. struct BlockIdToIndexFunctor { using argument_type = unsigned; unsigned operator()(unsigned ID) const { return ID - BI_FIRST; } }; struct RecordIdToIndexFunctor { using argument_type = unsigned; unsigned operator()(unsigned ID) const { return ID - RI_FIRST; } }; using AbbrevDsc = void (*)(std::shared_ptr<llvm::BitCodeAbbrev> &Abbrev); static void AbbrevGen(std::shared_ptr<llvm::BitCodeAbbrev> &Abbrev, const std::initializer_list<llvm::BitCodeAbbrevOp> Ops) { for (const auto &Op : Ops) Abbrev->Add(Op); } static void BoolAbbrev(std::shared_ptr<llvm::BitCodeAbbrev> &Abbrev) { AbbrevGen(Abbrev, {// 0. Boolean llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::BoolSize)}); } static void IntAbbrev(std::shared_ptr<llvm::BitCodeAbbrev> &Abbrev) { AbbrevGen(Abbrev, {// 0. Fixed-size integer llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::IntSize)}); } static void SymbolIDAbbrev(std::shared_ptr<llvm::BitCodeAbbrev> &Abbrev) { AbbrevGen(Abbrev, {// 0. Fixed-size integer (length of the sha1'd USR) llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::USRLengthSize), // 1. Fixed-size array of Char6 (USR) llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Array), llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::USRBitLengthSize)}); } static void StringAbbrev(std::shared_ptr<llvm::BitCodeAbbrev> &Abbrev) { AbbrevGen(Abbrev, {// 0. Fixed-size integer (length of the following string) llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::StringLengthSize), // 1. The string blob llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Blob)}); } // Assumes that the file will not have more than 65535 lines. static void LocationAbbrev(std::shared_ptr<llvm::BitCodeAbbrev> &Abbrev) { AbbrevGen( Abbrev, {// 0. Fixed-size integer (line number) llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::LineNumberSize), // 1. Boolean (IsFileInRootDir) llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::BoolSize), // 2. Fixed-size integer (length of the following string (filename)) llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Fixed, BitCodeConstants::StringLengthSize), // 3. The string blob llvm::BitCodeAbbrevOp(llvm::BitCodeAbbrevOp::Blob)}); } struct RecordIdDsc { llvm::StringRef Name; AbbrevDsc Abbrev = nullptr; RecordIdDsc() = default; RecordIdDsc(llvm::StringRef Name, AbbrevDsc Abbrev) : Name(Name), Abbrev(Abbrev) {} // Is this 'description' valid? operator bool() const { return Abbrev != nullptr && Name.data() != nullptr && !Name.empty(); } }; static const llvm::IndexedMap<llvm::StringRef, BlockIdToIndexFunctor> BlockIdNameMap = []() { llvm::IndexedMap<llvm::StringRef, BlockIdToIndexFunctor> BlockIdNameMap; BlockIdNameMap.resize(BlockIdCount); // There is no init-list constructor for the IndexedMap, so have to // improvise static const std::vector<std::pair<BlockId, const char *const>> Inits = { {BI_VERSION_BLOCK_ID, "VersionBlock"}, {BI_NAMESPACE_BLOCK_ID, "NamespaceBlock"}, {BI_ENUM_BLOCK_ID, "EnumBlock"}, {BI_ENUM_VALUE_BLOCK_ID, "EnumValueBlock"}, {BI_TYPEDEF_BLOCK_ID, "TypedefBlock"}, {BI_TYPE_BLOCK_ID, "TypeBlock"}, {BI_FIELD_TYPE_BLOCK_ID, "FieldTypeBlock"}, {BI_MEMBER_TYPE_BLOCK_ID, "MemberTypeBlock"}, {BI_RECORD_BLOCK_ID, "RecordBlock"}, {BI_BASE_RECORD_BLOCK_ID, "BaseRecordBlock"}, {BI_FUNCTION_BLOCK_ID, "FunctionBlock"}, {BI_COMMENT_BLOCK_ID, "CommentBlock"}, {BI_REFERENCE_BLOCK_ID, "ReferenceBlock"}, {BI_TEMPLATE_BLOCK_ID, "TemplateBlock"}, {BI_TEMPLATE_SPECIALIZATION_BLOCK_ID, "TemplateSpecializationBlock"}, {BI_TEMPLATE_PARAM_BLOCK_ID, "TemplateParamBlock"}}; assert(Inits.size() == BlockIdCount); for (const auto &Init : Inits) BlockIdNameMap[Init.first] = Init.second; assert(BlockIdNameMap.size() == BlockIdCount); return BlockIdNameMap; }(); static const llvm::IndexedMap<RecordIdDsc, RecordIdToIndexFunctor> RecordIdNameMap = []() { llvm::IndexedMap<RecordIdDsc, RecordIdToIndexFunctor> RecordIdNameMap; RecordIdNameMap.resize(RecordIdCount); // There is no init-list constructor for the IndexedMap, so have to // improvise static const std::vector<std::pair<RecordId, RecordIdDsc>> Inits = { {VERSION, {"Version", &IntAbbrev}}, {COMMENT_KIND, {"Kind", &StringAbbrev}}, {COMMENT_TEXT, {"Text", &StringAbbrev}}, {COMMENT_NAME, {"Name", &StringAbbrev}}, {COMMENT_DIRECTION, {"Direction", &StringAbbrev}}, {COMMENT_PARAMNAME, {"ParamName", &StringAbbrev}}, {COMMENT_CLOSENAME, {"CloseName", &StringAbbrev}}, {COMMENT_SELFCLOSING, {"SelfClosing", &BoolAbbrev}}, {COMMENT_EXPLICIT, {"Explicit", &BoolAbbrev}}, {COMMENT_ATTRKEY, {"AttrKey", &StringAbbrev}}, {COMMENT_ATTRVAL, {"AttrVal", &StringAbbrev}}, {COMMENT_ARG, {"Arg", &StringAbbrev}}, {FIELD_TYPE_NAME, {"Name", &StringAbbrev}}, {FIELD_DEFAULT_VALUE, {"DefaultValue", &StringAbbrev}}, {MEMBER_TYPE_NAME, {"Name", &StringAbbrev}}, {MEMBER_TYPE_ACCESS, {"Access", &IntAbbrev}}, {NAMESPACE_USR, {"USR", &SymbolIDAbbrev}}, {NAMESPACE_NAME, {"Name", &StringAbbrev}}, {NAMESPACE_PATH, {"Path", &StringAbbrev}}, {ENUM_USR, {"USR", &SymbolIDAbbrev}}, {ENUM_NAME, {"Name", &StringAbbrev}}, {ENUM_DEFLOCATION, {"DefLocation", &LocationAbbrev}}, {ENUM_LOCATION, {"Location", &LocationAbbrev}}, {ENUM_SCOPED, {"Scoped", &BoolAbbrev}}, {ENUM_VALUE_NAME, {"Name", &StringAbbrev}}, {ENUM_VALUE_VALUE, {"Value", &StringAbbrev}}, {ENUM_VALUE_EXPR, {"Expr", &StringAbbrev}}, {RECORD_USR, {"USR", &SymbolIDAbbrev}}, {RECORD_NAME, {"Name", &StringAbbrev}}, {RECORD_PATH, {"Path", &StringAbbrev}}, {RECORD_DEFLOCATION, {"DefLocation", &LocationAbbrev}}, {RECORD_LOCATION, {"Location", &LocationAbbrev}}, {RECORD_TAG_TYPE, {"TagType", &IntAbbrev}}, {RECORD_IS_TYPE_DEF, {"IsTypeDef", &BoolAbbrev}}, {BASE_RECORD_USR, {"USR", &SymbolIDAbbrev}}, {BASE_RECORD_NAME, {"Name", &StringAbbrev}}, {BASE_RECORD_PATH, {"Path", &StringAbbrev}}, {BASE_RECORD_TAG_TYPE, {"TagType", &IntAbbrev}}, {BASE_RECORD_IS_VIRTUAL, {"IsVirtual", &BoolAbbrev}}, {BASE_RECORD_ACCESS, {"Access", &IntAbbrev}}, {BASE_RECORD_IS_PARENT, {"IsParent", &BoolAbbrev}}, {FUNCTION_USR, {"USR", &SymbolIDAbbrev}}, {FUNCTION_NAME, {"Name", &StringAbbrev}}, {FUNCTION_DEFLOCATION, {"DefLocation", &LocationAbbrev}}, {FUNCTION_LOCATION, {"Location", &LocationAbbrev}}, {FUNCTION_ACCESS, {"Access", &IntAbbrev}}, {FUNCTION_IS_METHOD, {"IsMethod", &BoolAbbrev}}, {REFERENCE_USR, {"USR", &SymbolIDAbbrev}}, {REFERENCE_NAME, {"Name", &StringAbbrev}}, {REFERENCE_QUAL_NAME, {"QualName", &StringAbbrev}}, {REFERENCE_TYPE, {"RefType", &IntAbbrev}}, {REFERENCE_PATH, {"Path", &StringAbbrev}}, {REFERENCE_FIELD, {"Field", &IntAbbrev}}, {TEMPLATE_PARAM_CONTENTS, {"Contents", &StringAbbrev}}, {TEMPLATE_SPECIALIZATION_OF, {"SpecializationOf", &SymbolIDAbbrev}}, {TYPEDEF_USR, {"USR", &SymbolIDAbbrev}}, {TYPEDEF_NAME, {"Name", &StringAbbrev}}, {TYPEDEF_DEFLOCATION, {"DefLocation", &LocationAbbrev}}, {TYPEDEF_IS_USING, {"IsUsing", &BoolAbbrev}}}; assert(Inits.size() == RecordIdCount); for (const auto &Init : Inits) { RecordIdNameMap[Init.first] = Init.second; assert((Init.second.Name.size() + 1) <= BitCodeConstants::RecordSize); } assert(RecordIdNameMap.size() == RecordIdCount); return RecordIdNameMap; }(); static const std::vector<std::pair<BlockId, std::vector<RecordId>>> RecordsByBlock{ // Version Block {BI_VERSION_BLOCK_ID, {VERSION}}, // Comment Block {BI_COMMENT_BLOCK_ID, {COMMENT_KIND, COMMENT_TEXT, COMMENT_NAME, COMMENT_DIRECTION, COMMENT_PARAMNAME, COMMENT_CLOSENAME, COMMENT_SELFCLOSING, COMMENT_EXPLICIT, COMMENT_ATTRKEY, COMMENT_ATTRVAL, COMMENT_ARG}}, // Type Block {BI_TYPE_BLOCK_ID, {}}, // FieldType Block {BI_FIELD_TYPE_BLOCK_ID, {FIELD_TYPE_NAME, FIELD_DEFAULT_VALUE}}, // MemberType Block {BI_MEMBER_TYPE_BLOCK_ID, {MEMBER_TYPE_NAME, MEMBER_TYPE_ACCESS}}, // Enum Block {BI_ENUM_BLOCK_ID, {ENUM_USR, ENUM_NAME, ENUM_DEFLOCATION, ENUM_LOCATION, ENUM_SCOPED}}, // Enum Value Block {BI_ENUM_VALUE_BLOCK_ID, {ENUM_VALUE_NAME, ENUM_VALUE_VALUE, ENUM_VALUE_EXPR}}, // Typedef Block {BI_TYPEDEF_BLOCK_ID, {TYPEDEF_USR, TYPEDEF_NAME, TYPEDEF_DEFLOCATION, TYPEDEF_IS_USING}}, // Namespace Block {BI_NAMESPACE_BLOCK_ID, {NAMESPACE_USR, NAMESPACE_NAME, NAMESPACE_PATH}}, // Record Block {BI_RECORD_BLOCK_ID, {RECORD_USR, RECORD_NAME, RECORD_PATH, RECORD_DEFLOCATION, RECORD_LOCATION, RECORD_TAG_TYPE, RECORD_IS_TYPE_DEF}}, // BaseRecord Block {BI_BASE_RECORD_BLOCK_ID, {BASE_RECORD_USR, BASE_RECORD_NAME, BASE_RECORD_PATH, BASE_RECORD_TAG_TYPE, BASE_RECORD_IS_VIRTUAL, BASE_RECORD_ACCESS, BASE_RECORD_IS_PARENT}}, // Function Block {BI_FUNCTION_BLOCK_ID, {FUNCTION_USR, FUNCTION_NAME, FUNCTION_DEFLOCATION, FUNCTION_LOCATION, FUNCTION_ACCESS, FUNCTION_IS_METHOD}}, // Reference Block {BI_REFERENCE_BLOCK_ID, {REFERENCE_USR, REFERENCE_NAME, REFERENCE_QUAL_NAME, REFERENCE_TYPE, REFERENCE_PATH, REFERENCE_FIELD}}, // Template Blocks. {BI_TEMPLATE_BLOCK_ID, {}}, {BI_TEMPLATE_PARAM_BLOCK_ID, {TEMPLATE_PARAM_CONTENTS}}, {BI_TEMPLATE_SPECIALIZATION_BLOCK_ID, {TEMPLATE_SPECIALIZATION_OF}}}; // AbbreviationMap constexpr unsigned char BitCodeConstants::Signature[]; void ClangDocBitcodeWriter::AbbreviationMap::add(RecordId RID, unsigned AbbrevID) { assert(RecordIdNameMap[RID] && "Unknown RecordId."); assert(!Abbrevs.contains(RID) && "Abbreviation already added."); Abbrevs[RID] = AbbrevID; } unsigned ClangDocBitcodeWriter::AbbreviationMap::get(RecordId RID) const { assert(RecordIdNameMap[RID] && "Unknown RecordId."); assert(Abbrevs.contains(RID) && "Unknown abbreviation."); return Abbrevs.lookup(RID); } // Validation and Overview Blocks /// Emits the magic number header to check that its the right format, /// in this case, 'DOCS'. void ClangDocBitcodeWriter::emitHeader() { for (char C : BitCodeConstants::Signature) Stream.Emit((unsigned)C, BitCodeConstants::SignatureBitSize); } void ClangDocBitcodeWriter::emitVersionBlock() { StreamSubBlockGuard Block(Stream, BI_VERSION_BLOCK_ID); emitRecord(VersionNumber, VERSION); } /// Emits a block ID and the block name to the BLOCKINFO block. void ClangDocBitcodeWriter::emitBlockID(BlockId BID) { const auto &BlockIdName = BlockIdNameMap[BID]; assert(BlockIdName.data() && BlockIdName.size() && "Unknown BlockId."); Record.clear(); Record.push_back(BID); Stream.EmitRecord(llvm::bitc::BLOCKINFO_CODE_SETBID, Record); Stream.EmitRecord(llvm::bitc::BLOCKINFO_CODE_BLOCKNAME, ArrayRef<unsigned char>(BlockIdName.bytes_begin(), BlockIdName.bytes_end())); } /// Emits a record name to the BLOCKINFO block. void ClangDocBitcodeWriter::emitRecordID(RecordId ID) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); prepRecordData(ID); Record.append(RecordIdNameMap[ID].Name.begin(), RecordIdNameMap[ID].Name.end()); Stream.EmitRecord(llvm::bitc::BLOCKINFO_CODE_SETRECORDNAME, Record); } // Abbreviations void ClangDocBitcodeWriter::emitAbbrev(RecordId ID, BlockId Block) { assert(RecordIdNameMap[ID] && "Unknown abbreviation."); auto Abbrev = std::make_shared<llvm::BitCodeAbbrev>(); Abbrev->Add(llvm::BitCodeAbbrevOp(ID)); RecordIdNameMap[ID].Abbrev(Abbrev); Abbrevs.add(ID, Stream.EmitBlockInfoAbbrev(Block, std::move(Abbrev))); } // Records void ClangDocBitcodeWriter::emitRecord(const SymbolID &Sym, RecordId ID) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); assert(RecordIdNameMap[ID].Abbrev == &SymbolIDAbbrev && "Abbrev type mismatch."); if (!prepRecordData(ID, Sym != EmptySID)) return; assert(Sym.size() == 20); Record.push_back(Sym.size()); Record.append(Sym.begin(), Sym.end()); Stream.EmitRecordWithAbbrev(Abbrevs.get(ID), Record); } void ClangDocBitcodeWriter::emitRecord(llvm::StringRef Str, RecordId ID) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); assert(RecordIdNameMap[ID].Abbrev == &StringAbbrev && "Abbrev type mismatch."); if (!prepRecordData(ID, !Str.empty())) return; assert(Str.size() < (1U << BitCodeConstants::StringLengthSize)); Record.push_back(Str.size()); Stream.EmitRecordWithBlob(Abbrevs.get(ID), Record, Str); } void ClangDocBitcodeWriter::emitRecord(const Location &Loc, RecordId ID) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); assert(RecordIdNameMap[ID].Abbrev == &LocationAbbrev && "Abbrev type mismatch."); if (!prepRecordData(ID, true)) return; // FIXME: Assert that the line number is of the appropriate size. Record.push_back(Loc.LineNumber); assert(Loc.Filename.size() < (1U << BitCodeConstants::StringLengthSize)); Record.push_back(Loc.IsFileInRootDir); Record.push_back(Loc.Filename.size()); Stream.EmitRecordWithBlob(Abbrevs.get(ID), Record, Loc.Filename); } void ClangDocBitcodeWriter::emitRecord(bool Val, RecordId ID) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); assert(RecordIdNameMap[ID].Abbrev == &BoolAbbrev && "Abbrev type mismatch."); if (!prepRecordData(ID, Val)) return; Record.push_back(Val); Stream.EmitRecordWithAbbrev(Abbrevs.get(ID), Record); } void ClangDocBitcodeWriter::emitRecord(int Val, RecordId ID) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); assert(RecordIdNameMap[ID].Abbrev == &IntAbbrev && "Abbrev type mismatch."); if (!prepRecordData(ID, Val)) return; // FIXME: Assert that the integer is of the appropriate size. Record.push_back(Val); Stream.EmitRecordWithAbbrev(Abbrevs.get(ID), Record); } void ClangDocBitcodeWriter::emitRecord(unsigned Val, RecordId ID) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); assert(RecordIdNameMap[ID].Abbrev == &IntAbbrev && "Abbrev type mismatch."); if (!prepRecordData(ID, Val)) return; assert(Val < (1U << BitCodeConstants::IntSize)); Record.push_back(Val); Stream.EmitRecordWithAbbrev(Abbrevs.get(ID), Record); } void ClangDocBitcodeWriter::emitRecord(const TemplateInfo &Templ) {} bool ClangDocBitcodeWriter::prepRecordData(RecordId ID, bool ShouldEmit) { assert(RecordIdNameMap[ID] && "Unknown RecordId."); if (!ShouldEmit) return false; Record.clear(); Record.push_back(ID); return true; } // BlockInfo Block void ClangDocBitcodeWriter::emitBlockInfoBlock() { Stream.EnterBlockInfoBlock(); for (const auto &Block : RecordsByBlock) { assert(Block.second.size() < (1U << BitCodeConstants::SubblockIDSize)); emitBlockInfo(Block.first, Block.second); } Stream.ExitBlock(); } void ClangDocBitcodeWriter::emitBlockInfo(BlockId BID, const std::vector<RecordId> &RIDs) { assert(RIDs.size() < (1U << BitCodeConstants::SubblockIDSize)); emitBlockID(BID); for (RecordId RID : RIDs) { emitRecordID(RID); emitAbbrev(RID, BID); } } // Block emission void ClangDocBitcodeWriter::emitBlock(const Reference &R, FieldId Field) { if (R.USR == EmptySID && R.Name.empty()) return; StreamSubBlockGuard Block(Stream, BI_REFERENCE_BLOCK_ID); emitRecord(R.USR, REFERENCE_USR); emitRecord(R.Name, REFERENCE_NAME); emitRecord(R.QualName, REFERENCE_QUAL_NAME); emitRecord((unsigned)R.RefType, REFERENCE_TYPE); emitRecord(R.Path, REFERENCE_PATH); emitRecord((unsigned)Field, REFERENCE_FIELD); } void ClangDocBitcodeWriter::emitBlock(const TypeInfo &T) { StreamSubBlockGuard Block(Stream, BI_TYPE_BLOCK_ID); emitBlock(T.Type, FieldId::F_type); } void ClangDocBitcodeWriter::emitBlock(const TypedefInfo &T) { StreamSubBlockGuard Block(Stream, BI_TYPEDEF_BLOCK_ID); emitRecord(T.USR, TYPEDEF_USR); emitRecord(T.Name, TYPEDEF_NAME); for (const auto &N : T.Namespace) emitBlock(N, FieldId::F_namespace); for (const auto &CI : T.Description) emitBlock(CI); if (T.DefLoc) emitRecord(*T.DefLoc, TYPEDEF_DEFLOCATION); emitRecord(T.IsUsing, TYPEDEF_IS_USING); emitBlock(T.Underlying); } void ClangDocBitcodeWriter::emitBlock(const FieldTypeInfo &T) { StreamSubBlockGuard Block(Stream, BI_FIELD_TYPE_BLOCK_ID); emitBlock(T.Type, FieldId::F_type); emitRecord(T.Name, FIELD_TYPE_NAME); emitRecord(T.DefaultValue, FIELD_DEFAULT_VALUE); } void ClangDocBitcodeWriter::emitBlock(const MemberTypeInfo &T) { StreamSubBlockGuard Block(Stream, BI_MEMBER_TYPE_BLOCK_ID); emitBlock(T.Type, FieldId::F_type); emitRecord(T.Name, MEMBER_TYPE_NAME); emitRecord(T.Access, MEMBER_TYPE_ACCESS); for (const auto &CI : T.Description) emitBlock(CI); } void ClangDocBitcodeWriter::emitBlock(const CommentInfo &I) { StreamSubBlockGuard Block(Stream, BI_COMMENT_BLOCK_ID); for (const auto &L : std::vector<std::pair<llvm::StringRef, RecordId>>{ {I.Kind, COMMENT_KIND}, {I.Text, COMMENT_TEXT}, {I.Name, COMMENT_NAME}, {I.Direction, COMMENT_DIRECTION}, {I.ParamName, COMMENT_PARAMNAME}, {I.CloseName, COMMENT_CLOSENAME}}) emitRecord(L.first, L.second); emitRecord(I.SelfClosing, COMMENT_SELFCLOSING); emitRecord(I.Explicit, COMMENT_EXPLICIT); for (const auto &A : I.AttrKeys) emitRecord(A, COMMENT_ATTRKEY); for (const auto &A : I.AttrValues) emitRecord(A, COMMENT_ATTRVAL); for (const auto &A : I.Args) emitRecord(A, COMMENT_ARG); for (const auto &C : I.Children) emitBlock(*C); } void ClangDocBitcodeWriter::emitBlock(const NamespaceInfo &I) { StreamSubBlockGuard Block(Stream, BI_NAMESPACE_BLOCK_ID); emitRecord(I.USR, NAMESPACE_USR); emitRecord(I.Name, NAMESPACE_NAME); emitRecord(I.Path, NAMESPACE_PATH); for (const auto &N : I.Namespace) emitBlock(N, FieldId::F_namespace); for (const auto &CI : I.Description) emitBlock(CI); for (const auto &C : I.Children.Namespaces) emitBlock(C, FieldId::F_child_namespace); for (const auto &C : I.Children.Records) emitBlock(C, FieldId::F_child_record); for (const auto &C : I.Children.Functions) emitBlock(C); for (const auto &C : I.Children.Enums) emitBlock(C); for (const auto &C : I.Children.Typedefs) emitBlock(C); } void ClangDocBitcodeWriter::emitBlock(const EnumInfo &I) { StreamSubBlockGuard Block(Stream, BI_ENUM_BLOCK_ID); emitRecord(I.USR, ENUM_USR); emitRecord(I.Name, ENUM_NAME); for (const auto &N : I.Namespace) emitBlock(N, FieldId::F_namespace); for (const auto &CI : I.Description) emitBlock(CI); if (I.DefLoc) emitRecord(*I.DefLoc, ENUM_DEFLOCATION); for (const auto &L : I.Loc) emitRecord(L, ENUM_LOCATION); emitRecord(I.Scoped, ENUM_SCOPED); if (I.BaseType) emitBlock(*I.BaseType); for (const auto &N : I.Members) emitBlock(N); } void ClangDocBitcodeWriter::emitBlock(const EnumValueInfo &I) { StreamSubBlockGuard Block(Stream, BI_ENUM_VALUE_BLOCK_ID); emitRecord(I.Name, ENUM_VALUE_NAME); emitRecord(I.Value, ENUM_VALUE_VALUE); emitRecord(I.ValueExpr, ENUM_VALUE_EXPR); } void ClangDocBitcodeWriter::emitBlock(const RecordInfo &I) { StreamSubBlockGuard Block(Stream, BI_RECORD_BLOCK_ID); emitRecord(I.USR, RECORD_USR); emitRecord(I.Name, RECORD_NAME); emitRecord(I.Path, RECORD_PATH); for (const auto &N : I.Namespace) emitBlock(N, FieldId::F_namespace); for (const auto &CI : I.Description) emitBlock(CI); if (I.DefLoc) emitRecord(*I.DefLoc, RECORD_DEFLOCATION); for (const auto &L : I.Loc) emitRecord(L, RECORD_LOCATION); emitRecord(I.TagType, RECORD_TAG_TYPE); emitRecord(I.IsTypeDef, RECORD_IS_TYPE_DEF); for (const auto &N : I.Members) emitBlock(N); for (const auto &P : I.Parents) emitBlock(P, FieldId::F_parent); for (const auto &P : I.VirtualParents) emitBlock(P, FieldId::F_vparent); for (const auto &PB : I.Bases) emitBlock(PB); for (const auto &C : I.Children.Records) emitBlock(C, FieldId::F_child_record); for (const auto &C : I.Children.Functions) emitBlock(C); for (const auto &C : I.Children.Enums) emitBlock(C); for (const auto &C : I.Children.Typedefs) emitBlock(C); if (I.Template) emitBlock(*I.Template); } void ClangDocBitcodeWriter::emitBlock(const BaseRecordInfo &I) { StreamSubBlockGuard Block(Stream, BI_BASE_RECORD_BLOCK_ID); emitRecord(I.USR, BASE_RECORD_USR); emitRecord(I.Name, BASE_RECORD_NAME); emitRecord(I.Path, BASE_RECORD_PATH); emitRecord(I.TagType, BASE_RECORD_TAG_TYPE); emitRecord(I.IsVirtual, BASE_RECORD_IS_VIRTUAL); emitRecord(I.Access, BASE_RECORD_ACCESS); emitRecord(I.IsParent, BASE_RECORD_IS_PARENT); for (const auto &M : I.Members) emitBlock(M); for (const auto &C : I.Children.Functions) emitBlock(C); } void ClangDocBitcodeWriter::emitBlock(const FunctionInfo &I) { StreamSubBlockGuard Block(Stream, BI_FUNCTION_BLOCK_ID); emitRecord(I.USR, FUNCTION_USR); emitRecord(I.Name, FUNCTION_NAME); for (const auto &N : I.Namespace) emitBlock(N, FieldId::F_namespace); for (const auto &CI : I.Description) emitBlock(CI); emitRecord(I.Access, FUNCTION_ACCESS); emitRecord(I.IsMethod, FUNCTION_IS_METHOD); if (I.DefLoc) emitRecord(*I.DefLoc, FUNCTION_DEFLOCATION); for (const auto &L : I.Loc) emitRecord(L, FUNCTION_LOCATION); emitBlock(I.Parent, FieldId::F_parent); emitBlock(I.ReturnType); for (const auto &N : I.Params) emitBlock(N); if (I.Template) emitBlock(*I.Template); } void ClangDocBitcodeWriter::emitBlock(const TemplateInfo &T) { StreamSubBlockGuard Block(Stream, BI_TEMPLATE_BLOCK_ID); for (const auto &P : T.Params) emitBlock(P); if (T.Specialization) emitBlock(*T.Specialization); } void ClangDocBitcodeWriter::emitBlock(const TemplateSpecializationInfo &T) { StreamSubBlockGuard Block(Stream, BI_TEMPLATE_SPECIALIZATION_BLOCK_ID); emitRecord(T.SpecializationOf, TEMPLATE_SPECIALIZATION_OF); for (const auto &P : T.Params) emitBlock(P); } void ClangDocBitcodeWriter::emitBlock(const TemplateParamInfo &T) { StreamSubBlockGuard Block(Stream, BI_TEMPLATE_PARAM_BLOCK_ID); emitRecord(T.Contents, TEMPLATE_PARAM_CONTENTS); } bool ClangDocBitcodeWriter::dispatchInfoForWrite(Info *I) { switch (I->IT) { case InfoType::IT_namespace: emitBlock(*static_cast<clang::doc::NamespaceInfo *>(I)); break; case InfoType::IT_record: emitBlock(*static_cast<clang::doc::RecordInfo *>(I)); break; case InfoType::IT_enum: emitBlock(*static_cast<clang::doc::EnumInfo *>(I)); break; case InfoType::IT_function: emitBlock(*static_cast<clang::doc::FunctionInfo *>(I)); break; case InfoType::IT_typedef: emitBlock(*static_cast<clang::doc::TypedefInfo *>(I)); break; default: llvm::errs() << "Unexpected info, unable to write.\n"; return true; } return false; } } // namespace doc } // namespace clang