forked from OSchip/llvm-project
653 lines
20 KiB
C++
653 lines
20 KiB
C++
//===--- CacheTokens.cpp - Caching of lexer tokens for PTH support --------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This provides a possible implementation of PTH support for Clang that is
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// based on caching lexed tokens and identifiers.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Frontend/Utils.h"
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#include "clang/Basic/Diagnostic.h"
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#include "clang/Basic/FileManager.h"
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#include "clang/Basic/FileSystemStatCache.h"
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#include "clang/Basic/IdentifierTable.h"
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#include "clang/Basic/OnDiskHashTable.h"
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#include "clang/Basic/SourceManager.h"
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#include "clang/Lex/Lexer.h"
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#include "clang/Lex/Preprocessor.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/Support/FileSystem.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/Path.h"
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#include "llvm/Support/raw_ostream.h"
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// FIXME: put this somewhere else?
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#ifndef S_ISDIR
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#define S_ISDIR(x) (((x)&_S_IFDIR)!=0)
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#endif
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using namespace clang;
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using namespace clang::io;
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//===----------------------------------------------------------------------===//
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// PTH-specific stuff.
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//===----------------------------------------------------------------------===//
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namespace {
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class PTHEntry {
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Offset TokenData, PPCondData;
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public:
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PTHEntry() {}
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PTHEntry(Offset td, Offset ppcd)
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: TokenData(td), PPCondData(ppcd) {}
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Offset getTokenOffset() const { return TokenData; }
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Offset getPPCondTableOffset() const { return PPCondData; }
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};
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class PTHEntryKeyVariant {
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union { const FileEntry* FE; const char* Path; };
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enum { IsFE = 0x1, IsDE = 0x2, IsNoExist = 0x0 } Kind;
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FileData *Data;
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public:
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PTHEntryKeyVariant(const FileEntry *fe) : FE(fe), Kind(IsFE), Data(0) {}
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PTHEntryKeyVariant(FileData *Data, const char *path)
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: Path(path), Kind(IsDE), Data(new FileData(*Data)) {}
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explicit PTHEntryKeyVariant(const char *path)
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: Path(path), Kind(IsNoExist), Data(0) {}
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bool isFile() const { return Kind == IsFE; }
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StringRef getString() const {
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return Kind == IsFE ? FE->getName() : Path;
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}
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unsigned getKind() const { return (unsigned) Kind; }
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void EmitData(raw_ostream& Out) {
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switch (Kind) {
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case IsFE: {
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// Emit stat information.
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llvm::sys::fs::UniqueID UID = FE->getUniqueID();
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::Emit64(Out, UID.getFile());
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::Emit64(Out, UID.getDevice());
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::Emit64(Out, FE->getModificationTime());
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::Emit64(Out, FE->getSize());
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} break;
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case IsDE:
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// Emit stat information.
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::Emit64(Out, Data->UniqueID.getFile());
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::Emit64(Out, Data->UniqueID.getDevice());
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::Emit64(Out, Data->ModTime);
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::Emit64(Out, Data->Size);
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delete Data;
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break;
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default:
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break;
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}
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}
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unsigned getRepresentationLength() const {
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return Kind == IsNoExist ? 0 : 4 + 4 + 2 + 8 + 8;
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}
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};
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class FileEntryPTHEntryInfo {
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public:
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typedef PTHEntryKeyVariant key_type;
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typedef key_type key_type_ref;
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typedef PTHEntry data_type;
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typedef const PTHEntry& data_type_ref;
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static unsigned ComputeHash(PTHEntryKeyVariant V) {
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return llvm::HashString(V.getString());
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}
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static std::pair<unsigned,unsigned>
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EmitKeyDataLength(raw_ostream& Out, PTHEntryKeyVariant V,
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const PTHEntry& E) {
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unsigned n = V.getString().size() + 1 + 1;
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::Emit16(Out, n);
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unsigned m = V.getRepresentationLength() + (V.isFile() ? 4 + 4 : 0);
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::Emit8(Out, m);
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return std::make_pair(n, m);
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}
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static void EmitKey(raw_ostream& Out, PTHEntryKeyVariant V, unsigned n){
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// Emit the entry kind.
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::Emit8(Out, (unsigned) V.getKind());
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// Emit the string.
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Out.write(V.getString().data(), n - 1);
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}
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static void EmitData(raw_ostream& Out, PTHEntryKeyVariant V,
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const PTHEntry& E, unsigned) {
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// For file entries emit the offsets into the PTH file for token data
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// and the preprocessor blocks table.
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if (V.isFile()) {
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::Emit32(Out, E.getTokenOffset());
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::Emit32(Out, E.getPPCondTableOffset());
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}
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// Emit any other data associated with the key (i.e., stat information).
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V.EmitData(Out);
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}
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};
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class OffsetOpt {
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bool valid;
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Offset off;
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public:
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OffsetOpt() : valid(false) {}
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bool hasOffset() const { return valid; }
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Offset getOffset() const { assert(valid); return off; }
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void setOffset(Offset o) { off = o; valid = true; }
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};
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} // end anonymous namespace
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typedef OnDiskChainedHashTableGenerator<FileEntryPTHEntryInfo> PTHMap;
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namespace {
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class PTHWriter {
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typedef llvm::DenseMap<const IdentifierInfo*,uint32_t> IDMap;
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typedef llvm::StringMap<OffsetOpt, llvm::BumpPtrAllocator> CachedStrsTy;
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IDMap IM;
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llvm::raw_fd_ostream& Out;
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Preprocessor& PP;
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uint32_t idcount;
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PTHMap PM;
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CachedStrsTy CachedStrs;
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Offset CurStrOffset;
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std::vector<llvm::StringMapEntry<OffsetOpt>*> StrEntries;
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//// Get the persistent id for the given IdentifierInfo*.
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uint32_t ResolveID(const IdentifierInfo* II);
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/// Emit a token to the PTH file.
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void EmitToken(const Token& T);
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void Emit8(uint32_t V) { ::Emit8(Out, V); }
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void Emit16(uint32_t V) { ::Emit16(Out, V); }
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void Emit32(uint32_t V) { ::Emit32(Out, V); }
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void EmitBuf(const char *Ptr, unsigned NumBytes) {
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Out.write(Ptr, NumBytes);
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}
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void EmitString(StringRef V) {
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::Emit16(Out, V.size());
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EmitBuf(V.data(), V.size());
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}
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/// EmitIdentifierTable - Emits two tables to the PTH file. The first is
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/// a hashtable mapping from identifier strings to persistent IDs.
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/// The second is a straight table mapping from persistent IDs to string data
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/// (the keys of the first table).
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std::pair<Offset, Offset> EmitIdentifierTable();
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/// EmitFileTable - Emit a table mapping from file name strings to PTH
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/// token data.
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Offset EmitFileTable() { return PM.Emit(Out); }
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PTHEntry LexTokens(Lexer& L);
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Offset EmitCachedSpellings();
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public:
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PTHWriter(llvm::raw_fd_ostream& out, Preprocessor& pp)
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: Out(out), PP(pp), idcount(0), CurStrOffset(0) {}
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PTHMap &getPM() { return PM; }
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void GeneratePTH(const std::string &MainFile);
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};
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} // end anonymous namespace
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uint32_t PTHWriter::ResolveID(const IdentifierInfo* II) {
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// Null IdentifierInfo's map to the persistent ID 0.
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if (!II)
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return 0;
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IDMap::iterator I = IM.find(II);
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if (I != IM.end())
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return I->second; // We've already added 1.
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IM[II] = ++idcount; // Pre-increment since '0' is reserved for NULL.
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return idcount;
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}
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void PTHWriter::EmitToken(const Token& T) {
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// Emit the token kind, flags, and length.
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Emit32(((uint32_t) T.getKind()) | ((((uint32_t) T.getFlags())) << 8)|
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(((uint32_t) T.getLength()) << 16));
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if (!T.isLiteral()) {
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Emit32(ResolveID(T.getIdentifierInfo()));
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} else {
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// We cache *un-cleaned* spellings. This gives us 100% fidelity with the
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// source code.
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StringRef s(T.getLiteralData(), T.getLength());
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// Get the string entry.
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llvm::StringMapEntry<OffsetOpt> *E = &CachedStrs.GetOrCreateValue(s);
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// If this is a new string entry, bump the PTH offset.
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if (!E->getValue().hasOffset()) {
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E->getValue().setOffset(CurStrOffset);
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StrEntries.push_back(E);
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CurStrOffset += s.size() + 1;
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}
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// Emit the relative offset into the PTH file for the spelling string.
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Emit32(E->getValue().getOffset());
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}
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// Emit the offset into the original source file of this token so that we
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// can reconstruct its SourceLocation.
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Emit32(PP.getSourceManager().getFileOffset(T.getLocation()));
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}
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PTHEntry PTHWriter::LexTokens(Lexer& L) {
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// Pad 0's so that we emit tokens to a 4-byte alignment.
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// This speed up reading them back in.
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Pad(Out, 4);
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Offset TokenOff = (Offset) Out.tell();
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// Keep track of matching '#if' ... '#endif'.
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typedef std::vector<std::pair<Offset, unsigned> > PPCondTable;
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PPCondTable PPCond;
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std::vector<unsigned> PPStartCond;
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bool ParsingPreprocessorDirective = false;
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Token Tok;
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do {
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L.LexFromRawLexer(Tok);
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NextToken:
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if ((Tok.isAtStartOfLine() || Tok.is(tok::eof)) &&
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ParsingPreprocessorDirective) {
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// Insert an eod token into the token cache. It has the same
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// position as the next token that is not on the same line as the
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// preprocessor directive. Observe that we continue processing
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// 'Tok' when we exit this branch.
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Token Tmp = Tok;
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Tmp.setKind(tok::eod);
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Tmp.clearFlag(Token::StartOfLine);
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Tmp.setIdentifierInfo(0);
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EmitToken(Tmp);
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ParsingPreprocessorDirective = false;
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}
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if (Tok.is(tok::raw_identifier)) {
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PP.LookUpIdentifierInfo(Tok);
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EmitToken(Tok);
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continue;
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}
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if (Tok.is(tok::hash) && Tok.isAtStartOfLine()) {
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// Special processing for #include. Store the '#' token and lex
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// the next token.
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assert(!ParsingPreprocessorDirective);
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Offset HashOff = (Offset) Out.tell();
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// Get the next token.
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Token NextTok;
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L.LexFromRawLexer(NextTok);
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// If we see the start of line, then we had a null directive "#". In
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// this case, discard both tokens.
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if (NextTok.isAtStartOfLine())
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goto NextToken;
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// The token is the start of a directive. Emit it.
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EmitToken(Tok);
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Tok = NextTok;
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// Did we see 'include'/'import'/'include_next'?
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if (Tok.isNot(tok::raw_identifier)) {
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EmitToken(Tok);
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continue;
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}
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IdentifierInfo* II = PP.LookUpIdentifierInfo(Tok);
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tok::PPKeywordKind K = II->getPPKeywordID();
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ParsingPreprocessorDirective = true;
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switch (K) {
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case tok::pp_not_keyword:
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// Invalid directives "#foo" can occur in #if 0 blocks etc, just pass
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// them through.
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default:
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break;
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case tok::pp_include:
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case tok::pp_import:
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case tok::pp_include_next: {
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// Save the 'include' token.
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EmitToken(Tok);
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// Lex the next token as an include string.
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L.setParsingPreprocessorDirective(true);
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L.LexIncludeFilename(Tok);
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L.setParsingPreprocessorDirective(false);
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assert(!Tok.isAtStartOfLine());
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if (Tok.is(tok::raw_identifier))
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PP.LookUpIdentifierInfo(Tok);
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break;
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}
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case tok::pp_if:
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case tok::pp_ifdef:
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case tok::pp_ifndef: {
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// Add an entry for '#if' and friends. We initially set the target
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// index to 0. This will get backpatched when we hit #endif.
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PPStartCond.push_back(PPCond.size());
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PPCond.push_back(std::make_pair(HashOff, 0U));
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break;
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}
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case tok::pp_endif: {
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// Add an entry for '#endif'. We set the target table index to itself.
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// This will later be set to zero when emitting to the PTH file. We
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// use 0 for uninitialized indices because that is easier to debug.
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unsigned index = PPCond.size();
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// Backpatch the opening '#if' entry.
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assert(!PPStartCond.empty());
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assert(PPCond.size() > PPStartCond.back());
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assert(PPCond[PPStartCond.back()].second == 0);
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PPCond[PPStartCond.back()].second = index;
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PPStartCond.pop_back();
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// Add the new entry to PPCond.
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PPCond.push_back(std::make_pair(HashOff, index));
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EmitToken(Tok);
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// Some files have gibberish on the same line as '#endif'.
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// Discard these tokens.
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do
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L.LexFromRawLexer(Tok);
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while (Tok.isNot(tok::eof) && !Tok.isAtStartOfLine());
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// We have the next token in hand.
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// Don't immediately lex the next one.
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goto NextToken;
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}
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case tok::pp_elif:
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case tok::pp_else: {
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// Add an entry for #elif or #else.
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// This serves as both a closing and opening of a conditional block.
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// This means that its entry will get backpatched later.
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unsigned index = PPCond.size();
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// Backpatch the previous '#if' entry.
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assert(!PPStartCond.empty());
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assert(PPCond.size() > PPStartCond.back());
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assert(PPCond[PPStartCond.back()].second == 0);
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PPCond[PPStartCond.back()].second = index;
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PPStartCond.pop_back();
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// Now add '#elif' as a new block opening.
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PPCond.push_back(std::make_pair(HashOff, 0U));
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PPStartCond.push_back(index);
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break;
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}
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}
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}
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EmitToken(Tok);
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}
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while (Tok.isNot(tok::eof));
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assert(PPStartCond.empty() && "Error: imblanced preprocessor conditionals.");
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// Next write out PPCond.
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Offset PPCondOff = (Offset) Out.tell();
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// Write out the size of PPCond so that clients can identifer empty tables.
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Emit32(PPCond.size());
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for (unsigned i = 0, e = PPCond.size(); i!=e; ++i) {
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Emit32(PPCond[i].first - TokenOff);
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uint32_t x = PPCond[i].second;
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assert(x != 0 && "PPCond entry not backpatched.");
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// Emit zero for #endifs. This allows us to do checking when
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// we read the PTH file back in.
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Emit32(x == i ? 0 : x);
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}
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return PTHEntry(TokenOff, PPCondOff);
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}
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Offset PTHWriter::EmitCachedSpellings() {
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// Write each cached strings to the PTH file.
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Offset SpellingsOff = Out.tell();
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for (std::vector<llvm::StringMapEntry<OffsetOpt>*>::iterator
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I = StrEntries.begin(), E = StrEntries.end(); I!=E; ++I)
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EmitBuf((*I)->getKeyData(), (*I)->getKeyLength()+1 /*nul included*/);
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return SpellingsOff;
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}
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void PTHWriter::GeneratePTH(const std::string &MainFile) {
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// Generate the prologue.
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Out << "cfe-pth" << '\0';
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Emit32(PTHManager::Version);
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// Leave 4 words for the prologue.
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Offset PrologueOffset = Out.tell();
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for (unsigned i = 0; i < 4; ++i)
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Emit32(0);
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// Write the name of the MainFile.
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if (!MainFile.empty()) {
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EmitString(MainFile);
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} else {
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// String with 0 bytes.
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Emit16(0);
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}
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Emit8(0);
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// Iterate over all the files in SourceManager. Create a lexer
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// for each file and cache the tokens.
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SourceManager &SM = PP.getSourceManager();
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const LangOptions &LOpts = PP.getLangOpts();
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for (SourceManager::fileinfo_iterator I = SM.fileinfo_begin(),
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E = SM.fileinfo_end(); I != E; ++I) {
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const SrcMgr::ContentCache &C = *I->second;
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const FileEntry *FE = C.OrigEntry;
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// FIXME: Handle files with non-absolute paths.
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if (llvm::sys::path::is_relative(FE->getName()))
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continue;
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const llvm::MemoryBuffer *B = C.getBuffer(PP.getDiagnostics(), SM);
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if (!B) continue;
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FileID FID = SM.createFileID(FE, SourceLocation(), SrcMgr::C_User);
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const llvm::MemoryBuffer *FromFile = SM.getBuffer(FID);
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Lexer L(FID, FromFile, SM, LOpts);
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PM.insert(FE, LexTokens(L));
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}
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// Write out the identifier table.
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const std::pair<Offset,Offset> &IdTableOff = EmitIdentifierTable();
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// Write out the cached strings table.
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Offset SpellingOff = EmitCachedSpellings();
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// Write out the file table.
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Offset FileTableOff = EmitFileTable();
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// Finally, write the prologue.
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Out.seek(PrologueOffset);
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Emit32(IdTableOff.first);
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Emit32(IdTableOff.second);
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Emit32(FileTableOff);
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Emit32(SpellingOff);
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}
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namespace {
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/// StatListener - A simple "interpose" object used to monitor stat calls
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/// invoked by FileManager while processing the original sources used
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/// as input to PTH generation. StatListener populates the PTHWriter's
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/// file map with stat information for directories as well as negative stats.
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/// Stat information for files are populated elsewhere.
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class StatListener : public FileSystemStatCache {
|
|
PTHMap &PM;
|
|
public:
|
|
StatListener(PTHMap &pm) : PM(pm) {}
|
|
~StatListener() {}
|
|
|
|
LookupResult getStat(const char *Path, FileData &Data, bool isFile,
|
|
int *FileDescriptor) {
|
|
LookupResult Result = statChained(Path, Data, isFile, FileDescriptor);
|
|
|
|
if (Result == CacheMissing) // Failed 'stat'.
|
|
PM.insert(PTHEntryKeyVariant(Path), PTHEntry());
|
|
else if (Data.IsDirectory) {
|
|
// Only cache directories with absolute paths.
|
|
if (llvm::sys::path::is_relative(Path))
|
|
return Result;
|
|
|
|
PM.insert(PTHEntryKeyVariant(&Data, Path), PTHEntry());
|
|
}
|
|
|
|
return Result;
|
|
}
|
|
};
|
|
} // end anonymous namespace
|
|
|
|
|
|
void clang::CacheTokens(Preprocessor &PP, llvm::raw_fd_ostream* OS) {
|
|
// Get the name of the main file.
|
|
const SourceManager &SrcMgr = PP.getSourceManager();
|
|
const FileEntry *MainFile = SrcMgr.getFileEntryForID(SrcMgr.getMainFileID());
|
|
SmallString<128> MainFilePath(MainFile->getName());
|
|
|
|
llvm::sys::fs::make_absolute(MainFilePath);
|
|
|
|
// Create the PTHWriter.
|
|
PTHWriter PW(*OS, PP);
|
|
|
|
// Install the 'stat' system call listener in the FileManager.
|
|
StatListener *StatCache = new StatListener(PW.getPM());
|
|
PP.getFileManager().addStatCache(StatCache, /*AtBeginning=*/true);
|
|
|
|
// Lex through the entire file. This will populate SourceManager with
|
|
// all of the header information.
|
|
Token Tok;
|
|
PP.EnterMainSourceFile();
|
|
do { PP.Lex(Tok); } while (Tok.isNot(tok::eof));
|
|
|
|
// Generate the PTH file.
|
|
PP.getFileManager().removeStatCache(StatCache);
|
|
PW.GeneratePTH(MainFilePath.str());
|
|
}
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
namespace {
|
|
class PTHIdKey {
|
|
public:
|
|
const IdentifierInfo* II;
|
|
uint32_t FileOffset;
|
|
};
|
|
|
|
class PTHIdentifierTableTrait {
|
|
public:
|
|
typedef PTHIdKey* key_type;
|
|
typedef key_type key_type_ref;
|
|
|
|
typedef uint32_t data_type;
|
|
typedef data_type data_type_ref;
|
|
|
|
static unsigned ComputeHash(PTHIdKey* key) {
|
|
return llvm::HashString(key->II->getName());
|
|
}
|
|
|
|
static std::pair<unsigned,unsigned>
|
|
EmitKeyDataLength(raw_ostream& Out, const PTHIdKey* key, uint32_t) {
|
|
unsigned n = key->II->getLength() + 1;
|
|
::Emit16(Out, n);
|
|
return std::make_pair(n, sizeof(uint32_t));
|
|
}
|
|
|
|
static void EmitKey(raw_ostream& Out, PTHIdKey* key, unsigned n) {
|
|
// Record the location of the key data. This is used when generating
|
|
// the mapping from persistent IDs to strings.
|
|
key->FileOffset = Out.tell();
|
|
Out.write(key->II->getNameStart(), n);
|
|
}
|
|
|
|
static void EmitData(raw_ostream& Out, PTHIdKey*, uint32_t pID,
|
|
unsigned) {
|
|
::Emit32(Out, pID);
|
|
}
|
|
};
|
|
} // end anonymous namespace
|
|
|
|
/// EmitIdentifierTable - Emits two tables to the PTH file. The first is
|
|
/// a hashtable mapping from identifier strings to persistent IDs. The second
|
|
/// is a straight table mapping from persistent IDs to string data (the
|
|
/// keys of the first table).
|
|
///
|
|
std::pair<Offset,Offset> PTHWriter::EmitIdentifierTable() {
|
|
// Build two maps:
|
|
// (1) an inverse map from persistent IDs -> (IdentifierInfo*,Offset)
|
|
// (2) a map from (IdentifierInfo*, Offset)* -> persistent IDs
|
|
|
|
// Note that we use 'calloc', so all the bytes are 0.
|
|
PTHIdKey *IIDMap = (PTHIdKey*)calloc(idcount, sizeof(PTHIdKey));
|
|
|
|
// Create the hashtable.
|
|
OnDiskChainedHashTableGenerator<PTHIdentifierTableTrait> IIOffMap;
|
|
|
|
// Generate mapping from persistent IDs -> IdentifierInfo*.
|
|
for (IDMap::iterator I = IM.begin(), E = IM.end(); I != E; ++I) {
|
|
// Decrement by 1 because we are using a vector for the lookup and
|
|
// 0 is reserved for NULL.
|
|
assert(I->second > 0);
|
|
assert(I->second-1 < idcount);
|
|
unsigned idx = I->second-1;
|
|
|
|
// Store the mapping from persistent ID to IdentifierInfo*
|
|
IIDMap[idx].II = I->first;
|
|
|
|
// Store the reverse mapping in a hashtable.
|
|
IIOffMap.insert(&IIDMap[idx], I->second);
|
|
}
|
|
|
|
// Write out the inverse map first. This causes the PCIDKey entries to
|
|
// record PTH file offsets for the string data. This is used to write
|
|
// the second table.
|
|
Offset StringTableOffset = IIOffMap.Emit(Out);
|
|
|
|
// Now emit the table mapping from persistent IDs to PTH file offsets.
|
|
Offset IDOff = Out.tell();
|
|
Emit32(idcount); // Emit the number of identifiers.
|
|
for (unsigned i = 0 ; i < idcount; ++i)
|
|
Emit32(IIDMap[i].FileOffset);
|
|
|
|
// Finally, release the inverse map.
|
|
free(IIDMap);
|
|
|
|
return std::make_pair(IDOff, StringTableOffset);
|
|
}
|