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| //===- Tokens.cpp - collect tokens from preprocessing ---------------------===//
//
// 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 "clang/Tooling/Syntax/Tokens.h"
#include "clang/Basic/Diagnostic.h"
#include "clang/Basic/IdentifierTable.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/LangOptions.h"
#include "clang/Basic/SourceLocation.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Basic/TokenKinds.h"
#include "clang/Lex/PPCallbacks.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Lex/Token.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/None.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/FormatVariadic.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
#include <iterator>
#include <string>
#include <utility>
#include <vector>
using namespace clang;
using namespace clang::syntax;
syntax::Token::Token(SourceLocation Location, unsigned Length,
tok::TokenKind Kind)
: Location(Location), Length(Length), Kind(Kind) {
assert(Location.isValid());
}
syntax::Token::Token(const clang::Token &T)
: Token(T.getLocation(), T.getLength(), T.getKind()) {
assert(!T.isAnnotation());
}
llvm::StringRef syntax::Token::text(const SourceManager &SM) const {
bool Invalid = false;
const char *Start = SM.getCharacterData(location(), &Invalid);
assert(!Invalid);
return llvm::StringRef(Start, length());
}
FileRange syntax::Token::range(const SourceManager &SM) const {
assert(location().isFileID() && "must be a spelled token");
FileID File;
unsigned StartOffset;
std::tie(File, StartOffset) = SM.getDecomposedLoc(location());
return FileRange(File, StartOffset, StartOffset + length());
}
FileRange syntax::Token::range(const SourceManager &SM,
const syntax::Token &First,
const syntax::Token &Last) {
auto F = First.range(SM);
auto L = Last.range(SM);
assert(F.file() == L.file() && "tokens from different files");
assert(F.endOffset() <= L.beginOffset() && "wrong order of tokens");
return FileRange(F.file(), F.beginOffset(), L.endOffset());
}
llvm::raw_ostream &syntax::operator<<(llvm::raw_ostream &OS, const Token &T) {
return OS << T.str();
}
FileRange::FileRange(FileID File, unsigned BeginOffset, unsigned EndOffset)
: File(File), Begin(BeginOffset), End(EndOffset) {
assert(File.isValid());
assert(BeginOffset <= EndOffset);
}
FileRange::FileRange(const SourceManager &SM, SourceLocation BeginLoc,
unsigned Length) {
assert(BeginLoc.isValid());
assert(BeginLoc.isFileID());
std::tie(File, Begin) = SM.getDecomposedLoc(BeginLoc);
End = Begin + Length;
}
FileRange::FileRange(const SourceManager &SM, SourceLocation BeginLoc,
SourceLocation EndLoc) {
assert(BeginLoc.isValid());
assert(BeginLoc.isFileID());
assert(EndLoc.isValid());
assert(EndLoc.isFileID());
assert(SM.getFileID(BeginLoc) == SM.getFileID(EndLoc));
assert(SM.getFileOffset(BeginLoc) <= SM.getFileOffset(EndLoc));
std::tie(File, Begin) = SM.getDecomposedLoc(BeginLoc);
End = SM.getFileOffset(EndLoc);
}
llvm::raw_ostream &syntax::operator<<(llvm::raw_ostream &OS,
const FileRange &R) {
return OS << llvm::formatv("FileRange(file = {0}, offsets = {1}-{2})",
R.file().getHashValue(), R.beginOffset(),
R.endOffset());
}
llvm::StringRef FileRange::text(const SourceManager &SM) const {
bool Invalid = false;
StringRef Text = SM.getBufferData(File, &Invalid);
if (Invalid)
return "";
assert(Begin <= Text.size());
assert(End <= Text.size());
return Text.substr(Begin, length());
}
std::pair<const syntax::Token *, const TokenBuffer::Mapping *>
TokenBuffer::spelledForExpandedToken(const syntax::Token *Expanded) const {
assert(Expanded);
assert(ExpandedTokens.data() <= Expanded &&
Expanded < ExpandedTokens.data() + ExpandedTokens.size());
auto FileIt = Files.find(
SourceMgr->getFileID(SourceMgr->getExpansionLoc(Expanded->location())));
assert(FileIt != Files.end() && "no file for an expanded token");
const MarkedFile &File = FileIt->second;
unsigned ExpandedIndex = Expanded - ExpandedTokens.data();
// Find the first mapping that produced tokens after \p Expanded.
auto It = llvm::partition_point(File.Mappings, [&](const Mapping &M) {
return M.BeginExpanded <= ExpandedIndex;
});
// Our token could only be produced by the previous mapping.
if (It == File.Mappings.begin()) {
// No previous mapping, no need to modify offsets.
return {&File.SpelledTokens[ExpandedIndex - File.BeginExpanded], nullptr};
}
--It; // 'It' now points to last mapping that started before our token.
// Check if the token is part of the mapping.
if (ExpandedIndex < It->EndExpanded)
return {&File.SpelledTokens[It->BeginSpelled], /*Mapping*/ &*It};
// Not part of the mapping, use the index from previous mapping to compute the
// corresponding spelled token.
return {
&File.SpelledTokens[It->EndSpelled + (ExpandedIndex - It->EndExpanded)],
/*Mapping*/ nullptr};
}
llvm::ArrayRef<syntax::Token> TokenBuffer::spelledTokens(FileID FID) const {
auto It = Files.find(FID);
assert(It != Files.end());
return It->second.SpelledTokens;
}
std::string TokenBuffer::Mapping::str() const {
return llvm::formatv("spelled tokens: [{0},{1}), expanded tokens: [{2},{3})",
BeginSpelled, EndSpelled, BeginExpanded, EndExpanded);
}
llvm::Optional<llvm::ArrayRef<syntax::Token>>
TokenBuffer::spelledForExpanded(llvm::ArrayRef<syntax::Token> Expanded) const {
// Mapping an empty range is ambiguous in case of empty mappings at either end
// of the range, bail out in that case.
if (Expanded.empty())
return llvm::None;
// FIXME: also allow changes uniquely mapping to macro arguments.
const syntax::Token *BeginSpelled;
const Mapping *BeginMapping;
std::tie(BeginSpelled, BeginMapping) =
spelledForExpandedToken(&Expanded.front());
const syntax::Token *LastSpelled;
const Mapping *LastMapping;
std::tie(LastSpelled, LastMapping) =
spelledForExpandedToken(&Expanded.back());
FileID FID = SourceMgr->getFileID(BeginSpelled->location());
// FIXME: Handle multi-file changes by trying to map onto a common root.
if (FID != SourceMgr->getFileID(LastSpelled->location()))
return llvm::None;
const MarkedFile &File = Files.find(FID)->second;
// Do not allow changes that cross macro expansion boundaries.
unsigned BeginExpanded = Expanded.begin() - ExpandedTokens.data();
unsigned EndExpanded = Expanded.end() - ExpandedTokens.data();
if (BeginMapping && BeginMapping->BeginExpanded < BeginExpanded)
return llvm::None;
if (LastMapping && EndExpanded < LastMapping->EndExpanded)
return llvm::None;
// All is good, return the result.
return llvm::makeArrayRef(
BeginMapping ? File.SpelledTokens.data() + BeginMapping->BeginSpelled
: BeginSpelled,
LastMapping ? File.SpelledTokens.data() + LastMapping->EndSpelled
: LastSpelled + 1);
}
llvm::Optional<TokenBuffer::Expansion>
TokenBuffer::expansionStartingAt(const syntax::Token *Spelled) const {
assert(Spelled);
assert(Spelled->location().isFileID() && "not a spelled token");
auto FileIt = Files.find(SourceMgr->getFileID(Spelled->location()));
assert(FileIt != Files.end() && "file not tracked by token buffer");
auto &File = FileIt->second;
assert(File.SpelledTokens.data() <= Spelled &&
Spelled < (File.SpelledTokens.data() + File.SpelledTokens.size()));
unsigned SpelledIndex = Spelled - File.SpelledTokens.data();
auto M = llvm::partition_point(File.Mappings, [&](const Mapping &M) {
return M.BeginSpelled < SpelledIndex;
});
if (M == File.Mappings.end() || M->BeginSpelled != SpelledIndex)
return llvm::None;
Expansion E;
E.Spelled = llvm::makeArrayRef(File.SpelledTokens.data() + M->BeginSpelled,
File.SpelledTokens.data() + M->EndSpelled);
E.Expanded = llvm::makeArrayRef(ExpandedTokens.data() + M->BeginExpanded,
ExpandedTokens.data() + M->EndExpanded);
return E;
}
std::vector<const syntax::Token *>
TokenBuffer::macroExpansions(FileID FID) const {
auto FileIt = Files.find(FID);
assert(FileIt != Files.end() && "file not tracked by token buffer");
auto &File = FileIt->second;
std::vector<const syntax::Token *> Expansions;
auto &Spelled = File.SpelledTokens;
for (auto Mapping : File.Mappings) {
const syntax::Token *Token = &Spelled[Mapping.BeginSpelled];
if (Token->kind() == tok::TokenKind::identifier)
Expansions.push_back(Token);
}
return Expansions;
}
std::vector<syntax::Token> syntax::tokenize(FileID FID, const SourceManager &SM,
const LangOptions &LO) {
std::vector<syntax::Token> Tokens;
IdentifierTable Identifiers(LO);
auto AddToken = [&](clang::Token T) {
// Fill the proper token kind for keywords, etc.
if (T.getKind() == tok::raw_identifier && !T.needsCleaning() &&
!T.hasUCN()) { // FIXME: support needsCleaning and hasUCN cases.
clang::IdentifierInfo &II = Identifiers.get(T.getRawIdentifier());
T.setIdentifierInfo(&II);
T.setKind(II.getTokenID());
}
Tokens.push_back(syntax::Token(T));
};
Lexer L(FID, SM.getBuffer(FID), SM, LO);
clang::Token T;
while (!L.LexFromRawLexer(T))
AddToken(T);
// 'eof' is only the last token if the input is null-terminated. Never store
// it, for consistency.
if (T.getKind() != tok::eof)
AddToken(T);
return Tokens;
}
/// Records information reqired to construct mappings for the token buffer that
/// we are collecting.
class TokenCollector::CollectPPExpansions : public PPCallbacks {
public:
CollectPPExpansions(TokenCollector &C) : Collector(&C) {}
/// Disabled instance will stop reporting anything to TokenCollector.
/// This ensures that uses of the preprocessor after TokenCollector::consume()
/// is called do not access the (possibly invalid) collector instance.
void disable() { Collector = nullptr; }
void MacroExpands(const clang::Token &MacroNameTok, const MacroDefinition &MD,
SourceRange Range, const MacroArgs *Args) override {
if (!Collector)
return;
// Only record top-level expansions, not those where:
// - the macro use is inside a macro body,
// - the macro appears in an argument to another macro.
if (!MacroNameTok.getLocation().isFileID() ||
(LastExpansionEnd.isValid() &&
Collector->PP.getSourceManager().isBeforeInTranslationUnit(
Range.getBegin(), LastExpansionEnd)))
return;
Collector->Expansions[Range.getBegin().getRawEncoding()] = Range.getEnd();
LastExpansionEnd = Range.getEnd();
}
// FIXME: handle directives like #pragma, #include, etc.
private:
TokenCollector *Collector;
/// Used to detect recursive macro expansions.
SourceLocation LastExpansionEnd;
};
/// Fills in the TokenBuffer by tracing the run of a preprocessor. The
/// implementation tracks the tokens, macro expansions and directives coming
/// from the preprocessor and:
/// - for each token, figures out if it is a part of an expanded token stream,
/// spelled token stream or both. Stores the tokens appropriately.
/// - records mappings from the spelled to expanded token ranges, e.g. for macro
/// expansions.
/// FIXME: also properly record:
/// - #include directives,
/// - #pragma, #line and other PP directives,
/// - skipped pp regions,
/// - ...
TokenCollector::TokenCollector(Preprocessor &PP) : PP(PP) {
// Collect the expanded token stream during preprocessing.
PP.setTokenWatcher([this](const clang::Token &T) {
if (T.isAnnotation())
return;
DEBUG_WITH_TYPE("collect-tokens", llvm::dbgs()
<< "Token: "
<< syntax::Token(T).dumpForTests(
this->PP.getSourceManager())
<< "\n"
);
Expanded.push_back(syntax::Token(T));
});
// And locations of macro calls, to properly recover boundaries of those in
// case of empty expansions.
auto CB = std::make_unique<CollectPPExpansions>(*this);
this->Collector = CB.get();
PP.addPPCallbacks(std::move(CB));
}
/// Builds mappings and spelled tokens in the TokenBuffer based on the expanded
/// token stream.
class TokenCollector::Builder {
public:
Builder(std::vector<syntax::Token> Expanded, PPExpansions CollectedExpansions,
const SourceManager &SM, const LangOptions &LangOpts)
: Result(SM), CollectedExpansions(std::move(CollectedExpansions)), SM(SM),
LangOpts(LangOpts) {
Result.ExpandedTokens = std::move(Expanded);
}
TokenBuffer build() && {
buildSpelledTokens();
// Walk over expanded tokens and spelled tokens in parallel, building the
// mappings between those using source locations.
// To correctly recover empty macro expansions, we also take locations
// reported to PPCallbacks::MacroExpands into account as we do not have any
// expanded tokens with source locations to guide us.
// The 'eof' token is special, it is not part of spelled token stream. We
// handle it separately at the end.
assert(!Result.ExpandedTokens.empty());
assert(Result.ExpandedTokens.back().kind() == tok::eof);
for (unsigned I = 0; I < Result.ExpandedTokens.size() - 1; ++I) {
// (!) I might be updated by the following call.
processExpandedToken(I);
}
// 'eof' not handled in the loop, do it here.
assert(SM.getMainFileID() ==
SM.getFileID(Result.ExpandedTokens.back().location()));
fillGapUntil(Result.Files[SM.getMainFileID()],
Result.ExpandedTokens.back().location(),
Result.ExpandedTokens.size() - 1);
Result.Files[SM.getMainFileID()].EndExpanded = Result.ExpandedTokens.size();
// Some files might have unaccounted spelled tokens at the end, add an empty
// mapping for those as they did not have expanded counterparts.
fillGapsAtEndOfFiles();
return std::move(Result);
}
private:
/// Process the next token in an expanded stream and move corresponding
/// spelled tokens, record any mapping if needed.
/// (!) \p I will be updated if this had to skip tokens, e.g. for macros.
void processExpandedToken(unsigned &I) {
auto L = Result.ExpandedTokens[I].location();
if (L.isMacroID()) {
processMacroExpansion(SM.getExpansionRange(L), I);
return;
}
if (L.isFileID()) {
auto FID = SM.getFileID(L);
TokenBuffer::MarkedFile &File = Result.Files[FID];
fillGapUntil(File, L, I);
// Skip the token.
assert(File.SpelledTokens[NextSpelled[FID]].location() == L &&
"no corresponding token in the spelled stream");
++NextSpelled[FID];
return;
}
}
/// Skipped expanded and spelled tokens of a macro expansion that covers \p
/// SpelledRange. Add a corresponding mapping.
/// (!) \p I will be the index of the last token in an expansion after this
/// function returns.
void processMacroExpansion(CharSourceRange SpelledRange, unsigned &I) {
auto FID = SM.getFileID(SpelledRange.getBegin());
assert(FID == SM.getFileID(SpelledRange.getEnd()));
TokenBuffer::MarkedFile &File = Result.Files[FID];
fillGapUntil(File, SpelledRange.getBegin(), I);
// Skip all expanded tokens from the same macro expansion.
unsigned BeginExpanded = I;
for (; I + 1 < Result.ExpandedTokens.size(); ++I) {
auto NextL = Result.ExpandedTokens[I + 1].location();
if (!NextL.isMacroID() ||
SM.getExpansionLoc(NextL) != SpelledRange.getBegin())
break;
}
unsigned EndExpanded = I + 1;
consumeMapping(File, SM.getFileOffset(SpelledRange.getEnd()), BeginExpanded,
EndExpanded, NextSpelled[FID]);
}
/// Initializes TokenBuffer::Files and fills spelled tokens and expanded
/// ranges for each of the files.
void buildSpelledTokens() {
for (unsigned I = 0; I < Result.ExpandedTokens.size(); ++I) {
auto FID =
SM.getFileID(SM.getExpansionLoc(Result.ExpandedTokens[I].location()));
auto It = Result.Files.try_emplace(FID);
TokenBuffer::MarkedFile &File = It.first->second;
File.EndExpanded = I + 1;
if (!It.second)
continue; // we have seen this file before.
// This is the first time we see this file.
File.BeginExpanded = I;
File.SpelledTokens = tokenize(FID, SM, LangOpts);
}
}
void consumeEmptyMapping(TokenBuffer::MarkedFile &File, unsigned EndOffset,
unsigned ExpandedIndex, unsigned &SpelledIndex) {
consumeMapping(File, EndOffset, ExpandedIndex, ExpandedIndex, SpelledIndex);
}
/// Consumes spelled tokens that form a macro expansion and adds a entry to
/// the resulting token buffer.
/// (!) SpelledIndex is updated in-place.
void consumeMapping(TokenBuffer::MarkedFile &File, unsigned EndOffset,
unsigned BeginExpanded, unsigned EndExpanded,
unsigned &SpelledIndex) {
// We need to record this mapping before continuing.
unsigned MappingBegin = SpelledIndex;
++SpelledIndex;
bool HitMapping =
tryConsumeSpelledUntil(File, EndOffset + 1, SpelledIndex).hasValue();
(void)HitMapping;
assert(!HitMapping && "recursive macro expansion?");
TokenBuffer::Mapping M;
M.BeginExpanded = BeginExpanded;
M.EndExpanded = EndExpanded;
M.BeginSpelled = MappingBegin;
M.EndSpelled = SpelledIndex;
File.Mappings.push_back(M);
}
/// Consumes spelled tokens until location \p L is reached and adds a mapping
/// covering the consumed tokens. The mapping will point to an empty expanded
/// range at position \p ExpandedIndex.
void fillGapUntil(TokenBuffer::MarkedFile &File, SourceLocation L,
unsigned ExpandedIndex) {
assert(L.isFileID());
FileID FID;
unsigned Offset;
std::tie(FID, Offset) = SM.getDecomposedLoc(L);
unsigned &SpelledIndex = NextSpelled[FID];
unsigned MappingBegin = SpelledIndex;
while (true) {
auto EndLoc = tryConsumeSpelledUntil(File, Offset, SpelledIndex);
if (SpelledIndex != MappingBegin) {
TokenBuffer::Mapping M;
M.BeginSpelled = MappingBegin;
M.EndSpelled = SpelledIndex;
M.BeginExpanded = M.EndExpanded = ExpandedIndex;
File.Mappings.push_back(M);
}
if (!EndLoc)
break;
consumeEmptyMapping(File, SM.getFileOffset(*EndLoc), ExpandedIndex,
SpelledIndex);
MappingBegin = SpelledIndex;
}
};
/// Consumes spelled tokens until it reaches Offset or a mapping boundary,
/// i.e. a name of a macro expansion or the start '#' token of a PP directive.
/// (!) NextSpelled is updated in place.
///
/// returns None if \p Offset was reached, otherwise returns the end location
/// of a mapping that starts at \p NextSpelled.
llvm::Optional<SourceLocation>
tryConsumeSpelledUntil(TokenBuffer::MarkedFile &File, unsigned Offset,
unsigned &NextSpelled) {
for (; NextSpelled < File.SpelledTokens.size(); ++NextSpelled) {
auto L = File.SpelledTokens[NextSpelled].location();
if (Offset <= SM.getFileOffset(L))
return llvm::None; // reached the offset we are looking for.
auto Mapping = CollectedExpansions.find(L.getRawEncoding());
if (Mapping != CollectedExpansions.end())
return Mapping->second; // found a mapping before the offset.
}
return llvm::None; // no more tokens, we "reached" the offset.
}
/// Adds empty mappings for unconsumed spelled tokens at the end of each file.
void fillGapsAtEndOfFiles() {
for (auto &F : Result.Files) {
if (F.second.SpelledTokens.empty())
continue;
fillGapUntil(F.second, F.second.SpelledTokens.back().endLocation(),
F.second.EndExpanded);
}
}
TokenBuffer Result;
/// For each file, a position of the next spelled token we will consume.
llvm::DenseMap<FileID, unsigned> NextSpelled;
PPExpansions CollectedExpansions;
const SourceManager &SM;
const LangOptions &LangOpts;
};
TokenBuffer TokenCollector::consume() && {
PP.setTokenWatcher(nullptr);
Collector->disable();
return Builder(std::move(Expanded), std::move(Expansions),
PP.getSourceManager(), PP.getLangOpts())
.build();
}
std::string syntax::Token::str() const {
return llvm::formatv("Token({0}, length = {1})", tok::getTokenName(kind()),
length());
}
std::string syntax::Token::dumpForTests(const SourceManager &SM) const {
return llvm::formatv("{0} {1}", tok::getTokenName(kind()), text(SM));
}
std::string TokenBuffer::dumpForTests() const {
auto PrintToken = [this](const syntax::Token &T) -> std::string {
if (T.kind() == tok::eof)
return "<eof>";
return T.text(*SourceMgr);
};
auto DumpTokens = [this, &PrintToken](llvm::raw_ostream &OS,
llvm::ArrayRef<syntax::Token> Tokens) {
if (Tokens.empty()) {
OS << "<empty>";
return;
}
OS << Tokens[0].text(*SourceMgr);
for (unsigned I = 1; I < Tokens.size(); ++I) {
if (Tokens[I].kind() == tok::eof)
continue;
OS << " " << PrintToken(Tokens[I]);
}
};
std::string Dump;
llvm::raw_string_ostream OS(Dump);
OS << "expanded tokens:\n"
<< " ";
// (!) we do not show '<eof>'.
DumpTokens(OS, llvm::makeArrayRef(ExpandedTokens).drop_back());
OS << "\n";
std::vector<FileID> Keys;
for (auto F : Files)
Keys.push_back(F.first);
llvm::sort(Keys);
for (FileID ID : Keys) {
const MarkedFile &File = Files.find(ID)->second;
auto *Entry = SourceMgr->getFileEntryForID(ID);
if (!Entry)
continue; // Skip builtin files.
OS << llvm::formatv("file '{0}'\n", Entry->getName())
<< " spelled tokens:\n"
<< " ";
DumpTokens(OS, File.SpelledTokens);
OS << "\n";
if (File.Mappings.empty()) {
OS << " no mappings.\n";
continue;
}
OS << " mappings:\n";
for (auto &M : File.Mappings) {
OS << llvm::formatv(
" ['{0}'_{1}, '{2}'_{3}) => ['{4}'_{5}, '{6}'_{7})\n",
PrintToken(File.SpelledTokens[M.BeginSpelled]), M.BeginSpelled,
M.EndSpelled == File.SpelledTokens.size()
? "<eof>"
: PrintToken(File.SpelledTokens[M.EndSpelled]),
M.EndSpelled, PrintToken(ExpandedTokens[M.BeginExpanded]),
M.BeginExpanded, PrintToken(ExpandedTokens[M.EndExpanded]),
M.EndExpanded);
}
}
return OS.str();
}
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