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164 lines
5.6 KiB
164 lines
5.6 KiB
//===--- PPCaching.cpp - Handle caching lexed tokens ----------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements pieces of the Preprocessor interface that manage the
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// caching of lexed tokens.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Lex/Preprocessor.h"
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using namespace clang;
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// EnableBacktrackAtThisPos - From the point that this method is called, and
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// until CommitBacktrackedTokens() or Backtrack() is called, the Preprocessor
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// keeps track of the lexed tokens so that a subsequent Backtrack() call will
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// make the Preprocessor re-lex the same tokens.
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//
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// Nested backtracks are allowed, meaning that EnableBacktrackAtThisPos can
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// be called multiple times and CommitBacktrackedTokens/Backtrack calls will
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// be combined with the EnableBacktrackAtThisPos calls in reverse order.
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void Preprocessor::EnableBacktrackAtThisPos() {
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assert(LexLevel == 0 && "cannot use lookahead while lexing");
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BacktrackPositions.push_back(CachedLexPos);
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EnterCachingLexMode();
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}
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// Disable the last EnableBacktrackAtThisPos call.
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void Preprocessor::CommitBacktrackedTokens() {
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assert(!BacktrackPositions.empty()
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&& "EnableBacktrackAtThisPos was not called!");
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BacktrackPositions.pop_back();
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}
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// Make Preprocessor re-lex the tokens that were lexed since
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// EnableBacktrackAtThisPos() was previously called.
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void Preprocessor::Backtrack() {
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assert(!BacktrackPositions.empty()
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&& "EnableBacktrackAtThisPos was not called!");
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CachedLexPos = BacktrackPositions.back();
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BacktrackPositions.pop_back();
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recomputeCurLexerKind();
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}
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void Preprocessor::CachingLex(Token &Result) {
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if (!InCachingLexMode())
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return;
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// The assert in EnterCachingLexMode should prevent this from happening.
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assert(LexLevel == 1 &&
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"should not use token caching within the preprocessor");
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if (CachedLexPos < CachedTokens.size()) {
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Result = CachedTokens[CachedLexPos++];
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Result.setFlag(Token::IsReinjected);
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return;
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}
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ExitCachingLexMode();
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Lex(Result);
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if (isBacktrackEnabled()) {
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// Cache the lexed token.
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EnterCachingLexModeUnchecked();
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CachedTokens.push_back(Result);
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++CachedLexPos;
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return;
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}
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if (CachedLexPos < CachedTokens.size()) {
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EnterCachingLexModeUnchecked();
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} else {
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// All cached tokens were consumed.
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CachedTokens.clear();
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CachedLexPos = 0;
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}
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}
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void Preprocessor::EnterCachingLexMode() {
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// The caching layer sits on top of all the other lexers, so it's incorrect
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// to cache tokens while inside a nested lex action. The cached tokens would
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// be retained after returning to the enclosing lex action and, at best,
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// would appear at the wrong position in the token stream.
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assert(LexLevel == 0 &&
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"entered caching lex mode while lexing something else");
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if (InCachingLexMode()) {
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assert(CurLexerKind == CLK_CachingLexer && "Unexpected lexer kind");
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return;
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}
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EnterCachingLexModeUnchecked();
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}
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void Preprocessor::EnterCachingLexModeUnchecked() {
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assert(CurLexerKind != CLK_CachingLexer && "already in caching lex mode");
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PushIncludeMacroStack();
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CurLexerKind = CLK_CachingLexer;
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}
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const Token &Preprocessor::PeekAhead(unsigned N) {
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assert(CachedLexPos + N > CachedTokens.size() && "Confused caching.");
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ExitCachingLexMode();
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for (size_t C = CachedLexPos + N - CachedTokens.size(); C > 0; --C) {
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CachedTokens.push_back(Token());
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Lex(CachedTokens.back());
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}
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EnterCachingLexMode();
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return CachedTokens.back();
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}
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void Preprocessor::AnnotatePreviousCachedTokens(const Token &Tok) {
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assert(Tok.isAnnotation() && "Expected annotation token");
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assert(CachedLexPos != 0 && "Expected to have some cached tokens");
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assert(CachedTokens[CachedLexPos-1].getLastLoc() == Tok.getAnnotationEndLoc()
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&& "The annotation should be until the most recent cached token");
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// Start from the end of the cached tokens list and look for the token
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// that is the beginning of the annotation token.
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for (CachedTokensTy::size_type i = CachedLexPos; i != 0; --i) {
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CachedTokensTy::iterator AnnotBegin = CachedTokens.begin() + i-1;
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if (AnnotBegin->getLocation() == Tok.getLocation()) {
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assert((BacktrackPositions.empty() || BacktrackPositions.back() <= i) &&
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"The backtrack pos points inside the annotated tokens!");
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// Replace the cached tokens with the single annotation token.
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if (i < CachedLexPos)
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CachedTokens.erase(AnnotBegin + 1, CachedTokens.begin() + CachedLexPos);
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*AnnotBegin = Tok;
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CachedLexPos = i;
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return;
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}
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}
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}
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bool Preprocessor::IsPreviousCachedToken(const Token &Tok) const {
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// There's currently no cached token...
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if (!CachedLexPos)
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return false;
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const Token LastCachedTok = CachedTokens[CachedLexPos - 1];
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if (LastCachedTok.getKind() != Tok.getKind())
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return false;
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int RelOffset = 0;
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if ((!getSourceManager().isInSameSLocAddrSpace(
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Tok.getLocation(), getLastCachedTokenLocation(), &RelOffset)) ||
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RelOffset)
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return false;
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return true;
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}
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void Preprocessor::ReplacePreviousCachedToken(ArrayRef<Token> NewToks) {
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assert(CachedLexPos != 0 && "Expected to have some cached tokens");
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CachedTokens.insert(CachedTokens.begin() + CachedLexPos - 1, NewToks.begin(),
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NewToks.end());
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CachedTokens.erase(CachedTokens.begin() + CachedLexPos - 1 + NewToks.size());
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CachedLexPos += NewToks.size() - 1;
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}
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