forked from OSchip/llvm-project
836 lines
32 KiB
C++
836 lines
32 KiB
C++
//===--- PPLexerChange.cpp - Handle changing lexers in the preprocessor ---===//
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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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// current lexer stack.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Lex/Preprocessor.h"
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#include "clang/Lex/PreprocessorOptions.h"
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#include "clang/Basic/FileManager.h"
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#include "clang/Basic/SourceManager.h"
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#include "clang/Lex/HeaderSearch.h"
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#include "clang/Lex/LexDiagnostic.h"
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#include "clang/Lex/MacroInfo.h"
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#include "llvm/ADT/StringSwitch.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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using namespace clang;
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//===----------------------------------------------------------------------===//
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// Miscellaneous Methods.
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//===----------------------------------------------------------------------===//
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/// isInPrimaryFile - Return true if we're in the top-level file, not in a
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/// \#include. This looks through macro expansions and active _Pragma lexers.
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bool Preprocessor::isInPrimaryFile() const {
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if (IsFileLexer())
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return IncludeMacroStack.empty();
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// If there are any stacked lexers, we're in a #include.
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assert(IsFileLexer(IncludeMacroStack[0]) &&
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"Top level include stack isn't our primary lexer?");
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return std::none_of(
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IncludeMacroStack.begin() + 1, IncludeMacroStack.end(),
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[&](const IncludeStackInfo &ISI) -> bool { return IsFileLexer(ISI); });
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}
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/// getCurrentLexer - Return the current file lexer being lexed from. Note
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/// that this ignores any potentially active macro expansions and _Pragma
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/// expansions going on at the time.
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PreprocessorLexer *Preprocessor::getCurrentFileLexer() const {
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if (IsFileLexer())
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return CurPPLexer;
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// Look for a stacked lexer.
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for (const IncludeStackInfo &ISI : llvm::reverse(IncludeMacroStack)) {
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if (IsFileLexer(ISI))
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return ISI.ThePPLexer;
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}
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return nullptr;
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}
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//===----------------------------------------------------------------------===//
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// Methods for Entering and Callbacks for leaving various contexts
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//===----------------------------------------------------------------------===//
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/// EnterSourceFile - Add a source file to the top of the include stack and
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/// start lexing tokens from it instead of the current buffer.
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bool Preprocessor::EnterSourceFile(FileID FID, const DirectoryLookup *CurDir,
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SourceLocation Loc) {
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assert(!CurTokenLexer && "Cannot #include a file inside a macro!");
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++NumEnteredSourceFiles;
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if (MaxIncludeStackDepth < IncludeMacroStack.size())
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MaxIncludeStackDepth = IncludeMacroStack.size();
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// Get the MemoryBuffer for this FID, if it fails, we fail.
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bool Invalid = false;
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const llvm::MemoryBuffer *InputFile =
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getSourceManager().getBuffer(FID, Loc, &Invalid);
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if (Invalid) {
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SourceLocation FileStart = SourceMgr.getLocForStartOfFile(FID);
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Diag(Loc, diag::err_pp_error_opening_file)
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<< std::string(SourceMgr.getBufferName(FileStart)) << "";
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return true;
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}
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if (isCodeCompletionEnabled() &&
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SourceMgr.getFileEntryForID(FID) == CodeCompletionFile) {
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CodeCompletionFileLoc = SourceMgr.getLocForStartOfFile(FID);
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CodeCompletionLoc =
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CodeCompletionFileLoc.getLocWithOffset(CodeCompletionOffset);
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}
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EnterSourceFileWithLexer(new Lexer(FID, InputFile, *this), CurDir);
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return false;
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}
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/// EnterSourceFileWithLexer - Add a source file to the top of the include stack
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/// and start lexing tokens from it instead of the current buffer.
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void Preprocessor::EnterSourceFileWithLexer(Lexer *TheLexer,
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const DirectoryLookup *CurDir) {
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// Add the current lexer to the include stack.
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if (CurPPLexer || CurTokenLexer)
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PushIncludeMacroStack();
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CurLexer.reset(TheLexer);
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CurPPLexer = TheLexer;
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CurDirLookup = CurDir;
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CurLexerSubmodule = nullptr;
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if (CurLexerKind != CLK_LexAfterModuleImport)
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CurLexerKind = CLK_Lexer;
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// Notify the client, if desired, that we are in a new source file.
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if (Callbacks && !CurLexer->Is_PragmaLexer) {
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SrcMgr::CharacteristicKind FileType =
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SourceMgr.getFileCharacteristic(CurLexer->getFileLoc());
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Callbacks->FileChanged(CurLexer->getFileLoc(),
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PPCallbacks::EnterFile, FileType);
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}
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}
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/// EnterMacro - Add a Macro to the top of the include stack and start lexing
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/// tokens from it instead of the current buffer.
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void Preprocessor::EnterMacro(Token &Tok, SourceLocation ILEnd,
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MacroInfo *Macro, MacroArgs *Args) {
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std::unique_ptr<TokenLexer> TokLexer;
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if (NumCachedTokenLexers == 0) {
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TokLexer = std::make_unique<TokenLexer>(Tok, ILEnd, Macro, Args, *this);
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} else {
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TokLexer = std::move(TokenLexerCache[--NumCachedTokenLexers]);
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TokLexer->Init(Tok, ILEnd, Macro, Args);
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}
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PushIncludeMacroStack();
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CurDirLookup = nullptr;
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CurTokenLexer = std::move(TokLexer);
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if (CurLexerKind != CLK_LexAfterModuleImport)
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CurLexerKind = CLK_TokenLexer;
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}
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/// EnterTokenStream - Add a "macro" context to the top of the include stack,
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/// which will cause the lexer to start returning the specified tokens.
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///
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/// If DisableMacroExpansion is true, tokens lexed from the token stream will
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/// not be subject to further macro expansion. Otherwise, these tokens will
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/// be re-macro-expanded when/if expansion is enabled.
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///
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/// If OwnsTokens is false, this method assumes that the specified stream of
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/// tokens has a permanent owner somewhere, so they do not need to be copied.
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/// If it is true, it assumes the array of tokens is allocated with new[] and
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/// must be freed.
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///
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void Preprocessor::EnterTokenStream(const Token *Toks, unsigned NumToks,
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bool DisableMacroExpansion, bool OwnsTokens,
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bool IsReinject) {
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if (CurLexerKind == CLK_CachingLexer) {
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if (CachedLexPos < CachedTokens.size()) {
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assert(IsReinject && "new tokens in the middle of cached stream");
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// We're entering tokens into the middle of our cached token stream. We
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// can't represent that, so just insert the tokens into the buffer.
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CachedTokens.insert(CachedTokens.begin() + CachedLexPos,
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Toks, Toks + NumToks);
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if (OwnsTokens)
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delete [] Toks;
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return;
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}
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// New tokens are at the end of the cached token sequnece; insert the
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// token stream underneath the caching lexer.
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ExitCachingLexMode();
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EnterTokenStream(Toks, NumToks, DisableMacroExpansion, OwnsTokens,
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IsReinject);
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EnterCachingLexMode();
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return;
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}
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// Create a macro expander to expand from the specified token stream.
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std::unique_ptr<TokenLexer> TokLexer;
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if (NumCachedTokenLexers == 0) {
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TokLexer = std::make_unique<TokenLexer>(
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Toks, NumToks, DisableMacroExpansion, OwnsTokens, IsReinject, *this);
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} else {
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TokLexer = std::move(TokenLexerCache[--NumCachedTokenLexers]);
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TokLexer->Init(Toks, NumToks, DisableMacroExpansion, OwnsTokens,
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IsReinject);
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}
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// Save our current state.
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PushIncludeMacroStack();
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CurDirLookup = nullptr;
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CurTokenLexer = std::move(TokLexer);
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if (CurLexerKind != CLK_LexAfterModuleImport)
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CurLexerKind = CLK_TokenLexer;
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}
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/// Compute the relative path that names the given file relative to
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/// the given directory.
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static void computeRelativePath(FileManager &FM, const DirectoryEntry *Dir,
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const FileEntry *File,
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SmallString<128> &Result) {
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Result.clear();
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StringRef FilePath = File->getDir()->getName();
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StringRef Path = FilePath;
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while (!Path.empty()) {
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if (auto CurDir = FM.getDirectory(Path)) {
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if (*CurDir == Dir) {
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Result = FilePath.substr(Path.size());
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llvm::sys::path::append(Result,
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llvm::sys::path::filename(File->getName()));
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return;
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}
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}
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Path = llvm::sys::path::parent_path(Path);
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}
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Result = File->getName();
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}
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void Preprocessor::PropagateLineStartLeadingSpaceInfo(Token &Result) {
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if (CurTokenLexer) {
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CurTokenLexer->PropagateLineStartLeadingSpaceInfo(Result);
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return;
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}
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if (CurLexer) {
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CurLexer->PropagateLineStartLeadingSpaceInfo(Result);
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return;
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}
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// FIXME: Handle other kinds of lexers? It generally shouldn't matter,
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// but it might if they're empty?
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}
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/// Determine the location to use as the end of the buffer for a lexer.
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///
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/// If the file ends with a newline, form the EOF token on the newline itself,
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/// rather than "on the line following it", which doesn't exist. This makes
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/// diagnostics relating to the end of file include the last file that the user
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/// actually typed, which is goodness.
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const char *Preprocessor::getCurLexerEndPos() {
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const char *EndPos = CurLexer->BufferEnd;
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if (EndPos != CurLexer->BufferStart &&
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(EndPos[-1] == '\n' || EndPos[-1] == '\r')) {
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--EndPos;
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// Handle \n\r and \r\n:
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if (EndPos != CurLexer->BufferStart &&
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(EndPos[-1] == '\n' || EndPos[-1] == '\r') &&
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EndPos[-1] != EndPos[0])
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--EndPos;
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}
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return EndPos;
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}
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static void collectAllSubModulesWithUmbrellaHeader(
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const Module &Mod, SmallVectorImpl<const Module *> &SubMods) {
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if (Mod.getUmbrellaHeader())
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SubMods.push_back(&Mod);
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for (auto *M : Mod.submodules())
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collectAllSubModulesWithUmbrellaHeader(*M, SubMods);
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}
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void Preprocessor::diagnoseMissingHeaderInUmbrellaDir(const Module &Mod) {
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assert(Mod.getUmbrellaHeader() && "Module must use umbrella header");
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SourceLocation StartLoc =
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SourceMgr.getLocForStartOfFile(SourceMgr.getMainFileID());
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if (getDiagnostics().isIgnored(diag::warn_uncovered_module_header, StartLoc))
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return;
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ModuleMap &ModMap = getHeaderSearchInfo().getModuleMap();
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const DirectoryEntry *Dir = Mod.getUmbrellaDir().Entry;
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llvm::vfs::FileSystem &FS = FileMgr.getVirtualFileSystem();
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std::error_code EC;
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for (llvm::vfs::recursive_directory_iterator Entry(FS, Dir->getName(), EC),
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End;
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Entry != End && !EC; Entry.increment(EC)) {
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using llvm::StringSwitch;
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// Check whether this entry has an extension typically associated with
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// headers.
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if (!StringSwitch<bool>(llvm::sys::path::extension(Entry->path()))
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.Cases(".h", ".H", ".hh", ".hpp", true)
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.Default(false))
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continue;
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if (auto Header = getFileManager().getFile(Entry->path()))
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if (!getSourceManager().hasFileInfo(*Header)) {
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if (!ModMap.isHeaderInUnavailableModule(*Header)) {
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// Find the relative path that would access this header.
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SmallString<128> RelativePath;
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computeRelativePath(FileMgr, Dir, *Header, RelativePath);
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Diag(StartLoc, diag::warn_uncovered_module_header)
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<< Mod.getFullModuleName() << RelativePath;
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}
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}
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}
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}
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/// HandleEndOfFile - This callback is invoked when the lexer hits the end of
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/// the current file. This either returns the EOF token or pops a level off
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/// the include stack and keeps going.
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bool Preprocessor::HandleEndOfFile(Token &Result, bool isEndOfMacro) {
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assert(!CurTokenLexer &&
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"Ending a file when currently in a macro!");
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// If we have an unclosed module region from a pragma at the end of a
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// module, complain and close it now.
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const bool LeavingSubmodule = CurLexer && CurLexerSubmodule;
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if ((LeavingSubmodule || IncludeMacroStack.empty()) &&
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!BuildingSubmoduleStack.empty() &&
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BuildingSubmoduleStack.back().IsPragma) {
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Diag(BuildingSubmoduleStack.back().ImportLoc,
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diag::err_pp_module_begin_without_module_end);
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Module *M = LeaveSubmodule(/*ForPragma*/true);
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Result.startToken();
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const char *EndPos = getCurLexerEndPos();
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CurLexer->BufferPtr = EndPos;
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CurLexer->FormTokenWithChars(Result, EndPos, tok::annot_module_end);
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Result.setAnnotationEndLoc(Result.getLocation());
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Result.setAnnotationValue(M);
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return true;
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}
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// See if this file had a controlling macro.
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if (CurPPLexer) { // Not ending a macro, ignore it.
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if (const IdentifierInfo *ControllingMacro =
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CurPPLexer->MIOpt.GetControllingMacroAtEndOfFile()) {
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// Okay, this has a controlling macro, remember in HeaderFileInfo.
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if (const FileEntry *FE = CurPPLexer->getFileEntry()) {
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HeaderInfo.SetFileControllingMacro(FE, ControllingMacro);
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if (MacroInfo *MI =
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getMacroInfo(const_cast<IdentifierInfo*>(ControllingMacro)))
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MI->setUsedForHeaderGuard(true);
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if (const IdentifierInfo *DefinedMacro =
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CurPPLexer->MIOpt.GetDefinedMacro()) {
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if (!isMacroDefined(ControllingMacro) &&
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DefinedMacro != ControllingMacro &&
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HeaderInfo.FirstTimeLexingFile(FE)) {
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// If the edit distance between the two macros is more than 50%,
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// DefinedMacro may not be header guard, or can be header guard of
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// another header file. Therefore, it maybe defining something
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// completely different. This can be observed in the wild when
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// handling feature macros or header guards in different files.
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const StringRef ControllingMacroName = ControllingMacro->getName();
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const StringRef DefinedMacroName = DefinedMacro->getName();
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const size_t MaxHalfLength = std::max(ControllingMacroName.size(),
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DefinedMacroName.size()) / 2;
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const unsigned ED = ControllingMacroName.edit_distance(
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DefinedMacroName, true, MaxHalfLength);
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if (ED <= MaxHalfLength) {
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// Emit a warning for a bad header guard.
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Diag(CurPPLexer->MIOpt.GetMacroLocation(),
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diag::warn_header_guard)
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<< CurPPLexer->MIOpt.GetMacroLocation() << ControllingMacro;
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Diag(CurPPLexer->MIOpt.GetDefinedLocation(),
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diag::note_header_guard)
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<< CurPPLexer->MIOpt.GetDefinedLocation() << DefinedMacro
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<< ControllingMacro
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<< FixItHint::CreateReplacement(
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CurPPLexer->MIOpt.GetDefinedLocation(),
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ControllingMacro->getName());
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}
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}
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}
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}
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}
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}
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// Complain about reaching a true EOF within arc_cf_code_audited.
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// We don't want to complain about reaching the end of a macro
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// instantiation or a _Pragma.
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if (PragmaARCCFCodeAuditedInfo.second.isValid() && !isEndOfMacro &&
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!(CurLexer && CurLexer->Is_PragmaLexer)) {
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Diag(PragmaARCCFCodeAuditedInfo.second,
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diag::err_pp_eof_in_arc_cf_code_audited);
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// Recover by leaving immediately.
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PragmaARCCFCodeAuditedInfo = {nullptr, SourceLocation()};
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}
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// Complain about reaching a true EOF within assume_nonnull.
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// We don't want to complain about reaching the end of a macro
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// instantiation or a _Pragma.
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if (PragmaAssumeNonNullLoc.isValid() &&
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!isEndOfMacro && !(CurLexer && CurLexer->Is_PragmaLexer)) {
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Diag(PragmaAssumeNonNullLoc, diag::err_pp_eof_in_assume_nonnull);
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// Recover by leaving immediately.
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PragmaAssumeNonNullLoc = SourceLocation();
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}
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bool LeavingPCHThroughHeader = false;
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// If this is a #include'd file, pop it off the include stack and continue
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// lexing the #includer file.
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if (!IncludeMacroStack.empty()) {
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// If we lexed the code-completion file, act as if we reached EOF.
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if (isCodeCompletionEnabled() && CurPPLexer &&
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SourceMgr.getLocForStartOfFile(CurPPLexer->getFileID()) ==
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CodeCompletionFileLoc) {
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assert(CurLexer && "Got EOF but no current lexer set!");
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Result.startToken();
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CurLexer->FormTokenWithChars(Result, CurLexer->BufferEnd, tok::eof);
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CurLexer.reset();
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CurPPLexer = nullptr;
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recomputeCurLexerKind();
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return true;
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}
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if (!isEndOfMacro && CurPPLexer &&
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(SourceMgr.getIncludeLoc(CurPPLexer->getFileID()).isValid() ||
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// Predefines file doesn't have a valid include location.
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(PredefinesFileID.isValid() &&
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CurPPLexer->getFileID() == PredefinesFileID))) {
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// Notify SourceManager to record the number of FileIDs that were created
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// during lexing of the #include'd file.
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unsigned NumFIDs =
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SourceMgr.local_sloc_entry_size() -
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CurPPLexer->getInitialNumSLocEntries() + 1/*#include'd file*/;
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SourceMgr.setNumCreatedFIDsForFileID(CurPPLexer->getFileID(), NumFIDs);
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}
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bool ExitedFromPredefinesFile = false;
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FileID ExitedFID;
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if (!isEndOfMacro && CurPPLexer) {
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ExitedFID = CurPPLexer->getFileID();
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assert(PredefinesFileID.isValid() &&
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"HandleEndOfFile is called before PredefinesFileId is set");
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ExitedFromPredefinesFile = (PredefinesFileID == ExitedFID);
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}
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if (LeavingSubmodule) {
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// We're done with this submodule.
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Module *M = LeaveSubmodule(/*ForPragma*/false);
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// Notify the parser that we've left the module.
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const char *EndPos = getCurLexerEndPos();
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Result.startToken();
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CurLexer->BufferPtr = EndPos;
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CurLexer->FormTokenWithChars(Result, EndPos, tok::annot_module_end);
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Result.setAnnotationEndLoc(Result.getLocation());
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Result.setAnnotationValue(M);
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}
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bool FoundPCHThroughHeader = false;
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if (CurPPLexer && creatingPCHWithThroughHeader() &&
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isPCHThroughHeader(
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SourceMgr.getFileEntryForID(CurPPLexer->getFileID())))
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FoundPCHThroughHeader = true;
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// We're done with the #included file.
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RemoveTopOfLexerStack();
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// Propagate info about start-of-line/leading white-space/etc.
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PropagateLineStartLeadingSpaceInfo(Result);
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|
|
// Notify the client, if desired, that we are in a new source file.
|
|
if (Callbacks && !isEndOfMacro && CurPPLexer) {
|
|
SrcMgr::CharacteristicKind FileType =
|
|
SourceMgr.getFileCharacteristic(CurPPLexer->getSourceLocation());
|
|
Callbacks->FileChanged(CurPPLexer->getSourceLocation(),
|
|
PPCallbacks::ExitFile, FileType, ExitedFID);
|
|
}
|
|
|
|
// Restore conditional stack from the preamble right after exiting from the
|
|
// predefines file.
|
|
if (ExitedFromPredefinesFile)
|
|
replayPreambleConditionalStack();
|
|
|
|
if (!isEndOfMacro && CurPPLexer && FoundPCHThroughHeader &&
|
|
(isInPrimaryFile() ||
|
|
CurPPLexer->getFileID() == getPredefinesFileID())) {
|
|
// Leaving the through header. Continue directly to end of main file
|
|
// processing.
|
|
LeavingPCHThroughHeader = true;
|
|
} else {
|
|
// Client should lex another token unless we generated an EOM.
|
|
return LeavingSubmodule;
|
|
}
|
|
}
|
|
|
|
// If this is the end of the main file, form an EOF token.
|
|
assert(CurLexer && "Got EOF but no current lexer set!");
|
|
const char *EndPos = getCurLexerEndPos();
|
|
Result.startToken();
|
|
CurLexer->BufferPtr = EndPos;
|
|
CurLexer->FormTokenWithChars(Result, EndPos, tok::eof);
|
|
|
|
if (isCodeCompletionEnabled()) {
|
|
// Inserting the code-completion point increases the source buffer by 1,
|
|
// but the main FileID was created before inserting the point.
|
|
// Compensate by reducing the EOF location by 1, otherwise the location
|
|
// will point to the next FileID.
|
|
// FIXME: This is hacky, the code-completion point should probably be
|
|
// inserted before the main FileID is created.
|
|
if (CurLexer->getFileLoc() == CodeCompletionFileLoc)
|
|
Result.setLocation(Result.getLocation().getLocWithOffset(-1));
|
|
}
|
|
|
|
if (creatingPCHWithThroughHeader() && !LeavingPCHThroughHeader) {
|
|
// Reached the end of the compilation without finding the through header.
|
|
Diag(CurLexer->getFileLoc(), diag::err_pp_through_header_not_seen)
|
|
<< PPOpts->PCHThroughHeader << 0;
|
|
}
|
|
|
|
if (!isIncrementalProcessingEnabled())
|
|
// We're done with lexing.
|
|
CurLexer.reset();
|
|
|
|
if (!isIncrementalProcessingEnabled())
|
|
CurPPLexer = nullptr;
|
|
|
|
if (TUKind == TU_Complete) {
|
|
// This is the end of the top-level file. 'WarnUnusedMacroLocs' has
|
|
// collected all macro locations that we need to warn because they are not
|
|
// used.
|
|
for (WarnUnusedMacroLocsTy::iterator
|
|
I=WarnUnusedMacroLocs.begin(), E=WarnUnusedMacroLocs.end();
|
|
I!=E; ++I)
|
|
Diag(*I, diag::pp_macro_not_used);
|
|
}
|
|
|
|
// If we are building a module that has an umbrella header, make sure that
|
|
// each of the headers within the directory, including all submodules, is
|
|
// covered by the umbrella header was actually included by the umbrella
|
|
// header.
|
|
if (Module *Mod = getCurrentModule()) {
|
|
llvm::SmallVector<const Module *, 4> AllMods;
|
|
collectAllSubModulesWithUmbrellaHeader(*Mod, AllMods);
|
|
for (auto *M : AllMods)
|
|
diagnoseMissingHeaderInUmbrellaDir(*M);
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
/// HandleEndOfTokenLexer - This callback is invoked when the current TokenLexer
|
|
/// hits the end of its token stream.
|
|
bool Preprocessor::HandleEndOfTokenLexer(Token &Result) {
|
|
assert(CurTokenLexer && !CurPPLexer &&
|
|
"Ending a macro when currently in a #include file!");
|
|
|
|
if (!MacroExpandingLexersStack.empty() &&
|
|
MacroExpandingLexersStack.back().first == CurTokenLexer.get())
|
|
removeCachedMacroExpandedTokensOfLastLexer();
|
|
|
|
// Delete or cache the now-dead macro expander.
|
|
if (NumCachedTokenLexers == TokenLexerCacheSize)
|
|
CurTokenLexer.reset();
|
|
else
|
|
TokenLexerCache[NumCachedTokenLexers++] = std::move(CurTokenLexer);
|
|
|
|
// Handle this like a #include file being popped off the stack.
|
|
return HandleEndOfFile(Result, true);
|
|
}
|
|
|
|
/// RemoveTopOfLexerStack - Pop the current lexer/macro exp off the top of the
|
|
/// lexer stack. This should only be used in situations where the current
|
|
/// state of the top-of-stack lexer is unknown.
|
|
void Preprocessor::RemoveTopOfLexerStack() {
|
|
assert(!IncludeMacroStack.empty() && "Ran out of stack entries to load");
|
|
|
|
if (CurTokenLexer) {
|
|
// Delete or cache the now-dead macro expander.
|
|
if (NumCachedTokenLexers == TokenLexerCacheSize)
|
|
CurTokenLexer.reset();
|
|
else
|
|
TokenLexerCache[NumCachedTokenLexers++] = std::move(CurTokenLexer);
|
|
}
|
|
|
|
PopIncludeMacroStack();
|
|
}
|
|
|
|
/// HandleMicrosoftCommentPaste - When the macro expander pastes together a
|
|
/// comment (/##/) in microsoft mode, this method handles updating the current
|
|
/// state, returning the token on the next source line.
|
|
void Preprocessor::HandleMicrosoftCommentPaste(Token &Tok) {
|
|
assert(CurTokenLexer && !CurPPLexer &&
|
|
"Pasted comment can only be formed from macro");
|
|
// We handle this by scanning for the closest real lexer, switching it to
|
|
// raw mode and preprocessor mode. This will cause it to return \n as an
|
|
// explicit EOD token.
|
|
PreprocessorLexer *FoundLexer = nullptr;
|
|
bool LexerWasInPPMode = false;
|
|
for (const IncludeStackInfo &ISI : llvm::reverse(IncludeMacroStack)) {
|
|
if (ISI.ThePPLexer == nullptr) continue; // Scan for a real lexer.
|
|
|
|
// Once we find a real lexer, mark it as raw mode (disabling macro
|
|
// expansions) and preprocessor mode (return EOD). We know that the lexer
|
|
// was *not* in raw mode before, because the macro that the comment came
|
|
// from was expanded. However, it could have already been in preprocessor
|
|
// mode (#if COMMENT) in which case we have to return it to that mode and
|
|
// return EOD.
|
|
FoundLexer = ISI.ThePPLexer;
|
|
FoundLexer->LexingRawMode = true;
|
|
LexerWasInPPMode = FoundLexer->ParsingPreprocessorDirective;
|
|
FoundLexer->ParsingPreprocessorDirective = true;
|
|
break;
|
|
}
|
|
|
|
// Okay, we either found and switched over the lexer, or we didn't find a
|
|
// lexer. In either case, finish off the macro the comment came from, getting
|
|
// the next token.
|
|
if (!HandleEndOfTokenLexer(Tok)) Lex(Tok);
|
|
|
|
// Discarding comments as long as we don't have EOF or EOD. This 'comments
|
|
// out' the rest of the line, including any tokens that came from other macros
|
|
// that were active, as in:
|
|
// #define submacro a COMMENT b
|
|
// submacro c
|
|
// which should lex to 'a' only: 'b' and 'c' should be removed.
|
|
while (Tok.isNot(tok::eod) && Tok.isNot(tok::eof))
|
|
Lex(Tok);
|
|
|
|
// If we got an eod token, then we successfully found the end of the line.
|
|
if (Tok.is(tok::eod)) {
|
|
assert(FoundLexer && "Can't get end of line without an active lexer");
|
|
// Restore the lexer back to normal mode instead of raw mode.
|
|
FoundLexer->LexingRawMode = false;
|
|
|
|
// If the lexer was already in preprocessor mode, just return the EOD token
|
|
// to finish the preprocessor line.
|
|
if (LexerWasInPPMode) return;
|
|
|
|
// Otherwise, switch out of PP mode and return the next lexed token.
|
|
FoundLexer->ParsingPreprocessorDirective = false;
|
|
return Lex(Tok);
|
|
}
|
|
|
|
// If we got an EOF token, then we reached the end of the token stream but
|
|
// didn't find an explicit \n. This can only happen if there was no lexer
|
|
// active (an active lexer would return EOD at EOF if there was no \n in
|
|
// preprocessor directive mode), so just return EOF as our token.
|
|
assert(!FoundLexer && "Lexer should return EOD before EOF in PP mode");
|
|
}
|
|
|
|
void Preprocessor::EnterSubmodule(Module *M, SourceLocation ImportLoc,
|
|
bool ForPragma) {
|
|
if (!getLangOpts().ModulesLocalVisibility) {
|
|
// Just track that we entered this submodule.
|
|
BuildingSubmoduleStack.push_back(
|
|
BuildingSubmoduleInfo(M, ImportLoc, ForPragma, CurSubmoduleState,
|
|
PendingModuleMacroNames.size()));
|
|
if (Callbacks)
|
|
Callbacks->EnteredSubmodule(M, ImportLoc, ForPragma);
|
|
return;
|
|
}
|
|
|
|
// Resolve as much of the module definition as we can now, before we enter
|
|
// one of its headers.
|
|
// FIXME: Can we enable Complain here?
|
|
// FIXME: Can we do this when local visibility is disabled?
|
|
ModuleMap &ModMap = getHeaderSearchInfo().getModuleMap();
|
|
ModMap.resolveExports(M, /*Complain=*/false);
|
|
ModMap.resolveUses(M, /*Complain=*/false);
|
|
ModMap.resolveConflicts(M, /*Complain=*/false);
|
|
|
|
// If this is the first time we've entered this module, set up its state.
|
|
auto R = Submodules.insert(std::make_pair(M, SubmoduleState()));
|
|
auto &State = R.first->second;
|
|
bool FirstTime = R.second;
|
|
if (FirstTime) {
|
|
// Determine the set of starting macros for this submodule; take these
|
|
// from the "null" module (the predefines buffer).
|
|
//
|
|
// FIXME: If we have local visibility but not modules enabled, the
|
|
// NullSubmoduleState is polluted by #defines in the top-level source
|
|
// file.
|
|
auto &StartingMacros = NullSubmoduleState.Macros;
|
|
|
|
// Restore to the starting state.
|
|
// FIXME: Do this lazily, when each macro name is first referenced.
|
|
for (auto &Macro : StartingMacros) {
|
|
// Skip uninteresting macros.
|
|
if (!Macro.second.getLatest() &&
|
|
Macro.second.getOverriddenMacros().empty())
|
|
continue;
|
|
|
|
MacroState MS(Macro.second.getLatest());
|
|
MS.setOverriddenMacros(*this, Macro.second.getOverriddenMacros());
|
|
State.Macros.insert(std::make_pair(Macro.first, std::move(MS)));
|
|
}
|
|
}
|
|
|
|
// Track that we entered this module.
|
|
BuildingSubmoduleStack.push_back(
|
|
BuildingSubmoduleInfo(M, ImportLoc, ForPragma, CurSubmoduleState,
|
|
PendingModuleMacroNames.size()));
|
|
|
|
if (Callbacks)
|
|
Callbacks->EnteredSubmodule(M, ImportLoc, ForPragma);
|
|
|
|
// Switch to this submodule as the current submodule.
|
|
CurSubmoduleState = &State;
|
|
|
|
// This module is visible to itself.
|
|
if (FirstTime)
|
|
makeModuleVisible(M, ImportLoc);
|
|
}
|
|
|
|
bool Preprocessor::needModuleMacros() const {
|
|
// If we're not within a submodule, we never need to create ModuleMacros.
|
|
if (BuildingSubmoduleStack.empty())
|
|
return false;
|
|
// If we are tracking module macro visibility even for textually-included
|
|
// headers, we need ModuleMacros.
|
|
if (getLangOpts().ModulesLocalVisibility)
|
|
return true;
|
|
// Otherwise, we only need module macros if we're actually compiling a module
|
|
// interface.
|
|
return getLangOpts().isCompilingModule();
|
|
}
|
|
|
|
Module *Preprocessor::LeaveSubmodule(bool ForPragma) {
|
|
if (BuildingSubmoduleStack.empty() ||
|
|
BuildingSubmoduleStack.back().IsPragma != ForPragma) {
|
|
assert(ForPragma && "non-pragma module enter/leave mismatch");
|
|
return nullptr;
|
|
}
|
|
|
|
auto &Info = BuildingSubmoduleStack.back();
|
|
|
|
Module *LeavingMod = Info.M;
|
|
SourceLocation ImportLoc = Info.ImportLoc;
|
|
|
|
if (!needModuleMacros() ||
|
|
(!getLangOpts().ModulesLocalVisibility &&
|
|
LeavingMod->getTopLevelModuleName() != getLangOpts().CurrentModule)) {
|
|
// If we don't need module macros, or this is not a module for which we
|
|
// are tracking macro visibility, don't build any, and preserve the list
|
|
// of pending names for the surrounding submodule.
|
|
BuildingSubmoduleStack.pop_back();
|
|
|
|
if (Callbacks)
|
|
Callbacks->LeftSubmodule(LeavingMod, ImportLoc, ForPragma);
|
|
|
|
makeModuleVisible(LeavingMod, ImportLoc);
|
|
return LeavingMod;
|
|
}
|
|
|
|
// Create ModuleMacros for any macros defined in this submodule.
|
|
llvm::SmallPtrSet<const IdentifierInfo*, 8> VisitedMacros;
|
|
for (unsigned I = Info.OuterPendingModuleMacroNames;
|
|
I != PendingModuleMacroNames.size(); ++I) {
|
|
auto *II = const_cast<IdentifierInfo*>(PendingModuleMacroNames[I]);
|
|
if (!VisitedMacros.insert(II).second)
|
|
continue;
|
|
|
|
auto MacroIt = CurSubmoduleState->Macros.find(II);
|
|
if (MacroIt == CurSubmoduleState->Macros.end())
|
|
continue;
|
|
auto &Macro = MacroIt->second;
|
|
|
|
// Find the starting point for the MacroDirective chain in this submodule.
|
|
MacroDirective *OldMD = nullptr;
|
|
auto *OldState = Info.OuterSubmoduleState;
|
|
if (getLangOpts().ModulesLocalVisibility)
|
|
OldState = &NullSubmoduleState;
|
|
if (OldState && OldState != CurSubmoduleState) {
|
|
// FIXME: It'd be better to start at the state from when we most recently
|
|
// entered this submodule, but it doesn't really matter.
|
|
auto &OldMacros = OldState->Macros;
|
|
auto OldMacroIt = OldMacros.find(II);
|
|
if (OldMacroIt == OldMacros.end())
|
|
OldMD = nullptr;
|
|
else
|
|
OldMD = OldMacroIt->second.getLatest();
|
|
}
|
|
|
|
// This module may have exported a new macro. If so, create a ModuleMacro
|
|
// representing that fact.
|
|
bool ExplicitlyPublic = false;
|
|
for (auto *MD = Macro.getLatest(); MD != OldMD; MD = MD->getPrevious()) {
|
|
assert(MD && "broken macro directive chain");
|
|
|
|
if (auto *VisMD = dyn_cast<VisibilityMacroDirective>(MD)) {
|
|
// The latest visibility directive for a name in a submodule affects
|
|
// all the directives that come before it.
|
|
if (VisMD->isPublic())
|
|
ExplicitlyPublic = true;
|
|
else if (!ExplicitlyPublic)
|
|
// Private with no following public directive: not exported.
|
|
break;
|
|
} else {
|
|
MacroInfo *Def = nullptr;
|
|
if (DefMacroDirective *DefMD = dyn_cast<DefMacroDirective>(MD))
|
|
Def = DefMD->getInfo();
|
|
|
|
// FIXME: Issue a warning if multiple headers for the same submodule
|
|
// define a macro, rather than silently ignoring all but the first.
|
|
bool IsNew;
|
|
// Don't bother creating a module macro if it would represent a #undef
|
|
// that doesn't override anything.
|
|
if (Def || !Macro.getOverriddenMacros().empty())
|
|
addModuleMacro(LeavingMod, II, Def,
|
|
Macro.getOverriddenMacros(), IsNew);
|
|
|
|
if (!getLangOpts().ModulesLocalVisibility) {
|
|
// This macro is exposed to the rest of this compilation as a
|
|
// ModuleMacro; we don't need to track its MacroDirective any more.
|
|
Macro.setLatest(nullptr);
|
|
Macro.setOverriddenMacros(*this, {});
|
|
}
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
PendingModuleMacroNames.resize(Info.OuterPendingModuleMacroNames);
|
|
|
|
// FIXME: Before we leave this submodule, we should parse all the other
|
|
// headers within it. Otherwise, we're left with an inconsistent state
|
|
// where we've made the module visible but don't yet have its complete
|
|
// contents.
|
|
|
|
// Put back the outer module's state, if we're tracking it.
|
|
if (getLangOpts().ModulesLocalVisibility)
|
|
CurSubmoduleState = Info.OuterSubmoduleState;
|
|
|
|
BuildingSubmoduleStack.pop_back();
|
|
|
|
if (Callbacks)
|
|
Callbacks->LeftSubmodule(LeavingMod, ImportLoc, ForPragma);
|
|
|
|
// A nested #include makes the included submodule visible.
|
|
makeModuleVisible(LeavingMod, ImportLoc);
|
|
return LeavingMod;
|
|
}
|