void clang::ParseAST(Sema &S, bool PrintStats, bool SkipFunctionBodies) {
// Collect global stats on Decls/Stmts (until we have a module streamer).
if (PrintStats) {
Decl::EnableStatistics();
Stmt::EnableStatistics();
}
// Also turn on collection of stats inside of the Sema object.
bool OldCollectStats = PrintStats;
std::swap(OldCollectStats, S.CollectStats);
// Initialize the template instantiation observer chain.
// FIXME: See note on "finalize" below.
initialize(S.TemplateInstCallbacks, S);
ASTConsumer *Consumer = &S.getASTConsumer();
std::unique_ptr<Parser> ParseOP(
new Parser(S.getPreprocessor(), S, SkipFunctionBodies));
Parser &P = *ParseOP.get();
llvm::CrashRecoveryContextCleanupRegistrar<const void, ResetStackCleanup>
CleanupPrettyStack(llvm::SavePrettyStackState());
PrettyStackTraceParserEntry CrashInfo(P);
// Recover resources if we crash before exiting this method.
llvm::CrashRecoveryContextCleanupRegistrar<Parser>
CleanupParser(ParseOP.get());
S.getPreprocessor().EnterMainSourceFile();
P.Initialize();
Parser::DeclGroupPtrTy ADecl;
ExternalASTSource *External = S.getASTContext().getExternalSource();
if (External)
External->StartTranslationUnit(Consumer);
for (bool AtEOF = P.ParseFirstTopLevelDecl(ADecl); !AtEOF;
AtEOF = P.ParseTopLevelDecl(ADecl)) {
// If we got a null return and something *was* parsed, ignore it. This
// is due to a top-level semicolon, an action override, or a parse error
// skipping something.
if (ADecl && !Consumer->HandleTopLevelDecl(ADecl.get()))
return;
}
// Process any TopLevelDecls generated by #pragma weak.
for (Decl *D : S.WeakTopLevelDecls())
Consumer->HandleTopLevelDecl(DeclGroupRef(D));
Consumer->HandleTranslationUnit(S.getASTContext());
// Finalize the template instantiation observer chain.
// FIXME: This (and init.) should be done in the Sema class, but because
// Sema does not have a reliable "Finalize" function (it has a
// destructor, but it is not guaranteed to be called ("-disable-free")).
// So, do the initialization above and do the finalization here:
finalize(S.TemplateInstCallbacks, S);
std::swap(OldCollectStats, S.CollectStats);
if (PrintStats) {
llvm::errs() << "\nSTATISTICS:\n";
P.getActions().PrintStats();
S.getASTContext().PrintStats();
Decl::PrintStats();
Stmt::PrintStats();
Consumer->PrintStats();
}
}
void clang::ParseAST(Sema &S, bool PrintStats, bool SkipFunctionBodies) {
// Collect global stats on Decls/Stmts (until we have a module streamer).
if (PrintStats) {
Decl::EnableStatistics();
Stmt::EnableStatistics();
}
// Also turn on collection of stats inside of the Sema object.
bool OldCollectStats = PrintStats;
std::swap(OldCollectStats, S.CollectStats);
ASTConsumer *Consumer = &S.getASTConsumer();
OwningPtr<Parser> ParseOP(new Parser(S.getPreprocessor(), S,
SkipFunctionBodies));
Parser &P = *ParseOP.get();
PrettyStackTraceParserEntry CrashInfo(P);
// Recover resources if we crash before exiting this method.
llvm::CrashRecoveryContextCleanupRegistrar<Parser>
CleanupParser(ParseOP.get());
S.getPreprocessor().EnterMainSourceFile();
P.Initialize();
// C11 6.9p1 says translation units must have at least one top-level
// declaration. C++ doesn't have this restriction. We also don't want to
// complain if we have a precompiled header, although technically if the PCH
// is empty we should still emit the (pedantic) diagnostic.
Parser::DeclGroupPtrTy ADecl;
ExternalASTSource *External = S.getASTContext().getExternalSource();
if (External)
External->StartTranslationUnit(Consumer);
if (P.ParseTopLevelDecl(ADecl)) {
if (!External && !S.getLangOpts().CPlusPlus)
P.Diag(diag::ext_empty_translation_unit);
} else {
do {
// If we got a null return and something *was* parsed, ignore it. This
// is due to a top-level semicolon, an action override, or a parse error
// skipping something.
if (ADecl && !Consumer->HandleTopLevelDecl(ADecl.get()))
return;
} while (!P.ParseTopLevelDecl(ADecl));
}
P.ParseRogerPartOpt(Consumer);
// Process any TopLevelDecls generated by #pragma weak.
for (SmallVectorImpl<Decl *>::iterator
I = S.WeakTopLevelDecls().begin(),
E = S.WeakTopLevelDecls().end(); I != E; ++I)
Consumer->HandleTopLevelDecl(DeclGroupRef(*I));
Consumer->HandleTranslationUnit(S.getASTContext());
std::swap(OldCollectStats, S.CollectStats);
if (PrintStats) {
llvm::errs() << "\nSTATISTICS:\n";
P.getActions().PrintStats();
S.getASTContext().PrintStats();
Decl::PrintStats();
Stmt::PrintStats();
Consumer->PrintStats();
}
}
// Add the input to the memory buffer, parse it, and add it to the AST.
IncrementalParser::EParseResult
IncrementalParser::ParseInternal(llvm::StringRef input) {
if (input.empty()) return IncrementalParser::kSuccess;
Sema& S = getCI()->getSema();
const CompilationOptions& CO
= m_Consumer->getTransaction()->getCompilationOpts();
assert(!(S.getLangOpts().Modules
&& CO.CodeGenerationForModule)
&& "CodeGenerationForModule to be removed once PCMs are available!");
// Recover resources if we crash before exiting this method.
llvm::CrashRecoveryContextCleanupRegistrar<Sema> CleanupSema(&S);
Preprocessor& PP = m_CI->getPreprocessor();
if (!PP.getCurrentLexer()) {
PP.EnterSourceFile(m_CI->getSourceManager().getMainFileID(),
0, SourceLocation());
}
assert(PP.isIncrementalProcessingEnabled() && "Not in incremental mode!?");
PP.enableIncrementalProcessing();
smallstream source_name;
source_name << "input_line_" << (m_MemoryBuffers.size() + 1);
// Create an uninitialized memory buffer, copy code in and append "\n"
size_t InputSize = input.size(); // don't include trailing 0
// MemBuffer size should *not* include terminating zero
std::unique_ptr<llvm::MemoryBuffer>
MB(llvm::MemoryBuffer::getNewUninitMemBuffer(InputSize + 1,
source_name.str()));
char* MBStart = const_cast<char*>(MB->getBufferStart());
memcpy(MBStart, input.data(), InputSize);
MBStart[InputSize] = '\n';
SourceManager& SM = getCI()->getSourceManager();
// Create SourceLocation, which will allow clang to order the overload
// candidates for example
SourceLocation NewLoc = getLastMemoryBufferEndLoc().getLocWithOffset(1);
llvm::MemoryBuffer* MBNonOwn = MB.get();
// Create FileID for the current buffer.
FileID FID;
// Create FileEntry and FileID for the current buffer.
// Enabling the completion point only works on FileEntries.
const clang::FileEntry* FE
= SM.getFileManager().getVirtualFile(source_name.str(), InputSize,
0 /* mod time*/);
SM.overrideFileContents(FE, std::move(MB));
FID = SM.createFileID(FE, NewLoc, SrcMgr::C_User);
if (CO.CodeCompletionOffset != -1) {
// The completion point is set one a 1-based line/column numbering.
// It relies on the implementation to account for the wrapper extra line.
PP.SetCodeCompletionPoint(FE, 1/* start point 1-based line*/,
CO.CodeCompletionOffset+1/* 1-based column*/);
}
m_MemoryBuffers.push_back(std::make_pair(MBNonOwn, FID));
// NewLoc only used for diags.
PP.EnterSourceFile(FID, /*DirLookup*/0, NewLoc);
m_Consumer->getTransaction()->setBufferFID(FID);
DiagnosticsEngine& Diags = getCI()->getDiagnostics();
FilteringDiagConsumer::RAAI RAAITmp(*m_DiagConsumer, CO.IgnorePromptDiags);
DiagnosticErrorTrap Trap(Diags);
Sema::SavePendingInstantiationsRAII SavedPendingInstantiations(S);
Parser::DeclGroupPtrTy ADecl;
while (!m_Parser->ParseTopLevelDecl(ADecl)) {
// If we got a null return and something *was* parsed, ignore it. This
// is due to a top-level semicolon, an action override, or a parse error
// skipping something.
if (Trap.hasErrorOccurred())
m_Consumer->getTransaction()->setIssuedDiags(Transaction::kErrors);
if (ADecl)
m_Consumer->HandleTopLevelDecl(ADecl.get());
};
// If never entered the while block, there's a chance an error occured
if (Trap.hasErrorOccurred())
m_Consumer->getTransaction()->setIssuedDiags(Transaction::kErrors);
if (CO.CodeCompletionOffset != -1) {
assert((int)SM.getFileOffset(PP.getCodeCompletionLoc())
== CO.CodeCompletionOffset
&& "Completion point wrongly set!");
assert(PP.isCodeCompletionReached()
&& "Code completion set but not reached!");
// Let's ignore this transaction:
m_Consumer->getTransaction()->setIssuedDiags(Transaction::kErrors);
return kSuccess;
}
#ifdef LLVM_ON_WIN32
// Microsoft-specific:
// Late parsed templates can leave unswallowed "macro"-like tokens.
// They will seriously confuse the Parser when entering the next
// source file. So lex until we are EOF.
Token Tok;
do {
PP.Lex(Tok);
} while (Tok.isNot(tok::eof));
#endif
#ifndef NDEBUG
Token AssertTok;
PP.Lex(AssertTok);
assert(AssertTok.is(tok::eof) && "Lexer must be EOF when starting incremental parse!");
#endif
// Process any TopLevelDecls generated by #pragma weak.
for (llvm::SmallVector<Decl*,2>::iterator I = S.WeakTopLevelDecls().begin(),
E = S.WeakTopLevelDecls().end(); I != E; ++I) {
m_Consumer->HandleTopLevelDecl(DeclGroupRef(*I));
}
if (m_Consumer->getTransaction()->getIssuedDiags() == Transaction::kErrors)
return kFailed;
else if (Diags.getNumWarnings())
return kSuccessWithWarnings;
return kSuccess;
}