FrontendAction.cpp
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//===--- FrontendAction.cpp -----------------------------------------------===//
//
// 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/Frontend/FrontendAction.h"
#include "clang/AST/ASTConsumer.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/DeclGroup.h"
#include "clang/Basic/Builtins.h"
#include "clang/Basic/LangStandard.h"
#include "clang/Frontend/ASTUnit.h"
#include "clang/Frontend/CompilerInstance.h"
#include "clang/Frontend/FrontendDiagnostic.h"
#include "clang/Frontend/FrontendPluginRegistry.h"
#include "clang/Frontend/LayoutOverrideSource.h"
#include "clang/Frontend/MultiplexConsumer.h"
#include "clang/Frontend/Utils.h"
#include "clang/Lex/HeaderSearch.h"
#include "clang/Lex/LiteralSupport.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Lex/PreprocessorOptions.h"
#include "clang/Parse/ParseAST.h"
#include "clang/Serialization/ASTDeserializationListener.h"
#include "clang/Serialization/ASTReader.h"
#include "clang/Serialization/GlobalModuleIndex.h"
#include "llvm/Support/BuryPointer.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/Timer.h"
#include "llvm/Support/raw_ostream.h"
#include <system_error>
using namespace clang;
LLVM_INSTANTIATE_REGISTRY(FrontendPluginRegistry)
namespace {
class DelegatingDeserializationListener : public ASTDeserializationListener {
ASTDeserializationListener *Previous;
bool DeletePrevious;
public:
explicit DelegatingDeserializationListener(
ASTDeserializationListener *Previous, bool DeletePrevious)
: Previous(Previous), DeletePrevious(DeletePrevious) {}
~DelegatingDeserializationListener() override {
if (DeletePrevious)
delete Previous;
}
void ReaderInitialized(ASTReader *Reader) override {
if (Previous)
Previous->ReaderInitialized(Reader);
}
void IdentifierRead(serialization::IdentID ID,
IdentifierInfo *II) override {
if (Previous)
Previous->IdentifierRead(ID, II);
}
void TypeRead(serialization::TypeIdx Idx, QualType T) override {
if (Previous)
Previous->TypeRead(Idx, T);
}
void DeclRead(serialization::DeclID ID, const Decl *D) override {
if (Previous)
Previous->DeclRead(ID, D);
}
void SelectorRead(serialization::SelectorID ID, Selector Sel) override {
if (Previous)
Previous->SelectorRead(ID, Sel);
}
void MacroDefinitionRead(serialization::PreprocessedEntityID PPID,
MacroDefinitionRecord *MD) override {
if (Previous)
Previous->MacroDefinitionRead(PPID, MD);
}
};
/// Dumps deserialized declarations.
class DeserializedDeclsDumper : public DelegatingDeserializationListener {
public:
explicit DeserializedDeclsDumper(ASTDeserializationListener *Previous,
bool DeletePrevious)
: DelegatingDeserializationListener(Previous, DeletePrevious) {}
void DeclRead(serialization::DeclID ID, const Decl *D) override {
llvm::outs() << "PCH DECL: " << D->getDeclKindName();
if (const NamedDecl *ND = dyn_cast<NamedDecl>(D)) {
llvm::outs() << " - ";
ND->printQualifiedName(llvm::outs());
}
llvm::outs() << "\n";
DelegatingDeserializationListener::DeclRead(ID, D);
}
};
/// Checks deserialized declarations and emits error if a name
/// matches one given in command-line using -error-on-deserialized-decl.
class DeserializedDeclsChecker : public DelegatingDeserializationListener {
ASTContext &Ctx;
std::set<std::string> NamesToCheck;
public:
DeserializedDeclsChecker(ASTContext &Ctx,
const std::set<std::string> &NamesToCheck,
ASTDeserializationListener *Previous,
bool DeletePrevious)
: DelegatingDeserializationListener(Previous, DeletePrevious), Ctx(Ctx),
NamesToCheck(NamesToCheck) {}
void DeclRead(serialization::DeclID ID, const Decl *D) override {
if (const NamedDecl *ND = dyn_cast<NamedDecl>(D))
if (NamesToCheck.find(ND->getNameAsString()) != NamesToCheck.end()) {
unsigned DiagID
= Ctx.getDiagnostics().getCustomDiagID(DiagnosticsEngine::Error,
"%0 was deserialized");
Ctx.getDiagnostics().Report(Ctx.getFullLoc(D->getLocation()), DiagID)
<< ND->getNameAsString();
}
DelegatingDeserializationListener::DeclRead(ID, D);
}
};
} // end anonymous namespace
FrontendAction::FrontendAction() : Instance(nullptr) {}
FrontendAction::~FrontendAction() {}
void FrontendAction::setCurrentInput(const FrontendInputFile &CurrentInput,
std::unique_ptr<ASTUnit> AST) {
this->CurrentInput = CurrentInput;
CurrentASTUnit = std::move(AST);
}
Module *FrontendAction::getCurrentModule() const {
CompilerInstance &CI = getCompilerInstance();
return CI.getPreprocessor().getHeaderSearchInfo().lookupModule(
CI.getLangOpts().CurrentModule, /*AllowSearch*/false);
}
std::unique_ptr<ASTConsumer>
FrontendAction::CreateWrappedASTConsumer(CompilerInstance &CI,
StringRef InFile) {
std::unique_ptr<ASTConsumer> Consumer = CreateASTConsumer(CI, InFile);
if (!Consumer)
return nullptr;
// Validate -add-plugin args.
bool FoundAllPlugins = true;
for (const std::string &Arg : CI.getFrontendOpts().AddPluginActions) {
bool Found = false;
for (FrontendPluginRegistry::iterator it = FrontendPluginRegistry::begin(),
ie = FrontendPluginRegistry::end();
it != ie; ++it) {
if (it->getName() == Arg)
Found = true;
}
if (!Found) {
CI.getDiagnostics().Report(diag::err_fe_invalid_plugin_name) << Arg;
FoundAllPlugins = false;
}
}
if (!FoundAllPlugins)
return nullptr;
// If there are no registered plugins we don't need to wrap the consumer
if (FrontendPluginRegistry::begin() == FrontendPluginRegistry::end())
return Consumer;
// If this is a code completion run, avoid invoking the plugin consumers
if (CI.hasCodeCompletionConsumer())
return Consumer;
// Collect the list of plugins that go before the main action (in Consumers)
// or after it (in AfterConsumers)
std::vector<std::unique_ptr<ASTConsumer>> Consumers;
std::vector<std::unique_ptr<ASTConsumer>> AfterConsumers;
for (FrontendPluginRegistry::iterator it = FrontendPluginRegistry::begin(),
ie = FrontendPluginRegistry::end();
it != ie; ++it) {
std::unique_ptr<PluginASTAction> P = it->instantiate();
PluginASTAction::ActionType ActionType = P->getActionType();
if (ActionType == PluginASTAction::Cmdline) {
// This is O(|plugins| * |add_plugins|), but since both numbers are
// way below 50 in practice, that's ok.
for (size_t i = 0, e = CI.getFrontendOpts().AddPluginActions.size();
i != e; ++i) {
if (it->getName() == CI.getFrontendOpts().AddPluginActions[i]) {
ActionType = PluginASTAction::AddAfterMainAction;
break;
}
}
}
if ((ActionType == PluginASTAction::AddBeforeMainAction ||
ActionType == PluginASTAction::AddAfterMainAction) &&
P->ParseArgs(CI, CI.getFrontendOpts().PluginArgs[it->getName()])) {
std::unique_ptr<ASTConsumer> PluginConsumer = P->CreateASTConsumer(CI, InFile);
if (ActionType == PluginASTAction::AddBeforeMainAction) {
Consumers.push_back(std::move(PluginConsumer));
} else {
AfterConsumers.push_back(std::move(PluginConsumer));
}
}
}
// Add to Consumers the main consumer, then all the plugins that go after it
Consumers.push_back(std::move(Consumer));
for (auto &C : AfterConsumers) {
Consumers.push_back(std::move(C));
}
return std::make_unique<MultiplexConsumer>(std::move(Consumers));
}
/// For preprocessed files, if the first line is the linemarker and specifies
/// the original source file name, use that name as the input file name.
/// Returns the location of the first token after the line marker directive.
///
/// \param CI The compiler instance.
/// \param InputFile Populated with the filename from the line marker.
/// \param IsModuleMap If \c true, add a line note corresponding to this line
/// directive. (We need to do this because the directive will not be
/// visited by the preprocessor.)
static SourceLocation ReadOriginalFileName(CompilerInstance &CI,
std::string &InputFile,
bool IsModuleMap = false) {
auto &SourceMgr = CI.getSourceManager();
auto MainFileID = SourceMgr.getMainFileID();
bool Invalid = false;
const auto *MainFileBuf = SourceMgr.getBuffer(MainFileID, &Invalid);
if (Invalid)
return SourceLocation();
std::unique_ptr<Lexer> RawLexer(
new Lexer(MainFileID, MainFileBuf, SourceMgr, CI.getLangOpts()));
// If the first line has the syntax of
//
// # NUM "FILENAME"
//
// we use FILENAME as the input file name.
Token T;
if (RawLexer->LexFromRawLexer(T) || T.getKind() != tok::hash)
return SourceLocation();
if (RawLexer->LexFromRawLexer(T) || T.isAtStartOfLine() ||
T.getKind() != tok::numeric_constant)
return SourceLocation();
unsigned LineNo;
SourceLocation LineNoLoc = T.getLocation();
if (IsModuleMap) {
llvm::SmallString<16> Buffer;
if (Lexer::getSpelling(LineNoLoc, Buffer, SourceMgr, CI.getLangOpts())
.getAsInteger(10, LineNo))
return SourceLocation();
}
RawLexer->LexFromRawLexer(T);
if (T.isAtStartOfLine() || T.getKind() != tok::string_literal)
return SourceLocation();
StringLiteralParser Literal(T, CI.getPreprocessor());
if (Literal.hadError)
return SourceLocation();
RawLexer->LexFromRawLexer(T);
if (T.isNot(tok::eof) && !T.isAtStartOfLine())
return SourceLocation();
InputFile = Literal.GetString().str();
if (IsModuleMap)
CI.getSourceManager().AddLineNote(
LineNoLoc, LineNo, SourceMgr.getLineTableFilenameID(InputFile), false,
false, SrcMgr::C_User_ModuleMap);
return T.getLocation();
}
static SmallVectorImpl<char> &
operator+=(SmallVectorImpl<char> &Includes, StringRef RHS) {
Includes.append(RHS.begin(), RHS.end());
return Includes;
}
static void addHeaderInclude(StringRef HeaderName,
SmallVectorImpl<char> &Includes,
const LangOptions &LangOpts,
bool IsExternC) {
if (IsExternC && LangOpts.CPlusPlus)
Includes += "extern \"C\" {\n";
if (LangOpts.ObjC)
Includes += "#import \"";
else
Includes += "#include \"";
Includes += HeaderName;
Includes += "\"\n";
if (IsExternC && LangOpts.CPlusPlus)
Includes += "}\n";
}
/// Collect the set of header includes needed to construct the given
/// module and update the TopHeaders file set of the module.
///
/// \param Module The module we're collecting includes from.
///
/// \param Includes Will be augmented with the set of \#includes or \#imports
/// needed to load all of the named headers.
static std::error_code collectModuleHeaderIncludes(
const LangOptions &LangOpts, FileManager &FileMgr, DiagnosticsEngine &Diag,
ModuleMap &ModMap, clang::Module *Module, SmallVectorImpl<char> &Includes) {
// Don't collect any headers for unavailable modules.
if (!Module->isAvailable())
return std::error_code();
// Resolve all lazy header directives to header files.
ModMap.resolveHeaderDirectives(Module);
// If any headers are missing, we can't build this module. In most cases,
// diagnostics for this should have already been produced; we only get here
// if explicit stat information was provided.
// FIXME: If the name resolves to a file with different stat information,
// produce a better diagnostic.
if (!Module->MissingHeaders.empty()) {
auto &MissingHeader = Module->MissingHeaders.front();
Diag.Report(MissingHeader.FileNameLoc, diag::err_module_header_missing)
<< MissingHeader.IsUmbrella << MissingHeader.FileName;
return std::error_code();
}
// Add includes for each of these headers.
for (auto HK : {Module::HK_Normal, Module::HK_Private}) {
for (Module::Header &H : Module->Headers[HK]) {
Module->addTopHeader(H.Entry);
// Use the path as specified in the module map file. We'll look for this
// file relative to the module build directory (the directory containing
// the module map file) so this will find the same file that we found
// while parsing the module map.
addHeaderInclude(H.NameAsWritten, Includes, LangOpts, Module->IsExternC);
}
}
// Note that Module->PrivateHeaders will not be a TopHeader.
if (Module::Header UmbrellaHeader = Module->getUmbrellaHeader()) {
Module->addTopHeader(UmbrellaHeader.Entry);
if (Module->Parent)
// Include the umbrella header for submodules.
addHeaderInclude(UmbrellaHeader.NameAsWritten, Includes, LangOpts,
Module->IsExternC);
} else if (Module::DirectoryName UmbrellaDir = Module->getUmbrellaDir()) {
// Add all of the headers we find in this subdirectory.
std::error_code EC;
SmallString<128> DirNative;
llvm::sys::path::native(UmbrellaDir.Entry->getName(), DirNative);
llvm::vfs::FileSystem &FS = FileMgr.getVirtualFileSystem();
for (llvm::vfs::recursive_directory_iterator Dir(FS, DirNative, EC), End;
Dir != End && !EC; Dir.increment(EC)) {
// Check whether this entry has an extension typically associated with
// headers.
if (!llvm::StringSwitch<bool>(llvm::sys::path::extension(Dir->path()))
.Cases(".h", ".H", ".hh", ".hpp", true)
.Default(false))
continue;
auto Header = FileMgr.getFile(Dir->path());
// FIXME: This shouldn't happen unless there is a file system race. Is
// that worth diagnosing?
if (!Header)
continue;
// If this header is marked 'unavailable' in this module, don't include
// it.
if (ModMap.isHeaderUnavailableInModule(*Header, Module))
continue;
// Compute the relative path from the directory to this file.
SmallVector<StringRef, 16> Components;
auto PathIt = llvm::sys::path::rbegin(Dir->path());
for (int I = 0; I != Dir.level() + 1; ++I, ++PathIt)
Components.push_back(*PathIt);
SmallString<128> RelativeHeader(UmbrellaDir.NameAsWritten);
for (auto It = Components.rbegin(), End = Components.rend(); It != End;
++It)
llvm::sys::path::append(RelativeHeader, *It);
// Include this header as part of the umbrella directory.
Module->addTopHeader(*Header);
addHeaderInclude(RelativeHeader, Includes, LangOpts, Module->IsExternC);
}
if (EC)
return EC;
}
// Recurse into submodules.
for (clang::Module::submodule_iterator Sub = Module->submodule_begin(),
SubEnd = Module->submodule_end();
Sub != SubEnd; ++Sub)
if (std::error_code Err = collectModuleHeaderIncludes(
LangOpts, FileMgr, Diag, ModMap, *Sub, Includes))
return Err;
return std::error_code();
}
static bool loadModuleMapForModuleBuild(CompilerInstance &CI, bool IsSystem,
bool IsPreprocessed,
std::string &PresumedModuleMapFile,
unsigned &Offset) {
auto &SrcMgr = CI.getSourceManager();
HeaderSearch &HS = CI.getPreprocessor().getHeaderSearchInfo();
// Map the current input to a file.
FileID ModuleMapID = SrcMgr.getMainFileID();
const FileEntry *ModuleMap = SrcMgr.getFileEntryForID(ModuleMapID);
// If the module map is preprocessed, handle the initial line marker;
// line directives are not part of the module map syntax in general.
Offset = 0;
if (IsPreprocessed) {
SourceLocation EndOfLineMarker =
ReadOriginalFileName(CI, PresumedModuleMapFile, /*IsModuleMap*/ true);
if (EndOfLineMarker.isValid())
Offset = CI.getSourceManager().getDecomposedLoc(EndOfLineMarker).second;
}
// Load the module map file.
if (HS.loadModuleMapFile(ModuleMap, IsSystem, ModuleMapID, &Offset,
PresumedModuleMapFile))
return true;
if (SrcMgr.getBuffer(ModuleMapID)->getBufferSize() == Offset)
Offset = 0;
return false;
}
static Module *prepareToBuildModule(CompilerInstance &CI,
StringRef ModuleMapFilename) {
if (CI.getLangOpts().CurrentModule.empty()) {
CI.getDiagnostics().Report(diag::err_missing_module_name);
// FIXME: Eventually, we could consider asking whether there was just
// a single module described in the module map, and use that as a
// default. Then it would be fairly trivial to just "compile" a module
// map with a single module (the common case).
return nullptr;
}
// Dig out the module definition.
HeaderSearch &HS = CI.getPreprocessor().getHeaderSearchInfo();
Module *M = HS.lookupModule(CI.getLangOpts().CurrentModule,
/*AllowSearch=*/false);
if (!M) {
CI.getDiagnostics().Report(diag::err_missing_module)
<< CI.getLangOpts().CurrentModule << ModuleMapFilename;
return nullptr;
}
// Check whether we can build this module at all.
if (Preprocessor::checkModuleIsAvailable(CI.getLangOpts(), CI.getTarget(),
CI.getDiagnostics(), M))
return nullptr;
// Inform the preprocessor that includes from within the input buffer should
// be resolved relative to the build directory of the module map file.
CI.getPreprocessor().setMainFileDir(M->Directory);
// If the module was inferred from a different module map (via an expanded
// umbrella module definition), track that fact.
// FIXME: It would be preferable to fill this in as part of processing
// the module map, rather than adding it after the fact.
StringRef OriginalModuleMapName = CI.getFrontendOpts().OriginalModuleMap;
if (!OriginalModuleMapName.empty()) {
auto OriginalModuleMap =
CI.getFileManager().getFile(OriginalModuleMapName,
/*openFile*/ true);
if (!OriginalModuleMap) {
CI.getDiagnostics().Report(diag::err_module_map_not_found)
<< OriginalModuleMapName;
return nullptr;
}
if (*OriginalModuleMap != CI.getSourceManager().getFileEntryForID(
CI.getSourceManager().getMainFileID())) {
M->IsInferred = true;
CI.getPreprocessor().getHeaderSearchInfo().getModuleMap()
.setInferredModuleAllowedBy(M, *OriginalModuleMap);
}
}
// If we're being run from the command-line, the module build stack will not
// have been filled in yet, so complete it now in order to allow us to detect
// module cycles.
SourceManager &SourceMgr = CI.getSourceManager();
if (SourceMgr.getModuleBuildStack().empty())
SourceMgr.pushModuleBuildStack(CI.getLangOpts().CurrentModule,
FullSourceLoc(SourceLocation(), SourceMgr));
return M;
}
/// Compute the input buffer that should be used to build the specified module.
static std::unique_ptr<llvm::MemoryBuffer>
getInputBufferForModule(CompilerInstance &CI, Module *M) {
FileManager &FileMgr = CI.getFileManager();
// Collect the set of #includes we need to build the module.
SmallString<256> HeaderContents;
std::error_code Err = std::error_code();
if (Module::Header UmbrellaHeader = M->getUmbrellaHeader())
addHeaderInclude(UmbrellaHeader.NameAsWritten, HeaderContents,
CI.getLangOpts(), M->IsExternC);
Err = collectModuleHeaderIncludes(
CI.getLangOpts(), FileMgr, CI.getDiagnostics(),
CI.getPreprocessor().getHeaderSearchInfo().getModuleMap(), M,
HeaderContents);
if (Err) {
CI.getDiagnostics().Report(diag::err_module_cannot_create_includes)
<< M->getFullModuleName() << Err.message();
return nullptr;
}
return llvm::MemoryBuffer::getMemBufferCopy(
HeaderContents, Module::getModuleInputBufferName());
}
bool FrontendAction::BeginSourceFile(CompilerInstance &CI,
const FrontendInputFile &RealInput) {
FrontendInputFile Input(RealInput);
assert(!Instance && "Already processing a source file!");
assert(!Input.isEmpty() && "Unexpected empty filename!");
setCurrentInput(Input);
setCompilerInstance(&CI);
bool HasBegunSourceFile = false;
bool ReplayASTFile = Input.getKind().getFormat() == InputKind::Precompiled &&
usesPreprocessorOnly();
if (!BeginInvocation(CI))
goto failure;
// If we're replaying the build of an AST file, import it and set up
// the initial state from its build.
if (ReplayASTFile) {
IntrusiveRefCntPtr<DiagnosticsEngine> Diags(&CI.getDiagnostics());
// The AST unit populates its own diagnostics engine rather than ours.
IntrusiveRefCntPtr<DiagnosticsEngine> ASTDiags(
new DiagnosticsEngine(Diags->getDiagnosticIDs(),
&Diags->getDiagnosticOptions()));
ASTDiags->setClient(Diags->getClient(), /*OwnsClient*/false);
// FIXME: What if the input is a memory buffer?
StringRef InputFile = Input.getFile();
std::unique_ptr<ASTUnit> AST = ASTUnit::LoadFromASTFile(
InputFile, CI.getPCHContainerReader(), ASTUnit::LoadPreprocessorOnly,
ASTDiags, CI.getFileSystemOpts(), CI.getCodeGenOpts().DebugTypeExtRefs);
if (!AST)
goto failure;
// Options relating to how we treat the input (but not what we do with it)
// are inherited from the AST unit.
CI.getHeaderSearchOpts() = AST->getHeaderSearchOpts();
CI.getPreprocessorOpts() = AST->getPreprocessorOpts();
CI.getLangOpts() = AST->getLangOpts();
// Set the shared objects, these are reset when we finish processing the
// file, otherwise the CompilerInstance will happily destroy them.
CI.setFileManager(&AST->getFileManager());
CI.createSourceManager(CI.getFileManager());
CI.getSourceManager().initializeForReplay(AST->getSourceManager());
// Preload all the module files loaded transitively by the AST unit. Also
// load all module map files that were parsed as part of building the AST
// unit.
if (auto ASTReader = AST->getASTReader()) {
auto &MM = ASTReader->getModuleManager();
auto &PrimaryModule = MM.getPrimaryModule();
for (serialization::ModuleFile &MF : MM)
if (&MF != &PrimaryModule)
CI.getFrontendOpts().ModuleFiles.push_back(MF.FileName);
ASTReader->visitTopLevelModuleMaps(PrimaryModule,
[&](const FileEntry *FE) {
CI.getFrontendOpts().ModuleMapFiles.push_back(FE->getName());
});
}
// Set up the input file for replay purposes.
auto Kind = AST->getInputKind();
if (Kind.getFormat() == InputKind::ModuleMap) {
Module *ASTModule =
AST->getPreprocessor().getHeaderSearchInfo().lookupModule(
AST->getLangOpts().CurrentModule, /*AllowSearch*/ false);
assert(ASTModule && "module file does not define its own module");
Input = FrontendInputFile(ASTModule->PresumedModuleMapFile, Kind);
} else {
auto &OldSM = AST->getSourceManager();
FileID ID = OldSM.getMainFileID();
if (auto *File = OldSM.getFileEntryForID(ID))
Input = FrontendInputFile(File->getName(), Kind);
else
Input = FrontendInputFile(OldSM.getBuffer(ID), Kind);
}
setCurrentInput(Input, std::move(AST));
}
// AST files follow a very different path, since they share objects via the
// AST unit.
if (Input.getKind().getFormat() == InputKind::Precompiled) {
assert(!usesPreprocessorOnly() && "this case was handled above");
assert(hasASTFileSupport() &&
"This action does not have AST file support!");
IntrusiveRefCntPtr<DiagnosticsEngine> Diags(&CI.getDiagnostics());
// FIXME: What if the input is a memory buffer?
StringRef InputFile = Input.getFile();
std::unique_ptr<ASTUnit> AST = ASTUnit::LoadFromASTFile(
InputFile, CI.getPCHContainerReader(), ASTUnit::LoadEverything, Diags,
CI.getFileSystemOpts(), CI.getCodeGenOpts().DebugTypeExtRefs);
if (!AST)
goto failure;
// Inform the diagnostic client we are processing a source file.
CI.getDiagnosticClient().BeginSourceFile(CI.getLangOpts(), nullptr);
HasBegunSourceFile = true;
// Set the shared objects, these are reset when we finish processing the
// file, otherwise the CompilerInstance will happily destroy them.
CI.setFileManager(&AST->getFileManager());
CI.setSourceManager(&AST->getSourceManager());
CI.setPreprocessor(AST->getPreprocessorPtr());
Preprocessor &PP = CI.getPreprocessor();
PP.getBuiltinInfo().initializeBuiltins(PP.getIdentifierTable(),
PP.getLangOpts());
CI.setASTContext(&AST->getASTContext());
setCurrentInput(Input, std::move(AST));
// Initialize the action.
if (!BeginSourceFileAction(CI))
goto failure;
// Create the AST consumer.
CI.setASTConsumer(CreateWrappedASTConsumer(CI, InputFile));
if (!CI.hasASTConsumer())
goto failure;
return true;
}
// Set up the file and source managers, if needed.
if (!CI.hasFileManager()) {
if (!CI.createFileManager()) {
goto failure;
}
}
if (!CI.hasSourceManager())
CI.createSourceManager(CI.getFileManager());
// Set up embedding for any specified files. Do this before we load any
// source files, including the primary module map for the compilation.
for (const auto &F : CI.getFrontendOpts().ModulesEmbedFiles) {
if (auto FE = CI.getFileManager().getFile(F, /*openFile*/true))
CI.getSourceManager().setFileIsTransient(*FE);
else
CI.getDiagnostics().Report(diag::err_modules_embed_file_not_found) << F;
}
if (CI.getFrontendOpts().ModulesEmbedAllFiles)
CI.getSourceManager().setAllFilesAreTransient(true);
// IR files bypass the rest of initialization.
if (Input.getKind().getLanguage() == Language::LLVM_IR) {
assert(hasIRSupport() &&
"This action does not have IR file support!");
// Inform the diagnostic client we are processing a source file.
CI.getDiagnosticClient().BeginSourceFile(CI.getLangOpts(), nullptr);
HasBegunSourceFile = true;
// Initialize the action.
if (!BeginSourceFileAction(CI))
goto failure;
// Initialize the main file entry.
if (!CI.InitializeSourceManager(CurrentInput))
goto failure;
return true;
}
// If the implicit PCH include is actually a directory, rather than
// a single file, search for a suitable PCH file in that directory.
if (!CI.getPreprocessorOpts().ImplicitPCHInclude.empty()) {
FileManager &FileMgr = CI.getFileManager();
PreprocessorOptions &PPOpts = CI.getPreprocessorOpts();
StringRef PCHInclude = PPOpts.ImplicitPCHInclude;
std::string SpecificModuleCachePath = CI.getSpecificModuleCachePath();
if (auto PCHDir = FileMgr.getDirectory(PCHInclude)) {
std::error_code EC;
SmallString<128> DirNative;
llvm::sys::path::native((*PCHDir)->getName(), DirNative);
bool Found = false;
llvm::vfs::FileSystem &FS = FileMgr.getVirtualFileSystem();
for (llvm::vfs::directory_iterator Dir = FS.dir_begin(DirNative, EC),
DirEnd;
Dir != DirEnd && !EC; Dir.increment(EC)) {
// Check whether this is an acceptable AST file.
if (ASTReader::isAcceptableASTFile(
Dir->path(), FileMgr, CI.getPCHContainerReader(),
CI.getLangOpts(), CI.getTargetOpts(), CI.getPreprocessorOpts(),
SpecificModuleCachePath)) {
PPOpts.ImplicitPCHInclude = Dir->path();
Found = true;
break;
}
}
if (!Found) {
CI.getDiagnostics().Report(diag::err_fe_no_pch_in_dir) << PCHInclude;
goto failure;
}
}
}
// Set up the preprocessor if needed. When parsing model files the
// preprocessor of the original source is reused.
if (!isModelParsingAction())
CI.createPreprocessor(getTranslationUnitKind());
// Inform the diagnostic client we are processing a source file.
CI.getDiagnosticClient().BeginSourceFile(CI.getLangOpts(),
&CI.getPreprocessor());
HasBegunSourceFile = true;
// Initialize the main file entry.
if (!CI.InitializeSourceManager(Input))
goto failure;
// For module map files, we first parse the module map and synthesize a
// "<module-includes>" buffer before more conventional processing.
if (Input.getKind().getFormat() == InputKind::ModuleMap) {
CI.getLangOpts().setCompilingModule(LangOptions::CMK_ModuleMap);
std::string PresumedModuleMapFile;
unsigned OffsetToContents;
if (loadModuleMapForModuleBuild(CI, Input.isSystem(),
Input.isPreprocessed(),
PresumedModuleMapFile, OffsetToContents))
goto failure;
auto *CurrentModule = prepareToBuildModule(CI, Input.getFile());
if (!CurrentModule)
goto failure;
CurrentModule->PresumedModuleMapFile = PresumedModuleMapFile;
if (OffsetToContents)
// If the module contents are in the same file, skip to them.
CI.getPreprocessor().setSkipMainFilePreamble(OffsetToContents, true);
else {
// Otherwise, convert the module description to a suitable input buffer.
auto Buffer = getInputBufferForModule(CI, CurrentModule);
if (!Buffer)
goto failure;
// Reinitialize the main file entry to refer to the new input.
auto Kind = CurrentModule->IsSystem ? SrcMgr::C_System : SrcMgr::C_User;
auto &SourceMgr = CI.getSourceManager();
auto BufferID = SourceMgr.createFileID(std::move(Buffer), Kind);
assert(BufferID.isValid() && "couldn't creaate module buffer ID");
SourceMgr.setMainFileID(BufferID);
}
}
// Initialize the action.
if (!BeginSourceFileAction(CI))
goto failure;
// If we were asked to load any module map files, do so now.
for (const auto &Filename : CI.getFrontendOpts().ModuleMapFiles) {
if (auto File = CI.getFileManager().getFile(Filename))
CI.getPreprocessor().getHeaderSearchInfo().loadModuleMapFile(
*File, /*IsSystem*/false);
else
CI.getDiagnostics().Report(diag::err_module_map_not_found) << Filename;
}
// Add a module declaration scope so that modules from -fmodule-map-file
// arguments may shadow modules found implicitly in search paths.
CI.getPreprocessor()
.getHeaderSearchInfo()
.getModuleMap()
.finishModuleDeclarationScope();
// Create the AST context and consumer unless this is a preprocessor only
// action.
if (!usesPreprocessorOnly()) {
// Parsing a model file should reuse the existing ASTContext.
if (!isModelParsingAction())
CI.createASTContext();
// For preprocessed files, check if the first line specifies the original
// source file name with a linemarker.
std::string PresumedInputFile = getCurrentFileOrBufferName();
if (Input.isPreprocessed())
ReadOriginalFileName(CI, PresumedInputFile);
std::unique_ptr<ASTConsumer> Consumer =
CreateWrappedASTConsumer(CI, PresumedInputFile);
if (!Consumer)
goto failure;
// FIXME: should not overwrite ASTMutationListener when parsing model files?
if (!isModelParsingAction())
CI.getASTContext().setASTMutationListener(Consumer->GetASTMutationListener());
if (!CI.getPreprocessorOpts().ChainedIncludes.empty()) {
// Convert headers to PCH and chain them.
IntrusiveRefCntPtr<ExternalSemaSource> source, FinalReader;
source = createChainedIncludesSource(CI, FinalReader);
if (!source)
goto failure;
CI.setModuleManager(static_cast<ASTReader *>(FinalReader.get()));
CI.getASTContext().setExternalSource(source);
} else if (CI.getLangOpts().Modules ||
!CI.getPreprocessorOpts().ImplicitPCHInclude.empty()) {
// Use PCM or PCH.
assert(hasPCHSupport() && "This action does not have PCH support!");
ASTDeserializationListener *DeserialListener =
Consumer->GetASTDeserializationListener();
bool DeleteDeserialListener = false;
if (CI.getPreprocessorOpts().DumpDeserializedPCHDecls) {
DeserialListener = new DeserializedDeclsDumper(DeserialListener,
DeleteDeserialListener);
DeleteDeserialListener = true;
}
if (!CI.getPreprocessorOpts().DeserializedPCHDeclsToErrorOn.empty()) {
DeserialListener = new DeserializedDeclsChecker(
CI.getASTContext(),
CI.getPreprocessorOpts().DeserializedPCHDeclsToErrorOn,
DeserialListener, DeleteDeserialListener);
DeleteDeserialListener = true;
}
if (!CI.getPreprocessorOpts().ImplicitPCHInclude.empty()) {
CI.createPCHExternalASTSource(
CI.getPreprocessorOpts().ImplicitPCHInclude,
CI.getPreprocessorOpts().DisablePCHValidation,
CI.getPreprocessorOpts().AllowPCHWithCompilerErrors, DeserialListener,
DeleteDeserialListener);
if (!CI.getASTContext().getExternalSource())
goto failure;
}
// If modules are enabled, create the module manager before creating
// any builtins, so that all declarations know that they might be
// extended by an external source.
if (CI.getLangOpts().Modules || !CI.hasASTContext() ||
!CI.getASTContext().getExternalSource()) {
CI.createASTReader();
CI.getASTReader()->setDeserializationListener(DeserialListener,
DeleteDeserialListener);
}
}
CI.setASTConsumer(std::move(Consumer));
if (!CI.hasASTConsumer())
goto failure;
}
// Initialize built-in info as long as we aren't using an external AST
// source.
if (CI.getLangOpts().Modules || !CI.hasASTContext() ||
!CI.getASTContext().getExternalSource()) {
Preprocessor &PP = CI.getPreprocessor();
PP.getBuiltinInfo().initializeBuiltins(PP.getIdentifierTable(),
PP.getLangOpts());
} else {
// FIXME: If this is a problem, recover from it by creating a multiplex
// source.
assert((!CI.getLangOpts().Modules || CI.getASTReader()) &&
"modules enabled but created an external source that "
"doesn't support modules");
}
// If we were asked to load any module files, do so now.
for (const auto &ModuleFile : CI.getFrontendOpts().ModuleFiles)
if (!CI.loadModuleFile(ModuleFile))
goto failure;
// If there is a layout overrides file, attach an external AST source that
// provides the layouts from that file.
if (!CI.getFrontendOpts().OverrideRecordLayoutsFile.empty() &&
CI.hasASTContext() && !CI.getASTContext().getExternalSource()) {
IntrusiveRefCntPtr<ExternalASTSource>
Override(new LayoutOverrideSource(
CI.getFrontendOpts().OverrideRecordLayoutsFile));
CI.getASTContext().setExternalSource(Override);
}
return true;
// If we failed, reset state since the client will not end up calling the
// matching EndSourceFile().
failure:
if (HasBegunSourceFile)
CI.getDiagnosticClient().EndSourceFile();
CI.clearOutputFiles(/*EraseFiles=*/true);
CI.getLangOpts().setCompilingModule(LangOptions::CMK_None);
setCurrentInput(FrontendInputFile());
setCompilerInstance(nullptr);
return false;
}
llvm::Error FrontendAction::Execute() {
CompilerInstance &CI = getCompilerInstance();
if (CI.hasFrontendTimer()) {
llvm::TimeRegion Timer(CI.getFrontendTimer());
ExecuteAction();
}
else ExecuteAction();
// If we are supposed to rebuild the global module index, do so now unless
// there were any module-build failures.
if (CI.shouldBuildGlobalModuleIndex() && CI.hasFileManager() &&
CI.hasPreprocessor()) {
StringRef Cache =
CI.getPreprocessor().getHeaderSearchInfo().getModuleCachePath();
if (!Cache.empty()) {
if (llvm::Error Err = GlobalModuleIndex::writeIndex(
CI.getFileManager(), CI.getPCHContainerReader(), Cache)) {
// FIXME this drops the error on the floor, but
// Index/pch-from-libclang.c seems to rely on dropping at least some of
// the error conditions!
consumeError(std::move(Err));
}
}
}
return llvm::Error::success();
}
void FrontendAction::EndSourceFile() {
CompilerInstance &CI = getCompilerInstance();
// Inform the diagnostic client we are done with this source file.
CI.getDiagnosticClient().EndSourceFile();
// Inform the preprocessor we are done.
if (CI.hasPreprocessor())
CI.getPreprocessor().EndSourceFile();
// Finalize the action.
EndSourceFileAction();
// Sema references the ast consumer, so reset sema first.
//
// FIXME: There is more per-file stuff we could just drop here?
bool DisableFree = CI.getFrontendOpts().DisableFree;
if (DisableFree) {
CI.resetAndLeakSema();
CI.resetAndLeakASTContext();
llvm::BuryPointer(CI.takeASTConsumer().get());
} else {
CI.setSema(nullptr);
CI.setASTContext(nullptr);
CI.setASTConsumer(nullptr);
}
if (CI.getFrontendOpts().ShowStats) {
llvm::errs() << "\nSTATISTICS FOR '" << getCurrentFile() << "':\n";
CI.getPreprocessor().PrintStats();
CI.getPreprocessor().getIdentifierTable().PrintStats();
CI.getPreprocessor().getHeaderSearchInfo().PrintStats();
CI.getSourceManager().PrintStats();
llvm::errs() << "\n";
}
// Cleanup the output streams, and erase the output files if instructed by the
// FrontendAction.
CI.clearOutputFiles(/*EraseFiles=*/shouldEraseOutputFiles());
if (isCurrentFileAST()) {
if (DisableFree) {
CI.resetAndLeakPreprocessor();
CI.resetAndLeakSourceManager();
CI.resetAndLeakFileManager();
llvm::BuryPointer(std::move(CurrentASTUnit));
} else {
CI.setPreprocessor(nullptr);
CI.setSourceManager(nullptr);
CI.setFileManager(nullptr);
}
}
setCompilerInstance(nullptr);
setCurrentInput(FrontendInputFile());
CI.getLangOpts().setCompilingModule(LangOptions::CMK_None);
}
bool FrontendAction::shouldEraseOutputFiles() {
return getCompilerInstance().getDiagnostics().hasErrorOccurred();
}
//===----------------------------------------------------------------------===//
// Utility Actions
//===----------------------------------------------------------------------===//
void ASTFrontendAction::ExecuteAction() {
CompilerInstance &CI = getCompilerInstance();
if (!CI.hasPreprocessor())
return;
// FIXME: Move the truncation aspect of this into Sema, we delayed this till
// here so the source manager would be initialized.
if (hasCodeCompletionSupport() &&
!CI.getFrontendOpts().CodeCompletionAt.FileName.empty())
CI.createCodeCompletionConsumer();
// Use a code completion consumer?
CodeCompleteConsumer *CompletionConsumer = nullptr;
if (CI.hasCodeCompletionConsumer())
CompletionConsumer = &CI.getCodeCompletionConsumer();
if (!CI.hasSema())
CI.createSema(getTranslationUnitKind(), CompletionConsumer);
ParseAST(CI.getSema(), CI.getFrontendOpts().ShowStats,
CI.getFrontendOpts().SkipFunctionBodies);
}
void PluginASTAction::anchor() { }
std::unique_ptr<ASTConsumer>
PreprocessorFrontendAction::CreateASTConsumer(CompilerInstance &CI,
StringRef InFile) {
llvm_unreachable("Invalid CreateASTConsumer on preprocessor action!");
}
bool WrapperFrontendAction::PrepareToExecuteAction(CompilerInstance &CI) {
return WrappedAction->PrepareToExecuteAction(CI);
}
std::unique_ptr<ASTConsumer>
WrapperFrontendAction::CreateASTConsumer(CompilerInstance &CI,
StringRef InFile) {
return WrappedAction->CreateASTConsumer(CI, InFile);
}
bool WrapperFrontendAction::BeginInvocation(CompilerInstance &CI) {
return WrappedAction->BeginInvocation(CI);
}
bool WrapperFrontendAction::BeginSourceFileAction(CompilerInstance &CI) {
WrappedAction->setCurrentInput(getCurrentInput());
WrappedAction->setCompilerInstance(&CI);
auto Ret = WrappedAction->BeginSourceFileAction(CI);
// BeginSourceFileAction may change CurrentInput, e.g. during module builds.
setCurrentInput(WrappedAction->getCurrentInput());
return Ret;
}
void WrapperFrontendAction::ExecuteAction() {
WrappedAction->ExecuteAction();
}
void WrapperFrontendAction::EndSourceFileAction() {
WrappedAction->EndSourceFileAction();
}
bool WrapperFrontendAction::usesPreprocessorOnly() const {
return WrappedAction->usesPreprocessorOnly();
}
TranslationUnitKind WrapperFrontendAction::getTranslationUnitKind() {
return WrappedAction->getTranslationUnitKind();
}
bool WrapperFrontendAction::hasPCHSupport() const {
return WrappedAction->hasPCHSupport();
}
bool WrapperFrontendAction::hasASTFileSupport() const {
return WrappedAction->hasASTFileSupport();
}
bool WrapperFrontendAction::hasIRSupport() const {
return WrappedAction->hasIRSupport();
}
bool WrapperFrontendAction::hasCodeCompletionSupport() const {
return WrappedAction->hasCodeCompletionSupport();
}
WrapperFrontendAction::WrapperFrontendAction(
std::unique_ptr<FrontendAction> WrappedAction)
: WrappedAction(std::move(WrappedAction)) {}