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|
//===--- ModuleMap.cpp - Describe the layout of modules ---------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the ModuleMap implementation, which describes the layout
// of a module as it relates to headers.
//
//===----------------------------------------------------------------------===//
#include "clang/Lex/ModuleMap.h"
#include "clang/Basic/CharInfo.h"
#include "clang/Basic/Diagnostic.h"
#include "clang/Basic/DiagnosticOptions.h"
#include "clang/Basic/FileManager.h"
#include "clang/Basic/TargetInfo.h"
#include "clang/Basic/TargetOptions.h"
#include "clang/Lex/HeaderSearch.h"
#include "clang/Lex/LexDiagnostic.h"
#include "clang/Lex/Lexer.h"
#include "clang/Lex/LiteralSupport.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Host.h"
#include "llvm/Support/PathV2.h"
#include "llvm/Support/raw_ostream.h"
#include <stdlib.h>
#if defined(LLVM_ON_UNIX)
#include <limits.h>
#endif
using namespace clang;
Module::ExportDecl
ModuleMap::resolveExport(Module *Mod,
const Module::UnresolvedExportDecl &Unresolved,
bool Complain) const {
// We may have just a wildcard.
if (Unresolved.Id.empty()) {
assert(Unresolved.Wildcard && "Invalid unresolved export");
return Module::ExportDecl(0, true);
}
// Resolve the module-id.
Module *Context = resolveModuleId(Unresolved.Id, Mod, Complain);
if (!Context)
return Module::ExportDecl();
return Module::ExportDecl(Context, Unresolved.Wildcard);
}
Module *ModuleMap::resolveModuleId(const ModuleId &Id, Module *Mod,
bool Complain) const {
// Find the starting module.
Module *Context = lookupModuleUnqualified(Id[0].first, Mod);
if (!Context) {
if (Complain)
Diags->Report(Id[0].second, diag::err_mmap_missing_module_unqualified)
<< Id[0].first << Mod->getFullModuleName();
return 0;
}
// Dig into the module path.
for (unsigned I = 1, N = Id.size(); I != N; ++I) {
Module *Sub = lookupModuleQualified(Id[I].first, Context);
if (!Sub) {
if (Complain)
Diags->Report(Id[I].second, diag::err_mmap_missing_module_qualified)
<< Id[I].first << Context->getFullModuleName()
<< SourceRange(Id[0].second, Id[I-1].second);
return 0;
}
Context = Sub;
}
return Context;
}
ModuleMap::ModuleMap(FileManager &FileMgr, const DiagnosticConsumer &DC,
const LangOptions &LangOpts, const TargetInfo *Target,
HeaderSearch &HeaderInfo)
: LangOpts(LangOpts), Target(Target), HeaderInfo(HeaderInfo),
BuiltinIncludeDir(0)
{
IntrusiveRefCntPtr<DiagnosticIDs> DiagIDs(new DiagnosticIDs);
Diags = IntrusiveRefCntPtr<DiagnosticsEngine>(
new DiagnosticsEngine(DiagIDs, new DiagnosticOptions));
Diags->setClient(DC.clone(*Diags), /*ShouldOwnClient=*/true);
SourceMgr = new SourceManager(*Diags, FileMgr);
}
ModuleMap::~ModuleMap() {
for (llvm::StringMap<Module *>::iterator I = Modules.begin(),
IEnd = Modules.end();
I != IEnd; ++I) {
delete I->getValue();
}
delete SourceMgr;
}
void ModuleMap::setTarget(const TargetInfo &Target) {
assert((!this->Target || this->Target == &Target) &&
"Improper target override");
this->Target = &Target;
}
/// \brief "Sanitize" a filename so that it can be used as an identifier.
static StringRef sanitizeFilenameAsIdentifier(StringRef Name,
SmallVectorImpl<char> &Buffer) {
if (Name.empty())
return Name;
if (!isValidIdentifier(Name)) {
// If we don't already have something with the form of an identifier,
// create a buffer with the sanitized name.
Buffer.clear();
if (isDigit(Name[0]))
Buffer.push_back('_');
Buffer.reserve(Buffer.size() + Name.size());
for (unsigned I = 0, N = Name.size(); I != N; ++I) {
if (isIdentifierBody(Name[I]))
Buffer.push_back(Name[I]);
else
Buffer.push_back('_');
}
Name = StringRef(Buffer.data(), Buffer.size());
}
while (llvm::StringSwitch<bool>(Name)
#define KEYWORD(Keyword,Conditions) .Case(#Keyword, true)
#define ALIAS(Keyword, AliasOf, Conditions) .Case(Keyword, true)
#include "clang/Basic/TokenKinds.def"
.Default(false)) {
if (Name.data() != Buffer.data())
Buffer.append(Name.begin(), Name.end());
Buffer.push_back('_');
Name = StringRef(Buffer.data(), Buffer.size());
}
return Name;
}
Module *ModuleMap::findModuleForHeader(const FileEntry *File) {
HeadersMap::iterator Known = Headers.find(File);
if (Known != Headers.end()) {
// If a header is not available, don't report that it maps to anything.
if (!Known->second.isAvailable())
return 0;
return Known->second.getModule();
}
const DirectoryEntry *Dir = File->getDir();
SmallVector<const DirectoryEntry *, 2> SkippedDirs;
// Note: as an egregious but useful hack we use the real path here, because
// frameworks moving from top-level frameworks to embedded frameworks tend
// to be symlinked from the top-level location to the embedded location,
// and we need to resolve lookups as if we had found the embedded location.
StringRef DirName = SourceMgr->getFileManager().getCanonicalName(Dir);
// Keep walking up the directory hierarchy, looking for a directory with
// an umbrella header.
do {
llvm::DenseMap<const DirectoryEntry *, Module *>::iterator KnownDir
= UmbrellaDirs.find(Dir);
if (KnownDir != UmbrellaDirs.end()) {
Module *Result = KnownDir->second;
// Search up the module stack until we find a module with an umbrella
// directory.
Module *UmbrellaModule = Result;
while (!UmbrellaModule->getUmbrellaDir() && UmbrellaModule->Parent)
UmbrellaModule = UmbrellaModule->Parent;
if (UmbrellaModule->InferSubmodules) {
// Infer submodules for each of the directories we found between
// the directory of the umbrella header and the directory where
// the actual header is located.
bool Explicit = UmbrellaModule->InferExplicitSubmodules;
for (unsigned I = SkippedDirs.size(); I != 0; --I) {
// Find or create the module that corresponds to this directory name.
SmallString<32> NameBuf;
StringRef Name = sanitizeFilenameAsIdentifier(
llvm::sys::path::stem(SkippedDirs[I-1]->getName()),
NameBuf);
Result = findOrCreateModule(Name, Result, /*IsFramework=*/false,
Explicit).first;
// Associate the module and the directory.
UmbrellaDirs[SkippedDirs[I-1]] = Result;
// If inferred submodules export everything they import, add a
// wildcard to the set of exports.
if (UmbrellaModule->InferExportWildcard && Result->Exports.empty())
Result->Exports.push_back(Module::ExportDecl(0, true));
}
// Infer a submodule with the same name as this header file.
SmallString<32> NameBuf;
StringRef Name = sanitizeFilenameAsIdentifier(
llvm::sys::path::stem(File->getName()), NameBuf);
Result = findOrCreateModule(Name, Result, /*IsFramework=*/false,
Explicit).first;
Result->addTopHeader(File);
// If inferred submodules export everything they import, add a
// wildcard to the set of exports.
if (UmbrellaModule->InferExportWildcard && Result->Exports.empty())
Result->Exports.push_back(Module::ExportDecl(0, true));
} else {
// Record each of the directories we stepped through as being part of
// the module we found, since the umbrella header covers them all.
for (unsigned I = 0, N = SkippedDirs.size(); I != N; ++I)
UmbrellaDirs[SkippedDirs[I]] = Result;
}
Headers[File] = KnownHeader(Result, /*Excluded=*/false);
// If a header corresponds to an unavailable module, don't report
// that it maps to anything.
if (!Result->isAvailable())
return 0;
return Result;
}
SkippedDirs.push_back(Dir);
// Retrieve our parent path.
DirName = llvm::sys::path::parent_path(DirName);
if (DirName.empty())
break;
// Resolve the parent path to a directory entry.
Dir = SourceMgr->getFileManager().getDirectory(DirName);
} while (Dir);
return 0;
}
bool ModuleMap::isHeaderInUnavailableModule(const FileEntry *Header) const {
HeadersMap::const_iterator Known = Headers.find(Header);
if (Known != Headers.end())
return !Known->second.isAvailable();
const DirectoryEntry *Dir = Header->getDir();
SmallVector<const DirectoryEntry *, 2> SkippedDirs;
StringRef DirName = Dir->getName();
// Keep walking up the directory hierarchy, looking for a directory with
// an umbrella header.
do {
llvm::DenseMap<const DirectoryEntry *, Module *>::const_iterator KnownDir
= UmbrellaDirs.find(Dir);
if (KnownDir != UmbrellaDirs.end()) {
Module *Found = KnownDir->second;
if (!Found->isAvailable())
return true;
// Search up the module stack until we find a module with an umbrella
// directory.
Module *UmbrellaModule = Found;
while (!UmbrellaModule->getUmbrellaDir() && UmbrellaModule->Parent)
UmbrellaModule = UmbrellaModule->Parent;
if (UmbrellaModule->InferSubmodules) {
for (unsigned I = SkippedDirs.size(); I != 0; --I) {
// Find or create the module that corresponds to this directory name.
SmallString<32> NameBuf;
StringRef Name = sanitizeFilenameAsIdentifier(
llvm::sys::path::stem(SkippedDirs[I-1]->getName()),
NameBuf);
Found = lookupModuleQualified(Name, Found);
if (!Found)
return false;
if (!Found->isAvailable())
return true;
}
// Infer a submodule with the same name as this header file.
SmallString<32> NameBuf;
StringRef Name = sanitizeFilenameAsIdentifier(
llvm::sys::path::stem(Header->getName()),
NameBuf);
Found = lookupModuleQualified(Name, Found);
if (!Found)
return false;
}
return !Found->isAvailable();
}
SkippedDirs.push_back(Dir);
// Retrieve our parent path.
DirName = llvm::sys::path::parent_path(DirName);
if (DirName.empty())
break;
// Resolve the parent path to a directory entry.
Dir = SourceMgr->getFileManager().getDirectory(DirName);
} while (Dir);
return false;
}
Module *ModuleMap::findModule(StringRef Name) const {
llvm::StringMap<Module *>::const_iterator Known = Modules.find(Name);
if (Known != Modules.end())
return Known->getValue();
return 0;
}
Module *ModuleMap::lookupModuleUnqualified(StringRef Name,
Module *Context) const {
for(; Context; Context = Context->Parent) {
if (Module *Sub = lookupModuleQualified(Name, Context))
return Sub;
}
return findModule(Name);
}
Module *ModuleMap::lookupModuleQualified(StringRef Name, Module *Context) const{
if (!Context)
return findModule(Name);
return Context->findSubmodule(Name);
}
std::pair<Module *, bool>
ModuleMap::findOrCreateModule(StringRef Name, Module *Parent, bool IsFramework,
bool IsExplicit) {
// Try to find an existing module with this name.
if (Module *Sub = lookupModuleQualified(Name, Parent))
return std::make_pair(Sub, false);
// Create a new module with this name.
Module *Result = new Module(Name, SourceLocation(), Parent, IsFramework,
IsExplicit);
if (!Parent)
Modules[Name] = Result;
return std::make_pair(Result, true);
}
bool ModuleMap::canInferFrameworkModule(const DirectoryEntry *ParentDir,
StringRef Name, bool &IsSystem) const {
// Check whether we have already looked into the parent directory
// for a module map.
llvm::DenseMap<const DirectoryEntry *, InferredDirectory>::const_iterator
inferred = InferredDirectories.find(ParentDir);
if (inferred == InferredDirectories.end())
return false;
if (!inferred->second.InferModules)
return false;
// We're allowed to infer for this directory, but make sure it's okay
// to infer this particular module.
bool canInfer = std::find(inferred->second.ExcludedModules.begin(),
inferred->second.ExcludedModules.end(),
Name) == inferred->second.ExcludedModules.end();
if (canInfer && inferred->second.InferSystemModules)
IsSystem = true;
return canInfer;
}
/// \brief For a framework module, infer the framework against which we
/// should link.
static void inferFrameworkLink(Module *Mod, const DirectoryEntry *FrameworkDir,
FileManager &FileMgr) {
assert(Mod->IsFramework && "Can only infer linking for framework modules");
assert(!Mod->isSubFramework() &&
"Can only infer linking for top-level frameworks");
SmallString<128> LibName;
LibName += FrameworkDir->getName();
llvm::sys::path::append(LibName, Mod->Name);
if (FileMgr.getFile(LibName)) {
Mod->LinkLibraries.push_back(Module::LinkLibrary(Mod->Name,
/*IsFramework=*/true));
}
}
Module *
ModuleMap::inferFrameworkModule(StringRef ModuleName,
const DirectoryEntry *FrameworkDir,
bool IsSystem,
Module *Parent) {
// Check whether we've already found this module.
if (Module *Mod = lookupModuleQualified(ModuleName, Parent))
return Mod;
FileManager &FileMgr = SourceMgr->getFileManager();
// If the framework has a parent path from which we're allowed to infer
// a framework module, do so.
if (!Parent) {
// Determine whether we're allowed to infer a module map.
// Note: as an egregious but useful hack we use the real path here, because
// we might be looking at an embedded framework that symlinks out to a
// top-level framework, and we need to infer as if we were naming the
// top-level framework.
StringRef FrameworkDirName
= SourceMgr->getFileManager().getCanonicalName(FrameworkDir);
bool canInfer = false;
if (llvm::sys::path::has_parent_path(FrameworkDirName)) {
// Figure out the parent path.
StringRef Parent = llvm::sys::path::parent_path(FrameworkDirName);
if (const DirectoryEntry *ParentDir = FileMgr.getDirectory(Parent)) {
// Check whether we have already looked into the parent directory
// for a module map.
llvm::DenseMap<const DirectoryEntry *, InferredDirectory>::const_iterator
inferred = InferredDirectories.find(ParentDir);
if (inferred == InferredDirectories.end()) {
// We haven't looked here before. Load a module map, if there is
// one.
SmallString<128> ModMapPath = Parent;
llvm::sys::path::append(ModMapPath, "module.map");
if (const FileEntry *ModMapFile = FileMgr.getFile(ModMapPath)) {
parseModuleMapFile(ModMapFile);
inferred = InferredDirectories.find(ParentDir);
}
if (inferred == InferredDirectories.end())
inferred = InferredDirectories.insert(
std::make_pair(ParentDir, InferredDirectory())).first;
}
if (inferred->second.InferModules) {
// We're allowed to infer for this directory, but make sure it's okay
// to infer this particular module.
StringRef Name = llvm::sys::path::stem(FrameworkDirName);
canInfer = std::find(inferred->second.ExcludedModules.begin(),
inferred->second.ExcludedModules.end(),
Name) == inferred->second.ExcludedModules.end();
if (inferred->second.InferSystemModules)
IsSystem = true;
}
}
}
// If we're not allowed to infer a framework module, don't.
if (!canInfer)
return 0;
}
// Look for an umbrella header.
SmallString<128> UmbrellaName = StringRef(FrameworkDir->getName());
llvm::sys::path::append(UmbrellaName, "Headers");
llvm::sys::path::append(UmbrellaName, ModuleName + ".h");
const FileEntry *UmbrellaHeader = FileMgr.getFile(UmbrellaName);
// FIXME: If there's no umbrella header, we could probably scan the
// framework to load *everything*. But, it's not clear that this is a good
// idea.
if (!UmbrellaHeader)
return 0;
Module *Result = new Module(ModuleName, SourceLocation(), Parent,
/*IsFramework=*/true, /*IsExplicit=*/false);
if (IsSystem)
Result->IsSystem = IsSystem;
if (!Parent)
Modules[ModuleName] = Result;
// umbrella header "umbrella-header-name"
Result->Umbrella = UmbrellaHeader;
Headers[UmbrellaHeader] = KnownHeader(Result, /*Excluded=*/false);
UmbrellaDirs[UmbrellaHeader->getDir()] = Result;
// export *
Result->Exports.push_back(Module::ExportDecl(0, true));
// module * { export * }
Result->InferSubmodules = true;
Result->InferExportWildcard = true;
// Look for subframeworks.
llvm::error_code EC;
SmallString<128> SubframeworksDirName
= StringRef(FrameworkDir->getName());
llvm::sys::path::append(SubframeworksDirName, "Frameworks");
SmallString<128> SubframeworksDirNameNative;
llvm::sys::path::native(SubframeworksDirName.str(),
SubframeworksDirNameNative);
for (llvm::sys::fs::directory_iterator
Dir(SubframeworksDirNameNative.str(), EC), DirEnd;
Dir != DirEnd && !EC; Dir.increment(EC)) {
if (!StringRef(Dir->path()).endswith(".framework"))
continue;
if (const DirectoryEntry *SubframeworkDir
= FileMgr.getDirectory(Dir->path())) {
// Note: as an egregious but useful hack, we use the real path here and
// check whether it is actually a subdirectory of the parent directory.
// This will not be the case if the 'subframework' is actually a symlink
// out to a top-level framework.
StringRef SubframeworkDirName = FileMgr.getCanonicalName(SubframeworkDir);
bool FoundParent = false;
do {
// Get the parent directory name.
SubframeworkDirName
= llvm::sys::path::parent_path(SubframeworkDirName);
if (SubframeworkDirName.empty())
break;
if (FileMgr.getDirectory(SubframeworkDirName) == FrameworkDir) {
FoundParent = true;
break;
}
} while (true);
if (!FoundParent)
continue;
// FIXME: Do we want to warn about subframeworks without umbrella headers?
SmallString<32> NameBuf;
inferFrameworkModule(sanitizeFilenameAsIdentifier(
llvm::sys::path::stem(Dir->path()), NameBuf),
SubframeworkDir, IsSystem, Result);
}
}
// If the module is a top-level framework, automatically link against the
// framework.
if (!Result->isSubFramework()) {
inferFrameworkLink(Result, FrameworkDir, FileMgr);
}
return Result;
}
void ModuleMap::setUmbrellaHeader(Module *Mod, const FileEntry *UmbrellaHeader){
Headers[UmbrellaHeader] = KnownHeader(Mod, /*Excluded=*/false);
Mod->Umbrella = UmbrellaHeader;
UmbrellaDirs[UmbrellaHeader->getDir()] = Mod;
}
void ModuleMap::setUmbrellaDir(Module *Mod, const DirectoryEntry *UmbrellaDir) {
Mod->Umbrella = UmbrellaDir;
UmbrellaDirs[UmbrellaDir] = Mod;
}
void ModuleMap::addHeader(Module *Mod, const FileEntry *Header,
bool Excluded) {
if (Excluded) {
Mod->ExcludedHeaders.push_back(Header);
} else {
Mod->Headers.push_back(Header);
HeaderInfo.MarkFileModuleHeader(Header);
}
Headers[Header] = KnownHeader(Mod, Excluded);
}
const FileEntry *
ModuleMap::getContainingModuleMapFile(Module *Module) const {
if (Module->DefinitionLoc.isInvalid() || !SourceMgr)
return 0;
return SourceMgr->getFileEntryForID(
SourceMgr->getFileID(Module->DefinitionLoc));
}
void ModuleMap::dump() {
llvm::errs() << "Modules:";
for (llvm::StringMap<Module *>::iterator M = Modules.begin(),
MEnd = Modules.end();
M != MEnd; ++M)
M->getValue()->print(llvm::errs(), 2);
llvm::errs() << "Headers:";
for (HeadersMap::iterator H = Headers.begin(), HEnd = Headers.end();
H != HEnd; ++H) {
llvm::errs() << " \"" << H->first->getName() << "\" -> "
<< H->second.getModule()->getFullModuleName() << "\n";
}
}
bool ModuleMap::resolveExports(Module *Mod, bool Complain) {
bool HadError = false;
for (unsigned I = 0, N = Mod->UnresolvedExports.size(); I != N; ++I) {
Module::ExportDecl Export = resolveExport(Mod, Mod->UnresolvedExports[I],
Complain);
if (Export.getPointer() || Export.getInt())
Mod->Exports.push_back(Export);
else
HadError = true;
}
Mod->UnresolvedExports.clear();
return HadError;
}
bool ModuleMap::resolveConflicts(Module *Mod, bool Complain) {
bool HadError = false;
for (unsigned I = 0, N = Mod->UnresolvedConflicts.size(); I != N; ++I) {
Module *OtherMod = resolveModuleId(Mod->UnresolvedConflicts[I].Id,
Mod, Complain);
if (!OtherMod) {
HadError = true;
continue;
}
Module::Conflict Conflict;
Conflict.Other = OtherMod;
Conflict.Message = Mod->UnresolvedConflicts[I].Message;
Mod->Conflicts.push_back(Conflict);
}
Mod->UnresolvedConflicts.clear();
return HadError;
}
Module *ModuleMap::inferModuleFromLocation(FullSourceLoc Loc) {
if (Loc.isInvalid())
return 0;
// Use the expansion location to determine which module we're in.
FullSourceLoc ExpansionLoc = Loc.getExpansionLoc();
if (!ExpansionLoc.isFileID())
return 0;
const SourceManager &SrcMgr = Loc.getManager();
FileID ExpansionFileID = ExpansionLoc.getFileID();
while (const FileEntry *ExpansionFile
= SrcMgr.getFileEntryForID(ExpansionFileID)) {
// Find the module that owns this header (if any).
if (Module *Mod = findModuleForHeader(ExpansionFile))
return Mod;
// No module owns this header, so look up the inclusion chain to see if
// any included header has an associated module.
SourceLocation IncludeLoc = SrcMgr.getIncludeLoc(ExpansionFileID);
if (IncludeLoc.isInvalid())
return 0;
ExpansionFileID = SrcMgr.getFileID(IncludeLoc);
}
return 0;
}
//----------------------------------------------------------------------------//
// Module map file parser
//----------------------------------------------------------------------------//
namespace clang {
/// \brief A token in a module map file.
struct MMToken {
enum TokenKind {
Comma,
ConfigMacros,
Conflict,
EndOfFile,
HeaderKeyword,
Identifier,
ExcludeKeyword,
ExplicitKeyword,
ExportKeyword,
FrameworkKeyword,
LinkKeyword,
ModuleKeyword,
Period,
UmbrellaKeyword,
RequiresKeyword,
Star,
StringLiteral,
LBrace,
RBrace,
LSquare,
RSquare
} Kind;
unsigned Location;
unsigned StringLength;
const char *StringData;
void clear() {
Kind = EndOfFile;
Location = 0;
StringLength = 0;
StringData = 0;
}
bool is(TokenKind K) const { return Kind == K; }
SourceLocation getLocation() const {
return SourceLocation::getFromRawEncoding(Location);
}
StringRef getString() const {
return StringRef(StringData, StringLength);
}
};
/// \brief The set of attributes that can be attached to a module.
struct Attributes {
Attributes() : IsSystem(), IsExhaustive() { }
/// \brief Whether this is a system module.
unsigned IsSystem : 1;
/// \brief Whether this is an exhaustive set of configuration macros.
unsigned IsExhaustive : 1;
};
class ModuleMapParser {
Lexer &L;
SourceManager &SourceMgr;
/// \brief Default target information, used only for string literal
/// parsing.
const TargetInfo *Target;
DiagnosticsEngine &Diags;
ModuleMap ⤅
/// \brief The directory that this module map resides in.
const DirectoryEntry *Directory;
/// \brief The directory containing Clang-supplied headers.
const DirectoryEntry *BuiltinIncludeDir;
/// \brief Whether an error occurred.
bool HadError;
/// \brief Stores string data for the various string literals referenced
/// during parsing.
llvm::BumpPtrAllocator StringData;
/// \brief The current token.
MMToken Tok;
/// \brief The active module.
Module *ActiveModule;
/// \brief Consume the current token and return its location.
SourceLocation consumeToken();
/// \brief Skip tokens until we reach the a token with the given kind
/// (or the end of the file).
void skipUntil(MMToken::TokenKind K);
typedef SmallVector<std::pair<std::string, SourceLocation>, 2> ModuleId;
bool parseModuleId(ModuleId &Id);
void parseModuleDecl();
void parseRequiresDecl();
void parseHeaderDecl(SourceLocation UmbrellaLoc, SourceLocation ExcludeLoc);
void parseUmbrellaDirDecl(SourceLocation UmbrellaLoc);
void parseExportDecl();
void parseLinkDecl();
void parseConfigMacros();
void parseConflict();
void parseInferredModuleDecl(bool Framework, bool Explicit);
bool parseOptionalAttributes(Attributes &Attrs);
const DirectoryEntry *getOverriddenHeaderSearchDir();
public:
explicit ModuleMapParser(Lexer &L, SourceManager &SourceMgr,
const TargetInfo *Target,
DiagnosticsEngine &Diags,
ModuleMap &Map,
const DirectoryEntry *Directory,
const DirectoryEntry *BuiltinIncludeDir)
: L(L), SourceMgr(SourceMgr), Target(Target), Diags(Diags), Map(Map),
Directory(Directory), BuiltinIncludeDir(BuiltinIncludeDir),
HadError(false), ActiveModule(0)
{
Tok.clear();
consumeToken();
}
bool parseModuleMapFile();
};
}
SourceLocation ModuleMapParser::consumeToken() {
retry:
SourceLocation Result = Tok.getLocation();
Tok.clear();
Token LToken;
L.LexFromRawLexer(LToken);
Tok.Location = LToken.getLocation().getRawEncoding();
switch (LToken.getKind()) {
case tok::raw_identifier:
Tok.StringData = LToken.getRawIdentifierData();
Tok.StringLength = LToken.getLength();
Tok.Kind = llvm::StringSwitch<MMToken::TokenKind>(Tok.getString())
.Case("config_macros", MMToken::ConfigMacros)
.Case("conflict", MMToken::Conflict)
.Case("exclude", MMToken::ExcludeKeyword)
.Case("explicit", MMToken::ExplicitKeyword)
.Case("export", MMToken::ExportKeyword)
.Case("framework", MMToken::FrameworkKeyword)
.Case("header", MMToken::HeaderKeyword)
.Case("link", MMToken::LinkKeyword)
.Case("module", MMToken::ModuleKeyword)
.Case("requires", MMToken::RequiresKeyword)
.Case("umbrella", MMToken::UmbrellaKeyword)
.Default(MMToken::Identifier);
break;
case tok::comma:
Tok.Kind = MMToken::Comma;
break;
case tok::eof:
Tok.Kind = MMToken::EndOfFile;
break;
case tok::l_brace:
Tok.Kind = MMToken::LBrace;
break;
case tok::l_square:
Tok.Kind = MMToken::LSquare;
break;
case tok::period:
Tok.Kind = MMToken::Period;
break;
case tok::r_brace:
Tok.Kind = MMToken::RBrace;
break;
case tok::r_square:
Tok.Kind = MMToken::RSquare;
break;
case tok::star:
Tok.Kind = MMToken::Star;
break;
case tok::string_literal: {
if (LToken.hasUDSuffix()) {
Diags.Report(LToken.getLocation(), diag::err_invalid_string_udl);
HadError = true;
goto retry;
}
// Parse the string literal.
LangOptions LangOpts;
StringLiteralParser StringLiteral(<oken, 1, SourceMgr, LangOpts, *Target);
if (StringLiteral.hadError)
goto retry;
// Copy the string literal into our string data allocator.
unsigned Length = StringLiteral.GetStringLength();
char *Saved = StringData.Allocate<char>(Length + 1);
memcpy(Saved, StringLiteral.GetString().data(), Length);
Saved[Length] = 0;
// Form the token.
Tok.Kind = MMToken::StringLiteral;
Tok.StringData = Saved;
Tok.StringLength = Length;
break;
}
case tok::comment:
goto retry;
default:
Diags.Report(LToken.getLocation(), diag::err_mmap_unknown_token);
HadError = true;
goto retry;
}
return Result;
}
void ModuleMapParser::skipUntil(MMToken::TokenKind K) {
unsigned braceDepth = 0;
unsigned squareDepth = 0;
do {
switch (Tok.Kind) {
case MMToken::EndOfFile:
return;
case MMToken::LBrace:
if (Tok.is(K) && braceDepth == 0 && squareDepth == 0)
return;
++braceDepth;
break;
case MMToken::LSquare:
if (Tok.is(K) && braceDepth == 0 && squareDepth == 0)
return;
++squareDepth;
break;
case MMToken::RBrace:
if (braceDepth > 0)
--braceDepth;
else if (Tok.is(K))
return;
break;
case MMToken::RSquare:
if (squareDepth > 0)
--squareDepth;
else if (Tok.is(K))
return;
break;
default:
if (braceDepth == 0 && squareDepth == 0 && Tok.is(K))
return;
break;
}
consumeToken();
} while (true);
}
/// \brief Parse a module-id.
///
/// module-id:
/// identifier
/// identifier '.' module-id
///
/// \returns true if an error occurred, false otherwise.
bool ModuleMapParser::parseModuleId(ModuleId &Id) {
Id.clear();
do {
if (Tok.is(MMToken::Identifier)) {
Id.push_back(std::make_pair(Tok.getString(), Tok.getLocation()));
consumeToken();
} else {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_module_name);
return true;
}
if (!Tok.is(MMToken::Period))
break;
consumeToken();
} while (true);
return false;
}
namespace {
/// \brief Enumerates the known attributes.
enum AttributeKind {
/// \brief An unknown attribute.
AT_unknown,
/// \brief The 'system' attribute.
AT_system,
/// \brief The 'exhaustive' attribute.
AT_exhaustive
};
}
/// \brief Parse a module declaration.
///
/// module-declaration:
/// 'explicit'[opt] 'framework'[opt] 'module' module-id attributes[opt]
/// { module-member* }
///
/// module-member:
/// requires-declaration
/// header-declaration
/// submodule-declaration
/// export-declaration
/// link-declaration
///
/// submodule-declaration:
/// module-declaration
/// inferred-submodule-declaration
void ModuleMapParser::parseModuleDecl() {
assert(Tok.is(MMToken::ExplicitKeyword) || Tok.is(MMToken::ModuleKeyword) ||
Tok.is(MMToken::FrameworkKeyword));
// Parse 'explicit' or 'framework' keyword, if present.
SourceLocation ExplicitLoc;
bool Explicit = false;
bool Framework = false;
// Parse 'explicit' keyword, if present.
if (Tok.is(MMToken::ExplicitKeyword)) {
ExplicitLoc = consumeToken();
Explicit = true;
}
// Parse 'framework' keyword, if present.
if (Tok.is(MMToken::FrameworkKeyword)) {
consumeToken();
Framework = true;
}
// Parse 'module' keyword.
if (!Tok.is(MMToken::ModuleKeyword)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_module);
consumeToken();
HadError = true;
return;
}
consumeToken(); // 'module' keyword
// If we have a wildcard for the module name, this is an inferred submodule.
// Parse it.
if (Tok.is(MMToken::Star))
return parseInferredModuleDecl(Framework, Explicit);
// Parse the module name.
ModuleId Id;
if (parseModuleId(Id)) {
HadError = true;
return;
}
if (ActiveModule) {
if (Id.size() > 1) {
Diags.Report(Id.front().second, diag::err_mmap_nested_submodule_id)
<< SourceRange(Id.front().second, Id.back().second);
HadError = true;
return;
}
} else if (Id.size() == 1 && Explicit) {
// Top-level modules can't be explicit.
Diags.Report(ExplicitLoc, diag::err_mmap_explicit_top_level);
Explicit = false;
ExplicitLoc = SourceLocation();
HadError = true;
}
Module *PreviousActiveModule = ActiveModule;
if (Id.size() > 1) {
// This module map defines a submodule. Go find the module of which it
// is a submodule.
ActiveModule = 0;
for (unsigned I = 0, N = Id.size() - 1; I != N; ++I) {
if (Module *Next = Map.lookupModuleQualified(Id[I].first, ActiveModule)) {
ActiveModule = Next;
continue;
}
if (ActiveModule) {
Diags.Report(Id[I].second, diag::err_mmap_missing_module_qualified)
<< Id[I].first << ActiveModule->getTopLevelModule();
} else {
Diags.Report(Id[I].second, diag::err_mmap_expected_module_name);
}
HadError = true;
return;
}
}
StringRef ModuleName = Id.back().first;
SourceLocation ModuleNameLoc = Id.back().second;
// Parse the optional attribute list.
Attributes Attrs;
parseOptionalAttributes(Attrs);
// Parse the opening brace.
if (!Tok.is(MMToken::LBrace)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_lbrace)
<< ModuleName;
HadError = true;
return;
}
SourceLocation LBraceLoc = consumeToken();
// Determine whether this (sub)module has already been defined.
if (Module *Existing = Map.lookupModuleQualified(ModuleName, ActiveModule)) {
if (Existing->DefinitionLoc.isInvalid() && !ActiveModule) {
// Skip the module definition.
skipUntil(MMToken::RBrace);
if (Tok.is(MMToken::RBrace))
consumeToken();
else {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rbrace);
Diags.Report(LBraceLoc, diag::note_mmap_lbrace_match);
HadError = true;
}
return;
}
Diags.Report(ModuleNameLoc, diag::err_mmap_module_redefinition)
<< ModuleName;
Diags.Report(Existing->DefinitionLoc, diag::note_mmap_prev_definition);
// Skip the module definition.
skipUntil(MMToken::RBrace);
if (Tok.is(MMToken::RBrace))
consumeToken();
HadError = true;
return;
}
// Start defining this module.
ActiveModule = Map.findOrCreateModule(ModuleName, ActiveModule, Framework,
Explicit).first;
ActiveModule->DefinitionLoc = ModuleNameLoc;
if (Attrs.IsSystem)
ActiveModule->IsSystem = true;
bool Done = false;
do {
switch (Tok.Kind) {
case MMToken::EndOfFile:
case MMToken::RBrace:
Done = true;
break;
case MMToken::ConfigMacros:
parseConfigMacros();
break;
case MMToken::Conflict:
parseConflict();
break;
case MMToken::ExplicitKeyword:
case MMToken::FrameworkKeyword:
case MMToken::ModuleKeyword:
parseModuleDecl();
break;
case MMToken::ExportKeyword:
parseExportDecl();
break;
case MMToken::RequiresKeyword:
parseRequiresDecl();
break;
case MMToken::UmbrellaKeyword: {
SourceLocation UmbrellaLoc = consumeToken();
if (Tok.is(MMToken::HeaderKeyword))
parseHeaderDecl(UmbrellaLoc, SourceLocation());
else
parseUmbrellaDirDecl(UmbrellaLoc);
break;
}
case MMToken::ExcludeKeyword: {
SourceLocation ExcludeLoc = consumeToken();
if (Tok.is(MMToken::HeaderKeyword)) {
parseHeaderDecl(SourceLocation(), ExcludeLoc);
} else {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_header)
<< "exclude";
}
break;
}
case MMToken::HeaderKeyword:
parseHeaderDecl(SourceLocation(), SourceLocation());
break;
case MMToken::LinkKeyword:
parseLinkDecl();
break;
default:
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_member);
consumeToken();
break;
}
} while (!Done);
if (Tok.is(MMToken::RBrace))
consumeToken();
else {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rbrace);
Diags.Report(LBraceLoc, diag::note_mmap_lbrace_match);
HadError = true;
}
// If the active module is a top-level framework, and there are no link
// libraries, automatically link against the framework.
if (ActiveModule->IsFramework && !ActiveModule->isSubFramework() &&
ActiveModule->LinkLibraries.empty()) {
inferFrameworkLink(ActiveModule, Directory, SourceMgr.getFileManager());
}
// We're done parsing this module. Pop back to the previous module.
ActiveModule = PreviousActiveModule;
}
/// \brief Parse a requires declaration.
///
/// requires-declaration:
/// 'requires' feature-list
///
/// feature-list:
/// identifier ',' feature-list
/// identifier
void ModuleMapParser::parseRequiresDecl() {
assert(Tok.is(MMToken::RequiresKeyword));
// Parse 'requires' keyword.
consumeToken();
// Parse the feature-list.
do {
if (!Tok.is(MMToken::Identifier)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_feature);
HadError = true;
return;
}
// Consume the feature name.
std::string Feature = Tok.getString();
consumeToken();
// Add this feature.
ActiveModule->addRequirement(Feature, Map.LangOpts, *Map.Target);
if (!Tok.is(MMToken::Comma))
break;
// Consume the comma.
consumeToken();
} while (true);
}
/// \brief Append to \p Paths the set of paths needed to get to the
/// subframework in which the given module lives.
static void appendSubframeworkPaths(Module *Mod,
SmallVectorImpl<char> &Path) {
// Collect the framework names from the given module to the top-level module.
SmallVector<StringRef, 2> Paths;
for (; Mod; Mod = Mod->Parent) {
if (Mod->IsFramework)
Paths.push_back(Mod->Name);
}
if (Paths.empty())
return;
// Add Frameworks/Name.framework for each subframework.
for (unsigned I = Paths.size() - 1; I != 0; --I) {
llvm::sys::path::append(Path, "Frameworks");
llvm::sys::path::append(Path, Paths[I-1] + ".framework");
}
}
/// \brief Determine whether the given file name is the name of a builtin
/// header, supplied by Clang to replace, override, or augment existing system
/// headers.
static bool isBuiltinHeader(StringRef FileName) {
return llvm::StringSwitch<bool>(FileName)
.Case("float.h", true)
.Case("iso646.h", true)
.Case("limits.h", true)
.Case("stdalign.h", true)
.Case("stdarg.h", true)
.Case("stdbool.h", true)
.Case("stddef.h", true)
.Case("stdint.h", true)
.Case("tgmath.h", true)
.Case("unwind.h", true)
.Default(false);
}
/// \brief Parse a header declaration.
///
/// header-declaration:
/// 'umbrella'[opt] 'header' string-literal
/// 'exclude'[opt] 'header' string-literal
void ModuleMapParser::parseHeaderDecl(SourceLocation UmbrellaLoc,
SourceLocation ExcludeLoc) {
assert(Tok.is(MMToken::HeaderKeyword));
consumeToken();
bool Umbrella = UmbrellaLoc.isValid();
bool Exclude = ExcludeLoc.isValid();
assert(!(Umbrella && Exclude) && "Cannot have both 'umbrella' and 'exclude'");
// Parse the header name.
if (!Tok.is(MMToken::StringLiteral)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_header)
<< "header";
HadError = true;
return;
}
std::string FileName = Tok.getString();
SourceLocation FileNameLoc = consumeToken();
// Check whether we already have an umbrella.
if (Umbrella && ActiveModule->Umbrella) {
Diags.Report(FileNameLoc, diag::err_mmap_umbrella_clash)
<< ActiveModule->getFullModuleName();
HadError = true;
return;
}
// Look for this file.
const FileEntry *File = 0;
const FileEntry *BuiltinFile = 0;
SmallString<128> PathName;
if (llvm::sys::path::is_absolute(FileName)) {
PathName = FileName;
File = SourceMgr.getFileManager().getFile(PathName);
} else if (const DirectoryEntry *Dir = getOverriddenHeaderSearchDir()) {
PathName = Dir->getName();
llvm::sys::path::append(PathName, FileName);
File = SourceMgr.getFileManager().getFile(PathName);
} else {
// Search for the header file within the search directory.
PathName = Directory->getName();
unsigned PathLength = PathName.size();
if (ActiveModule->isPartOfFramework()) {
appendSubframeworkPaths(ActiveModule, PathName);
// Check whether this file is in the public headers.
llvm::sys::path::append(PathName, "Headers");
llvm::sys::path::append(PathName, FileName);
File = SourceMgr.getFileManager().getFile(PathName);
if (!File) {
// Check whether this file is in the private headers.
PathName.resize(PathLength);
llvm::sys::path::append(PathName, "PrivateHeaders");
llvm::sys::path::append(PathName, FileName);
File = SourceMgr.getFileManager().getFile(PathName);
}
} else {
// Lookup for normal headers.
llvm::sys::path::append(PathName, FileName);
File = SourceMgr.getFileManager().getFile(PathName);
// If this is a system module with a top-level header, this header
// may have a counterpart (or replacement) in the set of headers
// supplied by Clang. Find that builtin header.
if (ActiveModule->IsSystem && !Umbrella && BuiltinIncludeDir &&
BuiltinIncludeDir != Directory && isBuiltinHeader(FileName)) {
SmallString<128> BuiltinPathName(BuiltinIncludeDir->getName());
llvm::sys::path::append(BuiltinPathName, FileName);
BuiltinFile = SourceMgr.getFileManager().getFile(BuiltinPathName);
// If Clang supplies this header but the underlying system does not,
// just silently swap in our builtin version. Otherwise, we'll end
// up adding both (later).
if (!File && BuiltinFile) {
File = BuiltinFile;
BuiltinFile = 0;
}
}
}
}
// FIXME: We shouldn't be eagerly stat'ing every file named in a module map.
// Come up with a lazy way to do this.
if (File) {
if (ModuleMap::KnownHeader OwningModule = Map.Headers[File]) {
Diags.Report(FileNameLoc, diag::err_mmap_header_conflict)
<< FileName << OwningModule.getModule()->getFullModuleName();
HadError = true;
} else if (Umbrella) {
const DirectoryEntry *UmbrellaDir = File->getDir();
if (Module *UmbrellaModule = Map.UmbrellaDirs[UmbrellaDir]) {
Diags.Report(UmbrellaLoc, diag::err_mmap_umbrella_clash)
<< UmbrellaModule->getFullModuleName();
HadError = true;
} else {
// Record this umbrella header.
Map.setUmbrellaHeader(ActiveModule, File);
}
} else {
// Record this header.
Map.addHeader(ActiveModule, File, Exclude);
// If there is a builtin counterpart to this file, add it now.
if (BuiltinFile)
Map.addHeader(ActiveModule, BuiltinFile, Exclude);
}
} else if (!Exclude) {
// Ignore excluded header files. They're optional anyway.
Diags.Report(FileNameLoc, diag::err_mmap_header_not_found)
<< Umbrella << FileName;
HadError = true;
}
}
/// \brief Parse an umbrella directory declaration.
///
/// umbrella-dir-declaration:
/// umbrella string-literal
void ModuleMapParser::parseUmbrellaDirDecl(SourceLocation UmbrellaLoc) {
// Parse the directory name.
if (!Tok.is(MMToken::StringLiteral)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_header)
<< "umbrella";
HadError = true;
return;
}
std::string DirName = Tok.getString();
SourceLocation DirNameLoc = consumeToken();
// Check whether we already have an umbrella.
if (ActiveModule->Umbrella) {
Diags.Report(DirNameLoc, diag::err_mmap_umbrella_clash)
<< ActiveModule->getFullModuleName();
HadError = true;
return;
}
// Look for this file.
const DirectoryEntry *Dir = 0;
if (llvm::sys::path::is_absolute(DirName))
Dir = SourceMgr.getFileManager().getDirectory(DirName);
else {
SmallString<128> PathName;
PathName = Directory->getName();
llvm::sys::path::append(PathName, DirName);
Dir = SourceMgr.getFileManager().getDirectory(PathName);
}
if (!Dir) {
Diags.Report(DirNameLoc, diag::err_mmap_umbrella_dir_not_found)
<< DirName;
HadError = true;
return;
}
if (Module *OwningModule = Map.UmbrellaDirs[Dir]) {
Diags.Report(UmbrellaLoc, diag::err_mmap_umbrella_clash)
<< OwningModule->getFullModuleName();
HadError = true;
return;
}
// Record this umbrella directory.
Map.setUmbrellaDir(ActiveModule, Dir);
}
/// \brief Parse a module export declaration.
///
/// export-declaration:
/// 'export' wildcard-module-id
///
/// wildcard-module-id:
/// identifier
/// '*'
/// identifier '.' wildcard-module-id
void ModuleMapParser::parseExportDecl() {
assert(Tok.is(MMToken::ExportKeyword));
SourceLocation ExportLoc = consumeToken();
// Parse the module-id with an optional wildcard at the end.
ModuleId ParsedModuleId;
bool Wildcard = false;
do {
if (Tok.is(MMToken::Identifier)) {
ParsedModuleId.push_back(std::make_pair(Tok.getString(),
Tok.getLocation()));
consumeToken();
if (Tok.is(MMToken::Period)) {
consumeToken();
continue;
}
break;
}
if(Tok.is(MMToken::Star)) {
Wildcard = true;
consumeToken();
break;
}
Diags.Report(Tok.getLocation(), diag::err_mmap_export_module_id);
HadError = true;
return;
} while (true);
Module::UnresolvedExportDecl Unresolved = {
ExportLoc, ParsedModuleId, Wildcard
};
ActiveModule->UnresolvedExports.push_back(Unresolved);
}
/// \brief Parse a link declaration.
///
/// module-declaration:
/// 'link' 'framework'[opt] string-literal
void ModuleMapParser::parseLinkDecl() {
assert(Tok.is(MMToken::LinkKeyword));
SourceLocation LinkLoc = consumeToken();
// Parse the optional 'framework' keyword.
bool IsFramework = false;
if (Tok.is(MMToken::FrameworkKeyword)) {
consumeToken();
IsFramework = true;
}
// Parse the library name
if (!Tok.is(MMToken::StringLiteral)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_library_name)
<< IsFramework << SourceRange(LinkLoc);
HadError = true;
return;
}
std::string LibraryName = Tok.getString();
consumeToken();
ActiveModule->LinkLibraries.push_back(Module::LinkLibrary(LibraryName,
IsFramework));
}
/// \brief Parse a configuration macro declaration.
///
/// module-declaration:
/// 'config_macros' attributes[opt] config-macro-list?
///
/// config-macro-list:
/// identifier (',' identifier)?
void ModuleMapParser::parseConfigMacros() {
assert(Tok.is(MMToken::ConfigMacros));
SourceLocation ConfigMacrosLoc = consumeToken();
// Only top-level modules can have configuration macros.
if (ActiveModule->Parent) {
Diags.Report(ConfigMacrosLoc, diag::err_mmap_config_macro_submodule);
}
// Parse the optional attributes.
Attributes Attrs;
parseOptionalAttributes(Attrs);
if (Attrs.IsExhaustive && !ActiveModule->Parent) {
ActiveModule->ConfigMacrosExhaustive = true;
}
// If we don't have an identifier, we're done.
if (!Tok.is(MMToken::Identifier))
return;
// Consume the first identifier.
if (!ActiveModule->Parent) {
ActiveModule->ConfigMacros.push_back(Tok.getString().str());
}
consumeToken();
do {
// If there's a comma, consume it.
if (!Tok.is(MMToken::Comma))
break;
consumeToken();
// We expect to see a macro name here.
if (!Tok.is(MMToken::Identifier)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_config_macro);
break;
}
// Consume the macro name.
if (!ActiveModule->Parent) {
ActiveModule->ConfigMacros.push_back(Tok.getString().str());
}
consumeToken();
} while (true);
}
/// \brief Format a module-id into a string.
static std::string formatModuleId(const ModuleId &Id) {
std::string result;
{
llvm::raw_string_ostream OS(result);
for (unsigned I = 0, N = Id.size(); I != N; ++I) {
if (I)
OS << ".";
OS << Id[I].first;
}
}
return result;
}
/// \brief Parse a conflict declaration.
///
/// module-declaration:
/// 'conflict' module-id ',' string-literal
void ModuleMapParser::parseConflict() {
assert(Tok.is(MMToken::Conflict));
SourceLocation ConflictLoc = consumeToken();
Module::UnresolvedConflict Conflict;
// Parse the module-id.
if (parseModuleId(Conflict.Id))
return;
// Parse the ','.
if (!Tok.is(MMToken::Comma)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_conflicts_comma)
<< SourceRange(ConflictLoc);
return;
}
consumeToken();
// Parse the message.
if (!Tok.is(MMToken::StringLiteral)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_conflicts_message)
<< formatModuleId(Conflict.Id);
return;
}
Conflict.Message = Tok.getString().str();
consumeToken();
// Add this unresolved conflict.
ActiveModule->UnresolvedConflicts.push_back(Conflict);
}
/// \brief Parse an inferred module declaration (wildcard modules).
///
/// module-declaration:
/// 'explicit'[opt] 'framework'[opt] 'module' * attributes[opt]
/// { inferred-module-member* }
///
/// inferred-module-member:
/// 'export' '*'
/// 'exclude' identifier
void ModuleMapParser::parseInferredModuleDecl(bool Framework, bool Explicit) {
assert(Tok.is(MMToken::Star));
SourceLocation StarLoc = consumeToken();
bool Failed = false;
// Inferred modules must be submodules.
if (!ActiveModule && !Framework) {
Diags.Report(StarLoc, diag::err_mmap_top_level_inferred_submodule);
Failed = true;
}
if (ActiveModule) {
// Inferred modules must have umbrella directories.
if (!Failed && !ActiveModule->getUmbrellaDir()) {
Diags.Report(StarLoc, diag::err_mmap_inferred_no_umbrella);
Failed = true;
}
// Check for redefinition of an inferred module.
if (!Failed && ActiveModule->InferSubmodules) {
Diags.Report(StarLoc, diag::err_mmap_inferred_redef);
if (ActiveModule->InferredSubmoduleLoc.isValid())
Diags.Report(ActiveModule->InferredSubmoduleLoc,
diag::note_mmap_prev_definition);
Failed = true;
}
// Check for the 'framework' keyword, which is not permitted here.
if (Framework) {
Diags.Report(StarLoc, diag::err_mmap_inferred_framework_submodule);
Framework = false;
}
} else if (Explicit) {
Diags.Report(StarLoc, diag::err_mmap_explicit_inferred_framework);
Explicit = false;
}
// If there were any problems with this inferred submodule, skip its body.
if (Failed) {
if (Tok.is(MMToken::LBrace)) {
consumeToken();
skipUntil(MMToken::RBrace);
if (Tok.is(MMToken::RBrace))
consumeToken();
}
HadError = true;
return;
}
// Parse optional attributes.
Attributes Attrs;
parseOptionalAttributes(Attrs);
if (ActiveModule) {
// Note that we have an inferred submodule.
ActiveModule->InferSubmodules = true;
ActiveModule->InferredSubmoduleLoc = StarLoc;
ActiveModule->InferExplicitSubmodules = Explicit;
} else {
// We'll be inferring framework modules for this directory.
Map.InferredDirectories[Directory].InferModules = true;
Map.InferredDirectories[Directory].InferSystemModules = Attrs.IsSystem;
}
// Parse the opening brace.
if (!Tok.is(MMToken::LBrace)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_lbrace_wildcard);
HadError = true;
return;
}
SourceLocation LBraceLoc = consumeToken();
// Parse the body of the inferred submodule.
bool Done = false;
do {
switch (Tok.Kind) {
case MMToken::EndOfFile:
case MMToken::RBrace:
Done = true;
break;
case MMToken::ExcludeKeyword: {
if (ActiveModule) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_inferred_member)
<< (ActiveModule != 0);
consumeToken();
break;
}
consumeToken();
if (!Tok.is(MMToken::Identifier)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_missing_exclude_name);
break;
}
Map.InferredDirectories[Directory].ExcludedModules
.push_back(Tok.getString());
consumeToken();
break;
}
case MMToken::ExportKeyword:
if (!ActiveModule) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_inferred_member)
<< (ActiveModule != 0);
consumeToken();
break;
}
consumeToken();
if (Tok.is(MMToken::Star))
ActiveModule->InferExportWildcard = true;
else
Diags.Report(Tok.getLocation(),
diag::err_mmap_expected_export_wildcard);
consumeToken();
break;
case MMToken::ExplicitKeyword:
case MMToken::ModuleKeyword:
case MMToken::HeaderKeyword:
case MMToken::UmbrellaKeyword:
default:
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_inferred_member)
<< (ActiveModule != 0);
consumeToken();
break;
}
} while (!Done);
if (Tok.is(MMToken::RBrace))
consumeToken();
else {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rbrace);
Diags.Report(LBraceLoc, diag::note_mmap_lbrace_match);
HadError = true;
}
}
/// \brief Parse optional attributes.
///
/// attributes:
/// attribute attributes
/// attribute
///
/// attribute:
/// [ identifier ]
///
/// \param Attrs Will be filled in with the parsed attributes.
///
/// \returns true if an error occurred, false otherwise.
bool ModuleMapParser::parseOptionalAttributes(Attributes &Attrs) {
bool HadError = false;
while (Tok.is(MMToken::LSquare)) {
// Consume the '['.
SourceLocation LSquareLoc = consumeToken();
// Check whether we have an attribute name here.
if (!Tok.is(MMToken::Identifier)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_attribute);
skipUntil(MMToken::RSquare);
if (Tok.is(MMToken::RSquare))
consumeToken();
HadError = true;
}
// Decode the attribute name.
AttributeKind Attribute
= llvm::StringSwitch<AttributeKind>(Tok.getString())
.Case("exhaustive", AT_exhaustive)
.Case("system", AT_system)
.Default(AT_unknown);
switch (Attribute) {
case AT_unknown:
Diags.Report(Tok.getLocation(), diag::warn_mmap_unknown_attribute)
<< Tok.getString();
break;
case AT_system:
Attrs.IsSystem = true;
break;
case AT_exhaustive:
Attrs.IsExhaustive = true;
break;
}
consumeToken();
// Consume the ']'.
if (!Tok.is(MMToken::RSquare)) {
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rsquare);
Diags.Report(LSquareLoc, diag::note_mmap_lsquare_match);
skipUntil(MMToken::RSquare);
HadError = true;
}
if (Tok.is(MMToken::RSquare))
consumeToken();
}
return HadError;
}
/// \brief If there is a specific header search directory due the presence
/// of an umbrella directory, retrieve that directory. Otherwise, returns null.
const DirectoryEntry *ModuleMapParser::getOverriddenHeaderSearchDir() {
for (Module *Mod = ActiveModule; Mod; Mod = Mod->Parent) {
// If we have an umbrella directory, use that.
if (Mod->hasUmbrellaDir())
return Mod->getUmbrellaDir();
// If we have a framework directory, stop looking.
if (Mod->IsFramework)
return 0;
}
return 0;
}
/// \brief Parse a module map file.
///
/// module-map-file:
/// module-declaration*
bool ModuleMapParser::parseModuleMapFile() {
do {
switch (Tok.Kind) {
case MMToken::EndOfFile:
return HadError;
case MMToken::ExplicitKeyword:
case MMToken::ModuleKeyword:
case MMToken::FrameworkKeyword:
parseModuleDecl();
break;
case MMToken::Comma:
case MMToken::ConfigMacros:
case MMToken::Conflict:
case MMToken::ExcludeKeyword:
case MMToken::ExportKeyword:
case MMToken::HeaderKeyword:
case MMToken::Identifier:
case MMToken::LBrace:
case MMToken::LinkKeyword:
case MMToken::LSquare:
case MMToken::Period:
case MMToken::RBrace:
case MMToken::RSquare:
case MMToken::RequiresKeyword:
case MMToken::Star:
case MMToken::StringLiteral:
case MMToken::UmbrellaKeyword:
Diags.Report(Tok.getLocation(), diag::err_mmap_expected_module);
HadError = true;
consumeToken();
break;
}
} while (true);
}
bool ModuleMap::parseModuleMapFile(const FileEntry *File) {
llvm::DenseMap<const FileEntry *, bool>::iterator Known
= ParsedModuleMap.find(File);
if (Known != ParsedModuleMap.end())
return Known->second;
assert(Target != 0 && "Missing target information");
FileID ID = SourceMgr->createFileID(File, SourceLocation(), SrcMgr::C_User);
const llvm::MemoryBuffer *Buffer = SourceMgr->getBuffer(ID);
if (!Buffer)
return ParsedModuleMap[File] = true;
// Parse this module map file.
Lexer L(ID, SourceMgr->getBuffer(ID), *SourceMgr, MMapLangOpts);
Diags->getClient()->BeginSourceFile(MMapLangOpts);
ModuleMapParser Parser(L, *SourceMgr, Target, *Diags, *this, File->getDir(),
BuiltinIncludeDir);
bool Result = Parser.parseModuleMapFile();
Diags->getClient()->EndSourceFile();
ParsedModuleMap[File] = Result;
return Result;
}
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