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|
#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===- ModuleMap.h - Describe the layout of modules -------------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This file defines the ModuleMap interface, which describes the layout of a
// module as it relates to headers.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_LEX_MODULEMAP_H
#define LLVM_CLANG_LEX_MODULEMAP_H
#include "clang/Basic/IdentifierTable.h"
#include "clang/Basic/LangOptions.h"
#include "clang/Basic/Module.h"
#include "clang/Basic/SourceLocation.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/PointerIntPair.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/ADT/TinyPtrVector.h"
#include "llvm/ADT/Twine.h"
#include <ctime>
#include <memory>
#include <string>
#include <utility>
namespace clang {
class DiagnosticsEngine;
class DirectoryEntry;
class FileEntry;
class FileManager;
class HeaderSearch;
class SourceManager;
/// A mechanism to observe the actions of the module map parser as it
/// reads module map files.
class ModuleMapCallbacks {
virtual void anchor();
public:
virtual ~ModuleMapCallbacks() = default;
/// Called when a module map file has been read.
///
/// \param FileStart A SourceLocation referring to the start of the file's
/// contents.
/// \param File The file itself.
/// \param IsSystem Whether this is a module map from a system include path.
virtual void moduleMapFileRead(SourceLocation FileStart,
const FileEntry &File, bool IsSystem) {}
/// Called when a header is added during module map parsing.
///
/// \param Filename The header file itself.
virtual void moduleMapAddHeader(StringRef Filename) {}
/// Called when an umbrella header is added during module map parsing.
///
/// \param FileMgr FileManager instance
/// \param Header The umbrella header to collect.
virtual void moduleMapAddUmbrellaHeader(FileManager *FileMgr,
const FileEntry *Header) {}
};
class ModuleMap {
SourceManager &SourceMgr;
DiagnosticsEngine &Diags;
const LangOptions &LangOpts;
const TargetInfo *Target;
HeaderSearch &HeaderInfo;
llvm::SmallVector<std::unique_ptr<ModuleMapCallbacks>, 1> Callbacks;
/// The directory used for Clang-supplied, builtin include headers,
/// such as "stdint.h".
const DirectoryEntry *BuiltinIncludeDir = nullptr;
/// Language options used to parse the module map itself.
///
/// These are always simple C language options.
LangOptions MMapLangOpts;
/// The module that the main source file is associated with (the module
/// named LangOpts::CurrentModule, if we've loaded it).
Module *SourceModule = nullptr;
/// Submodules of the current module that have not yet been attached to it.
/// (Ownership is transferred if/when we create an enclosing module.)
llvm::SmallVector<std::unique_ptr<Module>, 8> PendingSubmodules;
/// The top-level modules that are known.
llvm::StringMap<Module *> Modules;
/// Module loading cache that includes submodules, indexed by IdentifierInfo.
/// nullptr is stored for modules that are known to fail to load.
llvm::DenseMap<const IdentifierInfo *, Module *> CachedModuleLoads;
/// Shadow modules created while building this module map.
llvm::SmallVector<Module*, 2> ShadowModules;
/// The number of modules we have created in total.
unsigned NumCreatedModules = 0;
/// In case a module has a export_as entry, it might have a pending link
/// name to be determined if that module is imported.
llvm::StringMap<llvm::StringSet<>> PendingLinkAsModule;
public:
/// Use PendingLinkAsModule information to mark top level link names that
/// are going to be replaced by export_as aliases.
void resolveLinkAsDependencies(Module *Mod);
/// Make module to use export_as as the link dependency name if enough
/// information is available or add it to a pending list otherwise.
void addLinkAsDependency(Module *Mod);
/// Flags describing the role of a module header.
enum ModuleHeaderRole {
/// This header is normally included in the module.
NormalHeader = 0x0,
/// This header is included but private.
PrivateHeader = 0x1,
/// This header is part of the module (for layering purposes) but
/// should be textually included.
TextualHeader = 0x2,
// Caution: Adding an enumerator needs other changes.
// Adjust the number of bits for KnownHeader::Storage.
// Adjust the bitfield HeaderFileInfo::HeaderRole size.
// Adjust the HeaderFileInfoTrait::ReadData streaming.
// Adjust the HeaderFileInfoTrait::EmitData streaming.
// Adjust ModuleMap::addHeader.
};
/// Convert a header kind to a role. Requires Kind to not be HK_Excluded.
static ModuleHeaderRole headerKindToRole(Module::HeaderKind Kind);
/// Convert a header role to a kind.
static Module::HeaderKind headerRoleToKind(ModuleHeaderRole Role);
/// A header that is known to reside within a given module,
/// whether it was included or excluded.
class KnownHeader {
llvm::PointerIntPair<Module *, 2, ModuleHeaderRole> Storage;
public:
KnownHeader() : Storage(nullptr, NormalHeader) {}
KnownHeader(Module *M, ModuleHeaderRole Role) : Storage(M, Role) {}
friend bool operator==(const KnownHeader &A, const KnownHeader &B) {
return A.Storage == B.Storage;
}
friend bool operator!=(const KnownHeader &A, const KnownHeader &B) {
return A.Storage != B.Storage;
}
/// Retrieve the module the header is stored in.
Module *getModule() const { return Storage.getPointer(); }
/// The role of this header within the module.
ModuleHeaderRole getRole() const { return Storage.getInt(); }
/// Whether this header is available in the module.
bool isAvailable() const {
return getModule()->isAvailable();
}
/// Whether this header is accessible from the specified module.
bool isAccessibleFrom(Module *M) const {
return !(getRole() & PrivateHeader) ||
(M && M->getTopLevelModule() == getModule()->getTopLevelModule());
}
// Whether this known header is valid (i.e., it has an
// associated module).
explicit operator bool() const {
return Storage.getPointer() != nullptr;
}
};
using AdditionalModMapsSet = llvm::SmallPtrSet<const FileEntry *, 1>;
private:
friend class ModuleMapParser;
using HeadersMap =
llvm::DenseMap<const FileEntry *, SmallVector<KnownHeader, 1>>;
/// Mapping from each header to the module that owns the contents of
/// that header.
HeadersMap Headers;
/// Map from file sizes to modules with lazy header directives of that size.
mutable llvm::DenseMap<off_t, llvm::TinyPtrVector<Module*>> LazyHeadersBySize;
/// Map from mtimes to modules with lazy header directives with those mtimes.
mutable llvm::DenseMap<time_t, llvm::TinyPtrVector<Module*>>
LazyHeadersByModTime;
/// Mapping from directories with umbrella headers to the module
/// that is generated from the umbrella header.
///
/// This mapping is used to map headers that haven't explicitly been named
/// in the module map over to the module that includes them via its umbrella
/// header.
llvm::DenseMap<const DirectoryEntry *, Module *> UmbrellaDirs;
/// A generation counter that is used to test whether modules of the
/// same name may shadow or are illegal redefinitions.
///
/// Modules from earlier scopes may shadow modules from later ones.
/// Modules from the same scope may not have the same name.
unsigned CurrentModuleScopeID = 0;
llvm::DenseMap<Module *, unsigned> ModuleScopeIDs;
/// The set of attributes that can be attached to a module.
struct Attributes {
/// Whether this is a system module.
unsigned IsSystem : 1;
/// Whether this is an extern "C" module.
unsigned IsExternC : 1;
/// Whether this is an exhaustive set of configuration macros.
unsigned IsExhaustive : 1;
/// Whether files in this module can only include non-modular headers
/// and headers from used modules.
unsigned NoUndeclaredIncludes : 1;
Attributes()
: IsSystem(false), IsExternC(false), IsExhaustive(false),
NoUndeclaredIncludes(false) {}
};
/// A directory for which framework modules can be inferred.
struct InferredDirectory {
/// Whether to infer modules from this directory.
unsigned InferModules : 1;
/// The attributes to use for inferred modules.
Attributes Attrs;
/// If \c InferModules is non-zero, the module map file that allowed
/// inferred modules. Otherwise, nullptr.
const FileEntry *ModuleMapFile;
/// The names of modules that cannot be inferred within this
/// directory.
SmallVector<std::string, 2> ExcludedModules;
InferredDirectory() : InferModules(false) {}
};
/// A mapping from directories to information about inferring
/// framework modules from within those directories.
llvm::DenseMap<const DirectoryEntry *, InferredDirectory> InferredDirectories;
/// A mapping from an inferred module to the module map that allowed the
/// inference.
llvm::DenseMap<const Module *, const FileEntry *> InferredModuleAllowedBy;
llvm::DenseMap<const Module *, AdditionalModMapsSet> AdditionalModMaps;
/// Describes whether we haved parsed a particular file as a module
/// map.
llvm::DenseMap<const FileEntry *, bool> ParsedModuleMap;
/// Resolve the given export declaration into an actual export
/// declaration.
///
/// \param Mod The module in which we're resolving the export declaration.
///
/// \param Unresolved The export declaration to resolve.
///
/// \param Complain Whether this routine should complain about unresolvable
/// exports.
///
/// \returns The resolved export declaration, which will have a NULL pointer
/// if the export could not be resolved.
Module::ExportDecl
resolveExport(Module *Mod, const Module::UnresolvedExportDecl &Unresolved,
bool Complain) const;
/// Resolve the given module id to an actual module.
///
/// \param Id The module-id to resolve.
///
/// \param Mod The module in which we're resolving the module-id.
///
/// \param Complain Whether this routine should complain about unresolvable
/// module-ids.
///
/// \returns The resolved module, or null if the module-id could not be
/// resolved.
Module *resolveModuleId(const ModuleId &Id, Module *Mod, bool Complain) const;
/// Add an unresolved header to a module.
///
/// \param Mod The module in which we're adding the unresolved header
/// directive.
/// \param Header The unresolved header directive.
/// \param NeedsFramework If Mod is not a framework but a missing header would
/// be found in case Mod was, set it to true. False otherwise.
void addUnresolvedHeader(Module *Mod,
Module::UnresolvedHeaderDirective Header,
bool &NeedsFramework);
/// Look up the given header directive to find an actual header file.
///
/// \param M The module in which we're resolving the header directive.
/// \param Header The header directive to resolve.
/// \param RelativePathName Filled in with the relative path name from the
/// module to the resolved header.
/// \param NeedsFramework If M is not a framework but a missing header would
/// be found in case M was, set it to true. False otherwise.
/// \return The resolved file, if any.
Optional<FileEntryRef>
findHeader(Module *M, const Module::UnresolvedHeaderDirective &Header,
SmallVectorImpl<char> &RelativePathName, bool &NeedsFramework);
/// Resolve the given header directive.
///
/// \param M The module in which we're resolving the header directive.
/// \param Header The header directive to resolve.
/// \param NeedsFramework If M is not a framework but a missing header would
/// be found in case M was, set it to true. False otherwise.
void resolveHeader(Module *M, const Module::UnresolvedHeaderDirective &Header,
bool &NeedsFramework);
/// Attempt to resolve the specified header directive as naming a builtin
/// header.
/// \return \c true if a corresponding builtin header was found.
bool resolveAsBuiltinHeader(Module *M,
const Module::UnresolvedHeaderDirective &Header);
/// Looks up the modules that \p File corresponds to.
///
/// If \p File represents a builtin header within Clang's builtin include
/// directory, this also loads all of the module maps to see if it will get
/// associated with a specific module (e.g. in /usr/include).
HeadersMap::iterator findKnownHeader(const FileEntry *File);
/// Searches for a module whose umbrella directory contains \p File.
///
/// \param File The header to search for.
///
/// \param IntermediateDirs On success, contains the set of directories
/// searched before finding \p File.
KnownHeader findHeaderInUmbrellaDirs(const FileEntry *File,
SmallVectorImpl<const DirectoryEntry *> &IntermediateDirs);
/// Given that \p File is not in the Headers map, look it up within
/// umbrella directories and find or create a module for it.
KnownHeader findOrCreateModuleForHeaderInUmbrellaDir(const FileEntry *File);
/// A convenience method to determine if \p File is (possibly nested)
/// in an umbrella directory.
bool isHeaderInUmbrellaDirs(const FileEntry *File) {
SmallVector<const DirectoryEntry *, 2> IntermediateDirs;
return static_cast<bool>(findHeaderInUmbrellaDirs(File, IntermediateDirs));
}
Module *inferFrameworkModule(const DirectoryEntry *FrameworkDir,
Attributes Attrs, Module *Parent);
public:
/// Construct a new module map.
///
/// \param SourceMgr The source manager used to find module files and headers.
/// This source manager should be shared with the header-search mechanism,
/// since they will refer to the same headers.
///
/// \param Diags A diagnostic engine used for diagnostics.
///
/// \param LangOpts Language options for this translation unit.
///
/// \param Target The target for this translation unit.
ModuleMap(SourceManager &SourceMgr, DiagnosticsEngine &Diags,
const LangOptions &LangOpts, const TargetInfo *Target,
HeaderSearch &HeaderInfo);
/// Destroy the module map.
~ModuleMap();
/// Set the target information.
void setTarget(const TargetInfo &Target);
/// Set the directory that contains Clang-supplied include
/// files, such as our stdarg.h or tgmath.h.
void setBuiltinIncludeDir(const DirectoryEntry *Dir) {
BuiltinIncludeDir = Dir;
}
/// Get the directory that contains Clang-supplied include files.
const DirectoryEntry *getBuiltinDir() const {
return BuiltinIncludeDir;
}
/// Is this a compiler builtin header?
static bool isBuiltinHeader(StringRef FileName);
bool isBuiltinHeader(const FileEntry *File);
/// Add a module map callback.
void addModuleMapCallbacks(std::unique_ptr<ModuleMapCallbacks> Callback) {
Callbacks.push_back(std::move(Callback));
}
/// Retrieve the module that owns the given header file, if any. Note that
/// this does not implicitly load module maps, except for builtin headers,
/// and does not consult the external source. (Those checks are the
/// responsibility of \ref HeaderSearch.)
///
/// \param File The header file that is likely to be included.
///
/// \param AllowTextual If \c true and \p File is a textual header, return
/// its owning module. Otherwise, no KnownHeader will be returned if the
/// file is only known as a textual header.
///
/// \returns The module KnownHeader, which provides the module that owns the
/// given header file. The KnownHeader is default constructed to indicate
/// that no module owns this header file.
KnownHeader findModuleForHeader(const FileEntry *File,
bool AllowTextual = false);
/// Retrieve all the modules that contain the given header file. Note that
/// this does not implicitly load module maps, except for builtin headers,
/// and does not consult the external source. (Those checks are the
/// responsibility of \ref HeaderSearch.)
///
/// Typically, \ref findModuleForHeader should be used instead, as it picks
/// the preferred module for the header.
ArrayRef<KnownHeader> findAllModulesForHeader(const FileEntry *File);
/// Like \ref findAllModulesForHeader, but do not attempt to infer module
/// ownership from umbrella headers if we've not already done so.
ArrayRef<KnownHeader>
findResolvedModulesForHeader(const FileEntry *File) const;
/// Resolve all lazy header directives for the specified file.
///
/// This ensures that the HeaderFileInfo on HeaderSearch is up to date. This
/// is effectively internal, but is exposed so HeaderSearch can call it.
void resolveHeaderDirectives(const FileEntry *File) const;
/// Resolve all lazy header directives for the specified module.
void resolveHeaderDirectives(Module *Mod) const;
/// Reports errors if a module must not include a specific file.
///
/// \param RequestingModule The module including a file.
///
/// \param RequestingModuleIsModuleInterface \c true if the inclusion is in
/// the interface of RequestingModule, \c false if it's in the
/// implementation of RequestingModule. Value is ignored and
/// meaningless if RequestingModule is nullptr.
///
/// \param FilenameLoc The location of the inclusion's filename.
///
/// \param Filename The included filename as written.
///
/// \param File The included file.
void diagnoseHeaderInclusion(Module *RequestingModule,
bool RequestingModuleIsModuleInterface,
SourceLocation FilenameLoc, StringRef Filename,
const FileEntry *File);
/// Determine whether the given header is part of a module
/// marked 'unavailable'.
bool isHeaderInUnavailableModule(const FileEntry *Header) const;
/// Determine whether the given header is unavailable as part
/// of the specified module.
bool isHeaderUnavailableInModule(const FileEntry *Header,
const Module *RequestingModule) const;
/// Retrieve a module with the given name.
///
/// \param Name The name of the module to look up.
///
/// \returns The named module, if known; otherwise, returns null.
Module *findModule(StringRef Name) const;
/// Retrieve a module with the given name using lexical name lookup,
/// starting at the given context.
///
/// \param Name The name of the module to look up.
///
/// \param Context The module context, from which we will perform lexical
/// name lookup.
///
/// \returns The named module, if known; otherwise, returns null.
Module *lookupModuleUnqualified(StringRef Name, Module *Context) const;
/// Retrieve a module with the given name within the given context,
/// using direct (qualified) name lookup.
///
/// \param Name The name of the module to look up.
///
/// \param Context The module for which we will look for a submodule. If
/// null, we will look for a top-level module.
///
/// \returns The named submodule, if known; otherwose, returns null.
Module *lookupModuleQualified(StringRef Name, Module *Context) const;
/// Find a new module or submodule, or create it if it does not already
/// exist.
///
/// \param Name The name of the module to find or create.
///
/// \param Parent The module that will act as the parent of this submodule,
/// or nullptr to indicate that this is a top-level module.
///
/// \param IsFramework Whether this is a framework module.
///
/// \param IsExplicit Whether this is an explicit submodule.
///
/// \returns The found or newly-created module, along with a boolean value
/// that will be true if the module is newly-created.
std::pair<Module *, bool> findOrCreateModule(StringRef Name, Module *Parent,
bool IsFramework,
bool IsExplicit);
/// Create a global module fragment for a C++ module unit.
///
/// We model the global module fragment as a submodule of the module
/// interface unit. Unfortunately, we can't create the module interface
/// unit's Module until later, because we don't know what it will be called
/// usually. See C++20 [module.unit]/7.2 for the case we could know its
/// parent.
Module *createGlobalModuleFragmentForModuleUnit(SourceLocation Loc,
Module *Parent = nullptr);
/// Create a global module fragment for a C++ module interface unit.
Module *createPrivateModuleFragmentForInterfaceUnit(Module *Parent,
SourceLocation Loc);
/// Create a new module for a C++ module interface unit.
/// The module must not already exist, and will be configured for the current
/// compilation.
///
/// Note that this also sets the current module to the newly-created module.
///
/// \returns The newly-created module.
Module *createModuleForInterfaceUnit(SourceLocation Loc, StringRef Name,
Module *GlobalModule);
/// Create a header module from the specified list of headers.
Module *createHeaderModule(StringRef Name, ArrayRef<Module::Header> Headers);
/// Infer the contents of a framework module map from the given
/// framework directory.
Module *inferFrameworkModule(const DirectoryEntry *FrameworkDir,
bool IsSystem, Module *Parent);
/// Create a new top-level module that is shadowed by
/// \p ShadowingModule.
Module *createShadowedModule(StringRef Name, bool IsFramework,
Module *ShadowingModule);
/// Creates a new declaration scope for module names, allowing
/// previously defined modules to shadow definitions from the new scope.
///
/// \note Module names from earlier scopes will shadow names from the new
/// scope, which is the opposite of how shadowing works for variables.
void finishModuleDeclarationScope() { CurrentModuleScopeID += 1; }
bool mayShadowNewModule(Module *ExistingModule) {
assert(!ExistingModule->Parent && "expected top-level module");
assert(ModuleScopeIDs.count(ExistingModule) && "unknown module");
return ModuleScopeIDs[ExistingModule] < CurrentModuleScopeID;
}
/// Retrieve the module map file containing the definition of the given
/// module.
///
/// \param Module The module whose module map file will be returned, if known.
///
/// \returns The file entry for the module map file containing the given
/// module, or nullptr if the module definition was inferred.
const FileEntry *getContainingModuleMapFile(const Module *Module) const;
/// Get the module map file that (along with the module name) uniquely
/// identifies this module.
///
/// The particular module that \c Name refers to may depend on how the module
/// was found in header search. However, the combination of \c Name and
/// this module map will be globally unique for top-level modules. In the case
/// of inferred modules, returns the module map that allowed the inference
/// (e.g. contained 'module *'). Otherwise, returns
/// getContainingModuleMapFile().
const FileEntry *getModuleMapFileForUniquing(const Module *M) const;
void setInferredModuleAllowedBy(Module *M, const FileEntry *ModMap);
/// Get any module map files other than getModuleMapFileForUniquing(M)
/// that define submodules of a top-level module \p M. This is cheaper than
/// getting the module map file for each submodule individually, since the
/// expected number of results is very small.
AdditionalModMapsSet *getAdditionalModuleMapFiles(const Module *M) {
auto I = AdditionalModMaps.find(M);
if (I == AdditionalModMaps.end())
return nullptr;
return &I->second;
}
void addAdditionalModuleMapFile(const Module *M, const FileEntry *ModuleMap);
/// Resolve all of the unresolved exports in the given module.
///
/// \param Mod The module whose exports should be resolved.
///
/// \param Complain Whether to emit diagnostics for failures.
///
/// \returns true if any errors were encountered while resolving exports,
/// false otherwise.
bool resolveExports(Module *Mod, bool Complain);
/// Resolve all of the unresolved uses in the given module.
///
/// \param Mod The module whose uses should be resolved.
///
/// \param Complain Whether to emit diagnostics for failures.
///
/// \returns true if any errors were encountered while resolving uses,
/// false otherwise.
bool resolveUses(Module *Mod, bool Complain);
/// Resolve all of the unresolved conflicts in the given module.
///
/// \param Mod The module whose conflicts should be resolved.
///
/// \param Complain Whether to emit diagnostics for failures.
///
/// \returns true if any errors were encountered while resolving conflicts,
/// false otherwise.
bool resolveConflicts(Module *Mod, bool Complain);
/// Sets the umbrella header of the given module to the given
/// header.
void setUmbrellaHeader(Module *Mod, const FileEntry *UmbrellaHeader,
const Twine &NameAsWritten,
const Twine &PathRelativeToRootModuleDirectory);
/// Sets the umbrella directory of the given module to the given
/// directory.
void setUmbrellaDir(Module *Mod, const DirectoryEntry *UmbrellaDir,
const Twine &NameAsWritten,
const Twine &PathRelativeToRootModuleDirectory);
/// Adds this header to the given module.
/// \param Role The role of the header wrt the module.
void addHeader(Module *Mod, Module::Header Header,
ModuleHeaderRole Role, bool Imported = false);
/// Marks this header as being excluded from the given module.
void excludeHeader(Module *Mod, Module::Header Header);
/// Parse the given module map file, and record any modules we
/// encounter.
///
/// \param File The file to be parsed.
///
/// \param IsSystem Whether this module map file is in a system header
/// directory, and therefore should be considered a system module.
///
/// \param HomeDir The directory in which relative paths within this module
/// map file will be resolved.
///
/// \param ID The FileID of the file to process, if we've already entered it.
///
/// \param Offset [inout] On input the offset at which to start parsing. On
/// output, the offset at which the module map terminated.
///
/// \param ExternModuleLoc The location of the "extern module" declaration
/// that caused us to load this module map file, if any.
///
/// \returns true if an error occurred, false otherwise.
bool parseModuleMapFile(const FileEntry *File, bool IsSystem,
const DirectoryEntry *HomeDir,
FileID ID = FileID(), unsigned *Offset = nullptr,
SourceLocation ExternModuleLoc = SourceLocation());
/// Dump the contents of the module map, for debugging purposes.
void dump();
using module_iterator = llvm::StringMap<Module *>::const_iterator;
module_iterator module_begin() const { return Modules.begin(); }
module_iterator module_end() const { return Modules.end(); }
llvm::iterator_range<module_iterator> modules() const {
return {module_begin(), module_end()};
}
/// Cache a module load. M might be nullptr.
void cacheModuleLoad(const IdentifierInfo &II, Module *M) {
CachedModuleLoads[&II] = M;
}
/// Return a cached module load.
llvm::Optional<Module *> getCachedModuleLoad(const IdentifierInfo &II) {
auto I = CachedModuleLoads.find(&II);
if (I == CachedModuleLoads.end())
return None;
return I->second;
}
};
} // namespace clang
#endif // LLVM_CLANG_LEX_MODULEMAP_H
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
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