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llvm / llvm-project / clang / refs/heads/main / . / include / clang / Lex / HeaderSearch.h
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//===- HeaderSearch.h - Resolve Header File Locations -----------*- 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 HeaderSearch interface.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_LEX_HEADERSEARCH_H
#define LLVM_CLANG_LEX_HEADERSEARCH_H
#include "clang/Basic/SourceLocation.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Lex/DirectoryLookup.h"
#include "clang/Lex/HeaderMap.h"
#include "clang/Lex/ModuleMap.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/Support/Allocator.h"
#include <cassert>
#include <cstddef>
#include <memory>
#include <string>
#include <utility>
#include <vector>
namespace llvm {
class Triple;
} // namespace llvm
namespace clang {
class DiagnosticsEngine;
class DirectoryEntry;
class ExternalPreprocessorSource;
class FileEntry;
class FileManager;
class HeaderSearch;
class HeaderSearchOptions;
class IdentifierInfo;
class LangOptions;
class Module;
class Preprocessor;
class TargetInfo;
/// The preprocessor keeps track of this information for each
/// file that is \#included.
struct HeaderFileInfo {
// TODO: Whether the file was included is not a property of the file itself.
// It's a preprocessor state, move it there.
/// True if this file has been included (or imported) **locally**.
LLVM_PREFERRED_TYPE(bool)
unsigned IsLocallyIncluded : 1;
// TODO: Whether the file was imported is not a property of the file itself.
// It's a preprocessor state, move it there.
/// True if this is a \#import'd file.
LLVM_PREFERRED_TYPE(bool)
unsigned isImport : 1;
/// True if this is a \#pragma once file.
LLVM_PREFERRED_TYPE(bool)
unsigned isPragmaOnce : 1;
/// Keep track of whether this is a system header, and if so,
/// whether it is C++ clean or not. This can be set by the include paths or
/// by \#pragma gcc system_header. This is an instance of
/// SrcMgr::CharacteristicKind.
LLVM_PREFERRED_TYPE(SrcMgr::CharacteristicKind)
unsigned DirInfo : 3;
/// Whether this header file info was supplied by an external source,
/// and has not changed since.
LLVM_PREFERRED_TYPE(bool)
unsigned External : 1;
/// Whether this header is part of and built with a module. i.e. it is listed
/// in a module map, and is not `excluded` or `textual`. (same meaning as
/// `ModuleMap::isModular()`).
LLVM_PREFERRED_TYPE(bool)
unsigned isModuleHeader : 1;
/// Whether this header is a `textual header` in a module.
LLVM_PREFERRED_TYPE(bool)
unsigned isTextualModuleHeader : 1;
/// Whether this header is part of the module that we are building, even if it
/// doesn't build with the module. i.e. this will include `excluded` and
/// `textual` headers as well as normal headers.
LLVM_PREFERRED_TYPE(bool)
unsigned isCompilingModuleHeader : 1;
/// Whether this structure is considered to already have been
/// "resolved", meaning that it was loaded from the external source.
LLVM_PREFERRED_TYPE(bool)
unsigned Resolved : 1;
/// Whether this is a header inside a framework that is currently
/// being built.
///
/// When a framework is being built, the headers have not yet been placed
/// into the appropriate framework subdirectories, and therefore are
/// provided via a header map. This bit indicates when this is one of
/// those framework headers.
LLVM_PREFERRED_TYPE(bool)
unsigned IndexHeaderMapHeader : 1;
/// Whether this file has been looked up as a header.
LLVM_PREFERRED_TYPE(bool)
unsigned IsValid : 1;
/// The ID number of the controlling macro.
///
/// This ID number will be non-zero when there is a controlling
/// macro whose IdentifierInfo may not yet have been loaded from
/// external storage.
unsigned ControllingMacroID = 0;
/// If this file has a \#ifndef XXX (or equivalent) guard that
/// protects the entire contents of the file, this is the identifier
/// for the macro that controls whether or not it has any effect.
///
/// Note: Most clients should use getControllingMacro() to access
/// the controlling macro of this header, since
/// getControllingMacro() is able to load a controlling macro from
/// external storage.
const IdentifierInfo *ControllingMacro = nullptr;
/// If this header came from a framework include, this is the name
/// of the framework.
StringRef Framework;
HeaderFileInfo()
: IsLocallyIncluded(false), isImport(false), isPragmaOnce(false),
DirInfo(SrcMgr::C_User), External(false), isModuleHeader(false),
isTextualModuleHeader(false), isCompilingModuleHeader(false),
Resolved(false), IndexHeaderMapHeader(false), IsValid(false) {}
/// Retrieve the controlling macro for this header file, if
/// any.
const IdentifierInfo *
getControllingMacro(ExternalPreprocessorSource *External);
/// Update the module membership bits based on the header role.
///
/// isModuleHeader will potentially be set, but not cleared.
/// isTextualModuleHeader will be set or cleared based on the role update.
void mergeModuleMembership(ModuleMap::ModuleHeaderRole Role);
};
/// An external source of header file information, which may supply
/// information about header files already included.
class ExternalHeaderFileInfoSource {
public:
virtual ~ExternalHeaderFileInfoSource();
/// Retrieve the header file information for the given file entry.
///
/// \returns Header file information for the given file entry, with the
/// \c External bit set. If the file entry is not known, return a
/// default-constructed \c HeaderFileInfo.
virtual HeaderFileInfo GetHeaderFileInfo(FileEntryRef FE) = 0;
};
/// This structure is used to record entries in our framework cache.
struct FrameworkCacheEntry {
/// The directory entry which should be used for the cached framework.
OptionalDirectoryEntryRef Directory;
/// Whether this framework has been "user-specified" to be treated as if it
/// were a system framework (even if it was found outside a system framework
/// directory).
bool IsUserSpecifiedSystemFramework;
};
namespace detail {
template <bool Const, typename T>
using Qualified = std::conditional_t<Const, const T, T>;
/// Forward iterator over the search directories of \c HeaderSearch.
template <bool IsConst>
struct SearchDirIteratorImpl
: llvm::iterator_facade_base<SearchDirIteratorImpl<IsConst>,
std::forward_iterator_tag,
Qualified<IsConst, DirectoryLookup>> {
/// Const -> non-const iterator conversion.
template <typename Enable = std::enable_if<IsConst, bool>>
SearchDirIteratorImpl(const SearchDirIteratorImpl<false> &Other)
: HS(Other.HS), Idx(Other.Idx) {}
SearchDirIteratorImpl(const SearchDirIteratorImpl &) = default;
SearchDirIteratorImpl &operator=(const SearchDirIteratorImpl &) = default;
bool operator==(const SearchDirIteratorImpl &RHS) const {
return HS == RHS.HS && Idx == RHS.Idx;
}
SearchDirIteratorImpl &operator++() {
assert(*this && "Invalid iterator.");
++Idx;
return *this;
}
Qualified<IsConst, DirectoryLookup> &operator*() const {
assert(*this && "Invalid iterator.");
return HS->SearchDirs[Idx];
}
/// Creates an invalid iterator.
SearchDirIteratorImpl(std::nullptr_t) : HS(nullptr), Idx(0) {}
/// Checks whether the iterator is valid.
explicit operator bool() const { return HS != nullptr; }
private:
/// The parent \c HeaderSearch. This is \c nullptr for invalid iterator.
Qualified<IsConst, HeaderSearch> *HS;
/// The index of the current element.
size_t Idx;
/// The constructor that creates a valid iterator.
SearchDirIteratorImpl(Qualified<IsConst, HeaderSearch> &HS, size_t Idx)
: HS(&HS), Idx(Idx) {}
/// Only HeaderSearch is allowed to instantiate valid iterators.
friend HeaderSearch;
/// Enables const -> non-const conversion.
friend SearchDirIteratorImpl<!IsConst>;
};
} // namespace detail
using ConstSearchDirIterator = detail::SearchDirIteratorImpl<true>;
using SearchDirIterator = detail::SearchDirIteratorImpl<false>;
using ConstSearchDirRange = llvm::iterator_range<ConstSearchDirIterator>;
using SearchDirRange = llvm::iterator_range<SearchDirIterator>;
/// Encapsulates the information needed to find the file referenced
/// by a \#include or \#include_next, (sub-)framework lookup, etc.
class HeaderSearch {
friend class DirectoryLookup;
friend ConstSearchDirIterator;
friend SearchDirIterator;
/// Header-search options used to initialize this header search.
std::shared_ptr<HeaderSearchOptions> HSOpts;
/// Mapping from SearchDir to HeaderSearchOptions::UserEntries indices.
llvm::DenseMap<unsigned, unsigned> SearchDirToHSEntry;
DiagnosticsEngine &Diags;
FileManager &FileMgr;
/// \#include search path information. Requests for \#include "x" search the
/// directory of the \#including file first, then each directory in SearchDirs
/// consecutively. Requests for <x> search the current dir first, then each
/// directory in SearchDirs, starting at AngledDirIdx, consecutively.
std::vector<DirectoryLookup> SearchDirs;
/// Whether the DirectoryLookup at the corresponding index in SearchDirs has
/// been successfully used to lookup a file.
std::vector<bool> SearchDirsUsage;
unsigned AngledDirIdx = 0;
unsigned SystemDirIdx = 0;
/// Maps HeaderMap keys to SearchDir indices. When HeaderMaps are used
/// heavily, SearchDirs can start with thousands of HeaderMaps, so this Index
/// lets us avoid scanning them all to find a match.
llvm::StringMap<unsigned, llvm::BumpPtrAllocator> SearchDirHeaderMapIndex;
/// The index of the first SearchDir that isn't a header map.
unsigned FirstNonHeaderMapSearchDirIdx = 0;
/// \#include prefixes for which the 'system header' property is
/// overridden.
///
/// For a \#include "x" or \#include \<x> directive, the last string in this
/// list which is a prefix of 'x' determines whether the file is treated as
/// a system header.
std::vector<std::pair<std::string, bool>> SystemHeaderPrefixes;
/// The hash used for module cache paths.
std::string ModuleHash;
/// The path to the module cache.
std::string ModuleCachePath;
/// All of the preprocessor-specific data about files that are
/// included, indexed by the FileEntry's UID.
mutable std::vector<HeaderFileInfo> FileInfo;
/// Keeps track of each lookup performed by LookupFile.
struct LookupFileCacheInfo {
// The requesting module for the lookup we cached.
const Module *RequestingModule = nullptr;
/// Starting search directory iterator that the cached search was performed
/// from. If there is a hit and this value doesn't match the current query,
/// the cache has to be ignored.
ConstSearchDirIterator StartIt = nullptr;
/// The search directory iterator that satisfied the query.
ConstSearchDirIterator HitIt = nullptr;
/// This is non-null if the original filename was mapped to a framework
/// include via a headermap.
const char *MappedName = nullptr;
/// Default constructor -- Initialize all members with zero.
LookupFileCacheInfo() = default;
void reset(const Module *NewRequestingModule,
ConstSearchDirIterator NewStartIt) {
RequestingModule = NewRequestingModule;
StartIt = NewStartIt;
MappedName = nullptr;
}
};
llvm::StringMap<LookupFileCacheInfo, llvm::BumpPtrAllocator> LookupFileCache;
/// Collection mapping a framework or subframework
/// name like "Carbon" to the Carbon.framework directory.
llvm::StringMap<FrameworkCacheEntry, llvm::BumpPtrAllocator> FrameworkMap;
/// Maps include file names (including the quotes or
/// angle brackets) to other include file names. This is used to support the
/// include_alias pragma for Microsoft compatibility.
using IncludeAliasMap =
llvm::StringMap<std::string, llvm::BumpPtrAllocator>;
std::unique_ptr<IncludeAliasMap> IncludeAliases;
/// This is a mapping from FileEntry -> HeaderMap, uniquing headermaps.
std::vector<std::pair<FileEntryRef, std::unique_ptr<HeaderMap>>> HeaderMaps;
/// The mapping between modules and headers.
mutable ModuleMap ModMap;
/// Describes whether a given directory has a module map in it.
llvm::DenseMap<const DirectoryEntry *, bool> DirectoryHasModuleMap;
/// Set of module map files we've already loaded, and a flag indicating
/// whether they were valid or not.
llvm::DenseMap<const FileEntry *, bool> LoadedModuleMaps;
// A map of discovered headers with their associated include file name.
llvm::DenseMap<const FileEntry *, llvm::SmallString<64>> IncludeNames;
/// Uniqued set of framework names, which is used to track which
/// headers were included as framework headers.
llvm::StringSet<llvm::BumpPtrAllocator> FrameworkNames;
/// Entity used to resolve the identifier IDs of controlling
/// macros into IdentifierInfo pointers, and keep the identifire up to date,
/// as needed.
ExternalPreprocessorSource *ExternalLookup = nullptr;
/// Entity used to look up stored header file information.
ExternalHeaderFileInfoSource *ExternalSource = nullptr;
/// Scan all of the header maps at the beginning of SearchDirs and
/// map their keys to the SearchDir index of their header map.
void indexInitialHeaderMaps();
public:
HeaderSearch(std::shared_ptr<HeaderSearchOptions> HSOpts,
SourceManager &SourceMgr, DiagnosticsEngine &Diags,
const LangOptions &LangOpts, const TargetInfo *Target);
HeaderSearch(const HeaderSearch &) = delete;
HeaderSearch &operator=(const HeaderSearch &) = delete;
/// Retrieve the header-search options with which this header search
/// was initialized.
HeaderSearchOptions &getHeaderSearchOpts() const { return *HSOpts; }
FileManager &getFileMgr() const { return FileMgr; }
DiagnosticsEngine &getDiags() const { return Diags; }
/// Interface for setting the file search paths.
void SetSearchPaths(std::vector<DirectoryLookup> dirs, unsigned angledDirIdx,
unsigned systemDirIdx,
llvm::DenseMap<unsigned, unsigned> searchDirToHSEntry);
/// Add an additional search path.
void AddSearchPath(const DirectoryLookup &dir, bool isAngled);
/// Add an additional system search path.
void AddSystemSearchPath(const DirectoryLookup &dir) {
SearchDirs.push_back(dir);
SearchDirsUsage.push_back(false);
}
/// Set the list of system header prefixes.
void SetSystemHeaderPrefixes(ArrayRef<std::pair<std::string, bool>> P) {
SystemHeaderPrefixes.assign(P.begin(), P.end());
}
/// Checks whether the map exists or not.
bool HasIncludeAliasMap() const { return (bool)IncludeAliases; }
/// Map the source include name to the dest include name.
///
/// The Source should include the angle brackets or quotes, the dest
/// should not. This allows for distinction between <> and "" headers.
void AddIncludeAlias(StringRef Source, StringRef Dest) {
if (!IncludeAliases)
IncludeAliases.reset(new IncludeAliasMap);
(*IncludeAliases)[Source] = std::string(Dest);
}
/// Maps one header file name to a different header
/// file name, for use with the include_alias pragma. Note that the source
/// file name should include the angle brackets or quotes. Returns StringRef
/// as null if the header cannot be mapped.
StringRef MapHeaderToIncludeAlias(StringRef Source) {
assert(IncludeAliases && "Trying to map headers when there's no map");
// Do any filename replacements before anything else
IncludeAliasMap::const_iterator Iter = IncludeAliases->find(Source);
if (Iter != IncludeAliases->end())
return Iter->second;
return {};
}
/// Set the hash to use for module cache paths.
void setModuleHash(StringRef Hash) { ModuleHash = std::string(Hash); }
/// Set the path to the module cache.
void setModuleCachePath(StringRef CachePath) {
ModuleCachePath = std::string(CachePath);
}
/// Retrieve the module hash.
StringRef getModuleHash() const { return ModuleHash; }
/// Retrieve the path to the module cache.
StringRef getModuleCachePath() const { return ModuleCachePath; }
/// Consider modules when including files from this directory.
void setDirectoryHasModuleMap(const DirectoryEntry* Dir) {
DirectoryHasModuleMap[Dir] = true;
}
/// Forget everything we know about headers so far.
void ClearFileInfo() {
FileInfo.clear();
}
void SetExternalLookup(ExternalPreprocessorSource *EPS) {
ExternalLookup = EPS;
}
ExternalPreprocessorSource *getExternalLookup() const {
return ExternalLookup;
}
/// Set the external source of header information.
void SetExternalSource(ExternalHeaderFileInfoSource *ES) {
ExternalSource = ES;
}
/// Set the target information for the header search, if not
/// already known.
void setTarget(const TargetInfo &Target);
/// Given a "foo" or \<foo> reference, look up the indicated file,
/// return null on failure.
///
/// \returns If successful, this returns 'UsedDir', the DirectoryLookup member
/// the file was found in, or null if not applicable.
///
/// \param IncludeLoc Used for diagnostics if valid.
///
/// \param isAngled indicates whether the file reference is a <> reference.
///
/// \param CurDir If non-null, the file was found in the specified directory
/// search location. This is used to implement \#include_next.
///
/// \param Includers Indicates where the \#including file(s) are, in case
/// relative searches are needed. In reverse order of inclusion.
///
/// \param SearchPath If non-null, will be set to the search path relative
/// to which the file was found. If the include path is absolute, SearchPath
/// will be set to an empty string.
///
/// \param RelativePath If non-null, will be set to the path relative to
/// SearchPath at which the file was found. This only differs from the
/// Filename for framework includes.
///
/// \param SuggestedModule If non-null, and the file found is semantically
/// part of a known module, this will be set to the module that should
/// be imported instead of preprocessing/parsing the file found.
///
/// \param IsMapped If non-null, and the search involved header maps, set to
/// true.
///
/// \param IsFrameworkFound If non-null, will be set to true if a framework is
/// found in any of searched SearchDirs. Will be set to false if a framework
/// is found only through header maps. Doesn't guarantee the requested file is
/// found.
OptionalFileEntryRef LookupFile(
StringRef Filename, SourceLocation IncludeLoc, bool isAngled,
ConstSearchDirIterator FromDir, ConstSearchDirIterator *CurDir,
ArrayRef<std::pair<OptionalFileEntryRef, DirectoryEntryRef>> Includers,
SmallVectorImpl<char> *SearchPath, SmallVectorImpl<char> *RelativePath,
Module *RequestingModule, ModuleMap::KnownHeader *SuggestedModule,
bool *IsMapped, bool *IsFrameworkFound, bool SkipCache = false,
bool BuildSystemModule = false, bool OpenFile = true,
bool CacheFailures = true);
/// Look up a subframework for the specified \#include file.
///
/// For example, if \#include'ing <HIToolbox/HIToolbox.h> from
/// within ".../Carbon.framework/Headers/Carbon.h", check to see if
/// HIToolbox is a subframework within Carbon.framework. If so, return
/// the FileEntry for the designated file, otherwise return null.
OptionalFileEntryRef LookupSubframeworkHeader(
StringRef Filename, FileEntryRef ContextFileEnt,
SmallVectorImpl<char> *SearchPath, SmallVectorImpl<char> *RelativePath,
Module *RequestingModule, ModuleMap::KnownHeader *SuggestedModule);
/// Look up the specified framework name in our framework cache.
/// \returns The DirectoryEntry it is in if we know, null otherwise.
FrameworkCacheEntry &LookupFrameworkCache(StringRef FWName) {
return FrameworkMap[FWName];
}
/// Mark the specified file as a target of a \#include,
/// \#include_next, or \#import directive.
///
/// \return false if \#including the file will have no effect or true
/// if we should include it.
///
/// \param M The module to which `File` belongs (this should usually be the
/// SuggestedModule returned by LookupFile/LookupSubframeworkHeader)
bool ShouldEnterIncludeFile(Preprocessor &PP, FileEntryRef File,
bool isImport, bool ModulesEnabled, Module *M,
bool &IsFirstIncludeOfFile);
/// Return whether the specified file is a normal header,
/// a system header, or a C++ friendly system header.
SrcMgr::CharacteristicKind getFileDirFlavor(FileEntryRef File) {
if (const HeaderFileInfo *HFI = getExistingFileInfo(File))
return (SrcMgr::CharacteristicKind)HFI->DirInfo;
return (SrcMgr::CharacteristicKind)HeaderFileInfo().DirInfo;
}
/// Mark the specified file as a "once only" file due to
/// \#pragma once.
void MarkFileIncludeOnce(FileEntryRef File) {
getFileInfo(File).isPragmaOnce = true;
}
/// Mark the specified file as a system header, e.g. due to
/// \#pragma GCC system_header.
void MarkFileSystemHeader(FileEntryRef File) {
getFileInfo(File).DirInfo = SrcMgr::C_System;
}
/// Mark the specified file as part of a module.
void MarkFileModuleHeader(FileEntryRef FE, ModuleMap::ModuleHeaderRole Role,
bool isCompilingModuleHeader);
/// Mark the specified file as having a controlling macro.
///
/// This is used by the multiple-include optimization to eliminate
/// no-op \#includes.
void SetFileControllingMacro(FileEntryRef File,
const IdentifierInfo *ControllingMacro) {
getFileInfo(File).ControllingMacro = ControllingMacro;
}
/// Determine whether this file is intended to be safe from
/// multiple inclusions, e.g., it has \#pragma once or a controlling
/// macro.
///
/// This routine does not consider the effect of \#import
bool isFileMultipleIncludeGuarded(FileEntryRef File) const;
/// Determine whether the given file is known to have ever been \#imported.
bool hasFileBeenImported(FileEntryRef File) const {
const HeaderFileInfo *FI = getExistingFileInfo(File);
return FI && FI->isImport;
}
/// Determine which HeaderSearchOptions::UserEntries have been successfully
/// used so far and mark their index with 'true' in the resulting bit vector.
/// Note: implicit module maps don't contribute to entry usage.
std::vector<bool> computeUserEntryUsage() const;
/// Collect which HeaderSearchOptions::VFSOverlayFiles have been meaningfully
/// used so far and mark their index with 'true' in the resulting bit vector.
///
/// Note: this ignores VFSs that redirect non-affecting files such as unused
/// modulemaps.
std::vector<bool> collectVFSUsageAndClear() const;
/// This method returns a HeaderMap for the specified
/// FileEntry, uniquing them through the 'HeaderMaps' datastructure.
const HeaderMap *CreateHeaderMap(FileEntryRef FE);
/// Get filenames for all registered header maps.
void getHeaderMapFileNames(SmallVectorImpl<std::string> &Names) const;
/// Retrieve the name of the cached module file that should be used
/// to load the given module.
///
/// \param Module The module whose module file name will be returned.
///
/// \returns The name of the module file that corresponds to this module,
/// or an empty string if this module does not correspond to any module file.
std::string getCachedModuleFileName(Module *Module);
/// Retrieve the name of the prebuilt module file that should be used
/// to load a module with the given name.
///
/// \param ModuleName The module whose module file name will be returned.
///
/// \param FileMapOnly If true, then only look in the explicit module name
// to file name map and skip the directory search.
///
/// \returns The name of the module file that corresponds to this module,
/// or an empty string if this module does not correspond to any module file.
std::string getPrebuiltModuleFileName(StringRef ModuleName,
bool FileMapOnly = false);
/// Retrieve the name of the prebuilt module file that should be used
/// to load the given module.
///
/// \param Module The module whose module file name will be returned.
///
/// \returns The name of the module file that corresponds to this module,
/// or an empty string if this module does not correspond to any module file.
std::string getPrebuiltImplicitModuleFileName(Module *Module);
/// Retrieve the name of the (to-be-)cached module file that should
/// be used to load a module with the given name.
///
/// \param ModuleName The module whose module file name will be returned.
///
/// \param ModuleMapPath A path that when combined with \c ModuleName
/// uniquely identifies this module. See Module::ModuleMap.
///
/// \returns The name of the module file that corresponds to this module,
/// or an empty string if this module does not correspond to any module file.
std::string getCachedModuleFileName(StringRef ModuleName,
StringRef ModuleMapPath);
/// Lookup a module Search for a module with the given name.
///
/// \param ModuleName The name of the module we're looking for.
///
/// \param ImportLoc Location of the module include/import.
///
/// \param AllowSearch Whether we are allowed to search in the various
/// search directories to produce a module definition. If not, this lookup
/// will only return an already-known module.
///
/// \param AllowExtraModuleMapSearch Whether we allow to search modulemaps
/// in subdirectories.
///
/// \returns The module with the given name.
Module *lookupModule(StringRef ModuleName,
SourceLocation ImportLoc = SourceLocation(),
bool AllowSearch = true,
bool AllowExtraModuleMapSearch = false);
/// Try to find a module map file in the given directory, returning
/// \c nullopt if none is found.
OptionalFileEntryRef lookupModuleMapFile(DirectoryEntryRef Dir,
bool IsFramework);
/// Determine whether there is a module map that may map the header
/// with the given file name to a (sub)module.
/// Always returns false if modules are disabled.
///
/// \param Filename The name of the file.
///
/// \param Root The "root" directory, at which we should stop looking for
/// module maps.
///
/// \param IsSystem Whether the directories we're looking at are system
/// header directories.
bool hasModuleMap(StringRef Filename, const DirectoryEntry *Root,
bool IsSystem);
/// Retrieve the module that corresponds to the given file, if any.
///
/// \param File The header that we wish to map to a module.
/// \param AllowTextual Whether we want to find textual headers too.
ModuleMap::KnownHeader findModuleForHeader(FileEntryRef File,
bool AllowTextual = false,
bool AllowExcluded = false) const;
/// Retrieve all the modules corresponding to the given file.
///
/// \ref findModuleForHeader should typically be used instead of this.
ArrayRef<ModuleMap::KnownHeader>
findAllModulesForHeader(FileEntryRef File) const;
/// Like \ref findAllModulesForHeader, but do not attempt to infer module
/// ownership from umbrella headers if we've not already done so.
ArrayRef<ModuleMap::KnownHeader>
findResolvedModulesForHeader(FileEntryRef File) const;
/// Read the contents of the given module map file.
///
/// \param File The module map file.
/// \param IsSystem Whether this file is in a system header directory.
/// \param ID If the module map file is already mapped (perhaps as part of
/// processing a preprocessed module), the ID of the file.
/// \param Offset [inout] An offset within ID to start parsing. On exit,
/// filled by the end of the parsed contents (either EOF or the
/// location of an end-of-module-map pragma).
/// \param OriginalModuleMapFile The original path to the module map file,
/// used to resolve paths within the module (this is required when
/// building the module from preprocessed source).
/// \returns true if an error occurred, false otherwise.
bool loadModuleMapFile(FileEntryRef File, bool IsSystem, FileID ID = FileID(),
unsigned *Offset = nullptr,
StringRef OriginalModuleMapFile = StringRef());
/// Collect the set of all known, top-level modules.
///
/// \param Modules Will be filled with the set of known, top-level modules.
void collectAllModules(SmallVectorImpl<Module *> &Modules);
/// Load all known, top-level system modules.
void loadTopLevelSystemModules();
private:
/// Lookup a module with the given module name and search-name.
///
/// \param ModuleName The name of the module we're looking for.
///
/// \param SearchName The "search-name" to derive filesystem paths from
/// when looking for the module map; this is usually equal to ModuleName,
/// but for compatibility with some buggy frameworks, additional attempts
/// may be made to find the module under a related-but-different search-name.
///
/// \param ImportLoc Location of the module include/import.
///
/// \param AllowExtraModuleMapSearch Whether we allow to search modulemaps
/// in subdirectories.
///
/// \returns The module named ModuleName.
Module *lookupModule(StringRef ModuleName, StringRef SearchName,
SourceLocation ImportLoc,
bool AllowExtraModuleMapSearch = false);
/// Retrieve the name of the (to-be-)cached module file that should
/// be used to load a module with the given name.
///
/// \param ModuleName The module whose module file name will be returned.
///
/// \param ModuleMapPath A path that when combined with \c ModuleName
/// uniquely identifies this module. See Module::ModuleMap.
///
/// \param CachePath A path to the module cache.
///
/// \returns The name of the module file that corresponds to this module,
/// or an empty string if this module does not correspond to any module file.
std::string getCachedModuleFileNameImpl(StringRef ModuleName,
StringRef ModuleMapPath,
StringRef CachePath);
/// Retrieve a module with the given name, which may be part of the
/// given framework.
///
/// \param Name The name of the module to retrieve.
///
/// \param Dir The framework directory (e.g., ModuleName.framework).
///
/// \param IsSystem Whether the framework directory is part of the system
/// frameworks.
///
/// \returns The module, if found; otherwise, null.
Module *loadFrameworkModule(StringRef Name, DirectoryEntryRef Dir,
bool IsSystem);
/// Load all of the module maps within the immediate subdirectories
/// of the given search directory.
void loadSubdirectoryModuleMaps(DirectoryLookup &SearchDir);
/// Find and suggest a usable module for the given file.
///
/// \return \c true if the file can be used, \c false if we are not permitted to
/// find this file due to requirements from \p RequestingModule.
bool findUsableModuleForHeader(FileEntryRef File, const DirectoryEntry *Root,
Module *RequestingModule,
ModuleMap::KnownHeader *SuggestedModule,
bool IsSystemHeaderDir);
/// Find and suggest a usable module for the given file, which is part of
/// the specified framework.
///
/// \return \c true if the file can be used, \c false if we are not permitted to
/// find this file due to requirements from \p RequestingModule.
bool findUsableModuleForFrameworkHeader(
FileEntryRef File, StringRef FrameworkName, Module *RequestingModule,
ModuleMap::KnownHeader *SuggestedModule, bool IsSystemFramework);
/// Look up the file with the specified name and determine its owning
/// module.
OptionalFileEntryRef
getFileAndSuggestModule(StringRef FileName, SourceLocation IncludeLoc,
const DirectoryEntry *Dir, bool IsSystemHeaderDir,
Module *RequestingModule,
ModuleMap::KnownHeader *SuggestedModule,
bool OpenFile = true, bool CacheFailures = true);
/// Cache the result of a successful lookup at the given include location
/// using the search path at \c HitIt.
void cacheLookupSuccess(LookupFileCacheInfo &CacheLookup,
ConstSearchDirIterator HitIt,
SourceLocation IncludeLoc);
/// Note that a lookup at the given include location was successful using the
/// search path at index `HitIdx`.
void noteLookupUsage(unsigned HitIdx, SourceLocation IncludeLoc);
public:
/// Retrieve the module map.
ModuleMap &getModuleMap() { return ModMap; }
/// Retrieve the module map.
const ModuleMap &getModuleMap() const { return ModMap; }
unsigned header_file_size() const { return FileInfo.size(); }
/// Return the HeaderFileInfo structure for the specified FileEntry, in
/// preparation for updating it in some way.
HeaderFileInfo &getFileInfo(FileEntryRef FE);
/// Return the HeaderFileInfo structure for the specified FileEntry, if it has
/// ever been filled in (either locally or externally).
const HeaderFileInfo *getExistingFileInfo(FileEntryRef FE) const;
/// Return the headerFileInfo structure for the specified FileEntry, if it has
/// ever been filled in locally.
const HeaderFileInfo *getExistingLocalFileInfo(FileEntryRef FE) const;
SearchDirIterator search_dir_begin() { return {*this, 0}; }
SearchDirIterator search_dir_end() { return {*this, SearchDirs.size()}; }
SearchDirRange search_dir_range() {
return {search_dir_begin(), search_dir_end()};
}
ConstSearchDirIterator search_dir_begin() const { return quoted_dir_begin(); }
ConstSearchDirIterator search_dir_nth(size_t n) const {
assert(n < SearchDirs.size());
return {*this, n};
}
ConstSearchDirIterator search_dir_end() const { return system_dir_end(); }
ConstSearchDirRange search_dir_range() const {
return {search_dir_begin(), search_dir_end()};
}
unsigned search_dir_size() const { return SearchDirs.size(); }
ConstSearchDirIterator quoted_dir_begin() const { return {*this, 0}; }
ConstSearchDirIterator quoted_dir_end() const { return angled_dir_begin(); }
ConstSearchDirIterator angled_dir_begin() const {
return {*this, AngledDirIdx};
}
ConstSearchDirIterator angled_dir_end() const { return system_dir_begin(); }
ConstSearchDirIterator system_dir_begin() const {
return {*this, SystemDirIdx};
}
ConstSearchDirIterator system_dir_end() const {
return {*this, SearchDirs.size()};
}
/// Get the index of the given search directory.
unsigned searchDirIdx(const DirectoryLookup &DL) const;
/// Retrieve a uniqued framework name.
StringRef getUniqueFrameworkName(StringRef Framework);
/// Retrieve the include name for the header.
///
/// \param File The entry for a given header.
/// \returns The name of how the file was included when the header's location
/// was resolved.
StringRef getIncludeNameForHeader(const FileEntry *File) const;
/// Suggest a path by which the specified file could be found, for use in
/// diagnostics to suggest a #include. Returned path will only contain forward
/// slashes as separators. MainFile is the absolute path of the file that we
/// are generating the diagnostics for. It will try to shorten the path using
/// MainFile location, if none of the include search directories were prefix
/// of File.
///
/// \param IsAngled If non-null, filled in to indicate whether the suggested
/// path should be referenced as <Header.h> instead of "Header.h".
std::string suggestPathToFileForDiagnostics(FileEntryRef File,
llvm::StringRef MainFile,
bool *IsAngled = nullptr) const;
/// Suggest a path by which the specified file could be found, for use in
/// diagnostics to suggest a #include. Returned path will only contain forward
/// slashes as separators. MainFile is the absolute path of the file that we
/// are generating the diagnostics for. It will try to shorten the path using
/// MainFile location, if none of the include search directories were prefix
/// of File.
///
/// \param WorkingDir If non-empty, this will be prepended to search directory
/// paths that are relative.
std::string suggestPathToFileForDiagnostics(llvm::StringRef File,
llvm::StringRef WorkingDir,
llvm::StringRef MainFile,
bool *IsAngled = nullptr) const;
void PrintStats();
size_t getTotalMemory() const;
private:
/// Describes what happened when we tried to load a module map file.
enum LoadModuleMapResult {
/// The module map file had already been loaded.
LMM_AlreadyLoaded,
/// The module map file was loaded by this invocation.
LMM_NewlyLoaded,
/// There is was directory with the given name.
LMM_NoDirectory,
/// There was either no module map file or the module map file was
/// invalid.
LMM_InvalidModuleMap
};
LoadModuleMapResult loadModuleMapFileImpl(FileEntryRef File, bool IsSystem,
DirectoryEntryRef Dir,
FileID ID = FileID(),
unsigned *Offset = nullptr);
/// Try to load the module map file in the given directory.
///
/// \param DirName The name of the directory where we will look for a module
/// map file.
/// \param IsSystem Whether this is a system header directory.
/// \param IsFramework Whether this is a framework directory.
///
/// \returns The result of attempting to load the module map file from the
/// named directory.
LoadModuleMapResult loadModuleMapFile(StringRef DirName, bool IsSystem,
bool IsFramework);
/// Try to load the module map file in the given directory.
///
/// \param Dir The directory where we will look for a module map file.
/// \param IsSystem Whether this is a system header directory.
/// \param IsFramework Whether this is a framework directory.
///
/// \returns The result of attempting to load the module map file from the
/// named directory.
LoadModuleMapResult loadModuleMapFile(DirectoryEntryRef Dir, bool IsSystem,
bool IsFramework);
};
/// Apply the header search options to get given HeaderSearch object.
void ApplyHeaderSearchOptions(HeaderSearch &HS,
const HeaderSearchOptions &HSOpts,
const LangOptions &Lang,
const llvm::Triple &triple);
} // namespace clang
#endif // LLVM_CLANG_LEX_HEADERSEARCH_H