lib/Basic/FileManager.cpp - fp2-dev/platform/external/clang - Gitiles

 //===--- FileManager.cpp - File System Probing and Caching ----------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file implements the FileManager interface.
 //
 //===----------------------------------------------------------------------===//
 //
 // TODO: This should index all interesting directories with dirent calls.
 //  getdirentries ?
 //  opendir/readdir_r/closedir ?
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Basic/FileManager.h"
 #include "clang/Basic/FileSystemStatCache.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/Config/llvm-config.h"
 #include "llvm/Support/FileSystem.h"
 #include "llvm/Support/MemoryBuffer.h"
 #include "llvm/Support/Path.h"
 #include "llvm/Support/raw_ostream.h"
 #include "llvm/Support/system_error.h"
 #include <map>
 #include <set>
 #include <string>

 // FIXME: This is terrible, we need this for ::close.
 #if !defined(_MSC_VER) && !defined(__MINGW32__)
 #include <unistd.h>
 #include <sys/uio.h>
 #else
 #include <io.h>
 #ifndef S_ISFIFO
 #define S_ISFIFO(x) (0)
 #endif
 #endif
 using namespace clang;

 // FIXME: Enhance libsystem to support inode and other fields.
 #include <sys/stat.h>

 /// NON_EXISTENT_DIR - A special value distinct from null that is used to
 /// represent a dir name that doesn't exist on the disk.
 #define NON_EXISTENT_DIR reinterpret_cast<DirectoryEntry*>((intptr_t)-1)

 /// NON_EXISTENT_FILE - A special value distinct from null that is used to
 /// represent a filename that doesn't exist on the disk.
 #define NON_EXISTENT_FILE reinterpret_cast<FileEntry*>((intptr_t)-1)


 FileEntry::~FileEntry() {
   // If this FileEntry owns an open file descriptor that never got used, close
   // it.
   if (FD != -1) ::close(FD);
 }

 bool FileEntry::isNamedPipe() const {
   return S_ISFIFO(FileMode);
 }

 //===----------------------------------------------------------------------===//
 // Windows.
 //===----------------------------------------------------------------------===//

 #ifdef LLVM_ON_WIN32

 namespace {
   static std::string GetFullPath(const char *relPath) {
     char *absPathStrPtr = _fullpath(NULL, relPath, 0);
     assert(absPathStrPtr && "_fullpath() returned NULL!");

     std::string absPath(absPathStrPtr);

     free(absPathStrPtr);
     return absPath;
   }
 }

 class FileManager::UniqueDirContainer {
   /// UniqueDirs - Cache from full path to existing directories/files.
   ///
   llvm::StringMap<DirectoryEntry> UniqueDirs;

 public:
   /// getDirectory - Return an existing DirectoryEntry with the given
   /// name if there is already one; otherwise create and return a
   /// default-constructed DirectoryEntry.
   DirectoryEntry &getDirectory(const char *Name,
                                const struct stat & /*StatBuf*/) {
     std::string FullPath(GetFullPath(Name));
     return UniqueDirs.GetOrCreateValue(FullPath).getValue();
   }

   size_t size() const { return UniqueDirs.size(); }
 };

 class FileManager::UniqueFileContainer {
   /// UniqueFiles - Cache from full path to existing directories/files.
   ///
   llvm::StringMap<FileEntry, llvm::BumpPtrAllocator> UniqueFiles;

 public:
   /// getFile - Return an existing FileEntry with the given name if
   /// there is already one; otherwise create and return a
   /// default-constructed FileEntry.
   FileEntry &getFile(const char *Name, const struct stat & /*StatBuf*/) {
     std::string FullPath(GetFullPath(Name));

     // Lowercase string because Windows filesystem is case insensitive.
     FullPath = StringRef(FullPath).lower();
     return UniqueFiles.GetOrCreateValue(FullPath).getValue();
   }

   size_t size() const { return UniqueFiles.size(); }

   void erase(const FileEntry *Entry) {
     std::string FullPath(GetFullPath(Entry->getName()));

     // Lowercase string because Windows filesystem is case insensitive.
     FullPath = StringRef(FullPath).lower();
     UniqueFiles.erase(FullPath);
   }
 };

 //===----------------------------------------------------------------------===//
 // Unix-like Systems.
 //===----------------------------------------------------------------------===//

 #else

 class FileManager::UniqueDirContainer {
   /// UniqueDirs - Cache from ID's to existing directories/files.
   std::map<std::pair<dev_t, ino_t>, DirectoryEntry> UniqueDirs;

 public:
   /// getDirectory - Return an existing DirectoryEntry with the given
   /// ID's if there is already one; otherwise create and return a
   /// default-constructed DirectoryEntry.
   DirectoryEntry &getDirectory(const char * /*Name*/,
                                const struct stat &StatBuf) {
     return UniqueDirs[std::make_pair(StatBuf.st_dev, StatBuf.st_ino)];
   }

   size_t size() const { return UniqueDirs.size(); }
 };

 class FileManager::UniqueFileContainer {
   /// UniqueFiles - Cache from ID's to existing directories/files.
   std::set<FileEntry> UniqueFiles;

 public:
   /// getFile - Return an existing FileEntry with the given ID's if
   /// there is already one; otherwise create and return a
   /// default-constructed FileEntry.
   FileEntry &getFile(const char * /*Name*/, const struct stat &StatBuf) {
     return
       const_cast<FileEntry&>(
                     *UniqueFiles.insert(FileEntry(StatBuf.st_dev,
                                                   StatBuf.st_ino,
                                                   StatBuf.st_mode)).first);
   }

   size_t size() const { return UniqueFiles.size(); }

   void erase(const FileEntry *Entry) { UniqueFiles.erase(*Entry); }
 };

 #endif

 //===----------------------------------------------------------------------===//
 // Common logic.
 //===----------------------------------------------------------------------===//

 FileManager::FileManager(const FileSystemOptions &FSO)
   : FileSystemOpts(FSO),
     UniqueRealDirs(*new UniqueDirContainer()),
     UniqueRealFiles(*new UniqueFileContainer()),
     SeenDirEntries(64), SeenFileEntries(64), NextFileUID(0) {
   NumDirLookups = NumFileLookups = 0;
   NumDirCacheMisses = NumFileCacheMisses = 0;
 }

 FileManager::~FileManager() {
   delete &UniqueRealDirs;
   delete &UniqueRealFiles;
   for (unsigned i = 0, e = VirtualFileEntries.size(); i != e; ++i)
     delete VirtualFileEntries[i];
   for (unsigned i = 0, e = VirtualDirectoryEntries.size(); i != e; ++i)
     delete VirtualDirectoryEntries[i];
 }

 void FileManager::addStatCache(FileSystemStatCache *statCache,
                                bool AtBeginning) {
   assert(statCache && "No stat cache provided?");
   if (AtBeginning || StatCache.get() == 0) {
     statCache->setNextStatCache(StatCache.take());
     StatCache.reset(statCache);
     return;
   }

   FileSystemStatCache *LastCache = StatCache.get();
   while (LastCache->getNextStatCache())
     LastCache = LastCache->getNextStatCache();

   LastCache->setNextStatCache(statCache);
 }

 void FileManager::removeStatCache(FileSystemStatCache *statCache) {
   if (!statCache)
     return;

   if (StatCache.get() == statCache) {
     // This is the first stat cache.
     StatCache.reset(StatCache->takeNextStatCache());
     return;
   }

   // Find the stat cache in the list.
   FileSystemStatCache *PrevCache = StatCache.get();
   while (PrevCache && PrevCache->getNextStatCache() != statCache)
     PrevCache = PrevCache->getNextStatCache();

   assert(PrevCache && "Stat cache not found for removal");
   PrevCache->setNextStatCache(statCache->getNextStatCache());
 }

 void FileManager::clearStatCaches() {
   StatCache.reset(0);
 }

 /// \brief Retrieve the directory that the given file name resides in.
 /// Filename can point to either a real file or a virtual file.
 static const DirectoryEntry *getDirectoryFromFile(FileManager &FileMgr,
                                                   StringRef Filename,
                                                   bool CacheFailure) {
   if (Filename.empty())
     return NULL;

   if (llvm::sys::path::is_separator(Filename[Filename.size() - 1]))
     return NULL;  // If Filename is a directory.

   StringRef DirName = llvm::sys::path::parent_path(Filename);
   // Use the current directory if file has no path component.
   if (DirName.empty())
     DirName = ".";

   return FileMgr.getDirectory(DirName, CacheFailure);
 }

 /// Add all ancestors of the given path (pointing to either a file or
 /// a directory) as virtual directories.
 void FileManager::addAncestorsAsVirtualDirs(StringRef Path) {
   StringRef DirName = llvm::sys::path::parent_path(Path);
   if (DirName.empty())
     return;

   llvm::StringMapEntry<DirectoryEntry *> &NamedDirEnt =
     SeenDirEntries.GetOrCreateValue(DirName);

   // When caching a virtual directory, we always cache its ancestors
   // at the same time.  Therefore, if DirName is already in the cache,
   // we don't need to recurse as its ancestors must also already be in
   // the cache.
   if (NamedDirEnt.getValue())
     return;

   // Add the virtual directory to the cache.
   DirectoryEntry *UDE = new DirectoryEntry;
   UDE->Name = NamedDirEnt.getKeyData();
   NamedDirEnt.setValue(UDE);
   VirtualDirectoryEntries.push_back(UDE);

   // Recursively add the other ancestors.
   addAncestorsAsVirtualDirs(DirName);
 }

 const DirectoryEntry *FileManager::getDirectory(StringRef DirName,
                                                 bool CacheFailure) {
   // stat doesn't like trailing separators except for root directory.
   // At least, on Win32 MSVCRT, stat() cannot strip trailing '/'.
   // (though it can strip '\\')
   if (DirName.size() > 1 &&
       DirName != llvm::sys::path::root_path(DirName) &&
       llvm::sys::path::is_separator(DirName.back()))
     DirName = DirName.substr(0, DirName.size()-1);

   ++NumDirLookups;
   llvm::StringMapEntry<DirectoryEntry *> &NamedDirEnt =
     SeenDirEntries.GetOrCreateValue(DirName);

   // See if there was already an entry in the map.  Note that the map
   // contains both virtual and real directories.
   if (NamedDirEnt.getValue())
     return NamedDirEnt.getValue() == NON_EXISTENT_DIR
               ? 0 : NamedDirEnt.getValue();

   ++NumDirCacheMisses;

   // By default, initialize it to invalid.
   NamedDirEnt.setValue(NON_EXISTENT_DIR);

   // Get the null-terminated directory name as stored as the key of the
   // SeenDirEntries map.
   const char *InterndDirName = NamedDirEnt.getKeyData();

   // Check to see if the directory exists.
   struct stat StatBuf;
   if (getStatValue(InterndDirName, StatBuf, 0/*directory lookup*/)) {
     // There's no real directory at the given path.
     if (!CacheFailure)
       SeenDirEntries.erase(DirName);
     return 0;
   }

   // It exists.  See if we have already opened a directory with the
   // same inode (this occurs on Unix-like systems when one dir is
   // symlinked to another, for example) or the same path (on
   // Windows).
   DirectoryEntry &UDE = UniqueRealDirs.getDirectory(InterndDirName, StatBuf);

   NamedDirEnt.setValue(&UDE);
   if (!UDE.getName()) {
     // We don't have this directory yet, add it.  We use the string
     // key from the SeenDirEntries map as the string.
     UDE.Name  = InterndDirName;
   }

   return &UDE;
 }

 const FileEntry *FileManager::getFile(StringRef Filename, bool openFile,
                                       bool CacheFailure) {
   ++NumFileLookups;

   // See if there is already an entry in the map.
   llvm::StringMapEntry<FileEntry *> &NamedFileEnt =
     SeenFileEntries.GetOrCreateValue(Filename);

   // See if there is already an entry in the map.
   if (NamedFileEnt.getValue())
     return NamedFileEnt.getValue() == NON_EXISTENT_FILE
                  ? 0 : NamedFileEnt.getValue();

   ++NumFileCacheMisses;

   // By default, initialize it to invalid.
   NamedFileEnt.setValue(NON_EXISTENT_FILE);

   // Get the null-terminated file name as stored as the key of the
   // SeenFileEntries map.
   const char *InterndFileName = NamedFileEnt.getKeyData();

   // Look up the directory for the file.  When looking up something like
   // sys/foo.h we'll discover all of the search directories that have a 'sys'
   // subdirectory.  This will let us avoid having to waste time on known-to-fail
   // searches when we go to find sys/bar.h, because all the search directories
   // without a 'sys' subdir will get a cached failure result.
   const DirectoryEntry *DirInfo = getDirectoryFromFile(*this, Filename,
                                                        CacheFailure);
   if (DirInfo == 0) {  // Directory doesn't exist, file can't exist.
     if (!CacheFailure)
       SeenFileEntries.erase(Filename);

     return 0;
   }

   // FIXME: Use the directory info to prune this, before doing the stat syscall.
   // FIXME: This will reduce the # syscalls.

   // Nope, there isn't.  Check to see if the file exists.
   int FileDescriptor = -1;
   struct stat StatBuf;
   if (getStatValue(InterndFileName, StatBuf, &FileDescriptor)) {
     // There's no real file at the given path.
     if (!CacheFailure)
       SeenFileEntries.erase(Filename);

     return 0;
   }

   if (FileDescriptor != -1 && !openFile) {
     close(FileDescriptor);
     FileDescriptor = -1;
   }

   // It exists.  See if we have already opened a file with the same inode.
   // This occurs when one dir is symlinked to another, for example.
   FileEntry &UFE = UniqueRealFiles.getFile(InterndFileName, StatBuf);

   NamedFileEnt.setValue(&UFE);
   if (UFE.getName()) { // Already have an entry with this inode, return it.
     // If the stat process opened the file, close it to avoid a FD leak.
     if (FileDescriptor != -1)
       close(FileDescriptor);

     return &UFE;
   }

   // Otherwise, we don't have this directory yet, add it.
   // FIXME: Change the name to be a char* that points back to the
   // 'SeenFileEntries' key.
   UFE.Name    = InterndFileName;
   UFE.Size    = StatBuf.st_size;
   UFE.ModTime = StatBuf.st_mtime;
   UFE.Dir     = DirInfo;
   UFE.UID     = NextFileUID++;
   UFE.FD      = FileDescriptor;
   return &UFE;
 }

 const FileEntry *
 FileManager::getVirtualFile(StringRef Filename, off_t Size,
                             time_t ModificationTime) {
   ++NumFileLookups;

   // See if there is already an entry in the map.
   llvm::StringMapEntry<FileEntry *> &NamedFileEnt =
     SeenFileEntries.GetOrCreateValue(Filename);

   // See if there is already an entry in the map.
   if (NamedFileEnt.getValue() && NamedFileEnt.getValue() != NON_EXISTENT_FILE)
     return NamedFileEnt.getValue();

   ++NumFileCacheMisses;

   // By default, initialize it to invalid.
   NamedFileEnt.setValue(NON_EXISTENT_FILE);

   addAncestorsAsVirtualDirs(Filename);
   FileEntry *UFE = 0;

   // Now that all ancestors of Filename are in the cache, the
   // following call is guaranteed to find the DirectoryEntry from the
   // cache.
   const DirectoryEntry *DirInfo = getDirectoryFromFile(*this, Filename,
                                                        /*CacheFailure=*/true);
   assert(DirInfo &&
          "The directory of a virtual file should already be in the cache.");

   // Check to see if the file exists. If so, drop the virtual file
   int FileDescriptor = -1;
   struct stat StatBuf;
   const char *InterndFileName = NamedFileEnt.getKeyData();
   if (getStatValue(InterndFileName, StatBuf, &FileDescriptor) == 0) {
     // If the stat process opened the file, close it to avoid a FD leak.
     if (FileDescriptor != -1)
       close(FileDescriptor);

     StatBuf.st_size = Size;
     StatBuf.st_mtime = ModificationTime;
     UFE = &UniqueRealFiles.getFile(InterndFileName, StatBuf);

     NamedFileEnt.setValue(UFE);

     // If we had already opened this file, close it now so we don't
     // leak the descriptor. We're not going to use the file
     // descriptor anyway, since this is a virtual file.
     if (UFE->FD != -1) {
       close(UFE->FD);
       UFE->FD = -1;
     }

     // If we already have an entry with this inode, return it.
     if (UFE->getName())
       return UFE;
   }

   if (!UFE) {
     UFE = new FileEntry();
     VirtualFileEntries.push_back(UFE);
     NamedFileEnt.setValue(UFE);
   }

   UFE->Name    = InterndFileName;
   UFE->Size    = Size;
   UFE->ModTime = ModificationTime;
   UFE->Dir     = DirInfo;
   UFE->UID     = NextFileUID++;
   UFE->FD      = -1;
   return UFE;
 }

 void FileManager::FixupRelativePath(SmallVectorImpl<char> &path) const {
   StringRef pathRef(path.data(), path.size());

   if (FileSystemOpts.WorkingDir.empty()
       || llvm::sys::path::is_absolute(pathRef))
     return;

   SmallString<128> NewPath(FileSystemOpts.WorkingDir);
   llvm::sys::path::append(NewPath, pathRef);
   path = NewPath;
 }

 llvm::MemoryBuffer *FileManager::
 getBufferForFile(const FileEntry *Entry, std::string *ErrorStr,
                  bool isVolatile) {
   OwningPtr<llvm::MemoryBuffer> Result;
   llvm::error_code ec;

   uint64_t FileSize = Entry->getSize();
   // If there's a high enough chance that the file have changed since we
   // got its size, force a stat before opening it.
   if (isVolatile)
     FileSize = -1;

   const char *Filename = Entry->getName();
   // If the file is already open, use the open file descriptor.
   if (Entry->FD != -1) {
     ec = llvm::MemoryBuffer::getOpenFile(Entry->FD, Filename, Result, FileSize);
     if (ErrorStr)
       *ErrorStr = ec.message();

     close(Entry->FD);
     Entry->FD = -1;
     return Result.take();
   }

   // Otherwise, open the file.

   if (FileSystemOpts.WorkingDir.empty()) {
     ec = llvm::MemoryBuffer::getFile(Filename, Result, FileSize);
     if (ec && ErrorStr)
       *ErrorStr = ec.message();
     return Result.take();
   }

   SmallString<128> FilePath(Entry->getName());
   FixupRelativePath(FilePath);
   ec = llvm::MemoryBuffer::getFile(FilePath.str(), Result, FileSize);
   if (ec && ErrorStr)
     *ErrorStr = ec.message();
   return Result.take();
 }

 llvm::MemoryBuffer *FileManager::
 getBufferForFile(StringRef Filename, std::string *ErrorStr) {
   OwningPtr<llvm::MemoryBuffer> Result;
   llvm::error_code ec;
   if (FileSystemOpts.WorkingDir.empty()) {
     ec = llvm::MemoryBuffer::getFile(Filename, Result);
     if (ec && ErrorStr)
       *ErrorStr = ec.message();
     return Result.take();
   }

   SmallString<128> FilePath(Filename);
   FixupRelativePath(FilePath);
   ec = llvm::MemoryBuffer::getFile(FilePath.c_str(), Result);
   if (ec && ErrorStr)
     *ErrorStr = ec.message();
   return Result.take();
 }

 /// getStatValue - Get the 'stat' information for the specified path,
 /// using the cache to accelerate it if possible.  This returns true
 /// if the path points to a virtual file or does not exist, or returns
 /// false if it's an existent real file.  If FileDescriptor is NULL,
 /// do directory look-up instead of file look-up.
 bool FileManager::getStatValue(const char *Path, struct stat &StatBuf,
                                int *FileDescriptor) {
   // FIXME: FileSystemOpts shouldn't be passed in here, all paths should be
   // absolute!
   if (FileSystemOpts.WorkingDir.empty())
     return FileSystemStatCache::get(Path, StatBuf, FileDescriptor,
                                     StatCache.get());

   SmallString<128> FilePath(Path);
   FixupRelativePath(FilePath);

   return FileSystemStatCache::get(FilePath.c_str(), StatBuf, FileDescriptor,
                                   StatCache.get());
 }

 bool FileManager::getNoncachedStatValue(StringRef Path,
                                         struct stat &StatBuf) {
   SmallString<128> FilePath(Path);
   FixupRelativePath(FilePath);

   return ::stat(FilePath.c_str(), &StatBuf) != 0;
 }

 void FileManager::invalidateCache(const FileEntry *Entry) {
   assert(Entry && "Cannot invalidate a NULL FileEntry");

   SeenFileEntries.erase(Entry->getName());

   // FileEntry invalidation should not block future optimizations in the file
   // caches. Possible alternatives are cache truncation (invalidate last N) or
   // invalidation of the whole cache.
   UniqueRealFiles.erase(Entry);
 }


 void FileManager::GetUniqueIDMapping(
                    SmallVectorImpl<const FileEntry *> &UIDToFiles) const {
   UIDToFiles.clear();
   UIDToFiles.resize(NextFileUID);

   // Map file entries
   for (llvm::StringMap<FileEntry*, llvm::BumpPtrAllocator>::const_iterator
          FE = SeenFileEntries.begin(), FEEnd = SeenFileEntries.end();
        FE != FEEnd; ++FE)
     if (FE->getValue() && FE->getValue() != NON_EXISTENT_FILE)
       UIDToFiles[FE->getValue()->getUID()] = FE->getValue();

   // Map virtual file entries
   for (SmallVector<FileEntry*, 4>::const_iterator
          VFE = VirtualFileEntries.begin(), VFEEnd = VirtualFileEntries.end();
        VFE != VFEEnd; ++VFE)
     if (*VFE && *VFE != NON_EXISTENT_FILE)
       UIDToFiles[(*VFE)->getUID()] = *VFE;
 }

 void FileManager::modifyFileEntry(FileEntry *File,
                                   off_t Size, time_t ModificationTime) {
   File->Size = Size;
   File->ModTime = ModificationTime;
 }


 void FileManager::PrintStats() const {
   llvm::errs() << "\n*** File Manager Stats:\n";
   llvm::errs() << UniqueRealFiles.size() << " real files found, "
                << UniqueRealDirs.size() << " real dirs found.\n";
   llvm::errs() << VirtualFileEntries.size() << " virtual files found, "
                << VirtualDirectoryEntries.size() << " virtual dirs found.\n";
   llvm::errs() << NumDirLookups << " dir lookups, "
                << NumDirCacheMisses << " dir cache misses.\n";
   llvm::errs() << NumFileLookups << " file lookups, "
                << NumFileCacheMisses << " file cache misses.\n";

   //llvm::errs() << PagesMapped << BytesOfPagesMapped << FSLookups;
 }
	//===--- FileManager.cpp - File System Probing and Caching ----------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements the FileManager interface.
	//
	//===----------------------------------------------------------------------===//
	//
	// TODO: This should index all interesting directories with dirent calls.
	// getdirentries ?
	// opendir/readdir_r/closedir ?
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Basic/FileManager.h"
	#include "clang/Basic/FileSystemStatCache.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/Config/llvm-config.h"
	#include "llvm/Support/FileSystem.h"
	#include "llvm/Support/MemoryBuffer.h"
	#include "llvm/Support/Path.h"
	#include "llvm/Support/raw_ostream.h"
	#include "llvm/Support/system_error.h"
	#include <map>
	#include <set>
	#include <string>

	// FIXME: This is terrible, we need this for ::close.
	#if !defined(_MSC_VER) && !defined(__MINGW32__)
	#include <unistd.h>
	#include <sys/uio.h>
	#else
	#include <io.h>
	#ifndef S_ISFIFO
	#define S_ISFIFO(x) (0)
	#endif
	#endif
	using namespace clang;

	// FIXME: Enhance libsystem to support inode and other fields.
	#include <sys/stat.h>

	/// NON_EXISTENT_DIR - A special value distinct from null that is used to
	/// represent a dir name that doesn't exist on the disk.
	#define NON_EXISTENT_DIR reinterpret_cast<DirectoryEntry*>((intptr_t)-1)

	/// NON_EXISTENT_FILE - A special value distinct from null that is used to
	/// represent a filename that doesn't exist on the disk.
	#define NON_EXISTENT_FILE reinterpret_cast<FileEntry*>((intptr_t)-1)


	FileEntry::~FileEntry() {
	// If this FileEntry owns an open file descriptor that never got used, close
	// it.
	if (FD != -1) ::close(FD);
	}

	bool FileEntry::isNamedPipe() const {
	return S_ISFIFO(FileMode);
	}

	//===----------------------------------------------------------------------===//
	// Windows.
	//===----------------------------------------------------------------------===//

	#ifdef LLVM_ON_WIN32

	namespace {
	static std::string GetFullPath(const char *relPath) {
	char *absPathStrPtr = _fullpath(NULL, relPath, 0);
	assert(absPathStrPtr && "_fullpath() returned NULL!");

	std::string absPath(absPathStrPtr);

	free(absPathStrPtr);
	return absPath;
	}
	}

	class FileManager::UniqueDirContainer {
	/// UniqueDirs - Cache from full path to existing directories/files.
	///
	llvm::StringMap<DirectoryEntry> UniqueDirs;

	public:
	/// getDirectory - Return an existing DirectoryEntry with the given
	/// name if there is already one; otherwise create and return a
	/// default-constructed DirectoryEntry.
	DirectoryEntry &getDirectory(const char *Name,
	const struct stat & /StatBuf/) {
	std::string FullPath(GetFullPath(Name));
	return UniqueDirs.GetOrCreateValue(FullPath).getValue();
	}

	size_t size() const { return UniqueDirs.size(); }
	};

	class FileManager::UniqueFileContainer {
	/// UniqueFiles - Cache from full path to existing directories/files.
	///
	llvm::StringMap<FileEntry, llvm::BumpPtrAllocator> UniqueFiles;

	public:
	/// getFile - Return an existing FileEntry with the given name if
	/// there is already one; otherwise create and return a
	/// default-constructed FileEntry.
	FileEntry &getFile(const char Name, const struct stat & /StatBuf*/) {
	std::string FullPath(GetFullPath(Name));

	// Lowercase string because Windows filesystem is case insensitive.
	FullPath = StringRef(FullPath).lower();
	return UniqueFiles.GetOrCreateValue(FullPath).getValue();
	}

	size_t size() const { return UniqueFiles.size(); }

	void erase(const FileEntry *Entry) {
	std::string FullPath(GetFullPath(Entry->getName()));

	// Lowercase string because Windows filesystem is case insensitive.
	FullPath = StringRef(FullPath).lower();
	UniqueFiles.erase(FullPath);
	}
	};

	//===----------------------------------------------------------------------===//
	// Unix-like Systems.
	//===----------------------------------------------------------------------===//

	#else

	class FileManager::UniqueDirContainer {
	/// UniqueDirs - Cache from ID's to existing directories/files.
	std::map<std::pair<dev_t, ino_t>, DirectoryEntry> UniqueDirs;

	public:
	/// getDirectory - Return an existing DirectoryEntry with the given
	/// ID's if there is already one; otherwise create and return a
	/// default-constructed DirectoryEntry.
	DirectoryEntry &getDirectory(const char * /Name/,
	const struct stat &StatBuf) {
	return UniqueDirs[std::make_pair(StatBuf.st_dev, StatBuf.st_ino)];
	}

	size_t size() const { return UniqueDirs.size(); }
	};

	class FileManager::UniqueFileContainer {
	/// UniqueFiles - Cache from ID's to existing directories/files.
	std::set<FileEntry> UniqueFiles;

	public:
	/// getFile - Return an existing FileEntry with the given ID's if
	/// there is already one; otherwise create and return a
	/// default-constructed FileEntry.
	FileEntry &getFile(const char * /Name/, const struct stat &StatBuf) {
	return
	const_cast<FileEntry&>(
	*UniqueFiles.insert(FileEntry(StatBuf.st_dev,
	StatBuf.st_ino,
	StatBuf.st_mode)).first);
	}

	size_t size() const { return UniqueFiles.size(); }

	void erase(const FileEntry Entry) { UniqueFiles.erase(Entry); }
	};

	#endif

	//===----------------------------------------------------------------------===//
	// Common logic.
	//===----------------------------------------------------------------------===//

	FileManager::FileManager(const FileSystemOptions &FSO)
	: FileSystemOpts(FSO),
	UniqueRealDirs(*new UniqueDirContainer()),
	UniqueRealFiles(*new UniqueFileContainer()),
	SeenDirEntries(64), SeenFileEntries(64), NextFileUID(0) {
	NumDirLookups = NumFileLookups = 0;
	NumDirCacheMisses = NumFileCacheMisses = 0;
	}

	FileManager::~FileManager() {
	delete &UniqueRealDirs;
	delete &UniqueRealFiles;
	for (unsigned i = 0, e = VirtualFileEntries.size(); i != e; ++i)
	delete VirtualFileEntries[i];
	for (unsigned i = 0, e = VirtualDirectoryEntries.size(); i != e; ++i)
	delete VirtualDirectoryEntries[i];
	}

	void FileManager::addStatCache(FileSystemStatCache *statCache,
	bool AtBeginning) {
	assert(statCache && "No stat cache provided?");
	if (AtBeginning \|\| StatCache.get() == 0) {
	statCache->setNextStatCache(StatCache.take());
	StatCache.reset(statCache);
	return;
	}

	FileSystemStatCache *LastCache = StatCache.get();
	while (LastCache->getNextStatCache())
	LastCache = LastCache->getNextStatCache();

	LastCache->setNextStatCache(statCache);
	}

	void FileManager::removeStatCache(FileSystemStatCache *statCache) {
	if (!statCache)
	return;

	if (StatCache.get() == statCache) {
	// This is the first stat cache.
	StatCache.reset(StatCache->takeNextStatCache());
	return;
	}

	// Find the stat cache in the list.
	FileSystemStatCache *PrevCache = StatCache.get();
	while (PrevCache && PrevCache->getNextStatCache() != statCache)
	PrevCache = PrevCache->getNextStatCache();

	assert(PrevCache && "Stat cache not found for removal");
	PrevCache->setNextStatCache(statCache->getNextStatCache());
	}

	void FileManager::clearStatCaches() {
	StatCache.reset(0);
	}

	/// \brief Retrieve the directory that the given file name resides in.
	/// Filename can point to either a real file or a virtual file.
	static const DirectoryEntry *getDirectoryFromFile(FileManager &FileMgr,
	StringRef Filename,
	bool CacheFailure) {
	if (Filename.empty())
	return NULL;

	if (llvm::sys::path::is_separator(Filename[Filename.size() - 1]))
	return NULL; // If Filename is a directory.

	StringRef DirName = llvm::sys::path::parent_path(Filename);
	// Use the current directory if file has no path component.
	if (DirName.empty())
	DirName = ".";

	return FileMgr.getDirectory(DirName, CacheFailure);
	}

	/// Add all ancestors of the given path (pointing to either a file or
	/// a directory) as virtual directories.
	void FileManager::addAncestorsAsVirtualDirs(StringRef Path) {
	StringRef DirName = llvm::sys::path::parent_path(Path);
	if (DirName.empty())
	return;

	llvm::StringMapEntry<DirectoryEntry *> &NamedDirEnt =
	SeenDirEntries.GetOrCreateValue(DirName);

	// When caching a virtual directory, we always cache its ancestors
	// at the same time. Therefore, if DirName is already in the cache,
	// we don't need to recurse as its ancestors must also already be in
	// the cache.
	if (NamedDirEnt.getValue())
	return;

	// Add the virtual directory to the cache.
	DirectoryEntry *UDE = new DirectoryEntry;
	UDE->Name = NamedDirEnt.getKeyData();
	NamedDirEnt.setValue(UDE);
	VirtualDirectoryEntries.push_back(UDE);

	// Recursively add the other ancestors.
	addAncestorsAsVirtualDirs(DirName);
	}

	const DirectoryEntry *FileManager::getDirectory(StringRef DirName,
	bool CacheFailure) {
	// stat doesn't like trailing separators except for root directory.
	// At least, on Win32 MSVCRT, stat() cannot strip trailing '/'.
	// (though it can strip '\\')
	if (DirName.size() > 1 &&
	DirName != llvm::sys::path::root_path(DirName) &&
	llvm::sys::path::is_separator(DirName.back()))
	DirName = DirName.substr(0, DirName.size()-1);

	++NumDirLookups;
	llvm::StringMapEntry<DirectoryEntry *> &NamedDirEnt =
	SeenDirEntries.GetOrCreateValue(DirName);

	// See if there was already an entry in the map. Note that the map
	// contains both virtual and real directories.
	if (NamedDirEnt.getValue())
	return NamedDirEnt.getValue() == NON_EXISTENT_DIR
	? 0 : NamedDirEnt.getValue();

	++NumDirCacheMisses;

	// By default, initialize it to invalid.
	NamedDirEnt.setValue(NON_EXISTENT_DIR);

	// Get the null-terminated directory name as stored as the key of the
	// SeenDirEntries map.
	const char *InterndDirName = NamedDirEnt.getKeyData();

	// Check to see if the directory exists.
	struct stat StatBuf;
	if (getStatValue(InterndDirName, StatBuf, 0/directory lookup/)) {
	// There's no real directory at the given path.
	if (!CacheFailure)
	SeenDirEntries.erase(DirName);
	return 0;
	}

	// It exists. See if we have already opened a directory with the
	// same inode (this occurs on Unix-like systems when one dir is
	// symlinked to another, for example) or the same path (on
	// Windows).
	DirectoryEntry &UDE = UniqueRealDirs.getDirectory(InterndDirName, StatBuf);

	NamedDirEnt.setValue(&UDE);
	if (!UDE.getName()) {
	// We don't have this directory yet, add it. We use the string
	// key from the SeenDirEntries map as the string.
	UDE.Name = InterndDirName;
	}

	return &UDE;
	}

	const FileEntry *FileManager::getFile(StringRef Filename, bool openFile,
	bool CacheFailure) {
	++NumFileLookups;

	// See if there is already an entry in the map.
	llvm::StringMapEntry<FileEntry *> &NamedFileEnt =
	SeenFileEntries.GetOrCreateValue(Filename);

	// See if there is already an entry in the map.
	if (NamedFileEnt.getValue())
	return NamedFileEnt.getValue() == NON_EXISTENT_FILE
	? 0 : NamedFileEnt.getValue();

	++NumFileCacheMisses;

	// By default, initialize it to invalid.
	NamedFileEnt.setValue(NON_EXISTENT_FILE);

	// Get the null-terminated file name as stored as the key of the
	// SeenFileEntries map.
	const char *InterndFileName = NamedFileEnt.getKeyData();

	// Look up the directory for the file. When looking up something like
	// sys/foo.h we'll discover all of the search directories that have a 'sys'
	// subdirectory. This will let us avoid having to waste time on known-to-fail
	// searches when we go to find sys/bar.h, because all the search directories
	// without a 'sys' subdir will get a cached failure result.
	const DirectoryEntry DirInfo = getDirectoryFromFile(this, Filename,
	CacheFailure);
	if (DirInfo == 0) { // Directory doesn't exist, file can't exist.
	if (!CacheFailure)
	SeenFileEntries.erase(Filename);

	return 0;
	}

	// FIXME: Use the directory info to prune this, before doing the stat syscall.
	// FIXME: This will reduce the # syscalls.

	// Nope, there isn't. Check to see if the file exists.
	int FileDescriptor = -1;
	struct stat StatBuf;
	if (getStatValue(InterndFileName, StatBuf, &FileDescriptor)) {
	// There's no real file at the given path.
	if (!CacheFailure)
	SeenFileEntries.erase(Filename);

	return 0;
	}

	if (FileDescriptor != -1 && !openFile) {
	close(FileDescriptor);
	FileDescriptor = -1;
	}

	// It exists. See if we have already opened a file with the same inode.
	// This occurs when one dir is symlinked to another, for example.
	FileEntry &UFE = UniqueRealFiles.getFile(InterndFileName, StatBuf);

	NamedFileEnt.setValue(&UFE);
	if (UFE.getName()) { // Already have an entry with this inode, return it.
	// If the stat process opened the file, close it to avoid a FD leak.
	if (FileDescriptor != -1)
	close(FileDescriptor);

	return &UFE;
	}

	// Otherwise, we don't have this directory yet, add it.
	// FIXME: Change the name to be a char* that points back to the
	// 'SeenFileEntries' key.
	UFE.Name = InterndFileName;
	UFE.Size = StatBuf.st_size;
	UFE.ModTime = StatBuf.st_mtime;
	UFE.Dir = DirInfo;
	UFE.UID = NextFileUID++;
	UFE.FD = FileDescriptor;
	return &UFE;
	}

	const FileEntry *
	FileManager::getVirtualFile(StringRef Filename, off_t Size,
	time_t ModificationTime) {
	++NumFileLookups;

	// See if there is already an entry in the map.
	llvm::StringMapEntry<FileEntry *> &NamedFileEnt =
	SeenFileEntries.GetOrCreateValue(Filename);

	// See if there is already an entry in the map.
	if (NamedFileEnt.getValue() && NamedFileEnt.getValue() != NON_EXISTENT_FILE)
	return NamedFileEnt.getValue();

	++NumFileCacheMisses;

	// By default, initialize it to invalid.
	NamedFileEnt.setValue(NON_EXISTENT_FILE);

	addAncestorsAsVirtualDirs(Filename);
	FileEntry *UFE = 0;

	// Now that all ancestors of Filename are in the cache, the
	// following call is guaranteed to find the DirectoryEntry from the
	// cache.
	const DirectoryEntry DirInfo = getDirectoryFromFile(this, Filename,
	/CacheFailure=/true);
	assert(DirInfo &&
	"The directory of a virtual file should already be in the cache.");

	// Check to see if the file exists. If so, drop the virtual file
	int FileDescriptor = -1;
	struct stat StatBuf;
	const char *InterndFileName = NamedFileEnt.getKeyData();
	if (getStatValue(InterndFileName, StatBuf, &FileDescriptor) == 0) {
	// If the stat process opened the file, close it to avoid a FD leak.
	if (FileDescriptor != -1)
	close(FileDescriptor);

	StatBuf.st_size = Size;
	StatBuf.st_mtime = ModificationTime;
	UFE = &UniqueRealFiles.getFile(InterndFileName, StatBuf);

	NamedFileEnt.setValue(UFE);

	// If we had already opened this file, close it now so we don't
	// leak the descriptor. We're not going to use the file
	// descriptor anyway, since this is a virtual file.
	if (UFE->FD != -1) {
	close(UFE->FD);
	UFE->FD = -1;
	}

	// If we already have an entry with this inode, return it.
	if (UFE->getName())
	return UFE;
	}

	if (!UFE) {
	UFE = new FileEntry();
	VirtualFileEntries.push_back(UFE);
	NamedFileEnt.setValue(UFE);
	}

	UFE->Name = InterndFileName;
	UFE->Size = Size;
	UFE->ModTime = ModificationTime;
	UFE->Dir = DirInfo;
	UFE->UID = NextFileUID++;
	UFE->FD = -1;
	return UFE;
	}

	void FileManager::FixupRelativePath(SmallVectorImpl<char> &path) const {
	StringRef pathRef(path.data(), path.size());

	if (FileSystemOpts.WorkingDir.empty()
	\|\| llvm::sys::path::is_absolute(pathRef))
	return;

	SmallString<128> NewPath(FileSystemOpts.WorkingDir);
	llvm::sys::path::append(NewPath, pathRef);
	path = NewPath;
	}

	llvm::MemoryBuffer *FileManager::
	getBufferForFile(const FileEntry Entry, std::string ErrorStr,
	bool isVolatile) {
	OwningPtr<llvm::MemoryBuffer> Result;
	llvm::error_code ec;

	uint64_t FileSize = Entry->getSize();
	// If there's a high enough chance that the file have changed since we
	// got its size, force a stat before opening it.
	if (isVolatile)
	FileSize = -1;

	const char *Filename = Entry->getName();
	// If the file is already open, use the open file descriptor.
	if (Entry->FD != -1) {
	ec = llvm::MemoryBuffer::getOpenFile(Entry->FD, Filename, Result, FileSize);
	if (ErrorStr)
	*ErrorStr = ec.message();

	close(Entry->FD);
	Entry->FD = -1;
	return Result.take();
	}

	// Otherwise, open the file.

	if (FileSystemOpts.WorkingDir.empty()) {
	ec = llvm::MemoryBuffer::getFile(Filename, Result, FileSize);
	if (ec && ErrorStr)
	*ErrorStr = ec.message();
	return Result.take();
	}

	SmallString<128> FilePath(Entry->getName());
	FixupRelativePath(FilePath);
	ec = llvm::MemoryBuffer::getFile(FilePath.str(), Result, FileSize);
	if (ec && ErrorStr)
	*ErrorStr = ec.message();
	return Result.take();
	}

	llvm::MemoryBuffer *FileManager::
	getBufferForFile(StringRef Filename, std::string *ErrorStr) {
	OwningPtr<llvm::MemoryBuffer> Result;
	llvm::error_code ec;
	if (FileSystemOpts.WorkingDir.empty()) {
	ec = llvm::MemoryBuffer::getFile(Filename, Result);
	if (ec && ErrorStr)
	*ErrorStr = ec.message();
	return Result.take();
	}

	SmallString<128> FilePath(Filename);
	FixupRelativePath(FilePath);
	ec = llvm::MemoryBuffer::getFile(FilePath.c_str(), Result);
	if (ec && ErrorStr)
	*ErrorStr = ec.message();
	return Result.take();
	}

	/// getStatValue - Get the 'stat' information for the specified path,
	/// using the cache to accelerate it if possible. This returns true
	/// if the path points to a virtual file or does not exist, or returns
	/// false if it's an existent real file. If FileDescriptor is NULL,
	/// do directory look-up instead of file look-up.
	bool FileManager::getStatValue(const char *Path, struct stat &StatBuf,
	int *FileDescriptor) {
	// FIXME: FileSystemOpts shouldn't be passed in here, all paths should be
	// absolute!
	if (FileSystemOpts.WorkingDir.empty())
	return FileSystemStatCache::get(Path, StatBuf, FileDescriptor,
	StatCache.get());

	SmallString<128> FilePath(Path);
	FixupRelativePath(FilePath);

	return FileSystemStatCache::get(FilePath.c_str(), StatBuf, FileDescriptor,
	StatCache.get());
	}

	bool FileManager::getNoncachedStatValue(StringRef Path,
	struct stat &StatBuf) {
	SmallString<128> FilePath(Path);
	FixupRelativePath(FilePath);

	return ::stat(FilePath.c_str(), &StatBuf) != 0;
	}

	void FileManager::invalidateCache(const FileEntry *Entry) {
	assert(Entry && "Cannot invalidate a NULL FileEntry");

	SeenFileEntries.erase(Entry->getName());

	// FileEntry invalidation should not block future optimizations in the file
	// caches. Possible alternatives are cache truncation (invalidate last N) or
	// invalidation of the whole cache.
	UniqueRealFiles.erase(Entry);
	}


	void FileManager::GetUniqueIDMapping(
	SmallVectorImpl<const FileEntry *> &UIDToFiles) const {
	UIDToFiles.clear();
	UIDToFiles.resize(NextFileUID);

	// Map file entries
	for (llvm::StringMap<FileEntry*, llvm::BumpPtrAllocator>::const_iterator
	FE = SeenFileEntries.begin(), FEEnd = SeenFileEntries.end();
	FE != FEEnd; ++FE)
	if (FE->getValue() && FE->getValue() != NON_EXISTENT_FILE)
	UIDToFiles[FE->getValue()->getUID()] = FE->getValue();

	// Map virtual file entries
	for (SmallVector<FileEntry*, 4>::const_iterator
	VFE = VirtualFileEntries.begin(), VFEEnd = VirtualFileEntries.end();
	VFE != VFEEnd; ++VFE)
	if (VFE && VFE != NON_EXISTENT_FILE)
	UIDToFiles[(VFE)->getUID()] = VFE;
	}

	void FileManager::modifyFileEntry(FileEntry *File,
	off_t Size, time_t ModificationTime) {
	File->Size = Size;
	File->ModTime = ModificationTime;
	}


	void FileManager::PrintStats() const {
	llvm::errs() << "\n*** File Manager Stats:\n";
	llvm::errs() << UniqueRealFiles.size() << " real files found, "
	<< UniqueRealDirs.size() << " real dirs found.\n";
	llvm::errs() << VirtualFileEntries.size() << " virtual files found, "
	<< VirtualDirectoryEntries.size() << " virtual dirs found.\n";
	llvm::errs() << NumDirLookups << " dir lookups, "
	<< NumDirCacheMisses << " dir cache misses.\n";
	llvm::errs() << NumFileLookups << " file lookups, "
	<< NumFileCacheMisses << " file cache misses.\n";

	//llvm::errs() << PagesMapped << BytesOfPagesMapped << FSLookups;
	}