base/file_util.cc - platform/external/libchrome - Gitiles

 // Copyright (c) 2006-2009 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/file_util.h"

 #if defined(OS_WIN)
 #include <io.h>
 #endif
 #include <stdio.h>

 #include <fstream>

 #include "base/file_path.h"
 #include "base/logging.h"
 #include "base/string_piece.h"
 #include "base/string_util.h"
 #include "base/utf_string_conversions.h"

 namespace {

 const FilePath::CharType kExtensionSeparator = FILE_PATH_LITERAL('.');

 }  // namespace

 namespace file_util {

 bool EndsWithSeparator(const FilePath& path) {
   FilePath::StringType value = path.value();
   if (value.empty())
     return false;

   return FilePath::IsSeparator(value[value.size() - 1]);
 }

 bool EnsureEndsWithSeparator(FilePath* path) {
   if (!DirectoryExists(*path))
     return false;

   if (EndsWithSeparator(*path))
     return true;

   FilePath::StringType& path_str =
       const_cast<FilePath::StringType&>(path->value());
   path_str.append(&FilePath::kSeparators[0], 1);

   return true;
 }

 FilePath::StringType GetFileExtensionFromPath(const FilePath& path) {
   FilePath::StringType file_name = path.BaseName().value();
   const FilePath::StringType::size_type last_dot =
       file_name.rfind(kExtensionSeparator);
   return FilePath::StringType(last_dot == FilePath::StringType::npos ?
                               FILE_PATH_LITERAL("") :
                               file_name, last_dot+1);
 }

 void InsertBeforeExtension(FilePath* path, const FilePath::StringType& suffix) {
   FilePath::StringType& value =
       const_cast<FilePath::StringType&>(path->value());

   const FilePath::StringType::size_type last_dot =
       value.rfind(kExtensionSeparator);
   const FilePath::StringType::size_type last_separator =
       value.find_last_of(FilePath::StringType(FilePath::kSeparators));

   if (last_dot == FilePath::StringType::npos ||
       (last_separator != std::wstring::npos && last_dot < last_separator)) {
     // The path looks something like "C:\pics.old\jojo" or "C:\pics\jojo".
     // We should just append the suffix to the entire path.
     value.append(suffix);
     return;
   }

   value.insert(last_dot, suffix);
 }

 void ReplaceExtension(FilePath* path, const FilePath::StringType& extension) {
   FilePath::StringType clean_extension;
   // If the new extension is "" or ".", then we will just remove the current
   // extension.
   if (!extension.empty() &&
       extension != FilePath::StringType(&kExtensionSeparator, 1)) {
     if (extension[0] != kExtensionSeparator)
       clean_extension.append(&kExtensionSeparator, 1);
     clean_extension.append(extension);
   }

   FilePath::StringType& value =
       const_cast<FilePath::StringType&>(path->value());
   const FilePath::StringType::size_type last_dot =
       value.rfind(kExtensionSeparator);
   const FilePath::StringType::size_type last_separator =
       value.find_last_of(FilePath::StringType(FilePath::kSeparators));

   // Erase the current extension, if any.
   if ((last_dot > last_separator ||
       last_separator == FilePath::StringType::npos) &&
       last_dot != FilePath::StringType::npos)
     value.erase(last_dot);

   value.append(clean_extension);
 }

 bool ContentsEqual(const FilePath& filename1, const FilePath& filename2) {
   // We open the file in binary format even if they are text files because
   // we are just comparing that bytes are exactly same in both files and not
   // doing anything smart with text formatting.
   std::ifstream file1(filename1.value().c_str(),
                       std::ios::in | std::ios::binary);
   std::ifstream file2(filename2.value().c_str(),
                       std::ios::in | std::ios::binary);

   // Even if both files aren't openable (and thus, in some sense, "equal"),
   // any unusable file yields a result of "false".
   if (!file1.is_open() || !file2.is_open())
     return false;

   const int BUFFER_SIZE = 2056;
   char buffer1[BUFFER_SIZE], buffer2[BUFFER_SIZE];
   do {
     file1.read(buffer1, BUFFER_SIZE);
     file2.read(buffer2, BUFFER_SIZE);

     if ((file1.eof() != file2.eof()) ||
         (file1.gcount() != file2.gcount()) ||
         (memcmp(buffer1, buffer2, file1.gcount()))) {
       file1.close();
       file2.close();
       return false;
     }
   } while (!file1.eof() || !file2.eof());

   file1.close();
   file2.close();
   return true;
 }

 bool TextContentsEqual(const FilePath& filename1, const FilePath& filename2) {
   std::ifstream file1(filename1.value().c_str(), std::ios::in);
   std::ifstream file2(filename2.value().c_str(), std::ios::in);

   // Even if both files aren't openable (and thus, in some sense, "equal"),
   // any unusable file yields a result of "false".
   if (!file1.is_open() || !file2.is_open())
     return false;

   do {
     std::string line1, line2;
     getline(file1, line1);
     getline(file2, line2);

     // Check for mismatched EOF states, or any error state.
     if ((file1.eof() != file2.eof()) ||
         file1.bad() || file2.bad()) {
       return false;
     }

     // Trim all '\r' and '\n' characters from the end of the line.
     std::string::size_type end1 = line1.find_last_not_of("\r\n");
     if (end1 == std::string::npos)
       line1.clear();
     else if (end1 + 1 < line1.length())
       line1.erase(end1 + 1);

     std::string::size_type end2 = line2.find_last_not_of("\r\n");
     if (end2 == std::string::npos)
       line2.clear();
     else if (end2 + 1 < line2.length())
       line2.erase(end2 + 1);

     if (line1 != line2)
       return false;
   } while (!file1.eof() || !file2.eof());

   return true;
 }

 bool ReadFileToString(const FilePath& path, std::string* contents) {
   FILE* file = OpenFile(path, "rb");
   if (!file) {
     return false;
   }

   char buf[1 << 16];
   size_t len;
   while ((len = fread(buf, 1, sizeof(buf), file)) > 0) {
     contents->append(buf, len);
   }
   CloseFile(file);

   return true;
 }

 FILE* CreateAndOpenTemporaryFile(FilePath* path) {
   FilePath directory;
   if (!GetTempDir(&directory))
     return false;

   return CreateAndOpenTemporaryFileInDir(directory, path);
 }

 bool GetFileSize(const FilePath& file_path, int64* file_size) {
   FileInfo info;
   if (!GetFileInfo(file_path, &info))
     return false;
   *file_size = info.size;
   return true;
 }

 bool CloseFile(FILE* file) {
   if (file == NULL)
     return true;
   return fclose(file) == 0;
 }

 bool TruncateFile(FILE* file) {
   if (file == NULL)
     return false;
   long current_offset = ftell(file);
   if (current_offset == -1)
     return false;
 #if defined(OS_WIN)
   int fd = _fileno(file);
   if (_chsize(fd, current_offset) != 0)
     return false;
 #else
   int fd = fileno(file);
   if (ftruncate(fd, current_offset) != 0)
     return false;
 #endif
   return true;
 }

 bool ContainsPath(const FilePath &parent, const FilePath& child) {
   FilePath abs_parent = FilePath(parent);
   FilePath abs_child = FilePath(child);

   if (!file_util::AbsolutePath(&abs_parent) ||
       !file_util::AbsolutePath(&abs_child))
     return false;

 #if defined(OS_WIN)
   // file_util::AbsolutePath() does not flatten case on Windows, so we must do
   // a case-insensitive compare.
   if (!StartsWith(abs_child.value(), abs_parent.value(), false))
 #else
   if (!StartsWithASCII(abs_child.value(), abs_parent.value(), true))
 #endif
     return false;

   // file_util::AbsolutePath() normalizes '/' to '\' on Windows, so we only need
   // to check kSeparators[0].
   if (abs_child.value().length() <= abs_parent.value().length() ||
       abs_child.value()[abs_parent.value().length()] !=
           FilePath::kSeparators[0])
     return false;

   return true;
 }

 ///////////////////////////////////////////////
 // MemoryMappedFile

 MemoryMappedFile::~MemoryMappedFile() {
   CloseHandles();
 }

 bool MemoryMappedFile::Initialize(const FilePath& file_name) {
   if (IsValid())
     return false;

   if (!MapFileToMemory(file_name)) {
     CloseHandles();
     return false;
   }

   return true;
 }

 bool MemoryMappedFile::IsValid() {
   return data_ != NULL;
 }

 // Deprecated functions ----------------------------------------------------

 bool ReadFileToString(const std::wstring& path, std::string* contents) {
   return ReadFileToString(FilePath::FromWStringHack(path), contents);
 }

 bool AbsolutePath(std::wstring* path_str) {
   FilePath path(FilePath::FromWStringHack(*path_str));
   if (!AbsolutePath(&path))
     return false;
   *path_str = path.ToWStringHack();
   return true;
 }
 void AppendToPath(std::wstring* path, const std::wstring& new_ending) {
   if (!path) {
     NOTREACHED();
     return;  // Don't crash in this function in release builds.
   }

   if (!EndsWithSeparator(path))
     path->push_back(FilePath::kSeparators[0]);
   path->append(new_ending);
 }
 bool CopyDirectory(const std::wstring& from_path, const std::wstring& to_path,
                    bool recursive) {
   return CopyDirectory(FilePath::FromWStringHack(from_path),
                        FilePath::FromWStringHack(to_path),
                        recursive);
 }
 bool ContentsEqual(const std::wstring& filename1,
                    const std::wstring& filename2) {
   return ContentsEqual(FilePath::FromWStringHack(filename1),
                        FilePath::FromWStringHack(filename2));
 }
 bool CreateDirectory(const std::wstring& full_path) {
   return CreateDirectory(FilePath::FromWStringHack(full_path));
 }
 bool CreateNewTempDirectory(const std::wstring& prefix,
                             std::wstring* new_temp_path) {
 #if defined(OS_WIN)
   FilePath::StringType dir_prefix(prefix);
 #elif defined(OS_POSIX)
   FilePath::StringType dir_prefix = WideToUTF8(prefix);
 #endif
   FilePath temp_path;
   if (!CreateNewTempDirectory(dir_prefix, &temp_path))
     return false;
   *new_temp_path = temp_path.ToWStringHack();
   return true;
 }
 bool Delete(const std::wstring& path, bool recursive) {
   return Delete(FilePath::FromWStringHack(path), recursive);
 }
 bool EndsWithSeparator(std::wstring* path) {
   return EndsWithSeparator(FilePath::FromWStringHack(*path));
 }
 bool EndsWithSeparator(const std::wstring& path) {
   return EndsWithSeparator(FilePath::FromWStringHack(path));
 }
 bool GetCurrentDirectory(std::wstring* path_str) {
   FilePath path;
   if (!GetCurrentDirectory(&path))
     return false;
   *path_str = path.ToWStringHack();
   return true;
 }
 std::wstring GetFileExtensionFromPath(const std::wstring& path) {
   FilePath::StringType extension =
       GetFileExtensionFromPath(FilePath::FromWStringHack(path));
 #if defined(OS_WIN)
   return extension;
 #elif defined(OS_POSIX)
   return UTF8ToWide(extension);
 #endif
 }
 bool GetFileInfo(const std::wstring& file_path, FileInfo* results) {
   return GetFileInfo(FilePath::FromWStringHack(file_path), results);
 }
 std::wstring GetFilenameFromPath(const std::wstring& path) {
   if (path.empty() || EndsWithSeparator(path))
     return std::wstring();

   return FilePath::FromWStringHack(path).BaseName().ToWStringHack();
 }
 bool GetFileSize(const std::wstring& file_path, int64* file_size) {
   return GetFileSize(FilePath::FromWStringHack(file_path), file_size);
 }
 bool GetTempDir(std::wstring* path_str) {
   FilePath path;
   if (!GetTempDir(&path))
     return false;
   *path_str = path.ToWStringHack();
   return true;
 }
 FILE* OpenFile(const std::wstring& filename, const char* mode) {
   return OpenFile(FilePath::FromWStringHack(filename), mode);
 }
 int ReadFile(const std::wstring& filename, char* data, int size) {
   return ReadFile(FilePath::FromWStringHack(filename), data, size);
 }
 bool SetCurrentDirectory(const std::wstring& directory) {
   return SetCurrentDirectory(FilePath::FromWStringHack(directory));
 }
 void UpOneDirectory(std::wstring* dir) {
   FilePath path = FilePath::FromWStringHack(*dir);
   FilePath directory = path.DirName();
   // If there is no separator, we will get back kCurrentDirectory.
   // In this case don't change |dir|.
   if (directory.value() != FilePath::kCurrentDirectory)
     *dir = directory.ToWStringHack();
 }
 void UpOneDirectoryOrEmpty(std::wstring* dir) {
   FilePath path = FilePath::FromWStringHack(*dir);
   FilePath directory = path.DirName();
   // If there is no separator, we will get back kCurrentDirectory.
   // In this case, clear dir.
   if (directory == path || directory.value() == FilePath::kCurrentDirectory)
     dir->clear();
   else
     *dir = directory.ToWStringHack();
 }
 int WriteFile(const std::wstring& filename, const char* data, int size) {
   return WriteFile(FilePath::FromWStringHack(filename), data, size);
 }

 ///////////////////////////////////////////////
 // FileEnumerator
 //
 // Note: the main logic is in file_util_<platform>.cc

 bool FileEnumerator::ShouldSkip(const FilePath& path) {
   FilePath::StringType basename = path.BaseName().value();
   return IsDot(path) || (IsDotDot(path) && !(INCLUDE_DOT_DOT & file_type_));
 }

 bool FileEnumerator::IsDot(const FilePath& path) {
   return FILE_PATH_LITERAL(".") == path.BaseName().value();
 }

 bool FileEnumerator::IsDotDot(const FilePath& path) {
   return FILE_PATH_LITERAL("..") == path.BaseName().value();
 }

 }  // namespace
	// Copyright (c) 2006-2009 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/file_util.h"

	#if defined(OS_WIN)
	#include <io.h>
	#endif
	#include <stdio.h>

	#include <fstream>

	#include "base/file_path.h"
	#include "base/logging.h"
	#include "base/string_piece.h"
	#include "base/string_util.h"
	#include "base/utf_string_conversions.h"

	namespace {

	const FilePath::CharType kExtensionSeparator = FILE_PATH_LITERAL('.');

	} // namespace

	namespace file_util {

	bool EndsWithSeparator(const FilePath& path) {
	FilePath::StringType value = path.value();
	if (value.empty())
	return false;

	return FilePath::IsSeparator(value[value.size() - 1]);
	}

	bool EnsureEndsWithSeparator(FilePath* path) {
	if (!DirectoryExists(*path))
	return false;

	if (EndsWithSeparator(*path))
	return true;

	FilePath::StringType& path_str =
	const_cast<FilePath::StringType&>(path->value());
	path_str.append(&FilePath::kSeparators[0], 1);

	return true;
	}

	FilePath::StringType GetFileExtensionFromPath(const FilePath& path) {
	FilePath::StringType file_name = path.BaseName().value();
	const FilePath::StringType::size_type last_dot =
	file_name.rfind(kExtensionSeparator);
	return FilePath::StringType(last_dot == FilePath::StringType::npos ?
	FILE_PATH_LITERAL("") :
	file_name, last_dot+1);
	}

	void InsertBeforeExtension(FilePath* path, const FilePath::StringType& suffix) {
	FilePath::StringType& value =
	const_cast<FilePath::StringType&>(path->value());

	const FilePath::StringType::size_type last_dot =
	value.rfind(kExtensionSeparator);
	const FilePath::StringType::size_type last_separator =
	value.find_last_of(FilePath::StringType(FilePath::kSeparators));

	if (last_dot == FilePath::StringType::npos \|\|
	(last_separator != std::wstring::npos && last_dot < last_separator)) {
	// The path looks something like "C:\pics.old\jojo" or "C:\pics\jojo".
	// We should just append the suffix to the entire path.
	value.append(suffix);
	return;
	}

	value.insert(last_dot, suffix);
	}

	void ReplaceExtension(FilePath* path, const FilePath::StringType& extension) {
	FilePath::StringType clean_extension;
	// If the new extension is "" or ".", then we will just remove the current
	// extension.
	if (!extension.empty() &&
	extension != FilePath::StringType(&kExtensionSeparator, 1)) {
	if (extension[0] != kExtensionSeparator)
	clean_extension.append(&kExtensionSeparator, 1);
	clean_extension.append(extension);
	}

	FilePath::StringType& value =
	const_cast<FilePath::StringType&>(path->value());
	const FilePath::StringType::size_type last_dot =
	value.rfind(kExtensionSeparator);
	const FilePath::StringType::size_type last_separator =
	value.find_last_of(FilePath::StringType(FilePath::kSeparators));

	// Erase the current extension, if any.
	if ((last_dot > last_separator \|\|
	last_separator == FilePath::StringType::npos) &&
	last_dot != FilePath::StringType::npos)
	value.erase(last_dot);

	value.append(clean_extension);
	}

	bool ContentsEqual(const FilePath& filename1, const FilePath& filename2) {
	// We open the file in binary format even if they are text files because
	// we are just comparing that bytes are exactly same in both files and not
	// doing anything smart with text formatting.
	std::ifstream file1(filename1.value().c_str(),
	std::ios::in \| std::ios::binary);
	std::ifstream file2(filename2.value().c_str(),
	std::ios::in \| std::ios::binary);

	// Even if both files aren't openable (and thus, in some sense, "equal"),
	// any unusable file yields a result of "false".
	if (!file1.is_open() \|\| !file2.is_open())
	return false;

	const int BUFFER_SIZE = 2056;
	char buffer1[BUFFER_SIZE], buffer2[BUFFER_SIZE];
	do {
	file1.read(buffer1, BUFFER_SIZE);
	file2.read(buffer2, BUFFER_SIZE);

	if ((file1.eof() != file2.eof()) \|\|
	(file1.gcount() != file2.gcount()) \|\|
	(memcmp(buffer1, buffer2, file1.gcount()))) {
	file1.close();
	file2.close();
	return false;
	}
	} while (!file1.eof() \|\| !file2.eof());

	file1.close();
	file2.close();
	return true;
	}

	bool TextContentsEqual(const FilePath& filename1, const FilePath& filename2) {
	std::ifstream file1(filename1.value().c_str(), std::ios::in);
	std::ifstream file2(filename2.value().c_str(), std::ios::in);

	// Even if both files aren't openable (and thus, in some sense, "equal"),
	// any unusable file yields a result of "false".
	if (!file1.is_open() \|\| !file2.is_open())
	return false;

	do {
	std::string line1, line2;
	getline(file1, line1);
	getline(file2, line2);

	// Check for mismatched EOF states, or any error state.
	if ((file1.eof() != file2.eof()) \|\|
	file1.bad() \|\| file2.bad()) {
	return false;
	}

	// Trim all '\r' and '\n' characters from the end of the line.
	std::string::size_type end1 = line1.find_last_not_of("\r\n");
	if (end1 == std::string::npos)
	line1.clear();
	else if (end1 + 1 < line1.length())
	line1.erase(end1 + 1);

	std::string::size_type end2 = line2.find_last_not_of("\r\n");
	if (end2 == std::string::npos)
	line2.clear();
	else if (end2 + 1 < line2.length())
	line2.erase(end2 + 1);

	if (line1 != line2)
	return false;
	} while (!file1.eof() \|\| !file2.eof());

	return true;
	}

	bool ReadFileToString(const FilePath& path, std::string* contents) {
	FILE* file = OpenFile(path, "rb");
	if (!file) {
	return false;
	}

	char buf[1 << 16];
	size_t len;
	while ((len = fread(buf, 1, sizeof(buf), file)) > 0) {
	contents->append(buf, len);
	}
	CloseFile(file);

	return true;
	}

	FILE* CreateAndOpenTemporaryFile(FilePath* path) {
	FilePath directory;
	if (!GetTempDir(&directory))
	return false;

	return CreateAndOpenTemporaryFileInDir(directory, path);
	}

	bool GetFileSize(const FilePath& file_path, int64* file_size) {
	FileInfo info;
	if (!GetFileInfo(file_path, &info))
	return false;
	*file_size = info.size;
	return true;
	}

	bool CloseFile(FILE* file) {
	if (file == NULL)
	return true;
	return fclose(file) == 0;
	}

	bool TruncateFile(FILE* file) {
	if (file == NULL)
	return false;
	long current_offset = ftell(file);
	if (current_offset == -1)
	return false;
	#if defined(OS_WIN)
	int fd = _fileno(file);
	if (_chsize(fd, current_offset) != 0)
	return false;
	#else
	int fd = fileno(file);
	if (ftruncate(fd, current_offset) != 0)
	return false;
	#endif
	return true;
	}

	bool ContainsPath(const FilePath &parent, const FilePath& child) {
	FilePath abs_parent = FilePath(parent);
	FilePath abs_child = FilePath(child);

	if (!file_util::AbsolutePath(&abs_parent) \|\|
	!file_util::AbsolutePath(&abs_child))
	return false;

	#if defined(OS_WIN)
	// file_util::AbsolutePath() does not flatten case on Windows, so we must do
	// a case-insensitive compare.
	if (!StartsWith(abs_child.value(), abs_parent.value(), false))
	#else
	if (!StartsWithASCII(abs_child.value(), abs_parent.value(), true))
	#endif
	return false;

	// file_util::AbsolutePath() normalizes '/' to '\' on Windows, so we only need
	// to check kSeparators[0].
	if (abs_child.value().length() <= abs_parent.value().length() \|\|
	abs_child.value()[abs_parent.value().length()] !=
	FilePath::kSeparators[0])
	return false;

	return true;
	}

	///////////////////////////////////////////////
	// MemoryMappedFile

	MemoryMappedFile::~MemoryMappedFile() {
	CloseHandles();
	}

	bool MemoryMappedFile::Initialize(const FilePath& file_name) {
	if (IsValid())
	return false;

	if (!MapFileToMemory(file_name)) {
	CloseHandles();
	return false;
	}

	return true;
	}

	bool MemoryMappedFile::IsValid() {
	return data_ != NULL;
	}

	// Deprecated functions ----------------------------------------------------

	bool ReadFileToString(const std::wstring& path, std::string* contents) {
	return ReadFileToString(FilePath::FromWStringHack(path), contents);
	}

	bool AbsolutePath(std::wstring* path_str) {
	FilePath path(FilePath::FromWStringHack(*path_str));
	if (!AbsolutePath(&path))
	return false;
	*path_str = path.ToWStringHack();
	return true;
	}
	void AppendToPath(std::wstring* path, const std::wstring& new_ending) {
	if (!path) {
	NOTREACHED();
	return; // Don't crash in this function in release builds.
	}

	if (!EndsWithSeparator(path))
	path->push_back(FilePath::kSeparators[0]);
	path->append(new_ending);
	}
	bool CopyDirectory(const std::wstring& from_path, const std::wstring& to_path,
	bool recursive) {
	return CopyDirectory(FilePath::FromWStringHack(from_path),
	FilePath::FromWStringHack(to_path),
	recursive);
	}
	bool ContentsEqual(const std::wstring& filename1,
	const std::wstring& filename2) {
	return ContentsEqual(FilePath::FromWStringHack(filename1),
	FilePath::FromWStringHack(filename2));
	}
	bool CreateDirectory(const std::wstring& full_path) {
	return CreateDirectory(FilePath::FromWStringHack(full_path));
	}
	bool CreateNewTempDirectory(const std::wstring& prefix,
	std::wstring* new_temp_path) {
	#if defined(OS_WIN)
	FilePath::StringType dir_prefix(prefix);
	#elif defined(OS_POSIX)
	FilePath::StringType dir_prefix = WideToUTF8(prefix);
	#endif
	FilePath temp_path;
	if (!CreateNewTempDirectory(dir_prefix, &temp_path))
	return false;
	*new_temp_path = temp_path.ToWStringHack();
	return true;
	}
	bool Delete(const std::wstring& path, bool recursive) {
	return Delete(FilePath::FromWStringHack(path), recursive);
	}
	bool EndsWithSeparator(std::wstring* path) {
	return EndsWithSeparator(FilePath::FromWStringHack(*path));
	}
	bool EndsWithSeparator(const std::wstring& path) {
	return EndsWithSeparator(FilePath::FromWStringHack(path));
	}
	bool GetCurrentDirectory(std::wstring* path_str) {
	FilePath path;
	if (!GetCurrentDirectory(&path))
	return false;
	*path_str = path.ToWStringHack();
	return true;
	}
	std::wstring GetFileExtensionFromPath(const std::wstring& path) {
	FilePath::StringType extension =
	GetFileExtensionFromPath(FilePath::FromWStringHack(path));
	#if defined(OS_WIN)
	return extension;
	#elif defined(OS_POSIX)
	return UTF8ToWide(extension);
	#endif
	}
	bool GetFileInfo(const std::wstring& file_path, FileInfo* results) {
	return GetFileInfo(FilePath::FromWStringHack(file_path), results);
	}
	std::wstring GetFilenameFromPath(const std::wstring& path) {
	if (path.empty() \|\| EndsWithSeparator(path))
	return std::wstring();

	return FilePath::FromWStringHack(path).BaseName().ToWStringHack();
	}
	bool GetFileSize(const std::wstring& file_path, int64* file_size) {
	return GetFileSize(FilePath::FromWStringHack(file_path), file_size);
	}
	bool GetTempDir(std::wstring* path_str) {
	FilePath path;
	if (!GetTempDir(&path))
	return false;
	*path_str = path.ToWStringHack();
	return true;
	}
	FILE* OpenFile(const std::wstring& filename, const char* mode) {
	return OpenFile(FilePath::FromWStringHack(filename), mode);
	}
	int ReadFile(const std::wstring& filename, char* data, int size) {
	return ReadFile(FilePath::FromWStringHack(filename), data, size);
	}
	bool SetCurrentDirectory(const std::wstring& directory) {
	return SetCurrentDirectory(FilePath::FromWStringHack(directory));
	}
	void UpOneDirectory(std::wstring* dir) {
	FilePath path = FilePath::FromWStringHack(*dir);
	FilePath directory = path.DirName();
	// If there is no separator, we will get back kCurrentDirectory.
	// In this case don't change \|dir\|.
	if (directory.value() != FilePath::kCurrentDirectory)
	*dir = directory.ToWStringHack();
	}
	void UpOneDirectoryOrEmpty(std::wstring* dir) {
	FilePath path = FilePath::FromWStringHack(*dir);
	FilePath directory = path.DirName();
	// If there is no separator, we will get back kCurrentDirectory.
	// In this case, clear dir.
	if (directory == path \|\| directory.value() == FilePath::kCurrentDirectory)
	dir->clear();
	else
	*dir = directory.ToWStringHack();
	}
	int WriteFile(const std::wstring& filename, const char* data, int size) {
	return WriteFile(FilePath::FromWStringHack(filename), data, size);
	}

	///////////////////////////////////////////////
	// FileEnumerator
	//
	// Note: the main logic is in file_util_<platform>.cc

	bool FileEnumerator::ShouldSkip(const FilePath& path) {
	FilePath::StringType basename = path.BaseName().value();
	return IsDot(path) \|\| (IsDotDot(path) && !(INCLUDE_DOT_DOT & file_type_));
	}

	bool FileEnumerator::IsDot(const FilePath& path) {
	return FILE_PATH_LITERAL(".") == path.BaseName().value();
	}

	bool FileEnumerator::IsDotDot(const FilePath& path) {
	return FILE_PATH_LITERAL("..") == path.BaseName().value();
	}

	} // namespace