/**************************************************************************** Copyright (c) 2010-2013 cocos2d-x.org Copyright (c) 2013-2016 Chukong Technologies Inc. http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "platform/CCFileUtils.h" #include #include "base/CCData.h" #include "base/ccMacros.h" #include "base/CCDirector.h" #include "platform/CCSAXParser.h" //#include "base/ccUtils.h" #include "tinyxml2.h" #ifdef MINIZIP_FROM_SYSTEM #include #else // from our embedded sources #include "unzip.h" #endif #include NS_CC_BEGIN // Implement DictMaker #if (CC_TARGET_PLATFORM != CC_PLATFORM_IOS) && (CC_TARGET_PLATFORM != CC_PLATFORM_MAC) typedef enum { SAX_NONE = 0, SAX_KEY, SAX_DICT, SAX_INT, SAX_REAL, SAX_STRING, SAX_ARRAY }SAXState; typedef enum { SAX_RESULT_NONE = 0, SAX_RESULT_DICT, SAX_RESULT_ARRAY }SAXResult; class DictMaker : public SAXDelegator { public: SAXResult _resultType; ValueMap _rootDict; ValueVector _rootArray; std::string _curKey; ///< parsed key std::string _curValue; // parsed value SAXState _state; ValueMap* _curDict; ValueVector* _curArray; std::stack _dictStack; std::stack _arrayStack; std::stack _stateStack; public: DictMaker() : _resultType(SAX_RESULT_NONE) { } ~DictMaker() { } ValueMap dictionaryWithContentsOfFile(const std::string& fileName) { _resultType = SAX_RESULT_DICT; SAXParser parser; CCASSERT(parser.init("UTF-8"), "The file format isn't UTF-8"); parser.setDelegator(this); parser.parse(fileName); return _rootDict; } ValueMap dictionaryWithDataOfFile(const char* filedata, int filesize) { _resultType = SAX_RESULT_DICT; SAXParser parser; CCASSERT(parser.init("UTF-8"), "The file format isn't UTF-8"); parser.setDelegator(this); parser.parse(filedata, filesize); return _rootDict; } ValueVector arrayWithContentsOfFile(const std::string& fileName) { _resultType = SAX_RESULT_ARRAY; SAXParser parser; CCASSERT(parser.init("UTF-8"), "The file format isn't UTF-8"); parser.setDelegator(this); parser.parse(fileName); return _rootArray; } void startElement(void *ctx, const char *name, const char **atts) { CC_UNUSED_PARAM(ctx); CC_UNUSED_PARAM(atts); const std::string sName(name); if( sName == "dict" ) { if(_resultType == SAX_RESULT_DICT && _rootDict.empty()) { _curDict = &_rootDict; } _state = SAX_DICT; SAXState preState = SAX_NONE; if (! _stateStack.empty()) { preState = _stateStack.top(); } if (SAX_ARRAY == preState) { // add a new dictionary into the array _curArray->push_back(Value(ValueMap())); _curDict = &(_curArray->rbegin())->asValueMap(); } else if (SAX_DICT == preState) { // add a new dictionary into the pre dictionary CCASSERT(! _dictStack.empty(), "The state is wrong!"); ValueMap* preDict = _dictStack.top(); (*preDict)[_curKey] = Value(ValueMap()); _curDict = &(*preDict)[_curKey].asValueMap(); } // record the dict state _stateStack.push(_state); _dictStack.push(_curDict); } else if(sName == "key") { _state = SAX_KEY; } else if(sName == "integer") { _state = SAX_INT; } else if(sName == "real") { _state = SAX_REAL; } else if(sName == "string") { _state = SAX_STRING; } else if (sName == "array") { _state = SAX_ARRAY; if (_resultType == SAX_RESULT_ARRAY && _rootArray.empty()) { _curArray = &_rootArray; } SAXState preState = SAX_NONE; if (! _stateStack.empty()) { preState = _stateStack.top(); } if (preState == SAX_DICT) { (*_curDict)[_curKey] = Value(ValueVector()); _curArray = &(*_curDict)[_curKey].asValueVector(); } else if (preState == SAX_ARRAY) { CCASSERT(! _arrayStack.empty(), "The state is wrong!"); ValueVector* preArray = _arrayStack.top(); preArray->push_back(Value(ValueVector())); _curArray = &(_curArray->rbegin())->asValueVector(); } // record the array state _stateStack.push(_state); _arrayStack.push(_curArray); } else { _state = SAX_NONE; } } void endElement(void *ctx, const char *name) { CC_UNUSED_PARAM(ctx); SAXState curState = _stateStack.empty() ? SAX_DICT : _stateStack.top(); const std::string sName((char*)name); if( sName == "dict" ) { _stateStack.pop(); _dictStack.pop(); if ( !_dictStack.empty()) { _curDict = _dictStack.top(); } } else if (sName == "array") { _stateStack.pop(); _arrayStack.pop(); if (! _arrayStack.empty()) { _curArray = _arrayStack.top(); } } else if (sName == "true") { if (SAX_ARRAY == curState) { _curArray->push_back(Value(true)); } else if (SAX_DICT == curState) { (*_curDict)[_curKey] = Value(true); } } else if (sName == "false") { if (SAX_ARRAY == curState) { _curArray->push_back(Value(false)); } else if (SAX_DICT == curState) { (*_curDict)[_curKey] = Value(false); } } else if (sName == "string" || sName == "integer" || sName == "real") { if (SAX_ARRAY == curState) { if (sName == "string") _curArray->push_back(Value(_curValue)); else if (sName == "integer") _curArray->push_back(Value(atoi(_curValue.c_str()))); else _curArray->push_back(Value(std::atof(_curValue.c_str()))); } else if (SAX_DICT == curState) { if (sName == "string") (*_curDict)[_curKey] = Value(_curValue); else if (sName == "integer") (*_curDict)[_curKey] = Value(atoi(_curValue.c_str())); else (*_curDict)[_curKey] = Value(std::atof(_curValue.c_str())); } _curValue.clear(); } _state = SAX_NONE; } void textHandler(void *ctx, const char *ch, int len) { CC_UNUSED_PARAM(ctx); if (_state == SAX_NONE) { return; } SAXState curState = _stateStack.empty() ? SAX_DICT : _stateStack.top(); const std::string text = std::string((char*)ch,len); switch(_state) { case SAX_KEY: _curKey = text; break; case SAX_INT: case SAX_REAL: case SAX_STRING: { if (curState == SAX_DICT) { CCASSERT(!_curKey.empty(), "key not found : "); } _curValue.append(text); } break; default: break; } } }; ValueMap FileUtils::getValueMapFromFile(const std::string& filename) { const std::string fullPath = fullPathForFilename(filename); DictMaker tMaker; return tMaker.dictionaryWithContentsOfFile(fullPath); } ValueMap FileUtils::getValueMapFromData(const char* filedata, int filesize) { DictMaker tMaker; return tMaker.dictionaryWithDataOfFile(filedata, filesize); } ValueVector FileUtils::getValueVectorFromFile(const std::string& filename) { const std::string fullPath = fullPathForFilename(filename); DictMaker tMaker; return tMaker.arrayWithContentsOfFile(fullPath); } /* * forward statement */ static tinyxml2::XMLElement* generateElementForArray(const ValueVector& array, tinyxml2::XMLDocument *doc); static tinyxml2::XMLElement* generateElementForDict(const ValueMap& dict, tinyxml2::XMLDocument *doc); /* * Use tinyxml2 to write plist files */ bool FileUtils::writeToFile(const ValueMap& dict, const std::string &fullPath) { return writeValueMapToFile(dict, fullPath); } bool FileUtils::writeValueMapToFile(const ValueMap& dict, const std::string& fullPath) { tinyxml2::XMLDocument *doc = new (std::nothrow)tinyxml2::XMLDocument(); if (nullptr == doc) return false; tinyxml2::XMLDeclaration *declaration = doc->NewDeclaration("xml version=\"1.0\" encoding=\"UTF-8\""); if (nullptr == declaration) { delete doc; return false; } doc->LinkEndChild(declaration); tinyxml2::XMLElement *docType = doc->NewElement("!DOCTYPE plist PUBLIC \"-//Apple//DTD PLIST 1.0//EN\" \"http://www.apple.com/DTDs/PropertyList-1.0.dtd\""); doc->LinkEndChild(docType); tinyxml2::XMLElement *rootEle = doc->NewElement("plist"); rootEle->SetAttribute("version", "1.0"); if (nullptr == rootEle) { delete doc; return false; } doc->LinkEndChild(rootEle); tinyxml2::XMLElement *innerDict = generateElementForDict(dict, doc); if (nullptr == innerDict) { delete doc; return false; } rootEle->LinkEndChild(innerDict); bool ret = tinyxml2::XML_SUCCESS == doc->SaveFile(getSuitableFOpen(fullPath).c_str()); delete doc; return ret; } bool FileUtils::writeValueVectorToFile(const ValueVector& vecData, const std::string& fullPath) { tinyxml2::XMLDocument *doc = new (std::nothrow)tinyxml2::XMLDocument(); if (nullptr == doc) return false; tinyxml2::XMLDeclaration *declaration = doc->NewDeclaration("xml version=\"1.0\" encoding=\"UTF-8\""); if (nullptr == declaration) { delete doc; return false; } doc->LinkEndChild(declaration); tinyxml2::XMLElement *docType = doc->NewElement("!DOCTYPE plist PUBLIC \"-//Apple//DTD PLIST 1.0//EN\" \"http://www.apple.com/DTDs/PropertyList-1.0.dtd\""); doc->LinkEndChild(docType); tinyxml2::XMLElement *rootEle = doc->NewElement("plist"); rootEle->SetAttribute("version", "1.0"); if (nullptr == rootEle) { delete doc; return false; } doc->LinkEndChild(rootEle); tinyxml2::XMLElement *innerDict = generateElementForArray(vecData, doc); if (nullptr == innerDict) { delete doc; return false; } rootEle->LinkEndChild(innerDict); bool ret = tinyxml2::XML_SUCCESS == doc->SaveFile(getSuitableFOpen(fullPath).c_str()); delete doc; return ret; } /* * Generate tinyxml2::XMLElement for Object through a tinyxml2::XMLDocument */ static tinyxml2::XMLElement* generateElementForObject(const Value& value, tinyxml2::XMLDocument *doc) { // object is String if (value.getType() == Value::Type::STRING) { tinyxml2::XMLElement* node = doc->NewElement("string"); tinyxml2::XMLText* content = doc->NewText(value.asString().c_str()); node->LinkEndChild(content); return node; } // object is integer if (value.getType() == Value::Type::INTEGER) { tinyxml2::XMLElement* node = doc->NewElement("integer"); tinyxml2::XMLText* content = doc->NewText(value.asString().c_str()); node->LinkEndChild(content); return node; } // object is real if (value.getType() == Value::Type::FLOAT || value.getType() == Value::Type::DOUBLE) { tinyxml2::XMLElement* node = doc->NewElement("real"); tinyxml2::XMLText* content = doc->NewText(value.asString().c_str()); node->LinkEndChild(content); return node; } //object is bool if (value.getType() == Value::Type::BOOLEAN) { tinyxml2::XMLElement* node = doc->NewElement(value.asString().c_str()); return node; } // object is Array if (value.getType() == Value::Type::VECTOR) return generateElementForArray(value.asValueVector(), doc); // object is Dictionary if (value.getType() == Value::Type::MAP) return generateElementForDict(value.asValueMap(), doc); CCLOG("This type cannot appear in property list"); return nullptr; } /* * Generate tinyxml2::XMLElement for Dictionary through a tinyxml2::XMLDocument */ static tinyxml2::XMLElement* generateElementForDict(const ValueMap& dict, tinyxml2::XMLDocument *doc) { tinyxml2::XMLElement* rootNode = doc->NewElement("dict"); for (const auto &iter : dict) { tinyxml2::XMLElement* tmpNode = doc->NewElement("key"); rootNode->LinkEndChild(tmpNode); tinyxml2::XMLText* content = doc->NewText(iter.first.c_str()); tmpNode->LinkEndChild(content); tinyxml2::XMLElement *element = generateElementForObject(iter.second, doc); if (element) rootNode->LinkEndChild(element); } return rootNode; } /* * Generate tinyxml2::XMLElement for Array through a tinyxml2::XMLDocument */ static tinyxml2::XMLElement* generateElementForArray(const ValueVector& array, tinyxml2::XMLDocument *pDoc) { tinyxml2::XMLElement* rootNode = pDoc->NewElement("array"); for(const auto &value : array) { tinyxml2::XMLElement *element = generateElementForObject(value, pDoc); if (element) rootNode->LinkEndChild(element); } return rootNode; } #else /* The subclass FileUtilsApple should override these two method. */ ValueMap FileUtils::getValueMapFromFile(const std::string& filename) {return ValueMap();} ValueMap FileUtils::getValueMapFromData(const char* filedata, int filesize) {return ValueMap();} ValueVector FileUtils::getValueVectorFromFile(const std::string& filename) {return ValueVector();} bool FileUtils::writeToFile(const ValueMap& dict, const std::string &fullPath) {return false;} #endif /* (CC_TARGET_PLATFORM != CC_PLATFORM_IOS) && (CC_TARGET_PLATFORM != CC_PLATFORM_MAC) */ // Implement FileUtils FileUtils* FileUtils::s_sharedFileUtils = nullptr; void FileUtils::destroyInstance() { CC_SAFE_DELETE(s_sharedFileUtils); } void FileUtils::setDelegate(FileUtils *delegate) { if (s_sharedFileUtils) delete s_sharedFileUtils; s_sharedFileUtils = delegate; } FileUtils::FileUtils() : _writablePath("") { } FileUtils::~FileUtils() { } bool FileUtils::writeStringToFile(const std::string& dataStr, const std::string& fullPath) { Data data; data.fastSet((unsigned char*)dataStr.c_str(), dataStr.size()); bool rv = writeDataToFile(data, fullPath); data.fastSet(nullptr, 0); return rv; } bool FileUtils::writeDataToFile(const Data& data, const std::string& fullPath) { size_t size = 0; const char* mode = "wb"; CCASSERT(!fullPath.empty() && data.getSize() != 0, "Invalid parameters."); auto fileutils = FileUtils::getInstance(); do { // Read the file from hardware FILE *fp = fopen(fileutils->getSuitableFOpen(fullPath).c_str(), mode); CC_BREAK_IF(!fp); size = data.getSize(); fwrite(data.getBytes(), size, 1, fp); fclose(fp); return true; } while (0); return false; } bool FileUtils::init() { _searchPathArray.push_back(_defaultResRootPath); _searchResolutionsOrderArray.push_back(""); return true; } void FileUtils::purgeCachedEntries() { _fullPathCache.clear(); } std::string FileUtils::getStringFromFile(const std::string& filename) { std::string s; getContents(filename, &s); return s; } Data FileUtils::getDataFromFile(const std::string& filename) { Data d; getContents(filename, &d); return d; } FileUtils::Status FileUtils::getContents(const std::string& filename, ResizableBuffer* buffer) { if (filename.empty()) return Status::NotExists; auto fs = FileUtils::getInstance(); std::string fullPath = fs->fullPathForFilename(filename); if (fullPath.empty()) return Status::NotExists; FILE *fp = fopen(fs->getSuitableFOpen(fullPath).c_str(), "rb"); if (!fp) return Status::OpenFailed; #if defined(_MSC_VER) auto descriptor = _fileno(fp); #else auto descriptor = fileno(fp); #endif struct stat statBuf; if (fstat(descriptor, &statBuf) == -1) { fclose(fp); return Status::ReadFailed; } size_t size = statBuf.st_size; buffer->resize(size); size_t readsize = fread(buffer->buffer(), 1, size, fp); fclose(fp); if (readsize < size) { buffer->resize(readsize); return Status::ReadFailed; } return Status::OK; } unsigned char* FileUtils::getFileData(const std::string& filename, const char* mode, ssize_t *size) { CCASSERT(!filename.empty() && size != nullptr && mode != nullptr, "Invalid parameters."); (void)(mode); // mode is unused, as we do not support text mode any more... Data d; if (getContents(filename, &d) != Status::OK) { *size = 0; return nullptr; } return d.takeBuffer(size); } unsigned char* FileUtils::getFileDataFromZip(const std::string& zipFilePath, const std::string& filename, ssize_t *size) { unsigned char * buffer = nullptr; unzFile file = nullptr; *size = 0; do { CC_BREAK_IF(zipFilePath.empty()); file = unzOpen(FileUtils::getInstance()->getSuitableFOpen(zipFilePath).c_str()); CC_BREAK_IF(!file); // FIXME: Other platforms should use upstream minizip like mingw-w64 #ifdef MINIZIP_FROM_SYSTEM int ret = unzLocateFile(file, filename.c_str(), NULL); #else int ret = unzLocateFile(file, filename.c_str(), 1); #endif CC_BREAK_IF(UNZ_OK != ret); char filePathA[260]; unz_file_info fileInfo; ret = unzGetCurrentFileInfo(file, &fileInfo, filePathA, sizeof(filePathA), nullptr, 0, nullptr, 0); CC_BREAK_IF(UNZ_OK != ret); ret = unzOpenCurrentFile(file); CC_BREAK_IF(UNZ_OK != ret); buffer = (unsigned char*)malloc(fileInfo.uncompressed_size); int CC_UNUSED readedSize = unzReadCurrentFile(file, buffer, static_cast(fileInfo.uncompressed_size)); CCASSERT(readedSize == 0 || readedSize == (int)fileInfo.uncompressed_size, "the file size is wrong"); *size = fileInfo.uncompressed_size; unzCloseCurrentFile(file); } while (0); if (file) { unzClose(file); } return buffer; } std::string FileUtils::getNewFilename(const std::string &filename) const { std::string newFileName; // in Lookup Filename dictionary ? auto iter = _filenameLookupDict.find(filename); if (iter == _filenameLookupDict.end()) { newFileName = filename; } else { newFileName = iter->second.asString(); } return newFileName; } std::string FileUtils::getPathForFilename(const std::string& filename, const std::string& resolutionDirectory, const std::string& searchPath) const { std::string file = filename; std::string file_path = ""; size_t pos = filename.find_last_of("/"); if (pos != std::string::npos) { file_path = filename.substr(0, pos+1); file = filename.substr(pos+1); } // searchPath + file_path + resourceDirectory std::string path = searchPath; path += file_path; path += resolutionDirectory; path = getFullPathForDirectoryAndFilename(path, file); return path; } std::string FileUtils::fullPathForFilename(const std::string &filename) const { if (filename.empty()) { return ""; } if (isAbsolutePath(filename)) { return filename; } // Already Cached ? auto cacheIter = _fullPathCache.find(filename); if(cacheIter != _fullPathCache.end()) { return cacheIter->second; } // Get the new file name. const std::string newFilename( getNewFilename(filename) ); std::string fullpath; for (const auto& searchIt : _searchPathArray) { for (const auto& resolutionIt : _searchResolutionsOrderArray) { fullpath = this->getPathForFilename(newFilename, resolutionIt, searchIt); if (!fullpath.empty()) { // Using the filename passed in as key. _fullPathCache.insert(std::make_pair(filename, fullpath)); return fullpath; } } } if(isPopupNotify()){ CCLOG("cocos2d: fullPathForFilename: No file found at %s. Possible missing file.", filename.c_str()); } // The file wasn't found, return empty string. return ""; } std::string FileUtils::fullPathFromRelativeFile(const std::string &filename, const std::string &relativeFile) { return relativeFile.substr(0, relativeFile.rfind('/')+1) + getNewFilename(filename); } void FileUtils::setSearchResolutionsOrder(const std::vector& searchResolutionsOrder) { bool existDefault = false; _fullPathCache.clear(); _searchResolutionsOrderArray.clear(); for(const auto& iter : searchResolutionsOrder) { std::string resolutionDirectory = iter; if (!existDefault && resolutionDirectory == "") { existDefault = true; } if (resolutionDirectory.length() > 0 && resolutionDirectory[resolutionDirectory.length()-1] != '/') { resolutionDirectory += "/"; } _searchResolutionsOrderArray.push_back(resolutionDirectory); } if (!existDefault) { _searchResolutionsOrderArray.push_back(""); } } void FileUtils::addSearchResolutionsOrder(const std::string &order,const bool front) { std::string resOrder = order; if (!resOrder.empty() && resOrder[resOrder.length()-1] != '/') resOrder.append("/"); if (front) { _searchResolutionsOrderArray.insert(_searchResolutionsOrderArray.begin(), resOrder); } else { _searchResolutionsOrderArray.push_back(resOrder); } } const std::vector& FileUtils::getSearchResolutionsOrder() const { return _searchResolutionsOrderArray; } const std::vector& FileUtils::getSearchPaths() const { return _searchPathArray; } void FileUtils::setWritablePath(const std::string& writablePath) { _writablePath = writablePath; } void FileUtils::setDefaultResourceRootPath(const std::string& path) { _defaultResRootPath = path; } void FileUtils::setSearchPaths(const std::vector& searchPaths) { bool existDefaultRootPath = false; _fullPathCache.clear(); _searchPathArray.clear(); for (const auto& iter : searchPaths) { std::string prefix; std::string path; if (!isAbsolutePath(iter)) { // Not an absolute path prefix = _defaultResRootPath; } path = prefix + (iter); if (!path.empty() && path[path.length()-1] != '/') { path += "/"; } if (!existDefaultRootPath && path == _defaultResRootPath) { existDefaultRootPath = true; } _searchPathArray.push_back(path); } if (!existDefaultRootPath) { //CCLOG("Default root path doesn't exist, adding it."); _searchPathArray.push_back(_defaultResRootPath); } } void FileUtils::addSearchPath(const std::string &searchpath,const bool front) { std::string prefix; if (!isAbsolutePath(searchpath)) prefix = _defaultResRootPath; std::string path = prefix + searchpath; if (!path.empty() && path[path.length()-1] != '/') { path += "/"; } if (front) { _searchPathArray.insert(_searchPathArray.begin(), path); } else { _searchPathArray.push_back(path); } } void FileUtils::setFilenameLookupDictionary(const ValueMap& filenameLookupDict) { _fullPathCache.clear(); _filenameLookupDict = filenameLookupDict; } void FileUtils::loadFilenameLookupDictionaryFromFile(const std::string &filename) { const std::string fullPath = fullPathForFilename(filename); if (!fullPath.empty()) { ValueMap dict = FileUtils::getInstance()->getValueMapFromFile(fullPath); if (!dict.empty()) { ValueMap& metadata = dict["metadata"].asValueMap(); int version = metadata["version"].asInt(); if (version != 1) { CCLOG("cocos2d: ERROR: Invalid filenameLookup dictionary version: %d. Filename: %s", version, filename.c_str()); return; } setFilenameLookupDictionary( dict["filenames"].asValueMap()); } } } std::string FileUtils::getFullPathForDirectoryAndFilename(const std::string& directory, const std::string& filename) const { // get directory+filename, safely adding '/' as necessary std::string ret = directory; if (directory.size() && directory[directory.size()-1] != '/'){ ret += '/'; } ret += filename; // if the file doesn't exist, return an empty string if (!isFileExistInternal(ret)) { ret = ""; } return ret; } bool FileUtils::isFileExist(const std::string& filename) const { if (isAbsolutePath(filename)) { return isFileExistInternal(filename); } else { std::string fullpath = fullPathForFilename(filename); if (fullpath.empty()) return false; else return true; } } bool FileUtils::isAbsolutePath(const std::string& path) const { return (path[0] == '/'); } bool FileUtils::isDirectoryExist(const std::string& dirPath) const { CCASSERT(!dirPath.empty(), "Invalid path"); if (isAbsolutePath(dirPath)) { return isDirectoryExistInternal(dirPath); } // Already Cached ? auto cacheIter = _fullPathCache.find(dirPath); if( cacheIter != _fullPathCache.end() ) { return isDirectoryExistInternal(cacheIter->second); } std::string fullpath; for (const auto& searchIt : _searchPathArray) { for (const auto& resolutionIt : _searchResolutionsOrderArray) { // searchPath + file_path + resourceDirectory fullpath = fullPathForFilename(searchIt + dirPath + resolutionIt); if (isDirectoryExistInternal(fullpath)) { _fullPathCache.insert(std::make_pair(dirPath, fullpath)); return true; } } } return false; } #if (CC_TARGET_PLATFORM == CC_PLATFORM_WIN32) || (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT) // windows os implement should override in platform specific FileUtiles class bool FileUtils::isDirectoryExistInternal(const std::string& dirPath) const { CCASSERT(false, "FileUtils not support isDirectoryExistInternal"); return false; } bool FileUtils::createDirectory(const std::string& path) { CCASSERT(false, "FileUtils not support createDirectory"); return false; } bool FileUtils::removeDirectory(const std::string& path) { CCASSERT(false, "FileUtils not support removeDirectory"); return false; } bool FileUtils::removeFile(const std::string &path) { CCASSERT(false, "FileUtils not support removeFile"); return false; } bool FileUtils::renameFile(const std::string &oldfullpath, const std::string& newfullpath) { CCASSERT(false, "FileUtils not support renameFile"); return false; } bool FileUtils::renameFile(const std::string &path, const std::string &oldname, const std::string &name) { CCASSERT(false, "FileUtils not support renameFile"); return false; } std::string FileUtils::getSuitableFOpen(const std::string& filenameUtf8) const { CCASSERT(false, "getSuitableFOpen should be override by platform FileUtils"); return filenameUtf8; } long FileUtils::getFileSize(const std::string &filepath) { CCASSERT(false, "getFileSize should be override by platform FileUtils"); return 0; } #else // default implements for unix like os #include #include #include bool FileUtils::isDirectoryExistInternal(const std::string& dirPath) const { struct stat st; if (stat(dirPath.c_str(), &st) == 0) { return S_ISDIR(st.st_mode); } return false; } bool FileUtils::createDirectory(const std::string& path) { CCASSERT(!path.empty(), "Invalid path"); if (isDirectoryExist(path)) return true; // Split the path size_t start = 0; size_t found = path.find_first_of("/\\", start); std::string subpath; std::vector dirs; if (found != std::string::npos) { while (true) { subpath = path.substr(start, found - start + 1); if (!subpath.empty()) dirs.push_back(subpath); start = found+1; found = path.find_first_of("/\\", start); if (found == std::string::npos) { if (start < path.length()) { dirs.push_back(path.substr(start)); } break; } } } DIR *dir = NULL; // Create path recursively subpath = ""; for (int i = 0; i < dirs.size(); ++i) { subpath += dirs[i]; dir = opendir(subpath.c_str()); if (!dir) { // directory doesn't exist, should create a new one int ret = mkdir(subpath.c_str(), S_IRWXU | S_IRWXG | S_IRWXO); if (ret != 0 && (errno != EEXIST)) { // current directory can not be created, sub directories can not be created too // should return return false; } } else { // directory exists, should close opened dir closedir(dir); } } return true; } bool FileUtils::removeDirectory(const std::string& path) { std::string command = "rm -r "; // Path may include space. command += "\"" + path + "\""; if (system(command.c_str()) >= 0) return true; else return false; } bool FileUtils::removeFile(const std::string &path) { if (remove(path.c_str())) { return false; } else { return true; } } bool FileUtils::renameFile(const std::string &oldfullpath, const std::string &newfullpath) { CCASSERT(!oldfullpath.empty(), "Invalid path"); CCASSERT(!newfullpath.empty(), "Invalid path"); int errorCode = rename(oldfullpath.c_str(), newfullpath.c_str()); if (0 != errorCode) { CCLOGERROR("Fail to rename file %s to %s !Error code is %d", oldfullpath.c_str(), newfullpath.c_str(), errorCode); return false; } return true; } bool FileUtils::renameFile(const std::string &path, const std::string &oldname, const std::string &name) { CCASSERT(!path.empty(), "Invalid path"); std::string oldPath = path + oldname; std::string newPath = path + name; return this->renameFile(oldPath, newPath); } std::string FileUtils::getSuitableFOpen(const std::string& filenameUtf8) const { return filenameUtf8; } long FileUtils::getFileSize(const std::string &filepath) { CCASSERT(!filepath.empty(), "Invalid path"); std::string fullpath = filepath; if (!isAbsolutePath(filepath)) { fullpath = fullPathForFilename(filepath); if (fullpath.empty()) return 0; } struct stat info; // Get data associated with "crt_stat.c": int result = stat(fullpath.c_str(), &info); // Check if statistics are valid: if (result != 0) { // Failed return -1; } else { return (long)(info.st_size); } } #endif ////////////////////////////////////////////////////////////////////////// // Notification support when getFileData from invalid file path. ////////////////////////////////////////////////////////////////////////// static bool s_popupNotify = true; void FileUtils::setPopupNotify(bool notify) { s_popupNotify = notify; } bool FileUtils::isPopupNotify() const { return s_popupNotify; } std::string FileUtils::getFileExtension(const std::string& filePath) const { std::string fileExtension; size_t pos = filePath.find_last_of('.'); if (pos != std::string::npos) { fileExtension = filePath.substr(pos, filePath.length()); std::transform(fileExtension.begin(), fileExtension.end(), fileExtension.begin(), ::tolower); } return fileExtension; } void FileUtils::valueMapCompact(ValueMap& valueMap) { } void FileUtils::valueVectorCompact(ValueVector& valueVector) { } NS_CC_END