virtual void Reload() { Unload(); CVFSFile vertexFile; if (vertexFile.Load(g_VFS, m_VertexFile) != PSRETURN_OK) return; CVFSFile fragmentFile; if (fragmentFile.Load(g_VFS, m_FragmentFile) != PSRETURN_OK) return; CPreprocessorWrapper preprocessor; preprocessor.AddDefines(m_Defines); CStr vertexCode = preprocessor.Preprocess(vertexFile.GetAsString()); CStr fragmentCode = preprocessor.Preprocess(fragmentFile.GetAsString()); // printf(">>>\n%s<<<\n", vertexCode.c_str()); // printf(">>>\n%s<<<\n", fragmentCode.c_str()); if (!Compile(GL_VERTEX_PROGRAM_ARB, "vertex", m_VertexProgram, m_VertexFile, vertexCode)) return; if (!Compile(GL_FRAGMENT_PROGRAM_ARB, "fragment", m_FragmentProgram, m_FragmentFile, fragmentCode)) return; m_IsValid = true; }
virtual void Reload() { Unload(); CVFSFile vertexFile; if (vertexFile.Load(g_VFS, m_VertexFile) != PSRETURN_OK) return; CVFSFile fragmentFile; if (fragmentFile.Load(g_VFS, m_FragmentFile) != PSRETURN_OK) return; CPreprocessorWrapper preprocessor; preprocessor.AddDefines(m_Defines); #if CONFIG2_GLES // GLES defines the macro "GL_ES" in its GLSL preprocessor, // but since we run our own preprocessor first, we need to explicitly // define it here preprocessor.AddDefine("GL_ES", "1"); #endif CStr vertexCode = preprocessor.Preprocess(vertexFile.GetAsString()); CStr fragmentCode = preprocessor.Preprocess(fragmentFile.GetAsString()); #if CONFIG2_GLES // Ugly hack to replace desktop GLSL 1.10/1.20 with GLSL ES 1.00, // and also to set default float precision for fragment shaders vertexCode.Replace("#version 110\n", "#version 100\n"); vertexCode.Replace("#version 110\r\n", "#version 100\n"); vertexCode.Replace("#version 120\n", "#version 100\n"); vertexCode.Replace("#version 120\r\n", "#version 100\n"); fragmentCode.Replace("#version 110\n", "#version 100\nprecision mediump float;\n"); fragmentCode.Replace("#version 110\r\n", "#version 100\nprecision mediump float;\n"); fragmentCode.Replace("#version 120\n", "#version 100\nprecision mediump float;\n"); fragmentCode.Replace("#version 120\r\n", "#version 100\nprecision mediump float;\n"); #endif if (!Compile(m_VertexShader, m_VertexFile, vertexCode)) return; if (!Compile(m_FragmentShader, m_FragmentFile, fragmentCode)) return; if (!Link()) return; m_IsValid = true; }
bool ScriptInterface::LoadGlobalScriptFile(const VfsPath& path) { JSAutoRequest rq(m->m_cx); JS::RootedObject global(m->m_cx, m->m_glob); if (!VfsFileExists(path)) { LOGERROR("File '%s' does not exist", path.string8()); return false; } CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR("Failed to load file '%s': %s", path.string8(), GetErrorString(ret)); return false; } std::wstring code = wstring_from_utf8(file.DecodeUTF8()); // assume it's UTF-8 utf16string codeUtf16(code.begin(), code.end()); uint lineNo = 1; // CompileOptions does not copy the contents of the filename string pointer. // Passing a temporary string there will cause undefined behaviour, so we create a separate string to avoid the temporary. std::string filenameStr = path.string8(); JS::RootedValue rval(m->m_cx); JS::CompileOptions opts(m->m_cx); opts.setFileAndLine(filenameStr.c_str(), lineNo); return JS::Evaluate(m->m_cx, global, opts, reinterpret_cast<const char16_t*>(codeUtf16.c_str()), (uint)(codeUtf16.length()), &rval); }
std::string CSimulation2::ReadJSON(VfsPath path) { std::string data; if (!VfsFileExists(path)) { LOGERROR(L"File '%ls' does not exist", path.string().c_str()); } else { // Load JSON file CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR(L"Failed to load file '%ls': %hs", path.string().c_str(), GetErrorString(ret)); } else { data = std::string(file.GetBuffer(), file.GetBuffer() + file.GetBufferSize()); } } return data; }
std::vector<std::string> CSimulation2::GetRMSData() { VfsPath path(L"maps/random/"); VfsPaths pathnames; std::vector<std::string> data; // Find all ../maps/random/*.json Status ret = vfs::GetPathnames(g_VFS, path, L"*.json", pathnames); if (ret == INFO::OK) { for (VfsPaths::iterator it = pathnames.begin(); it != pathnames.end(); ++it) { // Load JSON file CVFSFile file; PSRETURN ret = file.Load(g_VFS, *it); if (ret != PSRETURN_OK) { LOGERROR(L"Failed to load file '%ls': %hs", path.string().c_str(), GetErrorString(ret)); } else { data.push_back(std::string(file.GetBuffer(), file.GetBuffer() + file.GetBufferSize())); } } } else { // Some error reading directory wchar_t error[200]; LOGERROR(L"Error reading directory '%ls': %ls", path.string().c_str(), StatusDescription(ret, error, ARRAY_SIZE(error))); } return data; }
bool ScriptInterface::LoadGlobalScriptFile(const VfsPath& path) { if (!VfsFileExists(path)) { LOGERROR(L"File '%ls' does not exist", path.string().c_str()); return false; } CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR(L"Failed to load file '%ls': %hs", path.string().c_str(), GetErrorString(ret)); return false; } std::wstring code = wstring_from_utf8(file.DecodeUTF8()); // assume it's UTF-8 // Compile the code in strict mode, to encourage better coding practices and // to possibly help SpiderMonkey with optimisations std::wstring codeStrict = L"\"use strict\";\n" + code; utf16string codeUtf16(codeStrict.begin(), codeStrict.end()); uintN lineNo = 0; // put the automatic 'use strict' on line 0, so the real code starts at line 1 jsval rval; JSBool ok = JS_EvaluateUCScript(m->m_cx, m->m_glob, reinterpret_cast<const jschar*> (codeUtf16.c_str()), (uintN)(codeUtf16.length()), utf8_from_wstring(path.string()).c_str(), lineNo, &rval); return ok ? true : false; }
static std::vector<std::string> GetJSONData(const VfsPath& path) { VfsPaths pathnames; Status ret = vfs::GetPathnames(g_VFS, path, L"*.json", pathnames); if (ret != INFO::OK) { // Some error reading directory wchar_t error[200]; LOGERROR("Error reading directory '%s': %s", path.string8(), utf8_from_wstring(StatusDescription(ret, error, ARRAY_SIZE(error)))); return std::vector<std::string>(); } std::vector<std::string> data; for (const VfsPath& p : pathnames) { // Load JSON file CVFSFile file; PSRETURN ret = file.Load(g_VFS, p); if (ret != PSRETURN_OK) { LOGERROR("GetJSONData: Failed to load file '%s': %s", p.string8(), GetErrorString(ret)); continue; } data.push_back(file.DecodeUTF8()); // assume it's UTF-8 } return data; }
bool ScriptInterface::LoadGlobalScriptFile(const VfsPath& path) { JSAutoRequest rq(m->m_cx); JS::RootedObject global(m->m_cx, m->m_glob); if (!VfsFileExists(path)) { LOGERROR("File '%s' does not exist", path.string8()); return false; } CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR("Failed to load file '%s': %s", path.string8(), GetErrorString(ret)); return false; } std::wstring code = wstring_from_utf8(file.DecodeUTF8()); // assume it's UTF-8 utf16string codeUtf16(code.begin(), code.end()); uint lineNo = 1; JS::RootedValue rval(m->m_cx); return JS_EvaluateUCScript(m->m_cx, global, reinterpret_cast<const jschar*> (codeUtf16.c_str()), (uint)(codeUtf16.length()), utf8_from_wstring(path.string()).c_str(), lineNo, &rval); }
void L10n::LoadDictionaryForCurrentLocale() { delete dictionary; dictionary = new tinygettext::Dictionary(); VfsPaths filenames; if (useLongStrings) { if (vfs::GetPathnames(g_VFS, L"l10n/", L"long.*.po", filenames) < 0) return; } else { std::wstring dictName = GetFallbackToAvailableDictLocale(currentLocale); if (vfs::GetPathnames(g_VFS, L"l10n/", dictName.append(L".*.po").c_str(), filenames) < 0) { LOGERROR("No files for the dictionary found, but at this point the input should already be validated!"); return; } } for (const VfsPath& path : filenames) { CVFSFile file; file.Load(g_VFS, path); std::string content = file.DecodeUTF8(); ReadPoIntoDictionary(content, dictionary); } }
// Return file contents as an array of lines. Assume file is UTF-8 encoded text. // // lines = readFileLines(filename); // filename: VFS filename (may include path) CScriptVal JSI_VFS::ReadFileLines(ScriptInterface::CxPrivate* pCxPrivate, std::wstring filename) { // // read file // CVFSFile file; if (file.Load(g_VFS, filename) != PSRETURN_OK) return JSVAL_NULL; CStr contents = file.DecodeUTF8(); // assume it's UTF-8 // Fix CRLF line endings. (This function will only ever be used on text files.) contents.Replace("\r\n", "\n"); // // split into array of strings (one per line) // std::stringstream ss(contents); JSContext* cx = pCxPrivate->pScriptInterface->GetContext(); JSObject* line_array = JS_NewArrayObject(cx, 0, NULL); std::string line; int cur_line = 0; while (std::getline(ss, line)) { // Decode each line as UTF-8 JS::RootedValue val(cx); ScriptInterface::ToJSVal(cx, val.get(), CStr(line).FromUTF8()); JS_SetElement(cx, line_array, cur_line++, val.address()); } return OBJECT_TO_JSVAL( line_array ); }
// Return file contents as an array of lines. Assume file is UTF-8 encoded text. // // lines = readFileLines(filename); // filename: VFS filename (may include path) JS::Value JSI_VFS::ReadFileLines(ScriptInterface::CxPrivate* pCxPrivate, const std::wstring& filename) { JSContext* cx = pCxPrivate->pScriptInterface->GetContext(); JSAutoRequest rq(cx); // // read file // CVFSFile file; if (file.Load(g_VFS, filename) != PSRETURN_OK) return JSVAL_NULL; CStr contents = file.DecodeUTF8(); // assume it's UTF-8 // Fix CRLF line endings. (This function will only ever be used on text files.) contents.Replace("\r\n", "\n"); // // split into array of strings (one per line) // std::stringstream ss(contents); JS::RootedObject line_array(cx, JS_NewArrayObject(cx, JS::HandleValueArray::empty())); std::string line; int cur_line = 0; while (std::getline(ss, line)) { // Decode each line as UTF-8 JS::RootedValue val(cx); ScriptInterface::ToJSVal(cx, &val, CStr(line).FromUTF8()); JS_SetElement(cx, line_array, cur_line++, val); } return JS::ObjectValue(*line_array); }
std::string CSimulation2::ReadJSON(VfsPath path) { std::string data; if (!VfsFileExists(path)) { LOGERROR(L"File '%ls' does not exist", path.string().c_str()); } else { // Load JSON file CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR(L"Failed to load file '%ls': %hs", path.string().c_str(), GetErrorString(ret)); } else { data = file.DecodeUTF8(); // assume it's UTF-8 } } return data; }
std::vector<std::string> CSimulation2::GetCivData() { VfsPath path(L"civs/"); VfsPaths pathnames; std::vector<std::string> data; // Load all JSON files in civs directory Status ret = vfs::GetPathnames(g_VFS, path, L"*.json", pathnames); if (ret == INFO::OK) { for (VfsPaths::iterator it = pathnames.begin(); it != pathnames.end(); ++it) { // Load JSON file CVFSFile file; PSRETURN ret = file.Load(g_VFS, *it); if (ret != PSRETURN_OK) { LOGERROR(L"CSimulation2::GetCivData: Failed to load file '%ls': %hs", path.string().c_str(), GetErrorString(ret)); } else { data.push_back(file.DecodeUTF8()); // assume it's UTF-8 } } } else { // Some error reading directory wchar_t error[200]; LOGERROR(L"CSimulation2::GetCivData: Error reading directory '%ls': %ls", path.string().c_str(), StatusDescription(ret, error, ARRAY_SIZE(error))); } return data; }
bool Convert(const VfsPath& daeFilename, const VfsPath& pmdFilename, CColladaManager::FileType type) { // To avoid always loading the DLL when it's usually not going to be // used (and to do the same on Linux where delay-loading won't help), // and to avoid compile-time dependencies (because it's a minor pain // to get all the right libraries to build the COLLADA DLL), we load // it dynamically when it is required, instead of using the exported // functions and binding at link-time. if (!dll.IsLoaded()) { if (!TryLoadDLL()) return false; if (!LoadSkeletonDefinitions()) { dll.Unload(); // Error should have been logged already return false; } } // Set the filename for the logger to report set_logger(ColladaLog, const_cast<void*>(static_cast<const void*>(&daeFilename))); // We need to null-terminate the buffer, so do it (possibly inefficiently) // by converting to a CStr CStr daeData; { CVFSFile daeFile; if (daeFile.Load(m_VFS, daeFilename) != PSRETURN_OK) return false; daeData = daeFile.GetAsString(); } // Do the conversion into a memory buffer // We need to check the result, as archive builder needs to know if the source dae // was sucessfully converted to .pmd/psa int result = -1; WriteBuffer writeBuffer; switch (type) { case CColladaManager::PMD: result = convert_dae_to_pmd(daeData.c_str(), ColladaOutput, &writeBuffer); break; case CColladaManager::PSA: result = convert_dae_to_psa(daeData.c_str(), ColladaOutput, &writeBuffer); break; } // don't create zero-length files (as happens in test_invalid_dae when // we deliberately pass invalid XML data) because the VFS caching // logic warns when asked to load such. if (writeBuffer.Size()) { Status ret = m_VFS->CreateFile(pmdFilename, writeBuffer.Data(), writeBuffer.Size()); ENSURE(ret == INFO::OK); } return (result == 0); }
bool RelaxNGValidator::LoadGrammarFile(const PIVFS& vfs, const VfsPath& grammarPath) { CVFSFile file; if (file.Load(vfs, grammarPath) != PSRETURN_OK) return false; return LoadGrammar(file.DecodeUTF8()); }
bool CComponentManager::LoadScript(const VfsPath& filename, bool hotload) { m_CurrentlyHotloading = hotload; CVFSFile file; PSRETURN loadOk = file.Load(g_VFS, filename); ENSURE(loadOk == PSRETURN_OK); // TODO std::string content = file.DecodeUTF8(); // assume it's UTF-8 bool ok = m_ScriptInterface.LoadScript(filename, content); return ok; }
bool CComponentManager::LoadScript(const VfsPath& filename, bool hotload) { m_CurrentlyHotloading = hotload; CVFSFile file; PSRETURN loadOk = file.Load(g_VFS, filename); ENSURE(loadOk == PSRETURN_OK); // TODO std::wstring content(file.GetBuffer(), file.GetBuffer() + file.GetBufferSize()); // TODO: encodings etc bool ok = m_ScriptInterface.LoadScript(filename, content); return ok; }
bool CComponentManager::LoadScript(const VfsPath& filename, bool hotload) { m_CurrentlyHotloading = hotload; CVFSFile file; PSRETURN loadOk = file.Load(g_VFS, filename); if (loadOk != PSRETURN_OK) // VFS will log the failed file and the reason return false; std::string content = file.DecodeUTF8(); // assume it's UTF-8 bool ok = m_ScriptInterface.LoadScript(filename, content); return ok; }
void CDebuggingServer::GetFile(std::string filename, std::stringstream& response) { CVFSFile file; if (file.Load(g_VFS, filename) != PSRETURN_OK) { response << "Failed to load the file contents"; return; } std::string code = file.DecodeUTF8(); // assume it's UTF-8 response << code; }
// Return file contents in a string. Assume file is UTF-8 encoded text. // // contents = readFile(filename); // filename: VFS filename (may include path) CScriptVal JSI_VFS::ReadFile(ScriptInterface::CxPrivate* pCxPrivate, std::wstring filename) { CVFSFile file; if (file.Load(g_VFS, filename) != PSRETURN_OK) return JSVAL_NULL; CStr contents = file.DecodeUTF8(); // assume it's UTF-8 // Fix CRLF line endings. (This function will only ever be used on text files.) contents.Replace("\r\n", "\n"); // Decode as UTF-8 return ScriptInterface::ToJSVal( pCxPrivate->pScriptInterface->GetContext(), contents.FromUTF8() ); }
CShaderManager::CShaderManager() { #if USE_SHADER_XML_VALIDATION { TIMER_ACCRUE(tc_ShaderValidation); CVFSFile grammar; if (grammar.Load(g_VFS, L"shaders/program.rng") != PSRETURN_OK) LOGERROR("Failed to read grammar shaders/program.rng"); else { if (!m_Validator.LoadGrammar(grammar.GetAsString())) LOGERROR("Failed to load grammar shaders/program.rng"); } } #endif // Allow hotloading of textures RegisterFileReloadFunc(ReloadChangedFileCB, this); }
static std::string ReadJSON(const VfsPath& path) { if (!VfsFileExists(path)) { LOGERROR("File '%s' does not exist", path.string8()); return std::string(); } // Load JSON file CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR("Failed to load file '%s': %s", path.string8(), GetErrorString(ret)); return std::string(); } return file.DecodeUTF8(); // assume it's UTF-8 }
// Return file contents in a string. Assume file is UTF-8 encoded text. // // contents = readFile(filename); // filename: VFS filename (may include path) JS::Value JSI_VFS::ReadFile(ScriptInterface::CxPrivate* pCxPrivate, const std::wstring& filename) { JSContext* cx = pCxPrivate->pScriptInterface->GetContext(); JSAutoRequest rq(cx); CVFSFile file; if (file.Load(g_VFS, filename) != PSRETURN_OK) return JS::NullValue(); CStr contents = file.DecodeUTF8(); // assume it's UTF-8 // Fix CRLF line endings. (This function will only ever be used on text files.) contents.Replace("\r\n", "\n"); // Decode as UTF-8 JS::RootedValue ret(cx); ScriptInterface::ToJSVal(cx, &ret, contents.FromUTF8()); return ret; }
Status L10n::ReloadChangedFile(const VfsPath& path) { if (!boost::algorithm::starts_with(path.string(), L"l10n/")) return INFO::OK; if (path.Extension() != L".po") return INFO::OK; // If the file was deleted, ignore it if (!VfsFileExists(path)) return INFO::OK; std::wstring dictName = GetFallbackToAvailableDictLocale(currentLocale); if (useLongStrings) dictName = L"long"; if (dictName.empty()) return INFO::OK; // Only the currently used language is loaded, so ignore all others if (path.string().rfind(dictName) == std::string::npos) return INFO::OK; LOGMESSAGE("Hotloading translations from '%s'", path.string8()); CVFSFile file; if (file.Load(g_VFS, path) != PSRETURN_OK) { LOGERROR("Failed to read translations from '%s'", path.string8()); return ERR::FAIL; } std::string content = file.DecodeUTF8(); ReadPoIntoDictionary(content, dictionary); if (g_GUI) g_GUI->ReloadAllPages(); return INFO::OK; }
Status ReloadChangedFile(const VfsPath& path) { // Ignore files that aren't in the right path if (!boost::algorithm::starts_with(path.string(), L"art/skeletons/")) return INFO::OK; if (path.Extension() != L".xml") return INFO::OK; m_skeletonHashInvalidated = true; // If the file doesn't exist (e.g. it was deleted), don't bother reloading // or 'unloading' since that isn't possible if (!VfsFileExists(path)) return INFO::OK; if (!dll.IsLoaded() && !TryLoadDLL()) return ERR::FAIL; LOGMESSAGE("Hotloading skeleton definitions from '%s'", path.string8()); // Set the filename for the logger to report set_logger(ColladaLog, const_cast<void*>(static_cast<const void*>(&path))); CVFSFile skeletonFile; if (skeletonFile.Load(m_VFS, path) != PSRETURN_OK) { LOGERROR("Failed to read skeleton defintions from '%s'", path.string8()); return ERR::FAIL; } int ok = set_skeleton_definitions((const char*)skeletonFile.GetBuffer(), (int)skeletonFile.GetBufferSize()); if (ok < 0) { LOGERROR("Failed to load skeleton definitions from '%s'", path.string8()); return ERR::FAIL; } return INFO::OK; }
CScriptValRooted ScriptInterface::ReadJSONFile(const VfsPath& path) { if (!VfsFileExists(path)) { LOGERROR(L"File '%ls' does not exist", path.string().c_str()); return CScriptValRooted(); } CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR(L"Failed to load file '%ls': %hs", path.string().c_str(), GetErrorString(ret)); return CScriptValRooted(); } std::string content(file.DecodeUTF8()); // assume it's UTF-8 return ParseJSON(content); }
bool LoadSkeletonDefinitions() { VfsPaths pathnames; if (vfs::GetPathnames(m_VFS, L"art/skeletons/", L"*.xml", pathnames) < 0) { LOGERROR("No skeleton definition files present"); return false; } bool loaded = false; for (const VfsPath& path : pathnames) { LOGMESSAGE("Loading skeleton definitions from '%s'", path.string8()); // Set the filename for the logger to report set_logger(ColladaLog, const_cast<void*>(static_cast<const void*>(&path))); CVFSFile skeletonFile; if (skeletonFile.Load(m_VFS, path) != PSRETURN_OK) { LOGERROR("Failed to read skeleton defintions from '%s'", path.string8()); continue; } int ok = set_skeleton_definitions((const char*)skeletonFile.GetBuffer(), (int)skeletonFile.GetBufferSize()); if (ok < 0) { LOGERROR("Failed to load skeleton definitions from '%s'", path.string8()); continue; } loaded = true; } if (!loaded) LOGERROR("Failed to load any skeleton definitions"); return loaded; }
void ScriptInterface::ReadJSONFile(const VfsPath& path, JS::MutableHandleValue out) { if (!VfsFileExists(path)) { LOGERROR("File '%s' does not exist", path.string8()); return; } CVFSFile file; PSRETURN ret = file.Load(g_VFS, path); if (ret != PSRETURN_OK) { LOGERROR("Failed to load file '%s': %s", path.string8(), GetErrorString(ret)); return; } std::string content(file.DecodeUTF8()); // assume it's UTF-8 if (!ParseJSON(content, out)) LOGERROR("Failed to parse '%s'", path.string8()); }
bool Convert(const VfsPath& daeFilename, const VfsPath& pmdFilename, CColladaManager::FileType type) { // To avoid always loading the DLL when it's usually not going to be // used (and to do the same on Linux where delay-loading won't help), // and to avoid compile-time dependencies (because it's a minor pain // to get all the right libraries to build the COLLADA DLL), we load // it dynamically when it is required, instead of using the exported // functions and binding at link-time. if (! dll.IsLoaded()) { if (! dll.LoadDLL()) { LOGERROR(L"Failed to load COLLADA conversion DLL"); return false; } try { dll.LoadSymbol("set_logger", set_logger); dll.LoadSymbol("set_skeleton_definitions", set_skeleton_definitions); dll.LoadSymbol("convert_dae_to_pmd", convert_dae_to_pmd); dll.LoadSymbol("convert_dae_to_psa", convert_dae_to_psa); } catch (PSERROR_DllLoader&) { LOGERROR(L"Failed to load symbols from COLLADA conversion DLL"); dll.Unload(); return false; } VfsPath skeletonPath("art/skeletons/skeletons.xml"); // Set the filename for the logger to report set_logger(ColladaLog, static_cast<void*>(&skeletonPath)); CVFSFile skeletonFile; if (skeletonFile.Load(g_VFS, skeletonPath) != PSRETURN_OK) { LOGERROR(L"Failed to read skeleton definitions"); dll.Unload(); return false; } int ok = set_skeleton_definitions((const char*)skeletonFile.GetBuffer(), (int)skeletonFile.GetBufferSize()); if (ok < 0) { LOGERROR(L"Failed to load skeleton definitions"); dll.Unload(); return false; } // TODO: the cached PMD/PSA files should probably be invalidated when // the skeleton definition file is changed, else people will get confused // as to why it's not picking up their changes } // Set the filename for the logger to report set_logger(ColladaLog, const_cast<void*>(static_cast<const void*>(&daeFilename))); // We need to null-terminate the buffer, so do it (possibly inefficiently) // by converting to a CStr CStr daeData; { CVFSFile daeFile; if (daeFile.Load(g_VFS, daeFilename) != PSRETURN_OK) return false; daeData = daeFile.GetAsString(); } // Do the conversion into a memory buffer WriteBuffer writeBuffer; switch (type) { case CColladaManager::PMD: convert_dae_to_pmd(daeData.c_str(), ColladaOutput, &writeBuffer); break; case CColladaManager::PSA: convert_dae_to_psa(daeData.c_str(), ColladaOutput, &writeBuffer); break; } // don't create zero-length files (as happens in test_invalid_dae when // we deliberately pass invalid XML data) because the VFS caching // logic warns when asked to load such. if (writeBuffer.Size()) { Status ret = g_VFS->CreateFile(pmdFilename, writeBuffer.Data(), writeBuffer.Size()); ENSURE(ret == INFO::OK); } return true; }
void CGUI::Xeromyces_ReadObject(XMBElement Element, CXeromyces* pFile, IGUIObject *pParent, const std::vector<std::pair<CStr, CStr> >& NameSubst, boost::unordered_set<VfsPath>& Paths) { ENSURE(pParent); int i; // Our object we are going to create IGUIObject *object = NULL; XMBAttributeList attributes = Element.GetAttributes(); // Well first of all we need to determine the type CStr type (attributes.GetNamedItem(pFile->GetAttributeID("type"))); if (type.empty()) type = "empty"; // Construct object from specified type // henceforth, we need to do a rollback before aborting. // i.e. releasing this object object = ConstructObject(type); if (!object) { // Report error that object was unsuccessfully loaded LOGERROR(L"GUI: Unrecognized object type \"%hs\"", type.c_str()); return; } // Cache some IDs for element attribute names, to avoid string comparisons #define ELMT(x) int elmt_##x = pFile->GetElementID(#x) #define ATTR(x) int attr_##x = pFile->GetAttributeID(#x) ELMT(object); ELMT(action); ELMT(repeat); ATTR(style); ATTR(type); ATTR(name); ATTR(hotkey); ATTR(z); ATTR(on); ATTR(file); // // Read Style and set defaults // // If the setting "style" is set, try loading that setting. // // Always load default (if it's available) first! // CStr argStyle (attributes.GetNamedItem(attr_style)); if (m_Styles.count("default") == 1) object->LoadStyle(*this, "default"); if (! argStyle.empty()) { // additional check if (m_Styles.count(argStyle) == 0) { LOGERROR(L"GUI: Trying to use style '%hs' that doesn't exist.", argStyle.c_str()); } else object->LoadStyle(*this, argStyle); } // // Read Attributes // bool NameSet = false; bool ManuallySetZ = false; // if z has been manually set, this turn true CStr hotkeyTag; // Now we can iterate all attributes and store for (i=0; i<attributes.Count; ++i) { XMBAttribute attr = attributes.Item(i); // If value is "null", then it is equivalent as never being entered if (CStr(attr.Value) == "null") continue; // Ignore "type" and "style", we've already checked it if (attr.Name == attr_type || attr.Name == attr_style) continue; // Also the name needs some special attention if (attr.Name == attr_name) { CStr name (attr.Value); // Apply the requested substitutions for (size_t j = 0; j < NameSubst.size(); ++j) name.Replace(NameSubst[j].first, NameSubst[j].second); object->SetName(name); NameSet = true; continue; } // Wire up the hotkey tag, if it has one if (attr.Name == attr_hotkey) hotkeyTag = attr.Value; if (attr.Name == attr_z) ManuallySetZ = true; // Try setting the value if (object->SetSetting(pFile->GetAttributeString(attr.Name), attr.Value.FromUTF8(), true) != PSRETURN_OK) { LOGERROR(L"GUI: (object: %hs) Can't set \"%hs\" to \"%ls\"", object->GetPresentableName().c_str(), pFile->GetAttributeString(attr.Name).c_str(), attr.Value.FromUTF8().c_str()); // This is not a fatal error } } // Check if name isn't set, generate an internal name in that case. if (!NameSet) { object->SetName("__internal(" + CStr::FromInt(m_InternalNameNumber) + ")"); ++m_InternalNameNumber; } // Attempt to register the hotkey tag, if one was provided if (! hotkeyTag.empty()) m_HotkeyObjects[hotkeyTag].push_back(object); CStrW caption (Element.GetText().FromUTF8()); if (! caption.empty()) { // Set the setting caption to this object->SetSetting("caption", caption, true); // There is no harm if the object didn't have a "caption" } // // Read Children // // Iterate children XMBElementList children = Element.GetChildNodes(); for (i=0; i<children.Count; ++i) { // Get node XMBElement child = children.Item(i); // Check what name the elements got int element_name = child.GetNodeName(); if (element_name == elmt_object) { // Call this function on the child Xeromyces_ReadObject(child, pFile, object, NameSubst, Paths); } else if (element_name == elmt_action) { // Scripted <action> element // Check for a 'file' parameter CStrW filename (child.GetAttributes().GetNamedItem(attr_file).FromUTF8()); CStr code; // If there is a file, open it and use it as the code if (! filename.empty()) { Paths.insert(filename); CVFSFile scriptfile; if (scriptfile.Load(g_VFS, filename) != PSRETURN_OK) { LOGERROR(L"Error opening GUI script action file '%ls'", filename.c_str()); throw PSERROR_GUI_JSOpenFailed(); } code = scriptfile.DecodeUTF8(); // assume it's UTF-8 } // Read the inline code (concatenating to the file code, if both are specified) code += CStr(child.GetText()); CStr action = CStr(child.GetAttributes().GetNamedItem(attr_on)); // We need to set the GUI this object belongs to because RegisterScriptHandler requires an associated GUI. object->SetGUI(this); object->RegisterScriptHandler(action.LowerCase(), code, this); } else if (element_name == elmt_repeat) { Xeromyces_ReadRepeat(child, pFile, object, Paths); } else { // Try making the object read the tag. if (!object->HandleAdditionalChildren(child, pFile)) { LOGERROR(L"GUI: (object: %hs) Reading unknown children for its type", object->GetPresentableName().c_str()); } } } // // Check if Z wasn't manually set // if (!ManuallySetZ) { // Set it automatically to 10 plus its parents bool absolute; GUI<bool>::GetSetting(object, "absolute", absolute); // If the object is absolute, we'll have to get the parent's Z buffered, // and add to that! if (absolute) { GUI<float>::SetSetting(object, "z", pParent->GetBufferedZ() + 10.f, true); } else // If the object is relative, then we'll just store Z as "10" { GUI<float>::SetSetting(object, "z", 10.f, true); } } // // Input Child // try { if (pParent == m_BaseObject) AddObject(object); else pParent->AddChild(object); } catch (PSERROR_GUI& e) { LOGERROR(L"GUI error: %hs", e.what()); } }