// Open the boxfile based on the given image filename. FILE* OpenBoxFile(const STRING& fname) { STRING filename = BoxFileName(fname); FILE* box_file = NULL; if (!(box_file = fopen(filename.string(), "rb"))) { CANTOPENFILE.error("read_next_box", TESSEXIT, "Cant open box file %s", filename.string()); } return box_file; }
TEST_F(lv_LV_PhoneNumber, Operator) { cxxfaker::providers::lv_LV::PhoneNumber phonenumber; phonenumber.Seed(::testing::UnitTest::GetInstance()->random_seed()); STRING number = phonenumber; for (STRING::const_iterator iter = number.begin(); iter != number.end(); ++iter) { if (isdigit(*iter) || *iter == '-' || *iter == '+' || *iter == ' ') continue; ADD_FAILURE() << "What is this \"" << *iter << "\" doing in here.."; }; };
void dump_words(WERD_RES_LIST &perm, inT16 score, inT16 mode, BOOL8 improved) { WERD_RES_IT word_res_it(&perm); static STRING initial_str; if (debug_fix_space_level > 0) { if (mode == 1) { initial_str = ""; for (word_res_it.mark_cycle_pt (); !word_res_it.cycled_list (); word_res_it.forward ()) { if (!word_res_it.data ()->part_of_combo) { initial_str += word_res_it.data ()->best_choice->string (); initial_str += ' '; } } } #ifndef SECURE_NAMES if (debug_fix_space_level > 1) { switch (mode) { case 1: tprintf ("EXTRACTED (%d): \"", score); break; case 2: tprintf ("TESTED (%d): \"", score); break; case 3: tprintf ("RETURNED (%d): \"", score); break; } for (word_res_it.mark_cycle_pt (); !word_res_it.cycled_list (); word_res_it.forward ()) { if (!word_res_it.data ()->part_of_combo) tprintf("%s/%1d ", word_res_it.data ()->best_choice->string (). string (), (int) word_res_it.data ()->best_choice->permuter ()); } tprintf ("\"\n"); } else if (improved) { tprintf ("FIX SPACING \"%s\" => \"", initial_str.string ()); for (word_res_it.mark_cycle_pt (); !word_res_it.cycled_list (); word_res_it.forward ()) { if (!word_res_it.data ()->part_of_combo) tprintf ("%s/%1d ", word_res_it.data ()->best_choice->string (). string (), (int) word_res_it.data ()->best_choice->permuter ()); } tprintf ("\"\n"); } #endif } }
bool TessdataManager::CombineDataFiles( const char *language_data_path_prefix, const char *output_filename) { int i; inT64 offset_table[TESSDATA_NUM_ENTRIES]; for (i = 0; i < TESSDATA_NUM_ENTRIES; ++i) offset_table[i] = -1; FILE *output_file = fopen(output_filename, "wb"); if (output_file == NULL) { tprintf("Error opening %s for writing\n", output_filename); return false; } // Leave some space for recording the offset_table. if (fseek(output_file, sizeof(inT32) + sizeof(inT64) * TESSDATA_NUM_ENTRIES, SEEK_SET)) { tprintf("Error seeking %s\n", output_filename); fclose(output_file); return false; } TessdataType type = TESSDATA_NUM_ENTRIES; bool text_file = false; FILE *file_ptr[TESSDATA_NUM_ENTRIES]; // Load individual tessdata components from files. for (i = 0; i < TESSDATA_NUM_ENTRIES; ++i) { ASSERT_HOST(TessdataTypeFromFileSuffix( kTessdataFileSuffixes[i], &type, &text_file)); STRING filename = language_data_path_prefix; filename += kTessdataFileSuffixes[i]; file_ptr[i] = fopen(filename.string(), "rb"); if (file_ptr[i] != NULL) { offset_table[type] = ftell(output_file); CopyFile(file_ptr[i], output_file, text_file, -1); fclose(file_ptr[i]); } } // Make sure that the required components are present. if (file_ptr[TESSDATA_UNICHARSET] == NULL) { tprintf("Error opening %sunicharset file\n", language_data_path_prefix); fclose(output_file); return false; } if (file_ptr[TESSDATA_INTTEMP] != NULL && (file_ptr[TESSDATA_PFFMTABLE] == NULL || file_ptr[TESSDATA_NORMPROTO] == NULL)) { tprintf("Error opening %spffmtable and/or %snormproto files" " while %sinttemp file was present\n", language_data_path_prefix, language_data_path_prefix, language_data_path_prefix); fclose(output_file); return false; } return WriteMetadata(offset_table, language_data_path_prefix, output_file); }
void HttpSocket::SendGetInet(const STRING &url, const STRING &host, const int &port, std::vector<char> *data) { char d[4096]; DWORD len; stringstream lss; INTERNET_BUFFERS BufferIn = {0}; BufferIn.dwStructSize = sizeof( INTERNET_BUFFERS ); HINTERNET hNet = InternetOpen(_T("peelClient"), INTERNET_OPEN_TYPE_DIRECT, NULL, NULL, NULL); if(!hNet) throw SocketException(_T("Could not open internet"), GetError()); HINTERNET hCon = InternetConnect(hNet, host.c_str(), port , 0, 0, INTERNET_SERVICE_HTTP, 0, 0); if(!hCon) { InternetCloseHandle(hNet); throw SocketException(_T("Could not connect to server"), GetError()); } HINTERNET hReq = HttpOpenRequest(hCon, _T("GET"), url.c_str(), 0, 0, 0, INTERNET_FLAG_RELOAD, 0); if(!hReq) { InternetCloseHandle(hNet); InternetCloseHandle(hCon); throw SocketException(_T("Could not open request to server"), GetError()); } if(!HttpSendRequest(hReq, NULL, NULL, NULL, NULL)) { InternetCloseHandle(hNet); InternetCloseHandle(hCon); throw SocketException(_T("Could not send request to server"), GetError()); } if(data != NULL) { lss.str(""); while(1) { if(!InternetReadFile(hReq, d, 4095, &len)) break; if(len==0) break; d[len]='\0'; std::copy( d, d+len, (*data).begin()); } } InternetCloseHandle(hNet); InternetCloseHandle(hCon); }
BOOL8 STRING::operator!=(const STRING& str) const { FixHeader(); str.FixHeader(); const STRING_HEADER* str_header = str.GetHeader(); const STRING_HEADER* this_header = GetHeader(); int this_used = this_header->used_; int str_used = str_header->used_; return (this_used != str_used) || (memcmp(GetCStr(), str.GetCStr(), this_used) != 0); }
void JustRenderIt::NotImplemented(bool halt, STRING msg) { STRING str = msg + " Not implemented!"; if(!halt) LOG_WARNING1(str.c_str()); else { LOG_FATAL1(str.c_str()); } }
TEST_F(is_IS_PhoneNumber, PhoneNumber) { cxxfaker::providers::is_IS::PhoneNumber* phonenumber = new cxxfaker::providers::is_IS::PhoneNumber(); phonenumber->Seed(::testing::UnitTest::GetInstance()->random_seed()); STRING number = phonenumber->phoneNumber(); for (STRING::const_iterator iter = number.begin(); iter != number.end(); ++iter) { if (isdigit(*iter) || *iter == '+' || *iter == ' ') continue; ADD_FAILURE() << "What is this \"" << *iter << "\" doing in here.."; }; delete phonenumber; };
bool Ini_UpdaterLists::saveRollbackInfo(const FileVector &rollbackList) { STRING section_name = SS_KEY_RollbackTree; long k = 0; STRING rollbackFileAndPath; if(!getProductFolder(m_useCurrentFolder, rollbackFileAndPath, pLog)) { TRACE_MESSAGE("Unable to save rollback information, because failed to get product folder"); return false; } rollbackFileAndPath += UPDATER_LISTS_FILENEME; TRACE_MESSAGE2("Saving rollback list to '%s'", rollbackFileAndPath.to_string().c_str()); removeRollbackSection(); // for output saved entries in rows and save space in trace file std::string savedEntries; unsigned long logLineSplitIndex = 0; for(FileVector::const_iterator iter = rollbackList.begin(); iter != rollbackList.end(); ++iter) { if(iter->m_rollbackChange == STRING(SS_KEY_RecentStatusAdded) || iter->m_rollbackChange == STRING(SS_KEY_RecentStatusModified) || iter->m_rollbackChange == STRING(SS_KEY_RecentStatusDeleted)) { STRING newSectionName; const long order_number = k++; makeNewSectionName(order_number, iter->m_filename, newSectionName); if(!saveRollbackListEntry(rollbackFileAndPath.c_str(), section_name.c_str(), order_number, newSectionName, *iter)) { TRACE_MESSAGE2("Unable to save rollback information for file entry '%s'", (iter->m_localPath + iter->m_filename).to_string().c_str()); return false; } // append comma before all items, but the very first one if(logLineSplitIndex++) savedEntries += ", "; // split line each 3 elements, but not before last element if(iter + 1 != rollbackList.end()) { if(!(logLineSplitIndex % 3)) savedEntries += "\n\t"; } savedEntries += (iter->m_localPath + iter->m_filename).to_string(); } } TRACE_MESSAGE3("Rollback information saved successfully to %s, entries: %s", rollbackFileAndPath.to_string().c_str(), savedEntries.c_str()); return true; }
// clears the tile cache for the given map void MgdTileCache::Clear(MgMapBase* map) { if (map != NULL) { STRING basePath = GetBasePath(map); // delete main map directory if (!basePath.empty()) MgFileUtil::DeleteDirectory(basePath, true, false); } }
// Load level information int Level::LoadLevel(const STRING & path) { STRING file; file.assign(path.c_str()); STRING name = Port::FileName(file); file.append(Port::ReplacePath(STR("\\level.dat"))); NBT_Reader read = NBT_Reader(); read.Load(file); bool valid = false; NBTTag tag = read.ReadData(); // Read first compound while ((tag = read.ReadData()) != TAG_Unknown) { const NBTData * data = read.GetData(); if (!data) continue; if (!valid) { if (data->tag != TAG_Compound) continue; if (!data->name) continue; if (!StringCheck(data->name, "Data")) continue; valid = true; } switch (data->tag) { case TAG_Int: if (StringCheck(data->name, "version")) { info.version = data->i; } break; case TAG_Long: if (StringCheck(data->name, "RandomSeed")) { info.seed = data->l; } break; case TAG_String: if (StringCheck(data->name, "LevelName")) { info.name.assign((char *)data->bas, (char *)data->bas+data->size); } break; } } // Alpha if (info.name.empty()) info.name = name; return valid; }
// Sets up the network for training using the given weight_range. void LSTM::DebugWeights() { for (int w = 0; w < WT_COUNT; ++w) { if (w == GFS && !Is2D()) continue; STRING msg = name_; msg.add_str_int(" Gate weights ", w); gate_weights_[w].Debug2D(msg.string()); } if (softmax_ != NULL) { softmax_->DebugWeights(); } }
bool XmlTagEntity::getArg(STRING name, int &ivalue) { STRING tmp; if(!getArg(name, tmp)) return false; #ifdef _WIN32 ivalue = _tstoi(tmp.c_str()); #else ivalue = atoi(tmp.c_str()); #endif return true; }
//从文件中读取变量 VOID CVariableSystem::LoadVariable(LPCTSTR szFileName, VARIABLE_MAP& mapBuf) { KLAssert(szFileName); // mapBuf.clear(); //----------------------------------------------------------- //取得配置文件的大小 HANDLE hFile = CreateFile(szFileName, GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if(INVALID_HANDLE_VALUE == hFile) return; DWORD dwHigh; DWORD dwFileSize = GetFileSize(hFile, &dwHigh); CloseHandle(hFile); hFile = NULL; if(0==dwFileSize) return; //----------------------------------------------------------- //分配足够的内存 CHAR* pTempBuf = new CHAR[dwFileSize+32]; if(!pTempBuf) return; //----------------------------------------------------------- //从配置文件中读取"Variable"节 ::GetPrivateProfileSection("Variable", pTempBuf, dwFileSize, szFileName); //分解 std::vector< STRING > vRet; ConvertSectionInVector(pTempBuf, dwFileSize, vRet); delete[] pTempBuf; pTempBuf=NULL; //加入变量定义 for(INT i=0; i<(INT)vRet.size(); i++) { STRING& strLine = vRet[i]; STRING::size_type tEqu = strLine.find_first_of("= \t"); if(tEqu == STRING::npos) continue; STRING strName = strLine.substr(0, tEqu); CHAR szTemp[1024]; ::GetPrivateProfileString("Variable", strName.c_str(), "", szTemp, 1024, szFileName); SetVariable(strName.c_str(), szTemp, FALSE); } }
void calcToScalar(ObjectHandler::property_t &ret, const ANY &value) { STRING t = value.getValueTypeName(); //std::cout << "calcToScalar ANY to property_t called" << std::endl; if (t.equalsIgnoreAsciiCase(STRFROMANSI("VOID"))) { //std::cout << "ANY value type VOID" << std::endl; ret = ObjectHandler::property_t(); } else if (t.equalsIgnoreAsciiCase(STRFROMANSI("LONG"))) { //std::cout << "ANY value type LONG" << std::endl; long temp; value >>= temp; ret = ObjectHandler::property_t(temp); } else if (t.equalsIgnoreAsciiCase(STRFROMANSI("DOUBLE"))) {
/*----------------------------------------------------------------------------*/ void WriteNormProtos ( const char *Directory, LIST LabeledProtoList, CLUSTERER *Clusterer) /* ** Parameters: ** Directory directory to place sample files into ** Operation: ** This routine writes the specified samples into files which ** are organized according to the font name and character name ** of the samples. ** Return: none ** Exceptions: none ** History: Fri Aug 18 16:17:06 1989, DSJ, Created. */ { FILE *File; STRING Filename; LABELEDLIST LabeledProto; int N; Filename = ""; if (Directory != NULL && Directory[0] != '\0') { Filename += Directory; Filename += "/"; } Filename += "normproto"; printf ("\nWriting %s ...", Filename.string()); File = Efopen (Filename.string(), "wb"); fprintf(File,"%0d\n",Clusterer->SampleSize); WriteParamDesc(File,Clusterer->SampleSize,Clusterer->ParamDesc); iterate(LabeledProtoList) { LabeledProto = (LABELEDLIST) first_node (LabeledProtoList); N = NumberOfProtos(LabeledProto->List, true, false); if (N < 1) { printf ("\nError! Not enough protos for %s: %d protos" " (%d significant protos" ", %d insignificant protos)\n", LabeledProto->Label, N, NumberOfProtos(LabeledProto->List, 1, 0), NumberOfProtos(LabeledProto->List, 0, 1)); exit(1); } fprintf(File, "\n%s %d\n", LabeledProto->Label, N); WriteProtos(File, Clusterer->SampleSize, LabeledProto->List, true, false); } fclose (File); } // WriteNormProtos
void testEmptyConst() { char desc[] = "Empty Constructor"; printTestHeader(desc); STRING s; cout << "STRING contains '"; STRdisplay(s); cout << "'.\n" << "STRING length is " << s.length() << ".\n" << "isEmpty returns " << (s.isEmpty() ? "True" : "False") << ".\n"; printTestFooter(desc); }
SNORTRULEHDR void CRuleOption::FormatPattern(CDllString &out) { m_nFlags = CRuleOption::NOFLAG; STRING str = out.Data(); STRING_ITER iBeg = str.begin(), iEnd = str.end(); if (*std::find_if_not(iBeg, iEnd, ISSPACE()) == '!') { m_nFlags |= CRuleOption::HASNOT; } QuotedContext(iBeg, iEnd); out.Assign(STRING(iBeg, iEnd).c_str()); }
// clears the tile cache for the given map void MgdTileCache::Clear(MgResourceIdentifier* mapDef) { // the resource must be a map definition if (mapDef != NULL && mapDef->GetResourceType() == MgResourceType::MapDefinition) { STRING basePath = GetBasePath(mapDef); // delete main map directory if (!basePath.empty()) MgFileUtil::DeleteDirectory(basePath, true, false); } }
VOID CStringFilter::ReplaceToSign_Normal(const STRING& strIn, STRING& strOut) { static STRING strSign = "?"; static BYTE byANSIBegin = 0X20; static BYTE byANSIEnd = 0X80; strOut = strIn; STRING::size_type allsize = m_vIncluce.size(); //包含替换 for(STRING::size_type i = 0; i < m_vIncluce.size(); ++i) { STRING::size_type pos = strIn.find(m_vIncluce[i]); while(STRING::npos != pos) { STRING strReplace = ""; STRING::size_type len = m_vIncluce[i].size(); //如果包含替换的是1个字节的ANSI字节,替换前, //需要确认前一个字节一定不是双字节字符集的前一个字节 BOOL bSkip = FALSE; if(1 == len && pos > 0) { BYTE byChar = strIn[pos-1]; #if 0 char dbgmsg[256]; _snprintf(dbgmsg, 255, "strIn[pos-1]:0x%X(0x%X)\n", strIn[pos-1],byChar); ::OutputDebugString(dbgmsg); #endif //不是标准ANSI英文字符 if(!(byChar >= byANSIBegin && byChar <= byANSIEnd || byChar == '\r' || byChar == '\n' || byChar == '\t')) { bSkip = TRUE; } } if(!bSkip) { for(STRING::size_type k = 0; k < len; ++k, strReplace += strSign); strOut.replace(pos, len, strReplace); } pos = strIn.find(m_vIncluce[i], pos+len); } } //完全匹配替换 if(IsFullCmp(strIn)) { STRING::size_type len = strIn.size(); strOut.clear(); for(STRING::size_type i = 0; i < len; ++i, strOut += strSign); } }
BOOL EditDlg_OnInitDialog(HWND hwnd, HWND hwndFocus, LPARAM lParam) { COMBOBOXEXITEMW Item; ZeroMemory(&Item, sizeof(Item)); Item.mask = CBEIF_TEXT; FONTNAMESET::iterator it, end = g_Names.end(); for (it = g_Names.begin(); it != end; ++it) { Item.pszText = const_cast<LPWSTR>(it->c_str()); Item.iItem = ComboBox_GetCount(GetDlgItem(hwnd, cmb2)); SendDlgItemMessageW(hwnd, cmb2, CBEM_INSERTITEM, 0, (LPARAM)&Item); } SetDlgItemTextW(hwnd, edt1, g_strFontName.c_str()); SetDlgItemTextW(hwnd, cmb2, g_strSubstitute.c_str()); const INT Count = _countof(g_CharSetList); for (INT i = 0; i < Count; ++i) { Item.pszText = const_cast<LPWSTR>(g_CharSetList[i].DisplayName); Item.iItem = ComboBox_GetCount(GetDlgItem(hwnd, cmb3)); SendDlgItemMessageW(hwnd, cmb3, CBEM_INSERTITEM, 0, (LPARAM)&Item); Item.iItem = ComboBox_GetCount(GetDlgItem(hwnd, cmb4)); SendDlgItemMessageW(hwnd, cmb4, CBEM_INSERTITEM, 0, (LPARAM)&Item); } SendDlgItemMessageW(hwnd, cmb3, CB_SETCURSEL, 0, 0); SendDlgItemMessageW(hwnd, cmb4, CB_SETCURSEL, 0, 0); for (INT i = 0; i < Count; ++i) { if (g_CharSet1 == g_CharSetList[i].CharSet) { SendDlgItemMessageW(hwnd, cmb3, CB_SETCURSEL, i, 0); } if (g_CharSet2 == g_CharSetList[i].CharSet) { SendDlgItemMessageW(hwnd, cmb4, CB_SETCURSEL, i, 0); } } SIZE siz; HDC hDC = CreateCompatibleDC(NULL); SelectObject(hDC, GetStockObject(DEFAULT_GUI_FONT)); GetTextExtentPoint32W(hDC, g_LongestName, lstrlenW(g_LongestName), &siz); DeleteDC(hDC); SendDlgItemMessageW(hwnd, cmb3, CB_SETHORIZONTALEXTENT, siz.cx + 16, 0); SendDlgItemMessageW(hwnd, cmb4, CB_SETHORIZONTALEXTENT, siz.cx + 16, 0); EnableWindow(GetDlgItem(hwnd, cmb3), FALSE); return TRUE; }
static inline int okBase( const STRING& aField ) { int offset = int( aField.find_first_of( ":/" ) ); if( offset != -1 ) return offset; // cannot be empty if( !aField.size() ) return 0; return offset; // ie. -1 }
/* * Remove the path from a file name, perserving folders. * preserveFrom should carry a trailing \. */ STRING removePath(const STRING str, const STRING preserveFrom) { const int pos = str.find(preserveFrom); if (pos != str.npos) { return str.substr(pos + preserveFrom.length()); } // Return the path unaltered, since it didn't contain the // default folder and any other folders should be subfolders // (although a different default folder may be present). return str; }
//宠物改名字 INT Pet::Change_Name(LuaPlus::LuaState* state) { LuaStack args(state); if ( !(args[2].IsInteger()) || !(args[3].IsString()) ) { KLThrow("LUA:Pet Change_Name parameter error"); } INT nPetNum = args[2].GetInteger(); LPCTSTR szName = args[3].GetString(); STRING szTemp=""; SDATA_PET* My_Pet= CDataPool::GetMe()->Pet_GetPet(nPetNum); if( (!My_Pet) || ( !My_Pet->m_pModelData ) ) { KLThrow("LUA:Pet Change_Name parameter error"); return 0; } if(CGameProcedure::s_pUISystem->CheckStringFilter(szName, FT_NAME) == FALSE) { STRING strTemp = ""; strTemp = NOCOLORMSGFUNC("GMGameInterface_Script_Talk_Info_InvalidContent"); CEventSystem::GetMe()->PushEvent(GE_NEW_DEBUGMESSAGE,strTemp.c_str()); return 0; } else if(CGameProcedure::s_pUISystem->CheckStringCode(szName,szTemp) == FALSE) { return 0; } else if(KLU_CheckStringValid(szName) == FALSE) { STRING strTemp = ""; strTemp = NOCOLORMSGFUNC("ERRORSpecialString"); CEventSystem::GetMe()->PushEvent(GE_NEW_DEBUGMESSAGE,strTemp.c_str()); return 0; } //向服务器发送 CGSetPetAttrib Msg; if(strcmp(szName, My_Pet->m_szName.c_str()) != 0) { Msg.SetGUID(My_Pet->m_GUID); // Msg.SetIndex(nPetNum); Msg.SetName((CHAR*)szName); CNetManager::GetMe()->SendPacket(&Msg); } return 0; }
INT CGameProduce_Login::GetLastLoginAreaAndServerIndex(LuaPlus::LuaState* state) { INT area =0, server = 0; STRING name; if((CGameProcedure::s_pProcLogIn)) { CGameProcedure::s_pProcLogIn->GetLastLoginAreaAndServerIndex(area, server,name); } state->PushInteger(area); state->PushInteger(server); state->PushString(name.c_str()); return 3; }
// NOTE : the value of MapType must be matched with ResourceID of ResourceFile(MapResourceFile) STRING GooRoomClient::GetCloudMapFilePath(StageLevel stageLevel) { std::ostringstream mapFileName; const STRING fileName = this->GetGooRoomResourceVersionManager().GetResourceFileName(static_cast<ResourceID>(stageLevel)); if( fileName.compare("")==0 ) { ASSERT_DEBUG(fileName.compare("")!=0); return ""; } return this->GetWritableFilePath(fileName.c_str()); }
bool MgWmsLayerDefinitions::SkipElement(CPSZ pszElementName) { STRING sName; if(pszElementName == NULL && m_xmlParser->Current().Type() == keBeginElement) { MgXmlBeginElement& Begin = (MgXmlBeginElement&)m_xmlParser->Current(); sName = Begin.Name(); pszElementName = sName.c_str(); } MgXmlSynchronizeOnElement Whatever(*m_xmlParser,pszElementName); return Whatever.AtBegin(); }
// special form of exception for CeeFIT system failures void ceefit_call_spec FIXTURE::Failure(PTR<PARSE>& cell, FAILURE* f) { STRING message; message = STRING("A failure occurred: ") + (f != null ? f->GetReason() : STRING("<unknown reason>")); # ifdef _DEBUG printf("%S\n", message.GetBuffer()); # endif Error(cell, message); delete f; }
void ceefit_call_spec FIXTURE::Exception(PTR<PARSE>& cell, EXCEPTION* e) { STRING message; message = STRING("An unhandled exception occurred: ") + (e != null ? e->GetReason() : STRING("<unknown reason>")); # ifdef _DEBUG printf("%S\n", message.GetBuffer()); # endif Error(cell, message); delete e; }
// 询问是否退到帐号输入界面 INT CGameProduce_Login::ExitToAccountInput_YesNo(LuaPlus::LuaState* state) { std::vector< STRING > strParamInfo; STRING strTemp = ""; strTemp = NOCOLORMSGFUNC("GMGameInterface_Script_GameLogin_Info_Exit_To_Account_Input_YesNo"); strParamInfo.push_back(strTemp.c_str()); //strParamInfo.push_back("确定退到帐号输入界面吗?"); strParamInfo.push_back("2"); // ((CEventSystem*)CGameProcedure::s_pEventSystem)->PushEvent( GE_GAMELOGIN_SYSTEM_INFO_YESNO, strParamInfo); return 0; }