bool CreateListenSocket() { int retval; g_listenSock = socket(AF_INET, SOCK_STREAM, 0); if(g_listenSock == INVALID_SOCKET) { DisplayMessage(); return false; } SOCKADDR_IN serveraddr; ZeroMemory(&serveraddr, sizeof(serveraddr)); serveraddr.sin_family = AF_INET; serveraddr.sin_port = htons(40100); serveraddr.sin_addr.s_addr = htonl(INADDR_ANY); retval = bind(g_listenSock, (SOCKADDR*)&serveraddr, sizeof(serveraddr)); if(retval == SOCKET_ERROR) { DisplayMessage(); return false; } retval = listen(g_listenSock,SOMAXCONN); if(retval == SOCKET_ERROR) { DisplayMessage(); return false; } return true; }
~AllocList() { #ifdef _CPPRTTI // this works in MSVC 5.0 - ie. the macro is defined if RTTI is turned on // but there appears to be no preprocessor way of determining if RTTI is turned on under Watcom // No, I think it works in Watcom too, actually... #pragma message("Run-Time Type Identification (RTTI) is enabled") for (Iterator itLeak(*this) ; !itLeak.Done() ; itLeak.Next()) { TCHAR buf[256]; ::wsprintf(buf,TEXT("Object not deallocated:\nType: %s\nRefCnt: %u"),typeid(*itLeak.Get()).name(),itLeak.Get()->m_nRefCnt); DisplayMessage(TEXT("Memory Leak!"),buf); } #else // ! _CPPRTTI unsigned nRefs(0); for (Iterator itLeak(*this) ; !itLeak.Done() ; itLeak.Next()) { nRefs += itLeak.Get()->m_nRefCnt; } if (Size()) { char buf[256]; ::sprintf(buf,"Objects not deallocated:\nNumber of Objects: %u\nNumber of References: %u",Size(),nRefs); DisplayMessage("Memory Leaks!",buf); } #endif // ! _CPPRTTI g_bAllocListActive = false; }
bool CreateListenSocket() { int retval; g_ServerSocket = socket(AF_INET, SOCK_STREAM, 0); if(g_ServerSocket == INVALID_SOCKET) { DisplayMessage(); return false; } SOCKADDR_IN serveraddr; ZeroMemory(&serveraddr, sizeof(serveraddr)); serveraddr.sin_family = AF_INET; serveraddr.sin_port = htons(40100); serveraddr.sin_addr.s_addr = htonl(INADDR_ANY); retval = bind(g_ServerSocket, (SOCKADDR*)&serveraddr, sizeof(serveraddr)); if(retval == SOCKET_ERROR) { DisplayMessage(); return false; } retval = listen(g_ServerSocket,SOMAXCONN); if(retval == SOCKET_ERROR) { DisplayMessage(); return false; } HANDLE hEvent = WSACreateEvent(); WSAEventSelect( g_ServerSocket, hEvent, FD_ACCEPT | FD_CLOSE); EventList[0] = hEvent; g_SockCnt++; return true; }
bool gameInstance::ResourceLoader() { std::ifstream resources[3]; //Otwieramy wszystkie pliki cfg zawierajace dane o obiektach gry resources[0].open("game/sounds.cfg"); resources[1].open("game/units.cfg"); resources[2].open("game/objs.cfg"); if(!resources[0].good()) { DisplayMessage("Blad!","Nie mozna otworzyc pliku sounds.cfg!"); return false; } //Sprawdzamy czy if(!resources[1].good()) { DisplayMessage("Blad!","Nie mozna otworzyc pliku units.cfg!"); return false; } //listy sa dostepne if(!resources[2].good()) { DisplayMessage("Blad!","Nie mozna otworzyc pliku objs.cfg!"); return false; } // do wczytania std::string line; for(int i=0;i<3;i++) { while(!resources[i].eof()) //Wczytujemy po kolei ka¿dy z plików do odpowiedniej listy { getline(resources[i],line); if(line=="[UNIT]") { std::string name,file,sound_movement,sound_attack,sound_death; int HP,attack,defence; resources[i]>>line; //Sprawdzamy czy dany wpis w pliku cfg istnieje i czy jest na odpowiedniej pozycji if(line=="[NAME]") resources[i] >> name; else continue; //wczytujemy dane, albo przerywamy je¿eli s¹ niepoprawne resources[i] >> line; if(line=="[BITMAP]") resources[i] >> file; else continue; resources[i] >> line; if(line=="[HP]") resources[i] >> HP; else continue;
/* * GroupPrint: Display the members of the group with the given name. */ void GroupPrint(char *group_name) { UserGroup g; int i, index; COLORREF color; BYTE style; ID id; char buf[MAX_CHARNAME + 10]; index = FindGroupByName(group_name); switch (index) { case GROUP_NOMATCH: GameMessage(GetString(hInst, IDS_BADGROUPNAME)); break; case GROUP_AMBIGUOUS: GameMessage(GetString(hInst, IDS_DUPLICATEGROUPNAME)); break; default: group_name = groups[index]; GroupLoad(group_name, &g); GameMessagePrintf(GetString(hInst, IDS_GROUPMEMBERS), MAX_GROUPNAME, group_name); color = RGB(0, 0, 0); style = STYLE_NORMAL; EditBoxStartAdd(); for (i=0; i < g.num_users; i++) { if (i != 0) DisplayMessage(", ", color, style); id = FindPlayerByNameExact(g.names[i]); // Show player in red if logged on if (id == 0 || id == INVALID_ID) DisplayMessage(g.names[i], color, style); else { sprintf(buf, "~r%s~n", g.names[i]); DisplayMessage(buf, color, style); } } EditBoxEndAdd(); break; } }
/* #FN# Reads a keyboard template from a given file */ BOOL /* #AS# TRUE if succeeded, otherwise FALSE */ CKeyboardDlg:: PrepareTemplate( LPSTR pszTemplateFile, LPSTR pszTemplateDesc, BOOL bCheckIfExists /*=TRUE*/ ) { BOOL bResult = FALSE; if( _IsPathAvailable( pszTemplateFile ) ) { CFileStatus fsStatus; if( !bCheckIfExists || CFile::GetStatus( pszTemplateFile, fsStatus ) ) { if( !CKeyTemplateDlg::ReadKeyTemplate( pszTemplateFile, pszTemplateDesc, s_anKBTable, GetSafeHwnd() ) ) { DisplayMessage( GetSafeHwnd(), IDS_ERROR_A8K_LOAD, 0, MB_ICONEXCLAMATION | MB_OK ); strcpy( pszTemplateFile, FILE_NONE ); } else bResult = TRUE; } } /* Clear the template description */ if( !bResult ) *pszTemplateDesc = '\0'; return bResult; } /* #OF# CKeyboardDlg::PrepareTemplate */
void MovieToggleReadOnly(void) { if(Movie.Status == Playback) { if(Movie.ReadOnly == 1) { Movie.ReadOnly=0; DisplayMessage("Movie is now read+write."); } else { Movie.ReadOnly=1; DisplayMessage("Movie is now read only."); } } }
logical cClassCode :: ExecuteFunction (char *fname, logical chk_opt ) { char actname[ID_SIZE]; cfte *cfteptr; logical term = NO; BEGINSEQ static cfte acttbl[] = { cfte("InsertCheckError",ALINK(this,cClassCode,InsertCheckError)), cfte("InsertError",ALINK(this,cClassCode,InsertError)), cfte("InsertErrorNum",ALINK(this,cClassCode,InsertErrorNum)), cfte("InsertLeaveseq",ALINK(this,cClassCode,InsertLeaveseq)), cfte("InsertProjError",ALINK(this,cClassCode,InsertProjError)), }; static srt cftesrt(sizeof(acttbl)/CFTE,CFTE,UNDEF,UNDEF,UNDEF,(char *)acttbl,NO); if ( !cftesrt.srtkln() ) cftesrt.srtsor(CFTE_KPS,CFTE_KLN,CFTE_KTP); if ( cfteptr = (cfte *)cftesrt.srtigt(cftesrt.srtssr(gvtxstb(actname,fname,ID_SIZE))) ) { if ( chk_opt ) LEAVESEQ term = cfteptr->ActionCall(this); } else term = cClassCodeBase::ExecuteFunction(fname,chk_opt); if ( term && !chk_opt ) DisplayMessage(); ENDSEQ return(term); }
Win32FileContents ReadEntireFile(const char * Filename){ HANDLE File = CreateFileA(Filename, GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE, 0, OPEN_EXISTING, 0, 0); if (File == INVALID_HANDLE_VALUE) { return{ 0, 0 }; } LARGE_INTEGER Size; GetFileSizeEx(File, &Size); Win32FileContents FileContents = {}; FileContents.Size = Size.QuadPart; FileContents.Data = (unsigned char *)VirtualAlloc(0, Size.LowPart, MEM_COMMIT | MEM_RESERVE, PAGE_READWRITE); DWORD BytesRead; ReadFile(File, FileContents.Data, Size.LowPart, &BytesRead, 0); if (BytesRead != Size.LowPart) { DisplayMessage(GetLastError()); //TODO: Logging, errors etc } return FileContents; };
bool AddClient(int index) { SOCKET ClientSocket; SOCKADDR_IN sockaddr; int addrlen = sizeof(sockaddr); ClientSocket = accept(SockList[index], (SOCKADDR*)&sockaddr, &addrlen); if(ClientSocket == SOCKET_ERROR) { DisplayMessage(); return false; } // 이벤트 등록 WSAEVENT hClientEvent = WSACreateEvent(); WSAEventSelect(ClientSocket, hClientEvent, FD_WRITE | FD_READ | FD_CLOSE); // 전역변수에 저장 SockList[g_SockCnt] = ClientSocket; EventList[g_SockCnt] = hClientEvent; g_SockCnt++; // 접속메세지 전송 char buf[BUFFERSIZE]; int retByte = sprintf(buf, "\n[TCP 서버] 클라이언트 접속: IP주소=%s, 포트 번호=%d\n", inet_ntoa(sockaddr.sin_addr), ntohs(sockaddr.sin_port)); SendAll(0, buf, retByte); return true; }
void __cdecl Message( UINT MsgNumber, ... ) /*++ Routine Description: Prints a user message. Arguments: MsgNumber - Internal code on message. Return Value: None. --*/ { va_list valist; va_start(valist, MsgNumber); DisplayMessage(NULL, MSGSTR, MsgNumber, valist); va_end(valist); }
void __cdecl Warning( const char *szFilename, UINT WarningNumber, ... ) /*++ Routine Description: Prints a warning message. Arguments: Filename - File which caused the warning. WarningNumber - Internal error code. Return Value: None. --*/ { va_list valist; va_start(valist, WarningNumber); DisplayMessage(szFilename, WARNSTR, WarningNumber, valist); va_end(valist); }
void __cdecl PostNote( const char *szFilename, UINT NoteNumber, ... ) /*++ Routine Description: Prints a note user. Arguments: szFilename - File which caused the warning. NoteNumber - Internal code on note. Return Value: None. --*/ { va_list valist; va_start(valist, NoteNumber); DisplayMessage(szFilename, NOTESTR, NoteNumber, valist); va_end(valist); }
logical pKFZVS :: ExecuteFunction (char *fname, logical chk_opt ) { char actname[ID_SIZE]; cfte *cfteptr; logical term = NO; BEGINSEQ static cfte acttbl[] = { cfte("GetSparte",ALINK(this,pKFZVS,GetSparte)), }; static srt cftesrt(sizeof(acttbl)/CFTE,CFTE,UNDEF,UNDEF,UNDEF,(char *)acttbl,NO); if ( !cftesrt.srtkln() ) cftesrt.srtsor(CFTE_KPS,CFTE_KLN,CFTE_KTP); if ( cfteptr = (cfte *)cftesrt.srtigt(cftesrt.srtssr(gvtxstb(actname,fname,ID_SIZE))) ) { if ( chk_opt ) LEAVESEQ cfteptr->LINKINST(this); term = cfteptr->ActionCall(); } else term = pVS_base::ExecuteFunction(fname,chk_opt); if ( term && !chk_opt ) DisplayMessage(); ENDSEQ return(term); }
int main(void) { InitHardware(); dmInit(); sei(); // enable interrupts GoToSleep(); button |= PB_ACK; while(1) { if (button == PB_RELEASE) { // short button press msg_ptr = DisplayMessage(msg_ptr); button |= PB_ACK; } if (button == PB_LONGPRESS) { // button pressed for some seconds dmClearDisplay(); dmPrintChar(130); // sad smiley _delay_ms(500); GoToSleep(); button |= PB_ACK; } } // of while(1) }
logical cMainFunctionEdit :: ExecuteFunction (char *fname, logical chk_opt ) { char actname[ID_SIZE]; cfte *cfteptr; logical term = NO; BEGINSEQ static cfte acttbl[] = { cfte("Compile",ALINK(this,cMainFunctionEdit,Compile)), cfte("ErrorLookup",ALINK(this,cMainFunctionEdit,ErrorLookup)), cfte("Link",ALINK(this,cMainFunctionEdit,Link)), }; static srt cftesrt(sizeof(acttbl)/CFTE,CFTE,UNDEF,UNDEF,UNDEF,(char *)acttbl,NO); if ( !cftesrt.srtkln() ) cftesrt.srtsor(CFTE_KPS,CFTE_KLN,CFTE_KTP); if ( cfteptr = (cfte *)cftesrt.srtigt(cftesrt.srtssr(gvtxstb(actname,fname,ID_SIZE))) ) { if ( chk_opt ) LEAVESEQ term = cfteptr->ActionCall(this); } else term = CTX_Control::ExecuteFunction(fname,chk_opt); if ( term && !chk_opt ) DisplayMessage(); ENDSEQ return(term); }
VOID EmulatorException(BYTE ExceptionNumber, LPWORD Stack) { WORD CodeSegment, InstructionPointer; PBYTE Opcode; ASSERT(ExceptionNumber < 8); /* Get the CS:IP */ InstructionPointer = Stack[STACK_IP]; CodeSegment = Stack[STACK_CS]; Opcode = (PBYTE)SEG_OFF_TO_PTR(CodeSegment, InstructionPointer); /* Display a message to the user */ DisplayMessage(L"Exception: %s occured at %04X:%04X\n" L"Opcode: %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X", ExceptionName[ExceptionNumber], CodeSegment, InstructionPointer, Opcode[0], Opcode[1], Opcode[2], Opcode[3], Opcode[4], Opcode[5], Opcode[6], Opcode[7], Opcode[8], Opcode[9]); /* Stop the VDM */ EmulatorTerminate(); return; }
logical cClassCodeBase :: ExecuteFunction (char *fname, logical chk_opt ) { char actname[ID_SIZE]; cfte *cfteptr; logical term = NO; BEGINSEQ static cfte acttbl[] = { cfte("DeleteLine",ALINK(this,cClassCodeBase,DeleteLine)), cfte("FindBalancedPar",ALINK(this,cClassCodeBase,FindBalancedPar)), cfte("GetClassName",ALINK(this,cClassCodeBase,GetClassName)), cfte("GetCurrentOffset",ALINK(this,cClassCodeBase,GetCurrentOffset)), cfte("InsertBlock",ALINK(this,cClassCodeBase,InsertBlock)), cfte("InsertExpression",ALINK(this,cClassCodeBase,InsertExpression)), cfte("InsertSwitch",ALINK(this,cClassCodeBase,InsertSwitch)), }; static srt cftesrt(sizeof(acttbl)/CFTE,CFTE,UNDEF,UNDEF,UNDEF,(char *)acttbl,NO); if ( !cftesrt.srtkln() ) cftesrt.srtsor(CFTE_KPS,CFTE_KLN,CFTE_KTP); if ( cfteptr = (cfte *)cftesrt.srtigt(cftesrt.srtssr(gvtxstb(actname,fname,ID_SIZE))) ) { if ( chk_opt ) LEAVESEQ term = cfteptr->ActionCall(this); } else term = cNotifyHighContext::ExecuteFunction(fname,chk_opt); if ( term && !chk_opt ) DisplayMessage(); ENDSEQ return(term); }
void ExamplesMainInit() { #ifdef EXAMPLE_DEBUG_ONLY // Test for Debug only examples #ifndef IW_DEBUG DisplayMessage("This example is designed to run from a Debug build. Please build the example in Debug mode and run it again."); return 0; #endif #endif IwGxInit(); //IwResManagerInit(); //IwGxFontInit(); // Set screen clear colour IwGxSetColClear(0xff, 0xff, 0xff, 0xff); // white background IwGxPrintSetColour(0, 0, 0); // black font // Determine if the device has a keyboard if (s3eKeyboardGetInt(S3E_KEYBOARD_HAS_KEYPAD) || s3eKeyboardGetInt(S3E_KEYBOARD_HAS_ALPHA)) g_DeviceHasKeyboard = true; // User code init ExampleInit(); }
//--------------------------------------------------------------------- // Display an error box for a given return value. // // Since these may be classes or integers, it needs // to account for both and dump as much information // as possible. // \param resultCode - result code to display info from void CATApp::DisplayError(const CATResult& resultCode, CATWindow* wnd) { if (resultCode == CAT_SUCCESS) return; CATString errorString = gApp->GetString(resultCode); // If the result strings are a class, provide additional // information #ifdef CAT_RESULT_AS_CLASS CATString additionalInfo = resultCode.GetDescription(); if (additionalInfo.IsEmpty() == false) { errorString << kCRLF << additionalInfo; } additionalInfo = resultCode.GetFileError(); if (additionalInfo.IsEmpty() == false) { errorString << kCRLF << "File: " << additionalInfo; } errorString << kCRLF << "Source: " << resultCode.GetFilename() << " ( Line " << resultCode.GetLineNumber() << " )"; #endif DisplayMessage(errorString,wnd); }
logical sODC_Project :: ExecuteFunction (char *fname, logical chk_opt ) { char actname[ID_SIZE]; cfte *cfteptr; logical term = NO; BEGINSEQ static cfte acttbl[] = { cfte("GenerateCompile",ALINK(this,sODC_Project,GenerateCompile)), cfte("GetCompileCommand",ALINK(this,sODC_Project,GetCompileCommand)), cfte("GetLinkCommand",ALINK(this,sODC_Project,GetLinkCommand)), cfte("GetProjectPath",ALINK(this,sODC_Project,GetProjectPath)), cfte("InitializeExternalResources",ALINK(this,sODC_Project,InitializeExternalResources)), cfte("SetupReferences",ALINK(this,sODC_Project,SetupReferences)), }; static srt cftesrt(sizeof(acttbl)/CFTE,CFTE,UNDEF,UNDEF,UNDEF,(char *)acttbl,NO); if ( !cftesrt.srtkln() ) cftesrt.srtsor(CFTE_KPS,CFTE_KLN,CFTE_KTP); if ( cfteptr = (cfte *)cftesrt.srtigt(cftesrt.srtssr(gvtxstb(actname,fname,ID_SIZE))) ) { if ( chk_opt ) LEAVESEQ term = cfteptr->ActionCall(this); } else term = CTX_Structure::ExecuteFunction(fname,chk_opt); if ( term && !chk_opt ) DisplayMessage(); ENDSEQ return(term); }
//----------------------------------------------------------------------------- // Main global function //----------------------------------------------------------------------------- int main() { #ifdef EXAMPLE_DEBUG_ONLY // Test for Debug only examples #ifndef IW_DEBUG DisplayMessage("This example is designed to run from a Debug build. Please build the example in Debug mode and run it again."); return 0; #endif #endif //IwGx can be initialised in a number of different configurations to help the linker eliminate unused code. //Normally, using IwGxInit() is sufficient. //To only include some configurations, see the documentation for IwGxInit_Base(), IwGxInit_GLRender() etc. IwGxInit(); // Example main loop ExampleInit(); // Set screen clear colour IwGxSetColClear(0xff, 0xff, 0xff, 0xff); IwGxPrintSetColour(128, 128, 128); while (1) { s3eDeviceYield(0); s3eKeyboardUpdate(); s3ePointerUpdate(); int64 start = s3eTimerGetMs(); bool result = ExampleUpdate(); if ( (result == false) || (s3eKeyboardGetState(s3eKeyEsc) & S3E_KEY_STATE_DOWN) || (s3eKeyboardGetState(s3eKeyAbsBSK) & S3E_KEY_STATE_DOWN) || (s3eDeviceCheckQuitRequest()) ) break; // Clear the screen IwGxClear(IW_GX_COLOUR_BUFFER_F | IW_GX_DEPTH_BUFFER_F); RenderButtons(); RenderSoftkeys(); ExampleRender(); // Attempt frame rate while ((s3eTimerGetMs() - start) < MS_PER_FRAME) { int32 yield = (int32) (MS_PER_FRAME - (s3eTimerGetMs() - start)); if (yield<0) break; s3eDeviceYield(yield); } } ExampleShutDown(); DeleteButtons(); IwGxTerminate(); return 0; }
/* * DisplayServerMessage: Display message from server, extracting any style or color codes. * color and style give default style and color values. */ void DisplayServerMessage(char *message, COLORREF start_color, BYTE start_style) { EditBoxStartAdd(); DisplayMessage(message, start_color, start_style); EditBoxEndAdd(); }
unsigned int WINAPI ComThread(void* pParam) { SOCKET clientsock = (SOCKET) pParam; SOCKADDR_IN clientaddr; int recvByte; char buf[BUFFERSIZE]; while(1) { recvByte = recv(clientsock, buf, sizeof(buf), 0); if(recvByte == SOCKET_ERROR) { DisplayMessage(); break; } else if(recvByte == 0) { DisplayMessage(); break; } else { int addrlen = sizeof(clientaddr); int retval = getpeername(clientsock, (SOCKADDR*)&clientaddr, &addrlen); if(retval == SOCKET_ERROR) { DisplayMessage(); continue; } buf[recvByte] = '\0'; printf("[TCP 서버] IP: %s, Port=%d의 메시지:%s\n", inet_ntoa(clientaddr.sin_addr), ntohs(clientaddr.sin_port), buf); retval = send(clientsock, buf, recvByte, 0); if(retval == SOCKET_ERROR) { DisplayMessage(); break; } } } closesocket(clientsock); printf("\n[TCP 서버] 클라이언트 종료: IP주소=%s,포트번호=%d", inet_ntoa(clientaddr.sin_addr), ntohs(clientaddr.sin_port)); return 0; }
bool rr::CheckQValueBeforeStart() { if(!l.empty()) { qSort(l.begin(),l.end()); if(iTimeQuantum == 0) { DisplayMessage(QVALUE_ZERO); return false; } else if(iTimeQuantum > l.first()) { DisplayMessage(QVALUE_OUT_RANGE); return false; } return true; } }
short MoreForm :: Init() { if (ip->name.Length() == 0) DisplayMessage("Please enter some info about yourself"); SetValError(0); (ThisThread->HelpInstance())->SetActiveWindow(this); return 0; }
int HandleCommand ( WORD index ) { char sMsg[80]; if (index > 0x100 && index < 0x200) { switch(index) { case 0x101: DisplayMessage("Start all tasks just now ..."); StartAllTasks(); break; case 0x102: DisplayMessage("Stop all tasks just now ..."); StopAllTasks(); break; } } else if (index > 0x00 && index <= 0x0a) { if (sRunning[index - 1]) { sprintf(sMsg, "Suspend task%d just now ...", index); DisplayMessage(sMsg); OSTaskSuspend(index); sRunning[index - 1] = 0x00; } else { sprintf(sMsg, "Resume task%d just now ...", index); DisplayMessage(sMsg); OSTaskResume(index); sRunning[index - 1] = 0x01; } } else if (index > 0x200) { if (index == 0x201) DoHelp(); else if (index == 0x202) DoAbout(); } return 0x00; }
int main(int argc, char* argv[]) { WSADATA wsa; if(WSAStartup(MAKEWORD(2, 2), &wsa) != 0) { printf("윈도우 소켓 초기화 실패! \n"); return -1; } // (socket + bind + listen) if(!CreateListenSocket()) { printf("대기 소켓 생성 실패\n"); return -1; } // 서버처리 //=================================================== int index = 0; WSANETWORKEVENTS neEvents; while(1) { // 이벤트 시그널 감지 index = WSAWaitForMultipleEvents(g_SockCnt, EventList, FALSE, WSA_INFINITE, FALSE); index -= WSA_WAIT_EVENT_0; // 이벤트 내용 가져오기 + EventList[index] 이벤트를 넌시그날로 변경 WSAEnumNetworkEvents( SockList[index], EventList[index], &neEvents); if(neEvents.lNetworkEvents & FD_ACCEPT) { EVENTERRORCHECK(neEvents, FD_ACCEPT_BIT); if(AddClient(index) != true) continue; } else if(neEvents.lNetworkEvents & FD_READ || neEvents.lNetworkEvents & FD_WRITE) { if(neEvents.iErrorCode[FD_READ_BIT] != 0 && neEvents.iErrorCode[FD_WRITE_BIT] != 0) { DisplayMessage(); return -1; } RecvClient(index); } else if(neEvents.lNetworkEvents & FD_CLOSE) { EVENTERRORCHECK(neEvents, FD_CLOSE_BIT); DeleteClient(index); } } //=================================================== WSACleanup(); return 0; }
bool CESTrackFunctions::OnCompileCommand(const char* sCommandLine) { if (!strcmp(sCommandLine, ".fpt")) { CleanFlightPlan(); return true; } if (!strcmp(sCommandLine, ".autodrop")) { autoDrop = (autoDrop == 1 ? 0 : 1); SaveDataToSettings(SETTING_AUTODROP, "Drop Track for landing AC", (autoDrop == 1 ? "1" : "0")); if (autoDrop == 1) DisplayMessage("AutoDrop ON", "Info"); else DisplayMessage("AutoDrop OFF", "Info"); return true; } return false; }
// // rhp: Right now, this is the same as simple DisplayMessage, but it will change // to support print rendering. // NS_IMETHODIMP MailEwsMsgMessageService::DisplayMessageForPrinting(const char *aMessageURI, nsISupports *aDisplayConsumer, nsIMsgWindow *aMsgWindow, nsIUrlListener *aUrlListener, nsIURI **aURL) { mPrintingOperation = true; nsresult rv = DisplayMessage(aMessageURI, aDisplayConsumer, aMsgWindow, aUrlListener, nullptr, aURL); mPrintingOperation = false; return rv; }