void
ase_install_malloc_hook()
{
_set_new_mode(1);
_set_new_handler(mhook_handle_oom);
}
int main(int argc,char*argv[]) {
#ifdef _DEBUG
Test_DoAllTests();
#endif
int res;
main_init();
res = main_preprocess_cmdline(argc, argv);
if (res != RETURN_CONTINUE) {
return res;
}
initialize_debug_system();
Out::FPrint("Adventure Game Studio v%s Interpreter\n"
"Copyright (c) 1999-2011 Chris Jones and 2011-2014 others\n"
#ifdef BUILD_STR
"ACI version %s (Build: %s)\n",
EngineVersion.ShortString.GetCStr(), EngineVersion.LongString.GetCStr(), EngineVersion.BuildInfo.GetCStr());
#else
"ACI version %s\n", EngineVersion.ShortString.GetCStr(), EngineVersion.LongString.GetCStr());
#endif
if ((argc>1) && (stricmp(argv[1],"--help") == 0 || argv[1][1]=='?')) {
main_print_help();
return 0;
}
Out::FPrint("*** ENGINE STARTUP ***");
#if defined(WINDOWS_VERSION)
_set_new_handler(malloc_fail_handler);
_set_new_mode(1);
printfworkingspace=(char*)malloc(7000);
#endif
debug_flags=0;
res = main_process_cmdline(argc, argv);
if (res != RETURN_CONTINUE) {
return res;
}
main_init_crt_report();
main_set_gamedir(argc, argv);
// Update shell associations and exit
if (debug_flags & DBG_REGONLY)
exit(0);
#ifndef USE_CUSTOM_EXCEPTION_HANDLER
usetup.disable_exception_handling = 1;
#endif
if (usetup.disable_exception_handling)
{
int result = initialize_engine(argc, argv);
platform->PostAllegroExit();
return result;
}
else
{
return initialize_engine_with_exception_handling(argc, argv);
}
}
void DoMain (HINSTANCE hInstance)
{
LONG WinWidth, WinHeight;
int height, width, x, y;
RECT cRect;
TIMECAPS tc;
DEVMODE displaysettings;
try
{
#ifdef _MSC_VER
_set_new_handler (NewFailure);
#endif
Args = new DArgs(__argc, __argv);
// Under XP, get our session ID so we can know when the user changes/locks sessions.
// Since we need to remain binary compatible with older versions of Windows, we
// need to extract the ProcessIdToSessionId function from kernel32.dll manually.
HMODULE kernel = GetModuleHandle ("kernel32.dll");
if (Args->CheckParm("-stdout"))
{
// As a GUI application, we don't normally get a console when we start.
// If we were run from the shell and are on XP+, we can attach to its
// console. Otherwise, we can create a new one. If we already have a
// stdout handle, then we have been redirected and should just use that
// handle instead of creating a console window.
StdOut = GetStdHandle(STD_OUTPUT_HANDLE);
if (StdOut != NULL)
{
// It seems that running from a shell always creates a std output
// for us, even if it doesn't go anywhere. (Running from Explorer
// does not.) If we can get file information for this handle, it's
// a file or pipe, so use it. Otherwise, pretend it wasn't there
// and find a console to use instead.
BY_HANDLE_FILE_INFORMATION info;
if (!GetFileInformationByHandle(StdOut, &info))
{
StdOut = NULL;
}
}
if (StdOut == NULL)
{
// AttachConsole was introduced with Windows XP. (OTOH, since we
// have to share the console with the shell, I'm not sure if it's
// a good idea to actually attach to it.)
typedef BOOL (WINAPI *ac)(DWORD);
ac attach_console = kernel != NULL ? (ac)GetProcAddress(kernel, "AttachConsole") : NULL;
if (attach_console != NULL && attach_console(ATTACH_PARENT_PROCESS))
{
StdOut = GetStdHandle(STD_OUTPUT_HANDLE);
DWORD foo; WriteFile(StdOut, "\n", 1, &foo, NULL);
AttachedStdOut = true;
}
if (StdOut == NULL && AllocConsole())
{
StdOut = GetStdHandle(STD_OUTPUT_HANDLE);
}
FancyStdOut = true;
}
}
// Set the timer to be as accurate as possible
if (timeGetDevCaps (&tc, sizeof(tc)) != TIMERR_NOERROR)
TimerPeriod = 1; // Assume minimum resolution of 1 ms
else
TimerPeriod = tc.wPeriodMin;
timeBeginPeriod (TimerPeriod);
/*
killough 1/98:
This fixes some problems with exit handling
during abnormal situations.
The old code called I_Quit() to end program,
while now I_Quit() is installed as an exit
handler and exit() is called to exit, either
normally or abnormally.
*/
atexit (call_terms);
atterm (I_Quit);
// Figure out what directory the program resides in.
char *program;
#ifdef _MSC_VER
if (_get_pgmptr(&program) != 0)
{
I_FatalError("Could not determine program location.");
}
#else
char progbuff[1024];
GetModuleFileName(0, progbuff, sizeof(progbuff));
progbuff[1023] = '\0';
program = progbuff;
#endif
progdir = program;
program = progdir.LockBuffer();
*(strrchr(program, '\\') + 1) = '\0';
FixPathSeperator(program);
progdir.Truncate((long)strlen(program));
progdir.UnlockBuffer();
width = 512;
height = 384;
// Many Windows structures that specify their size do so with the first
// element. DEVMODE is not one of those structures.
memset (&displaysettings, 0, sizeof(displaysettings));
displaysettings.dmSize = sizeof(displaysettings);
EnumDisplaySettings (NULL, ENUM_CURRENT_SETTINGS, &displaysettings);
x = (displaysettings.dmPelsWidth - width) / 2;
y = (displaysettings.dmPelsHeight - height) / 2;
if (Args->CheckParm ("-0"))
{
x = y = 0;
}
WNDCLASS WndClass;
WndClass.style = 0;
WndClass.lpfnWndProc = LConProc;
WndClass.cbClsExtra = 0;
WndClass.cbWndExtra = 0;
WndClass.hInstance = hInstance;
WndClass.hIcon = LoadIcon (hInstance, MAKEINTRESOURCE(IDI_ICON1));
WndClass.hCursor = LoadCursor (NULL, IDC_ARROW);
WndClass.hbrBackground = NULL;
WndClass.lpszMenuName = NULL;
WndClass.lpszClassName = (LPCTSTR)WinClassName;
/* register this new class with Windows */
if (!RegisterClass((LPWNDCLASS)&WndClass))
I_FatalError ("Could not register window class");
/* create window */
char caption[100];
mysnprintf(caption, countof(caption), "" GAMESIG " %s " X64 " (%s)", GetVersionString(), GetGitTime());
Window = CreateWindowEx(
WS_EX_APPWINDOW,
(LPCTSTR)WinClassName,
(LPCTSTR)caption,
WS_OVERLAPPEDWINDOW | WS_VISIBLE | WS_CLIPCHILDREN,
x, y, width, height,
(HWND) NULL,
(HMENU) NULL,
hInstance,
NULL);
if (!Window)
I_FatalError ("Could not open window");
if (kernel != NULL)
{
typedef BOOL (WINAPI *pts)(DWORD, DWORD *);
pts pidsid = (pts)GetProcAddress (kernel, "ProcessIdToSessionId");
if (pidsid != 0)
{
if (!pidsid (GetCurrentProcessId(), &SessionID))
{
SessionID = 0;
}
hwtsapi32 = LoadLibraryA ("wtsapi32.dll");
if (hwtsapi32 != 0)
{
FARPROC reg = GetProcAddress (hwtsapi32, "WTSRegisterSessionNotification");
if (reg == 0 || !((BOOL(WINAPI *)(HWND, DWORD))reg) (Window, NOTIFY_FOR_THIS_SESSION))
{
FreeLibrary (hwtsapi32);
hwtsapi32 = 0;
}
else
{
atterm (UnWTS);
}
}
}
}
GetClientRect (Window, &cRect);
WinWidth = cRect.right;
WinHeight = cRect.bottom;
CoInitialize (NULL);
atterm (UnCOM);
C_InitConsole (((WinWidth / 8) + 2) * 8, (WinHeight / 12) * 8, false);
I_DetectOS ();
D_DoomMain ();
}
catch (class CNoRunExit &)
{
I_ShutdownGraphics();
if (FancyStdOut && !AttachedStdOut)
{ // Outputting to a new console window: Wait for a keypress before quitting.
DWORD bytes;
HANDLE stdinput = GetStdHandle(STD_INPUT_HANDLE);
ShowWindow (Window, SW_HIDE);
WriteFile(StdOut, "Press any key to exit...", 24, &bytes, NULL);
FlushConsoleInputBuffer(stdinput);
SetConsoleMode(stdinput, 0);
ReadConsole(stdinput, &bytes, 1, &bytes, NULL);
}
else if (StdOut == NULL)
{
ShowErrorPane(NULL);
}
exit(0);
}
catch (class CDoomError &error)
{
I_ShutdownGraphics ();
RestoreConView ();
if (error.GetMessage ())
{
ShowErrorPane (error.GetMessage());
}
exit (-1);
}
}
}
#endif
// ------ MEMORY MANAGEMENT HANDLER
#ifndef NEED_DJVU_MEMORY
// This is not activated when C++ memory management
// is overidden. The overriding functions handle
// memory exceptions by themselves.
# if defined(_MSC_VER)
// Microsoft is different!
static int throw_memory_error(size_t) { G_THROW(GException::outofmemory); return 0; }
static int (*old_handler)(size_t) = _set_new_handler(throw_memory_error);
# else // !_MSC_VER
// Standard C++
static void throw_memory_error() { G_THROW(GException::outofmemory); }
# if !defined(WIN32) && !defined(__CYGWIN32__) && !defined(OS2)
# ifdef HAVE_STDINCLUDES
//static void (*old_handler)() = std::set_new_handler(throw_memory_error);
# else
static void (*old_handler)() = set_new_handler(throw_memory_error);
# endif // HAVE_STDINCLUDES
# endif // ! WIN32
# endif // !_MSC_VER
#endif // !NEED_DJVU_MEMORY
#ifdef HAVE_NAMESPACES
void InstallAllocationFunctions()
{
_set_new_mode( 1 ); // so if malloc() fails, we exit.
_set_new_handler( CmdLib_NewHandler );
}
int CCrashHandler::SetProcessExceptionHandlers(DWORD dwFlags)
{
crSetErrorMsg(_T("Unspecified error."));
// If 0 is specified as dwFlags, assume all handlers should be
// installed
if((dwFlags&0x1FF)==0)
dwFlags |= 0x1FFF;
if(dwFlags&CR_INST_STRUCTURED_EXCEPTION_HANDLER)
{
// Install top-level SEH handler
m_oldSehHandler = SetUnhandledExceptionFilter(SehHandler);
}
_set_error_mode(_OUT_TO_STDERR);
#if _MSC_VER>=1300
if(dwFlags&CR_INST_PURE_CALL_HANDLER)
{
// Catch pure virtual function calls.
// Because there is one _purecall_handler for the whole process,
// calling this function immediately impacts all threads. The last
// caller on any thread sets the handler.
// http://msdn.microsoft.com/en-us/library/t296ys27.aspx
m_prevPurec = _set_purecall_handler(PureCallHandler);
}
if(dwFlags&CR_INST_NEW_OPERATOR_ERROR_HANDLER)
{
// Catch new operator memory allocation exceptions
_set_new_mode(1); // Force malloc() to call new handler too
m_prevNewHandler = _set_new_handler(NewHandler);
}
#endif
#if _MSC_VER>=1400
if(dwFlags&CR_INST_INVALID_PARAMETER_HANDLER)
{
// Catch invalid parameter exceptions.
m_prevInvpar = _set_invalid_parameter_handler(InvalidParameterHandler);
}
#endif
#if _MSC_VER>=1300 && _MSC_VER<1400
if(dwFlags&CR_INST_SECURITY_ERROR_HANDLER)
{
// Catch buffer overrun exceptions
// The _set_security_error_handler is deprecated in VC8 C++ run time library
m_prevSec = _set_security_error_handler(SecurityHandler);
}
#endif
// Set up C++ signal handlers
if(dwFlags&CR_INST_SIGABRT_HANDLER)
{
#if _MSC_VER>=1400
_set_abort_behavior(_CALL_REPORTFAULT, _CALL_REPORTFAULT);
#endif
// Catch an abnormal program termination
m_prevSigABRT = signal(SIGABRT, SigabrtHandler);
}
if(dwFlags&CR_INST_SIGILL_HANDLER)
{
// Catch illegal instruction handler
m_prevSigINT = signal(SIGINT, SigintHandler);
}
if(dwFlags&CR_INST_TERMINATE_HANDLER)
{
// Catch a termination request
m_prevSigTERM = signal(SIGTERM, SigtermHandler);
}
crSetErrorMsg(_T("Success."));
return 0;
}
/**
* @brief Initializes the application.
*/
bool App::OnInit()
{
// initialize wxWidgets
SetAppName(wxT("UltraDefrag"));
wxInitAllImageHandlers();
if(!wxApp::OnInit())
return false;
// initialize udefrag library
if(::udefrag_init_library() < 0){
wxLogError(wxT("Initialization failed!"));
return false;
}
// set out of memory handler
#if !defined(__GNUC__)
winx_set_killer(out_of_memory_handler);
_set_new_handler(out_of_memory_handler);
_set_new_mode(1);
#endif
// initialize debug log
wxFileName logpath(wxT(".\\logs\\ultradefrag.log"));
logpath.Normalize();
wxSetEnv(wxT("UD_LOG_FILE_PATH"),logpath.GetFullPath());
::udefrag_set_log_file_path();
// initialize logging
m_log = new Log();
// use global config object for internal settings
wxFileConfig *cfg = new wxFileConfig(wxT(""),wxT(""),
wxT("gui.ini"),wxT(""),wxCONFIG_USE_RELATIVE_PATH);
wxConfigBase::Set(cfg);
// enable i18n support
InitLocale();
// save report translation on setup
wxString cmdLine(GetCommandLine());
if(cmdLine.Find(wxT("--setup")) != wxNOT_FOUND){
SaveReportTranslation();
::winx_flush_dbg_log(0);
delete m_log;
return false;
}
// start web statistics
m_statThread = new StatThread();
// check for administrative rights
if(!Utils::CheckAdminRights()){
wxMessageDialog dlg(NULL,
wxT("Administrative rights are needed to run the program!"),
wxT("UltraDefrag"),wxOK | wxICON_ERROR
);
dlg.ShowModal(); Cleanup();
return false;
}
// create synchronization event
g_synchEvent = ::CreateEvent(NULL,TRUE,FALSE,NULL);
if(!g_synchEvent){
letrace("cannot create synchronization event");
wxMessageDialog dlg(NULL,
wxT("Cannot create synchronization event!"),
wxT("UltraDefrag"),wxOK | wxICON_ERROR
);
dlg.ShowModal(); Cleanup();
return false;
}
// keep things DPI-aware
HDC hdc = ::GetDC(NULL);
if(hdc){
g_scaleFactor = (double)::GetDeviceCaps(hdc,LOGPIXELSX) / 96.0f;
::ReleaseDC(NULL,hdc);
}
g_iconSize = wxSystemSettings::GetMetric(wxSYS_SMALLICON_X);
if(g_iconSize < 20) g_iconSize = 16;
else if(g_iconSize < 24) g_iconSize = 20;
else if(g_iconSize < 32) g_iconSize = 24;
else g_iconSize = 32;
// support taskbar icon overlay setup on shell restart
g_TaskbarIconMsg = ::RegisterWindowMessage(wxT("TaskbarButtonCreated"));
if(!g_TaskbarIconMsg) letrace("cannot register TaskbarButtonCreated message");
// create main window
g_mainFrame = new MainFrame();
g_mainFrame->Show(true);
SetTopWindow(g_mainFrame);
return true;
}
my_new_handler_obj()
{
//_old_new_mode = _set_new_mode(1); // cause malloc to throw like new
_old_new_handler = _set_new_handler(my_new_handler);
}
~my_new_handler_obj()
{
_set_new_handler(_old_new_handler);
//_set_new_mode(_old_new_mode);
}
int main(int argc, char**argv) {
long inframes,framesread=0,total_framesread;
double maxsamp = 0.0,startpos = 0.0,endpos;
long startframe = 0,endframe;
long halfsecframes = 0;
int i,j,ifd = -1;
int chans;
int do_norm = 0;
PSF_PROPS inprops;
CH_RMSINFO* rmsinfo = NULL;
double* rmsfac = 0;
double* ampsum = 0;
double* ampsumb = 0;
double* inbuf = 0;
double* nrmsfac = 0;
double* nampsum = 0;
/* CDP version number */
if(argc==2 && (stricmp(argv[1],"--version")==0)){
printf("1.0.1\n");
return 0;
}
#ifdef WIN32
# if _MSC_VER && _MSC_VER <= 1200
_set_new_handler( newhandler );
# endif
#endif
if(psf_init()){
puts("unable to start portsf\n");
return 1;
}
if(argc < 2){
usage();
return(1);
}
while(argv[1][0]=='-'){
switch(argv[1][1]){
case 'n':
do_norm = 1;
break;
default:
fprintf(stderr, "Unrecognised flag option %s\n",argv[1]);
return 1;
}
argc--; argv++;
}
if(argc < 2){
usage();
return(1);
}
if((ifd = psf_sndOpen(argv[ARG_INFILE],&inprops, 0)) < 0){
fprintf(stderr,"\nUnable to open input soundfile %s",argv[ARG_INFILE]);
return(1);
}
inframes = psf_sndSize(ifd); // m/c frames
endframe = inframes;
if(inframes <= 0)
return 0;
if(argc >= 3) {
long lpos;
startpos = atof(argv[ARG_INFILE+1]);
if(startpos < 0.0){
fprintf(stderr,"Error: startpos must be positive\n");
return 1;
}
lpos = (long)( startpos * inprops.srate);
if(lpos > inframes){
fprintf(stderr,"Error: startpos value beyond end of file.\n");
return 1;
}
startframe = lpos;
}
if(argc >= 4) {
long lpos;
endpos = atof(argv[ARG_INFILE+2]);
lpos = (long)(endpos * inprops.srate);
if(lpos > inframes){
fprintf(stderr,"Warning: endpos value too large - reset to end of file.\n");
return 1;
}
endframe = lpos;
if(!(endframe > startframe)){
fprintf(stderr,"Error: endpos must be beyond startpos.\n");
return 1;
}
}
if(startframe)
printf("Starting at frame %ld, ending at frame %ld\n",startframe, endframe);
chans = inprops.chans;
try {
inbuf = new double[BUFLEN * chans];
rmsinfo = new CH_RMSINFO[chans];
rmsfac = new double[chans];
ampsum = new double[chans];
ampsumb = new double[chans];
nrmsfac = new double[chans];
nampsum = new double[chans];
}
catch(...){
fputs("no memory!\n",stderr);
return 1;
}
for(i=0; i < chans; i++){
rmsfac[i] = 0.0;
ampsum[i] = 0.0;
ampsumb[i] = 0.0;
nrmsfac[i] = 0.0;
nampsum[i] = 0.0;
}
halfsecframes = inprops.srate / 2;
signal(SIGINT,runhandler);
long wanted = endframe - startframe;
printf("Scanning %ld frames (%.3lf secs):\n",wanted, (double)wanted / inprops.srate);
total_framesread = 0;
if(startframe) {
if(psf_sndSeek(ifd,startframe,PSF_SEEK_SET)){
fprintf(stderr,"File Seek error.\n");
return 1;
}
}
while((framesread = psf_sndReadDoubleFrames(ifd,inbuf,BUFLEN)) > 0){
double fval;
for(i = 0;i < framesread;i++) {
for(j = 0; j < chans; j++){
double val = inbuf[i*chans + j];
fval = fabs(val);
maxsamp = fval > maxsamp ? fval : maxsamp;
ampsum[j] += fval;
rmsfac[j] += val*val;
ampsumb[j] += val;
}
total_framesread++;
if(scanning==0)
break;
if(total_framesread == wanted)
break;
if((total_framesread % halfsecframes) == 0){
printf("%.2lf\r",total_framesread / (double) inprops.srate);
fflush(stdout);
}
}
if(total_framesread == wanted) {
break;
}
}
if(framesread < 0){
fprintf(stderr,"Error reading file.\n");
return 1;
}
for(i=0;i < chans;i++){
rmsfac[i] /= total_framesread;
rmsfac[i] = sqrt(rmsfac[i]);
ampsum[i] /= total_framesread;
ampsumb[i] /= total_framesread;
}
double normfac = 1.0 / maxsamp;
if(scanning==0)
printf("\nScan stopped.\n");
if(total_framesread < inframes){
printf("Scanned %ld frames (%.2lf secs).\n",total_framesread,total_framesread / (double)inprops.srate);
}
printf("Maximum sample = %lf (%.2lfdB)\n",maxsamp,20.0 * log10(maxsamp));
printf("Maximum normalisation factor = %.4f\n",normfac);
for(i=0;i < chans;i++){
rmsinfo[i].rmspower = rmsfac[i];
rmsinfo[i].abssum = ampsum[i];
rmsinfo[i].bisum = ampsumb[i];
rmsinfo[i].norm_rms = normfac * rmsfac[i];
rmsinfo[i].norm_abssum = normfac * ampsum[i];
}
if(do_norm){
printf("\t RMS LEVEL\t AVG \t NET DC\t NORM RMS\t NORM AVG\n");
printf("CH\t AMP\t DB\t AMP\t DB\t AMP\t DB\t AMP\t DB\t AMP\t DB \n");
}
else{
printf("\t RMS LEVEL\t AVG \t NET DC\n");
printf("CH\t AMP\t DB\t AMP\t DB\t AMP\t DB\n");
}
for(i=0;i < chans;i++){
double d1,d2,d3,d4,d5;
d1 = 20*log10(rmsfac[i]);
d2 = 20*log10(ampsum[i]);
d3 = 20*log10(fabs(ampsumb[i]));
d4 = 20*log10(normfac * rmsfac[i]);
d5 = 20*log10(normfac * ampsum[i]);
if(do_norm){
printf("%d\t%.5lf\t%.2lf\t%.5lf\t%.2lf\t%+.4lf\t%.2lf\t%.5lf\t%.2lf\t%.5lf\t%.2lf\n",i+1,
rmsinfo[i].rmspower,d1,
rmsinfo[i].abssum,d2,
rmsinfo[i].bisum,d3,
rmsinfo[i].norm_rms,d4,
rmsinfo[i].norm_abssum,d5
);
}
else {
printf("%d\t%.5lf\t%.2lf\t%.5lf\t%.2lf\t%+.4lf\t%.2lf\n",i+1,
rmsinfo[i].rmspower,d1,
rmsinfo[i].abssum,d2,
rmsinfo[i].bisum,d3
);
}
}
delete [] inbuf;
delete [] rmsfac;
delete [] ampsum;
delete [] ampsumb;
delete [] rmsinfo;
psf_sndClose(ifd);
psf_finish();
return 0;
}
extern "C" BOOL WINAPI
DllMain(HINSTANCE hInstance, DWORD dwReason, LPVOID)
{
CWinApp* pApp = AfxGetApp();
if (dwReason == DLL_PROCESS_ATTACH)
{
// initialize MFC exception handling
#ifndef _AFX_OLD_EXCEPTIONS
set_terminate(&AfxStandardTerminate);
#endif
_set_new_handler(&AfxNewHandler);
// initialize DLL's instance(/module) not the app's
if (!AfxWinInit(hInstance, NULL, &afxChNil, 0))
{
AfxWinTerm();
return FALSE; // Init Failed
}
// initialize the single instance DLL
if (pApp != NULL && !pApp->InitInstance())
{
pApp->ExitInstance();
AfxWinTerm();
return FALSE; // Init Failed
}
}
else if (dwReason == DLL_PROCESS_DETACH)
{
if (pApp != NULL)
pApp->ExitInstance();
#ifdef _DEBUG
// check for missing AfxLockTempMap calls
if (AfxGetThreadState()->m_nTempMapLock != 0)
TRACE1("Warning: Temp map lock count non-zero (%ld).\n",
AfxGetThreadState()->m_nTempMapLock);
#endif
// terminate the library before destructors are called
AfxWinTerm();
// free safety pool buffer
AFX_THREAD_STATE* pThreadState = AfxGetThreadState();
if (pThreadState->m_pSafetyPoolBuffer != NULL)
{
free(pThreadState->m_pSafetyPoolBuffer);
pThreadState->m_pSafetyPoolBuffer = NULL;
}
#ifdef _DEBUG
// trace any memory leaks that may have occurred
AfxDumpMemoryLeaks();
#endif
// clean up map objects before it is too late
delete pThreadState->m_pmapHWND;
pThreadState->m_pmapHWND = NULL;
delete pThreadState->m_pmapHMENU;
pThreadState->m_pmapHMENU = NULL;
delete pThreadState->m_pmapHDC;
pThreadState->m_pmapHDC = NULL;
delete pThreadState->m_pmapHGDIOBJ;
pThreadState->m_pmapHGDIOBJ = NULL;
delete pThreadState->m_pmapHIMAGELIST;
pThreadState->m_pmapHIMAGELIST = NULL;
pThreadState->m_mapSocketHandle.CMapPtrToPtr::~CMapPtrToPtr();
pThreadState->m_mapDeadSockets.CMapPtrToPtr::~CMapPtrToPtr();
pThreadState->m_listSocketNotifications.CPtrList::~CPtrList();
}
return TRUE; // ok
}
void DoMain (HINSTANCE hInstance)
{
LONG WinWidth, WinHeight;
int height, width;
RECT cRect;
TIMECAPS tc;
try
{
#ifdef _MSC_VER
_set_new_handler (NewFailure);
#endif
Args.SetArgs (__argc, __argv);
// Under XP, get our session ID so we can know when the user changes/locks sessions.
// Since we need to remain binary compatible with older versions of Windows, we
// need to extract the ProcessIdToSessionId function from kernel32.dll manually.
HMODULE kernel = GetModuleHandle ("kernel32.dll");
// NASM does not support creating writeable code sections (even though this
// is a perfectly valid configuration for Microsoft's COFF format), so I
// need to make the self-modifying code writeable after it's already loaded.
#ifdef USEASM
{
BYTE *module = (BYTE *)GetModuleHandle (NULL);
IMAGE_DOS_HEADER *dosHeader = (IMAGE_DOS_HEADER *)module;
IMAGE_NT_HEADERS *ntHeaders = (IMAGE_NT_HEADERS *)(module + dosHeader->e_lfanew);
IMAGE_SECTION_HEADER *sections = IMAGE_FIRST_SECTION (ntHeaders);
int i;
LPVOID *start = NULL;
SIZE_T size = 0;
DWORD oldprotect;
for (i = 0; i < ntHeaders->FileHeader.NumberOfSections; ++i)
{
if (memcmp (sections[i].Name, ".rtext\0", 8) == 0)
{
start = (LPVOID *)(sections[i].VirtualAddress + module);
size = sections[i].Misc.VirtualSize;
break;
}
}
// I think these pages need to be mapped PAGE_EXECUTE_WRITECOPY (based on the
// description of PAGE_WRITECOPY), but PAGE_EXECUTE_READWRITE seems to work
// just as well; two instances of the program can be running with different
// resolutions at the same time either way. Perhaps the file mappings for
// executables are created with PAGE_WRITECOPY, so any attempts to give them
// write access are automatically transformed to copy-on-write?
//
// This used to be PAGE_EXECUTE_WRITECOPY until Timmie found out Win9x doesn't
// support it, although the MSDN does not indicate it.
if (!VirtualProtect (start, size, PAGE_EXECUTE_READWRITE, &oldprotect))
{
I_FatalError ("The self-modifying code section code not be made writeable.");
}
}
#endif
// Set the timer to be as accurate as possible
if (timeGetDevCaps (&tc, sizeof(tc)) != TIMERR_NOERROR)
TimerPeriod = 1; // Assume minimum resolution of 1 ms
else
TimerPeriod = tc.wPeriodMin;
timeBeginPeriod (TimerPeriod);
/*
killough 1/98:
This fixes some problems with exit handling
during abnormal situations.
The old code called I_Quit() to end program,
while now I_Quit() is installed as an exit
handler and exit() is called to exit, either
normally or abnormally.
*/
atexit (call_terms);
atterm (I_Quit);
// Figure out what directory the program resides in.
GetModuleFileName (NULL, progdir, 1024);
*(strrchr (progdir, '\\') + 1) = 0;
FixPathSeperator (progdir);
// [BC] When hosting, spawn a console dialog box instead of creating a window.
if ( Args.CheckParm( "-host" ))
{
// This never returns.
DialogBox( g_hInst, MAKEINTRESOURCE( IDD_SERVERDIALOG ), NULL/*(HWND)Window*/, SERVERCONSOLE_ServerDialogBoxCallback );
}
else
{
height = GetSystemMetrics (SM_CYFIXEDFRAME) * 2 +
GetSystemMetrics (SM_CYCAPTION) + 12 * 32;
width = GetSystemMetrics (SM_CXFIXEDFRAME) * 2 + 8 * 78;
TheInvisibleCursor = LoadCursor (hInstance, MAKEINTRESOURCE(IDC_INVISIBLECURSOR));
TheArrowCursor = LoadCursor (NULL, IDC_ARROW);
WndClass.style = 0;
WndClass.lpfnWndProc = WndProc;
WndClass.cbClsExtra = 0;
WndClass.cbWndExtra = 0;
WndClass.hInstance = hInstance;
WndClass.hIcon = LoadIcon (hInstance, MAKEINTRESOURCE(IDI_ICON5));
WndClass.hCursor = TheArrowCursor;
WndClass.hbrBackground = NULL;
WndClass.lpszMenuName = NULL;
WndClass.lpszClassName = (LPCTSTR)WinClassName;
/* register this new class with Windows */
if (!RegisterClass((LPWNDCLASS)&WndClass))
I_FatalError ("Could not register window class");
/* create window */
Window = CreateWindow((LPCTSTR)WinClassName,
(LPCTSTR) GAMESIG " v" DOTVERSIONSTR " (" __DATE__ ")",
WS_OVERLAPPEDWINDOW,
0/*CW_USEDEFAULT*/, 1/*CW_USEDEFAULT*/, width, height,
(HWND) NULL,
(HMENU) NULL,
hInstance,
NULL);
if (!Window)
I_FatalError ("Could not open window");
WndClass.lpfnWndProc = LConProc;
WndClass.lpszClassName = (LPCTSTR)ConClassName;
if (RegisterClass ((LPWNDCLASS)&WndClass))
{
ConWindow = CreateWindowEx (
WS_EX_PALETTEWINDOW & (~WS_EX_TOPMOST),
(LPCTSTR)ConClassName,
(LPCTSTR) "Skulltag Startup Viewer",
WS_OVERLAPPEDWINDOW/* | WS_VISIBLE*/,
CW_USEDEFAULT, CW_USEDEFAULT,
512, 384,
Window, NULL, hInstance, NULL);
}
if (kernel != 0)
{
typedef BOOL (WINAPI *pts)(DWORD, DWORD *);
pts pidsid = (pts)GetProcAddress (kernel, "ProcessIdToSessionId");
if (pidsid != 0)
{
if (!pidsid (GetCurrentProcessId(), &SessionID))
{
SessionID = 0;
}
hwtsapi32 = LoadLibraryA ("wtsapi32.dll");
if (hwtsapi32 != 0)
{
FARPROC reg = GetProcAddress (hwtsapi32, "WTSRegisterSessionNotification");
if (reg == 0 || !((BOOL(WINAPI *)(HWND, DWORD))reg) (Window, NOTIFY_FOR_THIS_SESSION))
{
FreeLibrary (hwtsapi32);
hwtsapi32 = 0;
}
else
{
atterm (UnWTS);
}
}
}
}
GetClientRect (Window, &cRect);
WinWidth = cRect.right;
WinHeight = cRect.bottom;
}
CoInitialize (NULL);
atterm (UnCOM);
C_InitConsole (((WinWidth / 8) + 2) * 8, (WinHeight / 12) * 8, false);
I_DetectOS ();
D_DoomMain ();
}
catch (class CDoomError &error)
{
I_ShutdownHardware ();
SetWindowPos (Window, NULL, 0, 0, 0, 0, SWP_HIDEWINDOW);
if (ConWindow != NULL)
{
ShowWindow (ConWindow, SW_SHOW);
}
if (error.GetMessage ())
MessageBox (Window, error.GetMessage(),
"Skulltag Fatal Error", MB_OK|MB_ICONSTOP|MB_TASKMODAL);
exit (-1);
}
}
void TestSpeed(ScopedLogMessage& msg)
{
ElapsedTimeRec timeRec[3];
msg.Message("--- TestSpeed ---");
int numMaxAlloc = kNumMaxAlloc_Speed;
{ // adjust number of max allocation for low memory machine
bool memoryAvailable = false;
char* tempPtr = NULL;
#if defined(POCO_OS_FAMILY_WINDOWS)
_set_new_handler(ThrowBadAlloc);
#endif
while(!memoryAvailable)
{
try
{
tempPtr = new char [kBlockSize * numMaxAlloc];
memoryAvailable = true;
}
catch(...)
{
numMaxAlloc /= 2;
}
delete [] tempPtr;
tempPtr = NULL;
}
msg.Message(Poco::format(" number of allocation blocks = %d", numMaxAlloc));
}
{
msg.Message(" measuring new/delete...");
MeasureAllocDeallocTime<Poco::Void> measure(timeRec[0], kBlockSize, 0, numMaxAlloc);
}
{
msg.Message(Poco::format(" measuring Poco::MemoryPool(%z, %d, %d)..."
, kBlockSize
, 0
, numMaxAlloc));
MeasureAllocDeallocTime<Poco::MemoryPool>
measure(timeRec[1], kBlockSize, 0, numMaxAlloc);
}
{
msg.Message(Poco::format(" measuring Poco::MemoryPool(%z, %d, %d)..."
, kBlockSize
, numMaxAlloc
, numMaxAlloc));
MeasureAllocDeallocTime<Poco::MemoryPool>
measure(timeRec[2], kBlockSize, numMaxAlloc, numMaxAlloc);
}
msg.Message(" new/delete non pre-allocated pre-allocated");
msg.Message("================================================================");
msg.Message(Poco::format(" init %8.3fmSec %8.3fmSec %8.3fmSec"
, timeRec[0].timeInit
, timeRec[1].timeInit
, timeRec[2].timeInit));
for(std::size_t loop=0; loop<kNumLoop; ++loop)
{
msg.Message(Poco::format(" allocate #%z %8.3fmSec %8.3fmSec %8.3fmSec"
, loop+1
, timeRec[0].timeAlloc[loop]
, timeRec[1].timeAlloc[loop]
, timeRec[2].timeAlloc[loop]));
msg.Message(Poco::format("deallocate #%z %8.3fmSec %8.3fmSec %8.3fmSec"
, loop+1
, timeRec[0].timeDealloc[loop]
, timeRec[1].timeDealloc[loop]
, timeRec[2].timeDealloc[loop]));
}
msg.Message(Poco::format(" cleanup %8.3fmSec %8.3fmSec %8.3fmSec"
, timeRec[0].timeCleanup
, timeRec[1].timeCleanup
, timeRec[2].timeCleanup));
msg.Message("================================================================");
msg.Message(Poco::format(" total time %8.3fmSec %8.3fmSec %8.3fmSec"
, timeRec[0].timeTotal
, timeRec[1].timeTotal
, timeRec[2].timeTotal));
}
// Called from MyApp() immediately upon entry to MyApp::OnInit()
void OCPNPlatform::Initialize_1( void )
{
#ifdef OCPN_USE_CRASHRPT
#ifndef _DEBUG
// Install Windows crash reporting
CR_INSTALL_INFO info;
memset(&info, 0, sizeof(CR_INSTALL_INFO));
info.cb = sizeof(CR_INSTALL_INFO);
info.pszAppName = _T("OpenCPN");
wxString version_crash = str_version_major + _T(".") + str_version_minor + _T(".") + str_version_patch;
info.pszAppVersion = version_crash.c_str();
int type = MiniDumpWithDataSegs; // Include the data sections from all loaded modules.
// This results in the inclusion of global variables
type |= MiniDumpNormal;// | MiniDumpWithPrivateReadWriteMemory | MiniDumpWithIndirectlyReferencedMemory;
info.uMiniDumpType = (MINIDUMP_TYPE)type;
// Install all available exception handlers....
info.dwFlags = CR_INST_ALL_POSSIBLE_HANDLERS;
// Except memory allocation failures
info.dwFlags &= ~CR_INST_NEW_OPERATOR_ERROR_HANDLER;
// Allow user to attach files
info.dwFlags |= CR_INST_ALLOW_ATTACH_MORE_FILES;
// Allow user to add more info
info.dwFlags |= CR_INST_SHOW_ADDITIONAL_INFO_FIELDS;
// URL for sending error reports over HTTP.
if(g_bEmailCrashReport){
info.pszEmailTo = _T("*****@*****.**");
info.pszSmtpProxy = _T("mail.bigdumboat.com:587");
info.pszUrl = _T("http://bigdumboat.com/crashrpt/ocpn_crashrpt.php");
info.uPriorities[CR_HTTP] = 1; // First try send report over HTTP
}
else{
info.dwFlags |= CR_INST_DONT_SEND_REPORT;
info.uPriorities[CR_HTTP] = CR_NEGATIVE_PRIORITY; // don't send at all
}
info.uPriorities[CR_SMTP] = CR_NEGATIVE_PRIORITY; // Second try send report over SMTP
info.uPriorities[CR_SMAPI] = CR_NEGATIVE_PRIORITY; //1; // Third try send report over Simple MAPI
wxStandardPaths& crash_std_path = g_Platform->GetStdPaths();
wxString crash_rpt_save_locn = crash_std_path.GetConfigDir();
if( g_bportable ) {
wxFileName exec_path_crash( crash_std_path.GetExecutablePath() );
crash_rpt_save_locn = exec_path_crash.GetPath( wxPATH_GET_VOLUME | wxPATH_GET_SEPARATOR );
}
wxString locn = crash_rpt_save_locn + _T("\\CrashReports");
if(!wxDirExists( locn ) )
wxMkdir( locn );
if(wxDirExists( locn ) ){
wxCharBuffer buf = locn.ToUTF8();
wchar_t wlocn[256];
if(buf && (locn.Length() < sizeof(wlocn)) ){
MultiByteToWideChar( 0, 0, buf.data(), -1, wlocn, sizeof(wlocn)-1);
info.pszErrorReportSaveDir = (LPCWSTR)wlocn;
}
}
// Provide privacy policy URL
wxFileName exec_path_crash( crash_std_path.GetExecutablePath() );
wxString policy_file = exec_path_crash.GetPath( wxPATH_GET_VOLUME | wxPATH_GET_SEPARATOR );
policy_file += _T("PrivacyPolicy.txt");
policy_file.Prepend(_T("file:"));
info.pszPrivacyPolicyURL = policy_file.c_str();;
int nResult = crInstall(&info);
if(nResult!=0) {
TCHAR buff[256];
crGetLastErrorMsg(buff, 256);
MessageBox(NULL, buff, _T("crInstall error, Crash Reporting disabled."), MB_OK);
}
// Establish the crash callback function
crSetCrashCallback( CrashCallback, NULL );
// Take screenshot of the app window at the moment of crash
crAddScreenshot2(CR_AS_PROCESS_WINDOWS|CR_AS_USE_JPEG_FORMAT, 95);
// Mark some files to add to the crash report
wxString home_data_crash = crash_std_path.GetConfigDir();
if( g_bportable ) {
wxFileName f( crash_std_path.GetExecutablePath() );
home_data_crash = f.GetPath();
}
appendOSDirSlash( &home_data_crash );
wxString config_crash = _T("opencpn.ini");
config_crash.Prepend( home_data_crash );
crAddFile2( config_crash.c_str(), NULL, NULL, CR_AF_MISSING_FILE_OK | CR_AF_ALLOW_DELETE );
wxString log_crash = _T("opencpn.log");
log_crash.Prepend( home_data_crash );
crAddFile2( log_crash.c_str(), NULL, NULL, CR_AF_MISSING_FILE_OK | CR_AF_ALLOW_DELETE );
#endif
#endif
#ifdef LINUX_CRASHRPT
#if wxUSE_ON_FATAL_EXCEPTION
// fatal exceptions handling
wxHandleFatalExceptions (true);
#endif
#endif
#ifdef __WXMSW__
// Invoke my own handler for failures of malloc/new
_set_new_handler( MyNewHandler );
// configure malloc to call the New failure handler on failure
_set_new_mode(1);
#endif
// On MSW, force the entire process to run on one CPU core only
// This resolves some difficulty with wxThread syncronization
#if 0
#ifdef __WXMSW__
//Gets the current process handle
HANDLE hProc = GetCurrentProcess();
DWORD procMask;
DWORD sysMask;
HANDLE hDup;
DuplicateHandle( hProc, hProc, hProc, &hDup, 0, FALSE, DUPLICATE_SAME_ACCESS );
//Gets the current process affinity mask
GetProcessAffinityMask( hDup, &procMask, &sysMask );
// Take a simple approach, and assume up to 4 processors
DWORD newMask;
if( ( procMask & 1 ) == 1 ) newMask = 1;
else
if( ( procMask & 2 ) == 2 ) newMask = 2;
else
if( ( procMask & 4 ) == 4 ) newMask = 4;
else
if( ( procMask & 8 ) == 8 ) newMask = 8;
//Set te affinity mask for the process
BOOL res = SetProcessAffinityMask( hDup, (DWORD_PTR) newMask );
if( res == 0 ) {
//Error setting affinity mask!!
}
#endif
#endif
#ifdef __WXMSW__
// Handle any Floating Point Exceptions which may leak thru from other
// processes. The exception filter is in cutil.c
// Seems to only happen for W98
wxPlatformInfo Platform;
if( Platform.GetOperatingSystemId() == wxOS_WINDOWS_9X ) SetUnhandledExceptionFilter (&MyUnhandledExceptionFilter);
#endif
#ifdef __WXMSW__
// _CrtSetBreakAlloc(25503);
#endif
#ifndef __WXMSW__
// Setup Linux SIGNAL handling, for external program control
// Build the sigaction structure
sa_all.sa_handler = catch_signals;// point to my handler
sigemptyset(&sa_all.sa_mask);// make the blocking set
// empty, so that all
// other signals will be
// unblocked during my handler
sa_all.sa_flags = 0;
sigaction(SIGUSR1, NULL, &sa_all_old);// save existing action for this signal
// Register my request for some signals
sigaction(SIGUSR1, &sa_all, NULL);
sigaction(SIGUSR1, NULL, &sa_all_old);// inspect existing action for this signal
sigaction(SIGTERM, &sa_all, NULL);
sigaction(SIGTERM, NULL, &sa_all_old);
#endif
}
