bool FeaturesStatistics::Init() { if (InitConnections()==false) return false; if (InitThreads()==false) return false; if (SplitMLThreadDataRange(con->GetRecordCount())==false) return false; if (con->CreateMlRecord(MainRecord)==false) { notif->Error("[%s] -> Unable to create MainRecord",ObjectName); return false; } if (ComputedData.Create(con->GetFeatureCount(),true)==false) { notif->Error("[%s] -> Unable to create ComputedData",ObjectName); return false; } if (Feats.Create(con->GetFeatureCount(),true)==false) { notif->Error("[%s] -> Unable to create Feats Global information",ObjectName); return false; } for (UInt32 tr=0;tr<con->GetFeatureCount();tr++) { if ((ComputedData[tr].fnValue = new double[statFuncCount])==NULL) { notif->Error("[%s] -> Unable to alloc data for ComputedData Values",ObjectName); return false; } } return true; }
int inithtk(int argc, char *argv[],const char * app_version, bool noGraphics) { InitThreads(HT_MSGMON); // enable msg driven monitoring if(InitShell(argc,argv,app_version)<SUCCESS) return FAIL; // CommonInit() expanded with incompatible things commented out: InitMem(); InitLabel(); InitMath(); InitSigP(); InitUtil(); InitWave(); /*InitAudio();*/ InitModel(); if(InitParm()<SUCCESS) return FAIL; InitGraf((Boolean)noGraphics); InitDict(); InitNet(); InitLM(); InitRec(); InitLat(); /*InitAdapt();*/ EnableBTrees(); /* allows unseen triphones to be synthesised */ /* Register(abuffer_version); Register(acode_version); Register(acomponent_version); Register(adict_version); Register(agram_version); Register(angram_version); Register(ahmms_version); Register(ahtk_version); Register(amonitor_version); Register(apacket_version); Register(arec_version); Register(aresource_version); Register(arman_version); Register(asource_version); */ InfoPrinted(); return SUCCESS; }
void RageThread::Create( int (*fn)(void *), void *data ) { /* Don't create a thread that's already running: */ ASSERT( m_pSlot == NULL ); InitThreads(); /* Lock unused slots, so nothing else uses our slot before we mark it used. */ LockMut(g_ThreadSlotsLock); int slotno = FindEmptyThreadSlot(); m_pSlot = &g_ThreadSlots[slotno]; if( name == "" ) { if( LOG ) LOG->Warn("Created a thread without naming it first."); /* If you don't name it, I will: */ strcpy( m_pSlot->name, "Joe" ); } else { strcpy( m_pSlot->name, name.c_str() ); } if( LOG ) LOG->Trace( "Starting thread: %s", name.c_str() ); sprintf( m_pSlot->ThreadFormattedOutput, "Thread: %s", name.c_str() ); /* Start a thread using our own startup function. We pass the id to fill in, * to make sure it's set before the thread actually starts. (Otherwise, early * checkpoints might not have a completely set-up thread slot.) */ m_pSlot->pImpl = MakeThread( fn, data, &m_pSlot->id ); }
CoWork::Pool::Pool() { ASSERT(!IsWorker()); InitThreads(CPU_Cores() + 2); free = NULL; for(int i = 0; i < SCHEDULED_MAX; i++) Free(slot[i]); quit = false; }
static ThreadSlot *GetThreadSlotFromID( uint64_t iID ) { InitThreads(); for( int entry = 0; entry < MAX_THREADS; ++entry ) { if( !g_ThreadSlots[entry].used ) continue; if( g_ThreadSlots[entry].id == iID ) return &g_ThreadSlots[entry]; } return NULL; }
void Initialise(int argc, char *argv[]) { InitThreads(HT_MSGMON); if(InitShell(argc,argv,hnettest_version)<SUCCESS) HError(999,"Initialise: couldnt init HShell"); InitMem(); InitLabel(); InitMath(); InitSigP(); InitWave(); InitAudio(); if(InitParm()<SUCCESS) HError(999,"Initialise: couldnt init HParm"); InitGraf(FALSE); InitModel(); InitDict(); InitNet(); EnableBTrees(); /* allows unseen triphones to be synthesised */ if (!InfoPrinted() && NumArgs() == 0) ReportUsage(); }
int main(int argc, char *argv[]) { int n,a1,a2,a3,a4; InitThreads(sMon); if(InitShell(argc,argv,hthreadtest_version)<SUCCESS) HError(1100,"HThreadTest: InitShell failed"); if (NumArgs() < 1) ReportUsage(); InitMem(); InitLabel(); InitMath(); InitSigP(); InitWave(); InitAudio(); InitVQ(); if(InitParm()<SUCCESS) HError(3200,"HThreadTest: InitParm failed"); InitGraf(FALSE); if (sMon==HT_MSGMON) HCreateMonitor(tmon4,(void *)0); if (NextArg() == INTARG){ n = GetIntArg(); switch(n){ case 1: a1 = GetIntArg(); a2 = GetIntArg(); ParallelForkAndJoin(a1,a2); break; case 2: a1 = GetIntArg(); a2 = GetIntArg(); SimpleMutex(a1,a2); break; case 3: SimpleSignal(); break; case 4: a1 = GetIntArg(); a2 = GetIntArg(); a3 = GetIntArg(); a4 = GetIntArg(); BufferTest(a1,a2,a3,a4,GetStrArg()); break; default: printf("Bad test number %d\n",n); ReportUsage(); } } if (sMon>0){ AccessStatus(); PrintThreadStatus("Final"); ReleaseStatusAccess(); if (sMon==HT_MSGMON)HJoinMonitor(); } }
bool FeatureValuesStatistics::Init() { if (InitConnections()==false) return false; if (InitLabels()==false) return false; if (InitThreads()==false) return false; if (SplitMLThreadDataRange(con->GetRecordCount())==false) return false; if (Vi.Create(con->GetRecordCount(),true)==false) { notif->Error("[%s] -> Unable to create value array",ObjectName); return false; } if (con->CreateMlRecord(MainRecord)==false) { notif->Error("[%s] -> Unable to create MainRecord",ObjectName); return false; } // Add extra initialization here return true; }
int threads_tests() { int status = 0; status = InitThreads(2); printf("InitThreads returned %d\n", status); task_info tasks[] = { {test_routine1, (void*)1}, {test_routine1, (void*)2}, {test_routine1, (void*)3}, {test_routine1, (void*)4}, {test_routine1, (void*)5} }; status = AddTasks(tasks, sizeof(tasks) / sizeof(task_info)); printf("AddTasks returned %d\n", status); status = JoinTasks(); printf("JoinTasks returned %d\n", status); status = DestroyThreads(); printf("DestroyTreads returned %d\n", status); return status; }
static int InitializePoll (CMenu& menu, int& key, int nCurItem, int nState) { if (nState) return nCurItem; paletteManager.LoadEffect (); switch (loadOp) { case 0: /*---*/PrintLog ("Creating default tracker list\n"); tracker.CreateList (); break; case 1: /*---*/PrintLog ("Loading ban list\n"); banList.Load (); break; case 2: /*---*/PrintLog ("Initializing control types\n"); SetControlType (); break; case 3: /*---*/PrintLog ("Initializing keyboard\n"); KeyInit (); break; case 4: /*---*/PrintLog ("Initializing joystick\n"); DoJoystickInit (); break; case 5: int i; if ((i = FindArg ("-xcontrol")) > 0) externalControls.Init (strtol (pszArgList [i+1], NULL, 0), strtol (pszArgList [i+2], NULL, 0)); break; case 6: /*---*/PrintLog ("Initializing movies\n"); if (FindArg ("-nohires") || FindArg ("-nohighres") || !GrVideoModeOK (MENU_HIRES_MODE)) gameOpts->movies.bHires = gameStates.menus.bHires = gameStates.menus.bHiresAvailable = 0; else gameStates.menus.bHires = gameStates.menus.bHiresAvailable = 1; movieManager.InitLibs (); //init movie libraries break; case 7: BMInit (); break; case 8: /*---*/PrintLog ("Initializing sound\n"); audio.Setup (1); break; case 9: /*---*/PrintLog ("Loading hoard data\n"); LoadHoardData (); break; case 10: error_init (ShowInGameWarning, NULL); break; case 11: break; g3_init (); case 12: /*---*/PrintLog ("Initializing texture merge buffer\n"); TexMergeInit (100); // 100 cache bitmaps break; case 13: InitPowerupTables (); break; case 14: LoadGameBackground (); atexit (CloseGame); break; case 15: InitThreads (); break; case 16: PiggyInitMemory (); break; case 17: if (!FindArg ("-nomouse")) MouseInit (); break; case 18: /*---*/PrintLog ("Enabling TrackIR support\n"); TIRLoad (); break; } loadOp++; if (gameStates.app.bProgressBars && gameOpts->menus.nStyle) { if (loadOp == InitGaugeSize ()) key = -2; else { menu [0].m_value++; menu [0].m_bRebuild = 1; key = 0; } } paletteManager.LoadEffect (); return nCurItem; }
/* ======== main light modelfile ======== */ int main (int argc, char **argv) { int i; double start, end; char source[1024]; printf ("----- LightFaces ----\n"); for (i=1 ; i<argc ; i++) { if (!strcmp(argv[i],"-threads")) { numthreads = atoi (argv[i+1]); i++; } else if (!strcmp(argv[i],"-extra")) { extrasamples = true; printf ("extra sampling enabled\n"); } else if (!strcmp(argv[i],"-dist")) { scaledist = atof (argv[i+1]); i++; } else if (!strcmp(argv[i],"-range")) { rangescale = atof (argv[i+1]); i++; } else if (argv[i][0] == '-') Error ("Unknown option \"%s\"", argv[i]); else break; } if (i != argc - 1) Error ("usage: light [-threads num] [-extra] bspfile"); InitThreads (); start = I_FloatTime (); strcpy (source, argv[i]); StripExtension (source); DefaultExtension (source, ".bsp"); LoadBSPFile (source); LoadEntities (); MakeTnodes (&dmodels[0]); LightWorld (); WriteEntitiesToString (); WriteBSPFile (source); end = I_FloatTime (); printf ("%5.1f seconds elapsed\n", end-start); return 0; }
int main(int argc, char **argv) { cst_voice *v; const char *filename; const char *outtype; int i; float durs; int flite_verbose, flite_loop, flite_bench; int explicit_filename, explicit_text, explicit_phones; #define ITER_MAX 3 int bench_iter = 0; cst_features *extra_feats; InitThreads(HT_NOMONITOR); // enable msg driven monitoring if(InitShell(argc,argv,version)<SUCCESS) return FAIL; InitMem(); InitLabel(); InitMath(); InitSigP(); InitUtil(); InitWave(); InitAudio(); filename = 0; outtype = "play"; /* default is to play */ flite_verbose = FALSE; flite_loop = FALSE; flite_bench = FALSE; explicit_text = explicit_filename = explicit_phones = FALSE; extra_feats = new_features(); flite_init(); for (i=1; i<argc; i++) { if (cst_streq(argv[i],"--version")) { flite_version(); return 1; } else if (cst_streq(argv[i],"-h") || cst_streq(argv[i],"--help") || cst_streq(argv[i],"-?")) flite_usage(); else if (cst_streq(argv[i],"-v")) flite_verbose = TRUE; else if (cst_streq(argv[i],"-l")) flite_loop = TRUE; else if (cst_streq(argv[i],"-b")) { flite_bench = TRUE; break; /* ignore other arguments */ } else if ((cst_streq(argv[i],"-o")) && (i+1 < argc)) { outtype = argv[i+1]; i++; } else if (cst_streq(argv[i],"-f") && (i+1 < argc)) { filename = argv[i+1]; explicit_filename = TRUE; i++; } else if ((cst_streq(argv[i],"-set") || cst_streq(argv[i],"-s")) && (i+1 < argc)) { ef_set(extra_feats,argv[i+1],0); i++; } else if (cst_streq(argv[i],"--seti") && (i+1 < argc)) { ef_set(extra_feats,argv[i+1],"int"); i++; } else if (cst_streq(argv[i],"--setf") && (i+1 < argc)) { ef_set(extra_feats,argv[i+1],"float"); i++; } else if (cst_streq(argv[i],"--sets") && (i+1 < argc)) { ef_set(extra_feats,argv[i+1],"string"); i++; } else if (cst_streq(argv[i],"-p") && (i+1 < argc)) { filename = argv[i+1]; explicit_phones = TRUE; i++; } else if (cst_streq(argv[i],"-t") && (i+1 < argc)) { filename = argv[i+1]; explicit_text = TRUE; i++; } else if (filename) outtype = argv[i]; else filename = argv[i]; } if (filename == NULL) filename = "-"; /* stdin */ v = register_cmu_us_kal16(NULL); feat_copy_into(extra_feats,v->features); durs = 0.0; if (flite_bench) { outtype = "none"; filename = "A whole joy was reaping, but they've gone south, you should fetch azure mike."; explicit_text = TRUE; } loop: if (explicit_phones) durs = flite_phones_to_speech(filename,v,outtype); else if ((strchr(filename,' ') && !explicit_filename) || explicit_text) durs = flite_text_to_speech(filename,v,outtype); else durs = flite_file_to_speech(filename,v,outtype); if (flite_loop || (flite_bench && bench_iter++ < ITER_MAX)) goto loop; delete_features(extra_feats); unregister_cmu_us_kal16(v); return 0; }
/* ======== main light modelfile ======== */ int main (int argc, char **argv) { int i; int wantthreads; double start, end; char source[1024]; printf ("----- LightFaces ----\n"); ValidateByteorder (); wantthreads = 1; // default to single threaded for (i = 1 ; i < argc ; i++) { if (!strcmp(argv[i],"-threads")) { if (i >= argc - 1) COM_Error("Missing argument to \"%s\"", argv[i]); wantthreads = atoi (argv[++i]); } else if (!strcmp(argv[i],"-extra")) { extrasamples = true; printf ("extra sampling enabled\n"); } else if (!strcmp(argv[i],"-dist")) { if (i >= argc - 1) COM_Error("Missing argument to \"%s\"", argv[i]); scaledist = (float)atof (argv[++i]); } else if (!strcmp(argv[i],"-range")) { if (i >= argc - 1) COM_Error("Missing argument to \"%s\"", argv[i]); rangescale = (float)atof (argv[++i]); } else if (argv[i][0] == '-') COM_Error ("Unknown option \"%s\"", argv[i]); else break; } if (i != argc - 1) COM_Error ("usage: light [-threads num] [-extra] [-dist ?] [-range ?] bspfile"); InitThreads (wantthreads, 0); start = COM_GetTime (); strcpy (source, argv[i]); StripExtension (source); DefaultExtension (source, ".bsp", sizeof(source)); LoadBSPFile (source); LoadEntities (); MakeTnodes (&dmodels[0]); LightWorld (); WriteEntitiesToString (); WriteBSPFile (source); end = COM_GetTime (); printf ("%5.1f seconds elapsed\n", end-start); return 0; }
void initThreads() { useDefault? InitThreads(): MyInitThreads(); }
// We need this mostly so that we can not use it in tests. Apparently the // GoogleTest framework goes apeshit on us if we enable threads by default. void CompilationDatabase::EnableThreading() { threading_enabled_ = true; InitThreads(); }
/* ======== main light modelfile ======== */ int main (int argc, char **argv) { int i, ModeCnt = 0, Val; char source[1024], *Option, *NextOption; float FVal; qboolean NoGlobRange = false; logfile = fopen (LOGFILENAME, "w"); logprintf ("----- Light 1.43 ---- Modified by Bengt Jardrup\n"); logprintf ("----- Release 2 ---- Coloured light and LIT support by MH\n\n"); for (i = 1; i < argc; i++) { Option = argv[i]; NextOption = i + 1 < argc ? argv[i + 1] : NULL; if (Option[0] != '-') break; ++Option; if (!stricmp (Option, "fast")) { FastLight = 2; if (NextOption != NULL && isdigit (NextOption[0]) && i + 2 < argc) { Val = atoi (NextOption); i++; if (Val > 2) FastLight = Val; } logprintf ("Fast light %d enabled\n", FastLight); } else if (!stricmp (Option, "soft")) { SoftLight = 0; if (NextOption != NULL && isdigit (NextOption[0]) && i + 2 < argc) { SoftLight = atoi (NextOption); i++; } } else if (!stricmp (Option, "softdist")) { SoftDist = GetArgument (Option, NextOption); i++; } else if (!stricmp (Option, "extra") || !stricmp (Option, "extra4")) { OverSample = Option[5] == '4' ? 4 : 2; logprintf ("Extra %dx%d sampling enabled\n", OverSample, OverSample); } else if (!stricmp (Option, "threads")) { numthreads = GetFloatArgument (Option, NextOption); i++; } else if (!stricmp (Option, "dist")) { scaledist = GetFloatArgument (Option, NextOption); i++; } else if (!stricmp (Option, "range")) { rangescale = GetFloatArgument (Option, NextOption); i++; } else if (!stricmp (Option, "globrange")) { GlobRange = true; logprintf ("Global range enabled\n"); } else if (!stricmp (Option, "noglobrange")) NoGlobRange = true; else if (!stricmp (Option, "light")) { worldminlight = GetArgument (Option, NextOption); i++; } else if (!stricmp (Option, "maxlight")) { worldmaxlight = GetArgument (Option, NextOption); i++; } else if (!stricmp (Option, "nolight")) { NoLight = true; logprintf ("Light entities disabled\n"); } else if (!stricmp (Option, "srclight")) { SrcLight = true; logprintf ("Unsourced light entities disabled\n"); } else if (!stricmp (Option, "sunlight")) { SunLight[0] = GetArgument (Option, NextOption); i++; } else if (!stricmp (Option, "sunlight2")) { SunLight[1] = GetArgument (Option, NextOption); i++; } else if (!stricmp (Option, "sunlight3")) { SunLight[1] = GetArgument (Option, NextOption); if (ShadowSense == -1) ShadowSense = SHADOWSENSE; i++; } else if (!stricmp (Option, "sunmangle")) { ChkArgument (Option, NextOption); if (sscanf (NextOption, "%d,%d", &SunMangleVal[0], &SunMangleVal[1]) != 2) Error ("Missing arguments for '%s'", Option); SunMangleVal[2] = 0; i++; } else if (!stricmp (Option, "nowarnings")) NoWarnings = true; else if (!stricmp (Option, "rate")) { ChkArgument (Option, NextOption); if (sscanf (NextOption, "%d,%f,%d,%d", &SecRate, &FVal, &NewLine, &TotTime) > 1) PercRate = (FVal + 0.05) * 10; // Fix roundoff AutoRate = false; i++; } else if (!stricmp (Option, "barpercent")) { SimpPercent = true; NumPercent = false; } else if (!stricmp (Option, "numpercent")) { SimpPercent = true; NumPercent = true; } else if (!stricmp (Option, "oldlight")) { OldLight = NoAnti = true; logprintf ("Oldlight mode enabled\n"); ++ModeCnt; } else if (!stricmp (Option, "tyrlite")) { TyrLiteMode = GlobRange = true; logprintf ("TyrLite mode enabled\n"); ++ModeCnt; } else if (!stricmp (Option, "tyrlite95")) { TyrLite95Mode = TyrLiteMode = GlobRange = true; logprintf ("TyrLite95 mode enabled\n"); ++ModeCnt; } else if (!stricmp (Option, "arghlite")) { ArghLiteMode = GlobRange = AddMinLight = true; logprintf ("ArghLite mode enabled\n"); ++ModeCnt; } else if (!stricmp (Option, "addmin")) { AddMinLight = true; logprintf ("Additive minlight enabled\n"); } else if (!stricmp (Option, "iklite")) { IKLiteMode = IKAngle = OldLight = NoAnti = true; logprintf ("IKLite mode enabled\n"); ++ModeCnt; } else if (!stricmp (Option, "ikangle")) { IKAngle = true; logprintf ("IKLite angle sensitivity enabled\n"); } else if (!stricmp (Option, "anglesense")) { FVal = GetFloatArgument (Option, NextOption); i++; if (FVal >= 0 && FVal <= 1 && FVal != scalecos) logprintf ("Angle sensitivity %g set\n", scalecos = FVal); } else if (!stricmp (Option, "shadowsense")) { FVal = GetFloatArgument (Option, NextOption); i++; if (FVal >= 0 && FVal <= 1) ShadowSense = FVal; } else if (!stricmp (Option, "gate")) { FVal = GetFloatArgument (Option, NextOption); i++; if (FVal >= 0 && FVal != GateVal) logprintf ("Fade Gate %g set\n", GateVal = FVal); } else if (!stricmp (Option, "dlx")) { LightDLXMode = OldLight = true; logprintf ("LightDLX mode enabled\n"); ++ModeCnt; } else if (!stricmp (Option, "kinn")) { KinnDelay = true; logprintf ("Kinn translation enabled\n"); } else if (!stricmp (Option, "solidsky")) { SolidSky = true; logprintf ("Solid sky brushes enabled\n"); } else if (!stricmp (Option, "unsup")) UnsupDetails = DetectKeys = true; else if (!stricmp (Option, "detect")) DetectKeys = true; else if (!stricmp (Option, "noskill")) NoSkillChk = true; else if (!stricmp (Option, "noflash")) NoFlash = true; else if (!stricmp (Option, "noanti")) NoAnti = NoAntiOption = true; else if (!stricmp (Option, "lightcap")) { Val = GetArgument (Option, NextOption); i++; if (Val >= 0 && Val != LightCap) logprintf ("LightCap %d enabled\n", LightCap = Val); } else if (!stricmp (Option, "onlyents")) OnlyEnts = true; else if (!stricmp (Option, "nowrite")) NoWrite = true; else if (!stricmp (Option, "norev")) NoReverse = true; else if (!stricmp (Option, "etp")) { EnhancedTP = true; logprintf ("Enhanced Texture Positioning enabled\n"); } else if (!stricmp (Option, "priority")) { SetQPriority (GetArgument (Option, NextOption)); i++; } else if (!stricmp (Option, "oldhformat")) OldHFormat = true; else if (!stricmp (Option, "?") || !stricmp (Option, "help")) PrintOptions (); else if (!stricmp (Option, "fakeGISun2")) { FakeGISunlight2 = true; logprintf ("Additive sunlight2 enabled\n"); } else if (!stricmp (Option, "fakeGIMode")) { FakeGIMode = true; logprintf ("FakeGI mode enabled\n"); } else Error ("Unknown option '%s'", Option); } if (i != argc - 1) PrintOptions (); if (GlobRange && NoGlobRange) { GlobRange = false; logprintf ("Global range disabled\n"); } if (ModeCnt > 1) Error ("Only one emulation mode allowed"); if (SoftLight >= 0) { if (SoftLight == 0) SoftLight = OverSample / 2 + 1; // Auto mode logprintf ("Soft light %d enabled\n", SoftLight); if (SoftDist != SOFTDIST) logprintf ("Soft distance %d set\n", SoftDist); } if (SoftLight > 0) { // Soft option is in charge SingleDist = -SoftDist; SkyDist = -SOFTDIST; } else { if (TyrLite95Mode) { SingleDist = 0; SkyDist = -ANGLE_EPSILON; } else SingleDist = SkyDist = 1; // Classic (no) soft distance } if (OverSample <= 2) { // Set compatibility modes GenCompatible = OldLight || TyrLiteMode || ArghLiteMode || IKLiteMode || LightDLXMode; ATCompatible = TyrLiteMode || ArghLiteMode; TyrCompatible = TyrLiteMode; } InitThreads (); if (!OnlyEnts && !NoWrite) start = I_FloatTime (); strcpy (source, argv[i]); StripExtension (source); DefaultExtension (source, ".bsp"); if (!NoWrite) WriteChk (source); logprintf ("File: %s\n", source); LoadBSPFile (source); LoadEntities (); if (OnlyEnts) logprintf ("Updating entities lump...\n"); else if (!NoWrite) { MakeTnodes (&dmodels[0]); FindFaceOffsets (); LightWorld (); } if (!NoWrite) { WriteEntitiesToString (); WriteBSPFile (source); } PrintFinish (); return 0; }