bool GameDriver::init(IPalette *pal) { _palette = pal; // recalculate the refresh rate _videoInfo.refreshRate = _numInterruptsPerSecond/_numInterruptsPerVideoUpdate; // try to load all the files if (!loadFiles()){ return false; } // call template method to do any necessary processing filesLoaded(); // try to decode the graphics if (!decodeGraphics()){ _errorMsg = "unable to decode GFX"; deallocateFilesMemory(); return false; } // call template method to do any necessary processing graphicsDecoded(); // deallocate memory used by the files deallocateFilesMemory(); // init input port values for (InputPorts::size_type i = 0; i < _inputs.size(); i++){ _inputs[i]->reset(); } // call template method to inform that the initialization process has finished finishInit(); return true; }
void ParallelSortClusteredCursor::fullInit(OperationContext* txn) { startInit(txn); finishInit(txn); }
bVector<T> &bVector<bVector<T> >::operator[](long i){ if (!initialized) finishInit(0); return data[i]; }
int MBASE::init(double p[], int n_args) { int flag, UseMikes; float outskip, inskip, abs_factor, dummy; double R, T, dist; outskip = p[0]; inskip = p[1]; m_dur = p[2]; if (m_dur < 0) /* "dur" represents timend */ m_dur = -m_dur - inskip; if (rtsetinput(inskip, this) == -1) { // no input return(DONT_SCHEDULE); } insamps = (int)(m_dur * SR); inamp = p[3]; if (inamp < 0) { m_paths = 1; // Dont process secondary paths inamp = -inamp; } /* Get results of Minc setup calls (space, mikes_on, mikes_off, matrix) */ if (get_setup_params(Dimensions, &m_attenParams, &dummy, &abs_factor, &UseMikes, &MikeAngle, &MikePatternFactor) == -1) { return die(name(), "You must call setup routine `space' first."); } // call inst-specific init code if (localInit(p, n_args) == DONT_SCHEDULE) return die(name(), "localInit failed."); if (m_inchan >= inputChannels()) return die(name(), "You asked for channel %d of a %d-channel input file.", m_inchan, inputChannels()); if (inputChannels() == 1) m_inchan = 0; if (outputChannels() != 4) return die(name(), "Output must be 4-channel (2 signal, 2 reverb feed)."); /* (perform some initialization that used to be in space.c) */ int meanLength = MFP_samps(SR, Dimensions); // mean delay length for reverb get_lengths(meanLength); /* sets up delay lengths */ set_gains(); /* sets gains for filters */ set_walls(abs_factor); /* sets wall filts for move routine */ /* flag for use of ear filters */ m_binaural = (!UseMikes && m_dist < 0.8 && m_dist != 0.0); amparray = floc(1); if (amparray) { int amplen = fsize(1); tableset(SR, m_dur, amplen, amptabs); /* controls input dur only */ } /* determine extra run time for this routine before calling rtsetoutput() */ double reflectionDur = 0.0; finishInit(&reflectionDur); m_branch = 0; if (rtsetoutput(outskip, m_dur + reflectionDur, this) == -1) return DONT_SCHEDULE; DBG1(printf("nsamps = %d\n", nSamps())); return nSamps(); }
int BASE::init(double p[], int n_args) { int UseMikes; float outskip, inskip, abs_factor, rvb_time; outskip = p[0]; inskip = p[1]; m_dur = p[2]; if (m_dur < 0) /* "dur" represents timend */ m_dur = -m_dur - inskip; if (rtsetinput(inskip, this) == -1) { // no input return(DONT_SCHEDULE); } insamps = (int)(m_dur * SR); inamp = p[3]; double Matrix[12][12]; /* Get results of Minc setup calls (space, mikes_on, mikes_off, matrix) */ if (get_setup_params(Dimensions, Matrix, &abs_factor, &rvb_time, &UseMikes, &MikeAngle, &MikePatternFactor) == -1) { return die(name(), "You must call setup routine `space' first."); } // call inst-specific init code if (localInit(p, n_args) == DONT_SCHEDULE) { return die(name(), "localInit failed."); } if (m_inchan >= inputChannels()) { return die(name(), "You asked for channel %d of a %d-channel input file.", m_inchan, inputChannels()); } if (inputChannels() == 1) m_inchan = 0; if (outputChannels() != 2) { return die(name(), "Output must be stereo."); } wire_matrix(Matrix); /* (perform some initialization that used to be in space.c) */ int meanLength = MFP_samps(SR, Dimensions); // mean delay length for reverb get_lengths(meanLength); /* sets up delay lengths */ set_gains(rvb_time); /* sets gains for filters */ set_walls(abs_factor); /* sets wall filts for move routine */ set_allpass(); set_random(); /* sets up random variation of delays */ /* flag for use of ear filters */ m_binaural = (!UseMikes && m_dist < 0.8 && m_dist != 0.0); amparray = floc(1); if (amparray) { int amplen = fsize(1); tableset(SR, m_dur, amplen, amptabs); /* controls input dur only */ } else rtcmix_advise(name(), "Setting phrase curve to all 1's."); /* determine extra run time for this routine before calling rtsetoutput() */ double ringdur = 0.0; finishInit(rvb_time, &ringdur); m_branch = 0; if (rtsetoutput(outskip, m_dur + ringdur, this) == -1) return DONT_SCHEDULE; DBG1(printf("nsamps = %d\n", nSamps())); return nSamps(); }
Kiten::Kiten( QWidget *parent, const char *name ) : KXmlGuiWindow( parent ) , _lastQuery( DictQuery() ) , _radselect_proc( new KProcess( this ) ) , _kanjibrowser_proc( new KProcess( this ) ) { _radselect_proc->setProgram( QStandardPaths::findExecutable( "kitenradselect" ) ); _kanjibrowser_proc->setProgram( QStandardPaths::findExecutable( "kitenkanjibrowser" ) ); setStandardToolBarMenuEnabled( true ); setObjectName( QLatin1String( name ) ); /* Set up the config */ _config = KitenConfigSkeleton::self(); _config->load(); /* Set up hot keys */ //KDE4 TODO /* Accel = new KGlobalAccel( this ); (void) Accel->insert( "Lookup English/Japanese word" , i18n("Lookup English/Japanese Word") , i18n( "Looks up current text on clipboard in the same way as if you used Kiten's regular search." ) , Qt::CTRL + Qt::ALT + Qt::Key_S , Qt::CTRL + Qt::ALT + Qt::Key_S , this , SLOT(searchClipboardContents()) ); Accel->readSettings( KSharedConfig::openConfig() ); Accel->updateConnections(); */ /* ResultsView is our main widget, displaying the results of a search */ _mainView = new ResultsView( this, "mainView" ); /* Create the export list */ // setupExportListDock(); /* TODO: have a look at this idea detachedView = new ResultsView( NULL, "detachedView" ); */ setCentralWidget( _mainView->widget() ); setupActions(); // Be sure to create this manager before creating the GUI // as it needs to add a KAction to it. _dictionaryUpdateManager = new DictionaryUpdateManager( this ); createGUI(); _statusBar = statusBar(); _optionDialog = 0; /* Start the system tray icon. */ _sysTrayIcon = new QSystemTrayIcon( windowIcon(), this ); _sysTrayIcon->show(); /* Set things as they were (as told in the config) */ _autoSearchToggle->setChecked( _config->autosearch() ); _inputManager->setDefaultsFromConfig(); updateConfiguration(); applyMainWindowSettings( KSharedConfig::openConfig()->group( "kitenWindow" ) ); /* What happens when links are clicked or things are selected in the clipboard */ connect(_mainView, &ResultsView::urlClicked, this, &Kiten::searchText); connect( QApplication::clipboard(), SIGNAL(selectionChanged()), this, SLOT(searchClipboard()) ); connect(_inputManager, &SearchStringInput::search, this, &Kiten::searchFromEdit); connect( _mainView->view()->verticalScrollBar(), SIGNAL(valueChanged(int)), this, SLOT(setCurrentScrollValue(int)) ); /* We need to know when to reload our dictionaries if the user updated them. */ connect(_dictionaryUpdateManager, &DictionaryUpdateManager::updateFinished, this, &Kiten::loadDictionaries); /* See below for what else needs to be done */ QTimer::singleShot( 10, this, SLOT(finishInit()) ); }