def __init__(self, parent=None, paramfile=None, paramdictname=None): super(Paradigm, self).__init__(parent) # -- Read settings -- smServerType = rigsettings.STATE_MACHINE_TYPE # -- Create dispatcher -- self.dispatcherModel = dispatcher.Dispatcher(serverType=smServerType,interval=0.1) self.dispatcherView = dispatcher.DispatcherGUI(model=self.dispatcherModel) # -- Add parameters -- self.params = paramgui.Container() self.params['periodOn'] = paramgui.NumericParam('Period On',value=0.2, group='Timing Parameters') self.params['periodOff'] = paramgui.NumericParam('Period Off',value=0.2, group='Timing Parameters') self.params['trainOn'] = paramgui.NumericParam('Train On',value=2, group='Timing Parameters') self.params['trainOff'] = paramgui.NumericParam('Train Off',value=1, group='Timing Parameters') timingParams = self.params.layout_group('Timing Parameters') # -- Add graphical widgets to main window -- centralWidget = QtGui.QWidget() layoutMain = QtGui.QHBoxLayout() layoutMain.addWidget(self.dispatcherView) layoutOneColumn = QtGui.QVBoxLayout() layoutOneColumn.addWidget(timingParams) layoutOneColumn.addStretch() layoutMain.addLayout(layoutOneColumn) centralWidget.setLayout(layoutMain) self.setCentralWidget(centralWidget) # -- Center in screen -- paramgui.center_in_screen(self) # -- Connect signals from dispatcher -- self.dispatcherModel.prepareNextTrial.connect(self.prepare_next_trial) self.dispatcherModel.timerTic.connect(self.timer_tic) self.sm = statematrix.StateMatrix(inputs=rigsettings.INPUTS, outputs=rigsettings.OUTPUTS, readystate='ready_next_trial', extratimers=['trainTimer'])
def __init__(self, parent=None, paramfile=None, paramdictname=None): super(Paradigm, self).__init__(parent) # -- Read settings -- smServerType = rigsettings.STATE_MACHINE_TYPE # -- Create dispatcher -- self.dispatcherModel = dispatcher.Dispatcher(serverType=smServerType,interval=0.1) self.dispatcherView = dispatcher.DispatcherGUI(model=self.dispatcherModel) # -- Add parameters -- self.params = paramgui.Container() self.params['periodOn'] = paramgui.NumericParam('Period On',value=0.5, group='Timing Parameters') self.params['periodOff'] = paramgui.NumericParam('Period Off',value=1, group='Timing Parameters') timingParams = self.params.layout_group('Timing Parameters') self.params['irrelevant1'] = paramgui.MenuParam('Irrelevant 1', ['one_item','another_item'], value=0,group='Irrelevant') self.params['irrelevant2'] = paramgui.StringParam('Irrelevant 2',value='nothing', group='Irrelevant') irrelevantParams = self.params.layout_group('Irrelevant') # -- Add graphical widgets to main window -- centralWidget = QtGui.QWidget() layoutMain = QtGui.QHBoxLayout() layoutMain.addWidget(self.dispatcherView) layoutOneColumn = QtGui.QVBoxLayout() layoutOneColumn.addWidget(timingParams) layoutOneColumn.addWidget(irrelevantParams) layoutMain.addLayout(layoutOneColumn) centralWidget.setLayout(layoutMain) self.setCentralWidget(centralWidget) # -- Center in screen -- paramgui.center_in_screen(self) # -- Connect signals from dispatcher -- self.dispatcherModel.prepareNextTrial.connect(self.prepare_next_trial) self.dispatcherModel.timerTic.connect(self.timer_tic)
def __init__(self, parent=None, paramfile=None, paramdictname=None): ''' Set up the taskontrol core modules, add parameters to the GUI, and initialize the sound server. ''' super(Paradigm, self).__init__(parent) self.name = 'am_tuning_curve' # -- Read settings -- smServerType = rigsettings.STATE_MACHINE_TYPE # -- Create the speaker calibration object self.spkCal = speakercalibration.Calibration(rigsettings.SPEAKER_CALIBRATION_SINE) self.noiseCal = speakercalibration.NoiseCalibration(rigsettings.SPEAKER_CALIBRATION_NOISE) # -- Create dispatcher -- self.dispatcherModel = dispatcher.Dispatcher(serverType=smServerType, interval=0.1) self.dispatcherView = dispatcher.DispatcherGUI(model=self.dispatcherModel) # -- Manual control of outputs -- self.manualControl = manualcontrol.ManualControl(self.dispatcherModel.statemachine) # -- Add parameters -- self.params = paramgui.Container() self.params['experimenter'] = paramgui.StringParam('Experimenter', value='santiago', group='Parameters') self.params['subject'] = paramgui.StringParam('Subject',value='test030', group='Parameters') self.params['minFreq'] = paramgui.NumericParam('Min Frequency (Hz)', value=2000, group='Parameters') self.params['maxFreq'] = paramgui.NumericParam('Max Frequency (Hz)', value=40000, group='Parameters') self.params['numTones'] = paramgui.NumericParam('Number of Frequencies', value=16, group='Parameters') self.params['minInt'] = paramgui.NumericParam('Min Intensity (dB SPL)', value=60, group='Parameters') self.params['maxInt'] = paramgui.NumericParam('Max Intensity (dB SPL)', value=60, group='Parameters') self.params['numInt'] = paramgui.NumericParam('Number of Intensities', value=1, group='Parameters') self.params['stimDur'] = paramgui.NumericParam('Stimulus Duration (s)', value=0.01, group='Parameters') ''' self.params['isiMin'] = paramgui.NumericParam('Minimum Interstimulus Interval (s)', value=1, group='Parameters') self.params['isiMax'] = paramgui.NumericParam('Maximum Interstimulus Interval', value=3, group='Parameters') ''' self.params['isiMean'] = paramgui.NumericParam('Interstimulus interval mean (s)', value=2, group='Parameters') self.params['isiHalfRange'] = paramgui.NumericParam('+/-', value=1, group='Parameters') # self.params['noiseAmp'] = paramgui.NumericParam('Amplitude in Noise-Mode', # value=0.3, # group='Parameters') self.params['randomMode'] = paramgui.MenuParam('Presentation Mode', ['Ordered','Random'], value=1,group='Parameters') self.params['stimType'] = paramgui.MenuParam('Stim Type', ['Sine','Chord', 'Noise', 'AM', 'Laser', 'LaserTrain', 'Light', 'SineLaser'], value=2,group='Parameters') self.params['currentFreq'] = paramgui.NumericParam('Current Frequency (Hz)', value=0, units='Hz', enabled=False, group='Parameters') self.params['currentIntensity'] = paramgui.NumericParam('Target Intensity', value=0, enabled=False, group='Parameters') self.params['currentAmpL'] = paramgui.NumericParam('Current Amplitude - L',value=0, enabled=False, group='Parameters', decimals=4) self.params['currentAmpR'] = paramgui.NumericParam('Current Amplitude - R',value=0, enabled=False, group='Parameters', decimals=4) self.params['laserOn'] = paramgui.NumericParam('Laser On', value=0, enabled=False, group='Parameters') self.params['laserProbability'] = paramgui.NumericParam('Laser Probability (s)', value=0, group='Parameters') self.params['laserDuration'] = paramgui.NumericParam('Laser Duration (s)', value=0, group='Parameters') self.params['laserOnset'] = paramgui.NumericParam('Laser Onset (s)', value=0, group='Parameters') timingParams = self.params.layout_group('Parameters') # -- Load parameters from a file -- self.params.from_file(paramfile,paramdictname) # -- Create an empty state matrix -- self.sm = statematrix.StateMatrix(inputs=rigsettings.INPUTS, outputs=rigsettings.OUTPUTS, readystate='readyForNextTrial') # -- Module for savng the data -- self.saveData = savedata.SaveData(rigsettings.DATA_DIR, remotedir=rigsettings.REMOTE_DIR) self.saveData.checkInteractive.setChecked(True) # -- Add graphical widgets to main window -- self.centralWidget = QtGui.QWidget() layoutMain = QtGui.QHBoxLayout() #Create a main layout and two columns layoutCol1 = QtGui.QVBoxLayout() layoutCol2 = QtGui.QVBoxLayout() layoutMain.addLayout(layoutCol1) #Add the columns to the main layout layoutMain.addLayout(layoutCol2) layoutCol1.addWidget(self.dispatcherView) #Add the dispatcher to col1 layoutCol1.addWidget(self.saveData) layoutCol1.addWidget(self.manualControl) self.clearButton = QtGui.QPushButton('Clear Stim List', self) self.clearButton.clicked.connect(self.clear_tone_list) layoutCol1.addWidget(self.clearButton) layoutCol2.addWidget(timingParams) #Add the parameter GUI to column 2 self.centralWidget.setLayout(layoutMain) #Assign the layouts to the main window self.setCentralWidget(self.centralWidget) # -- Connect signals from dispatcher -- #prepare_next_trial is sent whenever the dispatcher reaches the end of #the current trial. self.dispatcherModel.prepareNextTrial.connect(self.prepare_next_trial) # -- Connect the save data button -- self.saveData.buttonSaveData.clicked.connect(self.save_to_file) print "Connecting to sound server" print '***** FIXME: HARDCODED TIME DELAY TO WAIT FOR SERIAL PORT! *****' time.sleep(0.2) self.soundClient = soundclient.SoundClient() self.soundClient.start() #soundFreq = self.params['soundFreq'].get_value() # -- Initialize the list of trial parameters -- self.trialParams = [] self.soundParamList = []
def __init__(self, parent=None, paramfile=None, paramdictname=None): ''' Set up the taskontrol core modules, add parameters to the GUI, and initialize the sound server. ''' super(Paradigm, self).__init__(parent) self.name = 'bandwidth_am' # -- Read settings -- smServerType = rigsettings.STATE_MACHINE_TYPE # -- Create the speaker calibration objects self.noiseCal = speakercalibration.NoiseCalibration( rigsettings.SPEAKER_CALIBRATION_NOISE) self.toneCal = speakercalibration.Calibration( rigsettings.SPEAKER_CALIBRATION_SINE) # -- Create dispatcher -- self.dispatcherModel = dispatcher.Dispatcher(serverType=smServerType, interval=0.1) self.dispatcherView = dispatcher.DispatcherGUI( model=self.dispatcherModel) # -- Manual control of outputs -- self.manualControl = manualcontrol.ManualControl( self.dispatcherModel.statemachine) # -- Add parameters -- self.params = paramgui.Container() self.params['experimenter'] = paramgui.StringParam('Experimenter', value='santiago', group='Session') self.params['subject'] = paramgui.StringParam('Subject', value='test030', group='Session') self.params['charFreq'] = paramgui.NumericParam( 'Characteristic Frequency (Hz)', value=8000, group='Session') self.params['modRate'] = paramgui.NumericParam('Modulation rate', value=2.0, group='Session') sessionParams = self.params.layout_group('Session') self.params['minAmp'] = paramgui.NumericParam( 'Min noise amplitude (dB)', value=40, group='Sound Parameters') self.params['maxAmp'] = paramgui.NumericParam( 'Max noise amplitude (dB)', value=60, group='Sound Parameters') self.params['numAmps'] = paramgui.NumericParam( 'Number of Amplitudes', value=2, group='Sound Parameters') self.params['minBand'] = paramgui.NumericParam( 'Minimum bandwidth (octaves)', value=0.25, group='Sound Parameters') self.params['maxBand'] = paramgui.NumericParam( 'Maximum bandwidth (octaves)', value=2.0, group='Sound Parameters') self.params['numBands'] = paramgui.NumericParam( 'Number of bandwidths', value=4, group='Sound Parameters') # -- Added extremes as separate option in case we want to add other stim types (unmodulated white noise) -- self.params['whiteNoise'] = paramgui.MenuParam( 'Add white noise to bandwidths?', ['yes', 'no'], value=0, group='Sound Parameters') self.params['pureTone'] = paramgui.MenuParam( 'Add pure tone to bandwidths?', ['yes', 'no'], value=1, group='Sound Parameters') self.params['soundType'] = paramgui.MenuParam( 'Sound type', ['full_spectrum', 'harmonics', 'both'], value=0, group='Sound Parameters') self.params['stimDur'] = paramgui.NumericParam( 'Stimulus Duration (s)', value=1.0, group='Sound Parameters') self.params['isiMean'] = paramgui.NumericParam( 'Interstimulus interval mean (s)', value=2, group='Sound Parameters') self.params['isiHalfRange'] = paramgui.NumericParam( '+/-', value=1, group='Sound Parameters') self.params['randomMode'] = paramgui.MenuParam( 'Presentation Mode', ['Ordered', 'Random'], value=1, group='Sound Parameters') soundParams = self.params.layout_group('Sound Parameters') self.params['signalType'] = paramgui.MenuParam( 'Include pure tone signal?', ['yes', 'no'], value=1, group='Signal Parameters') self.params['minSNR'] = paramgui.NumericParam( 'Minimum signal to noise', value=10, decimals=0, units='dB', group='Signal Parameters') self.params['maxSNR'] = paramgui.NumericParam( 'Maximum signal to noise', value=20, decimals=0, units='dB', group='Signal Parameters') self.params['numSNRs'] = paramgui.NumericParam( 'Number of SNRs', value=3, decimals=0, units='dB', group='Signal Parameters') signalParams = self.params.layout_group('Signal Parameters') self.params['laserPercent'] = paramgui.MenuParam( 'Percentage of trials with laser', ['0%', '50%', '100%'], value=1, group='Laser Parameters') self.params['laserType'] = paramgui.MenuParam('Laser colour', ['blue', 'green'], value=1, group='Laser Parameters') self.params['laserFrontOverhang'] = paramgui.NumericParam( 'Laser Front Overhang', value=0, group='Laser Parameters', decimals=1) self.params['laserBackOverhang'] = paramgui.NumericParam( 'Laser Back Overhang', value=0, group='Laser Parameters', decimals=1) laserParams = self.params.layout_group('Laser Parameters') self.params['currentAmp'] = paramgui.NumericParam( 'Current Amplitude', value=0, enabled=False, group='Current Trial', decimals=1) self.params['currentBand'] = paramgui.NumericParam( 'Current Bandwidth', value=0, enabled=False, group='Current Trial', decimals=2) self.params['currentSNR'] = paramgui.NumericParam( 'Current SNR', value=0.0, decimals=1, units='dB', enabled=False, group='Current Trial') self.params['laserTrial'] = paramgui.NumericParam( 'Laser Trial?', value=0, enabled=False, group='Current Trial', decimals=0) self.params['harmTrialType'] = paramgui.NumericParam( 'Harmonics Trial?', value=0, enabled=False, group='Current Trial', decimals=0) trialParams = self.params.layout_group('Current Trial') # -- Load parameters from a file -- self.params.from_file(paramfile, paramdictname) # -- Create an empty state matrix -- self.sm = statematrix.StateMatrix(inputs=rigsettings.INPUTS, outputs=rigsettings.OUTPUTS, readystate='readyForNextTrial') # -- Module for saving the data -- self.saveData = savedata.SaveData(rigsettings.DATA_DIR, remotedir=rigsettings.REMOTE_DIR) self.saveData.checkInteractive.setChecked(True) # -- Add graphical widgets to main window -- self.centralWidget = QtGui.QWidget() layoutMain = QtGui.QHBoxLayout() #Create a main layout and two columns layoutCol1 = QtGui.QVBoxLayout() layoutCol2 = QtGui.QVBoxLayout() layoutMain.addLayout(layoutCol1) #Add the columns to the main layout layoutMain.addLayout(layoutCol2) layoutCol1.addWidget(self.dispatcherView) #Add the dispatcher to col1 layoutCol1.addWidget(self.saveData) layoutCol1.addWidget(self.manualControl) layoutCol1.addWidget(trialParams) self.clearButton = QtGui.QPushButton('Clear Stim List', self) self.clearButton.clicked.connect(self.clear_tone_list) layoutCol1.addWidget(self.clearButton) layoutCol2.addWidget(sessionParams) #Add the parameter GUI to column 2 layoutCol2.addWidget(soundParams) layoutCol2.addWidget(signalParams) layoutCol2.addWidget(laserParams) self.centralWidget.setLayout( layoutMain) #Assign the layouts to the main window self.setCentralWidget(self.centralWidget) # -- Connect signals from dispatcher -- #prepare_next_trial is sent whenever the dispatcher reaches the end of #the current trial. self.dispatcherModel.prepareNextTrial.connect(self.prepare_next_trial) # -- Connect the save data button -- self.saveData.buttonSaveData.clicked.connect(self.save_to_file) print "Connecting to sound server" print '***** FIXME: HARDCODED TIME DELAY TO WAIT FOR SERIAL PORT! *****' time.sleep(0.2) self.soundClient = soundclient.SoundClient() self.soundClient.start() #soundFreq = self.params['soundFreq'].get_value() # -- Initialize the list of trial parameters -- self.trialParams = [] self.soundParamList = []
def __init__(self, parent=None, paramfile=None, paramdictname=None): super(Paradigm, self).__init__(parent) #self.setStyleSheet(stylesheets.styleCompact) # -- Read settings -- smServerType = rigsettings.STATE_MACHINE_TYPE #smServerType = 'dummy' # -- Module for saving data -- self.saveData = savedata.SaveData(rigsettings.DATA_DIR) # -- Sides plot -- sidesplot.set_pg_colors(self) self.mySidesPlot = sidesplot.SidesPlot(nTrials=80) # -- Create an empty state matrix -- self.sm = statematrix.StateMatrix(inputs=rigsettings.INPUTS, outputs=rigsettings.OUTPUTS, readystate='ready_next_trial') # -- Add parameters -- self.params = paramgui.Container() self.params['experimenter'] = paramgui.StringParam( 'Experimenter', value='santiago', group='Session info') self.params['subject'] = paramgui.StringParam('Subject', value='saja000', group='Session info') sessionInfo = self.params.layout_group('Session info') self.params['stimulusDuration'] = paramgui.NumericParam( 'Stim duration', value=0.2, group='Timing parameters') self.params['rewardDuration'] = paramgui.NumericParam( 'Reward duration', value=0.05, group='Timing parameters') timingParams = self.params.layout_group('Timing parameters') # -- Load parameters from a file -- #self.params.from_file('params_008.py','saja002') ### DEBUG self.params.from_file(paramfile, paramdictname) # -- Create dispatcher -- self.dispatcherModel = dispatcher.Dispatcher(serverType=smServerType, interval=0.3) self.dispatcherView = dispatcher.DispatcherGUI( model=self.dispatcherModel) # -- Manual control of outputs -- self.manualControl = manualcontrol.ManualControl( self.dispatcherModel.statemachine) # -- Add graphical widgets to main window -- centralWidget = QtGui.QWidget() layoutMain = QtGui.QVBoxLayout() layoutTop = QtGui.QVBoxLayout() layoutBottom = QtGui.QHBoxLayout() layoutCol1 = QtGui.QVBoxLayout() layoutCol2 = QtGui.QVBoxLayout() layoutMain.addLayout(layoutTop) #layoutMain.addStretch() layoutMain.addSpacing(0) layoutMain.addLayout(layoutBottom) layoutTop.addWidget(self.mySidesPlot) layoutBottom.addLayout(layoutCol1) layoutBottom.addLayout(layoutCol2) layoutCol1.addWidget(self.saveData) layoutCol1.addWidget(sessionInfo) layoutCol1.addWidget(self.dispatcherView) layoutCol2.addWidget(timingParams) layoutCol2.addWidget(self.manualControl) centralWidget.setLayout(layoutMain) self.setCentralWidget(centralWidget) # -- Center in screen -- self.center_in_screen() # -- Add variables for storing results -- maxNtrials = 4000 self.results = arraycontainer.Container() self.results.labels['rewardSide'] = {'left': 0, 'right': 1} self.results['rewardSide'] = np.random.randint(2, size=maxNtrials) self.results.labels['choice'] = {'left': 0, 'right': 1, 'none': 2} self.results['choice'] = np.empty(maxNtrials, dtype=int) self.results.labels['outcome'] = { 'correct': 1, 'error': 0, 'invalid': 2 } self.results['outcome'] = np.empty(maxNtrials, dtype=int) self.results['timeTrialStart'] = np.empty(maxNtrials, dtype=float) self.results['timeCenterIn'] = np.empty(maxNtrials, dtype=float) self.results['timeCenterOut'] = np.empty(maxNtrials, dtype=float) self.results['timeSideIn'] = np.empty(maxNtrials, dtype=float) # --- Create state matrix --- #self.set_state_matrix() ################# ????????????? # -- Connect signals from dispatcher -- self.dispatcherModel.prepareNextTrial.connect(self.prepare_next_trial) ###self.dispatcherModel.startNewTrial.connect(self.start_new_trial) self.dispatcherModel.timerTic.connect(self.timer_tic) # -- Connect messenger -- self.messagebar = messenger.Messenger() self.messagebar.timedMessage.connect(self.show_message) #self.messagebar.timedMessage.emit('Created window') self.messagebar.collect('Created window') # -- Connect signals to messenger self.saveData.logMessage.connect(self.messagebar.collect) self.dispatcherModel.logMessage.connect(self.messagebar.collect) # -- Connect other signals -- self.saveData.buttonSaveData.clicked.connect(self.save_to_file) # -- Prepare first trial -- self.prepare_next_trial(0)
def __init__(self, parent=None): super(Protocol, self).__init__(parent) # -- Read settings -- smhost = rigsettings.STATE_MACHINE_SERVER # -- Add widgets -- centralWidget = QtGui.QWidget() self.dispatcher = dispatcher.Dispatcher(host=smhost, interval=0.3, connectnow=True, dummy=True) self.saveData = savedata.SaveData() self.evplot = eventsplot.EventsPlot(xlim=[0, 4]) self.manualControl = manualcontrol.ManualControl(self.dispatcher) # -- Parameters -- self.params = paramgui.Container() self.params['experimenter'] = paramgui.StringParam( 'Experimenter', value='santiago', group='Session info', history=False) self.params['animal'] = paramgui.StringParam('Animal', value='saja000', group='Session info', history=False) self.params['soundDuration'] = paramgui.NumericParam('Sound Duration', value=0.1, group='Sound') self.params['irrelevantParam1'] = paramgui.NumericParam('Irrelevant 1', value=0, group='Sound') self.params['irrelevantParam2'] = paramgui.NumericParam('Irrelevant 2', value=0, group='Sound') self.params['chooseNumber'] = paramgui.MenuParam( 'MenuParam', ('One', 'Two', 'Three'), group='Sound') self.params['anotherNumber'] = paramgui.MenuParam( 'AnotherParam', ('VerLongOne', 'VerLongTwo', 'VerLongThree'), group='Sound') for ind in range(6): self.params['par%d' % ind] = paramgui.NumericParam( 'Param%d' % ind, value=1.0 * (ind + 1), group='OtherParams') groupSessionInfo = self.params.layoutGroup('Session info') groupSound = self.params.layoutGroup('Sound') groupOther = self.params.layoutGroup('OtherParams') layoutMain = QtGui.QVBoxLayout() layoutTop = QtGui.QVBoxLayout() layoutBottom = QtGui.QHBoxLayout() layoutCol0 = QtGui.QVBoxLayout() layoutCol1 = QtGui.QVBoxLayout() layoutCol2 = QtGui.QVBoxLayout() layoutMain.addLayout(layoutTop) layoutMain.addStretch() layoutMain.addLayout(layoutBottom) layoutTop.addWidget(self.evplot) layoutBottom.addLayout(layoutCol0) layoutBottom.addLayout(layoutCol1) layoutBottom.addLayout(layoutCol2) layoutCol0.addWidget(self.saveData) layoutCol0.addWidget(groupSessionInfo) layoutCol0.addWidget(self.dispatcher) layoutCol1.addWidget(self.manualControl) layoutCol1.addWidget(groupSound) layoutCol2.addWidget(groupOther) centralWidget.setLayout(layoutMain) self.setCentralWidget(centralWidget) # --- Create state matrix --- self.sm = statematrix.StateMatrix(readystate=('ready_next_trial', 1)) self.setStateMatrix() # -- Setup events plot -- #self.evplot.setStatesColor(np.random.rand(6)) ''' statesColor = [ [255,0,0],[0,255,0],[0,0,255],\ [255,255,0],[255,0,255],[0,255,255] ] self.evplot.setStatesColor(statesColor) ''' statesColorDict = { 'wait_for_cpoke': [127, 127, 255], 'play_target': [255, 255, 0], 'wait_for_apoke': [191, 191, 255], 'reward': [0, 255, 0], 'punish': [255, 0, 0], 'ready_next_trial': [0, 0, 0] } self.evplot.setStatesColor(statesColorDict, self.sm.getStatesDict()) # -- Connect signals from dispatcher -- self.connect(self.dispatcher, QtCore.SIGNAL('PrepareNextTrial'), self.prepareNextTrial) self.connect(self.dispatcher, QtCore.SIGNAL('StartNewTrial'), self.startNewTrial) self.connect(self.dispatcher, QtCore.SIGNAL('TimerTic'), self.timerTic) self.connect(self.saveData.buttonSaveData, QtCore.SIGNAL('clicked()'), self.fileSave) # -- Connect messenger -- self.mymess = messenger.Messenger() self.connect(self.mymess.emitter, QtCore.SIGNAL('NewMessage'), self.showMessage) self.mymess.send('Created window')
def __init__(self, parent=None, paramfile=None, paramdictname=None): super(Paradigm2AFC, self).__init__(parent) self.name = '2afc' smServerType = rigsettings.STATE_MACHINE_TYPE # -- Sides plot -- sidesplot.set_pg_colors(self) self.mySidesPlot = sidesplot.SidesPlot(nTrials=120) # -- Module for saving data -- self.saveData = savedata.SaveData(rigsettings.DATA_DIR, remotedir=rigsettings.REMOTE_DIR) # -- Create an empty state matrix -- self.sm = statematrix.StateMatrix(inputs=rigsettings.INPUTS, outputs=rigsettings.OUTPUTS, readystate='readyForNextTrial') # -- Add parameters -- self.params = paramgui.Container() self.params['trainer'] = paramgui.StringParam('Trainer (initials)', value='', group='Session info') self.params['experimenter'] = paramgui.StringParam('Experimenter', value='experimenter', group='Session info') self.params['subject'] = paramgui.StringParam('Subject',value='subject', group='Session info') self.sessionInfo = self.params.layout_group('Session info') # -- Create dispatcher -- self.dispatcherModel = dispatcher.Dispatcher(serverType=smServerType,interval=0.1) self.dispatcherView = dispatcher.DispatcherGUI(model=self.dispatcherModel) # -- Connect to sound server and define sounds -- # FINISH # -- Manual control of outputs -- self.manualControl = manualcontrol.ManualControl(self.dispatcherModel.statemachine) # -- Add graphical widgets to main window -- self.centralWidget = QtGui.QWidget() layoutMain = QtGui.QVBoxLayout() layoutTop = QtGui.QVBoxLayout() layoutBottom = QtGui.QHBoxLayout() layoutCol1 = QtGui.QVBoxLayout() layoutCol2 = QtGui.QVBoxLayout() layoutMain.addLayout(layoutTop) #layoutMain.addStretch() layoutMain.addSpacing(0) layoutMain.addLayout(layoutBottom) layoutTop.addWidget(self.mySidesPlot) layoutBottom.addLayout(layoutCol1) layoutBottom.addLayout(layoutCol2) layoutCol1.addWidget(self.saveData) layoutCol1.addWidget(self.sessionInfo) layoutCol1.addWidget(self.dispatcherView) layoutCol2.addWidget(self.manualControl) layoutCol2.addStretch() self.centralWidget.setLayout(layoutMain) self.setCentralWidget(self.centralWidget) # -- Center in screen -- self._center_in_screen() # -- Add variables storing results -- self.results = arraycontainer.Container() # -- Connect signals from dispatcher -- self.dispatcherModel.prepareNextTrial.connect(self.prepare_next_trial) self.dispatcherModel.timerTic.connect(self._timer_tic) # -- Connect messenger -- self.messagebar = messenger.Messenger() self.messagebar.timedMessage.connect(self._show_message) self.messagebar.collect('Created window') # -- Connect signals to messenger self.saveData.logMessage.connect(self.messagebar.collect) self.dispatcherModel.logMessage.connect(self.messagebar.collect) # -- Connect other signals -- self.saveData.buttonSaveData.clicked.connect(self.save_to_file)
def __init__(self, parent=None, paramfile=None, paramdictname=None, dummy=False): super(WaterCalibration, self).__init__(parent) self.name = '2afc' # -- Read settings -- if dummy: smServerType = 'dummy' else: smServerType = rigsettings.STATE_MACHINE_TYPE # -- Module for saving data -- self.saveData = savedata.SaveData(rigsettings.DATA_DIR) # -- Create an empty state matrix -- self.sm = statematrix.StateMatrix(inputs=rigsettings.INPUTS, outputs=rigsettings.OUTPUTS, readystate='readyForNextTrial') # -- Add parameters -- self.params = paramgui.Container() ''' self.params['experimenter'] = paramgui.StringParam('Experimenter', value='experimenter', group='Session info') self.params['subject'] = paramgui.StringParam('Subject',value='subject', group='Session info') self.sessionInfo = self.params.layout_group('Session info') ''' self.params['timeWaterValveL'] = paramgui.NumericParam( 'Time valve left', value=0.04, units='s', group='Valves times') #self.params['timeWaterValveC'] = paramgui.NumericParam('Time valve center',value=0.04, # units='s',group='Valves times') self.params['timeWaterValveR'] = paramgui.NumericParam( 'Time valve right', value=0.04, units='s', group='Valves times') valvesTimes = self.params.layout_group('Valves times') self.params['waterVolumeL'] = paramgui.NumericParam( 'Water volume left', value=0, units='ml', group='Water volume') #self.params['waterVolumeC'] = paramgui.NumericParam('Water volume center',value=0, # units='ml',group='Water volume') self.params['waterVolumeR'] = paramgui.NumericParam( 'Water volume right', value=0, units='ml', group='Water volume') waterVolume = self.params.layout_group('Water volume') self.params['offTime'] = paramgui.NumericParam('Time between', value=0.5, units='s', group='Schedule') self.params['nDeliveries'] = paramgui.NumericParam('N deliveries', value=2, units='', group='Schedule') self.params['nDelivered'] = paramgui.NumericParam('N delivered', value=0, units='', group='Schedule') self.params['nDelivered'].set_enabled(False) schedule = self.params.layout_group('Schedule') # -- Create dispatcher -- self.dispatcherModel = dispatcher.Dispatcher(serverType=smServerType, interval=0.1) self.dispatcherView = dispatcher.DispatcherGUI( model=self.dispatcherModel) # -- Manual control of outputs -- self.manualControl = manualcontrol.ManualControl( self.dispatcherModel.statemachine) # -- Add graphical widgets to main window -- self.centralWidget = QtGui.QWidget() layoutMain = QtGui.QHBoxLayout() layoutCol1 = QtGui.QVBoxLayout() layoutCol2 = QtGui.QVBoxLayout() layoutCol3 = QtGui.QVBoxLayout() layoutCol1.addWidget(self.saveData) #layoutCol1.addWidget(self.sessionInfo) layoutCol1.addWidget(self.dispatcherView) layoutCol2.addWidget(valvesTimes) layoutCol2.addStretch() layoutCol2.addWidget(self.manualControl) layoutCol3.addWidget(waterVolume) layoutCol3.addStretch() layoutCol3.addWidget(schedule) layoutMain.addLayout(layoutCol1) layoutMain.addLayout(layoutCol2) layoutMain.addLayout(layoutCol3) self.centralWidget.setLayout(layoutMain) self.setCentralWidget(self.centralWidget) # -- Add variables storing results -- self.results = arraycontainer.Container() # -- Connect signals from dispatcher -- self.dispatcherModel.prepareNextTrial.connect(self.prepare_next_trial) self.dispatcherModel.timerTic.connect(self._timer_tic) # -- Connect messenger -- self.messagebar = messenger.Messenger() self.messagebar.timedMessage.connect(self._show_message) self.messagebar.collect('Created window') # -- Connect signals to messenger self.saveData.logMessage.connect(self.messagebar.collect) self.dispatcherModel.logMessage.connect(self.messagebar.collect) # -- Connect other signals -- self.saveData.buttonSaveData.clicked.connect(self.save_to_file) # -- Center in screen -- paramgui.center_in_screen(self)