def record(self, sec, file='', block=True):
"""Capture sound input for duration <sec>, save to a file.
Return the path/name to the new file. Uses onset time (epoch) as
a meaningful identifier for filename and log.
"""
while self.recorder.running:
pass
self.duration = float(sec)
self.onset = core.getTime() # note: report onset time in log, and use in filename
logging.data('%s: Record: onset %.3f, capture %.3fs' %
(self.loggingId, self.onset, self.duration) )
if not file:
onsettime = '-%.3f' % self.onset
self.savedFile = onsettime.join(os.path.splitext(self.wavOutFilename))
else:
self.savedFile = os.path.abspath(file).strip('.wav') + '.wav'
t0 = core.getTime()
self.recorder.run(self.savedFile, self.duration, self.sampletype)
self.rate = sound.pyoSndServer.getSamplingRate()
if block:
core.wait(self.duration - .0008) # .0008 fudge factor for better reporting
# actual timing is done by Clean_objects
logging.exp('%s: Record: stop. %.3f, capture %.3fs (est)' %
(self.loggingId, core.getTime(), core.getTime() - t0) )
else:
logging.exp('%s: Record: return immediately, no blocking' %
(self.loggingId) )
return self.savedFile
def waitKeys(maxWait=float('inf'), keyList=None, timeStamped=False):
"""
Same as `~psychopy.event.getKeys`, but halts everything (including drawing) while awaiting
input from keyboard. Implicitly clears keyboard, so any preceding keypresses will be lost.
:Parameters:
maxWait : any numeric value.
Maximum number of seconds period and which keys to wait for.
Default is float('inf') which simply waits forever.
Returns None if times out.
"""
#NB pygame.event does have a wait() function that will
#do this and maybe leave more cpu idle time?
key = None
clearEvents('keyboard') # So that we only take presses from here onwards.
# Check for keypresses until maxWait is exceeded
timer = psychopy.core.Clock()
while key == None and timer.getTime() < maxWait:
# Pump events on pyglet windows if they exist
if havePyglet:
wins = pyglet.window.get_platform().get_default_display().get_windows()
for win in wins: win.dispatch_events()
# Get keypresses and return if anything is pressed
keys = getKeys(keyList=keyList, timeStamped=timeStamped)
if len(keys):
return keys
# If maxWait is exceeded (exits while-loop), return None
logging.data("No keypress (maxWait exceeded)")
return None
def record(self, sec, block=True):
"""Capture sound input for duration <sec>, save to a file.
Return the path/name to the new file. Uses onset time (epoch) as
a meaningful identifier for filename and log.
"""
RECORD_SECONDS = float(sec)
self.onset = time.time() # note: report onset time in log, and use in filename
logging.data('%s: Record: onset %.3f, capture %.3fs' %
(self.loggingId, self.onset, RECORD_SECONDS) )
self.savedFile = self.wavOutFilename.replace(ONSET_TIME_HERE, '-%.3f' % self.onset)
inputter = Input(chnl=0, mul=1) # chnl=[0,1] for stereo input
t0 = time.time()
# launch the recording, saving to file:
recorder = Record(inputter,
self.savedFile,
chnls=2,
fileformat=0, # .wav format
sampletype=0,
buffering=4) # 4 is default
# launch recording, block as needed, and clean up:
clean = Clean_objects(RECORD_SECONDS, recorder) # set up to stop recording
clean.start() # the timer starts now, ends automatically whether block or not
if block:
time.sleep(RECORD_SECONDS - 0.0008) # Clean_objects() set-up takes ~0.0008s, for me
logging.exp('%s: Record: stop. %.3f, capture %.3fs (est)' %
(self.loggingId, time.time(), time.time() - t0) )
else:
logging.exp('%s: Record: return immediately, no blocking' %
(self.loggingId) )
self.duration = RECORD_SECONDS # used in playback()
return self.savedFile # filename, or None
def _onPygletKey(symbol, modifiers, emulated=False):
"""handler for on_key_press pyglet events, or call directly to emulate a key press
Appends a tuple with (keyname, timepressed) into the global _keyBuffer. The
_keyBuffer can then be accessed as normal using event.getKeys(), .waitKeys(),
clearBuffer(), etc.
J Gray 2012: Emulated means add a key (symbol) to the buffer virtually.
This is useful for fMRI_launchScan, and for unit testing (in testTheApp)
Logging distinguished EmulatedKey events from real Keypress events.
For emulation, the key added to the buffer is unicode(symbol), instead of
pyglet.window.key.symbol_string(symbol)
S Mathot 2012: Implement fallback to _onPygletText
"""
global useText
keyTime=psychopy.core.getTime() #capture when the key was pressed
if emulated:
thisKey = unicode(symbol)
keySource = 'EmulatedKey'
else:
thisKey = pyglet.window.key.symbol_string(symbol).lower() #convert symbol into key string
#convert pyglet symbols to pygame forms ( '_1'='1', 'NUM_1'='[1]')
# 'user_key' indicates that Pyglet has been unable to make sense out of
# the keypress. In that case, we fall back to _onPygletText to handle
# the input.
if 'user_key' in thisKey:
useText = True
return
useText = False
thisKey = thisKey.lstrip('_').lstrip('NUM_')
keySource = 'Keypress'
_keyBuffer.append( (thisKey,keyTime) ) # tuple
logging.data("%s: %s" % (keySource, thisKey))
def _record(self, sec, filename="", block=True, log=True):
while self.recorder.running:
pass
self.duration = float(sec)
self.onset = core.getTime() # for duration estimation, high precision
self.fileOnset = core.getAbsTime() # for log and filename, 1 sec precision
ms = "%.3f" % (core.getTime() - int(core.getTime()))
if log and self.autoLog:
logging.data("%s: Record: onset %d, capture %.3fs" % (self.loggingId, self.fileOnset, self.duration))
if not filename:
onsettime = "-%d" % self.fileOnset + ms[1:]
self.savedFile = onsettime.join(os.path.splitext(self.wavOutFilename))
else:
self.savedFile = os.path.abspath(filename).strip(".wav") + ".wav"
t0 = core.getTime()
self.recorder.run(self.savedFile, self.duration, **self.options)
self.rate = sound.pyoSndServer.getSamplingRate()
if block:
core.wait(self.duration, 0)
if log and self.autoLog:
logging.exp(
"%s: Record: stop. %.3f, capture %.3fs (est)"
% (self.loggingId, core.getTime(), core.getTime() - t0)
)
while self.recorder.running:
core.wait(0.001, 0)
else:
if log and self.autoLog:
logging.exp("%s: Record: return immediately, no blocking" % (self.loggingId))
return self.savedFile
def _onGLFWKey(*args, **kwargs):
"""Callback for key/character events for the GLFW backend.
:return:
"""
keyTime = psychopy.core.getTime() # get timestamp
# TODO - support for key emulation
win_ptr, key, scancode, action, modifiers = args
global useText
if key == glfw.KEY_UNKNOWN:
useText = True
return
useText = False
# get the printable name, always make lowercase
key_name = glfw.get_key_name(key, scancode)
# if there is no localized key name or space
if key_name is None or key_name == ' ':
try:
key_name = _glfw_keycodes_[key]
except KeyError:
pass
else:
key_name = key_name.lower()
# TODO - modifier integration
keySource = 'Keypress'
_keyBuffer.append((key_name, modifiers, keyTime)) # tuple
logging.data("%s: %s" % (keySource, key_name))
def _onPygletText(text, emulated=False):
"""handler for on_text pyglet events, or call directly to emulate a text
event.
S Mathot 2012: This function only acts when the key that is pressed
corresponds to a non-ASCII text character (Greek, Arabic, Hebrew, etc.).
In that case the symbol that is passed to _onPygletKey() is translated
into a useless 'user_key()' string. If this happens, _onPygletText takes
over the role of capturing the key. Unfortunately, _onPygletText()
cannot solely handle all input, because it does not respond to spacebar
presses, etc.
"""
global useText
if not useText: # _onPygletKey has handled the input
return
# This is needed because sometimes the execution
# sequence is messed up (somehow)
useText = False
# capture when the key was pressed:
keyTime = psychopy.core.getTime()
if emulated:
keySource = 'EmulatedKey'
else:
keySource = 'KeyPress'
_keyBuffer.append((text.lower(), lastModifiers, keyTime))
logging.data("%s: %s" % (keySource, text))
def _record(self, sec, filename='', block=True):
while self.recorder.running:
pass
self.duration = float(sec)
self.onset = core.getTime() # for duration estimation, high precision
self.fileOnset = core.getAbsTime() # for log and filename, 1 sec precision
logging.data('%s: Record: onset %d, capture %.3fs' %
(self.loggingId, self.fileOnset, self.duration) )
if not file:
onsettime = '-%d' % self.fileOnset
self.savedFile = onsettime.join(os.path.splitext(self.wavOutFilename))
else:
self.savedFile = os.path.abspath(filename).strip('.wav') + '.wav'
t0 = core.getTime()
self.recorder.run(self.savedFile, self.duration, **self.options)
self.rate = sound.pyoSndServer.getSamplingRate()
if block:
core.wait(self.duration, 0)
logging.exp('%s: Record: stop. %.3f, capture %.3fs (est)' %
(self.loggingId, core.getTime(), core.getTime() - t0) )
while self.recorder.running:
core.wait(.001, 0)
else:
logging.exp('%s: Record: return immediately, no blocking' %
(self.loggingId) )
return self.savedFile
def _onGLFWMouseScroll(*args, **kwargs):
"""Callback for mouse scrolling events. For most computer mice with scroll
wheels, only the vertical (Y-offset) is relevant.
"""
window_ptr, x_offset, y_offset = args
global mouseWheelRel
mouseWheelRel = mouseWheelRel + numpy.array([x_offset, y_offset])
msg = "Mouse: wheel shift=(%i,%i)"
logging.data(msg % (x_offset, y_offset))
def _onPygletMouseRelease(x,y, button, modifiers):
global mouseButtons
if button == pyglet.window.mouse.LEFT:
mouseButtons[0]=0
label='Left'
if button == pyglet.window.mouse.MIDDLE:
mouseButtons[1]=0
label='Middle'
if button == pyglet.window.mouse.RIGHT:
mouseButtons[2]=0
label='Right'
logging.data("Mouse: %s button up, pos=(%i,%i)" %(label, x,y))
def _onPygletKey(symbol, modifiers, emulated=False):
"""handler for on_key_press pyglet events; call directly to emulate a
key press
Appends a tuple with (keyname, timepressed) into the global _keyBuffer.
The _keyBuffer can then be accessed as normal using event.getKeys(),
.waitKeys(), clearBuffer(), etc.
J Gray 2012: Emulated means add a key (symbol) to the buffer virtually.
This is useful for fMRI_launchScan, and for unit testing (in testTheApp)
Logging distinguishes EmulatedKey events from real Keypress events.
For emulation, the key added to the buffer is unicode(symbol), instead of
pyglet.window.key.symbol_string(symbol).
S Mathot 2012: Implement fallback to _onPygletText
5AM Solutions 2016: Add the keyboard modifier flags to the key buffer.
M Cutone 2018: Added GLFW backend support.
"""
global useText, lastModifiers
keyTime = psychopy.core.getTime() # capture when the key was pressed
if emulated:
if not isinstance(modifiers, int):
msg = 'Modifiers must be passed as an integer value.'
raise ValueError(msg)
thisKey = str(symbol)
keySource = 'EmulatedKey'
else:
thisKey = pyglet.window.key.symbol_string(
symbol).lower() # convert symbol into key string
# convert pyglet symbols to pygame forms ( '_1'='1', 'NUM_1'='[1]')
# 'user_key' indicates that Pyglet has been unable to make sense
# out of the keypress. In that case, we fall back to _onPygletText
# to handle the input.
if 'user_key' in thisKey:
useText = True
lastModifiers = modifiers
return
useText = False
thisKey = thisKey.lstrip('_').lstrip('NUM_')
# Pyglet 1.3.0 returns 'enter' when Return key (0xFF0D) is pressed
# in Windows Python3. So we have to replace 'enter' with 'return'.
if thisKey == 'enter':
thisKey = 'return'
keySource = 'Keypress'
_keyBuffer.append((thisKey, modifiers, keyTime)) # tuple
logging.data("%s: %s" % (keySource, thisKey))
_process_global_event_key(thisKey, modifiers)
def stop(self):
"""Interrupt a recording that is in progress; close & keep the file.
Ends the recording before the duration that was initially specified. The
same file name is retained, with the same onset time but a shorter duration.
The same recording cannot be resumed after a stop (it is not a pause),
but you can start a new one.
"""
if not self.recorder.running:
logging.exp('%s: Stop requested, but no record() in progress' % self.loggingId )
return
self.duration = core.getTime() - self.onset # new shorter duration
self.recorder.stop()
logging.data('%s: Record stopped early, new duration %.3fs' % (self.loggingId, self.duration))
def _onPygletMousePress(x,y, button, modifiers):
global mouseButtons, mouseClick, mouseTimes
if button == pyglet.window.mouse.LEFT:
mouseButtons[0]=1
mouseTimes[0]= psychopy.clock.getTime()-mouseClick[0].getLastResetTime()
label='Left'
if button == pyglet.window.mouse.MIDDLE:
mouseButtons[1]=1
mouseTimes[1]= psychopy.clock.getTime()-mouseClick[1].getLastResetTime()
label='Middle'
if button == pyglet.window.mouse.RIGHT:
mouseButtons[2]=1
mouseTimes[2]= psychopy.clock.getTime()-mouseClick[2].getLastResetTime()
label='Right'
logging.data("Mouse: %s button down, pos=(%i,%i)" %(label, x,y))
def _onPygletMouseRelease(x, y, button, modifiers, emulated=False):
global mouseButtons
if emulated:
label = 'Emulated'
else:
label = ''
if button & LEFT:
mouseButtons[0] = 0
label += ' Left'
if button & MIDDLE:
mouseButtons[1] = 0
label += ' Middle'
if button & RIGHT:
mouseButtons[2] = 0
label += ' Right'
logging.data("Mouse: %s button up, pos=(%i,%i)" % (label, x, y))
def _onGLFWText(*args, **kwargs):
"""Handle unicode character events if _onGLFWKey() cannot.
:return:
"""
keyTime = psychopy.core.getTime() # get timestamp
# TODO - support for key emulation
win_ptr, codepoint, modifiers = args
# win = glfw.get_window_user_pointer(win_ptr)
text = chr(codepoint) # convert to unicode character (Python 3.0)
global useText
if not useText: # _onPygletKey has handled the input
return
keySource = 'KeyPress'
_keyBuffer.append((text, keyTime))
logging.data("%s: %s" % (keySource, text))
def _record(self, sec, filename='', block=True, log=True):
filename = pathToString(filename)
while self.recorder.running:
pass
self.duration = float(sec)
# for duration estimation, high precision:
self.onset = core.getTime()
# use time for unique log and filename, 1 sec precision
self.fileOnset = core.getAbsTime()
ms = "%.3f" % (core.getTime() - int(core.getTime()))
if log and self.autoLog:
msg = '%s: Record: onset %d, capture %.3fs'
logging.data(msg % (self.loggingId, self.fileOnset,
self.duration))
if not filename:
onsettime = '-%d' % self.fileOnset + ms[1:]
self.savedFile = onsettime.join(
os.path.splitext(self.wavOutFilename))
else:
self.savedFile = os.path.abspath(filename)
if not self.savedFile.endswith('.wav'):
self.savedFile += '.wav'
t0 = core.getTime()
self.recorder.run(self.savedFile, self.duration, **self.options)
self.rate = sound.backend.pyoSndServer.getSamplingRate()
if block:
core.wait(self.duration, 0)
if log and self.autoLog:
msg = '%s: Record: stop. %.3f, capture %.3fs (est)'
logging.exp(msg % (self.loggingId, core.getTime(),
core.getTime() - t0))
while self.recorder.running:
core.wait(.001, 0)
else:
if log and self.autoLog:
msg = '%s: Record: return immediately, no blocking'
logging.exp(msg % (self.loggingId))
return self.savedFile
def _onPygletMousePress(x,y, button, modifiers, emulated=False):
"""button left=1, middle=2, right=4;
"""
global mouseButtons, mouseClick, mouseTimes
if emulated:
label = 'Emulated'
else:
label = ''
if button & LEFT:
mouseButtons[0]=1
mouseTimes[0]= psychopy.clock.getTime()-mouseClick[0].getLastResetTime()
label += ' Left'
if button & MIDDLE:
mouseButtons[1]=1
mouseTimes[1]= psychopy.clock.getTime()-mouseClick[1].getLastResetTime()
label += ' Middle'
if button & RIGHT:
mouseButtons[2]=1
mouseTimes[2]= psychopy.clock.getTime()-mouseClick[2].getLastResetTime()
label += ' Right'
logging.data("Mouse: %s button down, pos=(%i,%i)" %(label.strip(), x,y))
# %% RENDER_LOOP
# Create Counters
i = 0
# give the system time to settle
core.wait(1)
# wait for scanner trigger
triggerText.draw()
myWin.flip()
event.waitKeys(keyList=['5'], timeStamped=False)
# reset clocks
clock.reset()
logging.data('StartOfRun' + unicode(expInfo['run']))
while clock.getTime() < totalTime:
keyMask = conditions[i, 0]
# blank
if conditions[i, 1] == 0:
# set texture
visTexture = wedge
# set timing for the opacity
visOpa = cycTransp
# horibar
elif conditions[i, 1] == 1:
# set stimulus position
def begin_trial(self):
logging.debug(u'Entered SentenceTrial().begin_trial()')
self.text_left.text = ''
self.text_right.text = ''
logging.info(u'{}: Reset text'.format(self.text_left.name))
logging.info(u'{}: Reset text'.format(self.text_right.name))
self.show_blank(.5 * SPEED_MULTIPLIER)
fixation_length = (1 + 1 * random()) * SPEED_MULTIPLIER
self.show_fixation(fixation_length)
sentence_correct = True
prev_pos = ''
prev_resp = ''
logging.exp(u'trial_clock: Reset time')
self.trial_clock.reset()
for pair in self.trial:
self.show_fixation(0.2 * SPEED_MULTIPLIER)
target_pos = self.show_pair(pair)
logging.exp(u'pair_clock: Reset time')
self.pair_clock.reset()
acc, response_time, response = self.get_response(target_pos)
self.clear_pair()
self.trial.addData('target_pos', target_pos)
if target_pos == 0:
self.trial.addData('target_pos.verbose', 'L')
else:
self.trial.addData('target_pos.verbose', 'R')
self.trial.addData('resp', response)
if response == 0:
self.trial.addData('resp.verbose', 'L')
else:
self.trial.addData('resp.verbose', 'R')
self.trial.addData('resp.RT',
'{:.2f}'.format(response_time * 1000))
self.trial.addData('resp.acc', acc)
self.trial.addData('prev.pos', prev_pos)
self.trial.addData('prev.resp', prev_resp)
if self.autorun:
self.trial.addData(
'TRIAL_AUTORUN',
u'EXPERIMENT IN AUTORUN MODE DO NOT USE DATA')
prev_pos = target_pos
prev_resp = response
self.parent.experiment.nextEntry()
if acc == 0:
logging.exp(u'Incorrect sentence path chosen')
sentence_correct = False
break
block_time = self.trial_clock.getTime()
self.show_feedback(sentence_correct)
self.experiment.loopEnded(self.trial)
if sentence_correct:
logging.info(u'Sentence completed accurately.')
logging.data(u'Block completion time: {}'.format(block_time))
logging.data(u'Block accuracy: {}'.format(1))
return 1, block_time, fixation_length
else:
logging.info(u'Sentence was not completed accurately.')
logging.data(u'Block completion time: {}'.format(block_time))
logging.data(u'Block accuracy: {}'.format(0))
return 0, block_time, fixation_length
def get_response(self, target_pos):
logging.exp(u'Waiting for response...')
if self.autorun:
logging.exp(u'Autorun active. Sending automatic response...')
auto_response_time = 0.5 + random()
if randint(0, 100) < 98:
return 1, auto_response_time, target_pos
else:
return 0, auto_response_time, int(not target_pos)
if self.use_srbox:
response, response_time = self.srbox.waitKeys(
keyList=[1, 5], timeStamped=self.pair_clock)
response = response[0]
else:
response, response_time = event.waitKeys(
keyList=['c', 'm'], timeStamped=self.pair_clock)[0]
logging.exp(u'Key presses received')
# response_time = self.pair_clock.getTime()
if response in ('c', 1):
response = 0
elif response in ('m', 5):
response = 1
logging.exp(u'Kepress position: {}'.format(response))
if response == target_pos:
logging.info(u'Kepress does match target position.')
logging.data(u'Response: {}'.format(response))
logging.data(u'Acc: {}'.format(1))
logging.data(u'Response time: {}'.format(response_time))
return 1, response_time, response
else:
logging.info(u'Kepress does match target position.')
logging.data(u'Response: {}'.format(response))
logging.data(u'Acc: {}'.format(0))
logging.data(u'Response time: {}'.format(response_time))
return 0, response_time, response
def _onPygletMouseWheel(x, y, scroll_x, scroll_y):
global mouseWheelRel
mouseWheelRel = mouseWheelRel + numpy.array([scroll_x, scroll_y])
msg = "Mouse: wheel shift=(%i,%i), pos=(%i,%i)"
logging.data(msg % (scroll_x, scroll_y, x, y))
"""
globalClock = core.Clock(
) #if this isn't provided the log times will reflect secs since python started
logging.setDefaultClock(globalClock) #use this for
logging.console.setLevel(
logging.DEBUG) #set the console to receive nearly all messges
logDat = logging.LogFile(
'logLastRun.log',
filemode='w', #if you set this to 'a' it will append instead of overwriting
level=logging.WARNING
) #errors, data and warnings will be sent to this logfile
#the following will go to any files with the appropriate minimum level set
logging.info('Something fairly unimportant')
logging.data('Something about our data. Data is likely very important!')
logging.warning(
'Handy while building your experiment - highlights possible flaws in code/design'
)
logging.error(
"You might have done something that PsychoPy can't handle! But hopefully this gives you some idea what."
)
#some things should be logged timestamped on the next video frame
#For instance the time of a stimulus appearing is related to the flip:
win = visual.Window([400, 400])
for n in range(5):
win.logOnFlip('frame %i occured' % n, level=logging.EXP)
if n in [2, 4]:
win.logOnFlip('an even frame occured', level=logging.EXP)
win.flip()
def waitKeys(maxWait=float('inf'),
keyList=None,
modifiers=False,
timeStamped=False,
clearEvents=True):
"""Same as `~psychopy.event.getKeys`, but halts everything
(including drawing) while awaiting input from keyboard.
:Parameters:
maxWait : any numeric value.
Maximum number of seconds period and which keys to wait for.
Default is float('inf') which simply waits forever.
keyList : **None** or []
Allows the user to specify a set of keys to check for.
Only keypresses from this set of keys will be removed from
the keyboard buffer. If the keyList is `None`, all keys will be
checked and the key buffer will be cleared completely.
NB, pygame doesn't return timestamps (they are always 0)
modifiers : **False** or True
If True will return a list of tuples instead of a list of
keynames. Each tuple has (keyname, modifiers). The modifiers
are a dict of keyboard modifier flags keyed by the modifier
name (eg. 'shift', 'ctrl').
timeStamped : **False**, True, or `Clock`
If True will return a list of tuples instead of a list of
keynames. Each tuple has (keyname, time). If a `core.Clock`
is given then the time will be relative to the `Clock`'s last
reset.
clearEvents : **True** or False
Whether to clear the keyboard event buffer (and discard preceding
keypresses) before starting to monitor for new keypresses.
Returns None if times out.
"""
if clearEvents:
# Only consider keypresses from here onwards.
# We need to invoke clearEvents(), but our keyword argument is
# also called clearEvents. We can work around this conflict by
# accessing the global scope explicitly.
globals()['clearEvents']('keyboard')
# Check for keypresses until maxWait is exceeded
#
# NB pygame.event does have a wait() function that will
# do this and maybe leave more cpu idle time?
timer = psychopy.core.Clock()
got_keypress = False
while not got_keypress and timer.getTime() < maxWait:
# Pump events on pyglet windows if they exist.
if havePyglet:
for win in _default_display_.get_windows():
win.dispatch_events()
# Get keypresses and return if anything is pressed.
keys = getKeys(keyList=keyList,
modifiers=modifiers,
timeStamped=timeStamped)
if keys:
got_keypress = True
if got_keypress:
return keys
else:
logging.data('No keypress (maxWait exceeded)')
return None
def waitKeys(maxWait = None, keyList=None):
"""
Halts everything (including drawing) while awaiting
input from keyboard. Then returns *list* of keys pressed. Implicitly clears
keyboard, so any preceding keypresses will be lost.
Optional arguments specify maximum wait period and which keys to wait for.
Returns None if times out.
"""
#NB pygame.event does have a wait() function that will
#do this and maybe leave more cpu idle time?
key=None
clearEvents('keyboard')#so that we only take presses from here onwards.
if maxWait!=None and keyList!=None:
#check keylist AND timer
timer = psychopy.core.Clock()
while key==None and timer.getTime()<maxWait:
if havePyglet:
wins = pyglet.window.get_platform().get_default_display().get_windows()
for win in wins: win.dispatch_events()#pump events on pyglet windows
keys = getKeys()
#check if we got a key in list
if len(keys)>0 and (keys[0] in keyList):
key = keys[0]
elif keyList!=None:
#check the keyList each time there's a press
while key==None:
if havePyglet:
wins = pyglet.window.get_platform().get_default_display().get_windows()
for win in wins: win.dispatch_events()#pump events on pyglet windows
keys = getKeys()
#check if we got a key in list
if len(keys)>0 and (keys[0] in keyList):
key = keys[0]
elif maxWait!=None:
#onyl wait for the maxWait
timer = psychopy.core.Clock()
while key==None and timer.getTime()<maxWait:
if havePyglet:
wins = pyglet.window.get_platform().get_default_display().get_windows()
for win in wins: win.dispatch_events()#pump events on pyglet windows
keys = getKeys()
#check if we got a key in list
if len(keys)>0:
key = keys[0]
else: #simply take the first key we get
while key==None:
if havePyglet:
wins = pyglet.window.get_platform().get_default_display().get_windows()
for win in wins: win.dispatch_events()#pump events on pyglet windows
keys = getKeys()
#check if we got a key in list
if len(keys)>0:
key = keys[0]
#after the wait period or received a valid keypress
if key:
logging.data("Key pressed: %s" %key)
return [key]#need to convert back to a list
else:
return None #no keypress in period
def main_block_design(win, globalClock):
############## Stimuli preparation ##############
# Fixation cross preparation
fixation = visual.Circle(win,
radius=10,
lineColor='white',
fillColor='white',
units='pix')
subject_instructions = visual.TextStim(win,
pos=[0, 0],
text='',
alignVert='center',
wrapWidth=1.5)
tennis_sound = sound.Sound(Path_in_sounds + sounds_filename_tennis)
house_sound = sound.Sound(Path_in_sounds + sounds_filename_house)
faces_sound = sound.Sound(Path_in_sounds + sounds_filename_faces)
tennis = [string_tennis, tennis_sound]
house = [string_house, house_sound]
faces = [string_faces, faces_sound]
############## Definitions/Functions ##############
## handle Rkey presses each frame
def escapeCondition():
for key in event.getKeys():
if key in ['escape', 'q']:
return False
return True
## Display just fixation
def displayFixation(win, fixation_time=2, break_flag=True):
timer_fixation = core.CountdownTimer(fixation_time)
while (timer_fixation.getTime() > 0 and break_flag == True):
fixation.draw()
win.flip() # Update screen
break_flag = escapeCondition()
return break_flag
## Display just a message
def displayInstruction(win,
string_instruction,
sound,
string_time=2,
break_flag=True):
timer_string = core.CountdownTimer(string_time)
sound.play()
while (timer_string.getTime() > 0 and break_flag == True):
subject_instructions.text = string_instruction
subject_instructions.draw()
win.flip() # Update screen
break_flag = escapeCondition()
return break_flag
## Initialise experiment: select trails and log them
block_order = np.random.permutation([tennis, house, faces] * blocks_number)
logging.data("Trails order:")
logging.data(block_order)
############## Exp. begin ##############
# Display first set of instructions and wait
message1 = visual.TextStim(win,
pos=[0, 0],
text=init_mess_1,
alignVert='center',
wrapWidth=1.5)
message1.size = .5
message1.draw()
win.flip()
event.waitKeys() #pause until there's a keypress
# Waiting for the scanner
if SCANNER:
message3 = visual.TextStim(win,
pos=[0, 0.25],
text=scanner_message,
alignVert='center',
wrapWidth=1.5)
message3.size = .5
message3.draw()
win.flip()
while 1:
allKeys = event.getKeys()
if MR_settings['sync'] in allKeys:
break
# Start run
experiment_begin = dt.now()
inizio = globalClock.getTime()
logging.data('Begin of the experiment (trigger) at: %.6f' % (inizio))
# Run experiment a 'run' at the time
for i_block in block_order:
i_block_string = i_block[0]
i_block_sound = i_block[1]
logging.data('*** Run: ' + str(i_block_string) + ' ***')
# Fixation
if displayFixation(win, fixation_time=inter_blocks_length) == False:
break
# Show condition "tennis" or "house"
if displayInstruction(win,
string_instruction=i_block_string,
string_time=block_length,
sound=i_block_sound) == False:
break
# Display final fixation
if displayFixation(win, fixation_time=inter_blocks_length) == False: return
# Display final message
message4 = visual.TextStim(win,
pos=[0, 0.25],
text=final_message,
alignVert='center',
wrapWidth=1.5)
message4.size = .5
message4.draw()
win.flip()
core.wait(3)
logging.data('***** End *****\n')
logging.data('Total time spent: %s' % (dt.now() - experiment_begin))
logging.data('Every frame duration saved in %s' %
(path_out + Frames_durations_name))
return
#create a window to draw in
myWin =visual.Window((600,600), allowGUI=False,
bitsMode=None, units='norm', winType='pyglet')
#INITIALISE SOME STIMULI
dotPatch =visual.DotStim(myWin, rgb=(1.0,1.0,1.0), dir=270,
nDots=100, fieldShape='circle', fieldPos=(0.0,0.0),fieldSize=1,
dotLife=5, #number of frames for each dot to be drawn
signalDots='same', #are the signal and noise dots 'different' or 'same' popns (see Scase et al)
noiseDots='direction', #do the noise dots follow random- 'walk', 'direction', or 'position'
speed=0.01, coherence=0.9)
message =visual.TextStim(myWin,text='Hit Q to quit',
pos=(0,-0.5))
trialClock =core.Clock()
myWin.setRecordFrameIntervals()
n=0
while True:#quits after 20 secs
n+=1
dotPatch.draw()
message.draw()
myWin.flip()#redraw the buffer
for n in range(10):
logging.info('%i info' %n)
#handle key presses each frame
for key in event.getKeys():
if key in ['escape','q']:
logging.data('final fps = %.3f' % myWin.fps())
myWin.close()
core.quit()
event.clearEvents()#keep the event buffer from overflowing
"""
sentencecomp.py - code to run the sentence comprehension task for the reading remediation study
"""
from psychopy import visual, core, event, logging,gui
import numpy as N
import pickle
import datetime
import sys
import os
import inspect
import hashlib
from socket import gethostname
from exptutils import *
# study-specific routines
def load_sentences(filename):
f=open(filename)
ll=f.readlines()
f.close()
s={}
s['sentence']=[]
s['cond']=[]
s['onset']=[]
for l in ll:
l_s=l.split('\t')
#print l_s
s['sentence'].append(' '.join(l_s[2:]).strip('\n'))
def _onPygletMouseWheel(x, y, scroll_x, scroll_y):
global mouseWheelRel
mouseWheelRel = mouseWheelRel + numpy.array([scroll_x, scroll_y])
msg = "Mouse: wheel shift=(%i,%i), pos=(%i,%i)"
logging.data(msg % (scroll_x, scroll_y, x, y))
i for i in range(joystick.numButtons) if
joystick.newButtonState[i] and not joystick.oldButtonState[i]
]
joystick.releasedButtons = [
i for i in range(joystick.numButtons) if
not joystick.newButtonState[i] and joystick.oldButtonState[i]
]
joystick.newPressedButtons = [
i for i in joystick.activeButtons
if i in joystick.pressedButtons
]
joystick.oldButtonState = joystick.newButtonState
joystick.buttons = joystick.newPressedButtons
[
logging.data(
"joystick_{}_button: {}, pos=({:1.4f},{:1.4f})".format(
joystick.device_number, i, joystick.getX(),
joystick.getY())) for i in joystick.pressedButtons
]
if len(joystick.buttons) > 0: # state changed to a new click
# abort routine on response
continueRoutine = False
# check for quit (typically the Esc key)
if endExpNow or keyboard.Keyboard().getKeys(keyList=["escape"]):
core.quit()
# check if all components have finished
if not continueRoutine: # a component has requested a forced-end of Routine
break
continueRoutine = False # will revert to True if at least one component still running
for thisComponent in trialComponents:
if t >= 0.0 and joystick.status == NOT_STARTED:
# keep track of start time/frame for later
joystick.tStart = t # not accounting for scr refresh
joystick.frameNStart = frameN # exact frame index
win.timeOnFlip(joystick, 'tStartRefresh') # time at next scr refresh
joystick.status = STARTED
joystick.joystickClock.reset()
if joystick.status == STARTED: # only update if started and not finished!
joystick.newButtonState = joystick.getAllButtons()[:]
if joystick.newButtonState != joystick.oldButtonState: # New button press
joystick.pressedButtons = [i for i in range(joystick.numButtons) if joystick.newButtonState[i] and not joystick.oldButtonState[i]]
joystick.releasedButtons = [i for i in range(joystick.numButtons) if not joystick.newButtonState[i] and joystick.oldButtonState[i]]
joystick.newPressedButtons = [i for i in joystick.activeButtons if i in joystick.pressedButtons]
joystick.oldButtonState = joystick.newButtonState
joystick.buttons = joystick.newPressedButtons
[logging.data("joystick_{}_button: {}, pos=({:1.4f},{:1.4f})".format(joystick.device_number, i, joystick.getX(), joystick.getY())) for i in joystick.pressedButtons]
if len(joystick.buttons) > 0: # state changed to a new click
# abort routine on response
continueRoutine = False
# check for quit (typically the Esc key)
if endExpNow or keyboard.Keyboard().getKeys(keyList=["escape"]):
core.quit()
# check if all components have finished
if not continueRoutine: # a component has requested a forced-end of Routine
break
continueRoutine = False # will revert to True if at least one component still running
for thisComponent in trialComponents:
if hasattr(thisComponent, "status") and thisComponent.status != FINISHED:
continueRoutine = True
today_date, operator, subject_code, subject_age, subject_gender,\
SCANNER, Tr, Volumes, Skip, Sync = all_infos
# Prepare out folder
path_out = Dir_save + today_date + '_' + subject_code
path_out = createOutFolder(path_out)
# Set the log module to report warnings to the standard output window
globalClock = core.Clock()
logging.setDefaultClock(globalClock)
logging.console.setLevel(logging.WARNING)
lastLog = logging.LogFile(path_out + Log_name,
level=logging.DATA,
filemode='w',
encoding='utf8')
logging.data("------------- " + strftime("%Y-%m-%d %H:%M:%S", gmtime()) +
" -------------")
logging.data(pyschopy_prefs)
logging.data("Saving in folder: " + path_out)
logging.data("Operator: " + operator + "\n")
logging.data("Subject. Code: " + subject_code + " - Age: " +
str(subject_age) + " - Gender: " + subject_gender)
logging.data("Scanner. TR: " + Tr + " - Volumes: " + Volumes +
" - Skip: " + Skip + " - Sync: " + Sync + "\n")
logging.data("Using %s (with %s driver) for sounds" %
(sound.audioLib, sound.audioDriver) + '\n')
logging.data('***** Starting *****')
# Start window
win = visual.Window(Screen_dimensions,
monitor="mon",
units="norm",
from __future__ import division
from psychopy import logging, core, visual
globalClock = core.Clock() # if this isn't provided the log times will reflect secs since python started
logging.setDefaultClock(globalClock)
logging.console.setLevel(logging.DEBUG) # receive nearly all messages
logDat = logging.LogFile('logLastRun.log',
filemode='w', # if you set this to 'a' it will append instead of overwriting
level=logging.WARNING) # errors, data and warnings will be sent to this logfile
# the following will go to any files with the appropriate minimum level set
logging.info('Something fairly unimportant')
logging.data('Something about our data. Data is likely very important!')
logging.warning('Handy while building your experiment - highlights possible flaws in code/design')
logging.error("You might have done something that PsychoPy can't handle! But hopefully this gives you some idea what.")
# some things should be logged timestamped on the next video frame
# For instance the time of a stimulus appearing is related to the flip:
win = visual.Window([400, 400])
for n in range(5):
win.logOnFlip('frame %i occured' %n, level=logging.EXP)
if n in [2, 4]:
win.logOnFlip('an even frame occured', level=logging.EXP)
win.flip()
# LogFiles can also simply receive direct input from the write() method
# messages using write() will be sent immediately, and are often not
# in correct chronological order with logged messages
button_resp.frameNStart = frameN # exact frame index
win.timeOnFlip(button_resp, 'tStartRefresh') # time at next scr refresh
button_resp.status = STARTED
# joyButtons checking is just starting
win.callOnFlip(button_resp.clock.reset) # t=0 on next screen flip
if button_resp.status == STARTED:
button_resp.newButtonState = button_resp.device.getAllButtons()[:]
button_resp.pressedButtons = []
button_resp.releasedButtons = []
button_resp.newPressedButtons = []
if button_resp.newButtonState != button_resp.oldButtonState:
button_resp.pressedButtons = [i for i in range(button_resp.numButtons) if button_resp.newButtonState[i] and not button_resp.oldButtonState[i]]
button_resp.releasedButtons = [i for i in range(button_resp.numButtons) if not button_resp.newButtonState[i] and button_resp.oldButtonState[i]]
button_resp.oldButtonState = button_resp.newButtonState
button_resp.newPressedButtons = [i for i in [0, 1, 2, 3, 4] if i in button_resp.pressedButtons]
[logging.data("joystick_{}_button: {}".format(button_resp.device_number,i)) for i in button_resp.pressedButtons]
theseKeys = button_resp.newPressedButtons
if len(theseKeys) > 0: # at least one key was pressed
button_resp.keys = theseKeys[-1] # just the last key pressed
button_resp.rt = button_resp.clock.getTime()
# a response ends the routine
continueRoutine = False
# check for quit (typically the Esc key)
if endExpNow or keyboard.Keyboard().getKeys(keyList=["escape"]):
core.quit()
# check if all components have finished
if not continueRoutine: # a component has requested a forced-end of Routine
break
continueRoutine = False # will revert to True if at least one component still running
def waitKeys(maxWait=float('inf'), keyList=None, modifiers=False,
timeStamped=False, clearEvents=True):
"""Same as `~psychopy.event.getKeys`, but halts everything
(including drawing) while awaiting input from keyboard.
:Parameters:
maxWait : any numeric value.
Maximum number of seconds period and which keys to wait for.
Default is float('inf') which simply waits forever.
keyList : **None** or []
Allows the user to specify a set of keys to check for.
Only keypresses from this set of keys will be removed from
the keyboard buffer. If the keyList is `None`, all keys will be
checked and the key buffer will be cleared completely.
NB, pygame doesn't return timestamps (they are always 0)
modifiers : **False** or True
If True will return a list of tuples instead of a list of
keynames. Each tuple has (keyname, modifiers). The modifiers
are a dict of keyboard modifier flags keyed by the modifier
name (eg. 'shift', 'ctrl').
timeStamped : **False**, True, or `Clock`
If True will return a list of tuples instead of a list of
keynames. Each tuple has (keyname, time). If a `core.Clock`
is given then the time will be relative to the `Clock`'s last
reset.
clearEvents : **True** or False
Whether to clear the keyboard event buffer (and discard preceding
keypresses) before starting to monitor for new keypresses.
Returns None if times out.
"""
if clearEvents:
# Only consider keypresses from here onwards.
# We need to invoke clearEvents(), but our keyword argument is
# also called clearEvents. We can work around this conflict by
# accessing the global scope explicitly.
globals()['clearEvents']('keyboard')
# Check for keypresses until maxWait is exceeded
#
# NB pygame.event does have a wait() function that will
# do this and maybe leave more cpu idle time?
timer = psychopy.core.Clock()
got_keypress = False
while not got_keypress and timer.getTime() < maxWait:
# Pump events on pyglet windows if they exist.
if havePyglet:
defDisplay = pyglet.window.get_platform().get_default_display()
for win in defDisplay.get_windows():
win.dispatch_events()
# Get keypresses and return if anything is pressed.
keys = getKeys(keyList=keyList, modifiers=modifiers,
timeStamped=timeStamped)
if keys:
got_keypress = True
if got_keypress:
return keys
else:
logging.data('No keypress (maxWait exceeded)')
return None
def waitForResponse(self):
trial = self.trial
node = self.node
target = self.keytarget
trialCompleted = False
trialError = False
interkeyWaitTime = None
nPrevCorrect = 0
while not trialCompleted:
# Set the time to wait for a keypress
# At most the trial time remaining, if we've pressed one key then
# up to that amount
maxWait = self.responseTimeLeft()
if interkeyWaitTime:
maxWait = min(interkeyWaitTime, maxWait)
kbe = self.keyboard.waitForPresses(keys=keypress_map.keys(),
maxWait=maxWait)
keystate = self.keyboard.state.keys()
exp_time = self.exp_timer.getTime()
block_time = self.block_timer.getTime()
timeLeft = self.responseTimeLeft()
response = [int(x in keystate) for x in response_keys]
nCorrect = sum([x and y for x, y in zip(response, target)])
nIncorrect = sum(response) - nCorrect
responseIsCorrect = (response == target)
rt = self.trial_time - timeLeft
if responseIsCorrect:
# Correct
trialCompleted = True
trialError = False
elif (nIncorrect == 0) and (nCorrect > nPrevCorrect):
# Pressed a new correct key
nPrevCorrect = nCorrect
if interkeyWaitTime is None:
interkeyWaitTime = self.interkey_time
elif timeLeft < 0 and not self.demo: # timed out on the trial
trialCompleted = True
trialError = True
elif interkeyWaitTime and not kbe and not self.demo: # interkey timeout
trialCompleted = True
trialError = True
elif (nIncorrect > 0): # incorrect response
# wrong key
trialCompleted = True
trialError = True
event_data = {
'nCorrect': nCorrect,
'nIncorrect': nIncorrect,
'timedOut': timeLeft < 0,
'node': node,
'target': target,
'response': response,
# 'SOA': self.jitter[self.trial],
'trial': trial,
'blockTime': block_time,
'expTime': exp_time,
'trialTime': rt,
'error': trialError,
'completed': trialCompleted
}
self.data.append(event_data)
logging.data(event_data)
self.accuracy_record.append(not trialError)
return trialError