import numpy # # # # # # PREPARATION # Intialise the Display. disp = Display() # Initialise the basic input devices. kb = Keyboard(keylist=None, timeout=None) mouse = Mouse(mousebuttonlist=None, timeout=None) # Initialise a log. log = Logfile() header = ['trialnr', 'nstim', 'fixonset', 'stimonset', 'maintenanceonset', \ 'probeonset', 'RT', 'response'] for i in range(max(NSTIM)): header.extend(['stimx%d' % (i), 'stimy%d' % (i), 'stimori%d' % (i), \ 'stimerror%d' % (i)]) header.extend(['E', 'X', 'T']) for i in range(max(NSTIM)-1): header.append('NT%d' % i) log.write(header) # Initialise a blank Screen for ad-hoc drawing. scr = Screen() # Initialise a blank Screen. blankscr = Screen()
scr = Screen() # initialize an EyeTracker tracker = EyeTracker(disp) # initialize a keyboard kb = Keyboard(keylist=['space'], timeout=None) # initialize a sound snd = Sound(soundfile=soundfile) # initialize a Timer timer = Time() # create a new logfile log = Logfile(filename="test") log.write(["test", "time"]) # # # # # # welcome scr.draw_text("Welcome to the PyGaze Supertest!\n\nYou're going to be testing \ your PyGaze installation today, using this interactive tool. Press Space \ to start!\n\n\nP.S. If you see this, the following functions work: \ \n- Screen.draw_text \ \n- Disp.fill \ \n- Disp.show \ \nAwesome!") disp.fill(scr) t1 = disp.show() log.write(["welcome", t1])
############## # INITIALISE # ############## # Initialise a new Display instance. disp = Display() # Present a start-up screen. scr = Screen() scr.draw_text("Loading, please wait...", fontsize=24) disp.fill(scr) disp.show() # Open a new log file. log = Logfile() # TODO: Write header. log.write(["trialnr", "block", "run","stim", "keypress", "go_nogo", "face_onset", "signal_onset","resp_onset", "RT", "accuracy", "respmap", "block_type"]) # Open a new log file to log events. event_log = Logfile(filename=EVENT_LOG) event_log.write(["time", "event"]) # Initialise the eye tracker. tracker = EyeTracker(disp) # Create a new Keyboard instance to process key presses. kb = Keyboard(keylist=None, timeout=5000) mouse = Mouse() # intitliase the MEG interface NI box
# # # # # # INITIALISE # Initialise a new Display instance. disp = Display() # Present a start-up screen. scr = Screen() scr.draw_text("Loading, please wait...", fontsize=MAIN_FONTSIZE) disp.fill(scr) disp.show() # Open a new log file. log = Logfile(filename = LOGFILE) log_det = Logfile(filename = DETAILED_LOGFILE) log_events = Logfile(filename = EVENT_LOGFILE) # TODO: Write header. log.write(["trialnr","left_ang","right_ang", "cue_dir", "targ", "targ_ang", "resp_ang", "perc_diff", "resp_onset", "resp_duration", "iti", "iti_onset", "stim_onset","delay_onset", "cue_onset", "postcue_onset","probe_onset", "prac"]) log_det.write(["trialnr", "timestamp", "angle", "event", "targ_ang", "cue_dir"]) log_events.write(["Trigger", "Timestamp"]) # Initialise the eye tracker. tracker = EyeTracker(disp) # Create a new Keyboard instance to process key presses. kb = Keyboard(keylist=None, timeout=5000) mouse = Mouse() mouse.set_visible(visible=False) # intitliase the MEG interface NI box
newSubject.subject_code, datenow)) # initialize a Timer timer = Time() # initialize the display for stimuli disp = Display(disptype="psychopy", dispsize=c.TOBII_DISPSIZE, screennr=0, bgc="grey") # initialize a tobiitracker tracker = InfantTobiiTracker(disp, logfilepath) # create a new logfile (for TESTing purposes only) eventlog = Logfile(filename="{0}\subj{1}_caliblog_{2}".format( logfolderpath, subjectNumber, datenow)) eventlog.write([ "\nDate and time of experiment: {0}".format( datetime.datetime.now().strftime("%Y-%m-%d %H:%M")) ]) eventlog.write(["Subject number: {0}".format(subjectNumber)]) eventlog.write([ "Test positions: 1. interesting: {0}, 2. interesting: {1}".format( test_shelves[0], test_shelves[1]) ]) eventlog.write(["Subject code: {0}".format(newSubject.subject_code)]) eventlog.write([ "Subject's age: {0} months and {1} days\n".format( newSubject.subject_age[:2], newSubject.subject_age[2:]) ]) eventlog.write(["\nEVENT", "TIME"])
linewidth=STIMLINEWIDTH, stimtypes='noise', showcolourwheel=False) # Create a feedback Screen for showing how much people earned. fbscr = Screen() fbscr.draw_rect(x=DISPCENTRE[0]-FBBARW//2, y=DISPCENTRE[1]-FBBARH//2, \ w=FBBARW, h=FBBARH, pw=FBBARPW, fill=False) # Create Screens for the post-run questions and the frame-by-frame updated # fill of a bar. qscr = Screen() barqscr = Screen() # LOGGING # Create a logfile now that we know the client number logpath = os.path.join(DATADIR, '%d_%s' % (clientnr, LOGFILENAME)) log = Logfile(filename=logpath+'_beh') # Write a header to the log header = ['trialnr', \ 'nstim', 'rewtype', 'rewamount', 'reward', 'total', \ 'fixonset', 'stimonset', 'maintenanceonset', 'probeonset', 't1', 'rewardonset', \ 'RT', 'nfixself', 'nfixother', 'probedstim', 'response'] for stimnr in range(max(NSTIM)): header.extend(['self_fixated%d' % stimnr, 'other_fixated%s' % stimnr, \ 'rewarded%d' % stimnr, 'ori%d' % stimnr, 'XYloc%d' % stimnr, \ 'error%d' % stimnr]) header.extend(['E', 'X', 'T']) for i in range(max(NSTIM)-1): header.append('NT%d' % i) log.write(header) # Initialise the eye tracker.