amp_name, amp_serial = pu.search_lsl(ignore_markers=True)
else:
amp_name = cfg.AMP_NAME
amp_serial = cfg.AMP_SERIAL
fake_dirs = None
else:
amp_name = None
amp_serial = None
fake_dirs = [v for (k, v) in cfg.DIRECTIONS]
# events and triggers
tdef = trigger_def(cfg.TRIGGER_DEF)
if cfg.TRIGGER_DEVICE is None:
input('\n** Warning: No trigger device set. Press Ctrl+C to stop or Enter to continue.')
trigger = pyLptControl.Trigger(cfg.TRIGGER_DEVICE)
if trigger.init(50) == False:
qc.print_c('\n** Error connecting to USB2LPT device. Use a mock trigger instead?', 'R')
input('Press Ctrl+C to stop or Enter to continue.')
trigger = pyLptControl.MockTrigger()
trigger.init(50)
# init classification
qc.print_c('Initializing decoder.', 'W')
decoder_UD = BCIDecoder(cfg.CLS_MI, buffer_size=10.0, fake=(cfg.FAKE_CLS is not None),
amp_name=amp_name, amp_serial=amp_serial, fake_dirs=fake_dirs)
labels = [tdef.by_value[x] for x in decoder_UD.get_labels()]
assert 'UP' in labels and 'DOWN' in labels
bar_def_UD = {label:dir for dir, label in cfg.DIRECTIONS}
bar_dirs_UD = [bar_def[l] for l in labels]
def config_run(cfg_module):
if not (os.path.exists(cfg_module) and os.path.isfile(cfg_module)):
raise IOError('%s cannot be loaded.' % os.path.realpath(cfg_module))
cfg = load_cfg(cfg_module)
if cfg.FAKE_CLS is None:
# chooose amp
if cfg.AMP_NAME is None and cfg.AMP_SERIAL is None:
amp_name, amp_serial = pu.search_lsl(ignore_markers=True)
else:
amp_name = cfg.AMP_NAME
amp_serial = cfg.AMP_SERIAL
fake_dirs = None
else:
amp_name = None
amp_serial = None
fake_dirs = [v for (k, v) in cfg.DIRECTIONS]
# events and triggers
tdef = trigger_def(cfg.TRIGGER_DEF)
if cfg.TRIGGER_DEVICE is None:
input(
'\n** Warning: No trigger device set. Press Ctrl+C to stop or Enter to continue.'
)
trigger = pyLptControl.Trigger(cfg.TRIGGER_DEVICE)
if trigger.init(50) == False:
qc.print_c(
'\n** Error connecting to USB2LPT device. Use a mock trigger instead?',
'R')
input('Press Ctrl+C to stop or Enter to continue.')
trigger = pyLptControl.MockTrigger()
trigger.init(50)
# init classification
decoder = BCIDecoderDaemon(cfg.CLS_MI,
buffer_size=1.0,
fake=(cfg.FAKE_CLS is not None),
amp_name=amp_name,
amp_serial=amp_serial,
fake_dirs=fake_dirs,
parallel=cfg.PARALLEL_DECODING,
alpha_new=cfg.PROB_ALPHA_NEW)
# OLD: requires trigger values to be always defined
#labels = [tdef.by_value[x] for x in decoder.get_labels()]
# NEW: events can be mapped into integers:
labels = []
dirdata = set([d[1] for d in cfg.DIRECTIONS])
for x in decoder.get_labels():
if x not in dirdata:
labels.append(tdef.by_value[x])
else:
labels.append(x)
# map class labels to bar directions
bar_def = {label: str(dir) for dir, label in cfg.DIRECTIONS}
bar_dirs = [bar_def[l] for l in labels]
dir_seq = []
for x in range(cfg.TRIALS_EACH):
dir_seq.extend(bar_dirs)
if cfg.TRIALS_RANDOMIZE:
random.shuffle(dir_seq)
else:
dir_seq = [d[0] for d in cfg.DIRECTIONS] * cfg.TRIALS_EACH
num_trials = len(dir_seq)
qc.print_c('Initializing decoder.', 'W')
while decoder.is_running() is 0:
time.sleep(0.01)
# bar visual object
if cfg.FEEDBACK_TYPE == 'BAR':
from pycnbi.protocols.viz_bars import BarVisual
visual = BarVisual(cfg.GLASS_USE,
screen_pos=cfg.SCREEN_POS,
screen_size=cfg.SCREEN_SIZE)
elif cfg.FEEDBACK_TYPE == 'BODY':
assert hasattr(cfg,
'IMAGE_PATH'), 'IMAGE_PATH is undefined in your config.'
from pycnbi.protocols.viz_human import BodyVisual
visual = BodyVisual(cfg.IMAGE_PATH,
use_glass=cfg.GLASS_USE,
screen_pos=cfg.SCREEN_POS,
screen_size=cfg.SCREEN_SIZE)
visual.put_text('Waiting to start')
if cfg.LOG_PROBS:
logdir = qc.parse_path_list(cfg.CLS_MI)[0]
probs_logfile = time.strftime(logdir + "probs-%Y%m%d-%H%M%S.txt",
time.localtime())
else:
probs_logfile = None
feedback = Feedback(cfg, visual, tdef, trigger, probs_logfile)
# start
trial = 1
dir_detected = []
prob_history = {c: [] for c in bar_dirs}
while trial <= num_trials:
if cfg.SHOW_TRIALS:
title_text = 'Trial %d / %d' % (trial, num_trials)
else:
title_text = 'Ready'
true_label = dir_seq[trial - 1]
# profiling feedback
#import cProfile
#pr = cProfile.Profile()
#pr.enable()
result = feedback.classify(decoder,
true_label,
title_text,
bar_dirs,
prob_history=prob_history)
#pr.disable()
#pr.print_stats(sort='time')
if result is None:
break
else:
pred_label = result
dir_detected.append(pred_label)
if cfg.WITH_REX is True and pred_label == true_label:
# if cfg.WITH_REX is True:
if pred_label == 'U':
rex_dir = 'N'
elif pred_label == 'L':
rex_dir = 'W'
elif pred_label == 'R':
rex_dir = 'E'
elif pred_label == 'D':
rex_dir = 'S'
else:
qc.print_c(
'Warning: Rex cannot execute undefined action %s' %
pred_label, 'W')
rex_dir = None
if rex_dir is not None:
visual.move(pred_label, 100, overlay=False, barcolor='B')
visual.update()
qc.print_c('Executing Rex action %s' % rex_dir, 'W')
os.system('%s/Rex/RexControlSimple.exe %s %s' %
(pycnbi.ROOT, cfg.REX_COMPORT, rex_dir))
time.sleep(8)
if true_label == pred_label:
msg = 'Correct'
else:
msg = 'Wrong'
if cfg.TRIALS_RETRY is False or true_label == pred_label:
print('Trial %d: %s (%s -> %s)' %
(trial, msg, true_label, pred_label))
trial += 1
if len(dir_detected) > 0:
# write performance and log results
fdir, _, _ = qc.parse_path_list(cfg.CLS_MI)
logfile = time.strftime(fdir + "/online-%Y%m%d-%H%M%S.txt",
time.localtime())
with open(logfile, 'w') as fout:
fout.write('Ground-truth,Prediction\n')
for gt, dt in zip(dir_seq, dir_detected):
fout.write('%s,%s\n' % (gt, dt))
cfmat, acc = qc.confusion_matrix(dir_seq, dir_detected)
fout.write('\nAccuracy %.3f\nConfusion matrix\n' % acc)
fout.write(cfmat)
print('Log exported to %s' % logfile)
print('\nAccuracy %.3f\nConfusion matrix\n' % acc)
print(cfmat)
visual.finish()
if decoder:
decoder.stop()
'''
# automatic thresholding
if prob_history and len(bar_dirs) == 2:
total = sum(len(prob_history[c]) for c in prob_history)
fout = open(probs_logfile, 'a')
msg = 'Automatic threshold optimization.\n'
max_acc = 0
max_bias = 0
for bias in np.arange(-0.99, 1.00, 0.01):
corrects = 0
for p in prob_history[bar_dirs[0]]:
p_biased = (p + bias) / (bias + 1) # new sum = (p+bias) + (1-p) = bias+1
if p_biased >= 0.5:
corrects += 1
for p in prob_history[bar_dirs[1]]:
p_biased = (p + bias) / (bias + 1) # new sum = (p+bias) + (1-p) = bias+1
if p_biased < 0.5:
corrects += 1
acc = corrects / total
msg += '%s%.2f: %.3f\n' % (bar_dirs[0], bias, acc)
if acc > max_acc:
max_acc = acc
max_bias = bias
msg += 'Max acc = %.3f at bias %.2f\n' % (max_acc, max_bias)
fout.write(msg)
fout.close()
print(msg)
'''
print('Finished.')
def config_run(cfg_module):
cfg = imp.load_source(cfg_module, cfg_module)
tdef = trigger_def(cfg.TRIGGER_DEF)
refresh_delay = 1.0 / cfg.REFRESH_RATE
# visualizer
keys = {'left':81, 'right':83, 'up':82, 'down':84, 'pgup':85, 'pgdn':86,
'home':80, 'end':87, 'space':32, 'esc':27, ',':44, '.':46, 's':115, 'c':99,
'[':91, ']':93, '1':49, '!':33, '2':50, '@':64, '3':51, '#':35}
color = dict(G=(20, 140, 0), B=(210, 0, 0), R=(0, 50, 200), Y=(0, 215, 235),
K=(0, 0, 0), w=(200, 200, 200))
dir_sequence = []
for x in range(cfg.TRIALS_EACH):
dir_sequence.extend(cfg.DIRECTIONS)
random.shuffle(dir_sequence)
num_trials = len(cfg.DIRECTIONS) * cfg.TRIALS_EACH
event = 'start'
trial = 1
# Hardware trigger
if cfg.TRIGGER_DEVICE is None:
input('\n** Warning: No trigger device set. Press Ctrl+C to stop or Enter to continue.')
trigger = pyLptControl.Trigger(cfg.TRIGGER_DEVICE)
if trigger.init(50) == False:
print('\n** Error connecting to USB2LPT device. Use a mock trigger instead?')
input('Press Ctrl+C to stop or Enter to continue.')
trigger = pyLptControl.MockTrigger()
trigger.init(50)
timer_trigger = qc.Timer()
timer_dir = qc.Timer()
timer_refresh = qc.Timer()
bar = BarVisual(cfg.GLASS_USE, screen_pos=cfg.SCREEN_POS, screen_size=cfg.SCREEN_SIZE)
bar.fill()
bar.glass_draw_cue()
# start
while trial <= num_trials:
timer_refresh.sleep_atleast(refresh_delay)
timer_refresh.reset()
# segment= { 'cue':(s,e), 'dir':(s,e), 'label':0-4 } (zero-based)
if event == 'start' and timer_trigger.sec() > cfg.T_INIT:
event = 'gap_s'
bar.fill()
timer_trigger.reset()
trigger.signal(tdef.INIT)
elif event == 'gap_s':
bar.put_text('Trial %d / %d' % (trial, num_trials))
event = 'gap'
elif event == 'gap' and timer_trigger.sec() > cfg.T_GAP:
event = 'cue'
bar.fill()
bar.draw_cue()
trigger.signal(tdef.CUE)
timer_trigger.reset()
elif event == 'cue' and timer_trigger.sec() > cfg.T_CUE:
event = 'dir_r'
dir = dir_sequence[trial - 1]
if dir == 'L': # left
bar.move('L', 100, overlay=True)
trigger.signal(tdef.LEFT_READY)
elif dir == 'R': # right
bar.move('R', 100, overlay=True)
trigger.signal(tdef.RIGHT_READY)
elif dir == 'U': # up
bar.move('U', 100, overlay=True)
trigger.signal(tdef.UP_READY)
elif dir == 'D': # down
bar.move('D', 100, overlay=True)
trigger.signal(tdef.DOWN_READY)
elif dir == 'B': # both hands
bar.move('L', 100, overlay=True)
bar.move('R', 100, overlay=True)
trigger.signal(tdef.BOTH_READY)
else:
raise RuntimeError('Unknown direction %d' % dir)
timer_trigger.reset()
elif event == 'dir_r' and timer_trigger.sec() > cfg.T_DIR_READY:
bar.fill()
bar.draw_cue()
event = 'dir'
timer_trigger.reset()
timer_dir.reset()
if dir == 'L': # left
trigger.signal(tdef.LEFT_GO)
elif dir == 'R': # right
trigger.signal(tdef.RIGHT_GO)
elif dir == 'U': # up
trigger.signal(tdef.UP_GO)
elif dir == 'D': # down
trigger.signal(tdef.DOWN_GO)
elif dir == 'B': # both
trigger.signal(tdef.BOTH_GO)
else:
raise RuntimeError('Unknown direction %d' % dir)
elif event == 'dir' and timer_trigger.sec() > cfg.T_DIR:
event = 'gap_s'
bar.fill()
trial += 1
print('trial ' + str(trial - 1) + ' done')
trigger.signal(tdef.BLANK)
timer_trigger.reset()
# protocol
if event == 'dir':
dx = min(100, int(100.0 * timer_dir.sec() / cfg.T_DIR) + 1)
if dir == 'L': # L
bar.move('L', dx, overlay=True)
elif dir == 'R': # R
bar.move('R', dx, overlay=True)
elif dir == 'U': # U
bar.move('U', dx, overlay=True)
elif dir == 'D': # D
bar.move('D', dx, overlay=True)
elif dir == 'B': # Both
bar.move('L', dx, overlay=True)
bar.move('R', dx, overlay=True)
# wait for start
if event == 'start':
bar.put_text('Waiting to start')
bar.update()
key = 0xFF & cv2.waitKey(1)
if key == keys['esc']:
break
def config_run(cfg_module):
cfg = load_cfg(cfg_module)
# visualizer
keys = {
'left': 81,
'right': 83,
'up': 82,
'down': 84,
'pgup': 85,
'pgdn': 86,
'home': 80,
'end': 87,
'space': 32,
'esc': 27,
',': 44,
'.': 46,
's': 115,
'c': 99,
'[': 91,
']': 93,
'1': 49,
'!': 33,
'2': 50,
'@': 64,
'3': 51,
'#': 35
}
color = dict(G=(20, 140, 0),
B=(210, 0, 0),
R=(0, 50, 200),
Y=(0, 215, 235),
K=(0, 0, 0),
W=(255, 255, 255),
w=(200, 200, 200))
dir_sequence = []
for x in range(cfg.TRIALS_EACH):
dir_sequence.extend(cfg.DIRECTIONS)
random.shuffle(dir_sequence)
num_trials = len(cfg.DIRECTIONS) * cfg.TRIALS_EACH
tdef = trigger_def(cfg.TRIGGER_DEF)
refresh_delay = 1.0 / cfg.REFRESH_RATE
state = 'start'
trial = 1
# STIMO protocol
if cfg.WITH_STIMO is True:
print('Opening STIMO serial port (%s / %d bps)' %
(cfg.STIMO_COMPORT, cfg.STIMO_BAUDRATE))
import serial
ser = serial.Serial(cfg.STIMO_COMPORT, cfg.STIMO_BAUDRATE)
print('STIMO serial port %s is_open = %s' %
(cfg.STIMO_COMPORT, ser.is_open))
# init trigger
if cfg.TRIGGER_DEVICE is None:
input(
'\n** Warning: No trigger device set. Press Ctrl+C to stop or Enter to continue.'
)
trigger = pyLptControl.Trigger(cfg.TRIGGER_DEVICE)
if trigger.init(50) == False:
print(
'\n# Error connecting to USB2LPT device. Use a mock trigger instead?'
)
input('Press Ctrl+C to stop or Enter to continue.')
trigger = pyLptControl.MockTrigger()
trigger.init(50)
# visual feedback
if cfg.FEEDBACK_TYPE == 'BAR':
from pycnbi.protocols.viz_bars import BarVisual
visual = BarVisual(cfg.GLASS_USE,
screen_pos=cfg.SCREEN_POS,
screen_size=cfg.SCREEN_SIZE)
elif cfg.FEEDBACK_TYPE == 'BODY':
if not hasattr(cfg, 'IMAGE_PATH'):
raise ValueError('IMAGE_PATH is undefined in your config.')
from pycnbi.protocols.viz_human import BodyVisual
visual = BodyVisual(cfg.IMAGE_PATH,
use_glass=cfg.GLASS_USE,
screen_pos=cfg.SCREEN_POS,
screen_size=cfg.SCREEN_SIZE)
visual.put_text('Waiting to start ')
timer_trigger = qc.Timer()
timer_dir = qc.Timer()
timer_refresh = qc.Timer()
# start
while trial <= num_trials:
timer_refresh.sleep_atleast(refresh_delay)
timer_refresh.reset()
# segment= { 'cue':(s,e), 'dir':(s,e), 'label':0-4 } (zero-based)
if state == 'start' and timer_trigger.sec() > cfg.T_INIT:
state = 'gap_s'
visual.fill()
timer_trigger.reset()
trigger.signal(tdef.INIT)
elif state == 'gap_s':
visual.put_text('Trial %d / %d' % (trial, num_trials))
state = 'gap'
elif state == 'gap' and timer_trigger.sec() > cfg.T_GAP:
state = 'cue'
visual.fill()
visual.draw_cue()
trigger.signal(tdef.CUE)
timer_trigger.reset()
elif state == 'cue' and timer_trigger.sec() > cfg.T_CUE:
state = 'dir_r'
dir = dir_sequence[trial - 1]
if dir == 'L': # left
if cfg.FEEDBACK_TYPE == 'BAR':
visual.move('L', 100)
else:
visual.put_text('LEFT')
trigger.signal(tdef.LEFT_READY)
elif dir == 'R': # right
if cfg.FEEDBACK_TYPE == 'BAR':
visual.move('R', 100)
else:
visual.put_text('RIGHT')
trigger.signal(tdef.RIGHT_READY)
elif dir == 'U': # up
if cfg.FEEDBACK_TYPE == 'BAR':
visual.move('U', 100)
else:
visual.put_text('UP')
trigger.signal(tdef.UP_READY)
elif dir == 'D': # down
if cfg.FEEDBACK_TYPE == 'BAR':
visual.move('D', 100)
else:
visual.put_text('DOWN')
trigger.signal(tdef.DOWN_READY)
elif dir == 'B': # both hands
if cfg.FEEDBACK_TYPE == 'BAR':
visual.move('L', 100)
visual.move('R', 100)
else:
visual.put_text('BOTH')
trigger.signal(tdef.BOTH_READY)
else:
raise RuntimeError('Unknown direction %d' % dir)
gait_steps = 1
timer_trigger.reset()
elif state == 'dir_r' and timer_trigger.sec() > cfg.T_DIR_READY:
visual.draw_cue()
state = 'dir'
timer_trigger.reset()
timer_dir.reset()
t_step = cfg.T_DIR + random.random() * cfg.RANDOMIZE_LENGTH
if dir == 'L': # left
trigger.signal(tdef.LEFT_GO)
elif dir == 'R': # right
trigger.signal(tdef.RIGHT_GO)
elif dir == 'U': # up
trigger.signal(tdef.UP_GO)
elif dir == 'D': # down
trigger.signal(tdef.DOWN_GO)
elif dir == 'B': # both
trigger.signal(tdef.BOTH_GO)
else:
raise RuntimeError('Unknown direction %d' % dir)
elif state == 'dir':
if timer_trigger.sec() > t_step:
if cfg.FEEDBACK_TYPE == 'BODY':
if cfg.WITH_STIMO is True:
if dir == 'L': # left
ser.write(b'1')
qc.print_c('STIMO: Sent 1', 'g')
trigger.signal(tdef.LEFT_STIMO)
elif dir == 'R': # right
ser.write(b'2')
qc.print_c('STIMO: Sent 2', 'g')
trigger.signal(tdef.RIGHT_STIMO)
else:
if dir == 'L': # left
trigger.signal(tdef.LEFT_RETURN)
elif dir == 'R': # right
trigger.signal(tdef.RIGHT_RETURN)
else:
trigger.signal(tdef.FEEDBACK)
state = 'return'
timer_trigger.reset()
else:
dx = min(100, int(100.0 * timer_dir.sec() / t_step) + 1)
if dir == 'L': # L
visual.move('L', dx, overlay=True)
elif dir == 'R': # R
visual.move('R', dx, overlay=True)
elif dir == 'U': # U
visual.move('U', dx, overlay=True)
elif dir == 'D': # D
visual.move('D', dx, overlay=True)
elif dir == 'B': # Both
visual.move('L', dx, overlay=True)
visual.move('R', dx, overlay=True)
elif state == 'return':
if timer_trigger.sec() > cfg.T_RETURN:
if gait_steps < cfg.GAIT_STEPS:
gait_steps += 1
state = 'dir'
visual.move('L', 0)
if dir == 'L':
dir = 'R'
trigger.signal(tdef.RIGHT_GO)
else:
dir = 'L'
trigger.signal(tdef.LEFT_GO)
timer_dir.reset()
t_step = cfg.T_DIR + random.random() * cfg.RANDOMIZE_LENGTH
else:
state = 'gap_s'
visual.fill()
trial += 1
print('trial ' + str(trial - 1) + ' done')
trigger.signal(tdef.BLANK)
timer_trigger.reset()
else:
dx = max(
0,
int(100.0 * (cfg.T_RETURN - timer_trigger.sec()) /
cfg.T_RETURN))
if dir == 'L': # L
visual.move('L', dx, overlay=True)
elif dir == 'R': # R
visual.move('R', dx, overlay=True)
elif dir == 'U': # U
visual.move('U', dx, overlay=True)
elif dir == 'D': # D
visual.move('D', dx, overlay=True)
elif dir == 'B': # Both
visual.move('L', dx, overlay=True)
visual.move('R', dx, overlay=True)
# wait for start
if state == 'start':
visual.put_text('Waiting to start ')
visual.update()
key = 0xFF & cv2.waitKey(1)
if key == keys['esc']:
break
# STIMO protocol
if cfg.WITH_STIMO is True:
ser.close()
print('Closed STIMO serial port %s' % cfg.STIMO_COMPORT)
def run(cfg, state=mp.Value('i', 1), queue=None):
redirect_stdout_to_queue(logger, queue, 'INFO')
# Wait the recording to start (GUI)
while state.value == 2: # 0: stop, 1:start, 2:wait
pass
# Protocol start if equals to 1
if not state.value:
sys.exit()
refresh_delay = 1.0 / cfg.REFRESH_RATE
cfg.tdef = trigger_def(cfg.TRIGGER_FILE)
# visualizer
keys = {
'left': 81,
'right': 83,
'up': 82,
'down': 84,
'pgup': 85,
'pgdn': 86,
'home': 80,
'end': 87,
'space': 32,
'esc': 27,
',': 44,
'.': 46,
's': 115,
'c': 99,
'[': 91,
']': 93,
'1': 49,
'!': 33,
'2': 50,
'@': 64,
'3': 51,
'#': 35
}
color = dict(G=(20, 140, 0),
B=(210, 0, 0),
R=(0, 50, 200),
Y=(0, 215, 235),
K=(0, 0, 0),
w=(200, 200, 200))
dir_sequence = []
for x in range(cfg.TRIALS_EACH):
dir_sequence.extend(cfg.DIRECTIONS)
random.shuffle(dir_sequence)
num_trials = len(cfg.DIRECTIONS) * cfg.TRIALS_EACH
event = 'start'
trial = 1
# Hardware trigger
if cfg.TRIGGER_DEVICE is None:
logger.warning(
'No trigger device set. Press Ctrl+C to stop or Enter to continue.'
)
#input()
trigger = pyLptControl.Trigger(state, cfg.TRIGGER_DEVICE)
if trigger.init(50) == False:
logger.error(
'\n** Error connecting to USB2LPT device. Use a mock trigger instead?'
)
input('Press Ctrl+C to stop or Enter to continue.')
trigger = pyLptControl.MockTrigger()
trigger.init(50)
# timers
timer_trigger = qc.Timer()
timer_dir = qc.Timer()
timer_refresh = qc.Timer()
t_dir = cfg.TIMINGS['DIR'] + random.uniform(-cfg.TIMINGS['DIR_RANDOMIZE'],
cfg.TIMINGS['DIR_RANDOMIZE'])
t_dir_ready = cfg.TIMINGS['READY'] + random.uniform(
-cfg.TIMINGS['READY_RANDOMIZE'], cfg.TIMINGS['READY_RANDOMIZE'])
bar = BarVisual(cfg.GLASS_USE,
screen_pos=cfg.SCREEN_POS,
screen_size=cfg.SCREEN_SIZE)
bar.fill()
bar.glass_draw_cue()
# start
while trial <= num_trials:
timer_refresh.sleep_atleast(refresh_delay)
timer_refresh.reset()
# segment= { 'cue':(s,e), 'dir':(s,e), 'label':0-4 } (zero-based)
if event == 'start' and timer_trigger.sec() > cfg.TIMINGS['INIT']:
event = 'gap_s'
bar.fill()
timer_trigger.reset()
trigger.signal(cfg.tdef.INIT)
elif event == 'gap_s':
if cfg.TRIAL_PAUSE:
bar.put_text('Press any key')
bar.update()
key = cv2.waitKey()
if key == keys['esc'] or not state.value:
break
bar.fill()
bar.put_text('Trial %d / %d' % (trial, num_trials))
event = 'gap'
timer_trigger.reset()
elif event == 'gap' and timer_trigger.sec() > cfg.TIMINGS['GAP']:
event = 'cue'
bar.fill()
bar.draw_cue()
trigger.signal(cfg.tdef.CUE)
timer_trigger.reset()
elif event == 'cue' and timer_trigger.sec() > cfg.TIMINGS['CUE']:
event = 'dir_r'
dir = dir_sequence[trial - 1]
if dir == 'L': # left
bar.move('L', 100, overlay=True)
trigger.signal(cfg.tdef.LEFT_READY)
elif dir == 'R': # right
bar.move('R', 100, overlay=True)
trigger.signal(cfg.tdef.RIGHT_READY)
elif dir == 'U': # up
bar.move('U', 100, overlay=True)
trigger.signal(cfg.tdef.UP_READY)
elif dir == 'D': # down
bar.move('D', 100, overlay=True)
trigger.signal(cfg.tdef.DOWN_READY)
elif dir == 'B': # both hands
bar.move('L', 100, overlay=True)
bar.move('R', 100, overlay=True)
trigger.signal(cfg.tdef.BOTH_READY)
else:
raise RuntimeError('Unknown direction %d' % dir)
timer_trigger.reset()
elif event == 'dir_r' and timer_trigger.sec() > t_dir_ready:
bar.fill()
bar.draw_cue()
event = 'dir'
timer_trigger.reset()
timer_dir.reset()
if dir == 'L': # left
trigger.signal(cfg.tdef.LEFT_GO)
elif dir == 'R': # right
trigger.signal(cfg.tdef.RIGHT_GO)
elif dir == 'U': # up
trigger.signal(cfg.tdef.UP_GO)
elif dir == 'D': # down
trigger.signal(cfg.tdef.DOWN_GO)
elif dir == 'B': # both
trigger.signal(cfg.tdef.BOTH_GO)
else:
raise RuntimeError('Unknown direction %d' % dir)
elif event == 'dir' and timer_trigger.sec() > t_dir:
event = 'gap_s'
bar.fill()
trial += 1
logger.info('trial ' + str(trial - 1) + ' done')
trigger.signal(cfg.tdef.BLANK)
timer_trigger.reset()
t_dir = cfg.TIMINGS['DIR'] + random.uniform(
-cfg.TIMINGS['DIR_RANDOMIZE'], cfg.TIMINGS['DIR_RANDOMIZE'])
t_dir_ready = cfg.TIMINGS['READY'] + random.uniform(
-cfg.TIMINGS['READY_RANDOMIZE'],
cfg.TIMINGS['READY_RANDOMIZE'])
# protocol
if event == 'dir':
dx = min(100, int(100.0 * timer_dir.sec() / t_dir) + 1)
if dir == 'L': # L
bar.move('L', dx, overlay=True)
elif dir == 'R': # R
bar.move('R', dx, overlay=True)
elif dir == 'U': # U
bar.move('U', dx, overlay=True)
elif dir == 'D': # D
bar.move('D', dx, overlay=True)
elif dir == 'B': # Both
bar.move('L', dx, overlay=True)
bar.move('R', dx, overlay=True)
# wait for start
if event == 'start':
bar.put_text('Waiting to start')
bar.update()
key = 0xFF & cv2.waitKey(1)
if key == keys['esc'] or not state.value:
break
bar.finish()
with state.get_lock():
state.value = 0