def put_image_dual(t_abs):
global phase
global start
global bus
global talked
global fixCross
if not phase:
start = t_abs
phase = "dots"
talked = False
fixText, fixCross = experiments.printWord(screen, '+', crossSize, (0, 0, 0))
t = t_abs - start
if t >= dot_duration and phase == "dots":
texture_object1.put_sub_image(mask_img)
texture_object2.put_sub_image(mask_img)
phase = "mask"
elif t >= (dot_duration + mask_dur) and phase == "mask":
p.parameters.viewports = [fixCross]
phase = "cross"
elif t >= (dot_duration + mask_dur + cross_duration):
p.parameters.go_duration = (0, 'frames')
if response == "voice":
message = bus.poll('GST_MESSAGE_ANY', 1)
# read peak
if message:
if message.src is level:
if message.structure.has_key('peak'):
peak = message.structure['peak'][0]
print peak
if peak > volumeThresh and peak < 0 and not talked:
sub.inputData(trial, "RT", t)
print t
talked = True
fixText, fixCross = experiments.printWord(screen, '&', crossSize, (0, 0, 0))
def showStimulus(screen, text, colour): word, viewport = printWord(screen, text, 200, colour) p = Presentation(go_duration=(0.5,'seconds'),viewports=[viewport]) p.go() start = time.clock() exit = 0 while not exit: data = raw_lpt_module.inp(0x379) & 0x20 if not data: RT = time.clock() p.parameters.go_duration = (0.032, 'seconds') #dataList.append ([text, colour, start, RT]) exit = 1 else: pass
def showStimulus(screen, text, colour):
word, viewport = printWord(screen, text, 200, colour)
p = Presentation(go_duration=(0.5, 'seconds'), viewports=[viewport])
p.go()
start = time.clock()
exit = 0
while not exit:
data = raw_lpt_module.inp(0x379) & 0x20
if not data:
RT = time.clock()
p.parameters.go_duration = (0.032, 'seconds')
#dataList.append ([text, colour, start, RT])
exit = 1
else:
pass
memTemp = []
calcTemp = []
#these will be the list of CONFIRMED problems by strategy
memProblems = []
calcProblems = []
#default strategy
strategy = None
#default empty problem
ns = []
lastns = []
lastlastns = []
fixText, fixCross = printWord(screen, '', 120, (255, 255, 255))
print "PRESS SPACE TO START"
pause = Presentation(go_duration=('forever', ), viewports=[fixCross])
pause.parameters.handle_event_callbacks=[(pygame.locals.KEYDOWN, pause_handler)]
pause.go()
while len(memProblems) < trials or len(calcProblems) < trials:
#generate problem based on last round
random.shuffle(add)
random.shuffle(subtract)
random.shuffle(memAdd)
badProblem = True
###UNCHANGING STIMULI
#strat selection
fixText, fixCross = printText(screen, '', 60, (255, 255, 255))
#generate texts
strat2 = "\n\nDescribe your strategy"
stratText, stratPort = printText(screen, strat2, 60, (255, 255, 255))
pauseText, pausePort = printText(screen, "paused", 60, (255, 255, 255))
p4 = Presentation(go_duration=(problemTime, 'seconds'))
p = Presentation(go_duration=('forever', ))
#strat selection
startText, startCross = printWord(screen, 'Press the SPACEBAR to start', 60, (255, 255, 255))
pause = Presentation(go_duration=('forever', ), viewports=[startCross])
pause.parameters.handle_event_callbacks=[(pygame.locals.KEYDOWN, pause_handler)]
pause.go()
p3 = Presentation(go_duration=(0.5, 'seconds'), viewports=[fixCross])
p2 = Presentation(go_duration=(diffTime, 'seconds'), viewports=[stratPort])
p2.parameters.handle_event_callbacks=[(pygame.locals.KEYDOWN, diff_handler)]
###DB STUFF
db = "mri_test"
problems = Problems(db, sid, "addition")
memTemp = []
calcTemp = []
#these will be the list of CONFIRMED problems by strategy
memProblems = []
calcProblems = []
#default strategy
strategy = None
#default empty problem
ns = []
lastns = []
lastlastns = []
fixText, fixCross = printWord(screen, '', 120, (255, 255, 255))
print "PRESS SPACE TO START"
pause = Presentation(go_duration=('forever', ), viewports=[fixCross])
pause.parameters.handle_event_callbacks = [(pygame.locals.KEYDOWN,
pause_handler)]
pause.go()
while len(memProblems) < trials or len(calcProblems) < trials:
#generate problem based on last round
random.shuffle(add)
random.shuffle(subtract)
random.shuffle(memAdd)
badProblem = True
p2.parameters.go_duration = (0, 'frames')
def pause_handler(event):
if event.key == K_SPACE:
print "BEGINNING EXPERIMENT"
pause.parameters.go_duration = (0, 'frames')
#default strategy
strategy = None
trial = 1
#STIMULI
#Fixation Cross
fixText, fixCross = printWord(screen, '*', 120, (255, 255, 255))
errorText, errorPort = printWord(screen, 'X', 120, (1., .1, .1))
print "PRESS SPACE TO START"
pause = Presentation(go_duration=('forever', ), viewports=[fixCross])
pause.parameters.handle_event_callbacks=[(pygame.locals.KEYDOWN, pause_handler)]
pause.go()
problemQ = []
while len(stimList):
if problemQ:
stim = problemQ[2]
n1 = problemQ[0]
screen.parameters.bgcolor = (0, 0, 0)
pygame.font.init()
pygame.mixer.init()
sound = pygame.mixer.Sound("beep.wav")
sound.play()
for s in stimList:
trial += 1
print s
RT = 0
acc = 0
w, v = printWord(screen, str(s), 48, [255, 255, 255])
p = Presentation(go_duration=[0.675, 'seconds'], viewports=[v])
p.parameters.handle_event_callbacks = [(pygame.locals.KEYDOWN, key_handler)
]
p.go()
sub.inputData(trial, "RT", RT)
sub.inputData(trial, "acc", acc)
sub.inputData(trial, "s", s)
sub.inputData(trial, "target", target)
sub.printData()
sound.play()
sub.printData()
def pause_handler(event):
if event.key == K_SPACE:
print "BEGINNING EXPERIMENT"
pause.parameters.go_duration = (0, 'frames')
#initial variables
trial = 1
#default strat
strat = None
###UNCHANGING STIMULI
#strat selection
fixText, fixCross = printWord(screen, '', 60, (255, 255, 255))
#generate texts
strat2 = "\n\nPlease describe your strategy"
stratText, stratPort = printText(screen, strat2, 60, (255, 255, 255))
pre_problems = Problems(DB, sid, clear=False)
post_problems = Problems(DB, sid, exp="post", clear=False)
query = {'kind' : 'verified'}
ver_pre = pre_problems.query(query)
ns_list = []
for row in ver_pre:
subject.inputData(trial, "orig_strat", strategy)
subject.inputData(trial, "distractor", distractor)
subject.inputData(trial, "dist_side", side)
subject.inputData(trial, "dist_offset", dist)
subject.inputData(trial, "trained", trained)
if side == "l":
correct = "left"
L = solution
R = distractor
elif side == "r":
correct = "right"
L = distractor
R = solution
probText, probPort = printWord(screen, problem, 60, (255, 255, 255))
vp, vr = printText(screen, "%s %s" % (L, R), 60, (255, 255, 255))
fixText, fixCross = printText(screen, '', 60, (255, 255, 255))
#BLOCK 1 - PROBLEM, BLANK & POSSIBLE SOLUTIONS
problem = Presentation(go_duration=(problemTime, 'seconds'), viewports=[probPort])
problem.go()
p3 = Presentation(go_duration=(blankTime, 'seconds'), viewports=[fixCross])
p3.go()
p = Presentation(go_duration=('forever', ), viewports=[vr])
p.parameters.handle_event_callbacks=[(pygame.locals.KEYDOWN, key_handler)]
p.go()
blockOrder = cb.advance()
f = open("cb.pck", "w")
pickle.dump(cb, f)
f.close()
stimLib = "stimuli"
screen = get_default_screen()
screen.parameters.bgcolor = (.52, .51, .52)
pygame.init()
fixText, fixCross = experiments.printWord(screen, '+', crossSize, (0, 0, 0))
trial = 1
#HANDLERS
def put_image_sequential(t_abs):
global phase
global start
if not phase:
start = t_abs
phase = "dots1"
t = t_abs - start
def pause_handler(event):
if event.key == K_SPACE:
print "BEGINNING EXPERIMENT"
pause.parameters.go_duration = (0, 'frames')
#initial variables
trial = 1
#default strat
strat = None
###UNCHANGING STIMULI
#strat selection
fixText, fixCross = printWord(screen, '', 60, (255, 255, 255))
#generate texts
strat2 = "\n\nPlease describe your strategy"
stratText, stratPort = printText(screen, strat2, 60, (255, 255, 255))
pre_problems = Problems(DB, sid, clear=False)
post_problems = Problems(DB, sid, exp="post", clear=False)
query = {'kind': 'verified'}
ver_pre = pre_problems.query(query)
ns_list = []
for row in ver_pre:
ACC += 1 acc = 1 pressed = 1 else: acc = 0 pressed = 1 ACC = 0 RT = p.time_sec_since_go ###SET SCREEN screen = get_default_screen() screen.parameters.bgcolor = (0, 0, 0) pygame.font.init() c, cv = printWord(screen, 'O', 48, [0, 255, 0]) ic, icv = printWord(screen, '+', 48, [255, 0, 0]) f, fv = printWord(screen, '', 48, [0, 0, 0]) cp = Presentation(go_duration=[0.1, 'seconds'], viewports=[cv]) icp = Presentation(go_duration=[0.1, 'seconds'], viewports=[icv]) fix = Presentation(go_duration=[0.05, 'seconds'], viewports=[fv]) trial = 0 for block in blockorder: for gowords in ([block, 'neutral'], ['neutral', block]): ACC = 0 while ACC <= maxACC: trial+=1 RT = 0
screen.parameters.bgcolor = (0, 0, 0)
pygame.font.init()
pygame.mixer.init()
sound = pygame.mixer.Sound("beep.wav")
sound.play()
for s in stimList:
trial += 1
print s
RT = 0
acc = 0
w, v = printWord(screen, str(s), 48, [255, 255, 255])
p = Presentation(go_duration=[0.675, 'seconds'], viewports=[v])
p.parameters.handle_event_callbacks=[(pygame.locals.KEYDOWN, key_handler)]
p.go()
sub.inputData(trial, "RT", RT)
sub.inputData(trial, "acc", acc)
sub.inputData(trial, "s", s)
sub.inputData(trial, "target", target)
sub.printData()
sound.play()
sub.printData()
blockOrder = cb.advance()
f = open("cb.pck", "w")
pickle.dump(cb, f)
f.close()
stimLib = "stimuli"
screen = get_default_screen()
screen.parameters.bgcolor = (.52, .51, .52)
pygame.init()
fixText, fixCross = experiments.printWord(screen, '+', crossSize, (0, 0, 0))
trial = 1
#HANDLERS
def put_image_sequential(t_abs):
global phase
global start
if not phase:
start = t_abs
phase = "dots1"
t = t_abs - start
def pause_handler(event):
if event.key == K_SPACE:
print "BEGINNING EXPERIMENT"
pause.parameters.go_duration = (0, "frames")
# default strategy
strategy = None
trial = 1
# STIMULI
# Fixation Cross
fixText, fixCross = printWord(screen, "*", 120, (255, 255, 255))
errorText, errorPort = printWord(screen, "X", 120, (1.0, 0.1, 0.1))
print "PRESS SPACE TO START"
pause = Presentation(go_duration=("forever",), viewports=[fixCross])
pause.parameters.handle_event_callbacks = [(pygame.locals.KEYDOWN, pause_handler)]
pause.go()
problemQ = []
while len(mag_problems):
if problemQ:
stim = problemQ[2]
n1 = problemQ[0]
def pause_handler(event):
if event.key == K_SPACE:
print "BEGINNING EXPERIMENT"
pause.parameters.go_duration = (0, 'frames')
#default strategy
strategy = None
trial = 1
#STIMULI
#Fixation Cross
fixText, fixCross = printWord(screen, '*', 120, (255, 255, 255))
errorText, errorPort = printWord(screen, 'X', 120, (1., .1, .1))
print "PRESS SPACE TO START"
pause = Presentation(go_duration=('forever', ), viewports=[fixCross])
pause.parameters.handle_event_callbacks = [(pygame.locals.KEYDOWN,
pause_handler)]
pause.go()
problemQ = []
while len(mag_problems):
if problemQ:
stim = problemQ[2]
cross_duration = .750 bgcolor = (0, 0, 0) color = (1, 1, 1) ###END SETTINGS stimLib = "stimuli" screen = get_default_screen() screen.parameters.bgcolor = bgcolor pygame.init() fixText, fixCross = experiments.printWord(screen, '+', crossSize, color) trial = 1 #HANDLERS def put_image_dual(t_abs): global phase global start if not phase: start = t_abs phase = "dots" t = t_abs - start
