Exemplos de Display em Python, exemplos de pygaze.libscreen.Display em Python

Exemplo n.º 1

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Arquivo: run_script.py Projeto: skylergrammer/gaze_task

def main():
    parser = argparse.ArgumentParser()
    parser.add_argument('image1', type=str,
                        help='Required: Filename for image 1')
    parser.add_argument('image2', type=str,
                        help='Required: Filename for image 2')
    parser.add_argument('--n_iters', type=int, default=10,
                        help='Number of iterations [default=10]')
    parser.add_argument('--timing', default=1000,
                        help='Duration displayed for each image in millis.')
    parser.add_argument('--displaynumber', default=1, type=int,
                        help='Monitor to show the task.')
    parser.add_argument('--resolution', default='1920 1080', type=str,
                        help='The dimensions of the display in pixels e.g. 1920 1080')
    parser.add_argument('--testing', action='store_true', default=False)
    app = QtGui.QApplication(sys.argv)
    a = ArgparseUi(parser,
                   use_save_load_button=True,
                   window_title='Run Image Flash Task'
                   )
    a.show()
    app.exec_()
    args = a.parse_args()
    resolution = [int(x) for x in args.resolution.split()]
    display = Display(disptype='psychopy',
                      dispsize=resolution,
                      screennr=args.displaynumber)
    screen_params = dict(disptype='psychopy',
                         dispsize=resolution,
                         screennr=args.displaynumber
                         )
    images = []
    images.append(args.image1)
    images.append(args.image2)
    try:
        open_images = [Image.open(x) for x in images]

    except Exception:
        err_msg = "The image(s) %s and %s do not appear to be the correct filename or path" % tuple(images)
        window = tkinter.Tk()
        window.wm_withdraw()
        tkMessageBox.showinfo(title="ERROR: Unable to open images",
                              message=err_msg)
        window.destroy()
        sys.exit()
    if args.testing:
        tobii = FakeEyeTracker()
        print("Using FakeEyeTracker.")
    else:
        tobii = EyeTracker(display, trackertype='tobii')
        print("Using real EyeTracker")

    task = Task(screen_params, display, open_images,
                delta_t=args.timing,
                n_iters=args.n_iters,
                eyetracker=tobii)

    task.start()
    display.close()

Exemplo n.º 2

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Arquivo: menu.py Projeto: Nagatoh/projeto-pygame

#!/usr/bin/env python
# from psychopy import *
import game
import pygame
import avalgame
import text_input
from pygaze.eyetracker import EyeTracker
from pygaze.libscreen import Screen, Display
from pygame.display import list_modes
print list_modes()

pygame.init()
disp = Display()
clock = pygame.time.Clock()
### Definitions
######  Resolution
#win_size = pygame.display.Info()
#windowSize = pygame.display.set_mode((win_size.current_w, win_size.current_h), pygame.FULLSCREEN)  # Change as you want (MUST RESPECT DISPLAY DIMENSIONS)
windowSize = pygame.display.set_mode((1024, 768), pygame.FULLSCREEN)
running = True

version = "v1.00"
avalgame = avalgame.Avalgame()


class GameSettings(pygame.font.Font):
    def __init__(self,
                 screen,
                 display,
                 bg_color=(0, 0, 0),
                 font='media/fonts/arial.ttf',

Exemplo n.º 3

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Arquivo: shooting_game.py Projeto: AA33/PyGaze

from pygaze import libtime
from pygaze.libscreen import Display, Screen
from pygaze.libinput import Keyboard
from pygaze.eyetracker import EyeTracker

import random

# # # # #
# prep

# create keyboard object
keyboard = Keyboard()

# display object
disp = Display()

# screen objects
screen = Screen()
blankscreen = Screen()
hitscreen = Screen()
hitscreen.clear(colour=(0,255,0))
misscreen = Screen()
misscreen.clear(colour=(255,0,0))

# create eyelink objecy
eyetracker = EyeTracker(disp)

# eyelink calibration
eyetracker.calibrate()

Exemplo n.º 4

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from constants import *
from pygaze import libtime
from pygaze.libscreen import Display, Screen
from pygaze.eyetracker import EyeTracker
from pygaze.libinput import Keyboard
from pygaze.liblog import Logfile
from pygaze.libgazecon import FRL

# timing and initialization
libtime.expstart()

# visuals
disp = Display()
scr = Screen()

# eye tracking
tracker = EyeTracker(disp, trackertype='dummy')
frl = FRL(pos='center', dist=125, size=200)

# input collection and storage
kb = Keyboard(keylist=['escape', 'space'], timeout=None)
log = Logfile()
log.write(["trialnr", "trialstart", "trialend", "duration", "image"])

# run trials
tracker.calibrate()
for trialnr in range(0, len(IMAGES)):
    # blank display
    disp.fill()
    disp.show()
    libtime.pause(1000)

Exemplo n.º 5

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from pygaze import libtime
from pygaze.libscreen import Display, Screen
from pygaze.libinput import Keyboard
from pygaze.eyetracker import EyeTracker

import random

# # # # #
# prep

# create keyboard object
keyboard = Keyboard()

# display object
disp = Display()

# screen objects
screen = Screen()
blankscreen = Screen()
hitscreen = Screen()
hitscreen.clear(colour=(0,255,0))
misscreen = Screen()
misscreen.clear(colour=(255,0,0))

# create eyelink objecy
eyetracker = EyeTracker(disp)

# eyelink calibration
eyetracker.calibrate()

Exemplo n.º 6

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withTracker = cst.TRACKER

run = r.RUN

DISPSIZE = (res[0],res[1])

#find interstimulus distance, based on resolution and view distance, for 
#4' viewing angle; since PsychoPy calculates distance on centerpoint, adding
#128 (half of stimulus width)
base_dist = (2 * dist * math.tan(math.radians(4)/2))
base_dist_half = base_dist / 2
pixpcm = res[0] / res[2]
base_dist_pix = int(base_dist_half * pixpcm) + 128

# In[Initiate PyGaze Objects]:
disp = Display(disptype='psychopy')
scr = Screen(disptype='psychopy')

if inScanner or withTracker:
    kb = Keyboard()

if withTracker:
    tracker = EyeTracker(disp)
    
    DISPSIZE = cst.DISPSIZE
    
    fps_str = str(flicker).replace('.','_')
    basename = "{}_{}".format(subid, fps_str)
    
    LOGFILENAME = basename + '_eyetracker'
    director = os.getcwd()

Exemplo n.º 7

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import os
import random

# PyGaze
from constants import *
from pygaze.libscreen import Display, Screen
from pygaze.libinput import Keyboard
from pygaze.eyetracker import EyeTracker
from pygaze.liblog import Logfile
import pygaze.libtime as timer
from pygaze.plugins.aoi import AOI
# # # # #
# SETUP

# visuals
disp = Display()
scr = Screen()

# input
kb = Keyboard()
tracker = EyeTracker(disp)

# output
log = Logfile(filename="fs_test")
log_sub = Logfile(filename="fs_test_sub")
log.write(["ntrials", "image", "gaze_pos_x", "gaze_pos_y", "gaze_time"])
log_sub.write(["ntrials", "image", "is_found", "search_time"])
# # # # #
# PREPARE

# load instructions from file

Exemplo n.º 8

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Arquivo: experiment.py Projeto: arnaghosh/MITACS

from pygaze.libscreen import Display, Screen
from pygaze.libinput import Keyboard
from libmpdev import *
import time
import math
import matplotlib.pyplot as plt


# create a Display to interact with the monitor
disp = Display()
 
# create a Screen to draw text on later
scr = Screen()
 
# create a Keyboard to catch key presses
kb = Keyboard(keylist=['escape'], timeout=1)
 
# create a MPy150 to communicate with a BIOPAC MP150
mp = MP150()

Y=[0];
t1 = time.time();
T=[0];

# set a starting value for key
key = None
# loop until a key is pressed
while key == None:

    # get a new sample from the MP150
    sample = mp.sample()

Exemplo n.º 9

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Arquivo: EXPERIMENT.py Projeto: terne/cognitive_science3

from constants import *
#from image_set_generation1 import make_image_set
from generate_image_sets_with_circles_squares import generate
import numpy as np
from pygaze.libgazecon import AOI
from faceconstants import *
from swap_images import swap
import random
import pygame
import time

center_of_screen = (DISPSIZE[0] / 2, DISPSIZE[1] / 2)
image_HW = 326

# create display object
disp = Display()

# create eyetracker object
tracker = eyetracker.EyeTracker(disp)

# create keyboard object
keyboard = Keyboard(keylist=['space', "q", "escape"], timeout=1)

# create logfile (txt file that is tab seperated, I think)
our_log = liblog.Logfile()
# write "headlines" to log file
our_log.write(
    ["trialnr", "trialstart", "trialend", "disengagementtime",
     "imagepair"])  # fill in with the neccecary headlines

# calibrate the eye-tracker

Exemplo n.º 10

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#can check for shuffle
#for image in all_image_set:
#print(image)

# In[3]:

#DUMMYMODE = True # set in constants.py
# To use your code with the new Tobii Pro SDK,
# set the TRACKERTYPE to 'tobii'

# start timing
libtime.expstart()

# create display object
disp = Display()

# create eyetracker object
tracker = eyetracker.EyeTracker(disp)

# create keyboard object
keyboard = Keyboard(keylist=['space', "q"], timeout=1)

center_of_screen = (DISPSIZE[0] / 2, DISPSIZE[1] / 2)

# create screen to draw things on
screen1 = Screen()
screen1.draw_fixation(fixtype='cross',
                      pos=center_of_screen,
                      colour=(255, 255, 255),
                      pw=5,

Exemplo n.º 11

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Arquivo: experiment.py Projeto: Huettel-Lab/EyeTribe_test

import random

# PyGaze
from constants import *
from pygaze.libscreen import Display, Screen
from pygaze.libinput import Keyboard
from pygaze.eyetracker import EyeTracker
from pygaze.liblog import Logfile
import pygaze.libtime as timer


# # # # #
# SETUP

# visuals
disp = Display()
scr = Screen()

# input
kb = Keyboard()
tracker = EyeTracker(disp)

# output
log = Logfile()
log.write(["trialnr","image","imgtime"])


# # # # #
# PREPARE

# load instructions from file