Пример #1
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def go_forward_right():
    PressKey(W)
    PressKey(D)
    ReleaseKey(A)
    ReleaseKey(S)
Пример #2
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def right():
    ReleaseKey(A)
    PressKey(W)
    PressKey(D)
Пример #3
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def go_forward_left():
    PressKey(W)
    PressKey(A)
    ReleaseKey(D)
    ReleaseKey(S)
Пример #4
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def right():
    PressKey(D)
    ReleaseKey(A)
Пример #5
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vid = cv2.VideoCapture(0)

SpaceBar = 0x20

previous_key = 0
while True:
    _, frame = vid.read()

    frame = cv2.resize(frame, (600, 600))  # frame = [600,600, 3]
    crop = frame[50:400, 200:500]
    crop = cv2.resize(crop, (100, 100))

    crop_dim = tf.expand_dims(crop, 0)

    prediction = model.predict(crop_dim)
    print(prediction[0][0])

    if int(np.around(prediction[0][0])) == 1:
        previous_key = 1
        PressKey(SpaceBar)
        ReleaseKey(SpaceBar)
        time.sleep(0.005)
        print('pressed')

    cv2.rectangle(frame, (200, 50), (500, 400), (255, 0, 0), 2)

    cv2.imshow('frame', frame)

    if cv2.waitKey(1) == ord('q'):
        cv2.destroyAllWindows()
        break
Пример #6
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import time
from directKeys import PressKey, ReleaseKey, W, A, S, D, f2

for i in list(range(4))[::-1]:
    print(i + 1)
    time.sleep(1)

PressKey(W)
time.sleep(2)
ReleaseKey(W)
Пример #7
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def straight():
    PressKey(W)
    ReleaseKey(A)
    ReleaseKey(D)
Пример #8
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def forward_left():
    print("FORWARD_LEFT")
    PressKey(W)
    PressKey(A)
    ReleaseKey(D)
Пример #9
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def forward_right():
    print("FORWARD_RIGHT")
    PressKey(W)
    PressKey(D)
    ReleaseKey(A)
Пример #10
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def right():
    print("RIGHT")
    ReleaseKey(W)
    PressKey(D)
    ReleaseKey(A)
Пример #11
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def left():
    print("LEFT")
    ReleaseKey(W)
    ReleaseKey(D)
    PressKey(A)
Пример #12
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def straight():
    print("STRAIGHT")
    PressKey(W)
    ReleaseKey(A)
    ReleaseKey(D)
Пример #13
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def left():
    PressKey(LEFT)
    ReleaseKey(RIGHT)
Пример #14
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def right():
    PressKey(RIGHT)
    ReleaseKey(LEFT)
Пример #15
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def go_reverse_left():
    PressKey(S)
    PressKey(A)
    ReleaseKey(W)
    ReleaseKey(D)
Пример #16
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import numpy as np
from PIL import ImageGrab
import cv2
import time
import pyautogui
from directKeys import PressKey,W,A,S,D
import os

for i in list(range(4))[::-1]:
    print(i+1)
    time.Sleep(1)

print('down')
PressKey('w')
time.Sleep(3)
print('up')
PressKey('w')


def keys_to_output(keys):
    output = [0,0,0]

    if 'A' in keys:
        output[0] =1
    elif 'D' in keys:
        output[2] =1
    else:
        output[1] = 1
    return output
Пример #17
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def go_reverse_right():
    PressKey(S)
    PressKey(D)
    ReleaseKey(W)
    ReleaseKey(A)
Пример #18
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def left():
    PressKey(A)
    ReleaseKey(W)
    ReleaseKey(D)
    ReleaseKey(A)
Пример #19
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def t_key(key_a, key_b, key_c):
    PressKey(key_a)
    ReleaseKey(key_b)
    ReleaseKey(key_c)
    time.sleep(keytime)
Пример #20
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def slow_ya_roll():
    PressKey(S)
    ReleaseKey(W)
    ReleaseKey(A)
    ReleaseKey(D)
Пример #21
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def left():
    PressKey(A)
    # ReleaseKey(W) # this was commented
    ReleaseKey(D)
Пример #22
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def go_straight():
    PressKey(W)
    ReleaseKey(A)
    ReleaseKey(D)
    ReleaseKey(S)
Пример #23
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    mouse_pos = queryMousePosition()
    if mouse_pos.x <= 0:
        break

print("alright we good to go")
while True:
    mouse_pos = queryMousePosition()

    if game_coords[0] < mouse_pos.x < game_coords[2] and game_coords[
            1] < mouse_pos.y < game_coords[3]:
        start_time = time.time()
        screen = np.array(ImageGrab.grab(bbox=game_coords))
        screen = cv2.cvtColor(screen, cv2.COLOR_BGR2GRAY)

        if screen[347 - game_coords[1], 684 - game_coords[0]] > 180:
            PressKey(SPACE)
            time.sleep(0.05)
            ReleaseKey(SPACE)

        if screen[732 - game_coords[1], 872 - game_coords[0]] < 150:
            shoot_some_fuckers(screen)
            clicks_per_second = no_of_clicks_this_level / (time.time() -
                                                           start_time_of_level)
            print("Clicks per second {}".format(clicks_per_second))

        elif screen[732 - game_coords[1], 872 - game_coords[0]] > 250:
            time.sleep(3)
            upgrade_gun()
            time.sleep(3)
            start_time_of_level = time.time()
            no_of_clicks_this_level = 0
Пример #24
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def go_reverse():
    PressKey(S)
    ReleaseKey(A)
    ReleaseKey(W)
    ReleaseKey(D)
Пример #25
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        # find the center from the moments 0.000001 is added to the denominator so that divide by
        # zero exception doesn't occur
        center_left = (int(M["m10"] / (M["m00"] + 0.000001)),
                       int(M["m01"] / (M["m00"] + 0.000001)))

        # only proceed if the radius meets a minimum size
        if radius > circle_radius:
            # draw the circle and centroid on the frame,
            cv2.circle(frame, (int(x), int(y)), int(radius), (0, 255, 255), 2)
            cv2.circle(frame, center_left, 5, (0, 0, 255), -1)

            #the window size is kept 160 pixels in the center of the frame(80 pixels above the center and 80 below)
            if center_left[0] < (width // 2 - windowSize // 2):
                cv2.putText(frame, 'LEFT', (20, 50), cv2.FONT_HERSHEY_SIMPLEX,
                            1, (0, 0, 255))
                PressKey(A)
                current_key_pressed.add(A)
                keyPressed = True
                keyPressed_lr = True
            elif center_left[0] > (width // 2 + windowSize // 2):
                cv2.putText(frame, 'RIGHT', (20, 50), cv2.FONT_HERSHEY_SIMPLEX,
                            1, (0, 0, 255))
                PressKey(D)
                current_key_pressed.add(D)
                keyPressed = True
                keyPressed_lr = True

    # show the frame to our screen
    frame_copy = frame.copy()
    frame_copy = cv2.rectangle(
        frame_copy, (width // 2 - windowSize // 2, 0),
Пример #26
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def left():
    ReleaseKey(D)
    PressKey(W)
    PressKey(A)