Beispiel #1
0
    def coords(this, shot=True):
        this = this + '.png'
        if shot:
            Screenshot.shot()
        else:
            print('No screenshot')
        small_image = cv2.imread(this)
        h, w, c = small_image.shape
        large_image = cv2.imread('playing.png')
        result = cv2.matchTemplate(
            small_image, large_image, cv2.TM_SQDIFF_NORMED)
        min_val, max_val, min_loc, max_loc = cv2.minMaxLoc(result)
        # print('ImageCoordinate::coords => ' + this + ' ' + str(min_val))
        mn, _, mn_loc, mx_loc = cv2.minMaxLoc(result)
        mp_x, mp_y = mn_loc
        # #pyautogui.moveTo(mp_x, mp_y)
        # top_left = mn_loc
        # mx_right = mx_loc
        # bt_rt =(top_left[0]+h,top_left[1]+w)
        # cv2.rectangle(large_image,top_left,bt_rt,255,2)

        # bt_rt =(mx_right[0]+h,mx_right[1]+w)
        # cv2.rectangle(large_image,mx_right,bt_rt,255,2)
        # cv2.imwrite('result_'+this.replace('images/',''), large_image)
        # print('saved'+str(min_val))
        if min_val > 0.2:
            return [0, 0, min_val]
        mn, _, mn_loc, _ = cv2.minMaxLoc(result)
        mp_x, mp_y = mn_loc
        ordinal = random.randrange(1, 15)
        a = random.randrange(-ordinal, ordinal)
        b = random.randrange(-ordinal, ordinal)

        location = [mp_x + w / 2+a, mp_y + h / 2+b, min_val]
        return location
Beispiel #2
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 def count_occurrence(this):
     Screenshot.shot()
     this = this + '.png'
     img_rgb = cv2.imread(this)
     template = cv2.imread('playing.png')
     res = cv2.matchTemplate(img_rgb, template, cv2.TM_SQDIFF_NORMED)
     threshold = 0.8
     loc = np.where(res >= threshold)
     cv2.imwrite('result.png', img_rgb)
     return loc
Beispiel #3
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 def is_on_screen(this):
     this = this + '.png'
     Screenshot.shot()
     small_image = cv2.imread(this)
     large_image = cv2.imread('playing.png')
     result = cv2.matchTemplate(small_image, large_image,
                                cv2.TM_SQDIFF_NORMED)
     min_val, max_val, min_loc, max_loc = cv2.minMaxLoc(result)
     # print('ImageCoordinate::is_on_screen => ' + this + ' ' + str(min_val))
     mn, _, mn_loc, _ = cv2.minMaxLoc(result)
     mp_x, mp_y = mn_loc
     # pyautogui.moveTo(mp_x, mp_y)
     if min_val > 0.05:
         return False
     else:
         return True
Beispiel #4
0
 def coords(this, shot=True):
     this = this + '.png'
     if shot:
         Screenshot.shot()
     else:
         print('No screenshot')
     small_image = cv2.imread(this)
     h, w, c = small_image.shape
     large_image = cv2.imread('playing.png')
     result = cv2.matchTemplate(small_image, large_image,
                                cv2.TM_SQDIFF_NORMED)
     min_val, max_val, min_loc, max_loc = cv2.minMaxLoc(result)
     # print('ImageCoordinate::coords => ' + this + ' ' + str(min_val))
     mn, _, mn_loc, _ = cv2.minMaxLoc(result)
     mp_x, mp_y = mn_loc
     # pyautogui.moveTo(mp_x, mp_y)
     if min_val > 0.25:
         return [0, 0, min_val]
     mn, _, mn_loc, _ = cv2.minMaxLoc(result)
     mp_x, mp_y = mn_loc
     location = [mp_x + w / 2, mp_y + h / 2, min_val]
     return location
Beispiel #5
0
    def is_on_screen(this, accuracy=0.14):
        this = this + '.png'
        Screenshot.shot()
        small_image = cv2.imread(this)
        h, w, c = small_image.shape
        large_image = cv2.imread('playing.png')
        result = cv2.matchTemplate(
            small_image, large_image, cv2.TM_SQDIFF_NORMED)
        min_val, max_val, min_loc, max_loc = cv2.minMaxLoc(result)
        #print('ImageCoordinate::is_on_screen => ' + this + ' ' + str(min_val))
        mn, _, mn_loc, mx_loc = cv2.minMaxLoc(result)
        mp_x, mp_y = mn_loc
        m_x, m_y = mx_loc
        # print(mn_loc)
        # top_left = mn_loc
        # mx_right = mx_loc
        bt_rt = (mn_loc[0], mn_loc[1])
        bt_rtw = (mn_loc[0]+w, mn_loc[1]+h)
        # cv2.rectangle(large_image,top_left,bt_rt,255,2)

        # bt_rt =(mx_right[0]+h,mx_right[1]+w)
        # cv2.rectangle(large_image,mx_right,bt_rt,255,2)
        # cv2.imwrite('result_'+this.replace('images/',''), large_image)
        # print('saved')
        #pyautogui.moveTo(mp_x, mp_y)
        print(min_val)
        if min_val > accuracy:
            return False
        else:
            mn, _, mn_loc, _ = cv2.minMaxLoc(result)
            mp_x, mp_y = mn_loc
            ordinal = random.randrange(1, 15)
            a = random.randrange(-ordinal, ordinal)
            b = random.randrange(-ordinal, ordinal)
            location = [mp_x + w / 2+a, mp_y + h / 2+b, bt_rt, bt_rtw, min_val]
            return location
Beispiel #6
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 def take_screenshot(self):
     Screenshot.shot('default.png')