Exemple #1
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def run():
    title = "screen"
    fps = 0
    start_time = time.time()
    sct = MSS()
    mon = get_screen_res()
    print(mon)
    while True:
        try:
            img = np.asarray(sct.grab(mon))
        except mss.ScreenShotError:
            details = sct.get_error_details
            import pprint
            pprint.pprint(details)
            break
        else:
            cv2.imshow(title, cv2.cvtColor(img, cv2.COLOR_BGR2GRAY))
            fps += 1
            t = time.time() - start_time
            if t >= 1:
                print(f"FPS is {fps}")
                fps = 0
                start_time = time.time()
            if cv2.waitKey(25) & 0xFF == ord("q"):
                cv2.destroyAllWindows()
                break
Exemple #2
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def takeScreenshot(screenshotType):
    loadConfig()

    if ('default' in screenshotType):
        with mss.mss() as sct:
            file = sct.shot(output=img_filename)
    elif ('-d' in screenshotType):
        with mss.mss() as sct:
            time.sleep(5)
            file = sct.shot(output=img_filename)
    elif ('-i' in screenshotType):
        with mss.mss() as sct:
            file = sct.shot(output='imgur.png')
        upload()
Exemple #3
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def screen_record():
    sct = mss.mss()
    last_time = time.time()

    while (True):
        img = sct.grab(mon)
        print('loop took {} seconds'.format(time.time() - last_time))
        last_time = time.time()

        img = np.array(img)
        processed_image = process_image(img)
        mean = np.mean(processed_image)
        print('mean = ', mean)

        if mean <= float(0.11):
            print('SSSSSSSS ')
            pyautogui.click(button='left')
            break
            return
        else:
            time.sleep(0.01)
            continue
        return
        if cv2.waitKey(25) & 0xFF == ord('q'):
            cv2.destroyAllWindows()
            break
Exemple #4
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def fish_shrimp():
    mon = tools.find_rs()
    if mon['width'] < 773 or mon['height'] < 534:
        print('rs not in screen or partially blocked!')
        return -1
    inv_items = [
        cv2.imread("net.png"),
        cv2.imread("shrimp.png"),
        cv2.imread("bottle.png")
    ]
    not_fishing = True
    inventory = 0
    cursor_data = display.Display().screen().root.query_pointer()._data
    mouse_pos = (cursor_data["root_x"] - mon['left'],
                 cursor_data["root_y"] - mon['top'])
    current_spot = (mon['left'] + mon['width'] / 1.5,
                    mon['top'] + mon['height'] / 2)
    while True:
        imfile = 'imfile.png'
        shot = mss.mss().grab(mon)
        mss.tools.to_png(shot.rgb, shot.size, output=imfile)
        image = cv2.imread(imfile)
        if not_fishing and inventory < 28:
            #find closest fishing spot
            new_spot = find_new_spot(image)
            #move mouse and click
            move_mouse(current_spot, new_spot, mon)
            time.sleep(5)
            shot = mss.mss().grab(mon)
            mss.tools.to_png(shot.rgb, shot.size, output=imfile)
            image = cv2.imread(imfile)
            current_spot = find_new_spot(image)
            not_fishing = False
        else:
            #check if spot has changed
            temp_spot = find_new_spot(image)
            if temp_spot is not current_spot:
                not_fishing = True
            #count items
            inventory = inventory_num(image)
            time.sleep(2)
        if inventory > 28:
            #go to bank
            print('done fishing')
Exemple #5
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def main():
    # type: () -> int
    ''' Usage example with a specific display. '''

    display = ':0.0'
    print('Screenshot of display "{0}"'.format(display))

    try:
        with MSS(display=display) as sct:
            output = 'monitor{0}-%d.png'.format(display)
            for filename in sct.save(output=output):
                print(filename)

            return 0
    except ScreenshotError as ex:
        print(ex)

    return 1
Exemple #6
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def ss():
    op = 1
    with mss.mss() as sct:

        monitor = {"top": 40, "left": 0, "width": 800, "height": 640}

        while "Screen capturing":
            last_time = time.time()

            img = numpy.array(sct.grab(monitor))

            gray_frame = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
            res = cv2.matchTemplate(gray_frame, template, cv2.TM_CCOEFF_NORMED)
            loc = np.where(res >= 0.7)
            op += 1
            print(op)
            for pt in zip(*loc[::-1]):
                cv2.rectangle(img, pt, (pt[0] + w, pt[1] + h), (0, 255, 0), 3)
                for p in img:
                    pts = (pt[0], pt[1])
                    x = (pt[0])
                    y = (pt[1])
                    print(x)
                    if 100 < x < 490:
                        pyautogui.mouseDown(button='left')
                        time.sleep(2)
                        pyautogui.mouseUp(button='left')
                        x = 0
                        break
                    else:
                        continue
                    break
                else:
                    continue
                break
            key = cv2.waitKey(1)
            if cv2.waitKey(25) & 0xFF == ord("q"):
                cv2.destroyAllWindows()
            if op > 35:
                return
# coding: utf-8
"""
This is part of the MSS Python's module.
Source: https://github.com/BoboTiG/python-mss

Usage example with a specific display.
"""

from mss.linux import MSS

with MSS(display=':0.0') as sct:
    for filename in sct.save():
        print(filename)
 def grabData(menuMonitor):
     sct = mss.mss()
     sct_img = sct.grab(menuMonitor)
     return sct_img
Exemple #9
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def find_top_corner():
    with mss.mss() as sct:
        cmon = cv2.imread(sct.shot(), 0)
        rl = cv2.imread('rl_logo.png', 0)
        res = cv2.matchTemplate(cmon, rl, cv2.TM_CCOEFF)
        return cv2.minMaxLoc(res)[3]
Exemple #10
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def live_play_to_table(name):
    global click
    click = False
    mon = find_rs()
    cursor = cv2.imread("cursor.png")
    fish = cv2.imread("fish.png")
    inv_items = [
        cv2.imread("net.png"),
        cv2.imread("shrimp.png"),
        cv2.imread("bottle.png")
    ]
    with open(name + ".csv", 'w', newline='') as file:
        fieldnames = [
            'cursor_locx', 'cursor_locy', 'fish_locx', 'fish_locy', 'inv_num',
            'click', 'time_elapsed'
        ]
        writer = csv.DictWriter(file, fieldnames=fieldnames)
        count = 0
        prev_time = time.time()
        with mouse.Listener(on_click=on_click) as listener:
            while 1:
                #get image
                imfile = 'imfile.png'
                shot = mss.mss().grab(mon)
                mss.tools.to_png(shot.rgb, shot.size, output=imfile)
                image = cv2.imread(imfile)
                #cursor location
                cursor_data = display.Display().screen().root.query_pointer(
                )._data
                cursor_loc = (cursor_data["root_x"] - mon['left'],
                              cursor_data["root_y"] - mon['top'])
                #fishing spots convolution
                fish_res = cv2.matchTemplate(image[:np.newaxis, :570], fish,
                                             cv2.TM_CCOEFF_NORMED)
                fish_spots = np.where(fish_res >= 0.7)
                fish_loc = [pt for pt in zip(*fish_spots[::-1])]
                for f in fish_loc:
                    f = list(f)
                    f[0] += 13
                    f[1] += 17
                close_fish = tuple(closest_coord(fish_loc))
                #inventory number
                item_count = 0
                for item in inv_items:
                    res = cv2.matchTemplate(image[:np.newaxis, 570:], item,
                                            cv2.TM_CCOEFF_NORMED)
                    inv_spots = np.where(res >= 0.8)
                    inv_loc = [pt for pt in zip(*inv_spots[::-1])]
                    item_count += len(inv_loc)
                #click
                click_loc = 0
                if click:
                    click_loc = 1
                #screen turn (hard, do later :P)
                time_elapsed = time.time() - prev_time
                prev_time = time.time()
                #write to csv
                writer.writerow({
                    'cursor_locx': cursor_loc[0] / mon['width'],
                    'cursor_locy': cursor_loc[1] / mon['height'],
                    'fish_locx': close_fish[0] / mon['width'],
                    'fish_locy': close_fish[1] / mon['height'],
                    'inv_num': item_count / 28,
                    'click': click_loc,
                    'time_elapsed': time_elapsed
                })
                count += 1
                click = False
            listener.join()
Exemple #11
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def get_monitor():
    with mss.mss() as sct:
        size = pag.size()
        mon = {"top": 0, "left": 0, "width": size.width, "height": size.height}
        return np.array(sct.grab(mon))
Exemple #12
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# coding: utf-8
"""
This is part of the MSS Python's module.
Source: https://github.com/BoboTiG/python-mss

Usage example with a specific display.
"""

from mss.linux import MSS


with MSS(display=":0.0") as sct:
    for filename in sct.save():
        print(filename)
Exemple #13
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import numpy as np
import cv2
from mss.linux import MSS as mss
from PIL import Image
import time
import pyautogui as pg
import cv2
import mss
import numpy

template = cv2.imread("Senkoface.png", cv2.IMREAD_GRAYSCALE)
w, h = template.shape[::-1]

with mss.mss() as sct:
    monitor = {"top": 40, "left": 0, "width": 800, "height": 640}

    while "Screen capturing":
        last_time = time.time()
        img = numpy.array(sct.grab(monitor))
        cv2.imshow("OpenCV/Numpy normal", img)
        print("fps: {}".format(1 / (time.time() - last_time)))
        gray_frame = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
        res = cv2.matchTemplate(gray_frame, template, cv2.TM_CCOEFF_NORMED)
        loc = np.where(res >= 0.7)
        for pt in zip(*loc[::-1]):
            cv2.rectangle(img, pt, (pt[0] + w, pt[1] + h), (0, 255, 0), 3)
        cv2.imshow("Frame", img)
        key = cv2.waitKey(1)
        if cv2.waitKey(25) & 0xFF == ord("q"):
            cv2.destroyAllWindows()
            break