Exemplo n.º 1
0
 def screenshot(self, amount, i):
     file = []
     with mss.mss() as sct:
         for _ in range(amount):
             image = 'run%s.png' % i
             file = sct.shot(output=image, mon=1)
             self.image_to_array(file)
Exemplo n.º 2
0
def grab_screenshot(queue):
    # The screen part to capture
    global isRunning

    while True:
        if isRunning:
            # shot_start = time.perf_counter()
            print("New shot.")

            # 720/2 - 150
            print(str(top) + ", " + str(left))
            monitor = {"top": top, "left": left, "width": 300, "height": 300}
            #fname = cwd + '\j_' + str(i) + '-' + str(version) + '.png'
            img = mss.mss().grab(monitor)

            #https://stackoverflow.com/questions/51488275/cant-record-screen-using-mss-and-cv2
            img = np.array(img)  # Retrieve as BGRA
            img = cv2.cvtColor(img, cv2.COLOR_BGRA2RGB)  # Reshape to RGB

            queue.put(img)
            # shot_end = time.perf_counter()
            # print("Shot finished in " + str(shot_end - shot_start) + " sec")

            # threading.Timer(0.0, run_model, args=(False, queue,)).start()
            run_model(False, queue)

            # queue.join()
            # run_model(img, False)
            #mss.tools.to_png(img.rgb, img.size, output=fname)

    return
Exemplo n.º 3
0
def capture_images(nImages=150,
                   delay=1 / 15,
                   top=0,
                   left=0,
                   width=1000,
                   height=1000):
    """ Capture and save screenshots"""
    try:
        os.mkdir("capture")
    except:
        pass
    with mss.mss() as sct:

        monitor = {
            "top": top,
            "left": left,
            "width": int(width),
            "height": int(height)
        }
        #output = "sct-{top}x{left}_{width}x{height}.png".format(**monitor)
        sct.compression_level = 2
        #sct_img = sct.grab(monitor)

        for n in range(nImages):
            sct_img = sct.grab(monitor)
            mss.tools.to_png(sct_img.rgb,
                             sct_img.size,
                             output=f'capture/{n}.png'.format(**monitor))
            print(n)
            time.sleep(delay)
Exemplo n.º 4
0
 def screenshot(self, amount, i):
     file = []
     with mss.mss() as sct:
         for _ in range(amount):
             image = 'run%s.png' % i
             file = sct.shot(output=image, mon=2)
             print(file)
             self.crop_im(image, i)
Exemplo n.º 5
0
def takeshot_center():
    # The screen part to capture
    global i
    cwd = os.getcwd()
    monitor = {"top": 210, "left": 490, "width": 300, "height": 300}
    fname = cwd + '\j_' + str(i) + '-' + str(version) + '.png'
    img = mss.mss().grab(monitor)
    mss.tools.to_png(img.rgb, img.size, output=fname)

    i += 1
Exemplo n.º 6
0
 def start(self):
     self.isRecording = True
     self.create_metadata()
     try:
         with mss.mss() as sct:
             while self.isRecording: 
                 self.capture_joystick(self.joystick, self.id)
                 self.capture_screen(sct, self.id)
                 self.id = self.id + 1
     except Exception as e:
         raise e
Exemplo n.º 7
0
            def really_processing():
                try:
                    screen_path = os.path.join(self.cur_dir, "__TEMP__.png")
                    screen_path = os.path.abspath(screen_path)
                    img = ""
                    #Делаем скриншот
                    if self.chosen_opt.get() == CHSE_OWN:
                        ch1x = int(self.btn_choose1_X.get())
                        ch1y = int(self.btn_choose1_Y.get())
                        ch2x = int(self.btn_choose2_X.get())
                        ch2y = int(self.btn_choose2_Y.get())
                        capture_space = {
                            "top": ch1x,
                            "left": ch1y,
                            "width": ch2x - ch1x,
                            "height": ch2y - ch1y
                        }
                        with mss.mss() as print_screen:
                            img = print_screen.grab(capture_space)
                        mss.tools.to_png(img.rgb, img.size, output=screen_path)
                    elif self.chosen_opt.get() == CHSE_FS:
                        with mss.mss() as print_screen:
                            img = print_screen.shot(output=screen_path)

                    #Работа с docx и doc файлами
                    section = self.document.sections[0]
                    section.left_margin = docx.shared.Cm(1)
                    section.right_margin = docx.shared.Cm(1)
                    section.top_margin = docx.shared.Cm(1)
                    section.bottom_margin = docx.shared.Cm(1)
                    self.document.add_picture(screen_path,
                                              width=section.page_width -
                                              section.left_margin -
                                              section.right_margin)

                    self.document.save(file_path)
                    os.remove(screen_path)
                except Exception as err:
                    err_queue.put((err.__class__, traceback.format_exc()))
                    self.root.event_generate("<<On error>>")
def grab_screenshot():
    # The screen part to capture
    while True:
        if isRunning:
            monitor = {"top": top, "left": left, "width": 300, "height": 300}
            img = mss.mss().grab(monitor)
            
            #https://stackoverflow.com/questions/51488275/cant-record-screen-using-mss-and-cv2
            img = np.array(img) # Retrieve as BGRA
            img = cv2.cvtColor(img, cv2.COLOR_BGRA2RGB) # Reshape to RGB    
        
            imageScreenshot.img = img
    
    return
def takeshot_center():
    # The screen part to capture
    
    # 720/2 - 150
    print(str(top) + ", " + str(left))
    monitor = {"top": top, "left": left, "width": 300, "height": 300}
    #fname = cwd + '\j_' + str(i) + '-' + str(version) + '.png'
    img = mss.mss().grab(monitor)
    
    #https://stackoverflow.com/questions/51488275/cant-record-screen-using-mss-and-cv2
    img = np.array(img) # Retrieve as BGRA
    img = cv2.cvtColor(img, cv2.COLOR_BGRA2RGB) # Reshape to RGB

    test(img)
Exemplo n.º 10
0
def grab_screen(coordinates):
    """Grabs a screenshot from the coordinated provided"""
    with mss.mss() as sct:
        # print("League window coordinates: ", coordinates)
        league_img = np.array(sct.grab(coordinates))
        return league_img
Exemplo n.º 11
0
y0 = pos1[1]

width = np.abs(pos2[0] - pos1[0])
height = np.abs(pos1[1] - pos2[1])

for fase in g_i.Phases[:]:

    g_i.setcurrentphase(fase)

    time.sleep(2)

    print(fase.Identification.value)

    naam = fase.Identification.value

    with mss.mss() as sct:
        # The screen part to capture
        #        monitor = {"top": 200, "left": 500, "width": 1300, "height": 650}
        monitor = {
            "top": int(y0),
            "left": int(x0),
            "width": int(width),
            "height": int(height)
        }
        output = str(naam + ".png".format(**monitor))

        # Grab the data
        sct_img = sct.grab(monitor)

        # Save to the picture file
        mss.tools.to_png(sct_img.rgb, sct_img.size, output=output)
Exemplo n.º 12
0
 def screenshot(self, amount, i):
     file = []
     with mss.mss() as sct:
         for _ in range(amount):
             file=sct.shot(output ='run%s.png' %i)
Exemplo n.º 13
0
        def exit_func(event):
            del event
            self_import.Windows.unbind('<B1-Motion>')  # pylint: disable=E1101
            self_import.Windows.unbind(
                '<ButtonRelease-1>')  # pylint: disable=E1101
            self_import.Windows.unbind('<F2>')  # pylint: disable=E1101

            imags, cords = [], []
            for x in self.all_cord_mnogo:
                if x[2] == 0 and x[3] == 0:
                    continue

                with mss.mss() as sct:
                    cords.append(x[0])
                    cords.append(x[1])
                    cords.append(x[2])
                    cords.append(x[3])
                    monitor = {"top": x[0], "left": x[1],
                               "width": x[2], "height": x[3]}
                    try:
                        img = resize(array(
                            sct.grab(monitor)), (0, 0), fx=10, fy=10)
                        img = GaussianBlur(img, (11, 11), 0)
                        imags.append(img)

                    except Exception:
                        continue

            self_import.paint.pack_forget()
            # self.bat1.pack()
            self_import.Windows.geometry(
                '145x32+{}+{}'.format(self.location_window[0], self.location_window[1]))
            self_import.Windows.update()
            self_import.Windows.overrideredirect(0)
            self_import.Windows.update()
            self_import.START()
            self_import.lab0['width'] = 25
            # self.Windows.bind('F4',skrinshot_bid)

            i = 0
            for y in imags:
                try:
                    a = pytesseract.image_to_string(y, lang='eng')
                    if a != '':
                        self_import.skrin_shot_batton['text'] = '[+]'
                        self_import.Switches_radio.set('0')

                        if i == 0:
                            self_import.text_box.insert(
                                tkinter.INSERT, '{} '.format(a))

                        else:
                            self_import.text_box.insert(
                                tkinter.INSERT, '\n\\/-------------{}-------------------\\/\n {} '.format(i+1, a))

                        i += 1

                        try:
                            os.remove('Photo\\except_photo{}.png'.format(i))
                        except FileNotFoundError:
                            pass
                    else:
                        self_import.skrin_shot_batton['text'] = '[-]'
                        imwrite('Photo\\except_photo{}.png'.format(i), y)

                except pytesseract.pytesseract.TesseractNotFoundError:
                    if 'tesseract-ocr.exe' in os.listdir(os.getcwd()):
                        os.system('tesseract-ocr.exe')
                        return

                    self_import.text_box.delete(1.0, tkinter.END)
                    self_import.text_box.insert(
                        tkinter.INSERT, 'Для работы этой функции необходимо устоновить tesseract по ссылки\nhttps://github.com/UB-Mannheim/tesseract/wiki\nУкажите при устоновки следующий путь\nC:\\Program Files\\Tesseract-OCR')
                    return

                except pytesseract.pytesseract.TesseractError:
                    self_import.text_box.delete(1.0, tkinter.END)
                    self_import.text_box.insert(
                        tkinter.INSERT, 'Выбраный язык не устоновлен - выберите этот язык при устоновки')
                    return
Exemplo n.º 14
0
    def skrinshot_s_class(self, self_import, AVTO_S=0):

        def exit_func(event):
            del event
            self_import.Windows.unbind('<B1-Motion>')  # pylint: disable=E1101
            self_import.Windows.unbind(
                '<ButtonRelease-1>')  # pylint: disable=E1101
            self_import.Windows.unbind('<F2>')  # pylint: disable=E1101

            imags, cords = [], []
            for x in self.all_cord_mnogo:
                if x[2] == 0 and x[3] == 0:
                    continue

                with mss.mss() as sct:
                    cords.append(x[0])
                    cords.append(x[1])
                    cords.append(x[2])
                    cords.append(x[3])
                    monitor = {"top": x[0], "left": x[1],
                               "width": x[2], "height": x[3]}
                    try:
                        img = resize(array(
                            sct.grab(monitor)), (0, 0), fx=10, fy=10)
                        img = GaussianBlur(img, (11, 11), 0)
                        imags.append(img)

                    except Exception:
                        continue

            self_import.paint.pack_forget()
            # self.bat1.pack()
            self_import.Windows.geometry(
                '145x32+{}+{}'.format(self.location_window[0], self.location_window[1]))
            self_import.Windows.update()
            self_import.Windows.overrideredirect(0)
            self_import.Windows.update()
            self_import.START()
            self_import.lab0['width'] = 25
            # self.Windows.bind('F4',skrinshot_bid)

            i = 0
            for y in imags:
                try:
                    a = pytesseract.image_to_string(y, lang='eng')
                    if a != '':
                        self_import.skrin_shot_batton['text'] = '[+]'
                        self_import.Switches_radio.set('0')

                        if i == 0:
                            self_import.text_box.insert(
                                tkinter.INSERT, '{} '.format(a))

                        else:
                            self_import.text_box.insert(
                                tkinter.INSERT, '\n\\/-------------{}-------------------\\/\n {} '.format(i+1, a))

                        i += 1

                        try:
                            os.remove('Photo\\except_photo{}.png'.format(i))
                        except FileNotFoundError:
                            pass
                    else:
                        self_import.skrin_shot_batton['text'] = '[-]'
                        imwrite('Photo\\except_photo{}.png'.format(i), y)

                except pytesseract.pytesseract.TesseractNotFoundError:
                    if 'tesseract-ocr.exe' in os.listdir(os.getcwd()):
                        os.system('tesseract-ocr.exe')
                        return

                    self_import.text_box.delete(1.0, tkinter.END)
                    self_import.text_box.insert(
                        tkinter.INSERT, 'Для работы этой функции необходимо устоновить tesseract по ссылки\nhttps://github.com/UB-Mannheim/tesseract/wiki\nУкажите при устоновки следующий путь\nC:\\Program Files\\Tesseract-OCR')
                    return

                except pytesseract.pytesseract.TesseractError:
                    self_import.text_box.delete(1.0, tkinter.END)
                    self_import.text_box.insert(
                        tkinter.INSERT, 'Выбраный язык не устоновлен - выберите этот язык при устоновки')
                    return

        def one(event):

            def paint_square(self, event=0):

                if self.x == 0 and self.y == 0:
                    self.x = event.x
                    self.y = event.y
                else:
                    self_import.paint.delete('circle')
                    self_import.paint.create_rectangle(
                        event.x, event.y, self.x, self.y, outline='blue', tag='circle')

            if event.num == 1:

                #########################################
                x0, x_max = self.x, event.x
                X = x0-x_max
                if X < 0:
                    X *= -1
                else:
                    x0, x_max = x_max, x0
                #########################################
                y0, y_max = self.y, event.y
                Y = y0-y_max
                if Y < 0:
                    Y *= -1
                else:
                    y0, y_max = y_max, y0
                #########################################
                self.x = self.y = 0

                if x0 == 0 and y0 == 0:
                    exit_func(self)
                    return

                rrr = (y0, x0, X, Y, x_max, y_max)
                self.all_cord_mnogo.append(rrr)
                self_import.paint.create_rectangle(
                    x_max, y_max, x0, y0, outline='blue', tag=str(x_max))

            else:
                paint_square(self, event)

        if not ORC_check:
            self_import.lab0['text'] = ' NO ORC '
            return False

        self_import.STOP()
        self_import.bat1.pack_forget()
        self_import.frame1.pack()
        self_import.lab0.pack()
        self_import.lab0['width'] = 45
        self_import.lab0['text'] = '-------- [F2] --------'
        self_import.Windows.update()

        with mss.mss() as sct:
            monitor = {"top": 0, "left": 0, "width": GetSystemMetrics(
                0), "height": GetSystemMetrics(1)}
            mss.tools.to_png(sct.grab(monitor).rgb, sct.grab(
                monitor).size, output='Photo\\photo_t.png')

        self_import.lab0.pack_forget()
        self_import.frame1.pack_forget()
        self_import.Windows.overrideredirect(1)

        global imgas  # pylint: disable=E1101
        imgas = ImageTk.PhotoImage(Image.open('Photo\\photo_t.png'))
        self_import.paint.create_image(0, 0, anchor=tkinter.NW, image=imgas)
        self.location_window = (
            self_import.Windows.winfo_x(), self_import.Windows.winfo_y())
        self_import.paint.pack()
        self_import.Windows.geometry(
            '{}x{}+0+0'.format(self_import.Windows.winfo_screenwidth(), self_import.Windows.winfo_screenheight()))
        self_import.Windows.update()

        self.Auto_capture = 0
        if AVTO_S == 1:
            self.Auto_capture = 1

        self_import.Windows.bind('<B1-Motion>', one)
        self_import.Windows.bind('<ButtonRelease-1>', one)
        self_import.Windows.bind('<F2>', exit_func)
Exemplo n.º 15
0
 def __init__(self):
     self.joystick = Joystick()
     self.id = 0
     self.dir = ""
     self.isRecording = False
     self.sct = mss.mss()