Exemplo n.º 1
0
def _press(char):
    # Convert to pyAutoGui char
    if char in _ARD_TO_PYAUTOGUI_KEYS:
        char = _ARD_TO_PYAUTOGUI_KEYS[char]

    _pressed_list.append(char)
    pyautogui.keyDown(char)  # TODO - This library does not simulate read hold down
Exemplo n.º 2
0
def play():
    #get sensor data
    s.getSensorData()
    #sense keypress
    global rc_prev
    rc = s.RemoteCode
    #remove double clicks
    if not (rc == rc_prev):
        if rc  == '6C90':
            hmi.keyDown('up')
            hmi.keyUp('up')
        elif rc == 'CC30':
            hmi.keyDown('down')
            hmi.keyUp('down')
        elif rc == 'AC50':
            hmi.keyDown('right')
            hmi.keyUp('right')
        elif rc == '8C70':
            hmi.keyDown('left')
            hmi.keyUp('left')
        elif rc == '9C60':
            hmi.keyDown('p')
            hmi.keyUp('p')
        rc_prev = rc
    s.ledWrite(Red, On)
    wait(20)
    s.ledWrite(Red, Off)
    wait(20)
def resize(n, dir):
    pag.keyDown('winleft')
    pag.press('r')
    pag.keyUp('winleft')
    for i in range(n):
        pag.press(dir)
    pag.press('escape')
Exemplo n.º 4
0
def tick(direction='right', count=0):
	global oldIm
	global newIm
	# no sleep but there's a long step size... is it hanging on the screenshot???
	# screenGrab(count)

	# oldPath, newPath = None, None
	if count is 0:
		newIm = screenGrab(count)
	else:
		oldIm = newIm
		newIm = screenGrab(count)

		# shouldn't be getcwding every time
		# oldPath = os.getcwd() + '/caps/' + str(count - 1) + '.png'
		# oldPath = s
		# newPath = os.getcwd() + '/caps/' + str(count) + '.png'
	# direction = bestMove(oldPath, newPath)
	oldDirection = direction
	direction = bestMove(oldIm, newIm)

	if oldDirection not in ['space','sit']:
		pyautogui.keyUp(oldDirection)
	if direction not in ['space','sit']:

		pyautogui.keyDown(direction)
		# time.sleep(0.05)
	elif direction == "space":
		pyautogui.press('space')
	count += 1
	tick(direction, count)
Exemplo n.º 5
0
def do_right(area):
    print area
    if area > 33000 and pressedAtt == 0:
	pyautogui.keyDown("enter")
	pyautogui.keyUp("enter")
	global pressedAtt
	pressedAtt = 1
	print "ATT"

    if area < 10000 and pressedDef == 0:
	pyautogui.keyDown("ctrlright")
	
	global pressedDef
	pressedDef = 1
	print "DEF"
	
    else:
        if pressedAtt == 1 and area < 33000:
		global pressedAtt
		pressedAtt = 0
	if pressedDef == 1 and area > 10000:
		print "DUPA"
		pyautogui.keyUp("ctrlright")
		global pressedDef
		pressedDef = 0
Exemplo n.º 6
0
def play_music(url):
    webbrowser.open(url, 0, autoraise=False)
    time.sleep(0.1)
    pyautogui.keyDown("Alt")
    pyautogui.keyDown("Tab")
    pyautogui.keyUp("Alt")
    pyautogui.keyUp("Tab")
Exemplo n.º 7
0
def close():
    """
    this method presses alt+f4 of the virtual key board.
    """
    p.keyDown('alt')
    p.keyDown('f4')
    p.keyUp('f4')
    p.keyUp('alt')
Exemplo n.º 8
0
def startup_menu():
    """
    this method shows the startup menu....
    """
    p.keyDown('alt')
    p.keyDown('f1')
    p.keyUp('f1')
    p.keyUp('alt')
Exemplo n.º 9
0
def zoom_out(scale):
    pyautogui.keyDown('ctrlleft')
    for x in range(0,scale):
        print("zooming out")
        pyautogui.keyDown('-')
        pyautogui.keyUp('-')
    pyautogui.keyUp('ctrlleft')
    return True
def Tu_Dong_Go_Phim():
    time.sleep(2)
    i = 0
    while i < 10:
        i += 1
        keyDown('enter', pause=0.25)
        keyUp('enter', pause=0.25)
        typewrite(str(i), interval=0.5)
Exemplo n.º 11
0
 def make(recipe):
     pyautogui.keyDown('down')
     time.sleep(2)
     pyautogui.keyUp('down')
     pyautogui.press('p')
     if recipe.com == 's':
         pyautogui.press(recipe.com)
     pyautogui.press('enter')
Exemplo n.º 12
0
def type_this(strings):
    """Types the passed characters with random pauses in between strokes"""
    for s in strings:
        # delay between key presses--key UP/DOWN
        #autopy.key.toggle(s, True)
        pyautogui.keyDown(s)
        RandTime.randTime(0,0,0,0,0,9)
        pyautogui.keyUp(s)
Exemplo n.º 13
0
def clicker(coordinate):  # generate click event on a particular coordinate
    x = coordinate
    pyautogui.keyDown('ctrlleft')
    print(x)
    pyautogui.moveTo(x[0], x[1], duration=0.1) # This duration specifies how speed the mouse travels
    pyautogui.click(x[0], x[1])
    pyautogui.keyUp('ctrlleft')
    return True
def youdao():
        count = 0
        time.sleep(5)
        while count < 90000:
            pag.keyDown('up')
            print(count)
            time.sleep(1)
            count += 1
        print('done')
Exemplo n.º 15
0
def cut():
    """
    this method presses ctrl+x of the virtual key board.
    """
    p.keyDown('ctrl')
    p.keyDown('x')
    p.keyUp('x')
    p.keyUp('ctrl')
    notify('cut '+ clipboard.paste())
Exemplo n.º 16
0
def paste():
    """
    this method presses ctrl+v of the virtual key board.
    """
    p.keyDown('ctrl')
    p.keyDown('v')
    p.keyUp('v')
    p.keyUp('ctrl')
    notify('paste '+ clipboard.paste())
Exemplo n.º 17
0
def copy():
    """
    this method presses ctrl+c of the virtual key board.
    """
    p.keyDown('ctrl')
    p.keyDown('c')
    p.keyUp('c')
    p.keyUp('ctrl')
    notify('copy '+ clipboard.paste())
Exemplo n.º 18
0
def OnKeyboardEvent(event):
    if chr(event.Ascii) == 'i' and event.IsAlt():
        pyautogui.keyDown('alt')
        pyautogui.keyDown('shift')
        pyautogui.keyUp('shift')
        pyautogui.keyUp('alt')
        pyautogui.hotkey('ctrl', 'i')
        return False
    return True
Exemplo n.º 19
0
def click_through(i):
    ad_spotter(i)
    #for i in range(0,3):
    #    pyautogui.click()
    time.sleep(2)
    #pyautogui.click()
    #close_tab()
    pyautogui.keyDown('command')
    pyautogui.press('w')
    pyautogui.keyUp('command')
Exemplo n.º 20
0
 def key_down(self, key, down_tm: float):
     """
     Custom sleep time for when a key needs to be
     held down for a cooking recipe
     :param down_tm: sleep time
     """
     pyautogui.keyDown(key, _pause=False)
     time.sleep(down_tm)
     pyautogui.keyUp(key, _pause=False)
     time.sleep(self.key_press_sleep)
Exemplo n.º 21
0
Arquivo: runner.py Projeto: jiangyy/c3
def keypress(cmd):
  FNKEY = ['ctrl', 'alt']
  keys = cmd.lower().split('-')
  for key in keys:
    if key in FNKEY:
      pyautogui.keyDown(key)
    else:
      pyautogui.press(key)
  for key in keys:
    if key in FNKEY:
      pyautogui.keyUp(key)
Exemplo n.º 22
0
 def moveCharToTheLeftOfFM(self):
     CharIsLeft = False
     pyautogui.keyDown('left')
     while not CharIsLeft:
         im = pyautogui.screenshot(region=(0, 0, 800, 600))
         left = im.getpixel((9, 138))
         if 212 < left[0] and left[0] < 224:
             if 200 < left[1] and left[1] < 208:
                 if 14 < left[2] and left[2] < 18:
                     CharIsLeft = True
     pyautogui.keyUp('left')
Exemplo n.º 23
0
def play():
	pyautogui.hotkey('winleft', '9')
	time.sleep(0.5)
	pyautogui.hotkey('ctrl', 't')
	pyautogui.typewrite('http://www.kanyezone.com/', interval = 0.05)
	pyautogui.press('enter')
	time.sleep(4)
	# pyautogui.press('enter')
	pyautogui.keyDown('right')
	time.sleep(0.25)
	pyautogui.keyUp('right')
	tick()
Exemplo n.º 24
0
def click(x=None, y=None, keydown=None):
    if x is None:
        pyautogui.click()
        return

    if keydown:
        pyautogui.keyDown(keydown)

    pyautogui.click(x, y)

    if keydown:
        pyautogui.keyUp(keydown)
Exemplo n.º 25
0
 def SendKey( self, aKey ):
     if self.doTimeStamp:
         print( "press %5s @ %15.3f" % (aKey, time.time()) )
     pyautogui.keyDown(aKey)
     if self.doTimeStamp:
         print( "press %5s @ %15.3f" % (aKey, time.time()) )
     time.sleep( self._pressKeySec )
     if self.doTimeStamp:
         print( "upkey %5s @ %15.3f" % (aKey, time.time()) )
     pyautogui.keyUp(aKey)
     if self.doTimeStamp:
         print( "upkey %5s @ %15.3f" % (aKey, time.time()) )
     time.sleep( self._gap2KeySec )
Exemplo n.º 26
0
    def setkey(self, keyAct, key, debug=False):
        if keyAct == 11:
            if debug:
                print "\n", "set up, key: ", self.keys[key], "\n"
            pyautogui.keyUp(self.keys[key])

        elif keyAct == 10:
            if debug:
                print "set down, key: ", self.keys[key]
            pyautogui.keyDown(self.keys[key])

        else:
            if debug:
                print keyAct, key
Exemplo n.º 27
0
def run_driver(button_bindings=ButtonBindings()):
    pyautogui.PAUSE = 0  # No delay when pressing/releasing keys
    with HESInterface() as controller:
        while True:
            action, button = controller.read_data()
            key = button_bindings.translate_button(button)
            if key:
                if action == 'P':  # pressed
                    pyautogui.keyDown(key)
                    # Note: Don't worry if by holding down the button it doesn't repeat the key in a text editor.
                    # The key is held down (try it in a game) but it isn't firing periodic keyDown()'s like keyboards do
                if action == 'R':  # released
                    pyautogui.keyUp(key)

                sleep(settings.poll_delay)
def example():
    screenWidth, screenHeight = pag.size()
    currentMouseX, currentMouseY = pag.position()
    pag.moveTo(500, 550)
    pag.click()
    pag.moveRel(None, 10)  # move mouse 10 pixels down
    pag.doubleClick()
    # pag.moveTo(500, 500, duration=2, tween=pyautogui.tweens.easeInOutQuad)  # use tweening/easing function to move mouse over 2 seconds.
    pag.typewrite('Hello world!', interval=0.25)  # type with quarter-second pause in between each key
    pag.press('esc')
    pag.keyDown('shift')
    pag.press(['left', 'left', 'left', 'left', 'left', 'left'])
    pag.keyUp('shift')
    pag.hotkey('ctrl', 'c')
    delta_y = 50
    def type_with_keys_down(self, text, *keys):
        """Press keyboard keys down, then write given text, then release the
        keyboard keys.

        See valid keyboard keys in `Press Combination`.

        Examples:

        | Type with keys down | write this in caps  | Key.Shift |
        """
        valid_keys = self._validate_keys(keys)
        for key in valid_keys:
            ag.keyDown(key)
        ag.typewrite(text)
        for key in valid_keys:
            ag.keyUp(key)
Exemplo n.º 30
0
def alt_tab():
    """
    this method takes the control to the previously
    opened window.
    """
    if os.environ['XDG_CURRENT_DESKTOP'] == 'Unity':
        p.keyDown('alt')
        p.keyDown('\t')
        p.keyUp('\t')
        p.keyUp('alt')
    elif os.environ['XDG_CURRENT_DESKTOP'].lower() == 'mate':
        p.keyDown('alt')
        p.keyDown('shift')
        p.keyDown('\t')
        p.keyUp('\t')
        p.keyUp('shift')
        p.keyUp('alt')
Exemplo n.º 31
0
def pressSpace():
    pyautogui.keyDown('space')
    time.sleep(0.05)
    print('Jump')
    pyautogui.keyUp('space')
Exemplo n.º 32
0
def cadastroItem(is_SINAPI, primeiraVez, codigo, descricao, unidade,
                 precoUnitario, bdi, quantidades):

    time.sleep(2)
    pyautogui.PAUSE = time0
    if primeiraVez == 1:
        pyautogui.keyDown('alt')
        pyautogui.hotkey('tab')
        pyautogui.keyUp('alt')
    #pyautogui.confirm('Prosseguir0')

    pyautogui.hotkey('tab')
    pyautogui.hotkey('enter')
    pyautogui.PAUSE = 2

    #image = pyautogui.locateOnScreen('detect_my_job1.png')
    #while image != None:
    #    print('prosseguir 1')
    #   image = pyautogui.locateOnScreen('detect_my_job.png')
    time.sleep(2)
    #im = pyautogui.screenshot('test1-1.png', region=(660,560, 80, 40))
    #im = pyautogui.screenshot('test1-1-trabalho.png', region=(670,490, 80, 30))
    im = pyautogui.screenshot('test1-1-trabalho.png',
                              region=(670, 460, 80, 30))
    imgplot = plt.imshow(im)
    plt.show()
    im2 = Image.open("aguarde_trabalho.png")
    equalImages = equals(im, im2)
    print(equalImages)

    while equalImages == True:
        im = pyautogui.screenshot('test1-2-trabalho.png',
                                  region=(670, 460, 80, 30))
        equalImages = equals(im, im2)
        print('cadastro item stop 1')

    #pyautogui.confirm('Prosseguir1')
    #pyautogui.PAUSE = time2
    pyautogui.hotkey('right')
    pyautogui.PAUSE = 2

    im = pyautogui.screenshot('test2-1-trabalho.png',
                              region=(670, 490, 80, 30))
    equalImages = equals(im, im2)
    while equalImages == True:
        im = pyautogui.screenshot('test.png', region=(670, 490, 80, 30))
        equalImages = equals(im, im2)
        print('cadastro item stop 2')

    #pyautogui.confirm('Prosseguir2')
    pyautogui.hotkey('tab')
    pyautogui.PAUSE = time0
    #pyautogui.hotkey('down')
    pyautogui.typewrite(str(n_evento), interval=0.001)

    if n_evento >= 10:
        time.sleep(3)
        pyautogui.typewrite(str(n_evento), interval=0.001)

    pyautogui.PAUSE = time1
    pyautogui.hotkey('tab')
    pyautogui.PAUSE = 0.25
    pyautogui.hotkey('tab')
    pyautogui.PAUSE = 2

    if is_SINAPI == 1:  # eh SINAPI
        pyautogui.hotkey('s')
        pyautogui.PAUSE = 1
        pyautogui.hotkey('tab')
        pyautogui.hotkey('enter')

        im = pyautogui.screenshot('test2.png', region=(970, 495, 90, 25))
        imgplot = plt.imshow(im)
        plt.show()
        imlupapesquisar = Image.open("lupaPesquisar.png")
        equalImages = equals(im, imlupapesquisar)
        #while equalImages == False:
        im = pyautogui.screenshot('test2.png', region=(970, 495, 200, 100))
        #   equalImages = equals(im, imlupapesquisar)
        #   print(equalImages)

        #pyautogui.confirm('Prosseguir - clicou na lupa?')
        pyautogui.hotkey('shift', 'tab')
        pyautogui.hotkey('left')
        pyautogui.hotkey('tab')
        ##pyautogui.keyDown('alt')
        ##if primeiraVez == 1:
        ##    pyautogui.hotkey('tab')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        #copia e cola o CODIGO
        ##pyautogui.hotkey('ctrl','c') #copia e cola o CODIGO
        ##pyautogui.hotkey('right')
        ##pyautogui.hotkey('right')
        ##pyautogui.hotkey('right')
        ##pyautogui.hotkey('right')

        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        pyautogui.PAUSE = 0.5

        pyautogui.typewrite(codigo, interval=0.1)

        #pyautogui.hotkey('ctrl','v')
        pyautogui.hotkey('tab')
        pyautogui.hotkey('enter')
        pyautogui.PAUSE = 2
        time.sleep(3)
        #pyautogui.confirm('Prosseguir - PRONTO PARA APERTAR ENTER?')
        pyautogui.hotkey('enter')
        pyautogui.hotkey('tab')
        pyautogui.hotkey('tab')
        pyautogui.hotkey('tab')
        pyautogui.hotkey('enter')
        pyautogui.PAUSE = 2
        #copia e cola o CUSTO UNITÁRIO
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')

        time.sleep(3)
        #pyautogui.confirm('Prosseguir - NO EXCEL PRONTO COPIAR CUSTO?')
        ##pyautogui.hotkey('ctrl','c')
        #pyautogui.confirm('Prosseguir - COPIOU O CUSTO?')
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        pyautogui.typewrite(precoUnitario, interval=0.1)
        ##pyautogui.hotkey('ctrl','v')

    if is_SINAPI == 0:  #nao eh SINAPI, eh CPOS, SIURB,...
        pyautogui.hotkey('o')
        pyautogui.PAUSE = time2
        pyautogui.hotkey('tab')
        pyautogui.PAUSE = 0.25

        #copy and paste CODIGO
        ##pyautogui.keyDown('alt')
        ##if primeiraVez == 1:
        ##    pyautogui.hotkey('tab')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        ##pyautogui.hotkey('ctrl','c')
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        pyautogui.PAUSE = 0.5
        #pyautogui.hotkey('tab')
        #pyautogui.keyDown('alt')
        #pyautogui.confirm('Prosseguir3 - pronto para colar o codigo')
        pyautogui.typewrite(codigo, interval=0.1)
        ##pyautogui.hotkey('ctrl','v')
        #fim do copia e cola
        pyautogui.hotkey('tab')

        #copy and paste
        #descricao
        #pyautogui.confirm('Prosseguir3-1 - o codigo deveria ir para o excel e copiar a descricao')
        pyautogui.PAUSE = 0.25
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        #pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        ##pyautogui.hotkey('right')
        ##pyautogui.hotkey('ctrl','c')
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        #pyautogui.hotkey('tab')
        #pyautogui.typewrite( descricao, interval=0.1)
        xerox.copy(descricao)
        xerox.paste()
        pyautogui.hotkey('ctrl', 'v')
        #fim do copia e cola
        #pyautogui.hotkey('tab')
        #copia e cola a UNIDADE
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        ##pyautogui.hotkey('right')
        ##pyautogui.hotkey('ctrl','c')
        #OBS: criar mecanismo para analisar termo copiado
        ##win32clipboard.OpenClipboard()
        ##unidade = win32clipboard.GetClipboardData()
        ##print(unidade)
        ##win32clipboard.CloseClipboard()
        #pyautogui.confirm('Prosseguir3-1-1 - copiou a unidade?')
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        pyautogui.PAUSE = 2
        pyautogui.hotkey('tab')
        pyautogui.hotkey('space')

        pyautogui.typewrite(unidade, interval=0.1)
        #pyautogui.confirm('Prosseguir3-2 - tudo certo com a unidade?')
        pyautogui.PAUSE = 1
        #UNIDADE
        #pyautogui.confirm('Prosseguir3-2 COLOCAR UNIDADE')
        #pyautogui.typewrite(unidade, interval=0.1)
        pyautogui.hotkey('tab')
        #copy and paste
        #custo referencia
        pyautogui.PAUSE = 0.25
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        pyautogui.PAUSE = 0.25
        #pyautogui.hotkey('right')
        ##pyautogui.hotkey('right')
        ##pyautogui.hotkey('right')
        ##pyautogui.hotkey('ctrl','c')
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt')
        pyautogui.PAUSE = time1
        #pyautogui.hotkey('tab')
        pyautogui.typewrite(precoUnitario, interval=0.1)
        ##pyautogui.hotkey('ctrl','v')
        #fim do copia e cola
        pyautogui.hotkey('tab')

        #custo unitario
        ##pyautogui.hotkey('ctrl','v')
        pyautogui.typewrite(precoUnitario, interval=0.1)

    #COMUM PARA TANTO SINAPI COMO PARA AS OUTRAS TABELAS
    pyautogui.PAUSE = 1
    pyautogui.hotkey('tab')
    #pyperclip.copy(bdi)
    #pyperclip.paste()
    xerox.copy(bdi)
    pyautogui.hotkey('ctrl', 'v')
    #pyautogui.typewrite( bdi, interval=1)
    pyautogui.PAUSE = 0.25

    #com eventos
    pyautogui.hotkey('tab')
    #pyautogui.hotkey('down')
    pyautogui.typewrite(str(n_evento), interval=0.1)
    #fim com eventos

    #copy and paste
    #quantidade (COM EVENTOS)
    pyautogui.PAUSE = 0.25
    pyautogui.hotkey('tab')
    ##pyautogui.keyDown('alt')
    ##pyautogui.hotkey('tab')
    ##pyautogui.keyUp('alt')
    pyautogui.PAUSE = 0.25
    #pyautogui.hotkey('left') antes pegava da propria PO
    ##pyautogui.hotkey('ctrl','pagedown') #muda para a aba CALCULO
    ##pyautogui.hotkey('ctrl','c')

    pyautogui.PAUSE = 1

    for x in range(1, n_frentes + 1):

        #pyautogui.typewrite(quantidades[x-1], interval=0.1)
        time.sleep(2)
        xerox.copy(quantidades[x - 1])
        pyautogui.hotkey('ctrl', 'v')

        pyautogui.hotkey('tab')
        ##pyautogui.keyDown('alt')
        ##pyautogui.hotkey('tab')
        ##pyautogui.keyUp('alt') #muda para o excel
        ##if x != n_frentes+1:
        ##    pyautogui.hotkey('right')
        ##    pyautogui.hotkey('ctrl','c')
        ##    print(x)

        #if x == (n_frentes):
    print('aqui')
    ##pyautogui.hotkey('down')
    ##for y in range (1, n_frentes+1): #deixa o cursor na primeira frente do proximo item
    ##    pyautogui.hotkey('left')
    ##pyautogui.hotkey('ctrl', 'pageup') #volta para a aba PO
    ##pyautogui.hotkey('down')
    ##pyautogui.hotkey('left')
    ##pyautogui.hotkey('left')
    ##pyautogui.hotkey('left')
    ##pyautogui.hotkey('left') #deixa o cursor no codigo do proximo item na PO
    ##pyautogui.keyDown('alt')
    ##pyautogui.hotkey('tab')
    ##pyautogui.keyUp('alt') #muda para o siconv

    pyautogui.hotkey('tab')
    pyautogui.hotkey('tab')
    pyautogui.hotkey('enter')  #aperta salvar no siconv

    im = pyautogui.screenshot('test1-1-trabalho.png',
                              region=(670, 490, 80, 30))
    imgplot = plt.imshow(im)
    plt.show()
    im2 = Image.open("aguarde_trabalho.png")
    equalImages = equals(im, im2)
    print(equalImages)

    while equalImages == True:
        im = pyautogui.screenshot('test1-2-trabalho.png',
                                  region=(670, 490, 80, 30))
        equalImages = equals(im, im2)
        print('cadastro item stop 1')
Exemplo n.º 33
0
def keyboard_key_down(key, interval: float = 0.2) -> None:
    pyautogui.keyDown(key, interval=interval)
Exemplo n.º 34
0
def ComandoTeclas(Teclas):
    for tecla in Teclas:
        pyautogui.keyDown(tecla)
    for tecla in reversed(Teclas):
        pyautogui.keyUp(tecla)
Exemplo n.º 35
0
x2 = 450
y2 = 120
im = pyautogui.screenshot(region=(x1, y1, x2, y2))
print(im.getpixel((0, 0)))
while True:
    im = pyautogui.screenshot(region=(x1, y1, x2, y2))
    for i in range(x1, x1 + x2):
        x3 = i - x1
        y3 = clamp((y1+y1+y2)/2, 0, y2 - 1)
        #print()
        #print("se scaneaza ", (x3, y3), ", culoarea = ", im.getpixel((x3, y3)))
        #print(im.getpixel((x3, y3)) == (66,245,0))

        if pyautogui.pixelMatchesColor(1105, 155, (190,80,154), tolerance=50):
            print("stanga")
            pyautogui.keyDown('left')
            pyautogui.keyUp('left')
            #time.sleep(0.09)

        elif pyautogui.pixelMatchesColor(1263, 151, (2,255,250), tolerance=50):
            print("jos")
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            #time.sleep(0.09)

        elif pyautogui.pixelMatchesColor(1425, 140, (18,251,10), tolerance=50):
            print("sus")
            pyautogui.keyDown('up')
            pyautogui.keyUp('up')
            #time.sleep(0.09)
Exemplo n.º 36
0
def press():
    if pyautogui.pixel(340, 880)[0] == 252:
        pyautogui.keyDown('d')
        if pyautogui.pixel(340, 916)[0] == 0:
            time.sleep(np.random.uniform(0.5, 0.7))
            pyautogui.keyUp('d')
Exemplo n.º 37
0
import pyautogui

while True:
    pyautogui.keyDown('space')
import pyautogui, time

pyautogui.typewrite(["win"])
#time.sleep(0.25)
pyautogui.typewrite("thispc")
time.sleep(0.25)
pyautogui.typewrite(["enter"])
time.sleep(0.25)
pyautogui.typewrite("dvd")
#time.sleep(0.25)
pyautogui.typewrite(["enter"])
time.sleep(1)
pyautogui.typewrite(["enter"])
pyautogui.keyDown("alt")
pyautogui.press(["f4"])
pyautogui.keyUp("alt")
Exemplo n.º 39
0
def minimize():
    pyautogui.keyDown('win')
    keyboard.press(Key.down)
    pyautogui.keyUp('win')
Exemplo n.º 40
0
        text = colored('iostream headerfile is missing...', 'green')
        print(err + text)



# x-axis -- COMMON Y = 525
#        -- x DIFF = 198 (-1085 to -292)

#251 , 335, 417, 506, 586, 673
def menudrive():
    global k
    #print(pyautogui.position())
    for i in range(251, 678, 85):
        for j in range(-1085, -292, 198):
            k = k + 1
            if k <= 100:
                pyautogui.click(j, i)
                time.sleep(3)
                SelectCode()
                time.sleep(1)
            pyautogui.click(-623, 64)


k = 0
for menu in range(4):
    time.sleep(0.5)
    menudrive()
    #pyautogui.click(-1262, 307)
    pyautogui.keyDown('pagedown')
#print(pyautogui.position())
#SelectCode()
final = []
flag = 0
while 1:
    for counter in range(0, 16):
        flag = 0

        for i in range(0, 256):
            decrypted_password = ''
            if counter != 0:
                decrypted_password = final[counter - 1]
            decrypted_password += outtab[i / 16] + outtab[i % 16]

            pyautogui.click(1187, 691)
            pyperclip.copy(decrypted_password)
            pyautogui.keyDown('ctrl')
            pyautogui.keyDown('v')
            pyautogui.keyUp('v')
            pyautogui.keyUp('ctrl')
            pyautogui.press('enter')
            time.sleep(0.01)
            pyautogui.click(442, 687)
            pyautogui.click(442, 687)
            pyautogui.click(442, 687)
            pyautogui.keyDown('ctrl')
            pyautogui.keyDown('c')
            pyautogui.keyUp('c')
            pyautogui.keyUp('ctrl')
            text = pyperclip.paste()
            f2.write(decrypted_password + ":" + text + "\n\n")
Exemplo n.º 42
0
import serial                                      # add Serial library for serial communication
import pyautogui                                   # add pyautogui library for programmatically controlling the mouse and keyboard.

Arduino_Serial = serial.Serial('com3',9600)       # Initialize serial and Create Serial port object called Arduino_Serial
 
while 1:
    incoming_data = str (Arduino_Serial.readline()) # read the serial data and print it as line
    print (incoming_data)                            # print the incoming Serial data
     

    if 'next' in incoming_data:                    # if incoming data is 'next'
        pyautogui.hotkey('ctrl', 'pgdn')           # perform "ctrl+pgdn" operation which moves to the next tab
        
    if 'previous' in incoming_data:                # if incoming data is 'previous'
        pyautogui.hotkey('ctrl', 'pgup')           # perform "ctrl+pgup" operation which moves to the previous tab

    if 'down' in incoming_data:                    # if incoming data is 'down'
        #pyautogui.press('down')                   # performs "down arrow" operation which scrolls down the page
        pyautogui.scroll(-100) 
         
    if 'up' in incoming_data:                      # if incoming data is 'up'
        #pyautogui.press('up')                      # performs "up arrow" operation which scrolls up the page
        pyautogui.scroll(100)
        
    if 'change' in incoming_data:                  # if incoming data is 'change'
        pyautogui.keyDown('alt')                   # performs "alt+tab" operation which switches the tab
        pyautogui.press('tab')
        pyautogui.keyUp('alt')
        
    incoming_data = "";                            # clears the data
Exemplo n.º 43
0
def pressSpace():
    pyautogui.keyDown('space')
    time.sleep(0.23)
    pyautogui.keyUp('space')
Exemplo n.º 44
0
import pyautogui, time
time.sleep(4)
m = open("Shrek.txt","r")
pyautogui.keyDown('alt')
pyautogui.press(['tab'])
pyautogui.keyUp('alt')

for each_line in m:
    pyautogui.typewrite(each_line)
    pyautogui.press('enter')

#for i in range(100):
    #pyautogui.write('Eu sou o mario\nA princesa esta em outro castelo\nIts me Mario ')
    #pyautogui.press('enter')
 #   pyautogui.press(['left','right'])

Exemplo n.º 45
0
def forward_move(step):
    pyautogui.keyDown(direct_dict[step % 4])
    time.sleep(step)
    pyautogui.keyUp(direct_dict[step % 4])
Exemplo n.º 46
0
def maximize():
    pyautogui.keyDown('win')
    keyboard.press(Key.up)
    pyautogui.keyUp('win')
Exemplo n.º 47
0
def keyboard():

    # ================== setup myo-python (do not change) =====================
    myo.init(sdk_path="../../myo_sdk")  # Compile Python binding to Myo's API
    hub = myo.Hub()  # Create a Python instance of MYO API
    if not ConnectionChecker().ok:  # Check connection before starting acquisition:
        quit()
    # =========================================================================

    # Parce command line inputs, if any
    input_file = "../classification/models/trained_model.pkl"
    if len(sys.argv) > 1:
        input_file = sys.argv[1]

    # Load pickled feature extractor and classification model
    with open(input_file, "rb") as file:
        model = pickle.load(file)

    # Extract variables from pickled object
    mdl = model["mdl"]
    feature_extractor = model["feature_extractor"]
    gestures = model["gestures"]

    # Set up the buffer that will always contain the most up-to-date readings from the MYO
    emg_buffer = Buffer(feature_extractor.winlen)

    # Set up inference
    with hub.run_in_background(emg_buffer.on_event):
        print("You may start performing gestures. Press ctrl-c to stop.")
        while hub.running:
            time.sleep(0.050)
            # Skip the rest until enough data for feature extraction is acquired
            if len(emg_buffer.emg_data_queue) < feature_extractor.winlen:
                continue

            # Get latest emg data
            emg = emg_buffer.get_emg_data()
            # Convert to a numpy matrix (an Nx8 matrix, each channel is a column):
            emg = np.array([x[1] for x in emg])
            # Extract features from the emg signal:
            feature_vector = feature_extractor.extract_feature_vector(emg)
            # Use classification model to recognise the gesture:
            inference = mdl.predict(feature_vector)
            # Implement majority voting here, if needed:
            # ...
            # Output inference:
            print("\rRecognized gesture: ", gestures[inference[0]], end="")
            gesture = gestures[inference[0]]
            
            if gesture == 'rest':
                continue
                #pyautogui.press('w')
            elif gesture == 'radial':
                pyautogui.keyDown('a')
            elif gesture == 'ulnar':
                pyautogui.keyDown('d')
            elif gesture == 'flextion':
                pyautogui.keyDown('w')
            elif gesture == 'extension':
                pyautogui.keyDown('s')
            elif gesture == 'fist':
                pyautogui.keyDown('space')
Exemplo n.º 48
0
def pressSapce():
        pyautogui.keyDown('space')
        #time.sleep(0.005)
        print("Jump")
        pyautogui.keyUp('space')
Exemplo n.º 49
0
pyautogui.doubleClick(1546, 36)
pyautogui.PAUSE = 1
pyautogui.click(975, 470)
pyautogui.pause = 1

#TODO : 로그인하기
pyautogui.click(1230, 710)
pyperclip.copy('admin')
pyautogui.hotkey('ctrl', 'v')
pyautogui.typewrite('\n')
pyautogui.typewrite('1230')
pyautogui.typewrite('\n')
pyautogui.click(655, 367)
time.sleep(1)
pyautogui.hotkey('alt', 'space', 'x')
pyautogui.keyDown('altleft')
pyautogui.keyUp('altleft')
pyautogui.press('right')
pyautogui.press('down')
pyautogui.press('down')
pyautogui.press('down')
pyautogui.press('enter')

#TODO : 개인별검진현황 일자 조회
pyautogui.click(101, 83)
pyautogui.click(668, 84)
pyautogui.press('1')
pyautogui.press('0')
pyautogui.click(693, 84)
pyautogui.press('0')
pyautogui.press('4')
    return frame, smile_status


def press_space():

    pyautogui.keyUp('down')  # releasing the Down Key
    pyautogui.keyDown('space')  # pressing Space to overcome Bush
    time.sleep(0.05)  # so that Space Key will be recognized easily
    print("jump")  # printing the "Jump" statement on the
    time.sleep(0.10)  # terminal to see the current output
    pyautogui.keyUp('space')  # releasing the Space Key
    pyautogui.keyDown(
        'down')  # again pressing the Down Key to keep my Bot always down


pyautogui.keyDown('down')  #keeps the 'down' button pressed by default

cap = cv2.VideoCapture(0)
while True:
    _, frame = cap.read()  # Captures cap frame by frame
    gray = cv2.cvtColor(frame,
                        cv2.COLOR_BGR2GRAY)  # To capture image in monochrome

    canvas, smileStatus = detect(gray, frame)  # calls the detect() function

    if smileStatus:
        press_space()

    # Displays the result on camera feed
    cv2.imshow('Video', canvas)
Exemplo n.º 51
0
    def callOutlook(self):

        global count
        global f1
        global f2

        pyautogui.click(1280, 1200)
        pyautogui.keyDown('win')
        time.sleep(1)
        pyautogui.keyUp('win')
        pyautogui.typewrite('Outlook')
        time.sleep(1)
        pyautogui.press('enter')
        #pyautogui.click(142,504)
        time.sleep(4)
        window = win32gui.GetForegroundWindow()
        win32gui.ShowWindow(window, win32con.SW_MAXIMIZE)

        pyautogui.click(67, 100)
        time.sleep(0.5)
        pyautogui.click(82, 181)
        time.sleep(0.5)
        window = win32gui.GetForegroundWindow()
        win32gui.ShowWindow(window, win32con.SW_MAXIMIZE)

        y = name1.strip().split(",")
        pyautogui.click(375, 207)

        for a in y:

            pyautogui.typewrite(a)
            pyautogui.keyDown('ctrl')
            pyautogui.keyDown('k')
            pyautogui.keyUp('ctrl')
            pyautogui.keyUp('k')

        pyautogui.click(392, 238)
        time.sleep(1)

        pyautogui.typewrite(sub)

        pyautogui.click(236, 292)
        for j in range(15):
            pyautogui.keyDown('backspace')
        pyautogui.keyUp('backspace')

        pyautogui.typewrite(date)

        time.sleep(1)

        #floor decision
        f1 = floor_[0]
        f2 = int(floor_[1])

        #new changes
        pyautogui.click(1155, 395)
        pyautogui.click(1254, 455)
        pyautogui.click(1254, 455)
        pyautogui.click(1254, 455)
        pyautogui.click(1254, 455)
        pyautogui.click(1254, 455)
        pyautogui.click(1254, 455)
        pyautogui.click(1254, 455)

        pyautogui.click(1188, 414)

        if tower_ == "T2":
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')

            if f1 == 'C':
                pyautogui.keyDown('down')
                pyautogui.keyUp('down')

            if f1 == 'N':
                pyautogui.keyDown('down')
                pyautogui.keyUp('down')
                pyautogui.keyDown('down')
                pyautogui.keyUp('down')

            if f1 == 'S':
                pyautogui.keyDown('down')
                pyautogui.keyUp('down')
                pyautogui.keyDown('down')
                pyautogui.keyUp('down')
                pyautogui.keyDown('down')
                pyautogui.keyUp('down')

        if tower_ == "T6":
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')

        if tower_ == "T7":
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')

        time.sleep(3)
        pyautogui.click(1163, 635)
        pyautogui.click(1163, 635)
        time.sleep(1)
        pyautogui.click(1254, 617)
        pyautogui.click(1254, 617)
        pyautogui.click(1254, 617)
        pyautogui.click(1254, 617)
        pyautogui.click(1254, 617)
        pyautogui.click(1254, 617)
        pyautogui.click(1254, 617)

        time.sleep(3)
        if stime == "08:30 AM":
            count = 1

        if stime == "09:00 AM":
            count = 2
        if stime == "09:30 AM":
            count = 3
        if stime == "10:00 AM":
            count = 4
        if stime == "10:30 AM":
            count = 5
        if stime == "11:00 AM":
            count = 6
        if stime == "11:30 AM":
            count = 7
        if stime == "12:00 PM":
            count = 8
        if stime == "12:30 PM":
            count = 9
        if stime == "01:00 PM":
            count = 10
        if stime == "01:30 PM":
            count = 11
        if stime == "02:00 PM":
            count = 12
        if stime == "02:30 PM":
            count = 13
        if stime == "03:00 PM":
            count = 14
        if stime == "03:30 PM":
            count = 15
        if stime == "04:00 PM":
            count = 16
        if stime == "04:30 PM":
            count = 17

        print count

        for x in range(count):
            pyautogui.keyDown('down')
            pyautogui.keyUp('down')
        time.sleep(5)

        pyautogui.click(398, 309)
        for j in range(15):
            pyautogui.keyDown('backspace')
        pyautogui.keyUp('backspace')
        pyautogui.typewrite(etime)

        pyautogui.click(1152, 454)
        time.sleep(2)
        pyautogui.click(1280, 1200)
        tkMessageBox.showinfo("Window", "Click on 'Send' to arrange a meeting")

        time.sleep(1)
Exemplo n.º 52
0
def controller():
    global MYMSG
    while True:
        if MYMSG.strip().lower() == "up":
            pyautogui.keyDown("up")
            MYMSG = ""
            pyautogui.keyUp("up")
        elif MYMSG.strip().lower() == "down":
            pyautogui.keyDown("down")
            MYMSG = ""
            pyautogui.keyUp("down")
        elif MYMSG.strip().lower() == "left":
            pyautogui.keyDown("left")
            MYMSG = ""
            pyautogui.keyUp("left")
        elif MYMSG.strip().lower() == "right":
            pyautogui.keyDown("right")
            MYMSG = ""
            pyautogui.keyUp("right")

        elif MYMSG.strip().lower() == "a":
            pyautogui.keyDown("up")
            MYMSG = ""
            pyautogui.keyUp("up")
        elif MYMSG.strip().lower() == "b":
            pyautogui.keyDown("up")
            MYMSG = ""
            pyautogui.keyUp("up")
        elif MYMSG.strip().lower() == "start":
            pyautogui.keyDown("up")
            MYMSG = ""
            pyautogui.keyUp("up")
        elif MYMSG.strip().lower() == "select" or MYMSG.strip().lower == "sel":
            pyautogui.keyDown("up")
            MYMSG = ""
            pyautogui.keyUp("up")
        elif MYMSG.strip().lower() == "l":
            pyautogui.keyDown("up")
            MYMSG = ""
            pyautogui.keyUp("up")
        elif MYMSG.strip().lower() == "r":
            pyautogui.keyDown("r")
            MYMSG = ""
            pyautogui.keyUp("r")
        else:
            pass
Exemplo n.º 53
0
 def paste():
     pyautogui.keyDown('ctrl')
     pyautogui.press('v')
     pyautogui.keyUp('ctrl')
Exemplo n.º 54
0
def click_key(key, delay=.1):
    auto.keyDown(key)
    time.sleep(delay)
    auto.keyUp(key)
Exemplo n.º 55
0
def goTo():
    while True:
        date = datetime.datetime.now().strftime("%d")
        if date == '1':
            py.moveTo(682, 175)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '2':
            py.moveTo(682, 198)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '3':
            py.moveTo(682, 219)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '4':
            py.moveTo(682, 244)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '5':
            py.moveTo(682, 265)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '6':
            py.moveTo(682, 286)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '7':
            py.moveTo(682, 308)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '8':
            py.moveTo(682, 330)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '9':
            py.moveTo(682, 352)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '10':
            py.moveTo(682, 373)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '11':
            py.moveTo(682, 396)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '12':
            py.moveTo(682, 417)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '13':
            py.moveTo(682, 441)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '14':
            py.moveTo(682, 463)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '15':
            py.moveTo(682, 484)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '16':
            py.moveTo(682, 506)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '17':
            py.moveTo(682, 527)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '18':
            py.moveTo(682, 551)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '19':
            py.moveTo(682, 572)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '20':
            py.moveTo(682, 594)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '21':
            py.moveTo(682, 616)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '22':
            py.moveTo(682, 637)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '23':
            py.moveTo(682, 659)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '24':
            py.moveTo(682, 682)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '25':
            py.moveTo(682, 705)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '26':
            py.moveTo(682, 726)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '27':
            py.moveTo(682, 749)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '28':
            py.moveTo(682, 771)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '29':
            py.moveTo(682, 790)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '30':
            py.moveTo(682, 812)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
        if date == '31':
            py.moveTo(682, 834)
            py.click(button='left', clicks=3)
            time.sleep(0.5)
            py.keyDown('Ctrl')
            py.keyDown('c')
            py.keyUp('Ctrl')
            py.keyUp('c')
            os.system('Main.py')
            break
            x, y, w, h = cv2.boundingRect(c)

            if x > 150 and is_once == True:
                dist = x
                is_once = False
            if x == 0 and is_once == False:
                is_once = True

            # cv2.rectangle(image, (x, y), (x+w, y+h), (0, 0, 255), 2)

            front_cx, front_cy = x, y + (h // 2)

            xdist_to_lookup = front_cx - LOOKUP_POINT[1]
            ydist_to_lookup = LOOKUP_POINT[0] - front_cy

            if xdist_to_lookup <= X_LIMIT and ydist_to_lookup < 10:
                pg.press("up")

            elif xdist_to_lookup <= X_LIMIT and ydist_to_lookup > 10 and ydist_to_lookup < 18:
                pg.keyDown("down")
                time.sleep(delay)
                pg.keyUp("down")

            else:
                pass

    # cv2.imshow("screen", image)

    if cv2.waitKey(1) & 0xFF == ord('q'):
        break
Exemplo n.º 57
0
def cadastroMacroItem(primeiraVez, descricaoMacro):

    time.sleep(2)
    pyautogui.PAUSE = 1
    if primeiraVez == 1:
        pyautogui.keyDown('alt')
        pyautogui.hotkey('tab')
        pyautogui.keyUp('alt')

    pyautogui.hotkey('tab')
    pyautogui.hotkey('enter')

    time.sleep(2)
    im = pyautogui.screenshot('test1-1-trabalho.png',
                              region=(670, 490, 80, 30))
    imgplot = plt.imshow(im)
    plt.show()
    im2 = Image.open("aguarde_trabalho.png")
    equalImages = equals(im, im2)
    print(equalImages)

    while equalImages == True:
        im = pyautogui.screenshot('test1-2-trabalho.png',
                                  region=(670, 490, 80, 30))
        equalImages = equals(im, im2)
        print('cadastro item stop 1')

    #pyautogui.confirm('Prosseguir1')
    time.sleep(2)
    pyautogui.hotkey('space')  #seleciona macroservico
    pyautogui.hotkey('tab')
    pyautogui.hotkey('tab')

    ##pyautogui.keyDown('alt') #muda para o excel para copiar
    #e colar nome do macroservico
    ##pyautogui.hotkey('tab')
    ##pyautogui.hotkey('tab')
    ##pyautogui.keyUp('alt')

    ##pyautogui.hotkey('right')
    ##pyautogui.hotkey('ctrl', 'c')
    ##pyautogui.hotkey('down')
    ##pyautogui.hotkey('left')
    ##pyautogui.hotkey('ctrl', 'pagedown')
    ##pyautogui.hotkey('down')
    ##pyautogui.hotkey('ctrl', 'pageup')

    ##pyautogui.keyDown('alt')
    ##pyautogui.hotkey('tab')
    ##pyautogui.keyUp('alt')

    ##pyautogui.hotkey('ctrl', 'v')
    #######
    ##pyautogui.typewrite(descricaoMacro, interval=0.1)
    xerox.copy(descricaoMacro)
    xerox.paste()
    pyautogui.hotkey('ctrl', 'v')

    pyautogui.hotkey('tab')
    pyautogui.hotkey('tab')
    pyautogui.hotkey('enter')

    im = pyautogui.screenshot('test1-1-trabalho.png',
                              region=(670, 490, 80, 30))
    imgplot = plt.imshow(im)
    plt.show()
    im2 = Image.open("aguarde_trabalho.png")
    equalImages = equals(im, im2)
    print(equalImages)

    while equalImages == True:
        im = pyautogui.screenshot('test1-2-trabalho.png',
                                  region=(670, 490, 80, 30))
        equalImages = equals(im, im2)
        print('cadastro macroitem stop 1')
Exemplo n.º 58
0
def url2mff2datei(url, ausgabe):

    ### MODUL ###
    import shutil

    ### KONSTANT ###
    datei = re.sub('.+/', '', url)
    datei = NLPFAD + datei
    teil = datei + '.part'
    if '/' in ausgabe:
        ausgabe2 = ausgabe
    else:
        ausgabe2 = NLPFAD + ausgabe
#	print( datei ) #d
#	print( ausgabe2 ) #d
    if os.path.exists(ausgabe2):
        x = 'Passiert %s...' % ausgabe
        print(x)
        return True
    if os.path.exists(datei):
        shutil.move(datei, ausgabe2)
        x = 'Bewegt %s...' % ausgabe
        print(x)
        return True
    #
    x = 'Nehmen %s...' % ausgabe
    wb.open(url)
    #	wb.open_new_tab(url)
    #
    xu.sleep(2)
    #	pgui.click(x=1000, y=500)
    #	pgui.keyDown('ctrl')
    #	pgui.press('w')
    #	pgui.keyUp('ctrl')
    #
    key = 0
    i = 0
    kein = 0
    for zt in range(30):
        i += 1
        if os.path.exists(teil):
            if not key == 1:
                print("\nSLEEP / Teil Existert : ", end='')
            print('%d, ' % i, end='')
            key = 1
            xu.sleep(1)
            continue
        #
        try:
            os.path.getsize(datei)
        except FileNotFoundError:
            kein += 1
            if kein == 5:
                print("\n- PASS / %s : " % datei, end='')
                break
            xu.sleep(1)
        #
        if os.path.getsize(datei) == 0:
            if not key == 2:
                print("\nSLEEP 2 / Get Size : ", end='')
            print('%d, ' % i, end='')
            xu.sleep(1)
        else:
            break
    #
    if os.path.getsize(datei) == 0:
        os.remove(datei)
        return False

    ### AUSGABE ###
    xu.sleep(2)
    xu.click(797, 16)
    pgui.keyDown('ctrl')
    pgui.press('w')
    pgui.keyUp('ctrl')
    #
    #	print( datei ) #d
    #	print( ausgabe ) #d
    shutil.move(datei, ausgabe2)
    return True
Exemplo n.º 59
0
def hit(key):
    pyautogui.keyDown(key)
def reload():
    pyautogui.keyDown('command')
    pyautogui.press('r')
    pyautogui.keyUp('command')