def exitWideProgram(): mouse = mouseController() mouse.position = (1360, 8) time.sleep(2) mouse.press(Button.left) mouse.release(Button.left) time.sleep(2)
def openFirefox(page): mouse = mouseController() keyboard = keyboardController() mouse.position = (10, 750) time.sleep(2) mouse.press(Button.left) mouse.release(Button.left) time.sleep(2) keyboard.type('Firefox') time.sleep(2) keyboard.press(Key.enter) keyboard.release(Key.enter) time.sleep(2) with keyboard.pressed(Key.ctrl): time.sleep(2) keyboard.press('l') time.sleep(2) keyboard.type(page) time.sleep(2) keyboard.press(Key.enter) keyboard.release(Key.enter) time.sleep(2) mouse.position = (10, 500) time.sleep(2) mouse.press(Button.left) mouse.release(Button.left) time.sleep(2) for i in range(60 * 20): keyboard.press(Key.page_down) time.sleep(1) with keyboard.pressed(Key.ctrl): keyboard.press('s') time.sleep(5) keyboard.type(page.split('/')[3] + '_' + page.split('/')[4] + '.html') time.sleep(5) keyboard.press(Key.enter) keyboard.release(Key.enter) time.sleep(2)
def cursor_mover(): start = t.time() mouse = mouseController() keyboard = Controller() while True: # Random movements movedirX = rand.randint(-100, 100) movedirY = rand.randint(-100, 100) mouse.move(movedirX, movedirY) keyboard.press(Key.space) # Every _ seconds t.sleep(2.0 - ((t.time() - start) % 2))
def ACTIONS_DEFAULT(button): keyboard = keyboardController() mouse = mouseController() if button == 'A7': # keyboard.type('hoi') keyboard.press(Key.alt) keyboard.press(Key.tab) keyboard.release(Key.alt) keyboard.release(Key.tab) printAction(button + "/default: alt tab") elif button == 'B0': keyboard.press(Key.ctrl) keyboard.press('w') keyboard.release(Key.ctrl) keyboard.release('w') printAction(button + "/default: Closing tab")
from pynput.mouse import Button, Controller as mouseController from pynput.keyboard import Key, Controller as keyController import time import pyautogui import random import cv2 import numpy as np from PIL import Image for u in range(1): mouse = mouseController() keyboard = keyController() num3 = random.randint(3600, 6000) #num3 = 1 timespent = num3 / 60 print("wait time =", timespent) timespent = 0 print("wait time =", timespent) time.sleep(timespent) mouse.position = (117, 1057) mouse.click(Button.left, 1) time.sleep(2) for char in "chrome": keyboard.press(char)
def main(): global args imgPath = args.image preClickDelay = args.delay searchPeriod = 1 / args.frequency postClickDelayMin = args.postClickDelayMin postClickDelayMax = args.postClickDelayMax coordinateFactor = args.coordinateFactor if not Path(imgPath).exists(): print("\nPath supplied does not exist.\n") parser.print_help() exit(1) if postClickDelayMax < 0 or postClickDelayMin < 0 or preClickDelay < 0: print("\nDelays must be non-negative.\n") parser.print_help() exit(1) # boolean for mouse use status interfaceInUse = False # handle mouse events def in_use(*args): nonlocal interfaceInUse interfaceInUse = True # keyboard and mouse controllers keyboard = keyboardController() mouse = mouseController() # listen to mouse mouseListener = _mouseListener(on_move=in_use, on_click=in_use, on_scroll=in_use) mouseListener.start() # listen to keyboard keyboardListener = _keyboardListener(on_press=in_use, on_release=in_use) keyboardListener.start() # track how many clicks have been done counter = 0 print('Active and searching...') while True: try: interfaceInUse = False # check for image at approximately 3Hz sleep(searchPeriod) # search for the image try: location = pg.locateCenterOnScreen(imgPath, confidence=0.9) #stuff is buggy... except TypeError: continue except IndexError: continue # if it's not found, continue if location is None: continue # delay between seeing image and clicking it if preClickDelay != 0: print( f'Image found, {preClickDelay} seconds to touch an interface and abort.' ) sleep(preClickDelay) if not interfaceInUse: # get original mouse position origPos = mouse.position # get the correct click location, suspect # this need is related to the resolution on this mac x = location.x / coordinateFactor y = location.y / coordinateFactor # click the image twice, once to activate the window # another time to actually click the button if it is one pg.click(x, y) pg.click(x, y) # put mouse back to original location mouse.position = origPos # switch back to the previously active window with keyboard.pressed(Key.cmd): keyboard.press(Key.tab) sleep(0.18) keyboard.release(Key.tab) # update counter and inform user what has occured counter += 1 print(f'Clicked it {counter} times.') # sleep for a random amount of time between 5 and 10 sec sleepTime = uniform(postClickDelayMin, postClickDelayMax) print(f'Sleeping for {sleepTime} seconds.') sleep(sleepTime) print('Active and searching...') else: print('Click aborted.') # ^C to pause, then again to quit, or any key to resume except KeyboardInterrupt: try: input('\nPaused, press any key to continue, or ^C to quit.') except KeyboardInterrupt: break # stop listening to mouse and keyboard mouseListener.stop() keyboardListener.stop() # clear console with keyboard.pressed(Key.ctrl): keyboard.press('l') keyboard.release('l')
def __init__(self): self.mouse = mouseController() self.keyboard = kbController()