Exemple #1
0
	def get_marker_location(self):
		path = os.path.join(self.s.path_to_markers, self.s.marker_main_name)
		self.marker = imf.get_marker_location(path)
		print('Marker supposed to be at {}'.format(self.marker))
Exemple #2
0
	def move_and_click(self, pos, button = 1): 
		"""
		button: 1 - left; 2 - middle; 3 - right
		"""	
		self.x0, self.y0 = get_marker_location(os.path.join(self.s.path_to_markers, self.s.marker_main_name))
		print('DEBUG: marker (in output): {}'.format((self.x0, self.y0)))
		## move to any position
		#screen_res = self.mouse.screen_size()
		#self.mouse.move(random.randint(0, screen_res[0]), random.randint(0, screen_res[1]))
		#time.sleep(random.random()) # max one second

		# TODO:uncomment in release - simulating of thinking
		#time(sleep(random.randint(1, 7) + random.random())

		# random choosing of moving params: steps, base sleep timeout
		n_steps = random.randint(200, 300)
		print('steps={}'.format(n_steps))
		step_time_base =  random.randint(1, 4) / 400.0
		print('step_time_base={}'.format(step_time_base))
		dest_x, dest_y = pos
		dest_x += self.x0 + 60; dest_y += self.y0 + 25	# to click closer to the button centre
		print('dest={};{}'.format(dest_x, dest_y))
		x0, y0 = self.mouse.position()
		print('start={};{}'.format(x0, y0))
		delta_x = dest_x - x0
		delta_y = dest_y - y0
		print('delta={};{}'.format(delta_x, delta_y))
		dx = float(delta_x) / n_steps
		dy = float(delta_y) / n_steps
		print('dx={}; dy={}'.format(dx, dy))

		for i in xrange(1, n_steps + 1):			
			time.sleep(step_time_base + random.random() / 400)
			# with random devation from destination
			try:
				curr_x, curr_y = self.mouse.position()
				self.mouse.move(int(curr_x + dx + ((random.random() - 0.5) * dx * 4)), int(curr_y + dy + ((random.random() - 0.5) * dy * 4)))
			except:
				print('ERROR: canot move: {}th step'.format(i))

			# exactly destination
			#self.mouse.move(int(x0 + dx * i), int(y0 + dy * i))

		x, y = self.mouse.position()
		while self.deviation(x, y, dest_x, dest_y) > 4:
			try:
				x = int((dest_x + x) / 2)
				y = int((dest_y + y) / 2)
				self.mouse.move(x, y)
			except:
				print('ERROR: cannot reduce deviation. Now is {}'.format(self.deviation(x, y, dest_x, dest_y)))
				break

		print('DEBUG: result = {}. deviation from given position is {}'.format((x, y), self.deviation(x, y, dest_x, dest_y)))		
		time.sleep(1.5)
		self.mouse.move(int(dest_x), int(dest_y))
		time.sleep(0.5)	
		self.mouse.click(int(dest_x), int(dest_y), button)

		# to prevent button highlighting
		self.mouse.move(int(self.x0), int(self.y0))