mirror of
https://github.com/LmeSzinc/StarRailCopilot.git
synced 2024-11-27 10:36:23 +00:00
162 lines
5.2 KiB
Python
162 lines
5.2 KiB
Python
import time
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from retrying import retry
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from module.base.timer import Timer
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from module.base.utils import *
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from module.device.connection import Connection
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from module.logger import logger
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class Control(Connection):
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@staticmethod
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def sleep(second):
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"""
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Args:
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second(int, float, tuple):
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"""
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time.sleep(ensure_time(second))
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@property
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def time(self):
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return time.time()
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@staticmethod
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def _point2str(x, y):
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return '(%s,%s)' % (str(int(x)).rjust(4), str(int(y)).rjust(4))
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def click(self, button, adb=False):
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"""Method to click a button.
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Args:
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button (button.Button): AzurLane Button instance.
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adb (bool): If use adb.
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"""
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x, y = random_rectangle_point(button.button)
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logger.info(
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'Click %s @ %s' % (self._point2str(x, y), button)
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)
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if adb:
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self._click_adb(x, y)
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else:
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self._click_uiautomator2(x, y)
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self.sleep(self.config.SLEEP_AFTER_CLICK)
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@retry()
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def _click_uiautomator2(self, x, y):
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self.device.click(x, y)
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@retry()
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def _click_adb(self, x, y):
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self.adb_shell(['input', 'tap', str(x), str(y)], serial=self.serial)
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def multi_click(self, button, n, interval=(0.1, 0.2), adb=False):
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click_timer = Timer(0.1)
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for _ in range(n):
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remain = ensure_time(interval) - click_timer.current()
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if remain > 0:
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self.sleep(remain)
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click_timer.reset()
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self.click(button, adb=adb)
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def long_click(self, button, duration=(1, 1.2)):
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"""Method to long click a button.
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Args:
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button (button.Button): AzurLane Button instance.
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duration(int, float, tuple):
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"""
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x, y = random_rectangle_point(button.button)
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duration = ensure_time(duration)
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logger.info(
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'Click %s @ %s, %s' % (self._point2str(x, y), button, duration)
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)
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self.device.long_click(x, y, duration=duration)
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def swipe(self, vector, box=(123, 159, 1193, 628), random_range=(0, 0, 0, 0), padding=15, duration=(0.1, 0.2)):
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"""Method to swipe.
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Args:
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box(tuple): Swipe in box (upper_left_x, upper_left_y, bottom_right_x, bottom_right_y).
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vector(tuple): (x, y).
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random_range(tuple): (x_min, y_min, x_max, y_max).
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padding(int):
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duration(int, float, tuple):
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"""
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duration = ensure_time(duration)
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vector = np.array(vector) + random_rectangle_point(random_range)
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vector = np.round(vector).astype(np.int)
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half_vector = np.round(vector / 2).astype(np.int)
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box = np.array(box) + np.append(np.abs(half_vector) + padding, -np.abs(half_vector) - padding)
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center = random_rectangle_point(box)
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start_point = center - half_vector
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end_point = start_point + vector
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logger.info(
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'Swipe %s -> %s, %s' % (self._point2str(*start_point), self._point2str(*end_point), duration)
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)
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fx, fy, tx, ty = np.append(start_point, end_point).tolist()
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if fx < 0 or tx < 0:
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logger.warning('Swipe Error. vector: %s, box: %s, center: %s, half_vector: %s' % (
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str(vector), str(box), str(center), str(half_vector)
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))
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self.device.swipe(fx, fy, tx, ty, duration=duration)
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def drag(self, path):
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"""Swipe following path.
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Args:
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path (list): (x, y, sleep)
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Examples:
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al.swipe([
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(403, 421, 0.2),
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(821, 326, 0.1),
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(821, 326-10, 0.1),
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(821, 326+10, 0.1),
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(821, 326, 0),
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])
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Equals to:
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al.device.touch.down(403, 421)
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time.sleep(0.2)
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al.device.touch.move(821, 326)
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time.sleep(0.1)
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al.device.touch.move(821, 326-10)
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time.sleep(0.1)
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al.device.touch.move(821, 326+10)
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time.sleep(0.1)
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al.device.touch.up(821, 326)
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"""
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length = len(path)
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for index, data in enumerate(path):
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x, y, second = data
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if index == 0:
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self.device.touch.down(x, y)
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logger.info(self._point2str(x, y) + ' down')
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elif index - length == -1:
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self.device.touch.up(x, y)
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logger.info(self._point2str(x, y) + ' up')
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else:
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self.device.touch.move(x, y)
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logger.info(self._point2str(x, y) + ' move')
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self.sleep(second)
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def drag_node(self, location, offset=(-10, -10, 10, 10), sleep=0.25, reverse=False):
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"""Generate a swipe node.
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Args:
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location (tuple): Origin location (x, y).
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offset (tuple): set
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sleep:
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reverse (bool): Reverse offset. Default to false.
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Returns:
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tuple: (x, y, sleep)
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"""
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if not reverse:
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location = np.array(location) - random_rectangle_point(offset)
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else:
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location = np.array(location) + random_rectangle_point(offset)
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location = tuple(np.append(location, [sleep]))
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return location
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