用Python 玩连连看 是什么效果?别霍霍别人了

作者：Laziji
源自：https://laboo.top/2018/11/07/lianliankan/

1、前言

Python 实现的qq连连看辅助, 仅用于学习, 请在练习模式下使用, 请不要拿去伤害玩家们...

2、基本环境配置

版本：Python3.6

系统：Windows

3、相关模块：

import PIL.ImageGrabimport pyautoguiimport win32apiimport win32guiimport win32conimport timeimport random

4、使用方法

开始游戏后运行就行了, 再次提示, 请在练习模式中使用, 否则可能会被其他玩家举报。

效果图

5、代码实现

import PIL.ImageGrabimport pyautoguiimport win32apiimport win32guiimport win32conimport timeimport random
def color_hash(color): value = "" for i in range(5): value += "%d,%d,%d," % (color[0], color[1], color[2]) return hash(value)

def image_hash(img): value = "" for i in range(5): c = img.getpixel((i * 3, i * 3)) value += "%d,%d,%d," % (c[0], c[1], c[2]) return hash(value)

def game_area_image_to_matrix(): pos_to_image = {}
for row in range(ROW_NUM): pos_to_image[row] = {} for col in range(COL_NUM): grid_left = col * grid_width grid_top = row * grid_height grid_right = grid_left + grid_width grid_bottom = grid_top + grid_height
grid_image = game_area_image.crop((grid_left, grid_top, grid_right, grid_bottom))
pos_to_image[row][col] = grid_image
pos_to_type_id = {} image_map = {}
empty_hash = color_hash((48, 76, 112))
for row in range(ROW_NUM): pos_to_type_id[row] = {} for col in range(COL_NUM): this_image = pos_to_image[row][col] this_image_hash = image_hash(this_image) if this_image_hash == empty_hash: pos_to_type_id[row][col] = 0 continue image_map.setdefault(this_image_hash, len(image_map) + 1) pos_to_type_id[row][col] = image_map.get(this_image_hash)
return pos_to_type_id

def solve_matrix_one_step(): for key in map: arr = map[key] arr_len = len(arr) for index1 in range(arr_len - 1): point1 = arr[index1] x1 = point1[0] y1 = point1[1] for index2 in range(index1 + 1, arr_len): point2 = arr[index2] x2 = point2[0] y2 = point2[1] if verifying_connectivity(x1, y1, x2, y2): arr.remove(point1) arr.remove(point2) matrix[y1][x1] = 0 matrix[y2][x2] = 0 if arr_len == 2: map.pop(key) return y1, x1, y2, x2

def verifying_connectivity(x1, y1, x2, y2): max_y1 = y1 while max_y1 + 1 < ROW_NUM and matrix[max_y1 + 1][x1] == 0: max_y1 += 1 min_y1 = y1 while min_y1 - 1 >= 0 and matrix[min_y1 - 1][x1] == 0: min_y1 -= 1
max_y2 = y2 while max_y2 + 1 < ROW_NUM and matrix[max_y2 + 1][x2] == 0: max_y2 += 1 min_y2 = y2 while min_y2 - 1 >= 0 and matrix[min_y2 - 1][x2] == 0: min_y2 -= 1
rg_min_y = max(min_y1, min_y2) rg_max_y = min(max_y1, max_y2) if rg_max_y >= rg_min_y: for index_y in range(rg_min_y, rg_max_y + 1): min_x = min(x1, x2) max_x = max(x1, x2) flag = True for index_x in range(min_x + 1, max_x): if matrix[index_y][index_x] != 0: flag = False break if flag: return True
max_x1 = x1 while max_x1 + 1 < COL_NUM and matrix[y1][max_x1 + 1] == 0: max_x1 += 1 min_x1 = x1 while min_x1 - 1 >= 0 and matrix[y1][min_x1 - 1] == 0: min_x1 -= 1
max_x2 = x2 while max_x2 + 1 < COL_NUM and matrix[y2][max_x2 + 1] == 0: max_x2 += 1 min_x2 = x2 while min_x2 - 1 >= 0 and matrix[y2][min_x2 - 1] == 0: min_x2 -= 1
rg_min_x = max(min_x1, min_x2) rg_max_x = min(max_x1, max_x2) if rg_max_x >= rg_min_x: for index_x in range(rg_min_x, rg_max_x + 1): min_y = min(y1, y2) max_y = max(y1, y2) flag = True for index_y in range(min_y + 1, max_y): if matrix[index_y][index_x] != 0: flag = False break if flag: return True
return False

def execute_one_step(one_step): from_row, from_col, to_row, to_col = one_step
from_x = game_area_left + (from_col + 0.5) * grid_width from_y = game_area_top + (from_row + 0.5) * grid_height
to_x = game_area_left + (to_col + 0.5) * grid_width to_y = game_area_top + (to_row + 0.5) * grid_height
pyautogui.moveTo(from_x, from_y) pyautogui.click()
pyautogui.moveTo(to_x, to_y) pyautogui.click()

if __name__ == '__main__':
COL_NUM = 19 ROW_NUM = 11
screen_width = win32api.GetSystemMetrics(0) screen_height = win32api.GetSystemMetrics(1)
hwnd = win32gui.FindWindow(win32con.NULL, 'QQ游戏 - 连连看角色版') if hwnd == 0: exit(-1)
win32gui.ShowWindow(hwnd, win32con.SW_RESTORE) win32gui.SetForegroundWindow(hwnd) window_left, window_top, window_right, window_bottom = win32gui.GetWindowRect(hwnd) if min(window_left, window_top) < 0 or window_right > screen_width or window_bottom > screen_height: exit(-1) window_width = window_right - window_left window_height = window_bottom - window_top
game_area_left = window_left + 14.0 / 800.0 * window_width game_area_top = window_top + 181.0 / 600.0 * window_height game_area_right = window_left + 603 / 800.0 * window_width game_area_bottom = window_top + 566 / 600.0 * window_height
game_area_width = game_area_right - game_area_left game_area_height = game_area_bottom - game_area_top grid_width = game_area_width / COL_NUM grid_height = game_area_height / ROW_NUM
game_area_image = PIL.ImageGrab.grab((game_area_left, game_area_top, game_area_right, game_area_bottom))
matrix = game_area_image_to_matrix()
map = {}
for y in range(ROW_NUM): for x in range(COL_NUM): grid_id = matrix[y][x] if grid_id == 0: continue map.setdefault(grid_id, []) arr = map[grid_id] arr.append([x, y])
pyautogui.PAUSE = 0
while True: one_step = solve_matrix_one_step() if not one_step: exit(0) execute_one_step(one_step) time.sleep(random.randint(0,0)/1000)

主要思路就是利用pywin32获取连连看游戏句柄, 获取游戏界面的图片, 对方块进行切割, 对每个方块取几个点的颜色进行比对, 均相同则认为是同一个方块,

然后模拟鼠标去消就行了, 代码的最后一行是每次点击的间隔。

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