393 lines
16 KiB
Python
393 lines
16 KiB
Python
# -*- coding: utf-8 -*-
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# Created by: Vincentzyx
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import win32gui
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import win32ui
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import win32api
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from ctypes import windll
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from PIL import Image
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import cv2
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import pyautogui
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import matplotlib.pyplot as plt
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import numpy as np
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import os
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import time
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import threading
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from win32con import WM_LBUTTONDOWN, MK_LBUTTON, WM_LBUTTONUP, WM_MOUSEMOVE
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import multiprocessing as mp
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from PyQt5 import QtGui, QtWidgets, QtCore
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from PyQt5.QtCore import QTime, QEventLoop
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Pics = {}
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ReqQueue = mp.Queue()
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ResultQueue = mp.Queue()
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Processes = []
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def GetSingleCardQueue(reqQ, resQ, Pics):
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while True:
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while not reqQ.empty():
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image, i, sx, sy, sw, sh, checkSelect = reqQ.get()
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result = GetSingleCard(image, i, sx, sy, sw, sh, checkSelect, Pics)
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del image
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if result is not None:
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resQ.put(result)
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time.sleep(0.01)
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def ShowImg(image):
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plt.imshow(image)
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plt.show()
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def DrawRectWithText(image, rect, text):
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img = cv2.cvtColor(np.asarray(image), cv2.COLOR_RGB2BGR)
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x, y, w, h = rect
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img2 = cv2.rectangle(img, (x, y), (x + w, y + h), (0, 0, 255), 2)
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img2 = cv2.putText(img2, text, (x, y + 20), cv2.FONT_HERSHEY_SIMPLEX, 0.8, (0, 0, 255), 2)
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return Image.fromarray(cv2.cvtColor(img2, cv2.COLOR_BGR2RGB))
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def CompareCard(card):
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order = {"3": 0, "4": 1, "5": 2, "6": 3, "7": 4, "8": 5, "9": 6, "T": 7, "J": 8, "Q": 9, "K": 10, "A": 11, "2": 12,
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"X": 13, "D": 14}
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return order[card]
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def CompareCardInfo(card):
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order = {"3": 0, "4": 1, "5": 2, "6": 3, "7": 4, "8": 5, "9": 6, "T": 7, "J": 8, "Q": 9, "K": 10, "A": 11, "2": 12,
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"X": 13, "D": 14}
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return order[card[0]]
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def CompareCards(cards1, cards2):
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if len(cards1) != len(cards2):
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return False
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cards1.sort(key=CompareCard)
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cards2.sort(key=CompareCard)
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for i in range(0, len(cards1)):
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if cards1[i] != cards2[i]:
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return False
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return True
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def GetListDifference(l1, l2):
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temp1 = []
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temp1.extend(l1)
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temp2 = []
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temp2.extend(l2)
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for i in l2:
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if i in temp1:
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temp1.remove(i)
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for i in l1:
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if i in temp2:
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temp2.remove(i)
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return temp1, temp2
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def FindImage(fromImage, template, threshold=0.9):
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w, h, _ = template.shape
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fromImage = cv2.cvtColor(np.asarray(fromImage), cv2.COLOR_RGB2BGR)
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res = cv2.matchTemplate(fromImage, template, cv2.TM_CCOEFF_NORMED)
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loc = np.where(res >= threshold)
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points = []
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for pt in zip(*loc[::-1]):
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points.append(pt)
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return points
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def GetSingleCard(image, i, sx, sy, sw, sh, checkSelect, Pics):
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cardSearchFrom = 0
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AllCardsNC = ['rD', 'bX', '2', 'A', 'K', 'Q', 'J', 'T', '9', '8', '7', '6', '5', '4', '3']
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currCard = ""
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ci = cardSearchFrom
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while ci < len(AllCardsNC):
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if "r" in AllCardsNC[ci] or "b" in AllCardsNC[ci]:
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result = pyautogui.locate(needleImage=Pics["m" + AllCardsNC[ci]], haystackImage=image,
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region=(sx + 50 * i, sy - checkSelect * 25, sw, sh), confidence=0.9)
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if result is not None:
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cardPos = (sx + 50 * i + sw // 2, sy - checkSelect * 25 + sh // 2)
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cardSearchFrom = ci
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currCard = AllCardsNC[ci][1]
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cardInfo = (currCard, cardPos)
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return cardInfo
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break
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else:
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outerBreak = False
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for card_type in ["r", "b"]:
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result = pyautogui.locate(needleImage=Pics["m" + card_type + AllCardsNC[ci]],
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haystackImage=image,
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region=(sx + 50 * i, sy - checkSelect * 25, sw, sh), confidence=0.9)
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if result is not None:
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cardPos = (sx + 50 * i + sw // 2, sy - checkSelect * 25 + sh // 2)
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cardSearchFrom = ci
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currCard = AllCardsNC[ci]
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cardInfo = (currCard, cardPos)
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outerBreak = True
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return cardInfo
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break
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if outerBreak:
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break
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if ci == len(AllCardsNC) - 1 and checkSelect == 0:
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checkSelect = 1
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ci = cardSearchFrom - 1
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ci += 1
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return None
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def RunThreads():
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for file in os.listdir("pics"):
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info = file.split(".")
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if info[1] == "png":
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tmpImage = Image.open("pics/" + file)
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Pics.update({info[0]: tmpImage})
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for ti in range(20):
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p = mp.Process(target=GetSingleCardQueue, args=(ReqQueue, ResultQueue, Pics))
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p.start()
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def LocateOnImage(image, template, region=None, confidence=0.9):
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if region is not None:
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x, y, w, h = region
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imgShape = image.shape
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image = image[y:y+h, x:x+w,:]
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res = cv2.matchTemplate(image, template, cv2.TM_CCOEFF_NORMED)
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if (res >= confidence).any():
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return True
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else:
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return None
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class GameHelper:
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def __init__(self):
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self.ScreenZoomRate = 1.25
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self.Pics = {}
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self.PicsCV = {}
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self.Handle = win32gui.FindWindow("Hlddz", None)
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self.Interrupt = False
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self.RealRate = (1796, 1047)
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for file in os.listdir("./pics"):
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info = file.split(".")
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if info[1] == "png":
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tmpImage = Image.open("./pics/" + file)
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imgCv = cv2.imread("./pics/" + file)
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self.Pics.update({info[0]: tmpImage})
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self.PicsCV.update({info[0]: imgCv})
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def Screenshot(self, region=None): # -> (im, (left, top))
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hwnd = self.Handle
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# im = Image.open(r"C:\Users\q9294\Desktop\llc.png")
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# im = im.resize((1796, 1047))
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# return im, (0,0)
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left, top, right, bot = win32gui.GetWindowRect(hwnd)
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width = right - left
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height = bot - top
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width = int(width / self.ScreenZoomRate)
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height = int(height / self.ScreenZoomRate)
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hwndDC = win32gui.GetWindowDC(hwnd)
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mfcDC = win32ui.CreateDCFromHandle(hwndDC)
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saveDC = mfcDC.CreateCompatibleDC()
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saveBitMap = win32ui.CreateBitmap()
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saveBitMap.CreateCompatibleBitmap(mfcDC, width, height)
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saveDC.SelectObject(saveBitMap)
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result = windll.user32.PrintWindow(hwnd, saveDC.GetSafeHdc(), 0)
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bmpinfo = saveBitMap.GetInfo()
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bmpstr = saveBitMap.GetBitmapBits(True)
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im = Image.frombuffer(
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"RGB",
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(bmpinfo['bmWidth'], bmpinfo['bmHeight']),
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bmpstr, 'raw', 'BGRX', 0, 1)
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win32gui.DeleteObject(saveBitMap.GetHandle())
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saveDC.DeleteDC()
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mfcDC.DeleteDC()
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win32gui.ReleaseDC(hwnd, hwndDC)
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im = im.resize((1798, 1047))
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self.RealRate = (width, height)
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if region is not None:
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im = im.crop((region[0], region[1], region[0] + region[2], region[1] + region[3]))
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if result:
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return im, (left, top)
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else:
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return None, (0, 0)
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def LocateOnScreen(self, templateName, region, confidence=0.9):
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image, _ = self.Screenshot()
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return pyautogui.locate(needleImage=self.Pics[templateName],
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haystackImage=image, region=region, confidence=confidence)
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def ClickOnImage(self, templateName, region=None, confidence=0.9):
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image, _ = self.Screenshot()
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result = pyautogui.locate(needleImage=self.Pics[templateName], haystackImage=image, confidence=confidence, region=region)
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if result is not None:
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self.LeftClick((result[0], result[1]))
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def GetCardsState(self, image):
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st = time.time()
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states = []
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cardStartPos = pyautogui.locate(needleImage=self.Pics["card_edge"], haystackImage=image,
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region=(313, 747, 1144, 200), confidence=0.85)
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if cardStartPos is None:
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return []
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sx = cardStartPos[0] + 10
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cardSearchFrom = 0
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sy, sw, sh = 770, 50, 55
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for i in range(0, 20):
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haveWhite = pyautogui.locate(needleImage=self.Pics["card_white"], haystackImage=image,
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region=(sx + 50 * i, sy, 50, 50), confidence=0.8)
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if haveWhite is not None:
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break
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result = pyautogui.locate(needleImage=self.Pics["card_upper_edge"], haystackImage=image,
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region=(sx + 50 * i, 720, sw, 38), confidence=0.9)
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checkSelect = 0
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if result is not None:
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result = pyautogui.locate(needleImage=self.Pics['card_overlap'], haystackImage=image,
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region=(sx + 50 * i, 750, sw, 38), confidence=0.85)
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if result is None:
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checkSelect = 1
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states.append(checkSelect)
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print("GetStates Costs ", time.time()-st)
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return states
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def GetCardsMulti(self, image):
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st = time.time()
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cardStartPos = pyautogui.locate(needleImage=self.Pics["card_edge"], haystackImage=image,
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region=(313, 747, 1144, 200), confidence=0.85)
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if cardStartPos is None:
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return [],[]
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sx = cardStartPos[0] + 10
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AllCardsNC = ['rD', 'bX', '2', 'A', 'K', 'Q', 'J', 'T', '9', '8', '7', '6', '5', '4', '3']
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hand_cards = []
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select_map = []
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cardSearchFrom = 0
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sy, sw, sh = 770, 50, 55
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for i in range(0, 20):
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haveWhite = pyautogui.locate(needleImage=self.Pics["card_white"], haystackImage=image,
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region=(sx + 50 * i, sy, 60, 60), confidence=0.8)
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if haveWhite is not None:
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break
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result = pyautogui.locate(needleImage=self.Pics["card_upper_edge"], haystackImage=image,
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region=(sx + 50 * i, 720, sw, 50), confidence=0.9)
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checkSelect = 0
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if result is not None:
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result = pyautogui.locate(needleImage=self.Pics['card_overlap'], haystackImage=image,
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region=(sx + 50 * i, 750, sw, 50), confidence=0.85)
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if result is None:
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checkSelect = 1
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select_map.append(checkSelect)
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ReqQueue.put((image, i, sx, sy, sw, sh, checkSelect))
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QtWidgets.QApplication.processEvents(QEventLoop.AllEvents, 10)
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st = time.time()
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while len(hand_cards) != len(select_map):
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while not ResultQueue.empty():
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hand_cards.append(ResultQueue.get())
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time.sleep(0.01)
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QtWidgets.QApplication.processEvents(QEventLoop.AllEvents, 10)
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hand_cards.sort(key=CompareCardInfo, reverse=True)
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print("GetCardsMP Costs ", time.time()-st)
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return hand_cards, select_map
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def GetCards(self, image):
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st = time.time()
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imgCv = cv2.cvtColor(np.asarray(image), cv2.COLOR_RGB2BGR)
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cardStartPos = pyautogui.locate(needleImage=self.Pics["card_edge"], haystackImage=image,
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region=(313, 747, 1144, 200), confidence=0.85)
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if cardStartPos is None:
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return [],[]
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sx = cardStartPos[0] + 10
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AllCardsNC = ['rD', 'bX', '2', 'A', 'K', 'Q', 'J', 'T', '9', '8', '7', '6', '5', '4', '3']
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hand_cards = []
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select_map = []
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cardSearchFrom = 0
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sy, sw, sh = 770, 50, 55
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for i in range(0, 20):
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haveWhite = pyautogui.locate(needleImage=self.Pics["card_white"], haystackImage=image,
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region=(sx + 50 * i, sy, 60, 60), confidence=0.8)
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if haveWhite is not None:
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break
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result = pyautogui.locate(needleImage=self.Pics["card_upper_edge"], haystackImage=image,
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region=(sx + 50 * i, 720, sw, 50), confidence=0.9)
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checkSelect = 0
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if result is not None:
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result = pyautogui.locate(needleImage=self.Pics['card_overlap'], haystackImage=image,
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region=(sx + 50 * i, 750, sw, 50), confidence=0.85)
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if result is None:
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checkSelect = 1
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select_map.append(checkSelect)
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currCard = ""
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ci = cardSearchFrom
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while ci < len(AllCardsNC):
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if "r" in AllCardsNC[ci] or "b" in AllCardsNC[ci]:
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result = LocateOnImage(imgCv, self.PicsCV["m" + AllCardsNC[ci]], region=(sx + 50 * i, sy - checkSelect * 25, sw, sh), confidence=0.91)
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# result = pyautogui.locate(needleImage=self.Pics["m" + AllCardsNC[ci]], haystackImage=image,
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# region=(sx + 50 * i, sy - checkSelect * 25, sw, sh), confidence=0.9)
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if result is not None:
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cardPos = (sx + 50 * i + sw // 2, sy - checkSelect * 25 + sh // 2)
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cardSearchFrom = ci
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currCard = AllCardsNC[ci][1]
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cardInfo = (currCard, cardPos)
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hand_cards.append(cardInfo)
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else:
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outerBreak = False
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for card_type in ["r", "b"]:
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result = LocateOnImage(imgCv, self.PicsCV["m" + card_type + AllCardsNC[ci]], region=(sx + 50 * i, sy - checkSelect * 25, sw, sh), confidence=0.91)
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# result = pyautogui.locate(needleImage=self.Pics["m" + card_type + AllCardsNC[ci]],
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# haystackImage=image,
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# region=(sx + 50 * i, sy - checkSelect * 25, sw, sh), confidence=0.9)
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if result is not None:
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cardPos = (sx + 50 * i + sw // 2, sy - checkSelect * 25 + sh // 2)
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cardSearchFrom = ci
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currCard = AllCardsNC[ci]
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cardInfo = (currCard, cardPos)
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hand_cards.append(cardInfo)
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outerBreak = True
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break
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if outerBreak:
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break
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if ci == len(AllCardsNC) - 1 and checkSelect == 0:
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checkSelect = 1
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ci = cardSearchFrom - 1
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ci += 1
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QtWidgets.QApplication.processEvents(QEventLoop.AllEvents, 10)
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print("GetCards Costs ", time.time()-st)
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return hand_cards, select_map
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def LeftClick(self, pos):
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x, y = pos
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x = (x / 1800) * self.RealRate[0] * self.ScreenZoomRate
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y = (y / 1050) * self.RealRate[1] * self.ScreenZoomRate
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x = int(x)
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y = int(y)
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lParam = win32api.MAKELONG(x, y)
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win32gui.PostMessage(self.Handle, WM_MOUSEMOVE, MK_LBUTTON, lParam)
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win32gui.PostMessage(self.Handle, WM_LBUTTONDOWN, MK_LBUTTON, lParam)
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win32gui.PostMessage(self.Handle, WM_LBUTTONUP, MK_LBUTTON, lParam)
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def SelectCards(self, cards):
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cards = [card for card in cards]
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tobeSelected = []
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tobeSelected.extend(cards)
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image, windowPos = self.Screenshot()
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handCardsInfo, states = self.GetCards(image)
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cardSelectMap = []
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for card in handCardsInfo:
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c = card[0]
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if c in tobeSelected:
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cardSelectMap.append(1)
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tobeSelected.remove(c)
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else:
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cardSelectMap.append(0)
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clickMap = []
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handcards = [c[0] for c in handCardsInfo]
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for i in range(0, len(cardSelectMap)):
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if cardSelectMap[i] == states[i]:
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clickMap.append(0)
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else:
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clickMap.append(1)
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while 1 in clickMap:
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for i in range(0, len(clickMap)):
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if clickMap[i] == 1:
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self.LeftClick(handCardsInfo[i][1])
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break
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time.sleep(0.1)
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if self.Interrupt:
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break
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image, _ = self.Screenshot()
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states = self.GetCardsState(image)
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clickMap = []
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for i in range(0, len(cardSelectMap)):
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if cardSelectMap[i] == states[i]:
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clickMap.append(0)
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else:
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clickMap.append(1)
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QtWidgets.QApplication.processEvents(QEventLoop.AllEvents, 10)
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