Esempio n. 1
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def autoCompareResImgHashValue(handle,fileName):
  imgPath=path.getResDirPath()+fileName
  tmp=fileName.split(".")
  fSplit=tmp[0].split("_")
  fLen=len(fSplit)
  targetImgPerLeftX=int(fSplit[fLen-4])
  targetImgPerLeftY=int(fSplit[fLen-3])
  targetImgPerRightX=int(fSplit[fLen-2])
  targetImgPerRightY=int(fSplit[fLen-1])

  targetImg=Image.open(imgPath)


  targetImgWidth=targetImg.size[0]
  targetImgHeigth=targetImg.size[1]
  perSize=(targetImgPerRightX-targetImgPerLeftX)*0.01
  resWinWidth=int(targetImgWidth/perSize)
  perSize=(targetImgPerRightY-targetImgPerLeftY)*0.01
  resWinHeight=int(targetImgHeigth/perSize)



  imgScreen=getScreenRectPerImg(handle,targetImgPerLeftX,targetImgPerLeftY,targetImgPerRightX,targetImgPerRightY)

  imgScreen.resize((resWinWidth,resWinHeight),Image.ANTIALIAS)

  hashCode1=imgHash(imgScreen,hashSize,highfreq_factor)
  hashCode2=imgHash(targetImg,hashSize,highfreq_factor)

  targetImg.close()
  imgScreen.close()
  return alikeHashValue(hashCode2,hashCode1)
Esempio n. 2
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def matchResImgInWindow(handle,imgName,threshold=0.8,mult=True):
  #获取目标图片
  tmp=imgName.split(".")
  fSplit=tmp[0].split("_")
  fLen=len(fSplit)
  targetImgPerLeftX=int(fSplit[fLen-4])
  targetImgPerLeftY=int(fSplit[fLen-3])
  targetImgPerRightX=int(fSplit[fLen-2])
  targetImgPerRightY=int(fSplit[fLen-1])

  imgPath=path.getResDirPath()+imgName
  if not os.path.exists(path.getProjectPath()):
    os.makedirs(path.getProjectPath())
  targetImg=Image.open(imgPath)

  targetImgWidth=targetImg.size[0]
  targetImgHeigth=targetImg.size[1]

  perSize=(targetImgPerRightX-targetImgPerLeftX)*0.01
  resWinWidth=int(targetImgWidth/perSize)
  perSize=(targetImgPerRightY-targetImgPerLeftY)*0.01
  resWinHeight=int(targetImgHeigth/perSize)


  #模板图片
  temImg=cv2.cvtColor(numpy.asarray(targetImg),cv2.COLOR_RGB2BGR)  
  targetImg.close()

  wLeft, wTop, wRight, wBottom = appGetWindowRect(handle)
  winImg = ImageGrab.grab(bbox=(wLeft, wTop, wRight, wBottom))

  #对截图缩放,适配资源图片
  toMatchWinImgSrc=cv2.cvtColor(numpy.asarray(winImg),cv2.COLOR_RGB2BGR)  

  toMatchWinImg=cv2.resize(toMatchWinImgSrc, (resWinWidth,resWinHeight),interpolation=cv2.INTER_AREA)
  winImg.close()

  res = cv2.matchTemplate(toMatchWinImg,temImg,cv2.TM_CCOEFF_NORMED)

  xyList=[]
  if mult==True :
    loc = numpy.where(res>=threshold)

    for pt in zip(*loc[::-1]):
      xyList.append((wLeft+pt[0]+(targetImgWidth>>1),wTop+pt[1]+(targetImgHeigth>>1)))

   
   
  else: #单个很不准确
    min_val, max_val, min_loc, max_loc = cv2.minMaxLoc(res)
    top_left = min_loc #左上角的位置
    xyList.append((wLeft+top_left[0]+(targetImgWidth>>1),wTop+top_left[1]+(targetImgHeigth>>1)))


  # print(xyList)
  return  xyList
Esempio n. 3
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def getResImgHashAndSize(fileName):
   imgPath=path.getResDirPath()+fileName
   if not os.path.exists(path.getProjectPath()):
        os.makedirs(path.getProjectPath())
   img=Image.open(imgPath)
   xSize=img.size[0]
   ySize=img.size[1]
   hashCode=imgHash(img,hashSize,highfreq_factor)
   img.close()
   return hashCode,xSize,ySize
Esempio n. 4
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def featResImgInWindow(handle, imgName,distance=0.75,threshold=8):
    imgPath = path.getResDirPath()+imgName
    if not os.path.exists(path.getProjectPath()):
        os.makedirs(path.getProjectPath())
    targetImg = Image.open(imgPath)

    wLeft, wTop, wRight, wBottom = appGetWindowRect(handle)
    winImg = ImageGrab.grab(bbox=(wLeft, wTop, wRight, wBottom))

    imgTag = cv2.cvtColor(numpy.asarray(targetImg), cv2.COLOR_RGB2BGR)
    imgWin = cv2.cvtColor(numpy.asarray(winImg), cv2.COLOR_RGB2BGR)
    # imgTag = cv2.cvtColor(numpy.asarray(targetImg), cv2.COLOR_RGB2GRAY)
    # imgWin = cv2.cvtColor(numpy.asarray(winImg), cv2.COLOR_RGB2GRAY)
    targetImg.close()
    winImg.close()

    # fast = cv2.FastFeatureDetector_create(threshold)
    # keypointTag = fast.detect(imgTag,None)
    # keypointWin = fast.detect(imgWin,None)

    # tmpimg=cv2.drawKeypoints(imgTag,keypointTag,outImage=numpy.array([]),color=(0,0,255))
    # tmpimg=cv2.drawKeypoints(imgWin,keypointWin,outImage=numpy.array([]),color=(0,0,255))
    # cv2.imshow("show key points",tmpimg)
    # cv2.waitKey(0)

    orb = cv2.ORB_create(nfeatures = 1000,edgeThreshold =threshold, nlevels = 1, patchSize = threshold)
    orb.setFastThreshold(0)
    keypointTag, desTag = orb.detectAndCompute(imgTag, None)
    keypointWin, desWin = orb.detectAndCompute(imgWin, None)

    # tmpimg=cv2.drawKeypoints(imgWin,keypointWin,outImage=numpy.array([]),color=(0,0,255))
    # tmpimg = cv2.drawKeypoints(
    #     imgTag, keypointTag, outImage=numpy.array([]), color=(0, 0, 255))
    # cv2.imshow("show key points", tmpimg)
    # cv2.waitKey(0)

    # print(keypointWin,desWin)
    # bf = cv2.BFMatcher(cv2.NORM_HAMMING, crossCheck=True)
    # matches = bf.match(desTag, desWin)
    # matches = sorted(matches, key=lambda x: x.distance)
    bf = cv2.BFMatcher()
    matches =bf.knnMatch(desTag, desWin, k=2)
    good = []
    for m,n in matches:
      if m.distance < distance*n.distance:
          good.append([m])

    print(good)
    img3= cv2.drawMatchesKnn(imgTag, keypointTag, imgWin, keypointWin,good,None,flags=cv2.DrawMatchesFlags_NOT_DRAW_SINGLE_POINTS)
    # img3 = cv2.drawMatches(imgTag, keypointTag, imgWin, keypointWin, matches, None, flags=2,  singlePointColor=(255, 0, 0),)
    cv2.imshow("show key points", img3)
    cv2.waitKey(0)
Esempio n. 5
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def matchResImgInWindowOneSize(handle, imgName, threshold=0.8,  mult=True):

    imgPath = path.getResDirPath()+imgName
    if not os.path.exists(path.getProjectPath()):
        os.makedirs(path.getProjectPath())
    targetImg = Image.open(imgPath)

    targetImgWidth = targetImg.size[0]
    targetImgHeigth = targetImg.size[1]

    # 模板图片
    temImg = cv2.cvtColor(numpy.asarray(targetImg), cv2.COLOR_RGB2GRAY)
    # temImg = cv2.cvtColor(numpy.asarray(targetImg), cv2.COLOR_RGB2GRAY)

    targetImg.close()

    wLeft, wTop, wRight, wBottom = appGetWindowRect(handle)
    winImg = ImageGrab.grab(bbox=(wLeft, wTop, wRight, wBottom))


    # 对截图缩放,适配资源图片
    toMatchWinImgSrc = cv2.cvtColor(numpy.asarray(winImg), cv2.COLOR_RGB2GRAY)

    toMatchWinImg = cv2.resize(
        toMatchWinImgSrc, (396, 698), interpolation=cv2.INTER_AREA)
    winImg.close()

    res = cv2.matchTemplate(toMatchWinImg, temImg, cv2.TM_CCOEFF_NORMED)

    xyList = []
    if mult == True:
        loc = numpy.where(res >= threshold)

        for pt in zip(*loc[::-1]):
            x = wLeft+int((pt[0]+(targetImgWidth >> 1)))
            y = wTop+int((pt[1]+(targetImgHeigth >> 1)))
            xyList.append((x, y))

    else:  # 单个很不准确

        x = wLeft+int((pt[0]+(targetImgWidth >> 1)))
        y = wTop+int((pt[1]+(targetImgHeigth >> 1)))
        xyList.append((x, y))

    print(xyList[:10])
    return xyList
Esempio n. 6
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def getResImgHash(fileName):
  imgPath=path.getResDirPath()+fileName
  if not os.path.exists(path.getProjectPath()):
        os.makedirs(path.getProjectPath())
  return imgHash(Image.open(imgPath),hashSize,highfreq_factor)
Esempio n. 7
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def matchResImgInWindowPerSize(handle, imgName, threshold=0.8,  mult=True):
    tmp = imgName.split(".")
    fSplit = tmp[0].split("_")
    fLen = len(fSplit)
    targetImgPerLeftX = int(fSplit[fLen-4])
    targetImgPerLeftY = int(fSplit[fLen-3])
    targetImgPerRightX = int(fSplit[fLen-2])
    targetImgPerRightY = int(fSplit[fLen-1])

    imgPath = path.getResDirPath()+imgName
    if not os.path.exists(path.getProjectPath()):
        os.makedirs(path.getProjectPath())
    targetImg = Image.open(imgPath)

    targetImgWidth = targetImg.size[0]
    targetImgHeigth = targetImg.size[1]

    perSizeW = (targetImgPerRightX-targetImgPerLeftX)*0.01
    resWinWidth = int(targetImgWidth/perSizeW)
    perSizeH = (targetImgPerRightY-targetImgPerLeftY)*0.01
    resWinHeight = int(targetImgHeigth/perSizeH)

    # 模板图片
    temImg = cv2.cvtColor(numpy.asarray(targetImg), cv2.COLOR_RGB2GRAY)
    # temImg = cv2.cvtColor(numpy.asarray(targetImg), cv2.COLOR_RGB2GRAY)

    targetImg.close()

    wLeft, wTop, wRight, wBottom = appGetWindowRect(handle)
    winImg = ImageGrab.grab(bbox=(wLeft, wTop, wRight, wBottom))

    winNowW = wRight-wLeft
    winNowH = wBottom-wTop

    # 对截图缩放,适配资源图片
    toMatchWinImgSrc = cv2.cvtColor(numpy.asarray(winImg), cv2.COLOR_RGB2GRAY)

    toMatchWinImg = cv2.resize(
        toMatchWinImgSrc, (resWinWidth, resWinHeight), interpolation=cv2.INTER_AREA)
    winImg.close()

    scaleValueW = winNowW/resWinWidth
    scaleValueH = winNowH/resWinHeight

    res = cv2.matchTemplate(toMatchWinImg, temImg, cv2.TM_CCOEFF_NORMED)

    xyList = []
    if mult == True:
        loc = numpy.where(res >= threshold)

        for pt in zip(*loc[::-1]):
            x = wLeft+int((pt[0]+(targetImgWidth >> 1))*scaleValueW)
            y = wTop+int((pt[1]+(targetImgHeigth >> 1))*scaleValueW)
            xyList.append((x, y))

    else:  # 单个很不准确

        x = wLeft+int((pt[0]+(targetImgWidth >> 1))*scaleValueW)
        y = wTop+int((pt[1]+(targetImgHeigth >> 1))*scaleValueW)
        xyList.append((x, y))

    print(xyList[:10])
    return xyList