Esempio n. 1
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def findCCs(image, erasecol=0, doContinue=None, doSkip=None, bRange=0, connectivity=8):
    """
    Finds all connected components in the image.
    doContinue is a function applied to the color of every new pixel in the image.
    If it is true, this pixel is ignored. Default: <= 128
    doSkip is a function applied to every new connected component found by the
    function. If it is true, this component will not be included in the result.
    Default: do not skip anything.
    """
    if doContinue is None:
        doContinue = lambda col: col <= 128
    if doSkip is None:
        doSkip = lambda comp: False
    mask = cv.CreateImage((image.width + 2, image.height + 2), cv.IPL_DEPTH_8U, 1)
    cv.Zero(mask)
    components = []
    for x in range(image.width):
        for y in range(image.height):
            if doContinue(image[y, x]):
                continue
            comp = cv.FloodFill(image, (x, y), 0, bRange, bRange, connectivity + cv.CV_FLOODFILL_MASK_ONLY + (255 << 8), mask) # here 3rd argument is ignored
            region = shiftRect(comp[2], 1, 1)
            if not doSkip(comp):
                seg = cvext.getSubImage(mask, region)
                components.append((comp[0], comp[1], comp[2], seg))
            cv.SetImageROI(image, comp[2])
            cv.SetImageROI(mask, region)
            cv.Set(image, erasecol, mask)
            cv.Zero(mask)
            cv.ResetImageROI(image)
            cv.ResetImageROI(mask)
    return components
Esempio n. 2
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def cutNonBlack(comp, thresh, colthresh=0):
    image = comp[3]
    rect = comp[2]
    newRect = findNonBlackRect(image, thresh, colthresh)
    if newRect[2] == 0 or newRect[3] == 0:
        return None
    region = cvext.getSubImage(image, newRect)
    newRect = shiftRect(newRect, rect[0], rect[1])
    return (cv.CountNonZero(region), 255.0, newRect, region)
Esempio n. 3
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def splitAt(image, splitters):
    if splitters == []:
        return [image]
    segments = []
    regions = []
    for i in xrange(len(splitters) - 1):
        region = (splitters[i], 0, splitters[i+1] - splitters[i], image.height)
        regions.append(region)
        seg = cvext.getSubImage(image, region)
        segments.append(seg)
    return segments, regions
Esempio n. 4
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def cutNonBlackImage(image, thresh=1, colthresh=0):
    newRect = findNonBlackRect(image, thresh, colthresh)
    if newRect[2] == 0 or newRect[3] == 0:
        return None
    region = cvext.getSubImage(image, newRect)
    return region