Exemplo n.º 1
0
def find_square_ragion(gray_image):
    # for some big size pictures which need to blur,
    # but cannot using ksize=(5,5), since some picture will get wrong number value.
    blured_image = cv2.GaussianBlur(gray_image, ksize=(3,3), sigmaX=0)

    # Display.image(blured_image)
    threshed_image = cv2.adaptiveThreshold(blured_image,WHITE,
        cv2.ADAPTIVE_THRESH_MEAN_C,cv2.THRESH_BINARY_INV, blockSize=7, C=2)

    # flag_test()
    # Display.image(threshed_image)

    ''' 
        It's very depend on the threshed_image.
    '''
    max_contour = find_max_contour(threshed_image)

    # Display.contours(gray_image, [max_contour])
    # max_contour.ppl()
    # 'test'.pl()
    # from picture_sudoku.helpers.common import Resource
    # numpy.save(Resource.get_path("for_issues/max_contour.npy"), max_contour)
    # square_contour = convert_to_square(max_contour)
    # this is using the border line.
    square_contour = extract_square_from_contour(max_contour)
    # square_contour.ppl()

    if square_contour == None:
        raise SudokuError("Cannot find sudoku square!")
    # flag_test()
    # Display.contours(gray_image, [square_contour])

    larged_contour = Quadrilateral.enlarge(square_contour, 0.007)
    larged_contour = Contour.check_beyond_borders(larged_contour, gray_image.shape)
    # Display.contours(gray_image, [larged_contour])
    # larged_contour.ppl()

    square_ragion = Contour.get_rect_ragion(larged_contour, gray_image)
    # Display.image(square_ragion)

    return square_ragion
Exemplo n.º 2
0
def extract_square_from_contour(contour):
    '''
        it will extract square from the contour which could have many noise points.
    '''
    the_image = Image.generate_mask(Contour.get_shape(contour))
    # Display.contours(the_image, [contour])
    cv2.drawContours(the_image, [contour], -1, 255 ,1)
    # Display.image(the_image)
    # lines = PolarLines.find_suitable_lines(the_image)
    square_ragion = the_image
    vertical_lines = find_vertical_lines(square_ragion)

    horizontal_lines = find_horizontal_lines(square_ragion)
    # flag_test()
    # Display.polar_lines(square_ragion, vertical_lines+horizontal_lines)

    border_line_count = 2
    if len(vertical_lines) > border_line_count:
        logger.info("The count of vertical border lines is larger than {0}"
            .format(border_line_count))
        vertical_lines = [vertical_lines[0],vertical_lines[-1]]
    if len(horizontal_lines) > border_line_count:
        logger.info("The count of horizontal border lines is larger than {0}"
            .format(border_line_count))
        horizontal_lines = [horizontal_lines[0],horizontal_lines[-1]]

    # flag_test()
    # Display.polar_lines(square_ragion, vertical_lines+horizontal_lines)

    intersections = find_intersections(vertical_lines, horizontal_lines)
    # intersections.ppl()
    square_contour =  Points.to_contour(intersections)
    # order the points
    square_contour = Points.to_contour(Quadrilateral.vertices(square_contour))
    # 'test'.pl()
    # Display.contours(the_image,[square_contour])
    return square_contour