Exemplo n.º 1
0
def compare_top_bottom(scores, figures, solutions, problem):

    if not scores:
        scores = [.125, .125, .125, .125, .125, .125, .125, .125]

    g_blobs = algorithm.get_blobs(algorithm.find_regions(figures[6]))
    h_blobs = algorithm.get_blobs(algorithm.find_regions(figures[7]))

    top_g = g_blobs[algorithm.get_top(g_blobs)]
    bottom_h = h_blobs[algorithm.get_bottom(h_blobs)]

    possible_answers = []
    for i, score in enumerate(scores):
        if score != 0.0:
            possible_answers.append((i, solutions[i]))

    comparisons = []
    for answer in possible_answers:

        solution_blobs = algorithm.get_blobs(algorithm.find_regions(answer[1]))
        top_solution = solution_blobs[algorithm.get_top(solution_blobs)]
        bottom_solution = solution_blobs[algorithm.get_bottom(solution_blobs)]

        x = (answer[0], algorithm.calc_rms(top_g, top_solution) +
             algorithm.calc_rms(bottom_h, bottom_solution))
        comparisons.append(x)

    m = min(comparisons, key=lambda t: t[1])

    return m
Exemplo n.º 2
0
def compare_top_bottom(scores, figures, solutions, problem):

    if not scores:
        scores = [.125, .125, .125, .125, .125, .125, .125, .125]

    g_blobs = algorithm.get_blobs(algorithm.find_regions(figures[6]))
    h_blobs = algorithm.get_blobs(algorithm.find_regions(figures[7]))

    top_g = g_blobs[algorithm.get_top(g_blobs)]
    bottom_h = h_blobs[algorithm.get_bottom(h_blobs)]

    possible_answers = []
    for i, score in enumerate(scores):
        if score != 0.0:
            possible_answers.append( (i, solutions[i]))

    comparisons = []
    for answer in possible_answers:

        solution_blobs = algorithm.get_blobs(algorithm.find_regions(answer[1]))
        top_solution = solution_blobs[algorithm.get_top(solution_blobs)]
        bottom_solution = solution_blobs[algorithm.get_bottom(solution_blobs)]

        x = ( answer[0], algorithm.calc_rms(top_g, top_solution) + algorithm.calc_rms(bottom_h, bottom_solution))
        comparisons.append(x)

    m = min(comparisons, key=lambda t: t[1])

    return m
Exemplo n.º 3
0
def compare_top_corners(figures):

    a_blobs = algorithm.get_blobs(algorithm.find_regions(figures[0]))
    c_blobs = algorithm.get_blobs(algorithm.find_regions(figures[2]))

    d_blobs = algorithm.get_blobs(algorithm.find_regions(figures[3]))
    f_blobs = algorithm.get_blobs(algorithm.find_regions(figures[5]))

    if len(a_blobs) < 2 or len(c_blobs) < 2 or len(d_blobs) < 2 or len(f_blobs) < 2:
        return False

    if transformation.strict_equality(a_blobs[algorithm.get_top(a_blobs)], c_blobs[algorithm.get_top(c_blobs)]) \
        and transformation.strict_equality(d_blobs[algorithm.get_top(d_blobs)], f_blobs[algorithm.get_top(f_blobs)]):
        return True
    else:
        return False
Exemplo n.º 4
0
def compare_top_corners(figures):

    a_blobs = algorithm.get_blobs(algorithm.find_regions(figures[0]))
    c_blobs = algorithm.get_blobs(algorithm.find_regions(figures[2]))

    d_blobs = algorithm.get_blobs(algorithm.find_regions(figures[3]))
    f_blobs = algorithm.get_blobs(algorithm.find_regions(figures[5]))

    if len(a_blobs) < 2 or len(c_blobs) < 2 or len(d_blobs) < 2 or len(
            f_blobs) < 2:
        return False

    if transformation.strict_equality(a_blobs[algorithm.get_top(a_blobs)], c_blobs[algorithm.get_top(c_blobs)]) \
        and transformation.strict_equality(d_blobs[algorithm.get_top(d_blobs)], f_blobs[algorithm.get_top(f_blobs)]):
        return True
    else:
        return False