Esempio n. 1
0
def plot_output(fname, x, y):
    num_ex = y.shape[0]
    num_items = 2
    num_row, num_col, calc = pu.calc_row_col(
        num_ex, num_items, max_items_per_row=9)

    f1, axarr = plt.subplots(num_row, num_col, figsize=(10, num_row))
    pu.set_axis_off(axarr, num_row, num_col)

    for ii in xrange(num_ex):
        for jj in xrange(num_items):
            row, col = calc(ii, jj)
            if jj % 2 == 0:
                axarr[row, col].imshow(cv2.resize(x[ii], (448, 128)))
            else:
                axarr[row, col].imshow(cv2.resize(y[ii], (448, 128)))

    plt.tight_layout(pad=2.0, w_pad=0.0, h_pad=0.0)
    plt.savefig(fname, dpi=150)
    plt.close('all')
Esempio n. 2
0
def plot_output(fname, x1, x2, y_gt, y_out):
    num_ex = y_out.shape[0]
    num_items = 2
    num_row, num_col, calc = pu.calc_row_col(
        num_ex, num_items, max_items_per_row=9)

    f1, axarr = plt.subplots(num_row, num_col, figsize=(10, num_row))
    pu.set_axis_off(axarr, num_row, num_col)

    for ii in xrange(num_ex):
        for jj in xrange(num_items):
            row, col = calc(ii, jj)
            if jj == 0:
                axarr[row, col].imshow(x1[ii])
            else:
                axarr[row, col].imshow(x2[ii])

            axarr[row, col].text(0, 0, '{:.2f} {:.2f}'.format(
                y_gt[ii], y_out[ii]),
                color=(0, 0, 0), size=8)

    plt.tight_layout(pad=2.0, w_pad=0.0, h_pad=0.0)
    plt.savefig(fname, dpi=150)
    plt.close('all')