Beispiel #1
0
def gauss_filter():
    header, y_cb_cr = bmp.readBmp(gauss_noise_filename)
    h, y_cb_cr_o = bmp.readBmp(original_file_y_cb_cr)
    sigmaRange = np.arange(0.0001, 1.1, 0.1)
    psnr = defaultdict(list)
    rRange = range(1, 10)
    legends = []
    out_psnr = np.zeros((len(list(rRange)) + 1, (len(list(sigmaRange)) + 1)))
    out_psnr[1:, 0] = list(rRange)
    out_psnr[0, 1:] = list(sigmaRange)
    print('orig ', bmp.psnr(y_cb_cr_o[..., 0], y_cb_cr[..., 0]))
    for r in rRange:
        psnr = []
        for i in sigmaRange:
            res = BmpFilters.BmpFilters.gauss_filter(y_cb_cr, r, i)
            ps = bmp.psnr(y_cb_cr_o[..., 0], res[..., 0])
            res[..., 1] = res[..., 0]
            res[..., 2] = res[..., 0]
            bmp.writeBmp(
                gauss_filter_filename +
                "/gauss r = {0:.2f} d = {1:.2f}.bmp".format(r, i), header, res)
            psnr.append(ps)
        p = np.array(psnr)
        out_psnr[r, 1:] = p
        l, = plt.plot(list(sigmaRange), psnr, label=f'R = {r}')
        legends.append(l)
    plt.legend(handles=legends)
    plt.savefig(gauss_filter_filename + f"/psnr total.png")
    np.savetxt(gauss_filter_filename + '/psnr.csv',
               out_psnr,
               delimiter=',',
               fmt='%.2f')
Beispiel #2
0
def laplas():
    header, rgb = bmp.readBmp(orig_filename)
    y_cb_cr = bmp.convertYCbCr(rgb)
    y_cb_cr_res = BmpFilters.BmpFilters.laplas_operator(y_cb_cr, 0)
    y_cb_cr_res += 128
    np.putmask(y_cb_cr_res, y_cb_cr_res < 0, 0)
    np.putmask(y_cb_cr_res, y_cb_cr_res > 255, 255)
    y_cb_cr_res[..., 1] = y_cb_cr_res[..., 0]
    y_cb_cr_res[..., 2] = y_cb_cr_res[..., 0]
    y_cb_cr[..., 1] = y_cb_cr[..., 0]
    y_cb_cr[..., 2] = y_cb_cr[..., 0]
    bmp.writeBmp(laplas_folder + "/laplas.bmp", header, y_cb_cr_res)
    bmp.writeBmp(laplas_folder + "/orig.bmp", header, y_cb_cr)
Beispiel #3
0
def median():
    header, y_cb_cr = bmp.readBmp(gauss_noise_filename)
    header_o, y_cb_cr_o = bmp.readBmp(original_file_y_cb_cr)
    psnr = []
    print('orig', bmp.psnr(y_cb_cr_o[..., 0], y_cb_cr[..., 0]))
    x = range(1, 10)
    for r in x:
        res = BmpFilters.BmpFilters.median_filter(y_cb_cr, r * 2 + 1)
        res[..., 1] = res[..., 0]
        res[..., 2] = res[..., 0]
        psnr.append(bmp.psnr(y_cb_cr_o[..., 0], res[..., 0]))
        bmp.writeBmp(median_folder + f"/median r = {r}.bmp", header, res)
    np.savetxt(median_folder + "/psnr.csv",
               np.array(psnr).T,
               delimiter=',',
               fmt='%.2f')
    plt.plot(list(x), psnr)
    plt.savefig(median_folder + "/psnr.png")
Beispiel #4
0

header, rgb = bmp.readBmp(in_file)

a = rgb[...][...][0] - rgb[...][...][1]
print(np.max(a))
sys.exit(0)
y_cb_cr = bmp.convertYCbCr(rgb)
cbDecimated = bmp.decimationByDeletingEven(y_cb_cr[..., 1], 4)
crDecimated = bmp.decimationByDeletingEven(y_cb_cr[..., 2], 4)
cbRecovered = bmp.recoverDecimationByDeletingEven(cbDecimated, 4)
crRecovered = bmp.recoverDecimationByDeletingEven(crDecimated, 4)
y_cb_cr[..., 1] = cbRecovered
y_cb_cr[..., 2] = crRecovered
rgb2 = bmp.inverseConvertYCbCr(y_cb_cr)
bmp.writeBmp(res_file_path + "testRec.bmp", header, rgb2)
print(bmp.psnr(rgb[..., 0], rgb2[..., 0]))
print(bmp.psnr(rgb[..., 1], rgb2[..., 1]))
print(bmp.psnr(rgb[..., 2], rgb2[..., 2]))
sys.stdout = open('console.txt', 'w')

b = rgb[..., 0]
g = rgb[..., 1]
r = rgb[..., 2]
# [4] b
getAutoCor(r, "red")
getAutoCor(g, "green")
getAutoCor(b, "blue")

# 7 [y_cb_cr]
y_cb_cr = bmp.convertYCbCr(rgb)