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bwmforpy3.py
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bwmforpy3.py
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#!/usr/bin/env python
# -*- coding: utf8 -*-
import sys
import random
cmd = None
debug = False
seed = 20160930
alpha = 3.0
if __name__ == '__main__':
if '-h' in sys.argv or '--help' in sys.argv or len(sys.argv) < 2:
print ('Usage: python bwm.py <cmd> [arg...] [opts...]')
print (' cmds:')
print (' encode <image> <watermark> <image(encoded)>')
print (' image + watermark -> image(encoded)')
print (' decode <image> <image(encoded)> <watermark>')
print (' image + image(encoded) -> watermark')
print (' opts:')
print (' --debug, Show debug')
print (' --seed <int>, Manual setting random seed (default is 20160930)')
print (' --alpha <float>, Manual setting alpha (default is 3.0)')
sys.exit(1)
cmd = sys.argv[1]
if cmd != 'encode' and cmd != 'decode':
print ('Wrong cmd %s' % cmd)
sys.exit(1)
if '--debug' in sys.argv:
debug = True
del sys.argv[sys.argv.index('--debug')]
if '--seed' in sys.argv:
p = sys.argv.index('--seed')
if len(sys.argv) <= p+1:
print ('Missing <int> for --seed')
sys.exit(1)
seed = int(sys.argv[p+1])
del sys.argv[p+1]
del sys.argv[p]
if '--alpha' in sys.argv:
p = sys.argv.index('--alpha')
if len(sys.argv) <= p+1:
print ('Missing <float> for --alpha')
sys.exit(1)
alpha = float(sys.argv[p+1])
del sys.argv[p+1]
del sys.argv[p]
if len(sys.argv) < 5:
print ('Missing arg...')
sys.exit(1)
fn1 = sys.argv[2]
fn2 = sys.argv[3]
fn3 = sys.argv[4]
import cv2
import numpy as np
import matplotlib.pyplot as plt
# OpenCV是以(BGR)的顺序存储图像数据的
# 而Matplotlib是以(RGB)的顺序显示图像的
def bgr_to_rgb(img):
b, g, r = cv2.split(img)
return cv2.merge([r, g, b])
if cmd == 'encode':
print ('image<%s> + watermark<%s> -> image(encoded)<%s>' % (fn1, fn2, fn3))
img = cv2.imread(fn1)
wm = cv2.imread(fn2)
if debug:
plt.subplot(231), plt.imshow(bgr_to_rgb(img)), plt.title('image')
plt.xticks([]), plt.yticks([])
plt.subplot(234), plt.imshow(bgr_to_rgb(wm)), plt.title('watermark')
plt.xticks([]), plt.yticks([])
# print img.shape # 高, 宽, 通道
h, w = img.shape[0], img.shape[1]
hwm = np.zeros((int(h * 0.5), w, img.shape[2]))
assert hwm.shape[0] > wm.shape[0]
assert hwm.shape[1] > wm.shape[1]
hwm2 = np.copy(hwm)
for i in range(wm.shape[0]):
for j in range(wm.shape[1]):
hwm2[i][j] = wm[i][j]
random.seed(seed)
m, n = list(range(hwm.shape[0])), list(range(hwm.shape[1]))
random.shuffle(m)
random.shuffle(n)
for i in range(hwm.shape[0]):
for j in range(hwm.shape[1]):
hwm[i][j] = hwm2[m[i]][n[j]]
rwm = np.zeros(img.shape)
for i in range(hwm.shape[0]):
for j in range(hwm.shape[1]):
rwm[i][j] = hwm[i][j]
rwm[rwm.shape[0] - i - 1][rwm.shape[1] - j - 1] = hwm[i][j]
if debug:
plt.subplot(235), plt.imshow(bgr_to_rgb(rwm)), \
plt.title('encrypted(watermark)')
plt.xticks([]), plt.yticks([])
f1 = np.fft.fft2(img)
f2 = f1 + alpha * rwm
_img = np.fft.ifft2(f2)
if debug:
plt.subplot(232), plt.imshow(bgr_to_rgb(np.real(f1))), \
plt.title('fft(image)')
plt.xticks([]), plt.yticks([])
img_wm = np.real(_img)
assert cv2.imwrite(fn3, img_wm, [int(cv2.IMWRITE_JPEG_QUALITY), 100])
# 这里计算下保存前后的(溢出)误差
img_wm2 = cv2.imread(fn3)
sum = 0
for i in range(img_wm.shape[0]):
for j in range(img_wm.shape[1]):
for k in range(img_wm.shape[2]):
sum += np.power(img_wm[i][j][k] - img_wm2[i][j][k], 2)
miss = np.sqrt(sum) / (img_wm.shape[0] * img_wm.shape[1] * img_wm.shape[2]) * 100
print ('Miss %s%% in save' % miss)
if debug:
plt.subplot(233), plt.imshow(bgr_to_rgb(np.uint8(img_wm))), \
plt.title('image(encoded)')
plt.xticks([]), plt.yticks([])
f2 = np.fft.fft2(img_wm)
rwm = (f2 - f1) / alpha
rwm = np.real(rwm)
wm = np.zeros(rwm.shape)
for i in range(int(rwm.shape[0] * 0.5)):
for j in range(rwm.shape[1]):
wm[m[i]][n[j]] = np.uint8(rwm[i][j])
for i in range(int(rwm.shape[0] * 0.5)):
for j in range(rwm.shape[1]):
wm[rwm.shape[0] - i - 1][rwm.shape[1] - j - 1] = wm[i][j]
if debug:
assert cv2.imwrite('_bwm.debug.wm.jpg', wm)
plt.subplot(236), plt.imshow(bgr_to_rgb(wm)), plt.title(u'watermark')
plt.xticks([]), plt.yticks([])
if debug:
plt.show()
elif cmd == 'decode':
print ('image<%s> + image(encoded)<%s> -> watermark<%s>' % (fn1, fn2, fn3))
img = cv2.imread(fn1)
img_wm = cv2.imread(fn2)
if debug:
plt.subplot(231), plt.imshow(bgr_to_rgb(img)), plt.title('image')
plt.xticks([]), plt.yticks([])
plt.subplot(234), plt.imshow(bgr_to_rgb(img_wm)), plt.title('image(encoded)')
plt.xticks([]), plt.yticks([])
random.seed(seed)
m, n = list(range(int(img.shape[0] * 0.5))), list(range(img.shape[1]))
random.shuffle(m)
random.shuffle(n)
f1 = np.fft.fft2(img)
f2 = np.fft.fft2(img_wm)
if debug:
plt.subplot(232), plt.imshow(bgr_to_rgb(np.real(f1))), \
plt.title('fft(image)')
plt.xticks([]), plt.yticks([])
plt.subplot(235), plt.imshow(bgr_to_rgb(np.real(f1))), \
plt.title('fft(image(encoded))')
plt.xticks([]), plt.yticks([])
rwm = (f2 - f1) / alpha
rwm = np.real(rwm)
if debug:
plt.subplot(233), plt.imshow(bgr_to_rgb(rwm)), \
plt.title('encrypted(watermark)')
plt.xticks([]), plt.yticks([])
wm = np.zeros(rwm.shape)
for i in range(int(rwm.shape[0] * 0.5)):
for j in range(rwm.shape[1]):
wm[m[i]][n[j]] = np.uint8(rwm[i][j])
for i in range(int(rwm.shape[0] * 0.5)):
for j in range(rwm.shape[1]):
wm[rwm.shape[0] - i - 1][rwm.shape[1] - j - 1] = wm[i][j]
assert cv2.imwrite(fn3, wm)
if debug:
plt.subplot(236), plt.imshow(bgr_to_rgb(wm)), plt.title(u'watermark')
plt.xticks([]), plt.yticks([])
if debug:
plt.show()