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ssim.py
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ssim.py
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"""
Video Quality Metrics
Copyright (c) 2014 Alex Izvorski <[email protected]>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
import numpy
from scipy.ndimage import gaussian_filter
from numpy.lib.stride_tricks import as_strided as ast
"""
Hat tip: http://stackoverflow.com/a/5078155/1828289
"""
def block_view(A, block=(3, 3)):
"""Provide a 2D block view to 2D array. No error checking made.
Therefore meaningful (as implemented) only for blocks strictly
compatible with the shape of A."""
# simple shape and strides computations may seem at first strange
# unless one is able to recognize the 'tuple additions' involved ;-)
shape = (A.shape[0]/ block[0], A.shape[1]/ block[1])+ block
strides = (block[0]* A.strides[0], block[1]* A.strides[1])+ A.strides
return ast(A, shape= shape, strides= strides)
def ssim(img1, img2, C1=0.01**2, C2=0.03**2):
bimg1 = block_view(img1, (4,4))
bimg2 = block_view(img2, (4,4))
s1 = numpy.sum(bimg1, (-1, -2))
s2 = numpy.sum(bimg2, (-1, -2))
ss = numpy.sum(bimg1*bimg1, (-1, -2)) + numpy.sum(bimg2*bimg2, (-1, -2))
s12 = numpy.sum(bimg1*bimg2, (-1, -2))
vari = ss - s1*s1 - s2*s2
covar = s12 - s1*s2
ssim_map = (2*s1*s2 + C1) * (2*covar + C2) / ((s1*s1 + s2*s2 + C1) * (vari + C2))
return numpy.mean(ssim_map)
# FIXME there seems to be a problem with this code
def ssim_exact(img1, img2, sd=1.5, C1=0.01**2, C2=0.03**2):
mu1 = gaussian_filter(img1, sd)
mu2 = gaussian_filter(img2, sd)
mu1_sq = mu1 * mu1
mu2_sq = mu2 * mu2
mu1_mu2 = mu1 * mu2
sigma1_sq = gaussian_filter(img1 * img1, sd) - mu1_sq
sigma2_sq = gaussian_filter(img2 * img2, sd) - mu2_sq
sigma12 = gaussian_filter(img1 * img2, sd) - mu1_mu2
ssim_num = ((2 * mu1_mu2 + C1) * (2 * sigma12 + C2))
ssim_den = ((mu1_sq + mu2_sq + C1) * (sigma1_sq + sigma2_sq + C2))
ssim_map = ssim_num / ssim_den
return numpy.mean(ssim_map)