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Open Source Computer Vision Library
https://opencv.org/
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66 lines
2.1 KiB
66 lines
2.1 KiB
#!/usr/bin/python |
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import urllib2 |
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import sys |
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import cv2.cv as cv |
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import numpy |
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# SRGB-linear conversions using NumPy - see http://en.wikipedia.org/wiki/SRGB |
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def srgb2lin(x): |
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a = 0.055 |
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return numpy.where(x <= 0.04045, |
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x * (1.0 / 12.92), |
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numpy.power((x + a) * (1.0 / (1 + a)), 2.4)) |
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def lin2srgb(x): |
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a = 0.055 |
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return numpy.where(x <= 0.0031308, |
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x * 12.92, |
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(1 + a) * numpy.power(x, 1 / 2.4) - a) |
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if __name__ == "__main__": |
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if len(sys.argv) > 1: |
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img0 = cv.LoadImageM( sys.argv[1], cv.CV_LOAD_IMAGE_COLOR) |
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else: |
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url = 'http://code.opencv.org/svn/opencv/trunk/opencv/samples/c/lena.jpg' |
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filedata = urllib2.urlopen(url).read() |
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imagefiledata = cv.CreateMatHeader(1, len(filedata), cv.CV_8UC1) |
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cv.SetData(imagefiledata, filedata, len(filedata)) |
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img0 = cv.DecodeImageM(imagefiledata, cv.CV_LOAD_IMAGE_COLOR) |
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cv.NamedWindow("original", 1) |
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cv.ShowImage("original", img0) |
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# Image was originally bytes in range 0-255. Turn it into an array of floats in range 0.0 - 1.0 |
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n = numpy.asarray(img0) / 255.0 |
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# Use NumPy to do some transformations on the image |
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# Negate the image by subtracting it from 1.0 |
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cv.NamedWindow("negative") |
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cv.ShowImage("negative", cv.fromarray(1.0 - n)) |
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# Assume the image was sRGB, and compute the linear version. |
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cv.NamedWindow("linear") |
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cv.ShowImage("linear", cv.fromarray(srgb2lin(n))) |
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# Look at a subwindow |
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cv.NamedWindow("subwindow") |
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cv.ShowImage("subwindow", cv.fromarray(n[200:300,200:400])) |
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# Compute the grayscale image |
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cv.NamedWindow("monochrome") |
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ln = srgb2lin(n) |
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red = ln[:,:,0] |
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grn = ln[:,:,1] |
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blu = ln[:,:,2] |
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linear_mono = 0.3 * red + 0.59 * grn + 0.11 * blu |
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cv.ShowImage("monochrome", cv.fromarray(lin2srgb(linear_mono))) |
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# Apply a blur to the NumPy array using OpenCV |
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cv.NamedWindow("gaussian") |
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cv.Smooth(n, n, cv.CV_GAUSSIAN, 15, 15) |
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cv.ShowImage("gaussian", cv.fromarray(n)) |
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cv.WaitKey(0) |
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cv.DestroyAllWindows()
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