from helper import unittest, PillowTestCase from PIL import Image from PIL import ImageOps from PIL import ImageFilter im = Image.open("Tests/images/hopper.ppm") snakes = Image.open("Tests/images/color_snakes.png") class TestImageOpsUsm(PillowTestCase): def test_ops_api(self): i = ImageOps.gaussian_blur(im, 2.0) self.assertEqual(i.mode, "RGB") self.assertEqual(i.size, (128, 128)) # i.save("blur.bmp") i = ImageOps.unsharp_mask(im, 2.0, 125, 8) self.assertEqual(i.mode, "RGB") self.assertEqual(i.size, (128, 128)) # i.save("usm.bmp") def test_filter_api(self): test_filter = ImageFilter.GaussianBlur(2.0) i = im.filter(test_filter) self.assertEqual(i.mode, "RGB") self.assertEqual(i.size, (128, 128)) test_filter = ImageFilter.UnsharpMask(2.0, 125, 8) i = im.filter(test_filter) self.assertEqual(i.mode, "RGB") self.assertEqual(i.size, (128, 128)) def test_usm_formats(self): usm = ImageOps.unsharp_mask self.assertRaises(ValueError, usm, im.convert("1")) usm(im.convert("L")) self.assertRaises(ValueError, usm, im.convert("I")) self.assertRaises(ValueError, usm, im.convert("F")) usm(im.convert("RGB")) usm(im.convert("RGBA")) usm(im.convert("CMYK")) self.assertRaises(ValueError, usm, im.convert("YCbCr")) def test_blur_formats(self): blur = ImageOps.gaussian_blur self.assertRaises(ValueError, blur, im.convert("1")) blur(im.convert("L")) self.assertRaises(ValueError, blur, im.convert("I")) self.assertRaises(ValueError, blur, im.convert("F")) blur(im.convert("RGB")) blur(im.convert("RGBA")) blur(im.convert("CMYK")) self.assertRaises(ValueError, blur, im.convert("YCbCr")) def test_usm_accuracy(self): src = snakes.convert('RGB') i = src._new(ImageOps.unsharp_mask(src, 5, 1024, 0)) # Image should not be changed because it have only 0 and 255 levels. self.assertEqual(i.tobytes(), src.tobytes()) def test_blur_accuracy(self): i = snakes._new(ImageOps.gaussian_blur(snakes, .4)) # These pixels surrounded with pixels with 255 intensity. # They must be very close to 255. for x, y, c in [(1, 0, 1), (2, 0, 1), (7, 8, 1), (8, 8, 1), (2, 9, 1), (7, 3, 0), (8, 3, 0), (5, 8, 0), (5, 9, 0), (1, 3, 0), (4, 3, 2), (4, 2, 2)]: self.assertGreaterEqual(i.im.getpixel((x, y))[c], 250) # Fuzzy match. def gp(x, y): return i.im.getpixel((x, y)) self.assertTrue(236 <= gp(7, 4)[0] <= 239) self.assertTrue(236 <= gp(7, 5)[2] <= 239) self.assertTrue(236 <= gp(7, 6)[2] <= 239) self.assertTrue(236 <= gp(7, 7)[1] <= 239) self.assertTrue(236 <= gp(8, 4)[0] <= 239) self.assertTrue(236 <= gp(8, 5)[2] <= 239) self.assertTrue(236 <= gp(8, 6)[2] <= 239) self.assertTrue(236 <= gp(8, 7)[1] <= 239) if __name__ == '__main__': unittest.main()