Pillow/Tests/test_format_hsv.py

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from __future__ import print_function
from helper import unittest, PillowTestCase, hopper
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from PIL import Image
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import colorsys
import itertools
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class TestFormatHSV(PillowTestCase):
def int_to_float(self, i):
return float(i)/255.0
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def str_to_float(self, i):
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return float(ord(i))/255.0
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def to_int(self, f):
return int(f*255.0)
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def tuple_to_ints(self, tp):
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x, y, z = tp
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return (int(x*255.0), int(y*255.0), int(z*255.0))
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def test_sanity(self):
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Image.new('HSV', (100, 100))
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def wedge(self):
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w = Image._wedge()
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w90 = w.rotate(90)
(px, h) = w.size
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r = Image.new('L', (px*3, h))
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g = r.copy()
b = r.copy()
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r.paste(w, (0, 0))
r.paste(w90, (px, 0))
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g.paste(w90, (0, 0))
g.paste(w, (2*px, 0))
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b.paste(w, (px, 0))
b.paste(w90, (2*px, 0))
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img = Image.merge('RGB', (r, g, b))
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# print (("%d, %d -> "% (int(1.75*px),int(.25*px))) + \
# "(%s, %s, %s)"%img.getpixel((1.75*px, .25*px)))
# print (("%d, %d -> "% (int(.75*px),int(.25*px))) + \
# "(%s, %s, %s)"%img.getpixel((.75*px, .25*px)))
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return img
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def to_xxx_colorsys(self, im, func, mode):
# convert the hard way using the library colorsys routines.
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(r, g, b) = im.split()
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if bytes is str:
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conv_func = self.str_to_float
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else:
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conv_func = self.int_to_float
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if hasattr(itertools, 'izip'):
iter_helper = itertools.izip
else:
iter_helper = itertools.zip_longest
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converted = [self.tuple_to_ints(func(conv_func(_r), conv_func(_g),
conv_func(_b)))
for (_r, _g, _b) in iter_helper(r.tobytes(), g.tobytes(),
b.tobytes())]
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if str is bytes:
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new_bytes = b''.join(chr(h)+chr(s)+chr(v) for (
h, s, v) in converted)
else:
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new_bytes = b''.join(bytes(chr(h)+chr(s)+chr(v), 'latin-1') for (
h, s, v) in converted)
hsv = Image.frombytes(mode, r.size, new_bytes)
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return hsv
def to_hsv_colorsys(self, im):
return self.to_xxx_colorsys(im, colorsys.rgb_to_hsv, 'HSV')
def to_rgb_colorsys(self, im):
return self.to_xxx_colorsys(im, colorsys.hsv_to_rgb, 'RGB')
def test_wedge(self):
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src = self.wedge().resize((3*32, 32), Image.BILINEAR)
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im = src.convert('HSV')
comparable = self.to_hsv_colorsys(src)
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# print (im.getpixel((448, 64)))
# print (comparable.getpixel((448, 64)))
# print(im.split()[0].histogram())
# print(comparable.split()[0].histogram())
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# im.split()[0].show()
# comparable.split()[0].show()
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self.assert_image_similar(im.split()[0], comparable.split()[0],
1, "Hue conversion is wrong")
self.assert_image_similar(im.split()[1], comparable.split()[1],
1, "Saturation conversion is wrong")
self.assert_image_similar(im.split()[2], comparable.split()[2],
1, "Value conversion is wrong")
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# print (im.getpixel((192, 64)))
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comparable = src
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im = im.convert('RGB')
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# im.split()[0].show()
# comparable.split()[0].show()
# print (im.getpixel((192, 64)))
# print (comparable.getpixel((192, 64)))
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self.assert_image_similar(im.split()[0], comparable.split()[0],
3, "R conversion is wrong")
self.assert_image_similar(im.split()[1], comparable.split()[1],
3, "G conversion is wrong")
self.assert_image_similar(im.split()[2], comparable.split()[2],
3, "B conversion is wrong")
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def test_convert(self):
im = hopper('RGB').convert('HSV')
comparable = self.to_hsv_colorsys(hopper('RGB'))
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# print ([ord(x) for x in im.split()[0].tobytes()[:80]])
# print ([ord(x) for x in comparable.split()[0].tobytes()[:80]])
# print(im.split()[0].histogram())
# print(comparable.split()[0].histogram())
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self.assert_image_similar(im.split()[0], comparable.split()[0],
1, "Hue conversion is wrong")
self.assert_image_similar(im.split()[1], comparable.split()[1],
1, "Saturation conversion is wrong")
self.assert_image_similar(im.split()[2], comparable.split()[2],
1, "Value conversion is wrong")
def test_hsv_to_rgb(self):
comparable = self.to_hsv_colorsys(hopper('RGB'))
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converted = comparable.convert('RGB')
comparable = self.to_rgb_colorsys(comparable)
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# print(converted.split()[1].histogram())
# print(target.split()[1].histogram())
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# print ([ord(x) for x in target.split()[1].tobytes()[:80]])
# print ([ord(x) for x in converted.split()[1].tobytes()[:80]])
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self.assert_image_similar(converted.split()[0], comparable.split()[0],
3, "R conversion is wrong")
self.assert_image_similar(converted.split()[1], comparable.split()[1],
3, "G conversion is wrong")
self.assert_image_similar(converted.split()[2], comparable.split()[2],
3, "B conversion is wrong")
if __name__ == '__main__':
unittest.main()