Pillow/Tests/test_format_hsv.py
Jon Dufresne 4de5477b61 Remove unnecessary unittest.main() boilerplate from test files
With the introduction and use of pytest, it is simple and easy to
execute specific tests in isolation through documented command line
arguments. Either by specifying the module path or through the `-k
EXPRESSION` argument. There is no longer any need to provide the
boilerplate:

    if __name__ == '__main__':
        unittest.main()

To every test file. It is simply noise.

The pattern remains in test files that aren't named with `test_*` as
those files are not discovered and executed by pytest by default.
2019-02-03 10:10:16 -08:00

132 lines
4.4 KiB
Python

from .helper import PillowTestCase, hopper
from PIL import Image
from PIL._util import py3
import colorsys
import itertools
class TestFormatHSV(PillowTestCase):
def int_to_float(self, i):
return float(i)/255.0
def str_to_float(self, i):
return float(ord(i))/255.0
def tuple_to_ints(self, tp):
x, y, z = tp
return int(x*255.0), int(y*255.0), int(z*255.0)
def test_sanity(self):
Image.new('HSV', (100, 100))
def wedge(self):
w = Image._wedge()
w90 = w.rotate(90)
(px, h) = w.size
r = Image.new('L', (px*3, h))
g = r.copy()
b = r.copy()
r.paste(w, (0, 0))
r.paste(w90, (px, 0))
g.paste(w90, (0, 0))
g.paste(w, (2*px, 0))
b.paste(w, (px, 0))
b.paste(w90, (2*px, 0))
img = Image.merge('RGB', (r, g, b))
return img
def to_xxx_colorsys(self, im, func, mode):
# convert the hard way using the library colorsys routines.
(r, g, b) = im.split()
if py3:
conv_func = self.int_to_float
else:
conv_func = self.str_to_float
if hasattr(itertools, 'izip'):
iter_helper = itertools.izip
else:
iter_helper = itertools.zip_longest
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())]
if py3:
new_bytes = b''.join(bytes(chr(h)+chr(s)+chr(v), 'latin-1') for (
h, s, v) in converted)
else:
new_bytes = b''.join(chr(h)+chr(s)+chr(v) for (
h, s, v) in converted)
hsv = Image.frombytes(mode, r.size, new_bytes)
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):
src = self.wedge().resize((3*32, 32), Image.BILINEAR)
im = src.convert('HSV')
comparable = self.to_hsv_colorsys(src)
self.assert_image_similar(im.getchannel(0), comparable.getchannel(0),
1, "Hue conversion is wrong")
self.assert_image_similar(im.getchannel(1), comparable.getchannel(1),
1, "Saturation conversion is wrong")
self.assert_image_similar(im.getchannel(2), comparable.getchannel(2),
1, "Value conversion is wrong")
comparable = src
im = im.convert('RGB')
self.assert_image_similar(im.getchannel(0), comparable.getchannel(0),
3, "R conversion is wrong")
self.assert_image_similar(im.getchannel(1), comparable.getchannel(1),
3, "G conversion is wrong")
self.assert_image_similar(im.getchannel(2), comparable.getchannel(2),
3, "B conversion is wrong")
def test_convert(self):
im = hopper('RGB').convert('HSV')
comparable = self.to_hsv_colorsys(hopper('RGB'))
self.assert_image_similar(im.getchannel(0), comparable.getchannel(0),
1, "Hue conversion is wrong")
self.assert_image_similar(im.getchannel(1), comparable.getchannel(1),
1, "Saturation conversion is wrong")
self.assert_image_similar(im.getchannel(2), comparable.getchannel(2),
1, "Value conversion is wrong")
def test_hsv_to_rgb(self):
comparable = self.to_hsv_colorsys(hopper('RGB'))
converted = comparable.convert('RGB')
comparable = self.to_rgb_colorsys(comparable)
self.assert_image_similar(converted.getchannel(0),
comparable.getchannel(0),
3, "R conversion is wrong")
self.assert_image_similar(converted.getchannel(1),
comparable.getchannel(1),
3, "G conversion is wrong")
self.assert_image_similar(converted.getchannel(2),
comparable.getchannel(2),
3, "B conversion is wrong")