merge imaging and imaging core resize tests

Tests/test_image_resize.py

@@ -1,5 +1,91 @@
+"""
+Tests for resize functionality.
+"""
+from itertools import permutations
+
 from helper import unittest, PillowTestCase, hopper
 
+from PIL import Image
+
+
+class TestImagingCoreResize(PillowTestCase):
+
+    def resize(self, im, size, f):
+        # Image class independend version of resize.
+        im.load()
+        return im._new(im.im.resize(size, f))
+
+    def test_nearest_mode(self):
+        for mode in ["1", "P", "L", "I", "F", "RGB", "RGBA", "CMYK", "YCbCr",
+                     "I;16"]: # exotic mode
+            im = hopper(mode)
+            r = self.resize(im, (15, 12), Image.NEAREST)
+            self.assertEqual(r.mode, mode)
+            self.assertEqual(r.size, (15, 12) )
+            self.assertEqual(r.im.bands, im.im.bands)
+
+    def test_convolution_modes(self):
+        self.assertRaises(ValueError, self.resize, hopper("1"),
+                          (15, 12), Image.BILINEAR)
+        self.assertRaises(ValueError, self.resize, hopper("P"),
+                          (15, 12), Image.BILINEAR)
+        self.assertRaises(ValueError, self.resize, hopper("I;16"),
+                          (15, 12), Image.BILINEAR)
+        for mode in ["L", "I", "F", "RGB", "RGBA", "CMYK", "YCbCr"]:
+            im = hopper(mode)
+            r = self.resize(im, (15, 12), Image.BILINEAR)
+            self.assertEqual(r.mode, mode)
+            self.assertEqual(r.size, (15, 12) )
+            self.assertEqual(r.im.bands, im.im.bands)
+
+    def test_reduce_filters(self):
+        for f in [Image.LINEAR, Image.BILINEAR, Image.BICUBIC, Image.ANTIALIAS]:
+            r = self.resize(hopper("RGB"), (15, 12), f)
+            self.assertEqual(r.mode, "RGB")
+            self.assertEqual(r.size, (15, 12))
+
+    def test_enlarge_filters(self):
+        for f in [Image.LINEAR, Image.BILINEAR, Image.BICUBIC, Image.ANTIALIAS]:
+            r = self.resize(hopper("RGB"), (212, 195), f)
+            self.assertEqual(r.mode, "RGB")
+            self.assertEqual(r.size, (212, 195))
+
+    def test_endianness(self):
+        # Make an image with one colored pixel, in one channel.
+        # When resized, that channel should be the same as a GS image.
+        # Other channels should be unaffected.
+        # The R and A channels should not swap, which is indicitive of
+        # an endianness issues.
+
+        samples = {
+            'blank': Image.new('L', (2, 2), 0),
+            'filled': Image.new('L', (2, 2), 255),
+            'dirty': Image.new('L', (2, 2), 0),
+        }
+        samples['dirty'].putpixel((1, 1), 128)
+
+        for f in [Image.LINEAR, Image.BILINEAR, Image.BICUBIC, Image.ANTIALIAS]:
+            # samples resized with current filter
+            references = dict(
+                (name, self.resize(ch, (4, 4), f))
+                for name, ch in samples.items()
+            )
+
+            for mode, channels_set in [
+                ('RGB', ('blank', 'filled', 'dirty')),
+                ('RGBA', ('blank', 'blank', 'filled', 'dirty')),
+                ('LA', ('filled', 'dirty')),
+            ]:
+                for channels in set(permutations(channels_set)):
+                    # compile image from different channels permutations
+                    im = Image.merge(mode, [samples[ch] for ch in channels])
+                    resized = self.resize(im, (4, 4), f)
+
+                    for i, ch in enumerate(resized.split()):
+                        # check what resized channel in image is the same
+                        # as separately resized channel
+                        self.assert_image_equal(ch, references[channels[i]])
+
 
 class TestImageResize(PillowTestCase):
 
@@ -9,8 +95,8 @@ class TestImageResize(PillowTestCase):
             self.assertEqual(out.mode, mode)
             self.assertEqual(out.size, size)
         for mode in "1", "P", "L", "RGB", "I", "F":
-            resize(mode, (100, 100))
-            resize(mode, (200, 200))
+            resize(mode, (112, 103))
+            resize(mode, (188, 214))
 
 
 if __name__ == '__main__':

Tests/test_imaging_stretch.py

@@ -1,93 +0,0 @@
-"""
-Tests for resize functionality.
-"""
-from itertools import permutations
-
-from helper import unittest, PillowTestCase, hopper
-
-from PIL import Image
-
-
-class TestImagingCoreResize(PillowTestCase):
-
-    def resize(self, im, size, f):
-        # Image class independend version of resize.
-        im.load()
-        return im._new(im.im.resize(size, f))
-
-    def test_nearest_mode(self):
-        for mode in ["1", "P", "L", "I", "F", "RGB", "RGBA", "CMYK", "YCbCr",
-                     "I;16"]: # exotic mode
-            im = hopper(mode)
-            r = self.resize(im, (15, 12), Image.NEAREST)
-            self.assertEqual(r.mode, mode)
-            self.assertEqual(r.size, (15, 12) )
-            self.assertEqual(r.im.bands, im.im.bands)
-
-    def test_convolution_modes(self):
-        self.assertRaises(ValueError, self.resize, hopper("1"),
-                          (15, 12), Image.BILINEAR)
-        self.assertRaises(ValueError, self.resize, hopper("P"),
-                          (15, 12), Image.BILINEAR)
-        self.assertRaises(ValueError, self.resize, hopper("I;16"),
-                          (15, 12), Image.BILINEAR)
-        for mode in ["L", "I", "F", "RGB", "RGBA", "CMYK", "YCbCr"]:
-            im = hopper(mode)
-            r = self.resize(im, (15, 12), Image.BILINEAR)
-            self.assertEqual(r.mode, mode)
-            self.assertEqual(r.size, (15, 12) )
-            self.assertEqual(r.im.bands, im.im.bands)
-
-    def test_reduce_filters(self):
-        for f in [Image.LINEAR, Image.BILINEAR, Image.BICUBIC, Image.ANTIALIAS]:
-            r = self.resize(hopper("RGB"), (15, 12), f)
-            self.assertEqual(r.mode, "RGB")
-            self.assertEqual(r.size, (15, 12))
-
-    def test_enlarge_filters(self):
-        for f in [Image.LINEAR, Image.BILINEAR, Image.BICUBIC, Image.ANTIALIAS]:
-            r = self.resize(hopper("RGB"), (212, 195), f)
-            self.assertEqual(r.mode, "RGB")
-            self.assertEqual(r.size, (212, 195))
-
-    def test_endianness(self):
-        # Make an image with one colored pixel, in one channel.
-        # When resized, that channel should be the same as a GS image.
-        # Other channels should be unaffected.
-        # The R and A channels should not swap, which is indicitive of
-        # an endianness issues.
-
-        samples = {
-            'blank': Image.new('L', (2, 2), 0),
-            'filled': Image.new('L', (2, 2), 255),
-            'dirty': Image.new('L', (2, 2), 0),
-        }
-        samples['dirty'].putpixel((1, 1), 128)
-
-        for f in [Image.LINEAR, Image.BILINEAR, Image.BICUBIC, Image.ANTIALIAS]:
-            # samples resized with current filter
-            references = dict(
-                (name, self.resize(ch, (4, 4), f))
-                for name, ch in samples.items()
-            )
-
-            for mode, channels_set in [
-                ('RGB', ('blank', 'filled', 'dirty')),
-                ('RGBA', ('blank', 'blank', 'filled', 'dirty')),
-                ('LA', ('filled', 'dirty')),
-            ]:
-                for channels in set(permutations(channels_set)):
-                    # compile image from different channels permutations
-                    im = Image.merge(mode, [samples[ch] for ch in channels])
-                    resized = self.resize(im, (4, 4), f)
-
-                    for i, ch in enumerate(resized.split()):
-                        # check what resized channel in image is the same
-                        # as separately resized channel
-                        self.assert_image_equal(ch, references[channels[i]])
-
-
-if __name__ == '__main__':
-    unittest.main()
-
-# End of file