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Follow Python's file object semantics. User code is responsible for closing resources (usually through a context manager) in a deterministic way. To achieve this, remove __del__ functions. These functions used to closed open file handlers in an attempt to silence Python ResourceWarnings. However, using __del__ has the following drawbacks: - __del__ isn't called until the object's reference count reaches 0. Therefore, resource handlers remain open or in use longer than necessary. - The __del__ method isn't guaranteed to execute on system exit. See the Python documentation: https://docs.python.org/3/reference/datamodel.html#object.__del__ > It is not guaranteed that __del__() methods are called for objects > that still exist when the interpreter exits. - Exceptions that occur inside __del__ are ignored instead of raised. This has the potential of hiding bugs. This is also in the Python documentation: > Warning: Due to the precarious circumstances under which __del__() > methods are invoked, exceptions that occur during their execution > are ignored, and a warning is printed to sys.stderr instead. Instead, always close resource handlers when they are no longer in use. This will close the file handler at a specified point in the user's code and not wait until the interpreter chooses to. It is always guaranteed to run. And, if an exception occurs while closing the file handler, the bug will not be ignored. Now, when code receives a ResourceWarning, it will highlight an area that is mishandling resources. It should not simply be silenced, but fixed by closing resources with a context manager. All warnings that were emitted during tests have been cleaned up. To enable warnings, I passed the `-Wa` CLI option to Python. This exposed some mishandling of resources in ImageFile.__init__() and SpiderImagePlugin.loadImageSeries(), they too were fixed.
213 lines
6.7 KiB
Python
213 lines
6.7 KiB
Python
from io import BytesIO
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from PIL import Image, Jpeg2KImagePlugin
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from .helper import PillowTestCase
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codecs = dir(Image.core)
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test_card = Image.open("Tests/images/test-card.png")
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test_card.load()
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# OpenJPEG 2.0.0 outputs this debugging message sometimes; we should
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# ignore it---it doesn't represent a test failure.
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# 'Not enough memory to handle tile data'
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class TestFileJpeg2k(PillowTestCase):
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def setUp(self):
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if "jpeg2k_encoder" not in codecs or "jpeg2k_decoder" not in codecs:
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self.skipTest("JPEG 2000 support not available")
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def roundtrip(self, im, **options):
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out = BytesIO()
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im.save(out, "JPEG2000", **options)
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test_bytes = out.tell()
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out.seek(0)
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im = Image.open(out)
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im.bytes = test_bytes # for testing only
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im.load()
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return im
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def test_sanity(self):
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# Internal version number
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self.assertRegex(Image.core.jp2klib_version, r"\d+\.\d+\.\d+$")
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im = Image.open("Tests/images/test-card-lossless.jp2")
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px = im.load()
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self.assertEqual(px[0, 0], (0, 0, 0))
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self.assertEqual(im.mode, "RGB")
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self.assertEqual(im.size, (640, 480))
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self.assertEqual(im.format, "JPEG2000")
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self.assertEqual(im.get_format_mimetype(), "image/jp2")
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def test_jpf(self):
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with Image.open("Tests/images/balloon.jpf") as im:
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self.assertEqual(im.format, "JPEG2000")
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self.assertEqual(im.get_format_mimetype(), "image/jpx")
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def test_invalid_file(self):
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invalid_file = "Tests/images/flower.jpg"
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self.assertRaises(SyntaxError, Jpeg2KImagePlugin.Jpeg2KImageFile, invalid_file)
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def test_bytesio(self):
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with open("Tests/images/test-card-lossless.jp2", "rb") as f:
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data = BytesIO(f.read())
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im = Image.open(data)
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im.load()
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self.assert_image_similar(im, test_card, 1.0e-3)
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# These two test pre-written JPEG 2000 files that were not written with
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# PIL (they were made using Adobe Photoshop)
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def test_lossless(self):
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im = Image.open("Tests/images/test-card-lossless.jp2")
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im.load()
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outfile = self.tempfile("temp_test-card.png")
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im.save(outfile)
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self.assert_image_similar(im, test_card, 1.0e-3)
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def test_lossy_tiled(self):
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im = Image.open("Tests/images/test-card-lossy-tiled.jp2")
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im.load()
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self.assert_image_similar(im, test_card, 2.0)
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def test_lossless_rt(self):
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im = self.roundtrip(test_card)
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self.assert_image_equal(im, test_card)
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def test_lossy_rt(self):
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im = self.roundtrip(test_card, quality_layers=[20])
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self.assert_image_similar(im, test_card, 2.0)
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def test_tiled_rt(self):
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im = self.roundtrip(test_card, tile_size=(128, 128))
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self.assert_image_equal(im, test_card)
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def test_tiled_offset_rt(self):
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im = self.roundtrip(
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test_card, tile_size=(128, 128), tile_offset=(0, 0), offset=(32, 32)
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)
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self.assert_image_equal(im, test_card)
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def test_tiled_offset_too_small(self):
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with self.assertRaises(ValueError):
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self.roundtrip(
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test_card, tile_size=(128, 128), tile_offset=(0, 0), offset=(128, 32)
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)
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def test_irreversible_rt(self):
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im = self.roundtrip(test_card, irreversible=True, quality_layers=[20])
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self.assert_image_similar(im, test_card, 2.0)
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def test_prog_qual_rt(self):
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im = self.roundtrip(test_card, quality_layers=[60, 40, 20], progression="LRCP")
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self.assert_image_similar(im, test_card, 2.0)
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def test_prog_res_rt(self):
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im = self.roundtrip(test_card, num_resolutions=8, progression="RLCP")
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self.assert_image_equal(im, test_card)
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def test_reduce(self):
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im = Image.open("Tests/images/test-card-lossless.jp2")
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im.reduce = 2
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im.load()
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self.assertEqual(im.size, (160, 120))
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def test_layers_type(self):
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outfile = self.tempfile("temp_layers.jp2")
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for quality_layers in [[100, 50, 10], (100, 50, 10), None]:
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test_card.save(outfile, quality_layers=quality_layers)
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for quality_layers in ["quality_layers", ("100", "50", "10")]:
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self.assertRaises(
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ValueError, test_card.save, outfile, quality_layers=quality_layers
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)
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def test_layers(self):
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out = BytesIO()
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test_card.save(
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out, "JPEG2000", quality_layers=[100, 50, 10], progression="LRCP"
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)
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out.seek(0)
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im = Image.open(out)
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im.layers = 1
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im.load()
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self.assert_image_similar(im, test_card, 13)
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out.seek(0)
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im = Image.open(out)
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im.layers = 3
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im.load()
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self.assert_image_similar(im, test_card, 0.4)
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def test_rgba(self):
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# Arrange
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j2k = Image.open("Tests/images/rgb_trns_ycbc.j2k")
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jp2 = Image.open("Tests/images/rgb_trns_ycbc.jp2")
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# Act
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j2k.load()
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jp2.load()
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# Assert
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self.assertEqual(j2k.mode, "RGBA")
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self.assertEqual(jp2.mode, "RGBA")
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def test_16bit_monochrome_has_correct_mode(self):
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j2k = Image.open("Tests/images/16bit.cropped.j2k")
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jp2 = Image.open("Tests/images/16bit.cropped.jp2")
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j2k.load()
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jp2.load()
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self.assertEqual(j2k.mode, "I;16")
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self.assertEqual(jp2.mode, "I;16")
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def test_16bit_monochrome_jp2_like_tiff(self):
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tiff_16bit = Image.open("Tests/images/16bit.cropped.tif")
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jp2 = Image.open("Tests/images/16bit.cropped.jp2")
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self.assert_image_similar(jp2, tiff_16bit, 1e-3)
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def test_16bit_monochrome_j2k_like_tiff(self):
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tiff_16bit = Image.open("Tests/images/16bit.cropped.tif")
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j2k = Image.open("Tests/images/16bit.cropped.j2k")
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self.assert_image_similar(j2k, tiff_16bit, 1e-3)
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def test_16bit_j2k_roundtrips(self):
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j2k = Image.open("Tests/images/16bit.cropped.j2k")
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im = self.roundtrip(j2k)
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self.assert_image_equal(im, j2k)
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def test_16bit_jp2_roundtrips(self):
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jp2 = Image.open("Tests/images/16bit.cropped.jp2")
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im = self.roundtrip(jp2)
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self.assert_image_equal(im, jp2)
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def test_unbound_local(self):
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# prepatch, a malformed jp2 file could cause an UnboundLocalError
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# exception.
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with self.assertRaises(IOError):
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Image.open("Tests/images/unbound_variable.jp2")
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def test_parser_feed(self):
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# Arrange
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from PIL import ImageFile
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with open("Tests/images/test-card-lossless.jp2", "rb") as f:
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data = f.read()
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# Act
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p = ImageFile.Parser()
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p.feed(data)
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# Assert
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self.assertEqual(p.image.size, (640, 480))
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