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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.
684 lines
25 KiB
Python
684 lines
25 KiB
Python
import os
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from io import BytesIO
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from PIL import Image, ImageFile, JpegImagePlugin
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from .helper import (
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PillowTestCase,
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cjpeg_available,
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djpeg_available,
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hopper,
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is_win32,
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unittest,
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)
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codecs = dir(Image.core)
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TEST_FILE = "Tests/images/hopper.jpg"
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class TestFileJpeg(PillowTestCase):
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def setUp(self):
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if "jpeg_encoder" not in codecs or "jpeg_decoder" not in codecs:
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self.skipTest("jpeg 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, "JPEG", **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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return im
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def gen_random_image(self, size, mode="RGB"):
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""" Generates a very hard to compress file
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:param size: tuple
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:param mode: optional image mode
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"""
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return Image.frombytes(mode, size, os.urandom(size[0] * size[1] * len(mode)))
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def test_sanity(self):
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# internal version number
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self.assertRegex(Image.core.jpeglib_version, r"\d+\.\d+$")
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im = Image.open(TEST_FILE)
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im.load()
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self.assertEqual(im.mode, "RGB")
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self.assertEqual(im.size, (128, 128))
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self.assertEqual(im.format, "JPEG")
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self.assertEqual(im.get_format_mimetype(), "image/jpeg")
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def test_app(self):
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# Test APP/COM reader (@PIL135)
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with Image.open(TEST_FILE) as im:
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self.assertEqual(
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im.applist[0], ("APP0", b"JFIF\x00\x01\x01\x01\x00`\x00`\x00\x00")
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)
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self.assertEqual(
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im.applist[1], ("COM", b"File written by Adobe Photoshop\xa8 4.0\x00")
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)
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self.assertEqual(len(im.applist), 2)
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def test_cmyk(self):
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# Test CMYK handling. Thanks to Tim and Charlie for test data,
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# Michael for getting me to look one more time.
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f = "Tests/images/pil_sample_cmyk.jpg"
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im = Image.open(f)
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# the source image has red pixels in the upper left corner.
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c, m, y, k = [x / 255.0 for x in im.getpixel((0, 0))]
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self.assertEqual(c, 0.0)
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self.assertGreater(m, 0.8)
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self.assertGreater(y, 0.8)
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self.assertEqual(k, 0.0)
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# the opposite corner is black
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c, m, y, k = [x / 255.0 for x in im.getpixel((im.size[0] - 1, im.size[1] - 1))]
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self.assertGreater(k, 0.9)
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# roundtrip, and check again
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im = self.roundtrip(im)
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c, m, y, k = [x / 255.0 for x in im.getpixel((0, 0))]
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self.assertEqual(c, 0.0)
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self.assertGreater(m, 0.8)
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self.assertGreater(y, 0.8)
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self.assertEqual(k, 0.0)
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c, m, y, k = [x / 255.0 for x in im.getpixel((im.size[0] - 1, im.size[1] - 1))]
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self.assertGreater(k, 0.9)
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def test_dpi(self):
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def test(xdpi, ydpi=None):
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im = Image.open(TEST_FILE)
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im = self.roundtrip(im, dpi=(xdpi, ydpi or xdpi))
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return im.info.get("dpi")
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self.assertEqual(test(72), (72, 72))
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self.assertEqual(test(300), (300, 300))
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self.assertEqual(test(100, 200), (100, 200))
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self.assertIsNone(test(0)) # square pixels
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def test_icc(self):
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# Test ICC support
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with Image.open("Tests/images/rgb.jpg") as im1:
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icc_profile = im1.info["icc_profile"]
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self.assertEqual(len(icc_profile), 3144)
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# Roundtrip via physical file.
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f = self.tempfile("temp.jpg")
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im1.save(f, icc_profile=icc_profile)
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with Image.open(f) as im2:
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self.assertEqual(im2.info.get("icc_profile"), icc_profile)
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# Roundtrip via memory buffer.
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im1 = self.roundtrip(hopper())
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im2 = self.roundtrip(hopper(), icc_profile=icc_profile)
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self.assert_image_equal(im1, im2)
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self.assertFalse(im1.info.get("icc_profile"))
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self.assertTrue(im2.info.get("icc_profile"))
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def test_icc_big(self):
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# Make sure that the "extra" support handles large blocks
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def test(n):
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# The ICC APP marker can store 65519 bytes per marker, so
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# using a 4-byte test code should allow us to detect out of
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# order issues.
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icc_profile = (b"Test" * int(n / 4 + 1))[:n]
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self.assertEqual(len(icc_profile), n) # sanity
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im1 = self.roundtrip(hopper(), icc_profile=icc_profile)
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self.assertEqual(im1.info.get("icc_profile"), icc_profile or None)
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test(0)
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test(1)
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test(3)
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test(4)
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test(5)
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test(65533 - 14) # full JPEG marker block
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test(65533 - 14 + 1) # full block plus one byte
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test(ImageFile.MAXBLOCK) # full buffer block
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test(ImageFile.MAXBLOCK + 1) # full buffer block plus one byte
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test(ImageFile.MAXBLOCK * 4 + 3) # large block
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def test_large_icc_meta(self):
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# https://github.com/python-pillow/Pillow/issues/148
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# Sometimes the meta data on the icc_profile block is bigger than
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# Image.MAXBLOCK or the image size.
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im = Image.open("Tests/images/icc_profile_big.jpg")
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f = self.tempfile("temp.jpg")
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icc_profile = im.info["icc_profile"]
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# Should not raise IOError for image with icc larger than image size.
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im.save(
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f,
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format="JPEG",
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progressive=True,
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quality=95,
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icc_profile=icc_profile,
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optimize=True,
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)
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def test_optimize(self):
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im1 = self.roundtrip(hopper())
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im2 = self.roundtrip(hopper(), optimize=0)
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im3 = self.roundtrip(hopper(), optimize=1)
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self.assert_image_equal(im1, im2)
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self.assert_image_equal(im1, im3)
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self.assertGreaterEqual(im1.bytes, im2.bytes)
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self.assertGreaterEqual(im1.bytes, im3.bytes)
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def test_optimize_large_buffer(self):
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# https://github.com/python-pillow/Pillow/issues/148
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f = self.tempfile("temp.jpg")
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# this requires ~ 1.5x Image.MAXBLOCK
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im = Image.new("RGB", (4096, 4096), 0xFF3333)
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im.save(f, format="JPEG", optimize=True)
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def test_progressive(self):
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im1 = self.roundtrip(hopper())
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im2 = self.roundtrip(hopper(), progressive=False)
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im3 = self.roundtrip(hopper(), progressive=True)
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self.assertFalse(im1.info.get("progressive"))
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self.assertFalse(im2.info.get("progressive"))
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self.assertTrue(im3.info.get("progressive"))
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self.assert_image_equal(im1, im3)
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self.assertGreaterEqual(im1.bytes, im3.bytes)
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def test_progressive_large_buffer(self):
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f = self.tempfile("temp.jpg")
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# this requires ~ 1.5x Image.MAXBLOCK
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im = Image.new("RGB", (4096, 4096), 0xFF3333)
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im.save(f, format="JPEG", progressive=True)
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def test_progressive_large_buffer_highest_quality(self):
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f = self.tempfile("temp.jpg")
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im = self.gen_random_image((255, 255))
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# this requires more bytes than pixels in the image
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im.save(f, format="JPEG", progressive=True, quality=100)
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def test_progressive_cmyk_buffer(self):
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# Issue 2272, quality 90 cmyk image is tripping the large buffer bug.
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f = BytesIO()
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im = self.gen_random_image((256, 256), "CMYK")
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im.save(f, format="JPEG", progressive=True, quality=94)
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def test_large_exif(self):
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# https://github.com/python-pillow/Pillow/issues/148
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f = self.tempfile("temp.jpg")
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im = hopper()
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im.save(f, "JPEG", quality=90, exif=b"1" * 65532)
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def test_exif_typeerror(self):
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with Image.open("Tests/images/exif_typeerror.jpg") as im:
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# Should not raise a TypeError
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im._getexif()
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def test_exif_gps(self):
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# Arrange
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with Image.open("Tests/images/exif_gps.jpg") as im:
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gps_index = 34853
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expected_exif_gps = {
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0: b"\x00\x00\x00\x01",
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2: (4294967295, 1),
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5: b"\x01",
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30: 65535,
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29: "1999:99:99 99:99:99",
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}
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# Act
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exif = im._getexif()
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# Assert
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self.assertEqual(exif[gps_index], expected_exif_gps)
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def test_exif_rollback(self):
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# rolling back exif support in 3.1 to pre-3.0 formatting.
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# expected from 2.9, with b/u qualifiers switched for 3.2 compatibility
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# this test passes on 2.9 and 3.1, but not 3.0
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expected_exif = {
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34867: 4294967295,
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258: (24, 24, 24),
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36867: "2099:09:29 10:10:10",
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34853: {
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0: b"\x00\x00\x00\x01",
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2: (4294967295, 1),
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5: b"\x01",
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30: 65535,
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29: "1999:99:99 99:99:99",
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},
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296: 65535,
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34665: 185,
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41994: 65535,
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514: 4294967295,
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271: "Make",
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272: "XXX-XXX",
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305: "PIL",
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42034: ((1, 1), (1, 1), (1, 1), (1, 1)),
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42035: "LensMake",
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34856: b"\xaa\xaa\xaa\xaa\xaa\xaa",
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282: (4294967295, 1),
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33434: (4294967295, 1),
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}
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with Image.open("Tests/images/exif_gps.jpg") as im:
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exif = im._getexif()
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for tag, value in expected_exif.items():
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self.assertEqual(value, exif[tag])
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def test_exif_gps_typeerror(self):
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with Image.open("Tests/images/exif_gps_typeerror.jpg") as im:
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# Should not raise a TypeError
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im._getexif()
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def test_progressive_compat(self):
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im1 = self.roundtrip(hopper())
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self.assertFalse(im1.info.get("progressive"))
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self.assertFalse(im1.info.get("progression"))
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im2 = self.roundtrip(hopper(), progressive=0)
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im3 = self.roundtrip(hopper(), progression=0) # compatibility
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self.assertFalse(im2.info.get("progressive"))
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self.assertFalse(im2.info.get("progression"))
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self.assertFalse(im3.info.get("progressive"))
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self.assertFalse(im3.info.get("progression"))
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im2 = self.roundtrip(hopper(), progressive=1)
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im3 = self.roundtrip(hopper(), progression=1) # compatibility
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self.assert_image_equal(im1, im2)
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self.assert_image_equal(im1, im3)
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self.assertTrue(im2.info.get("progressive"))
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self.assertTrue(im2.info.get("progression"))
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self.assertTrue(im3.info.get("progressive"))
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self.assertTrue(im3.info.get("progression"))
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def test_quality(self):
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im1 = self.roundtrip(hopper())
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im2 = self.roundtrip(hopper(), quality=50)
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self.assert_image(im1, im2.mode, im2.size)
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self.assertGreaterEqual(im1.bytes, im2.bytes)
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def test_smooth(self):
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im1 = self.roundtrip(hopper())
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im2 = self.roundtrip(hopper(), smooth=100)
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self.assert_image(im1, im2.mode, im2.size)
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def test_subsampling(self):
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def getsampling(im):
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layer = im.layer
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return layer[0][1:3] + layer[1][1:3] + layer[2][1:3]
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# experimental API
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im = self.roundtrip(hopper(), subsampling=-1) # default
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self.assertEqual(getsampling(im), (2, 2, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling=0) # 4:4:4
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self.assertEqual(getsampling(im), (1, 1, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling=1) # 4:2:2
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self.assertEqual(getsampling(im), (2, 1, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling=2) # 4:2:0
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self.assertEqual(getsampling(im), (2, 2, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling=3) # default (undefined)
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self.assertEqual(getsampling(im), (2, 2, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling="4:4:4")
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self.assertEqual(getsampling(im), (1, 1, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling="4:2:2")
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self.assertEqual(getsampling(im), (2, 1, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling="4:2:0")
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self.assertEqual(getsampling(im), (2, 2, 1, 1, 1, 1))
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im = self.roundtrip(hopper(), subsampling="4:1:1")
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self.assertEqual(getsampling(im), (2, 2, 1, 1, 1, 1))
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self.assertRaises(TypeError, self.roundtrip, hopper(), subsampling="1:1:1")
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def test_exif(self):
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with Image.open("Tests/images/pil_sample_rgb.jpg") as im:
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info = im._getexif()
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self.assertEqual(info[305], "Adobe Photoshop CS Macintosh")
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def test_mp(self):
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with Image.open("Tests/images/pil_sample_rgb.jpg") as im:
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self.assertIsNone(im._getmp())
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def test_quality_keep(self):
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# RGB
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im = Image.open("Tests/images/hopper.jpg")
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f = self.tempfile("temp.jpg")
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im.save(f, quality="keep")
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# Grayscale
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im = Image.open("Tests/images/hopper_gray.jpg")
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f = self.tempfile("temp.jpg")
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im.save(f, quality="keep")
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# CMYK
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im = Image.open("Tests/images/pil_sample_cmyk.jpg")
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f = self.tempfile("temp.jpg")
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im.save(f, quality="keep")
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def test_junk_jpeg_header(self):
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# https://github.com/python-pillow/Pillow/issues/630
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filename = "Tests/images/junk_jpeg_header.jpg"
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with Image.open(filename):
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pass
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def test_ff00_jpeg_header(self):
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filename = "Tests/images/jpeg_ff00_header.jpg"
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with Image.open(filename):
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pass
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def test_truncated_jpeg_should_read_all_the_data(self):
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filename = "Tests/images/truncated_jpeg.jpg"
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ImageFile.LOAD_TRUNCATED_IMAGES = True
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im = Image.open(filename)
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im.load()
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ImageFile.LOAD_TRUNCATED_IMAGES = False
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self.assertIsNotNone(im.getbbox())
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def test_truncated_jpeg_throws_IOError(self):
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filename = "Tests/images/truncated_jpeg.jpg"
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with Image.open(filename) as im:
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with self.assertRaises(IOError):
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im.load()
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# Test that the error is raised if loaded a second time
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with self.assertRaises(IOError):
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im.load()
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def _n_qtables_helper(self, n, test_file):
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im = Image.open(test_file)
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f = self.tempfile("temp.jpg")
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im.save(f, qtables=[[n] * 64] * n)
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im = Image.open(f)
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self.assertEqual(len(im.quantization), n)
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reloaded = self.roundtrip(im, qtables="keep")
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self.assertEqual(im.quantization, reloaded.quantization)
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def test_qtables(self):
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im = Image.open("Tests/images/hopper.jpg")
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qtables = im.quantization
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reloaded = self.roundtrip(im, qtables=qtables, subsampling=0)
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self.assertEqual(im.quantization, reloaded.quantization)
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self.assert_image_similar(im, self.roundtrip(im, qtables="web_low"), 30)
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self.assert_image_similar(im, self.roundtrip(im, qtables="web_high"), 30)
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self.assert_image_similar(im, self.roundtrip(im, qtables="keep"), 30)
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# valid bounds for baseline qtable
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bounds_qtable = [int(s) for s in ("255 1 " * 32).split(None)]
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self.roundtrip(im, qtables=[bounds_qtable])
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# values from wizard.txt in jpeg9-a src package.
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standard_l_qtable = [
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int(s)
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for s in """
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16 11 10 16 24 40 51 61
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12 12 14 19 26 58 60 55
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14 13 16 24 40 57 69 56
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14 17 22 29 51 87 80 62
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18 22 37 56 68 109 103 77
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24 35 55 64 81 104 113 92
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49 64 78 87 103 121 120 101
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72 92 95 98 112 100 103 99
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""".split(
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None
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)
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]
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standard_chrominance_qtable = [
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int(s)
|
|
for s in """
|
|
17 18 24 47 99 99 99 99
|
|
18 21 26 66 99 99 99 99
|
|
24 26 56 99 99 99 99 99
|
|
47 66 99 99 99 99 99 99
|
|
99 99 99 99 99 99 99 99
|
|
99 99 99 99 99 99 99 99
|
|
99 99 99 99 99 99 99 99
|
|
99 99 99 99 99 99 99 99
|
|
""".split(
|
|
None
|
|
)
|
|
]
|
|
# list of qtable lists
|
|
self.assert_image_similar(
|
|
im,
|
|
self.roundtrip(
|
|
im, qtables=[standard_l_qtable, standard_chrominance_qtable]
|
|
),
|
|
30,
|
|
)
|
|
|
|
# tuple of qtable lists
|
|
self.assert_image_similar(
|
|
im,
|
|
self.roundtrip(
|
|
im, qtables=(standard_l_qtable, standard_chrominance_qtable)
|
|
),
|
|
30,
|
|
)
|
|
|
|
# dict of qtable lists
|
|
self.assert_image_similar(
|
|
im,
|
|
self.roundtrip(
|
|
im, qtables={0: standard_l_qtable, 1: standard_chrominance_qtable}
|
|
),
|
|
30,
|
|
)
|
|
|
|
self._n_qtables_helper(1, "Tests/images/hopper_gray.jpg")
|
|
self._n_qtables_helper(1, "Tests/images/pil_sample_rgb.jpg")
|
|
self._n_qtables_helper(2, "Tests/images/pil_sample_rgb.jpg")
|
|
self._n_qtables_helper(3, "Tests/images/pil_sample_rgb.jpg")
|
|
self._n_qtables_helper(1, "Tests/images/pil_sample_cmyk.jpg")
|
|
self._n_qtables_helper(2, "Tests/images/pil_sample_cmyk.jpg")
|
|
self._n_qtables_helper(3, "Tests/images/pil_sample_cmyk.jpg")
|
|
self._n_qtables_helper(4, "Tests/images/pil_sample_cmyk.jpg")
|
|
|
|
# not a sequence
|
|
self.assertRaises(ValueError, self.roundtrip, im, qtables="a")
|
|
# sequence wrong length
|
|
self.assertRaises(ValueError, self.roundtrip, im, qtables=[])
|
|
# sequence wrong length
|
|
self.assertRaises(ValueError, self.roundtrip, im, qtables=[1, 2, 3, 4, 5])
|
|
|
|
# qtable entry not a sequence
|
|
self.assertRaises(ValueError, self.roundtrip, im, qtables=[1])
|
|
# qtable entry has wrong number of items
|
|
self.assertRaises(ValueError, self.roundtrip, im, qtables=[[1, 2, 3, 4]])
|
|
|
|
@unittest.skipUnless(djpeg_available(), "djpeg not available")
|
|
def test_load_djpeg(self):
|
|
with Image.open(TEST_FILE) as img:
|
|
img.load_djpeg()
|
|
self.assert_image_similar(img, Image.open(TEST_FILE), 0)
|
|
|
|
@unittest.skipUnless(cjpeg_available(), "cjpeg not available")
|
|
def test_save_cjpeg(self):
|
|
img = Image.open(TEST_FILE)
|
|
|
|
tempfile = self.tempfile("temp.jpg")
|
|
JpegImagePlugin._save_cjpeg(img, 0, tempfile)
|
|
# Default save quality is 75%, so a tiny bit of difference is alright
|
|
self.assert_image_similar(img, Image.open(tempfile), 17)
|
|
|
|
def test_no_duplicate_0x1001_tag(self):
|
|
# Arrange
|
|
from PIL import ExifTags
|
|
|
|
tag_ids = {v: k for k, v in ExifTags.TAGS.items()}
|
|
|
|
# Assert
|
|
self.assertEqual(tag_ids["RelatedImageWidth"], 0x1001)
|
|
self.assertEqual(tag_ids["RelatedImageLength"], 0x1002)
|
|
|
|
def test_MAXBLOCK_scaling(self):
|
|
im = self.gen_random_image((512, 512))
|
|
f = self.tempfile("temp.jpeg")
|
|
im.save(f, quality=100, optimize=True)
|
|
|
|
reloaded = Image.open(f)
|
|
|
|
# none of these should crash
|
|
reloaded.save(f, quality="keep")
|
|
reloaded.save(f, quality="keep", progressive=True)
|
|
reloaded.save(f, quality="keep", optimize=True)
|
|
|
|
def test_bad_mpo_header(self):
|
|
""" Treat unknown MPO as JPEG """
|
|
# Arrange
|
|
|
|
# Act
|
|
# Shouldn't raise error
|
|
fn = "Tests/images/sugarshack_bad_mpo_header.jpg"
|
|
with self.assert_warning(UserWarning, Image.open, fn) as im:
|
|
|
|
# Assert
|
|
self.assertEqual(im.format, "JPEG")
|
|
|
|
def test_save_correct_modes(self):
|
|
out = BytesIO()
|
|
for mode in ["1", "L", "RGB", "RGBX", "CMYK", "YCbCr"]:
|
|
img = Image.new(mode, (20, 20))
|
|
img.save(out, "JPEG")
|
|
|
|
def test_save_wrong_modes(self):
|
|
# ref https://github.com/python-pillow/Pillow/issues/2005
|
|
out = BytesIO()
|
|
for mode in ["LA", "La", "RGBA", "RGBa", "P"]:
|
|
img = Image.new(mode, (20, 20))
|
|
self.assertRaises(IOError, img.save, out, "JPEG")
|
|
|
|
def test_save_tiff_with_dpi(self):
|
|
# Arrange
|
|
outfile = self.tempfile("temp.tif")
|
|
im = Image.open("Tests/images/hopper.tif")
|
|
|
|
# Act
|
|
im.save(outfile, "JPEG", dpi=im.info["dpi"])
|
|
|
|
# Assert
|
|
reloaded = Image.open(outfile)
|
|
reloaded.load()
|
|
self.assertEqual(im.info["dpi"], reloaded.info["dpi"])
|
|
|
|
def test_load_dpi_rounding(self):
|
|
# Round up
|
|
with Image.open("Tests/images/iptc_roundUp.jpg") as im:
|
|
self.assertEqual(im.info["dpi"], (44, 44))
|
|
|
|
# Round down
|
|
with Image.open("Tests/images/iptc_roundDown.jpg") as im:
|
|
self.assertEqual(im.info["dpi"], (2, 2))
|
|
|
|
def test_save_dpi_rounding(self):
|
|
outfile = self.tempfile("temp.jpg")
|
|
im = Image.open("Tests/images/hopper.jpg")
|
|
|
|
im.save(outfile, dpi=(72.2, 72.2))
|
|
with Image.open(outfile) as reloaded:
|
|
self.assertEqual(reloaded.info["dpi"], (72, 72))
|
|
|
|
im.save(outfile, dpi=(72.8, 72.8))
|
|
with Image.open(outfile) as reloaded:
|
|
self.assertEqual(reloaded.info["dpi"], (73, 73))
|
|
|
|
def test_dpi_tuple_from_exif(self):
|
|
# Arrange
|
|
# This Photoshop CC 2017 image has DPI in EXIF not metadata
|
|
# EXIF XResolution is (2000000, 10000)
|
|
with Image.open("Tests/images/photoshop-200dpi.jpg") as im:
|
|
|
|
# Act / Assert
|
|
self.assertEqual(im.info.get("dpi"), (200, 200))
|
|
|
|
def test_dpi_int_from_exif(self):
|
|
# Arrange
|
|
# This image has DPI in EXIF not metadata
|
|
# EXIF XResolution is 72
|
|
with Image.open("Tests/images/exif-72dpi-int.jpg") as im:
|
|
|
|
# Act / Assert
|
|
self.assertEqual(im.info.get("dpi"), (72, 72))
|
|
|
|
def test_dpi_from_dpcm_exif(self):
|
|
# Arrange
|
|
# This is photoshop-200dpi.jpg with EXIF resolution unit set to cm:
|
|
# exiftool -exif:ResolutionUnit=cm photoshop-200dpi.jpg
|
|
with Image.open("Tests/images/exif-200dpcm.jpg") as im:
|
|
|
|
# Act / Assert
|
|
self.assertEqual(im.info.get("dpi"), (508, 508))
|
|
|
|
def test_dpi_exif_zero_division(self):
|
|
# Arrange
|
|
# This is photoshop-200dpi.jpg with EXIF resolution set to 0/0:
|
|
# exiftool -XResolution=0/0 -YResolution=0/0 photoshop-200dpi.jpg
|
|
with Image.open("Tests/images/exif-dpi-zerodivision.jpg") as im:
|
|
|
|
# Act / Assert
|
|
# This should return the default, and not raise a ZeroDivisionError
|
|
self.assertEqual(im.info.get("dpi"), (72, 72))
|
|
|
|
def test_no_dpi_in_exif(self):
|
|
# Arrange
|
|
# This is photoshop-200dpi.jpg with resolution removed from EXIF:
|
|
# exiftool "-*resolution*"= photoshop-200dpi.jpg
|
|
with Image.open("Tests/images/no-dpi-in-exif.jpg") as im:
|
|
|
|
# Act / Assert
|
|
# "When the image resolution is unknown, 72 [dpi] is designated."
|
|
# http://www.exiv2.org/tags.html
|
|
self.assertEqual(im.info.get("dpi"), (72, 72))
|
|
|
|
def test_invalid_exif(self):
|
|
# This is no-dpi-in-exif with the tiff header of the exif block
|
|
# hexedited from MM * to FF FF FF FF
|
|
with Image.open("Tests/images/invalid-exif.jpg") as im:
|
|
|
|
# This should return the default, and not a SyntaxError or
|
|
# OSError for unidentified image.
|
|
self.assertEqual(im.info.get("dpi"), (72, 72))
|
|
|
|
def test_ifd_offset_exif(self):
|
|
# Arrange
|
|
# This image has been manually hexedited to have an IFD offset of 10,
|
|
# in contrast to normal 8
|
|
with Image.open("Tests/images/exif-ifd-offset.jpg") as im:
|
|
|
|
# Act / Assert
|
|
self.assertEqual(im._getexif()[306], "2017:03:13 23:03:09")
|
|
|
|
def test_photoshop(self):
|
|
with Image.open("Tests/images/photoshop-200dpi.jpg") as im:
|
|
self.assertEqual(
|
|
im.info["photoshop"][0x03ED],
|
|
{
|
|
"XResolution": 200.0,
|
|
"DisplayedUnitsX": 1,
|
|
"YResolution": 200.0,
|
|
"DisplayedUnitsY": 1,
|
|
},
|
|
)
|
|
|
|
# This image does not contain a Photoshop header string
|
|
with Image.open("Tests/images/app13.jpg") as im:
|
|
self.assertNotIn("photoshop", im.info)
|
|
|
|
|
|
@unittest.skipUnless(is_win32(), "Windows only")
|
|
class TestFileCloseW32(PillowTestCase):
|
|
def setUp(self):
|
|
if "jpeg_encoder" not in codecs or "jpeg_decoder" not in codecs:
|
|
self.skipTest("jpeg support not available")
|
|
|
|
def test_fd_leak(self):
|
|
tmpfile = self.tempfile("temp.jpg")
|
|
|
|
with Image.open("Tests/images/hopper.jpg") as im:
|
|
im.save(tmpfile)
|
|
|
|
im = Image.open(tmpfile)
|
|
fp = im.fp
|
|
self.assertFalse(fp.closed)
|
|
self.assertRaises(WindowsError, os.remove, tmpfile)
|
|
im.load()
|
|
self.assertTrue(fp.closed)
|
|
# this should not fail, as load should have closed the file.
|
|
os.remove(tmpfile)
|