mirror of
https://github.com/python-pillow/Pillow.git
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819 lines
29 KiB
Python
819 lines
29 KiB
Python
import os
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import re
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from io import BytesIO
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import pytest
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from PIL import (
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ExifTags,
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Image,
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ImageFile,
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ImageOps,
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JpegImagePlugin,
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UnidentifiedImageError,
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features,
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)
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from .helper import (
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assert_image,
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assert_image_equal,
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assert_image_similar,
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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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skip_unless_feature,
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)
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TEST_FILE = "Tests/images/hopper.jpg"
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@skip_unless_feature("jpg")
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class TestFileJpeg:
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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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assert re.search(r"\d+\.\d+$", features.version_codec("jpg"))
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with Image.open(TEST_FILE) as im:
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im.load()
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assert im.mode == "RGB"
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assert im.size == (128, 128)
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assert im.format == "JPEG"
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assert 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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assert im.applist[0] == ("APP0", b"JFIF\x00\x01\x01\x01\x00`\x00`\x00\x00")
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assert im.applist[1] == (
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"COM",
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b"File written by Adobe Photoshop\xa8 4.0\x00",
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)
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assert len(im.applist) == 2
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assert im.info["comment"] == b"File written by Adobe Photoshop\xa8 4.0\x00"
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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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with Image.open(f) as im:
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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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assert c == 0.0
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assert m > 0.8
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assert y > 0.8
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assert k == 0.0
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# the opposite corner is black
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c, m, y, k = [
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x / 255.0 for x in im.getpixel((im.size[0] - 1, im.size[1] - 1))
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]
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assert 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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assert c == 0.0
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assert m > 0.8
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assert y > 0.8
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assert k == 0.0
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c, m, y, k = [
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x / 255.0 for x in im.getpixel((im.size[0] - 1, im.size[1] - 1))
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]
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assert k > 0.9
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@pytest.mark.parametrize(
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"test_image_path",
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[TEST_FILE, "Tests/images/pil_sample_cmyk.jpg"],
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)
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def test_dpi(self, test_image_path):
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def test(xdpi, ydpi=None):
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with Image.open(test_image_path) as im:
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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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assert test(72) == (72, 72)
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assert test(300) == (300, 300)
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assert test(100, 200) == (100, 200)
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assert test(0) is None # square pixels
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def test_icc(self, tmp_path):
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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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assert len(icc_profile) == 3144
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# Roundtrip via physical file.
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f = str(tmp_path / "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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assert 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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assert_image_equal(im1, im2)
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assert not im1.info.get("icc_profile")
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assert 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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assert len(icc_profile) == n # sanity
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im1 = self.roundtrip(hopper(), icc_profile=icc_profile)
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assert 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, tmp_path):
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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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with Image.open("Tests/images/icc_profile_big.jpg") as im:
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f = str(tmp_path / "temp.jpg")
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icc_profile = im.info["icc_profile"]
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# Should not raise OSError 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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assert_image_equal(im1, im2)
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assert_image_equal(im1, im3)
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assert im1.bytes >= im2.bytes
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assert im1.bytes >= im3.bytes
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def test_optimize_large_buffer(self, tmp_path):
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# https://github.com/python-pillow/Pillow/issues/148
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f = str(tmp_path / "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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assert not im1.info.get("progressive")
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assert not im2.info.get("progressive")
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assert im3.info.get("progressive")
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assert_image_equal(im1, im3)
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assert im1.bytes >= im3.bytes
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def test_progressive_large_buffer(self, tmp_path):
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f = str(tmp_path / "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, tmp_path):
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f = str(tmp_path / "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, tmp_path):
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# https://github.com/python-pillow/Pillow/issues/148
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f = str(tmp_path / "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, tmp_path):
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expected_exif_gps = {
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0: b"\x00\x00\x00\x01",
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2: 4294967295,
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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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gps_index = 34853
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# Reading
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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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assert exif[gps_index] == expected_exif_gps
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# Writing
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f = str(tmp_path / "temp.jpg")
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exif = Image.Exif()
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exif[gps_index] = expected_exif_gps
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hopper().save(f, exif=exif)
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with Image.open(f) as reloaded:
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exif = reloaded._getexif()
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assert exif[gps_index] == expected_exif_gps
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def test_empty_exif_gps(self):
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with Image.open("Tests/images/empty_gps_ifd.jpg") as im:
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exif = im.getexif()
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del exif[0x8769]
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# Assert that it needs to be transposed
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assert exif[0x0112] == Image.TRANSVERSE
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# Assert that the GPS IFD is present and empty
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assert exif[0x8825] == {}
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transposed = ImageOps.exif_transpose(im)
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exif = transposed.getexif()
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assert exif[0x8825] == {}
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# Assert that it was transposed
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assert 0x0112 not in exif
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def test_exif_equality(self):
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# In 7.2.0, Exif rationals were changed to be read as
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# TiffImagePlugin.IFDRational. This class had a bug in __eq__,
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# breaking the self-equality of Exif data
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exifs = []
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for i in range(2):
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with Image.open("Tests/images/exif-200dpcm.jpg") as im:
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exifs.append(im._getexif())
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assert exifs[0] == exifs[1]
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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,
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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),
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42035: "LensMake",
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34856: b"\xaa\xaa\xaa\xaa\xaa\xaa",
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282: 4294967295,
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33434: 4294967295,
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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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assert 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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assert not im1.info.get("progressive")
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assert not 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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assert not im2.info.get("progressive")
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assert not im2.info.get("progression")
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assert not im3.info.get("progressive")
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assert not 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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assert_image_equal(im1, im2)
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assert_image_equal(im1, im3)
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assert im2.info.get("progressive")
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assert im2.info.get("progression")
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assert im3.info.get("progressive")
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assert 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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assert_image(im1, im2.mode, im2.size)
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assert im1.bytes >= im2.bytes
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im3 = self.roundtrip(hopper(), quality=0)
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assert_image(im1, im3.mode, im3.size)
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assert im2.bytes > im3.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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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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assert 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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assert 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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assert 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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assert getsampling(im) == (2, 2, 1, 1, 1, 1)
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im = self.roundtrip(hopper(), subsampling=3) # default (undefined)
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assert getsampling(im) == (2, 2, 1, 1, 1, 1)
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im = self.roundtrip(hopper(), subsampling="4:4:4")
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assert getsampling(im) == (1, 1, 1, 1, 1, 1)
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im = self.roundtrip(hopper(), subsampling="4:2:2")
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assert getsampling(im) == (2, 1, 1, 1, 1, 1)
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im = self.roundtrip(hopper(), subsampling="4:2:0")
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assert getsampling(im) == (2, 2, 1, 1, 1, 1)
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im = self.roundtrip(hopper(), subsampling="4:1:1")
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assert getsampling(im) == (2, 2, 1, 1, 1, 1)
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with pytest.raises(TypeError):
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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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assert 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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assert im._getmp() is None
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def test_quality_keep(self, tmp_path):
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# RGB
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with Image.open("Tests/images/hopper.jpg") as im:
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f = str(tmp_path / "temp.jpg")
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im.save(f, quality="keep")
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# Grayscale
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with Image.open("Tests/images/hopper_gray.jpg") as im:
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f = str(tmp_path / "temp.jpg")
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im.save(f, quality="keep")
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# CMYK
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with Image.open("Tests/images/pil_sample_cmyk.jpg") as im:
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f = str(tmp_path / "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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with Image.open(filename) as im:
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im.load()
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ImageFile.LOAD_TRUNCATED_IMAGES = False
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assert im.getbbox() is not None
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def test_truncated_jpeg_throws_oserror(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 pytest.raises(OSError):
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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 pytest.raises(OSError):
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im.load()
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def test_qtables(self, tmp_path):
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def _n_qtables_helper(n, test_file):
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with Image.open(test_file) as im:
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f = str(tmp_path / "temp.jpg")
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im.save(f, qtables=[[n] * 64] * n)
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with Image.open(f) as im:
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assert len(im.quantization) == n
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reloaded = self.roundtrip(im, qtables="keep")
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assert im.quantization == reloaded.quantization
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assert reloaded.quantization[0].typecode == "B"
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with Image.open("Tests/images/hopper.jpg") as im:
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qtables = im.quantization
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reloaded = self.roundtrip(im, qtables=qtables, subsampling=0)
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assert im.quantization == reloaded.quantization
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assert_image_similar(im, self.roundtrip(im, qtables="web_low"), 30)
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assert_image_similar(im, self.roundtrip(im, qtables="web_high"), 30)
|
|
assert_image_similar(im, self.roundtrip(im, qtables="keep"), 30)
|
|
|
|
# valid bounds for baseline qtable
|
|
bounds_qtable = [int(s) for s in ("255 1 " * 32).split(None)]
|
|
self.roundtrip(im, qtables=[bounds_qtable])
|
|
|
|
# values from wizard.txt in jpeg9-a src package.
|
|
standard_l_qtable = [
|
|
int(s)
|
|
for s in """
|
|
16 11 10 16 24 40 51 61
|
|
12 12 14 19 26 58 60 55
|
|
14 13 16 24 40 57 69 56
|
|
14 17 22 29 51 87 80 62
|
|
18 22 37 56 68 109 103 77
|
|
24 35 55 64 81 104 113 92
|
|
49 64 78 87 103 121 120 101
|
|
72 92 95 98 112 100 103 99
|
|
""".split(
|
|
None
|
|
)
|
|
]
|
|
|
|
standard_chrominance_qtable = [
|
|
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
|
|
assert_image_similar(
|
|
im,
|
|
self.roundtrip(
|
|
im, qtables=[standard_l_qtable, standard_chrominance_qtable]
|
|
),
|
|
30,
|
|
)
|
|
|
|
# tuple of qtable lists
|
|
assert_image_similar(
|
|
im,
|
|
self.roundtrip(
|
|
im, qtables=(standard_l_qtable, standard_chrominance_qtable)
|
|
),
|
|
30,
|
|
)
|
|
|
|
# dict of qtable lists
|
|
assert_image_similar(
|
|
im,
|
|
self.roundtrip(
|
|
im, qtables={0: standard_l_qtable, 1: standard_chrominance_qtable}
|
|
),
|
|
30,
|
|
)
|
|
|
|
_n_qtables_helper(1, "Tests/images/hopper_gray.jpg")
|
|
_n_qtables_helper(1, "Tests/images/pil_sample_rgb.jpg")
|
|
_n_qtables_helper(2, "Tests/images/pil_sample_rgb.jpg")
|
|
_n_qtables_helper(3, "Tests/images/pil_sample_rgb.jpg")
|
|
_n_qtables_helper(1, "Tests/images/pil_sample_cmyk.jpg")
|
|
_n_qtables_helper(2, "Tests/images/pil_sample_cmyk.jpg")
|
|
_n_qtables_helper(3, "Tests/images/pil_sample_cmyk.jpg")
|
|
_n_qtables_helper(4, "Tests/images/pil_sample_cmyk.jpg")
|
|
|
|
# not a sequence
|
|
with pytest.raises(ValueError):
|
|
self.roundtrip(im, qtables="a")
|
|
# sequence wrong length
|
|
with pytest.raises(ValueError):
|
|
self.roundtrip(im, qtables=[])
|
|
# sequence wrong length
|
|
with pytest.raises(ValueError):
|
|
self.roundtrip(im, qtables=[1, 2, 3, 4, 5])
|
|
|
|
# qtable entry not a sequence
|
|
with pytest.raises(ValueError):
|
|
self.roundtrip(im, qtables=[1])
|
|
# qtable entry has wrong number of items
|
|
with pytest.raises(ValueError):
|
|
self.roundtrip(im, qtables=[[1, 2, 3, 4]])
|
|
|
|
def test_load_16bit_qtables(self):
|
|
with Image.open("Tests/images/hopper_16bit_qtables.jpg") as im:
|
|
assert len(im.quantization) == 2
|
|
assert len(im.quantization[0]) == 64
|
|
assert max(im.quantization[0]) > 255
|
|
|
|
def test_save_multiple_16bit_qtables(self):
|
|
with Image.open("Tests/images/hopper_16bit_qtables.jpg") as im:
|
|
im2 = self.roundtrip(im, qtables="keep")
|
|
assert im.quantization == im2.quantization
|
|
|
|
def test_save_single_16bit_qtable(self):
|
|
with Image.open("Tests/images/hopper_16bit_qtables.jpg") as im:
|
|
im2 = self.roundtrip(im, qtables={0: im.quantization[0]})
|
|
assert len(im2.quantization) == 1
|
|
assert im2.quantization[0] == im.quantization[0]
|
|
|
|
def test_save_low_quality_baseline_qtables(self):
|
|
with Image.open(TEST_FILE) as im:
|
|
im2 = self.roundtrip(im, quality=10)
|
|
assert len(im2.quantization) == 2
|
|
assert max(im2.quantization[0]) <= 255
|
|
assert max(im2.quantization[1]) <= 255
|
|
|
|
@pytest.mark.skipif(not djpeg_available(), reason="djpeg not available")
|
|
def test_load_djpeg(self):
|
|
with Image.open(TEST_FILE) as img:
|
|
img.load_djpeg()
|
|
assert_image_similar(img, Image.open(TEST_FILE), 5)
|
|
|
|
@pytest.mark.skipif(not cjpeg_available(), reason="cjpeg not available")
|
|
def test_save_cjpeg(self, tmp_path):
|
|
with Image.open(TEST_FILE) as img:
|
|
tempfile = str(tmp_path / "temp.jpg")
|
|
JpegImagePlugin._save_cjpeg(img, 0, tempfile)
|
|
# Default save quality is 75%, so a tiny bit of difference is alright
|
|
assert_image_similar(img, Image.open(tempfile), 17)
|
|
|
|
def test_no_duplicate_0x1001_tag(self):
|
|
# Arrange
|
|
tag_ids = {v: k for k, v in ExifTags.TAGS.items()}
|
|
|
|
# Assert
|
|
assert tag_ids["RelatedImageWidth"] == 0x1001
|
|
assert tag_ids["RelatedImageLength"] == 0x1002
|
|
|
|
def test_MAXBLOCK_scaling(self, tmp_path):
|
|
im = self.gen_random_image((512, 512))
|
|
f = str(tmp_path / "temp.jpeg")
|
|
im.save(f, quality=100, optimize=True)
|
|
|
|
with Image.open(f) as reloaded:
|
|
# 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 pytest.warns(UserWarning, Image.open, fn) as im:
|
|
|
|
# Assert
|
|
assert 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))
|
|
with pytest.raises(OSError):
|
|
img.save(out, "JPEG")
|
|
|
|
def test_save_tiff_with_dpi(self, tmp_path):
|
|
# Arrange
|
|
outfile = str(tmp_path / "temp.tif")
|
|
with Image.open("Tests/images/hopper.tif") as im:
|
|
|
|
# Act
|
|
im.save(outfile, "JPEG", dpi=im.info["dpi"])
|
|
|
|
# Assert
|
|
with Image.open(outfile) as reloaded:
|
|
reloaded.load()
|
|
assert im.info["dpi"] == reloaded.info["dpi"]
|
|
|
|
def test_load_dpi_rounding(self):
|
|
# Round up
|
|
with Image.open("Tests/images/iptc_roundUp.jpg") as im:
|
|
assert im.info["dpi"] == (44, 44)
|
|
|
|
# Round down
|
|
with Image.open("Tests/images/iptc_roundDown.jpg") as im:
|
|
assert im.info["dpi"] == (2, 2)
|
|
|
|
def test_save_dpi_rounding(self, tmp_path):
|
|
outfile = str(tmp_path / "temp.jpg")
|
|
with Image.open("Tests/images/hopper.jpg") as im:
|
|
im.save(outfile, dpi=(72.2, 72.2))
|
|
|
|
with Image.open(outfile) as reloaded:
|
|
assert reloaded.info["dpi"] == (72, 72)
|
|
|
|
im.save(outfile, dpi=(72.8, 72.8))
|
|
|
|
with Image.open(outfile) as reloaded:
|
|
assert 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
|
|
assert 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
|
|
assert 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
|
|
assert 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
|
|
assert 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
|
|
assert 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.
|
|
assert im.info.get("dpi") == (72, 72)
|
|
|
|
def test_exif_x_resolution(self, tmp_path):
|
|
with Image.open("Tests/images/flower.jpg") as im:
|
|
exif = im.getexif()
|
|
assert exif[282] == 180
|
|
|
|
out = str(tmp_path / "out.jpg")
|
|
with pytest.warns(None) as record:
|
|
im.save(out, exif=exif)
|
|
assert len(record) == 0
|
|
|
|
with Image.open(out) as reloaded:
|
|
assert reloaded.getexif()[282] == 180
|
|
|
|
def test_invalid_exif_x_resolution(self):
|
|
# When no x or y resolution is defined in EXIF
|
|
with Image.open("Tests/images/invalid-exif-without-x-resolution.jpg") as im:
|
|
|
|
# This should return the default, and not a ValueError or
|
|
# OSError for an unidentified image.
|
|
assert 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
|
|
assert im._getexif()[306] == "2017:03:13 23:03:09"
|
|
|
|
def test_photoshop(self):
|
|
with Image.open("Tests/images/photoshop-200dpi.jpg") as im:
|
|
assert im.info["photoshop"][0x03ED] == {
|
|
"XResolution": 200.0,
|
|
"DisplayedUnitsX": 1,
|
|
"YResolution": 200.0,
|
|
"DisplayedUnitsY": 1,
|
|
}
|
|
|
|
# Test that the image can still load, even with broken Photoshop data
|
|
# This image had the APP13 length hexedited to be smaller
|
|
with Image.open("Tests/images/photoshop-200dpi-broken.jpg") as im_broken:
|
|
assert_image_equal(im_broken, im)
|
|
|
|
# This image does not contain a Photoshop header string
|
|
with Image.open("Tests/images/app13.jpg") as im:
|
|
assert "photoshop" not in im.info
|
|
|
|
def test_photoshop_malformed_and_multiple(self):
|
|
with Image.open("Tests/images/app13-multiple.jpg") as im:
|
|
assert "photoshop" in im.info
|
|
assert 24 == len(im.info["photoshop"])
|
|
apps_13_lengths = [len(v) for k, v in im.applist if k == "APP13"]
|
|
assert [65504, 24] == apps_13_lengths
|
|
|
|
def test_icc_after_SOF(self):
|
|
with Image.open("Tests/images/icc-after-SOF.jpg") as im:
|
|
assert im.info["icc_profile"] == b"profile"
|
|
|
|
def test_jpeg_magic_number(self):
|
|
size = 4097
|
|
buffer = BytesIO(b"\xFF" * size) # Many xFF bytes
|
|
buffer.max_pos = 0
|
|
orig_read = buffer.read
|
|
|
|
def read(n=-1):
|
|
res = orig_read(n)
|
|
buffer.max_pos = max(buffer.max_pos, buffer.tell())
|
|
return res
|
|
|
|
buffer.read = read
|
|
with pytest.raises(UnidentifiedImageError):
|
|
Image.open(buffer)
|
|
|
|
# Assert the entire file has not been read
|
|
assert 0 < buffer.max_pos < size
|
|
|
|
|
|
@pytest.mark.skipif(not is_win32(), reason="Windows only")
|
|
@skip_unless_feature("jpg")
|
|
class TestFileCloseW32:
|
|
def test_fd_leak(self, tmp_path):
|
|
tmpfile = str(tmp_path / "temp.jpg")
|
|
|
|
with Image.open("Tests/images/hopper.jpg") as im:
|
|
im.save(tmpfile)
|
|
|
|
im = Image.open(tmpfile)
|
|
fp = im.fp
|
|
assert not fp.closed
|
|
with pytest.raises(OSError):
|
|
os.remove(tmpfile)
|
|
im.load()
|
|
assert fp.closed
|
|
# this should not fail, as load should have closed the file.
|
|
os.remove(tmpfile)
|