mirror of
https://github.com/python-pillow/Pillow.git
synced 2024-12-28 02:46:18 +03:00
415 lines
12 KiB
Python
415 lines
12 KiB
Python
import ctypes
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import os
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import subprocess
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import sys
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import sysconfig
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import pytest
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from setuptools.command.build_ext import new_compiler
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from PIL import Image
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from .helper import assert_image_equal, hopper, is_win32, on_ci
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# CFFI imports pycparser which doesn't support PYTHONOPTIMIZE=2
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# https://github.com/eliben/pycparser/pull/198#issuecomment-317001670
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if os.environ.get("PYTHONOPTIMIZE") == "2":
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cffi = None
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else:
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try:
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import cffi
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from PIL import PyAccess
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except ImportError:
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cffi = None
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class AccessTest:
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# initial value
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_init_cffi_access = Image.USE_CFFI_ACCESS
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_need_cffi_access = False
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@classmethod
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def setup_class(cls):
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Image.USE_CFFI_ACCESS = cls._need_cffi_access
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@classmethod
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def teardown_class(cls):
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Image.USE_CFFI_ACCESS = cls._init_cffi_access
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class TestImagePutPixel(AccessTest):
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def test_sanity(self):
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im1 = hopper()
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im2 = Image.new(im1.mode, im1.size, 0)
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for y in range(im1.size[1]):
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for x in range(im1.size[0]):
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pos = x, y
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im2.putpixel(pos, im1.getpixel(pos))
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assert_image_equal(im1, im2)
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im2 = Image.new(im1.mode, im1.size, 0)
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im2.readonly = 1
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for y in range(im1.size[1]):
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for x in range(im1.size[0]):
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pos = x, y
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im2.putpixel(pos, im1.getpixel(pos))
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assert not im2.readonly
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assert_image_equal(im1, im2)
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im2 = Image.new(im1.mode, im1.size, 0)
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pix1 = im1.load()
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pix2 = im2.load()
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for y in range(im1.size[1]):
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for x in range(im1.size[0]):
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pix2[x, y] = pix1[x, y]
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assert_image_equal(im1, im2)
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def test_sanity_negative_index(self):
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im1 = hopper()
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im2 = Image.new(im1.mode, im1.size, 0)
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width, height = im1.size
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assert im1.getpixel((0, 0)) == im1.getpixel((-width, -height))
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assert im1.getpixel((-1, -1)) == im1.getpixel((width - 1, height - 1))
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for y in range(-1, -im1.size[1] - 1, -1):
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for x in range(-1, -im1.size[0] - 1, -1):
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pos = x, y
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im2.putpixel(pos, im1.getpixel(pos))
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assert_image_equal(im1, im2)
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im2 = Image.new(im1.mode, im1.size, 0)
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im2.readonly = 1
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for y in range(-1, -im1.size[1] - 1, -1):
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for x in range(-1, -im1.size[0] - 1, -1):
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pos = x, y
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im2.putpixel(pos, im1.getpixel(pos))
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assert not im2.readonly
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assert_image_equal(im1, im2)
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im2 = Image.new(im1.mode, im1.size, 0)
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pix1 = im1.load()
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pix2 = im2.load()
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for y in range(-1, -im1.size[1] - 1, -1):
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for x in range(-1, -im1.size[0] - 1, -1):
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pix2[x, y] = pix1[x, y]
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assert_image_equal(im1, im2)
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class TestImageGetPixel(AccessTest):
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@staticmethod
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def color(mode):
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bands = Image.getmodebands(mode)
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if bands == 1:
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return 1
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else:
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return tuple(range(1, bands + 1))
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def check(self, mode, c=None):
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if not c:
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c = self.color(mode)
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# check putpixel
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im = Image.new(mode, (1, 1), None)
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im.putpixel((0, 0), c)
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assert (
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im.getpixel((0, 0)) == c
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), f"put/getpixel roundtrip failed for mode {mode}, color {c}"
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# check putpixel negative index
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im.putpixel((-1, -1), c)
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assert (
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im.getpixel((-1, -1)) == c
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), f"put/getpixel roundtrip negative index failed for mode {mode}, color {c}"
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# Check 0
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im = Image.new(mode, (0, 0), None)
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with pytest.raises(IndexError):
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im.putpixel((0, 0), c)
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with pytest.raises(IndexError):
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im.getpixel((0, 0))
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# Check 0 negative index
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with pytest.raises(IndexError):
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im.putpixel((-1, -1), c)
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with pytest.raises(IndexError):
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im.getpixel((-1, -1))
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# check initial color
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im = Image.new(mode, (1, 1), c)
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assert (
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im.getpixel((0, 0)) == c
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), f"initial color failed for mode {mode}, color {c} "
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# check initial color negative index
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assert (
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im.getpixel((-1, -1)) == c
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), f"initial color failed with negative index for mode {mode}, color {c} "
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# Check 0
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im = Image.new(mode, (0, 0), c)
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with pytest.raises(IndexError):
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im.getpixel((0, 0))
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# Check 0 negative index
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with pytest.raises(IndexError):
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im.getpixel((-1, -1))
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def test_basic(self):
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for mode in (
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"1",
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"L",
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"LA",
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"I",
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"I;16",
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"I;16B",
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"F",
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"P",
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"PA",
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"RGB",
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"RGBA",
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"RGBX",
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"CMYK",
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"YCbCr",
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):
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self.check(mode)
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def test_signedness(self):
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# see https://github.com/python-pillow/Pillow/issues/452
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# pixelaccess is using signed int* instead of uint*
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for mode in ("I;16", "I;16B"):
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self.check(mode, 2 ** 15 - 1)
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self.check(mode, 2 ** 15)
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self.check(mode, 2 ** 15 + 1)
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self.check(mode, 2 ** 16 - 1)
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def test_p_putpixel_rgb_rgba(self):
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for color in [(255, 0, 0), (255, 0, 0, 255)]:
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im = Image.new("P", (1, 1), 0)
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im.putpixel((0, 0), color)
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assert im.convert("RGB").getpixel((0, 0)) == (255, 0, 0)
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@pytest.mark.skipif(cffi is None, reason="No CFFI")
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class TestCffiPutPixel(TestImagePutPixel):
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_need_cffi_access = True
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@pytest.mark.skipif(cffi is None, reason="No CFFI")
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class TestCffiGetPixel(TestImageGetPixel):
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_need_cffi_access = True
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@pytest.mark.skipif(cffi is None, reason="No CFFI")
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class TestCffi(AccessTest):
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_need_cffi_access = True
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def _test_get_access(self, im):
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"""Do we get the same thing as the old pixel access
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Using private interfaces, forcing a capi access and
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a pyaccess for the same image"""
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caccess = im.im.pixel_access(False)
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access = PyAccess.new(im, False)
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w, h = im.size
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for x in range(0, w, 10):
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for y in range(0, h, 10):
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assert access[(x, y)] == caccess[(x, y)]
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# Access an out-of-range pixel
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with pytest.raises(ValueError):
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access[(access.xsize + 1, access.ysize + 1)]
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def test_get_vs_c(self):
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rgb = hopper("RGB")
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rgb.load()
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self._test_get_access(rgb)
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self._test_get_access(hopper("RGBA"))
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self._test_get_access(hopper("L"))
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self._test_get_access(hopper("LA"))
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self._test_get_access(hopper("1"))
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self._test_get_access(hopper("P"))
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# self._test_get_access(hopper('PA')) # PA -- how do I make a PA image?
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self._test_get_access(hopper("F"))
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im = Image.new("I;16", (10, 10), 40000)
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self._test_get_access(im)
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im = Image.new("I;16L", (10, 10), 40000)
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self._test_get_access(im)
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im = Image.new("I;16B", (10, 10), 40000)
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self._test_get_access(im)
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im = Image.new("I", (10, 10), 40000)
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self._test_get_access(im)
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# These don't actually appear to be modes that I can actually make,
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# as unpack sets them directly into the I mode.
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# im = Image.new('I;32L', (10, 10), -2**10)
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# self._test_get_access(im)
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# im = Image.new('I;32B', (10, 10), 2**10)
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# self._test_get_access(im)
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def _test_set_access(self, im, color):
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"""Are we writing the correct bits into the image?
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Using private interfaces, forcing a capi access and
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a pyaccess for the same image"""
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caccess = im.im.pixel_access(False)
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access = PyAccess.new(im, False)
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w, h = im.size
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for x in range(0, w, 10):
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for y in range(0, h, 10):
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access[(x, y)] = color
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assert color == caccess[(x, y)]
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# Attempt to set the value on a read-only image
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access = PyAccess.new(im, True)
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with pytest.raises(ValueError):
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access[(0, 0)] = color
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def test_set_vs_c(self):
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rgb = hopper("RGB")
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rgb.load()
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self._test_set_access(rgb, (255, 128, 0))
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self._test_set_access(hopper("RGBA"), (255, 192, 128, 0))
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self._test_set_access(hopper("L"), 128)
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self._test_set_access(hopper("LA"), (128, 128))
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self._test_set_access(hopper("1"), 255)
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self._test_set_access(hopper("P"), 128)
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# self._test_set_access(i, (128, 128)) #PA -- undone how to make
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self._test_set_access(hopper("F"), 1024.0)
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im = Image.new("I;16", (10, 10), 40000)
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self._test_set_access(im, 45000)
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im = Image.new("I;16L", (10, 10), 40000)
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self._test_set_access(im, 45000)
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im = Image.new("I;16B", (10, 10), 40000)
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self._test_set_access(im, 45000)
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im = Image.new("I", (10, 10), 40000)
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self._test_set_access(im, 45000)
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# im = Image.new('I;32L', (10, 10), -(2**10))
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# self._test_set_access(im, -(2**13)+1)
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# im = Image.new('I;32B', (10, 10), 2**10)
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# self._test_set_access(im, 2**13-1)
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def test_not_implemented(self):
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assert PyAccess.new(hopper("BGR;15")) is None
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# ref https://github.com/python-pillow/Pillow/pull/2009
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def test_reference_counting(self):
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size = 10
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for _ in range(10):
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# Do not save references to the image, only to the access object
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px = Image.new("L", (size, 1), 0).load()
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for i in range(size):
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# pixels can contain garbage if image is released
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assert px[i, 0] == 0
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def test_p_putpixel_rgb_rgba(self):
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for color in [(255, 0, 0), (255, 0, 0, 255)]:
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im = Image.new("P", (1, 1), 0)
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access = PyAccess.new(im, False)
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access.putpixel((0, 0), color)
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assert im.convert("RGB").getpixel((0, 0)) == (255, 0, 0)
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class TestImagePutPixelError(AccessTest):
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IMAGE_MODES1 = ["L", "LA", "RGB", "RGBA"]
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IMAGE_MODES2 = ["I", "I;16", "BGR;15"]
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INVALID_TYPES1 = ["foo", 1.0, None]
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INVALID_TYPES2 = [*INVALID_TYPES1, (10,)]
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@pytest.mark.parametrize("mode", IMAGE_MODES1)
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def test_putpixel_type_error1(self, mode):
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im = hopper(mode)
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for v in self.INVALID_TYPES1:
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with pytest.raises(TypeError, match="color must be int or tuple"):
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im.putpixel((0, 0), v)
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@pytest.mark.parametrize("mode", IMAGE_MODES2)
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def test_putpixel_type_error2(self, mode):
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im = hopper(mode)
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for v in self.INVALID_TYPES2:
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with pytest.raises(TypeError, match="color must be int"):
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im.putpixel((0, 0), v)
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@pytest.mark.parametrize("mode", IMAGE_MODES1 + IMAGE_MODES2)
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def test_putpixel_overflow_error(self, mode):
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im = hopper(mode)
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with pytest.raises(OverflowError):
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im.putpixel((0, 0), 2 ** 80)
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def test_putpixel_unrecognized_mode(self):
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im = hopper("BGR;15")
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with pytest.raises(ValueError, match="unrecognized image mode"):
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im.putpixel((0, 0), 0)
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class TestEmbeddable:
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@pytest.mark.skipif(
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not is_win32() or on_ci(),
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reason="Failing on AppVeyor / GitHub Actions when run from subprocess, "
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"not from shell",
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)
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def test_embeddable(self):
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with open("embed_pil.c", "w") as fh:
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fh.write(
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"""
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#include "Python.h"
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int main(int argc, char* argv[])
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{
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char *home = "%s";
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wchar_t *whome = Py_DecodeLocale(home, NULL);
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Py_SetPythonHome(whome);
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Py_InitializeEx(0);
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Py_DECREF(PyImport_ImportModule("PIL.Image"));
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Py_Finalize();
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Py_InitializeEx(0);
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Py_DECREF(PyImport_ImportModule("PIL.Image"));
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Py_Finalize();
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PyMem_RawFree(whome);
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return 0;
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}
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"""
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% sys.prefix.replace("\\", "\\\\")
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)
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compiler = new_compiler()
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compiler.add_include_dir(sysconfig.get_config_var("INCLUDEPY"))
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libdir = sysconfig.get_config_var("LIBDIR") or sysconfig.get_config_var(
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"INCLUDEPY"
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).replace("include", "libs")
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compiler.add_library_dir(libdir)
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objects = compiler.compile(["embed_pil.c"])
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compiler.link_executable(objects, "embed_pil")
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env = os.environ.copy()
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env["PATH"] = sys.prefix + ";" + env["PATH"]
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# do not display the Windows Error Reporting dialog
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ctypes.windll.kernel32.SetErrorMode(0x0002)
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process = subprocess.Popen(["embed_pil.exe"], env=env)
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process.communicate()
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assert process.returncode == 0
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