from __future__ import annotations import pytest from PIL import Image, ImageMath, ImageMode from .helper import convert_to_comparable, skip_unless_feature codecs = dir(Image.core) # There are several internal implementations remarkable_factors = [ # special implementations 1, 2, 3, 4, 5, 6, # 1xN implementation (1, 2), (1, 3), (1, 4), (1, 7), # Nx1 implementation (2, 1), (3, 1), (4, 1), (7, 1), # general implementation with different paths (4, 6), (5, 6), (4, 7), (5, 7), (19, 17), ] gradients_image = Image.open("Tests/images/radial_gradients.png") gradients_image.load() @pytest.mark.parametrize( "size, expected", ( (3, (4, 4)), ((3, 1), (4, 10)), ((1, 3), (10, 4)), ), ) def test_args_factor(size: int | tuple[int, int], expected: tuple[int, int]) -> None: im = Image.new("L", (10, 10)) assert expected == im.reduce(size).size @pytest.mark.parametrize( "size, expected_error", ((0, ValueError), (2.0, TypeError), ((0, 10), ValueError)) ) def test_args_factor_error(size: float | tuple[int, int], expected_error) -> None: im = Image.new("L", (10, 10)) with pytest.raises(expected_error): im.reduce(size) @pytest.mark.parametrize( "size, expected", ( ((0, 0, 10, 10), (5, 5)), ((5, 5, 6, 6), (1, 1)), ), ) def test_args_box(size: tuple[int, int, int, int], expected: tuple[int, int]) -> None: im = Image.new("L", (10, 10)) assert expected == im.reduce(2, size).size @pytest.mark.parametrize( "size, expected_error", ( ("stri", TypeError), ((0, 0, 11, 10), ValueError), ((0, 0, 10, 11), ValueError), ((-1, 0, 10, 10), ValueError), ((0, -1, 10, 10), ValueError), ((0, 5, 10, 5), ValueError), ((5, 0, 5, 10), ValueError), ), ) def test_args_box_error(size: str | tuple[int, int, int, int], expected_error) -> None: im = Image.new("L", (10, 10)) with pytest.raises(expected_error): im.reduce(2, size).size @pytest.mark.parametrize("mode", ("P", "1", "I;16")) def test_unsupported_modes(mode: str) -> None: im = Image.new("P", (10, 10)) with pytest.raises(ValueError): im.reduce(3) def get_image(mode: str) -> Image.Image: mode_info = ImageMode.getmode(mode) if mode_info.basetype == "L": bands = [gradients_image] for _ in mode_info.bands[1:]: # rotate previous image band = bands[-1].transpose(Image.Transpose.ROTATE_90) bands.append(band) # Correct alpha channel by transforming completely transparent pixels. # Low alpha values also emphasize error after alpha multiplication. if mode.endswith("A"): bands[-1] = bands[-1].point(lambda x: int(85 + x / 1.5)) im = Image.merge(mode, bands) else: assert len(mode_info.bands) == 1 im = gradients_image.convert(mode) # change the height to make a not-square image return im.crop((0, 0, im.width, im.height - 5)) def compare_reduce_with_box(im: Image.Image, factor: int | tuple[int, int]) -> None: box = (11, 13, 146, 164) reduced = im.reduce(factor, box=box) reference = im.crop(box).reduce(factor) assert reduced == reference def compare_reduce_with_reference( im: Image.Image, factor: int | tuple[int, int], average_diff: float = 0.4, max_diff: int = 1, ) -> None: """Image.reduce() should look very similar to Image.resize(BOX). A reference image is compiled from a large source area and possible last column and last row. +-----------+ |..........c| |..........c| |..........c| |rrrrrrrrrrp| +-----------+ """ reduced = im.reduce(factor) if not isinstance(factor, (list, tuple)): factor = (factor, factor) reference = Image.new(im.mode, reduced.size) area_size = (im.size[0] // factor[0], im.size[1] // factor[1]) area_box = (0, 0, area_size[0] * factor[0], area_size[1] * factor[1]) area = im.resize(area_size, Image.Resampling.BOX, area_box) reference.paste(area, (0, 0)) if area_size[0] < reduced.size[0]: assert reduced.size[0] - area_size[0] == 1 last_column_box = (area_box[2], 0, im.size[0], area_box[3]) last_column = im.resize( (1, area_size[1]), Image.Resampling.BOX, last_column_box ) reference.paste(last_column, (area_size[0], 0)) if area_size[1] < reduced.size[1]: assert reduced.size[1] - area_size[1] == 1 last_row_box = (0, area_box[3], area_box[2], im.size[1]) last_row = im.resize((area_size[0], 1), Image.Resampling.BOX, last_row_box) reference.paste(last_row, (0, area_size[1])) if area_size[0] < reduced.size[0] and area_size[1] < reduced.size[1]: last_pixel_box = (area_box[2], area_box[3], im.size[0], im.size[1]) last_pixel = im.resize((1, 1), Image.Resampling.BOX, last_pixel_box) reference.paste(last_pixel, area_size) assert_compare_images(reduced, reference, average_diff, max_diff) def assert_compare_images( a: Image.Image, b: Image.Image, max_average_diff: float, max_diff: int = 255 ) -> None: assert a.mode == b.mode, f"got mode {repr(a.mode)}, expected {repr(b.mode)}" assert a.size == b.size, f"got size {repr(a.size)}, expected {repr(b.size)}" a, b = convert_to_comparable(a, b) bands = ImageMode.getmode(a.mode).bands for band, ach, bch in zip(bands, a.split(), b.split()): ch_diff = ImageMath.eval("convert(abs(a - b), 'L')", a=ach, b=bch) ch_hist = ch_diff.histogram() average_diff = sum(i * num for i, num in enumerate(ch_hist)) / ( a.size[0] * a.size[1] ) msg = ( f"average pixel value difference {average_diff:.4f} > " f"expected {max_average_diff:.4f} for '{band}' band" ) assert max_average_diff >= average_diff, msg last_diff = [i for i, num in enumerate(ch_hist) if num > 0][-1] assert max_diff >= last_diff, ( f"max pixel value difference {last_diff} > expected {max_diff} " f"for '{band}' band" ) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_L(factor: int | tuple[int, int]) -> None: im = get_image("L") compare_reduce_with_reference(im, factor) compare_reduce_with_box(im, factor) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_LA(factor: int | tuple[int, int]) -> None: im = get_image("LA") compare_reduce_with_reference(im, factor, 0.8, 5) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_LA_opaque(factor: int | tuple[int, int]) -> None: im = get_image("LA") # With opaque alpha, an error should be way smaller. im.putalpha(Image.new("L", im.size, 255)) compare_reduce_with_reference(im, factor) compare_reduce_with_box(im, factor) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_La(factor: int | tuple[int, int]) -> None: im = get_image("La") compare_reduce_with_reference(im, factor) compare_reduce_with_box(im, factor) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_RGB(factor: int | tuple[int, int]) -> None: im = get_image("RGB") compare_reduce_with_reference(im, factor) compare_reduce_with_box(im, factor) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_RGBA(factor: int | tuple[int, int]) -> None: im = get_image("RGBA") compare_reduce_with_reference(im, factor, 0.8, 5) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_RGBA_opaque(factor: int | tuple[int, int]) -> None: im = get_image("RGBA") # With opaque alpha, an error should be way smaller. im.putalpha(Image.new("L", im.size, 255)) compare_reduce_with_reference(im, factor) compare_reduce_with_box(im, factor) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_RGBa(factor: int | tuple[int, int]) -> None: im = get_image("RGBa") compare_reduce_with_reference(im, factor) compare_reduce_with_box(im, factor) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_I(factor: int | tuple[int, int]) -> None: im = get_image("I") compare_reduce_with_reference(im, factor) compare_reduce_with_box(im, factor) @pytest.mark.parametrize("factor", remarkable_factors) def test_mode_F(factor: int | tuple[int, int]) -> None: im = get_image("F") compare_reduce_with_reference(im, factor, 0, 0) compare_reduce_with_box(im, factor) @skip_unless_feature("jpg_2000") def test_jpeg2k() -> None: with Image.open("Tests/images/test-card-lossless.jp2") as im: assert im.reduce(2).size == (320, 240)