"""Test DdsImagePlugin""" from __future__ import annotations from io import BytesIO import pytest from PIL import DdsImagePlugin, Image from .helper import assert_image_equal, assert_image_equal_tofile, hopper TEST_FILE_DXT1 = "Tests/images/dxt1-rgb-4bbp-noalpha_MipMaps-1.dds" TEST_FILE_DXT3 = "Tests/images/dxt3-argb-8bbp-explicitalpha_MipMaps-1.dds" TEST_FILE_DXT5 = "Tests/images/dxt5-argb-8bbp-interpolatedalpha_MipMaps-1.dds" TEST_FILE_ATI1 = "Tests/images/ati1.dds" TEST_FILE_ATI2 = "Tests/images/ati2.dds" TEST_FILE_DX10_BC4_TYPELESS = "Tests/images/bc4_typeless.dds" TEST_FILE_DX10_BC4_UNORM = "Tests/images/bc4_unorm.dds" TEST_FILE_DX10_BC5_TYPELESS = "Tests/images/bc5_typeless.dds" TEST_FILE_DX10_BC5_UNORM = "Tests/images/bc5_unorm.dds" TEST_FILE_DX10_BC5_SNORM = "Tests/images/bc5_snorm.dds" TEST_FILE_DX10_BC1 = "Tests/images/bc1.dds" TEST_FILE_DX10_BC1_TYPELESS = "Tests/images/bc1_typeless.dds" TEST_FILE_BC4U = "Tests/images/bc4u.dds" TEST_FILE_BC5S = "Tests/images/bc5s.dds" TEST_FILE_BC5U = "Tests/images/bc5u.dds" TEST_FILE_BC6H = "Tests/images/bc6h.dds" TEST_FILE_BC6HS = "Tests/images/bc6h_sf.dds" TEST_FILE_DX10_BC7 = "Tests/images/bc7-argb-8bpp_MipMaps-1.dds" TEST_FILE_DX10_BC7_UNORM_SRGB = "Tests/images/DXGI_FORMAT_BC7_UNORM_SRGB.dds" TEST_FILE_DX10_R8G8B8A8 = "Tests/images/argb-32bpp_MipMaps-1.dds" TEST_FILE_DX10_R8G8B8A8_UNORM_SRGB = "Tests/images/DXGI_FORMAT_R8G8B8A8_UNORM_SRGB.dds" TEST_FILE_UNCOMPRESSED_L = "Tests/images/uncompressed_l.dds" TEST_FILE_UNCOMPRESSED_L_WITH_ALPHA = "Tests/images/uncompressed_la.dds" TEST_FILE_UNCOMPRESSED_RGB = "Tests/images/hopper.dds" TEST_FILE_UNCOMPRESSED_RGB_WITH_ALPHA = "Tests/images/uncompressed_rgb.dds" @pytest.mark.parametrize( "image_path", ( TEST_FILE_DXT1, # hexeditted to use DX10 FourCC TEST_FILE_DX10_BC1, TEST_FILE_DX10_BC1_TYPELESS, ), ) def test_sanity_dxt1_bc1(image_path): """Check DXT1 and BC1 images can be opened""" with Image.open(TEST_FILE_DXT1.replace(".dds", ".png")) as target: target = target.convert("RGBA") with Image.open(image_path) as im: im.load() assert im.format == "DDS" assert im.mode == "RGBA" assert im.size == (256, 256) assert_image_equal(im, target) def test_sanity_dxt3(): """Check DXT3 images can be opened""" with Image.open(TEST_FILE_DXT3) as im: im.load() assert im.format == "DDS" assert im.mode == "RGBA" assert im.size == (256, 256) assert_image_equal_tofile(im, TEST_FILE_DXT3.replace(".dds", ".png")) def test_sanity_dxt5(): """Check DXT5 images can be opened""" with Image.open(TEST_FILE_DXT5) as im: im.load() assert im.format == "DDS" assert im.mode == "RGBA" assert im.size == (256, 256) assert_image_equal_tofile(im, TEST_FILE_DXT5.replace(".dds", ".png")) @pytest.mark.parametrize( "image_path", ( TEST_FILE_ATI1, # hexeditted to use BC4U FourCC TEST_FILE_BC4U, ), ) def test_sanity_ati1_bc4u(image_path): """Check ATI1 and BC4U images can be opened""" with Image.open(image_path) as im: im.load() assert im.format == "DDS" assert im.mode == "L" assert im.size == (64, 64) assert_image_equal_tofile(im, TEST_FILE_ATI1.replace(".dds", ".png")) @pytest.mark.parametrize( "image_path", ( TEST_FILE_DX10_BC4_UNORM, # hexeditted to be typeless TEST_FILE_DX10_BC4_TYPELESS, ), ) def test_dx10_bc4(image_path): """Check DX10 BC4 images can be opened""" with Image.open(image_path) as im: im.load() assert im.format == "DDS" assert im.mode == "L" assert im.size == (64, 64) assert_image_equal_tofile(im, TEST_FILE_DX10_BC4_UNORM.replace(".dds", ".png")) @pytest.mark.parametrize( "image_path", ( TEST_FILE_ATI2, # hexeditted to use BC5U FourCC TEST_FILE_BC5U, ), ) def test_sanity_ati2_bc5u(image_path): """Check ATI2 and BC5U images can be opened""" with Image.open(image_path) as im: im.load() assert im.format == "DDS" assert im.mode == "RGB" assert im.size == (256, 256) assert_image_equal_tofile(im, TEST_FILE_DX10_BC5_UNORM.replace(".dds", ".png")) @pytest.mark.parametrize( ("image_path", "expected_path"), ( # hexeditted to be typeless (TEST_FILE_DX10_BC5_TYPELESS, TEST_FILE_DX10_BC5_UNORM), (TEST_FILE_DX10_BC5_UNORM, TEST_FILE_DX10_BC5_UNORM), # hexeditted to use DX10 FourCC (TEST_FILE_DX10_BC5_SNORM, TEST_FILE_BC5S), (TEST_FILE_BC5S, TEST_FILE_BC5S), ), ) def test_dx10_bc5(image_path, expected_path): """Check DX10 BC5 images can be opened""" with Image.open(image_path) as im: im.load() assert im.format == "DDS" assert im.mode == "RGB" assert im.size == (256, 256) assert_image_equal_tofile(im, expected_path.replace(".dds", ".png")) @pytest.mark.parametrize("image_path", (TEST_FILE_BC6H, TEST_FILE_BC6HS)) def test_dx10_bc6h(image_path): """Check DX10 BC6H/BC6HS images can be opened""" with Image.open(image_path) as im: im.load() assert im.format == "DDS" assert im.mode == "RGB" assert im.size == (128, 128) assert_image_equal_tofile(im, image_path.replace(".dds", ".png")) def test_dx10_bc7(): """Check DX10 images can be opened""" with Image.open(TEST_FILE_DX10_BC7) as im: im.load() assert im.format == "DDS" assert im.mode == "RGBA" assert im.size == (256, 256) assert_image_equal_tofile(im, TEST_FILE_DX10_BC7.replace(".dds", ".png")) def test_dx10_bc7_unorm_srgb(): """Check DX10 unsigned normalized integer images can be opened""" with Image.open(TEST_FILE_DX10_BC7_UNORM_SRGB) as im: im.load() assert im.format == "DDS" assert im.mode == "RGBA" assert im.size == (16, 16) assert im.info["gamma"] == 1 / 2.2 assert_image_equal_tofile( im, TEST_FILE_DX10_BC7_UNORM_SRGB.replace(".dds", ".png") ) def test_dx10_r8g8b8a8(): """Check DX10 images can be opened""" with Image.open(TEST_FILE_DX10_R8G8B8A8) as im: im.load() assert im.format == "DDS" assert im.mode == "RGBA" assert im.size == (256, 256) assert_image_equal_tofile(im, TEST_FILE_DX10_R8G8B8A8.replace(".dds", ".png")) def test_dx10_r8g8b8a8_unorm_srgb(): """Check DX10 unsigned normalized integer images can be opened""" with Image.open(TEST_FILE_DX10_R8G8B8A8_UNORM_SRGB) as im: im.load() assert im.format == "DDS" assert im.mode == "RGBA" assert im.size == (16, 16) assert im.info["gamma"] == 1 / 2.2 assert_image_equal_tofile( im, TEST_FILE_DX10_R8G8B8A8_UNORM_SRGB.replace(".dds", ".png") ) @pytest.mark.parametrize( ("mode", "size", "test_file"), [ ("L", (128, 128), TEST_FILE_UNCOMPRESSED_L), ("LA", (128, 128), TEST_FILE_UNCOMPRESSED_L_WITH_ALPHA), ("RGB", (128, 128), TEST_FILE_UNCOMPRESSED_RGB), ("RGBA", (800, 600), TEST_FILE_UNCOMPRESSED_RGB_WITH_ALPHA), ], ) def test_uncompressed(mode, size, test_file): """Check uncompressed images can be opened""" with Image.open(test_file) as im: assert im.format == "DDS" assert im.mode == mode assert im.size == size assert_image_equal_tofile(im, test_file.replace(".dds", ".png")) def test__accept_true(): """Check valid prefix""" # Arrange prefix = b"DDS etc" # Act output = DdsImagePlugin._accept(prefix) # Assert assert output def test__accept_false(): """Check invalid prefix""" # Arrange prefix = b"something invalid" # Act output = DdsImagePlugin._accept(prefix) # Assert assert not output def test_invalid_file(): invalid_file = "Tests/images/flower.jpg" with pytest.raises(SyntaxError): DdsImagePlugin.DdsImageFile(invalid_file) def test_short_header(): """Check a short header""" with open(TEST_FILE_DXT5, "rb") as f: img_file = f.read() def short_header(): with Image.open(BytesIO(img_file[:119])): pass # pragma: no cover with pytest.raises(OSError): short_header() def test_short_file(): """Check that the appropriate error is thrown for a short file""" with open(TEST_FILE_DXT5, "rb") as f: img_file = f.read() def short_file(): with Image.open(BytesIO(img_file[:-100])) as im: im.load() with pytest.raises(OSError): short_file() def test_dxt5_colorblock_alpha_issue_4142(): """Check that colorblocks are decoded correctly in DXT5""" with Image.open("Tests/images/dxt5-colorblock-alpha-issue-4142.dds") as im: px = im.getpixel((0, 0)) assert px[0] != 0 assert px[1] != 0 assert px[2] != 0 px = im.getpixel((1, 0)) assert px[0] != 0 assert px[1] != 0 assert px[2] != 0 def test_palette(): with Image.open("Tests/images/palette.dds") as im: assert_image_equal_tofile(im, "Tests/images/transparent.gif") @pytest.mark.parametrize( "test_file", ( "Tests/images/unsupported_bitcount_rgb.dds", "Tests/images/unsupported_bitcount_luminance.dds", ), ) def test_unsupported_bitcount(test_file): with pytest.raises(OSError): with Image.open(test_file): pass @pytest.mark.parametrize( "test_file", ( "Tests/images/unimplemented_dxgi_format.dds", "Tests/images/unimplemented_pfflags.dds", ), ) def test_not_implemented(test_file): with pytest.raises(NotImplementedError): with Image.open(test_file): pass def test_save_unsupported_mode(tmp_path): out = str(tmp_path / "temp.dds") im = hopper("HSV") with pytest.raises(OSError): im.save(out) @pytest.mark.parametrize( ("mode", "test_file"), [ ("L", "Tests/images/linear_gradient.png"), ("LA", "Tests/images/uncompressed_la.png"), ("RGB", "Tests/images/hopper.png"), ("RGBA", "Tests/images/pil123rgba.png"), ], ) def test_save(mode, test_file, tmp_path): out = str(tmp_path / "temp.dds") with Image.open(test_file) as im: assert im.mode == mode im.save(out) with Image.open(out) as reloaded: assert_image_equal(im, reloaded)