import pytest from rich.color import Color as RichColor from rich.text import Text from textual.color import Color, Lab, lab_to_rgb, rgb_to_lab def test_rich_color(): """Check conversion to Rich color.""" assert Color(10, 20, 30, 1.0).rich_color == RichColor.from_rgb(10, 20, 30) assert Color.from_rich_color(RichColor.from_rgb(10, 20, 30)) == Color( 10, 20, 30, 1.0 ) def test_rich_color_rich_output(): assert isinstance(Color(10, 20, 30).__rich__(), Text) def test_normalized(): assert Color(255, 128, 64).normalized == pytest.approx((1.0, 128 / 255, 64 / 255)) def test_clamped(): assert Color(300, 100, -20, 1.5).clamped == Color(255, 100, 0, 1.0) def test_css(): """Check conversion to CSS style""" assert Color(10, 20, 30, 1.0).css == "rgb(10,20,30)" assert Color(10, 20, 30, 0.5).css == "rgba(10,20,30,0.5)" def test_monochrome(): assert Color(10, 20, 30).monochrome == Color(19, 19, 19) assert Color(10, 20, 30, 0.5).monochrome == Color(19, 19, 19, 0.5) assert Color(255, 255, 255).monochrome == Color(255, 255, 255) assert Color(0, 0, 0).monochrome == Color(0, 0, 0) def test_rgb(): assert Color(10, 20, 30, 0.55).rgb == (10, 20, 30) def test_hls(): red = Color(200, 20, 32) print(red.hsl) assert red.hsl == pytest.approx( (0.9888888888888889, 0.818181818181818, 0.43137254901960786) ) assert Color.from_hsl( 0.9888888888888889, 0.818181818181818, 0.43137254901960786 ).normalized == pytest.approx(red.normalized, rel=1e-5) def test_color_brightness(): assert Color(255, 255, 255).brightness == 1 assert Color(0, 0, 0).brightness == 0 assert Color(127, 127, 127).brightness == pytest.approx(0.49803921568627446) assert Color(255, 127, 64).brightness == pytest.approx(0.6199607843137255) def test_color_hex(): assert Color(255, 0, 127).hex == "#FF007F" assert Color(255, 0, 127, 0.5).hex == "#FF007F7F" def test_color_css(): assert Color(255, 0, 127).css == "rgb(255,0,127)" assert Color(255, 0, 127, 0.5).css == "rgba(255,0,127,0.5)" def test_color_with_alpha(): assert Color(255, 50, 100).with_alpha(0.25) == Color(255, 50, 100, 0.25) def test_color_blend(): assert Color(0, 0, 0).blend(Color(255, 255, 255), 0) == Color(0, 0, 0) assert Color(0, 0, 0).blend(Color(255, 255, 255), 1.0) == Color(255, 255, 255) assert Color(0, 0, 0).blend(Color(255, 255, 255), 0.5) == Color(127, 127, 127) @pytest.mark.parametrize( "text,expected", [ ("#000000", Color(0, 0, 0, 1.0)), ("#ffffff", Color(255, 255, 255, 1.0)), ("#FFFFFF", Color(255, 255, 255, 1.0)), ("#fab", Color(255, 170, 187, 1.0)), # #ffaabb ("#fab0", Color(255, 170, 187, 0.0)), # #ffaabb00 ("#020304ff", Color(2, 3, 4, 1.0)), ("#02030400", Color(2, 3, 4, 0.0)), ("#0203040f", Color(2, 3, 4, 0.058823529411764705)), ("rgb(0,0,0)", Color(0, 0, 0, 1.0)), ("rgb(255,255,255)", Color(255, 255, 255, 1.0)), ("rgba(255,255,255,1)", Color(255, 255, 255, 1.0)), ("rgb(2,3,4)", Color(2, 3, 4, 1.0)), ("rgba(2,3,4,1.0)", Color(2, 3, 4, 1.0)), ("rgba(2,3,4,0.058823529411764705)", Color(2, 3, 4, 0.058823529411764705)), ("hsl(45,25%,25%)", Color(80, 72, 48)), ("hsla(45,25%,25%,0.35)", Color(80, 72, 48, 0.35)), ], ) def test_color_parse(text, expected): assert Color.parse(text) == expected @pytest.mark.parametrize( "input,output", [ ("rgb( 300, 300 , 300 )", Color(255, 255, 255)), ("rgba( 2 , 3 , 4, 1.0 )", Color(2, 3, 4, 1.0)), ("hsl( 45, 25% , 25% )", Color(80, 72, 48)), ("hsla( 45, 25% , 25%, 0.35 )", Color(80, 72, 48, 0.35)), ], ) def test_color_parse_input_has_spaces(input, output): assert Color.parse(input) == output @pytest.mark.parametrize( "input,output", [ ("rgb(300, 300, 300)", Color(255, 255, 255)), ("rgba(300, 300, 300, 300)", Color(255, 255, 255, 1.0)), ("hsl(400, 200%, 250%)", Color(255, 255, 255, 1.0)), ("hsla(400, 200%, 250%, 1.9)", Color(255, 255, 255, 1.0)), ], ) def test_color_parse_clamp(input, output): assert Color.parse(input) == output def test_color_parse_hsl_negative_degrees(): assert Color.parse("hsl(-90, 50%, 50%)") == Color.parse("hsl(270, 50%, 50%)") def test_color_parse_hsla_negative_degrees(): assert Color.parse("hsla(-45, 50%, 50%, 0.2)") == Color.parse( "hsla(315, 50%, 50%, 0.2)" ) def test_color_parse_color(): # as a convenience, if Color.parse is passed a color object, it will return it color = Color(20, 30, 40, 0.5) assert Color.parse(color) is color def test_color_add(): assert Color(50, 100, 200) + Color(10, 20, 30, 0.9) == Color(14, 28, 47) # Computed with http://www.easyrgb.com/en/convert.php, # (r, g, b) values in sRGB to (L*, a*, b*) values in CIE-L*ab. RGB_LAB_DATA = [ (10, 23, 73, 10.245, 15.913, -32.672), (200, 34, 123, 45.438, 67.750, -8.008), (0, 0, 0, 0, 0, 0), (255, 255, 255, 100, 0, 0), ] def test_color_darken(): assert Color(200, 210, 220).darken(1) == Color(0, 0, 0) assert Color(200, 210, 220).darken(-1) == Color(255, 255, 255) assert Color(200, 210, 220).darken(0.1) == Color(172, 182, 192) assert Color(200, 210, 220).darken(0.5) == Color(71, 80, 88) def test_color_lighten(): assert Color(200, 210, 220).lighten(1) == Color(255, 255, 255) assert Color(200, 210, 220).lighten(-1) == Color(0, 0, 0) assert Color(200, 210, 220).lighten(0.1) == Color(228, 238, 248) @pytest.mark.parametrize( "r, g, b, L_, a_, b_", RGB_LAB_DATA, ) def test_rgb_to_lab(r, g, b, L_, a_, b_): """Test conversion from the RGB color space to CIE-L*ab.""" rgb = Color(r, g, b) lab = rgb_to_lab(rgb) assert lab.L == pytest.approx(L_, abs=0.1) assert lab.a == pytest.approx(a_, abs=0.1) assert lab.b == pytest.approx(b_, abs=0.1) @pytest.mark.parametrize( "r, g, b, L_, a_, b_", RGB_LAB_DATA, ) def test_lab_to_rgb(r, g, b, L_, a_, b_): """Test conversion from the CIE-L*ab color space to RGB.""" lab = Lab(L_, a_, b_) rgb = lab_to_rgb(lab) assert rgb.r == pytest.approx(r, abs=1) assert rgb.g == pytest.approx(g, abs=1) assert rgb.b == pytest.approx(b, abs=1) def test_rgb_lab_rgb_roundtrip(): """Test RGB -> CIE-L*ab -> RGB color conversion roundtripping.""" for r in range(0, 256, 32): for g in range(0, 256, 32): for b in range(0, 256, 32): c_ = lab_to_rgb(rgb_to_lab(Color(r, g, b))) assert c_.r == pytest.approx(r, abs=1) assert c_.g == pytest.approx(g, abs=1) assert c_.b == pytest.approx(b, abs=1) def test_inverse(): assert Color(55, 0, 255, 0.1).inverse == Color(200, 255, 0, 0.1)