from rich.color import ( blend_rgb, parse_rgb_hex, Color, ColorParseError, ColorSystem, ColorType, ColorTriplet, ) from rich.style import Style from rich.text import Text, Span import pytest def test_str() -> None: assert str(Color.parse("red")) == "Color('red', ColorType.STANDARD, number=1)" def test_repr() -> None: assert repr(Color.parse("red")) == "Color('red', ColorType.STANDARD, number=1)" def test_color_system_repr() -> None: assert repr(ColorSystem.EIGHT_BIT) == "ColorSystem.EIGHT_BIT" def test_rich() -> None: color = Color.parse("red") as_text = color.__rich__() print(repr(as_text)) print(repr(as_text.spans)) assert as_text == Text( "", spans=[Span(23, 24, Style(color=color))] ) def test_system() -> None: assert Color.parse("default").system == ColorSystem.STANDARD assert Color.parse("red").system == ColorSystem.STANDARD assert Color.parse("#ff0000").system == ColorSystem.TRUECOLOR def test_windows() -> None: assert Color("red", ColorType.WINDOWS, number=1).get_ansi_codes() == ("31",) def test_truecolor() -> None: assert Color.parse("#ff0000").get_truecolor() == ColorTriplet(255, 0, 0) assert Color.parse("red").get_truecolor() == ColorTriplet(128, 0, 0) assert Color.parse("color(1)").get_truecolor() == ColorTriplet(128, 0, 0) assert Color.parse("color(17)").get_truecolor() == ColorTriplet(0, 0, 95) assert Color.parse("default").get_truecolor() == ColorTriplet(0, 0, 0) assert Color.parse("default").get_truecolor(foreground=False) == ColorTriplet( 255, 255, 255 ) assert Color("red", ColorType.WINDOWS, number=1).get_truecolor() == ColorTriplet( 197, 15, 31 ) def test_parse_success() -> None: assert Color.parse("default") == Color("default", ColorType.DEFAULT, None, None) assert Color.parse("red") == Color("red", ColorType.STANDARD, 1, None) assert Color.parse("bright_red") == Color("bright_red", ColorType.STANDARD, 9, None) assert Color.parse("yellow4") == Color("yellow4", ColorType.EIGHT_BIT, 106, None) assert Color.parse("color(100)") == Color( "color(100)", ColorType.EIGHT_BIT, 100, None ) assert Color.parse("#112233") == Color( "#112233", ColorType.TRUECOLOR, None, ColorTriplet(0x11, 0x22, 0x33) ) assert Color.parse("rgb(90,100,110)") == Color( "rgb(90,100,110)", ColorType.TRUECOLOR, None, ColorTriplet(90, 100, 110) ) def test_from_triplet() -> None: assert Color.from_triplet(ColorTriplet(0x10, 0x20, 0x30)) == Color( "#102030", ColorType.TRUECOLOR, None, ColorTriplet(0x10, 0x20, 0x30) ) def test_from_rgb() -> None: assert Color.from_rgb(0x10, 0x20, 0x30) == Color( "#102030", ColorType.TRUECOLOR, None, ColorTriplet(0x10, 0x20, 0x30) ) def test_from_ansi() -> None: assert Color.from_ansi(1) == Color("color(1)", ColorType.STANDARD, 1) def test_default() -> None: assert Color.default() == Color("default", ColorType.DEFAULT, None, None) def test_parse_error() -> None: with pytest.raises(ColorParseError): Color.parse("256") with pytest.raises(ColorParseError): Color.parse("color(256)") with pytest.raises(ColorParseError): Color.parse("rgb(999,0,0)") with pytest.raises(ColorParseError): Color.parse("rgb(0,0)") with pytest.raises(ColorParseError): Color.parse("rgb(0,0,0,0)") with pytest.raises(ColorParseError): Color.parse("nosuchcolor") with pytest.raises(ColorParseError): Color.parse("#xxyyzz") def test_get_ansi_codes() -> None: assert Color.parse("default").get_ansi_codes() == ("39",) assert Color.parse("default").get_ansi_codes(False) == ("49",) assert Color.parse("red").get_ansi_codes() == ("31",) assert Color.parse("red").get_ansi_codes(False) == ("41",) assert Color.parse("color(1)").get_ansi_codes() == ("31",) assert Color.parse("color(1)").get_ansi_codes(False) == ("41",) assert Color.parse("#ff0000").get_ansi_codes() == ("38", "2", "255", "0", "0") assert Color.parse("#ff0000").get_ansi_codes(False) == ("48", "2", "255", "0", "0") def test_downgrade() -> None: assert Color.parse("color(9)").downgrade(0) == Color( "color(9)", ColorType.STANDARD, 9, None ) assert Color.parse("#000000").downgrade(ColorSystem.EIGHT_BIT) == Color( "#000000", ColorType.EIGHT_BIT, 16, None ) assert Color.parse("#ffffff").downgrade(ColorSystem.EIGHT_BIT) == Color( "#ffffff", ColorType.EIGHT_BIT, 231, None ) assert Color.parse("#404142").downgrade(ColorSystem.EIGHT_BIT) == Color( "#404142", ColorType.EIGHT_BIT, 237, None ) assert Color.parse("#ff0000").downgrade(ColorSystem.EIGHT_BIT) == Color( "#ff0000", ColorType.EIGHT_BIT, 196, None ) assert Color.parse("#ff0000").downgrade(ColorSystem.STANDARD) == Color( "#ff0000", ColorType.STANDARD, 1, None ) assert Color.parse("color(9)").downgrade(ColorSystem.STANDARD) == Color( "color(9)", ColorType.STANDARD, 9, None ) assert Color.parse("color(20)").downgrade(ColorSystem.STANDARD) == Color( "color(20)", ColorType.STANDARD, 4, None ) assert Color.parse("red").downgrade(ColorSystem.WINDOWS) == Color( "red", ColorType.WINDOWS, 1, None ) assert Color.parse("bright_red").downgrade(ColorSystem.WINDOWS) == Color( "bright_red", ColorType.WINDOWS, 9, None ) assert Color.parse("#ff0000").downgrade(ColorSystem.WINDOWS) == Color( "#ff0000", ColorType.WINDOWS, 1, None ) assert Color.parse("color(255)").downgrade(ColorSystem.WINDOWS) == Color( "color(255)", ColorType.WINDOWS, 15, None ) assert Color.parse("#00ff00").downgrade(ColorSystem.STANDARD) == Color( "#00ff00", ColorType.STANDARD, 2, None ) def test_parse_rgb_hex() -> None: assert parse_rgb_hex("aabbcc") == ColorTriplet(0xAA, 0xBB, 0xCC) def test_blend_rgb() -> None: assert blend_rgb( ColorTriplet(10, 20, 30), ColorTriplet(30, 40, 50) ) == ColorTriplet(20, 30, 40)