Hacked By AnonymousFox
"""
Color definitions are used as per CSS3 specification:
http://www.w3.org/TR/css3-color/#svg-color
A few colors have multiple names referring to the sames colors, eg. `grey` and `gray` or `aqua` and `cyan`.
In these cases the LAST color when sorted alphabetically takes preferences,
eg. Color((0, 255, 255)).as_named() == 'cyan' because "cyan" comes after "aqua".
"""
import math
import re
from colorsys import hls_to_rgb, rgb_to_hls
from typing import TYPE_CHECKING, Any, Dict, Optional, Tuple, Union, cast
from .errors import ColorError
from .utils import Representation, almost_equal_floats
if TYPE_CHECKING:
from .typing import CallableGenerator, ReprArgs
ColorTuple = Union[Tuple[int, int, int], Tuple[int, int, int, float]]
ColorType = Union[ColorTuple, str]
HslColorTuple = Union[Tuple[float, float, float], Tuple[float, float, float, float]]
class RGBA:
"""
Internal use only as a representation of a color.
"""
__slots__ = 'r', 'g', 'b', 'alpha', '_tuple'
def __init__(self, r: float, g: float, b: float, alpha: Optional[float]):
self.r = r
self.g = g
self.b = b
self.alpha = alpha
self._tuple: Tuple[float, float, float, Optional[float]] = (r, g, b, alpha)
def __getitem__(self, item: Any) -> Any:
return self._tuple[item]
# these are not compiled here to avoid import slowdown, they'll be compiled the first time they're used, then cached
r_hex_short = r'\s*(?:#|0x)?([0-9a-f])([0-9a-f])([0-9a-f])([0-9a-f])?\s*'
r_hex_long = r'\s*(?:#|0x)?([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})?\s*'
_r_255 = r'(\d{1,3}(?:\.\d+)?)'
_r_comma = r'\s*,\s*'
r_rgb = fr'\s*rgb\(\s*{_r_255}{_r_comma}{_r_255}{_r_comma}{_r_255}\)\s*'
_r_alpha = r'(\d(?:\.\d+)?|\.\d+|\d{1,2}%)'
r_rgba = fr'\s*rgba\(\s*{_r_255}{_r_comma}{_r_255}{_r_comma}{_r_255}{_r_comma}{_r_alpha}\s*\)\s*'
_r_h = r'(-?\d+(?:\.\d+)?|-?\.\d+)(deg|rad|turn)?'
_r_sl = r'(\d{1,3}(?:\.\d+)?)%'
r_hsl = fr'\s*hsl\(\s*{_r_h}{_r_comma}{_r_sl}{_r_comma}{_r_sl}\s*\)\s*'
r_hsla = fr'\s*hsl\(\s*{_r_h}{_r_comma}{_r_sl}{_r_comma}{_r_sl}{_r_comma}{_r_alpha}\s*\)\s*'
# colors where the two hex characters are the same, if all colors match this the short version of hex colors can be used
repeat_colors = {int(c * 2, 16) for c in '0123456789abcdef'}
rads = 2 * math.pi
class Color(Representation):
__slots__ = '_original', '_rgba'
def __init__(self, value: ColorType) -> None:
self._rgba: RGBA
self._original: ColorType
if isinstance(value, (tuple, list)):
self._rgba = parse_tuple(value)
elif isinstance(value, str):
self._rgba = parse_str(value)
elif isinstance(value, Color):
self._rgba = value._rgba
value = value._original
else:
raise ColorError(reason='value must be a tuple, list or string')
# if we've got here value must be a valid color
self._original = value
@classmethod
def __modify_schema__(cls, field_schema: Dict[str, Any]) -> None:
field_schema.update(type='string', format='color')
def original(self) -> ColorType:
"""
Original value passed to Color
"""
return self._original
def as_named(self, *, fallback: bool = False) -> str:
if self._rgba.alpha is None:
rgb = cast(Tuple[int, int, int], self.as_rgb_tuple())
try:
return COLORS_BY_VALUE[rgb]
except KeyError as e:
if fallback:
return self.as_hex()
else:
raise ValueError('no named color found, use fallback=True, as_hex() or as_rgb()') from e
else:
return self.as_hex()
def as_hex(self) -> str:
"""
Hex string representing the color can be 3, 4, 6 or 8 characters depending on whether the string
a "short" representation of the color is possible and whether there's an alpha channel.
"""
values = [float_to_255(c) for c in self._rgba[:3]]
if self._rgba.alpha is not None:
values.append(float_to_255(self._rgba.alpha))
as_hex = ''.join(f'{v:02x}' for v in values)
if all(c in repeat_colors for c in values):
as_hex = ''.join(as_hex[c] for c in range(0, len(as_hex), 2))
return '#' + as_hex
def as_rgb(self) -> str:
"""
Color as an rgb(<r>, <g>, <b>) or rgba(<r>, <g>, <b>, <a>) string.
"""
if self._rgba.alpha is None:
return f'rgb({float_to_255(self._rgba.r)}, {float_to_255(self._rgba.g)}, {float_to_255(self._rgba.b)})'
else:
return (
f'rgba({float_to_255(self._rgba.r)}, {float_to_255(self._rgba.g)}, {float_to_255(self._rgba.b)}, '
f'{round(self._alpha_float(), 2)})'
)
def as_rgb_tuple(self, *, alpha: Optional[bool] = None) -> ColorTuple:
"""
Color as an RGB or RGBA tuple; red, green and blue are in the range 0 to 255, alpha if included is
in the range 0 to 1.
:param alpha: whether to include the alpha channel, options are
None - (default) include alpha only if it's set (e.g. not None)
True - always include alpha,
False - always omit alpha,
"""
r, g, b = (float_to_255(c) for c in self._rgba[:3])
if alpha is None:
if self._rgba.alpha is None:
return r, g, b
else:
return r, g, b, self._alpha_float()
elif alpha:
return r, g, b, self._alpha_float()
else:
# alpha is False
return r, g, b
def as_hsl(self) -> str:
"""
Color as an hsl(<h>, <s>, <l>) or hsl(<h>, <s>, <l>, <a>) string.
"""
if self._rgba.alpha is None:
h, s, li = self.as_hsl_tuple(alpha=False) # type: ignore
return f'hsl({h * 360:0.0f}, {s:0.0%}, {li:0.0%})'
else:
h, s, li, a = self.as_hsl_tuple(alpha=True) # type: ignore
return f'hsl({h * 360:0.0f}, {s:0.0%}, {li:0.0%}, {round(a, 2)})'
def as_hsl_tuple(self, *, alpha: Optional[bool] = None) -> HslColorTuple:
"""
Color as an HSL or HSLA tuple, e.g. hue, saturation, lightness and optionally alpha; all elements are in
the range 0 to 1.
NOTE: this is HSL as used in HTML and most other places, not HLS as used in python's colorsys.
:param alpha: whether to include the alpha channel, options are
None - (default) include alpha only if it's set (e.g. not None)
True - always include alpha,
False - always omit alpha,
"""
h, l, s = rgb_to_hls(self._rgba.r, self._rgba.g, self._rgba.b)
if alpha is None:
if self._rgba.alpha is None:
return h, s, l
else:
return h, s, l, self._alpha_float()
if alpha:
return h, s, l, self._alpha_float()
else:
# alpha is False
return h, s, l
def _alpha_float(self) -> float:
return 1 if self._rgba.alpha is None else self._rgba.alpha
@classmethod
def __get_validators__(cls) -> 'CallableGenerator':
yield cls
def __str__(self) -> str:
return self.as_named(fallback=True)
def __repr_args__(self) -> 'ReprArgs':
return [(None, self.as_named(fallback=True))] + [('rgb', self.as_rgb_tuple())] # type: ignore
def __eq__(self, other: Any) -> bool:
return isinstance(other, Color) and self.as_rgb_tuple() == other.as_rgb_tuple()
def __hash__(self) -> int:
return hash(self.as_rgb_tuple())
def parse_tuple(value: Tuple[Any, ...]) -> RGBA:
"""
Parse a tuple or list as a color.
"""
if len(value) == 3:
r, g, b = (parse_color_value(v) for v in value)
return RGBA(r, g, b, None)
elif len(value) == 4:
r, g, b = (parse_color_value(v) for v in value[:3])
return RGBA(r, g, b, parse_float_alpha(value[3]))
else:
raise ColorError(reason='tuples must have length 3 or 4')
def parse_str(value: str) -> RGBA:
"""
Parse a string to an RGBA tuple, trying the following formats (in this order):
* named color, see COLORS_BY_NAME below
* hex short eg. `<prefix>fff` (prefix can be `#`, `0x` or nothing)
* hex long eg. `<prefix>ffffff` (prefix can be `#`, `0x` or nothing)
* `rgb(<r>, <g>, <b>) `
* `rgba(<r>, <g>, <b>, <a>)`
"""
value_lower = value.lower()
try:
r, g, b = COLORS_BY_NAME[value_lower]
except KeyError:
pass
else:
return ints_to_rgba(r, g, b, None)
m = re.fullmatch(r_hex_short, value_lower)
if m:
*rgb, a = m.groups()
r, g, b = (int(v * 2, 16) for v in rgb)
if a:
alpha: Optional[float] = int(a * 2, 16) / 255
else:
alpha = None
return ints_to_rgba(r, g, b, alpha)
m = re.fullmatch(r_hex_long, value_lower)
if m:
*rgb, a = m.groups()
r, g, b = (int(v, 16) for v in rgb)
if a:
alpha = int(a, 16) / 255
else:
alpha = None
return ints_to_rgba(r, g, b, alpha)
m = re.fullmatch(r_rgb, value_lower)
if m:
return ints_to_rgba(*m.groups(), None) # type: ignore
m = re.fullmatch(r_rgba, value_lower)
if m:
return ints_to_rgba(*m.groups()) # type: ignore
m = re.fullmatch(r_hsl, value_lower)
if m:
h, h_units, s, l_ = m.groups()
return parse_hsl(h, h_units, s, l_)
m = re.fullmatch(r_hsla, value_lower)
if m:
h, h_units, s, l_, a = m.groups()
return parse_hsl(h, h_units, s, l_, parse_float_alpha(a))
raise ColorError(reason='string not recognised as a valid color')
def ints_to_rgba(r: Union[int, str], g: Union[int, str], b: Union[int, str], alpha: Optional[float]) -> RGBA:
return RGBA(parse_color_value(r), parse_color_value(g), parse_color_value(b), parse_float_alpha(alpha))
def parse_color_value(value: Union[int, str], max_val: int = 255) -> float:
"""
Parse a value checking it's a valid int in the range 0 to max_val and divide by max_val to give a number
in the range 0 to 1
"""
try:
color = float(value)
except ValueError:
raise ColorError(reason='color values must be a valid number')
if 0 <= color <= max_val:
return color / max_val
else:
raise ColorError(reason=f'color values must be in the range 0 to {max_val}')
def parse_float_alpha(value: Union[None, str, float, int]) -> Optional[float]:
"""
Parse a value checking it's a valid float in the range 0 to 1
"""
if value is None:
return None
try:
if isinstance(value, str) and value.endswith('%'):
alpha = float(value[:-1]) / 100
else:
alpha = float(value)
except ValueError:
raise ColorError(reason='alpha values must be a valid float')
if almost_equal_floats(alpha, 1):
return None
elif 0 <= alpha <= 1:
return alpha
else:
raise ColorError(reason='alpha values must be in the range 0 to 1')
def parse_hsl(h: str, h_units: str, sat: str, light: str, alpha: Optional[float] = None) -> RGBA:
"""
Parse raw hue, saturation, lightness and alpha values and convert to RGBA.
"""
s_value, l_value = parse_color_value(sat, 100), parse_color_value(light, 100)
h_value = float(h)
if h_units in {None, 'deg'}:
h_value = h_value % 360 / 360
elif h_units == 'rad':
h_value = h_value % rads / rads
else:
# turns
h_value = h_value % 1
r, g, b = hls_to_rgb(h_value, l_value, s_value)
return RGBA(r, g, b, alpha)
def float_to_255(c: float) -> int:
return int(round(c * 255))
COLORS_BY_NAME = {
'aliceblue': (240, 248, 255),
'antiquewhite': (250, 235, 215),
'aqua': (0, 255, 255),
'aquamarine': (127, 255, 212),
'azure': (240, 255, 255),
'beige': (245, 245, 220),
'bisque': (255, 228, 196),
'black': (0, 0, 0),
'blanchedalmond': (255, 235, 205),
'blue': (0, 0, 255),
'blueviolet': (138, 43, 226),
'brown': (165, 42, 42),
'burlywood': (222, 184, 135),
'cadetblue': (95, 158, 160),
'chartreuse': (127, 255, 0),
'chocolate': (210, 105, 30),
'coral': (255, 127, 80),
'cornflowerblue': (100, 149, 237),
'cornsilk': (255, 248, 220),
'crimson': (220, 20, 60),
'cyan': (0, 255, 255),
'darkblue': (0, 0, 139),
'darkcyan': (0, 139, 139),
'darkgoldenrod': (184, 134, 11),
'darkgray': (169, 169, 169),
'darkgreen': (0, 100, 0),
'darkgrey': (169, 169, 169),
'darkkhaki': (189, 183, 107),
'darkmagenta': (139, 0, 139),
'darkolivegreen': (85, 107, 47),
'darkorange': (255, 140, 0),
'darkorchid': (153, 50, 204),
'darkred': (139, 0, 0),
'darksalmon': (233, 150, 122),
'darkseagreen': (143, 188, 143),
'darkslateblue': (72, 61, 139),
'darkslategray': (47, 79, 79),
'darkslategrey': (47, 79, 79),
'darkturquoise': (0, 206, 209),
'darkviolet': (148, 0, 211),
'deeppink': (255, 20, 147),
'deepskyblue': (0, 191, 255),
'dimgray': (105, 105, 105),
'dimgrey': (105, 105, 105),
'dodgerblue': (30, 144, 255),
'firebrick': (178, 34, 34),
'floralwhite': (255, 250, 240),
'forestgreen': (34, 139, 34),
'fuchsia': (255, 0, 255),
'gainsboro': (220, 220, 220),
'ghostwhite': (248, 248, 255),
'gold': (255, 215, 0),
'goldenrod': (218, 165, 32),
'gray': (128, 128, 128),
'green': (0, 128, 0),
'greenyellow': (173, 255, 47),
'grey': (128, 128, 128),
'honeydew': (240, 255, 240),
'hotpink': (255, 105, 180),
'indianred': (205, 92, 92),
'indigo': (75, 0, 130),
'ivory': (255, 255, 240),
'khaki': (240, 230, 140),
'lavender': (230, 230, 250),
'lavenderblush': (255, 240, 245),
'lawngreen': (124, 252, 0),
'lemonchiffon': (255, 250, 205),
'lightblue': (173, 216, 230),
'lightcoral': (240, 128, 128),
'lightcyan': (224, 255, 255),
'lightgoldenrodyellow': (250, 250, 210),
'lightgray': (211, 211, 211),
'lightgreen': (144, 238, 144),
'lightgrey': (211, 211, 211),
'lightpink': (255, 182, 193),
'lightsalmon': (255, 160, 122),
'lightseagreen': (32, 178, 170),
'lightskyblue': (135, 206, 250),
'lightslategray': (119, 136, 153),
'lightslategrey': (119, 136, 153),
'lightsteelblue': (176, 196, 222),
'lightyellow': (255, 255, 224),
'lime': (0, 255, 0),
'limegreen': (50, 205, 50),
'linen': (250, 240, 230),
'magenta': (255, 0, 255),
'maroon': (128, 0, 0),
'mediumaquamarine': (102, 205, 170),
'mediumblue': (0, 0, 205),
'mediumorchid': (186, 85, 211),
'mediumpurple': (147, 112, 219),
'mediumseagreen': (60, 179, 113),
'mediumslateblue': (123, 104, 238),
'mediumspringgreen': (0, 250, 154),
'mediumturquoise': (72, 209, 204),
'mediumvioletred': (199, 21, 133),
'midnightblue': (25, 25, 112),
'mintcream': (245, 255, 250),
'mistyrose': (255, 228, 225),
'moccasin': (255, 228, 181),
'navajowhite': (255, 222, 173),
'navy': (0, 0, 128),
'oldlace': (253, 245, 230),
'olive': (128, 128, 0),
'olivedrab': (107, 142, 35),
'orange': (255, 165, 0),
'orangered': (255, 69, 0),
'orchid': (218, 112, 214),
'palegoldenrod': (238, 232, 170),
'palegreen': (152, 251, 152),
'paleturquoise': (175, 238, 238),
'palevioletred': (219, 112, 147),
'papayawhip': (255, 239, 213),
'peachpuff': (255, 218, 185),
'peru': (205, 133, 63),
'pink': (255, 192, 203),
'plum': (221, 160, 221),
'powderblue': (176, 224, 230),
'purple': (128, 0, 128),
'red': (255, 0, 0),
'rosybrown': (188, 143, 143),
'royalblue': (65, 105, 225),
'saddlebrown': (139, 69, 19),
'salmon': (250, 128, 114),
'sandybrown': (244, 164, 96),
'seagreen': (46, 139, 87),
'seashell': (255, 245, 238),
'sienna': (160, 82, 45),
'silver': (192, 192, 192),
'skyblue': (135, 206, 235),
'slateblue': (106, 90, 205),
'slategray': (112, 128, 144),
'slategrey': (112, 128, 144),
'snow': (255, 250, 250),
'springgreen': (0, 255, 127),
'steelblue': (70, 130, 180),
'tan': (210, 180, 140),
'teal': (0, 128, 128),
'thistle': (216, 191, 216),
'tomato': (255, 99, 71),
'turquoise': (64, 224, 208),
'violet': (238, 130, 238),
'wheat': (245, 222, 179),
'white': (255, 255, 255),
'whitesmoke': (245, 245, 245),
'yellow': (255, 255, 0),
'yellowgreen': (154, 205, 50),
}
COLORS_BY_VALUE = {v: k for k, v in COLORS_BY_NAME.items()}
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