# Authors: see git history # # Copyright (c) 2010 Authors # Licensed under the GNU GPL version 3.0 or later. See the file LICENSE for details. import colorsys import re import tinycss2.color3 from inkex import Color from pyembroidery.EmbThread import EmbThread class ThreadColor(object): hex_str_re = re.compile('#([0-9a-z]{3}|[0-9a-z]{6})', re.I) def __init__(self, color, name=None, number=None, manufacturer=None): # set colors with a gradient to black (avoiding an error message) if type(color) == str and color.startswith('url'): color = None if color is None: self.rgb = (0, 0, 0) elif isinstance(color, EmbThread): self.name = color.description self.number = color.catalog_number self.manufacturer = color.brand self.rgb = (color.get_red(), color.get_green(), color.get_blue()) return elif isinstance(color, str): self.rgb = tinycss2.color3.parse_color(color) # remove alpha channel and multiply with 255 self.rgb = tuple(channel * 255.0 for channel in list(self.rgb)[:-1]) elif isinstance(color, (list, tuple)): self.rgb = tuple(color) elif self.hex_str_re.match(color): self.rgb = Color.parse_str(color)[1] else: raise ValueError("Invalid color: " + repr(color)) self.name = name self.number = number self.manufacturer = manufacturer def __json__(self): jsonified = self._as_dict() jsonified["visible_on_white"] = self.visible_on_white._as_dict() return jsonified def _as_dict(self): return dict(name=self.name, number=self.number, manufacturer=self.manufacturer, rgb=self.rgb, hex=self.to_hex_str(), ) def __eq__(self, other): if isinstance(other, ThreadColor): return self.rgb == other.rgb else: return self == ThreadColor(other) def __hash__(self): return hash(self.rgb) def __ne__(self, other): return not(self == other) def __repr__(self): return "ThreadColor" + repr(self.rgb) def to_hex_str(self): return "#%s" % self.hex_digits @property def pyembroidery_thread(self): return { "name": self.name, "id": self.number, "manufacturer": self.manufacturer, "rgb": int(self.hex_digits, 16), } @property def hex_digits(self): return "%02X%02X%02X" % tuple([int(x) for x in self.rgb]) @property def rgb_normalized(self): return tuple(channel / 255.0 for channel in self.rgb) @property def font_color(self): """Pick a color that will allow text to show up on a swatch in the printout.""" hls = colorsys.rgb_to_hls(*self.rgb_normalized) # We'll use white text unless the swatch color is too light. if hls[1] > 0.7: return (1, 1, 1) else: return (254, 254, 254) @property def visible_on_white(self): """A ThreadColor similar to this one but visible on white. If the thread color is white, we don't want to try to draw white in the simulation view or print white in the print-out. Choose a color that's as close as possible to the actual thread color but is still at least somewhat visible on a white background. """ hls = list(colorsys.rgb_to_hls(*self.rgb_normalized)) # Capping lightness should make the color visible without changing it # too much. if hls[1] > 0.85: hls[1] = 0.85 color = colorsys.hls_to_rgb(*hls) # convert back to values in the range of 0-255 color = tuple(value * 255 for value in color) return ThreadColor(color, name=self.name, number=self.number, manufacturer=self.manufacturer) @property def darker(self): hls = list(colorsys.rgb_to_hls(*self.rgb_normalized)) # Capping lightness should make the color visible without changing it # too much. hls[1] *= 0.75 color = colorsys.hls_to_rgb(*hls) # convert back to values in the range of 0-255 color = tuple(value * 255 for value in color) return ThreadColor(color, name=self.name, number=self.number, manufacturer=self.manufacturer)