def test_lightness(self): """Test `lightness`.""" c = Color('color(--okhsl 120 50% 90% / 1)') self.assertEqual(c.lightness, 0.9) c.lightness = 0.8 self.assertEqual(c.lightness, 0.8)
def test_lightness(self): """Test `lightness`.""" c = Color('color(--lchuv 90% 50 120 / 1)') self.assertEqual(c.lightness, 90) c.lightness = 80 self.assertEqual(c.lightness, 80)
def setup_image_border(self): """Setup_image_border.""" ch_settings = sublime.load_settings('color_helper.sublime-settings') border_color = ch_settings.get('image_border_color') if border_color is not None: try: border_color = Color(border_color, filters=util.SRGB_SPACES) border_color.fit("srgb", in_place=True) except Exception: border_color = None if border_color is None: # Calculate border color for images border_color = Color(self.view.style()['background'], filters=util.SRGB_SPACES).convert("hsl") border_color.lightness = border_color.lightness + ( 30 if border_color.luminance() < 0.5 else -30) self.default_border = border_color.convert("srgb").to_string(**HEX) self.out_of_gamut = Color("transparent", filters=util.SRGB_SPACES).to_string(**HEX) self.out_of_gamut_border = Color( self.view.style().get('redish', "red"), filters=util.SRGB_SPACES).to_string(**HEX)
def test_lightness(self): """Test `lightness`.""" c = Color('color(--oklab 1 0.2 -0.3 / 1)') self.assertEqual(c.lightness, 1) c.lightness = 0.2 self.assertEqual(c.lightness, 0.2)
def test_lightness(self): """Test `lightness`.""" c = Color('color(--hsluv 120 50% 90% / 1)') self.assertEqual(c.lightness, 90) c.lightness = 80 self.assertEqual(c.lightness, 80)
def get_color_map_square(self): """Get a square variant of the color map.""" global color_map global color_map_size global line_height global default_border global color_scale global last_saturation s = self.color.convert("hsl").saturation # Only update if the last time we rendered we changed # something that would require a new render. if (color_map is None or s != last_saturation or self.graphic_size != color_map_size or self.graphic_scale != color_scale or self.line_height != line_height or self.default_border != default_border): color_map_size = self.graphic_size color_scale = self.graphic_scale line_height = self.line_height default_border = self.default_border html_colors = [] # Generate the colors with each row being dark than the last. # Each column will progress through hues. color = Color("hsl(0 {}% 90%)".format(s), filters=util.SRGB_SPACES) hfac = 24.0 lfac = 8.0 check_size = self.check_size(self.height) for y in range(0, 11): html_colors.append([self.get_spacer(width=5)]) for x in range(0, 15): value = color.convert("srgb").to_string(**HEX) kwargs = { "border_size": BORDER_SIZE, "height": self.height, "width": self.width, "check_size": check_size } if y == 0 and x == 0: border_map = colorbox.TOP | colorbox.LEFT elif y == 0 and x == 14: border_map = colorbox.TOP | colorbox.RIGHT elif y == 0: border_map = colorbox.TOP elif y == 10 and x == 0: border_map = colorbox.BOTTOM | colorbox.LEFT elif y == 10 and x == 14: border_map = colorbox.BOTTOM | colorbox.RIGHT elif y == 10: border_map = colorbox.BOTTOM elif x == 0: border_map = colorbox.LEFT elif x == 14: border_map = colorbox.RIGHT else: border_map = 0 kwargs["border_map"] = border_map html_colors[-1].append('<a href="{}">{}</a>'.format( color.to_string(**COLOR_FULL_PREC), mdpopups.color_box([value], self.default_border, **kwargs))) color.hue = color.hue + hfac color.hue = 0.0 color.lightness = color.lightness - lfac # Generate a grayscale bar. lfac = 10.0 color = Color('hsl(0 0% 100%)', filters=util.SRGB_SPACES) check_size = self.check_size(self.height) for y in range(0, 11): value = color.convert("srgb").to_string(**HEX) kwargs = { "border_size": BORDER_SIZE, "height": self.height, "width": self.width, "check_size": check_size } if y == 0: border_map = 0xb elif y == 10: border_map = 0xe else: border_map = 0xa kwargs["border_map"] = border_map html_colors[y].append('<a href="{}">{}</a>'.format( color.to_string(**COLOR_FULL_PREC), mdpopups.color_box([value], self.default_border, **kwargs))) color.lightness = color.lightness - lfac color_map = (''.join([ '<span>{}</span><br>'.format(''.join([y1 for y1 in x1])) for x1 in html_colors ]) + '\n\n') self.template_vars['color_picker'] = color_map
def do_search(self, force=False): """ Perform the search for the highlighted word. TODO: This function is a big boy. We should look into breaking it up. With that said, this is low priority. """ # Since the plugin has been reloaded, force update. global reload_flag settings = self.view.settings() colors = [] # Allow per view scan override option = settings.get("color_helper.scan_override", None) if option in ("Force enable", "Force disable"): override = option == "Force enable" else: override = None # Get the rules and use them to get the needed scopes. # The scopes will be used to get the searchable regions. rules = util.get_rules(self.view) # Bail if this if this view has no valid rule or scanning is disabled. if (rules is None or not rules.get("enabled", False) or (not rules.get("allow_scanning", True) and not override) or override is False): self.erase_phantoms() return if reload_flag: reload_flag = False force = True # Calculate size of preview boxes box_height = self.calculate_box_size() check_size = int((box_height - 2) / 4) if check_size < 2: check_size = 2 # If desired preview boxes are different than current, # we need to reload the boxes. old_box_height = int(settings.get('color_helper.box_height', 0)) current_color_scheme = settings.get('color_scheme') if (force or old_box_height != box_height or current_color_scheme != settings.get( 'color_helper.color_scheme', '') or settings.get('color_helper.refresh')): self.erase_phantoms() settings.set('color_helper.color_scheme', current_color_scheme) settings.set('color_helper.box_height', box_height) force = True # If we don't need to force previews, # quit if visible region is the same as last time visible_region = self.view.visible_region() if not force and self.previous_region == visible_region: return self.previous_region = visible_region # Setup "preview on select" preview_on_select = ch_settings.get("preview_on_select", False) show_preview = True sel = None if preview_on_select and len(self.view.sel()) != 1: show_preview = False elif preview_on_select: sel = self.view.sel()[0] # Get the scan scopes scanning = rules.get("scanning") classes = rules.get("color_class", "css-level-4") if show_preview and visible_region.size() and scanning and classes: # Get out of gamut related options self.setup_gamut_options() # Get triggers that identify where colors are likely color_trigger = re.compile( rules.get("color_trigger", util.RE_COLOR_START)) # Find source content in the visible region. # We will return consecutive content, but if the lines are too wide # horizontally, they will be clipped and returned as separate chunks. for src_region in self.source_iter(visible_region): source = self.view.substr(src_region) start = 0 # Find colors in this source chunk. for m in color_trigger.finditer(source): # Test if we have found a valid color start = m.start() src_start = src_region.begin() + start # Check if the first point within the color matches our scope rules # and load up the appropriate color class color_class, filters = self.get_color_class( src_start, classes) if color_class is None: continue # Check if scope matches for scanning try: value = self.view.score_selector(src_start, scanning) if not value: continue except Exception: continue obj = color_class.match(source, start=start, filters=filters) if obj is not None: # Calculate true start and end of the color source src_end = src_region.begin() + obj.end region = sublime.Region(src_start, src_end) # If "preview on select" is enabled, only show preview if within a selection # or if the selection as no width and the color comes right after. if (preview_on_select and not (sel.empty() and sel.begin() == region.begin()) and not region.intersects(sel)): continue else: continue # Calculate point at which we which to insert preview position_on_left = preview_is_on_left() pt = src_start if position_on_left else src_end if str(region.begin()) in self.previews: # Already exists continue # Calculate a reasonable border color for our image at this location and get color strings hsl = Color(mdpopups.scope2style( self.view, self.view.scope_name(pt))['background'], filters=util.SRGB_SPACES).convert("hsl") hsl.lightness = hsl.lightness + ( 30 if hsl.luminance() < 0.5 else -30) preview_border = hsl.convert( "srgb", fit=True).to_string(**util.HEX) color = Color(obj.color) title = '' if not color.in_gamut("srgb"): title = ' title="Out of gamut"' if self.show_out_of_gamut_preview: srgb = color.convert("srgb", fit=True) preview1 = srgb.to_string(**util.HEX_NA) preview2 = srgb.to_string(**util.HEX) else: preview1 = self.out_of_gamut preview2 = self.out_of_gamut preview_border = self.out_of_gamut_border else: srgb = color.convert("srgb") preview1 = srgb.to_string(**util.HEX_NA) preview2 = srgb.to_string(**util.HEX) # Create preview unique_id = str(time()) + str(region) html = PREVIEW_IMG.format( unique_id, title, mdpopups.color_box([preview1, preview2], preview_border, height=box_height, width=box_height, border_size=PREVIEW_BORDER_SIZE, check_size=check_size)) colors.append( (html, pt, region.begin(), region.end(), unique_id)) # Add all previews self.add_phantoms(colors) # The phantoms may have altered the viewable region, # so set previous region to the current viewable region self.previous_region = sublime.Region( self.previous_region.begin(), self.view.visible_region().end())