231 lines
8.1 KiB
Python
Executable File
231 lines
8.1 KiB
Python
Executable File
#!/usr/bin/env python3
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import os
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import sys
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from pathlib import Path
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import argparse
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PALETTES = {
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"catppuccin-mocha": {
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"rosewater": "f5e0dc",
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"flamingo": "f2cdcd",
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"pink": "f5c2e7",
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"mauve": "cba6f7",
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"red": "f38ba8",
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"maroon": "eba0ac",
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"peach": "fab387",
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"yellow": "f9e2af",
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"green": "a6e3a1",
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"teal": "94e2d5",
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"sky": "89dceb",
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"sapphire": "74c7ec",
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"blue": "89b4fa",
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"lavender": "b4befe",
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},
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}
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# CONFIG_DIR = ${dotfiles_root}/config
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CONFIG_DIR = Path(__file__).resolve().parent.resolve().parent.resolve() / "config"
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# An application may have multiple scripts (e.g. due to config-switch)
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SCRIPTS = {
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"eww": [CONFIG_DIR / "eww" / "apply-color"],
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"fastfetch": [CONFIG_DIR / "fastfetch" / "apply-color"],
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"fuzzel": [CONFIG_DIR / "fuzzel" / "apply-color"],
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"hypr": [CONFIG_DIR / "hypr" / "apply-color"],
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"kvantum": [CONFIG_DIR / "fish" / "apply-color-kvantum"], # borrowing fish's directory
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"mako": [CONFIG_DIR / "mako" / "apply-color"],
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"niri": [CONFIG_DIR / "niri" / "apply-color"],
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"oh-my-posh": [CONFIG_DIR / "fish" / "apply-color-omp"], # borrowing fish's directory
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"quickshell": [CONFIG_DIR / "quickshell" / "apply-color"],
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"rofi": [CONFIG_DIR / "rofi" / "apply-color"],
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"waybar": [CONFIG_DIR / "waybar" / "apply-color"],
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"wlogout": [CONFIG_DIR / "wlogout" / "apply-color", CONFIG_DIR / "wlogout-niri" / "apply-color"],
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"yazi": [CONFIG_DIR / "yazi" / "apply-color"],
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}
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# or simply `find ${CONFIG_DIR} -type f -iname 'apply-color*'` to get all available scripts,
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# but I need the exact application names anyway, so hardcoding does make some sense
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def hex2rgb(hex_color: str) -> tuple[int, int, int]:
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return tuple(int(hex_color[i:i + 2], 16) for i in (0, 2, 4)) # type: ignore
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def extract_color(image_path: str) -> str:
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from colorthief import ColorThief
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return "#{:02x}{:02x}{:02x}".format(*ColorThief(image_path).get_color(quality=10))
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def match_color(color: str, palette: dict[str, str]) -> str:
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""" Matches a given color (rrggbb hex) to the closest color in the palette."""
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# HUE distance of the given and returned color must no<t exceed this value
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HUE_THRESHOLD = 60.0 # degrees
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color = color.lower().strip().removeprefix('#')
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# weigh by CCIR 601 luminosity
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fr, fg, fb = 0.299 / 255 / 255, 0.587 / 255 / 255, 0.114 / 255 / 255
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lfr, lfg, lfb = 0.299 / 255, 0.587 / 255, 0.114 / 255
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def color_distance(c1: str, c2: str) -> float:
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r1, g1, b1 = hex2rgb(c1)
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r2, g2, b2 = hex2rgb(c2)
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diff_l = (lfr * (r1 - r2) + lfg * (g1 - g2) + lfb * (b1 - b2))
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diff_r = fr * (r1 - r2) ** 2
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diff_g = fg * (g1 - g2) ** 2
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diff_b = fb * (b1 - b2) ** 2
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return (diff_r + diff_g + diff_b) * 0.75 + diff_l ** 2
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def color_distance_hue(c1: str, c2: str) -> float:
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def rgb2hue(r, g, b) -> float:
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r, g, b = r / 255.0, g / 255.0, b / 255.0
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mx = max(r, g, b)
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mn = min(r, g, b)
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diff = mx - mn
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if diff == 0:
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return 0.0
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if mx == r:
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hue = (g - b) / diff + (6 if g < b else 0)
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elif mx == g:
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hue = (b - r) / diff + 2
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else:
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hue = (r - g) / diff + 4
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return hue * 60
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r1, g1, b1 = hex2rgb(c1)
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r2, g2, b2 = hex2rgb(c2)
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return abs(rgb2hue(r1, g1, b1) - rgb2hue(r2, g2, b2))
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closest_color = min(palette.keys(), key=lambda k: color_distance(color, palette[k]))
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print(f"Matched color {color} to {closest_color}")
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# if the hue distance is too large, rematch
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if color_distance_hue(color, palette[closest_color]) > HUE_THRESHOLD:
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print(f"Color {color} is too far from {closest_color}, rematching'")
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else:
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return closest_color
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closest_color = min(palette.keys(), key=lambda k: color_distance_hue(color, palette[k]))
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print(f"Rematched color {color} to {closest_color}")
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return closest_color
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def pick_flavor(palette: dict[str, str]) -> str:
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def is_interactive() -> bool:
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return sys.stdin.isatty() and sys.stdout.isatty()
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def is_truecolor() -> bool:
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colorterm = os.environ.get('COLORTERM', '')
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term = os.environ.get('TERM', '')
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return (
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'truecolor' in colorterm or
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'24bit' in colorterm or
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term.endswith('-256color')
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)
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if is_interactive():
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isTruecolor = is_truecolor()
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print("Available flavors:")
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for i, flavor in enumerate(palette.keys(), 1):
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r, g, b = hex2rgb(palette[flavor])
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if isTruecolor:
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print(f"\033[38;2;{r};{g};{b}m█ {i}. {flavor}: #{palette[flavor]}\033[0m")
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else:
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print(f"{i}. {flavor}")
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while True:
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choice = input("Pick a flavor by number: ")
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if choice.isdigit() and 1 <= int(choice) <= len(palette):
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return list(palette.keys())[int(choice) - 1]
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print("Invalid choice. Try again.")
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else:
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print("No flavor specified.")
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sys.exit(1)
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def main():
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parser = argparse.ArgumentParser(description="Change color theme for various applications.")
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parser.add_argument('-i', '--image', type=str, help="Path to the image")
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parser.add_argument('-f', '--flavor', type=str, help="Flavor to apply")
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parser.add_argument('-c', '--color', type=str, help="Color to match from the palette")
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parser.add_argument('arguments', nargs='*',
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help="'app1 !app2' to include(only) / exclude(all but) specific applications. "
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"Available apps: " + ', '.join(SCRIPTS.keys()))
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arguments = parser.parse_args()
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# for future use, probably
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def parse_palette_name() -> str:
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return "catppuccin-mocha"
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def parse_flavor(palette: dict[str, str]) -> str:
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if arguments.flavor:
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if arguments.flavor not in palette:
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print(f"Unknown flavor: {arguments.flavor}. Available flavors: {', '.join(palette.keys())}")
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sys.exit(1)
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flavor = arguments.flavor
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elif arguments.color:
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flavor = match_color(arguments.color, palette)
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print(f"Matched color: {flavor}")
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elif arguments.image:
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if not Path(arguments.image).exists():
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print(f"Image file {arguments.image} does not exist.")
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sys.exit(1)
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color = extract_color(arguments.image)
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print(f"Extracted color {color} from image {arguments.image}")
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flavor = match_color(color, palette)
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print(f"Matched color: {flavor}")
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else:
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flavor = pick_flavor(palette)
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return flavor
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def parse_apps() -> tuple[set[str], set[str]]:
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includes = set()
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excludes = set()
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for arg in arguments.arguments:
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if arg.startswith('!'):
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excludes.add(arg[1:])
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else:
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includes.add(arg)
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return includes, excludes
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palette_name = parse_palette_name()
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palette = PALETTES[palette_name]
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flavor = parse_flavor(palette)
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includes, excludes = parse_apps()
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apps = set()
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if includes:
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print(f"Including only: {', '.join(includes)}")
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for app in includes:
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if app in SCRIPTS:
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apps.add(app)
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else:
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print(f"Unknown application: {app}. Available applications: {', '.join(SCRIPTS.keys())}")
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sys.exit(1)
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else:
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apps = set(SCRIPTS.keys())
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if excludes:
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print(f"Excluding: {', '.join(excludes)}")
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apps -= excludes
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print(f"Applying flavor '{flavor}' for {len(apps)} applications.")
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for app in apps:
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for script in SCRIPTS[app]:
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print(f"Running {script}:")
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ret = os.system(f'"{script}" {palette_name} {flavor} {palette[flavor]}')
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print(f"{script} exited with code {ret}")
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print("")
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os.system(
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f'notify-send -a "change-colortheme" "Colortheme Changed" "Palette: {palette_name};\nFlavor: {flavor};\nApplied to {len(apps)} applications."')
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if __name__ == "__main__":
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main()
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