feat: generate dynamic schemes

2025-06-12 15:48:02 +10:00
parent 2161e3ee6b
commit 194826efaa
6 changed files with 405 additions and 8 deletions
@@ -0,0 +1,52 @@
 import json
 from pathlib import Path
 from materialyoucolor.hct import Hct
 from caelestia.utils.material.generator import gen_scheme
 from caelestia.utils.material.score import score
 from caelestia.utils.paths import compute_hash, scheme_cache_dir, wallpaper_thumbnail_path
 def get_score_for_image(image: str, cache_base: Path) -> tuple[list[Hct], list[Hct]]:
    cache = cache_base / "score.json"
    try:
        with cache.open("r") as f:
            return [[Hct.from_int(c) for c in li] for li in json.load(f)]
    except (IOError, json.JSONDecodeError):
        pass
    s = score(image)
    cache.parent.mkdir(parents=True, exist_ok=True)
    with cache.open("w") as f:
        json.dump([[c.to_int() for c in li] for li in s], f)
    return s
 def get_colours_for_image(image: str = str(wallpaper_thumbnail_path), scheme=None) -> dict[str, str]:
    if scheme is None:
        from caelestia.utils.scheme import get_scheme
        scheme = get_scheme()
    cache_base = scheme_cache_dir / compute_hash(image)
    cache = (cache_base / scheme.variant / scheme.flavour / scheme.mode).with_suffix(".json")
    try:
        with cache.open("r") as f:
            return json.load(f)
    except (IOError, json.JSONDecodeError):
        pass
    primaries, colours = get_score_for_image(image, cache_base)
    i = ["default", "alt1", "alt2"].index(scheme.flavour)
    scheme = gen_scheme(scheme, primaries[i], colours)
    cache.parent.mkdir(parents=True, exist_ok=True)
    with cache.open("w") as f:
        json.dump(scheme, f)
    return scheme
@@ -0,0 +1,192 @@
 from materialyoucolor.blend import Blend
 from materialyoucolor.dynamiccolor.material_dynamic_colors import (
    DynamicScheme,
    MaterialDynamicColors,
 )
 from materialyoucolor.hct import Hct
 from materialyoucolor.hct.cam16 import Cam16
 from materialyoucolor.scheme.scheme_content import SchemeContent
 from materialyoucolor.scheme.scheme_expressive import SchemeExpressive
 from materialyoucolor.scheme.scheme_fidelity import SchemeFidelity
 from materialyoucolor.scheme.scheme_fruit_salad import SchemeFruitSalad
 from materialyoucolor.scheme.scheme_monochrome import SchemeMonochrome
 from materialyoucolor.scheme.scheme_neutral import SchemeNeutral
 from materialyoucolor.scheme.scheme_rainbow import SchemeRainbow
 from materialyoucolor.scheme.scheme_tonal_spot import SchemeTonalSpot
 from materialyoucolor.scheme.scheme_vibrant import SchemeVibrant
 def hex_to_hct(hex: str) -> Hct:
    return Hct.from_int(int(f"0xFF{hex}", 16))
 light_colours = [
    hex_to_hct("dc8a78"),
    hex_to_hct("dd7878"),
    hex_to_hct("ea76cb"),
    hex_to_hct("8839ef"),
    hex_to_hct("d20f39"),
    hex_to_hct("e64553"),
    hex_to_hct("fe640b"),
    hex_to_hct("df8e1d"),
    hex_to_hct("40a02b"),
    hex_to_hct("179299"),
    hex_to_hct("04a5e5"),
    hex_to_hct("209fb5"),
    hex_to_hct("1e66f5"),
    hex_to_hct("7287fd"),
 ]
 dark_colours = [
    hex_to_hct("f5e0dc"),
    hex_to_hct("f2cdcd"),
    hex_to_hct("f5c2e7"),
    hex_to_hct("cba6f7"),
    hex_to_hct("f38ba8"),
    hex_to_hct("eba0ac"),
    hex_to_hct("fab387"),
    hex_to_hct("f9e2af"),
    hex_to_hct("a6e3a1"),
    hex_to_hct("94e2d5"),
    hex_to_hct("89dceb"),
    hex_to_hct("74c7ec"),
    hex_to_hct("89b4fa"),
    hex_to_hct("b4befe"),
 ]
 colour_names = [
    "rosewater",
    "flamingo",
    "pink",
    "mauve",
    "red",
    "maroon",
    "peach",
    "yellow",
    "green",
    "teal",
    "sky",
    "sapphire",
    "blue",
    "lavender",
    "success",
    "error",
 ]
 def grayscale(colour: Hct, light: bool) -> None:
    colour.chroma = 0
 def mix(a: Hct, b: Hct, w: float) -> Hct:
    return Hct.from_int(Blend.cam16_ucs(a.to_int(), b.to_int(), w))
 def harmonize(a: Hct, b: Hct) -> Hct:
    return Hct.from_int(Blend.harmonize(a.to_int(), b.to_int()))
 def lighten(colour: Hct, amount: float) -> Hct:
    diff = (100 - colour.tone) * amount
    return Hct.from_hct(colour.hue, colour.chroma + diff / 2, colour.tone + diff)
 def darken(colour: Hct, amount: float) -> Hct:
    diff = colour.tone * amount
    return Hct.from_hct(colour.hue, colour.chroma + diff / 2, colour.tone - diff)
 def distance(colour: Cam16, base: Cam16) -> float:
    return colour.distance(base)
 def smart_sort(colours: list[Hct], base: list[Hct]) -> dict[str, Hct]:
    sorted_colours = [None] * len(colours)
    distances = {}
    cams = [(c, Cam16.from_int(c.to_int())) for c in colours]
    base_cams = [Cam16.from_int(c.to_int()) for c in base]
    for colour, cam in cams:
        dist = [(i, distance(cam, b)) for i, b in enumerate(base_cams)]
        dist.sort(key=lambda x: x[1])
        distances[colour] = dist
    for colour in colours:
        while len(distances[colour]) > 0:
            i, dist = distances[colour][0]
            if sorted_colours[i] is None:
                sorted_colours[i] = colour, dist
                break
            elif sorted_colours[i][1] > dist:
                old = sorted_colours[i][0]
                sorted_colours[i] = colour, dist
                colour = old
            distances[colour].pop(0)
    return {colour_names[i]: c[0] for i, c in enumerate(sorted_colours)}
 def get_scheme(scheme: str) -> DynamicScheme:
    if scheme == "content":
        return SchemeContent
    if scheme == "expressive":
        return SchemeExpressive
    if scheme == "fidelity":
        return SchemeFidelity
    if scheme == "fruitsalad":
        return SchemeFruitSalad
    if scheme == "monochrome":
        return SchemeMonochrome
    if scheme == "neutral":
        return SchemeNeutral
    if scheme == "rainbow":
        return SchemeRainbow
    if scheme == "tonalspot":
        return SchemeTonalSpot
    return SchemeVibrant
 def gen_scheme(scheme, primary: Hct, colours: list[Hct]) -> dict[str, str]:
    light = scheme.mode == "light"
    base = light_colours if light else dark_colours
    # Sort colours and turn into dict
    colours = smart_sort(colours, base)
    # Harmonize colours
    for name, hct in colours.items():
        if scheme.variant == "monochrome":
            grayscale(hct, light)
        else:
            harmonized = harmonize(hct, primary)
            colours[name] = darken(harmonized, 0.35) if light else lighten(harmonized, 0.65)
    # Material colours
    primary_scheme = get_scheme(scheme.variant)(primary, not light, 0)
    for colour in vars(MaterialDynamicColors).keys():
        colour_name = getattr(MaterialDynamicColors, colour)
        if hasattr(colour_name, "get_hct"):
            colours[colour] = colour_name.get_hct(primary_scheme)
    # FIXME: deprecated stuff
    colours["text"] = colours["onBackground"]
    colours["subtext1"] = colours["onSurfaceVariant"]
    colours["subtext0"] = colours["outline"]
    colours["overlay2"] = mix(colours["surface"], colours["outline"], 0.86)
    colours["overlay1"] = mix(colours["surface"], colours["outline"], 0.71)
    colours["overlay0"] = mix(colours["surface"], colours["outline"], 0.57)
    colours["surface2"] = mix(colours["surface"], colours["outline"], 0.43)
    colours["surface1"] = mix(colours["surface"], colours["outline"], 0.29)
    colours["surface0"] = mix(colours["surface"], colours["outline"], 0.14)
    colours["base"] = colours["surface"]
    colours["mantle"] = darken(colours["surface"], 0.03)
    colours["crust"] = darken(colours["surface"], 0.05)
    colours["success"] = harmonize(base[8], primary)
    # For debugging
    print("\n".join(["{}: \x1b[48;2;{};{};{}m   \x1b[0m".format(n, *c.to_rgba()[:3]) for n, c in colours.items()]))
    return {k: hex(v.to_int())[4:] for k, v in colours.items()}
@@ -0,0 +1,129 @@
 #!/usr/bin/env python
 import sys
 from materialyoucolor.dislike.dislike_analyzer import DislikeAnalyzer
 from materialyoucolor.hct import Hct
 from materialyoucolor.quantize import ImageQuantizeCelebi
 from materialyoucolor.utils.math_utils import difference_degrees, sanitize_degrees_int
 class Score:
    TARGET_CHROMA = 48.0
    WEIGHT_PROPORTION = 0.7
    WEIGHT_CHROMA_ABOVE = 0.3
    WEIGHT_CHROMA_BELOW = 0.1
    CUTOFF_CHROMA = 5.0
    CUTOFF_EXCITED_PROPORTION = 0.01
    def __init__(self):
        pass
    @staticmethod
    def score(colors_to_population: dict) -> tuple[list[Hct], list[Hct]]:
        desired = 14
        filter_enabled = True
        dislike_filter = True
        colors_hct = []
        hue_population = [0] * 360
        population_sum = 0
        for rgb, population in colors_to_population.items():
            hct = Hct.from_int(rgb)
            colors_hct.append(hct)
            hue = int(hct.hue)
            hue_population[hue] += population
            population_sum += population
        hue_excited_proportions = [0.0] * 360
        for hue in range(360):
            proportion = hue_population[hue] / population_sum
            for i in range(hue - 14, hue + 16):
                neighbor_hue = int(sanitize_degrees_int(i))
                hue_excited_proportions[neighbor_hue] += proportion
        # Score colours
        scored_hct = []
        for hct in colors_hct:
            hue = int(sanitize_degrees_int(round(hct.hue)))
            proportion = hue_excited_proportions[hue]
            if filter_enabled and (hct.chroma < Score.CUTOFF_CHROMA or proportion <= Score.CUTOFF_EXCITED_PROPORTION):
                continue
            proportion_score = proportion * 100.0 * Score.WEIGHT_PROPORTION
            chroma_weight = Score.WEIGHT_CHROMA_BELOW if hct.chroma < Score.TARGET_CHROMA else Score.WEIGHT_CHROMA_ABOVE
            chroma_score = (hct.chroma - Score.TARGET_CHROMA) * chroma_weight
            score = proportion_score + chroma_score
            scored_hct.append({"hct": hct, "score": score})
        scored_hct.sort(key=lambda x: x["score"], reverse=True)
        # Choose distinct colours
        chosen_colors = []
        for difference_degrees_ in range(90, 0, -1):
            chosen_colors.clear()
            for item in scored_hct:
                hct = item["hct"]
                duplicate_hue = any(
                    difference_degrees(hct.hue, chosen_hct.hue) < difference_degrees_ for chosen_hct in chosen_colors
                )
                if not duplicate_hue:
                    chosen_colors.append(hct)
                if len(chosen_colors) >= desired:
                    break
            if len(chosen_colors) >= desired:
                break
        # Get primary colour
        primary = None
        for cutoff in range(20, 0, -1):
            for item in scored_hct:
                if item["hct"].chroma > cutoff and item["hct"].tone > cutoff * 3:
                    primary = item["hct"]
                    break
            if primary:
                break
        # Choose distinct primaries
        chosen_primaries = [primary]
        for difference_degrees_ in range(90, 14, -1):
            chosen_primaries = [primary]
            for item in scored_hct:
                hct = item["hct"]
                duplicate_hue = any(
                    difference_degrees(hct.hue, chosen_hct.hue) < difference_degrees_ for chosen_hct in chosen_primaries
                )
                if not duplicate_hue:
                    chosen_primaries.append(hct)
                if len(chosen_primaries) >= 3:
                    break
            if len(chosen_primaries) >= 3:
                break
        # Fix disliked colours
        if dislike_filter:
            for i, chosen_hct in enumerate(chosen_primaries):
                chosen_primaries[i] = DislikeAnalyzer.fix_if_disliked(chosen_hct)
            for i, chosen_hct in enumerate(chosen_colors):
                chosen_colors[i] = DislikeAnalyzer.fix_if_disliked(chosen_hct)
        return chosen_primaries, chosen_colors
 def score(image: str) -> tuple[list[Hct], list[Hct]]:
    return Score.score(ImageQuantizeCelebi(image, 1, 128))
 if __name__ == "__main__":
    img = sys.argv[1]
    mode = sys.argv[2] if len(sys.argv) > 2 else "hex"
    colours = Score.score(ImageQuantizeCelebi(img, 1, 128))
    for t in colours:
        if mode != "hex":
            print("".join(["\x1b[48;2;{};{};{}m   \x1b[0m".format(*c.to_rgba()[:3]) for c in t]))
        if mode != "swatch":
            print(" ".join(["{:02X}{:02X}{:02X}".format(*c.to_rgba()[:3]) for c in t]))
@@ -1,16 +1,33 @@
 import hashlib
 import os
 from pathlib import Path
 config_dir = Path(os.getenv("XDG_CONFIG_HOME", Path.home() / ".config"))
 data_dir = Path(os.getenv("XDG_DATA_HOME", Path.home() / ".local/share"))
 state_dir = Path(os.getenv("XDG_STATE_HOME", Path.home() / ".local/state"))
 cache_dir = Path(os.getenv("XDG_CACHE_HOME", Path.home() / ".cache"))
 c_config_dir = config_dir / "caelestia"
 c_data_dir = data_dir / "caelestia"
 c_state_dir = state_dir / "caelestia"
 c_cache_dir = cache_dir / "caelestia"
 cli_data_dir = Path(__file__).parent.parent / "data"
 templates_dir = cli_data_dir / "templates"
 scheme_path = c_state_dir / "scheme.json"
-scheme_data_path = cli_data_dir / "schemes"
+scheme_data_dir = cli_data_dir / "schemes"
 scheme_cache_dir = c_cache_dir / "schemes"
 last_wallpaper_path = c_state_dir / "wallpaper/last.txt"
 wallpaper_thumbnail_path = c_state_dir / "wallpaper/thumbnail.jpg"
 def compute_hash(path: str) -> str:
    sha = hashlib.sha256()
    with open(path, "rb") as f:
        while chunk := f.read(8192):
            sha.update(chunk)
    return sha.hexdigest()
@@ -1,7 +1,8 @@
 import json
 from pathlib import Path
-from caelestia.utils.paths import scheme_data_path, scheme_path
+from caelestia.utils.material import get_colours_for_image
 from caelestia.utils.paths import scheme_data_dir, scheme_path
 class Scheme:
@@ -89,7 +90,7 @@ class Scheme:
        return self._colours
    def get_colours_path(self) -> Path:
-        return (scheme_data_path / self.name / self.flavour / self.mode).with_suffix(".txt")
+        return (scheme_data_dir / self.name / self.flavour / self.mode).with_suffix(".txt")
    def save(self) -> None:
        scheme_path.parent.mkdir(parents=True, exist_ok=True)
@@ -118,7 +119,10 @@ class Scheme:
            self._mode = get_scheme_modes()[0]
    def _update_colours(self) -> None:
-        self._colours = read_colours_from_file(self.get_colours_path())
+        if self.name == "dynamic":
            self._colours = get_colours_for_image()
        else:
            self._colours = read_colours_from_file(self.get_colours_path())
    def __str__(self) -> str:
        return f"Scheme(name={self.name}, flavour={self.flavour}, mode={self.mode}, variant={self.variant})"
@@ -168,7 +172,7 @@ def get_scheme_names() -> list[str]:
    global scheme_names
    if scheme_names is None:
-        scheme_names = [f.name for f in scheme_data_path.iterdir() if f.is_dir()]
+        scheme_names = [f.name for f in scheme_data_dir.iterdir() if f.is_dir()]
        scheme_names.append("dynamic")
    return scheme_names
@@ -182,7 +186,7 @@ def get_scheme_flavours() -> list[str]:
        if name == "dynamic":
            scheme_flavours = ["default", "alt1", "alt2"]
        else:
-            scheme_flavours = [f.name for f in (scheme_data_path / name).iterdir() if f.is_dir()]
+            scheme_flavours = [f.name for f in (scheme_data_dir / name).iterdir() if f.is_dir()]
    return scheme_flavours
@@ -192,6 +196,9 @@ def get_scheme_modes() -> list[str]:
    if scheme_modes is None:
        scheme = get_scheme()
-        scheme_modes = [f.stem for f in (scheme_data_path / scheme.name / scheme.flavour).iterdir() if f.is_file()]
+        if scheme.name == "dynamic":
            scheme_modes = ["light", "dark"]
        else:
            scheme_modes = [f.stem for f in (scheme_data_dir / scheme.name / scheme.flavour).iterdir() if f.is_file()]
    return scheme_modes
@@ -115,7 +115,7 @@ def apply_btop(colours: dict[str, str]) -> None:
 def apply_colours(colours: dict[str, str], mode: str) -> None:
    apply_terms(gen_sequences(colours))
-    apply_hypr(gen_conf(colours))
+    apply_hypr(gen_conf(colours))  # FIXME: LAGGY
    apply_discord(gen_scss(colours))
    apply_spicetify(colours, mode)
    apply_fuzzel(colours)