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import argparse
from pathlib import Path
import matplotlib.colors as mcolors
import matplotlib.pyplot as plt
import numpy as np
from hilbertcurve.hilbertcurve import HilbertCurve
from check import plot_preds
# Extract XKCD colors
colors = list(mcolors.XKCD_COLORS.keys())
rgb_values = [mcolors.to_rgb(mcolors.XKCD_COLORS[color]) for color in colors]
# Parse command-line arguments
parser = argparse.ArgumentParser()
parser.add_argument("-s", "--sort-by", type=str, default="hsv", help="kind of sorting")
parser.add_argument("--seed", type=int, default=21, help="seed for UMAP")
parser.add_argument("--dpi", type=int, default=300, help="dpi for saving")
parser.add_argument("--size", type=float, default=6.0, help="size of figure")
parser.add_argument(
"--fontsize",
type=float,
default=0,
help="fontsize of annotation (default: 0 = None)",
)
parser.add_argument(
"--radius", type=float, default=1 / 2, help="inner radius of circle"
)
args = parser.parse_args()
KIND = args.sort_by
SEED = args.seed
DPI = args.dpi
SIZE = args.size
FONTSIZE = args.fontsize
INNER_RADIUS = args.radius
DIR = "/teamspace/studios/this_studio/colors/colors-umap"
prefix = ""
if KIND == "umap":
prefix = f"{SEED:04d}"
FDIR = DIR
else:
FDIR = f"{DIR}/{KIND}"
Path(FDIR).mkdir(exist_ok=True, parents=True)
fname = f"{FDIR}/v{prefix}.png"
if KIND in ("lex", "alpha", "abc"):
preds = np.array(colors)
elif KIND == "umap":
# from umap import UMAP
from cuml import UMAP
# Use UMAP to create a 1D representation
reducer = UMAP(
n_components=1,
n_neighbors=250,
min_dist=1e-2,
metric="euclidean",
random_state=SEED,
negative_sample_rate=2,
)
embedding = reducer.fit_transform(np.array(rgb_values))
# Sort colors by the 1D representation
preds = embedding[:, 0]
del reducer, embedding
elif KIND in ("cielab", "lab", "ciede2000"):
from skimage.color import deltaE_ciede2000, rgb2lab
# CIELAB
# Convert RGB values to CIELAB
lab_values = rgb2lab([rgb_values])
# Reference color for sorting (can be the first color or any other reference point)
reference_color = lab_values[0]
# Compute CIEDE2000 distances of all colors to the reference color
distances = [deltaE_ciede2000(reference_color, color) for color in lab_values]
# Sort colors by their CIEDE2000 distance to the reference color
# preds = distances).flatten() # awful
lab_values_flat = lab_values.reshape(-1, 3)
# Sort colors based on the L* value in the CIELAB space
# 0 corresponds to the L* channel
preds = lab_values_flat[:, 0]
elif KIND == "hsv":
from matplotlib.colors import rgb_to_hsv
# Convert RGB values to HSV
hsv_values = np.array([rgb_to_hsv(np.array(rgb)) for rgb in rgb_values])
# Sort colors based on the hue value
# 0 corresponds to the hue component
preds = hsv_values[:, 0]
else:
raise ValueError(f"Unknown kind: {KIND}")
sorted_indices = np.argsort(preds)
# Save the sorted indices to disk
# if (KIND == "umap") or (KIND != "umap"):
PDIR = f"scripts/{KIND}"
Path(PDIR).mkdir(parents=True, exist_ok=True)
file_path = f"{PDIR}/{SEED:06d}.npy"
np.save(file_path, preds.ravel())
print(f"Predictions saved to {file_path}")
# Sort colors by the 1D representation
sorted_colors = [colors[i] for i in sorted_indices]
plot_preds(
preds,
np.array(rgb_values),
fname,
roll=False,
dpi=DPI,
inner_radius=INNER_RADIUS,
figsize=(SIZE, SIZE),
fsize=FONTSIZE,
label=f"{KIND.upper()}",
)
print(f"saved {fname}")
HILBERT = False
if HILBERT:
# Create Hilbert curve
# We'll set the order such that the number of positions is greater than or equal to the number of colors
hilbert_order = int(np.ceil(0.5 * np.log2(len(sorted_colors))))
hilbert_curve = HilbertCurve(hilbert_order, 2)
# Create an image for visualization
image_size = 2**hilbert_order
image = np.ones((image_size, image_size, 3))
for i, color in enumerate(sorted_colors):
# Convert linear index to Hilbert coordinates
coords = hilbert_curve.point_from_distance(i)
image[coords[1], coords[0]] = mcolors.to_rgb(color)
# annotation in upper right
# Display the image
fig, ax = plt.subplots(1, 1, figsize=(SIZE, SIZE))
ax.imshow(image)
ax.annotate(
f"{KIND.upper()}",
(1.0, 1.0),
ha="right",
va="top",
size=FONTSIZE,
xycoords="axes fraction",
)
ax.axis("off")
ax.set_aspect("equal")
fig.tight_layout()
fname = f"{DIR}/{prefix}{KIND}_sorted_colors_hilbert.png"
fig.savefig(
fname,
dpi=DPI,
transparent=True,
# bbox_inches="tight",
# pad_inches=0
)
print(f"Saved {fname}")