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244 lines
8.2 KiB
244 lines
8.2 KiB
10 months ago
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from typing import List
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import matplotlib.colors as mcolors
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import matplotlib.pyplot as plt
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import numpy as np
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9 months ago
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from matplotlib.font_manager import FontProperties
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pt_mono_font = FontProperties(
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fname="/usr/share/fonts/truetype/PT_Mono/PTMono-Regular.ttf"
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)
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10 months ago
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# set font by default to courier new
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9 months ago
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# plt.rcParams["font.family"] = "PT Mono"
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10 months ago
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# # sort by the proximity to the colors in viridis
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# # Importing necessary functions
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# # Calculate the proximity of each color in XKCD_COLORS to the viridis colormap
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# def calculate_proximity_to_viridis(color):
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# rgb_triple = mcolors.to_rgb(mcolors.XKCD_COLORS[color])
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# distances = [(sum((a - b)**2 for a, b in zip(rgb_triple, viridis(i))), i) for i in range(256)]
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# _, closest_viridis_value = min(distances, key=lambda x: x[0]) # Find the viridis color with the minimum distance
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# return closest_viridis_value / 255 # Normalize to range (0, 1)
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# # Calculate the proximity values for each color
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# proximity_values = {color: calculate_proximity_to_viridis(color) for color in colors}
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# # Sort the colors based on their proximity values
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# sorted_colors = sorted(proximity_values.keys(), key=lambda x: proximity_values[x])
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def create_color_calibration_image(
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colors, ppi: List[int] = [100], index=0, solid_capstyle="butt", antialiased=True
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):
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first_color = colors[0]
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last_color = colors[-1]
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print(f"Processing color range: {first_color} to {last_color}")
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# Conversion factor: 1 inch = dpi pixels
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vert_space = 1 / 2 # inches
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fontsize = 12 # points
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# Figure settings
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fig_width = 4.0 # inches
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fig_height = len(colors) * vert_space
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fig, ax = plt.subplots(figsize=(fig_width, fig_height))
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# plot a vertical black rectangle between x=3 and x=4
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ax.axvspan(0.25, 0.75, facecolor="black")
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# ax.axvspan(-0.325-0.175, -0.125, facecolor="black")
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# Loop through each color
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if index % 2 == 0:
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skip = -1
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else:
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skip = 1
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for idx, color in enumerate(colors[::skip]):
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# print(color)
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y_position = 0.5 - 0.125 + idx * vert_space # Offset each color by 0.3 inches
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# Draw color name
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rgb_triple = mcolors.to_rgb(mcolors.XKCD_COLORS[color])
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# round to 4 decimal places
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rgb_triple = tuple(round(x, 4) for x in rgb_triple)
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# format as string with fixed decimal places
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rgb_triple = ", ".join([f"{x:1.4f}" for x in rgb_triple])
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hex_code = mcolors.to_hex(mcolors.XKCD_COLORS[color])
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ax.text(
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1.0,
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y_position,
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color.replace("xkcd:", ""),
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va="center",
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fontsize=fontsize,
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9 months ago
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fontproperties=pt_mono_font,
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10 months ago
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# bbox=dict(facecolor='gray', alpha=0.21),
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)
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ax.text(
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1.25,
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y_position - 1.5 * fontsize / 72,
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f"{hex_code}\n({rgb_triple})",
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va="center",
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fontsize=6,
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9 months ago
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fontproperties=pt_mono_font,
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10 months ago
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# bbox=dict(facecolor='gray', alpha=0.33),
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)
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# ax.text(
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# 1.125,
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# y_position - 2 * fontsize / 72,
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# f"{hex_code}",
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# va="center",
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# fontsize=fontsize * 0.6,
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9 months ago
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# fontproperties=pt_mono_font,
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10 months ago
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# )
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# Draw color square
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rect_height = 0.25
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rect_width = 0.25
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square_x_start = 0.75 - rect_width / 2 # Offset from the left
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square_y_start = y_position - rect_height # + 0.25
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ax.add_patch(
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plt.Rectangle(
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(square_x_start, square_y_start), rect_width, rect_height, fc=color
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)
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)
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# Draw lines with varying stroke sizes
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line_x_start = 0 # Offset from the left
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line_length = 0.5
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line_y_start = y_position - rect_height - 0.075
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line_widths = [0.25, 0.5, 0.75, 1, 1.25, 1.5, 1.75, 2.0, 3.0][::-1]
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for width in line_widths:
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ax.plot(
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[line_x_start, line_x_start + line_length],
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[line_y_start, line_y_start],
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linewidth=width,
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color=color,
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antialiased=antialiased,
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solid_capstyle=solid_capstyle,
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)
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line_y_start += 0.05
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# # now repeat but vertical of height 1
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# line_x_start = 3.125 - 0.05 # Offset from the left
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# line_y_start = y_position + dpi / 960
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# for width in line_widths:
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# ax.plot(
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# [line_x_start, line_x_start],
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# [line_y_start, line_y_start - 0.5],
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# linewidth=width,
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# color=color,
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# antialiased=True,
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# )
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# ax.plot(
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# [0.5 + line_x_start, 0.5 + line_x_start],
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# [line_y_start, line_y_start - 0.5],
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# linewidth=width,
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# color=color,
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# antialiased=True,
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# )
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# line_x_start += 0.05
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# Save the image
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# Remove axes
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ax.axis("off")
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# ax.set_aspect("equal")
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# plt.tight_layout(pad=0)
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ax.set_ylim([0, fig_height])
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# ax.set_xlim([0, fig_width])
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ax.set_xlim([0, fig_width])
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# pad = 0.108
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pad = 0
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fig.subplots_adjust(left=0, right=1, top=1, bottom=0)
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output_paths = []
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for _dpi in ppi:
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_out_path = f"/tmp/color_calibration-{_dpi}_{index:02d}.png"
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plt.savefig(_out_path, pad_inches=pad, dpi=_dpi)
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output_paths.append(_out_path)
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# plt.show()
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plt.close()
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return output_paths
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if __name__ == "__main__":
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import argparse
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import os
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parser = argparse.ArgumentParser()
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parser.add_argument(
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"--rows", type=int, default=73, help="Number of entries per column"
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)
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parser.add_argument(
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9 months ago
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"--dir", type=str, default="~/out_sortcolors", help="Directory to save images"
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10 months ago
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)
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parser.add_argument(
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"-k",
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"--kind",
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type=str,
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nargs="+",
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9 months ago
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default=["hsv", "lex"],
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10 months ago
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help="Kinds of sorting",
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)
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parser.add_argument(
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"--ppi", action="append", type=int, default=[300], help="Pixels per inch"
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)
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parser.add_argument("--aliased", action="store_true", help="Disable antialiasing")
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parser.add_argument(
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"--capstyle", type=str, default="butt", help="Capstyle of lines"
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)
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args = parser.parse_args()
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COLUMN_LENGTH = args.rows
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KINDS = args.kind
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PPIS = args.ppi
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DIR = args.dir
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ANTIALIASED = not args.aliased
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CAPSTYLE = args.capstyle
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# COLUMN_LENGTH = 73 # results in 13 unfiltered columns (perfect)
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# COLUMN_LENGTH = (
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# 106 # results in 9 unfiltered columns (last one short), square-ish image
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# )
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OMITTED_COLORS = [
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# "black",
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# "white",
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# "poop",
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# "poo brown",
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# "shit",
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# "shit brown",
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]
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# OMITTED_COLORS = list(map(lambda s: f"xkcd:{s}", OMITTED_COLORS))
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# KIND = "hsv" # choose from umap, hsv
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for KIND in KINDS:
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colors = list(mcolors.XKCD_COLORS.keys())
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9 months ago
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sorted_indices = np.load(f"/teamspace/studios/this_studio/out_sortcolors/{KIND}/sorted_indices.npy")
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10 months ago
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sorted_colors = [colors[idx] for idx in sorted_indices]
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colors = sorted_colors
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colors = [c for c in colors if c not in OMITTED_COLORS]
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print(f"Total number of colors: {len(colors)}")
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chunks = [
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colors[i : i + COLUMN_LENGTH] for i in range(0, len(colors), COLUMN_LENGTH)
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]
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for idx, color_part in enumerate(chunks):
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image_path = create_color_calibration_image(
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colors=color_part,
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ppi=PPIS,
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index=idx,
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antialiased=ANTIALIASED,
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solid_capstyle=CAPSTYLE,
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)
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os.system(f"identify {image_path[0]}")
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for PPI in PPIS:
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# use imagemagick to stitch together the images horizontally
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os.system(
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f"convert +append /tmp/color_calibration-{PPI}_*.png /tmp/color_calibration-{PPI}.png"
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)
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os.system(f"rm /tmp/color_calibration-{PPI}_*")
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print(f"Final image saved to /tmp/color_calibration-{PPI}.png")
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os.system(
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f"mkdir -p {DIR} && cp /tmp/color_calibration-{PPI}.png {DIR}/xkcd_{COLUMN_LENGTH}_{KIND}_{PPI}.png"
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)
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print(f"Copied to {DIR}/xkcd_{COLUMN_LENGTH}_{KIND}_{PPI}.png")
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