mirror of
https://github.com/KrisKennaway/ii-pix.git
synced 2024-06-07 15:46:54 +00:00
fb52815412
As expected it has clear banding. A better approach (though still not optimal) might be to assign lines to palettes randomly.
157 lines
6.0 KiB
Python
157 lines
6.0 KiB
Python
"""Image converter to Apple II Double Hi-Res format."""
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import argparse
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import array
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import os.path
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import time
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import colour
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from PIL import Image
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import numpy as np
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from sklearn.cluster import KMeans
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import dither as dither_pyx
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import dither_pattern
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import image as image_py
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import palette as palette_py
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import screen as screen_py
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# TODO:
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# - support LR/DLR
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# - support HGR
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def cluster_palette(image: Image):
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colours_rgb = np.asarray(image).reshape((-1, 3))
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with colour.utilities.suppress_warnings(colour_usage_warnings=True):
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colours_cam = colour.convert(colours_rgb, "RGB",
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"CAM16UCS").astype(np.float32)
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palettes_rgb = {}
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for palette in range(16):
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kmeans = KMeans(n_clusters=16, max_iter=10000)
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kmeans.fit_predict(colours_cam[palette*320*12:(palette+1)*320*12])
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palette_cam = kmeans.cluster_centers_
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with colour.utilities.suppress_warnings(colour_usage_warnings=True):
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palette_rgb = colour.convert(palette_cam, "CAM16UCS", "RGB")
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# SHR colour palette only uses 4-bit values
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palette_rgb = np.round(palette_rgb * 15) / 15
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# palette_rgb = palette_rgb.astype(np.float32) / 255
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palettes_rgb[palette] = palette_rgb.astype(np.float32)
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return palettes_rgb
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def main():
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parser = argparse.ArgumentParser()
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parser.add_argument("input", type=str, help="Input image file to process.")
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parser.add_argument("output", type=str, help="Output file for converted "
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"Apple II image.")
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parser.add_argument(
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"--lookahead", type=int, default=8,
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help=("How many pixels to look ahead to compensate for NTSC colour "
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"artifacts (default: 8)"))
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parser.add_argument(
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'--dither', type=str, choices=list(dither_pattern.PATTERNS.keys()),
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default=dither_pattern.DEFAULT_PATTERN,
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help="Error distribution pattern to apply when dithering (default: "
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+ dither_pattern.DEFAULT_PATTERN + ")")
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parser.add_argument(
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'--show-input', action=argparse.BooleanOptionalAction, default=False,
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help="Whether to show the input image before conversion.")
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parser.add_argument(
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'--show-output', action=argparse.BooleanOptionalAction, default=True,
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help="Whether to show the output image after conversion.")
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parser.add_argument(
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'--palette', type=str, choices=list(set(palette_py.PALETTES.keys())),
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default=palette_py.DEFAULT_PALETTE,
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help='RGB colour palette to dither to. "ntsc" blends colours over 8 '
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'pixels and gives better image quality on targets that '
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'use/emulate NTSC, but can be substantially slower. Other '
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'palettes determine colours based on 4 pixel sequences '
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'(default: ' + palette_py.DEFAULT_PALETTE + ")")
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parser.add_argument(
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'--show-palette', type=str, choices=list(palette_py.PALETTES.keys()),
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help="RGB colour palette to use when --show_output (default: "
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"value of --palette)")
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parser.add_argument(
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'--verbose', action=argparse.BooleanOptionalAction,
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default=False, help="Show progress during conversion")
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parser.add_argument(
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'--gamma_correct', type=float, default=2.4,
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help='Gamma-correct image by this value (default: 2.4)'
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)
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args = parser.parse_args()
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if args.lookahead < 1:
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parser.error('--lookahead must be at least 1')
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# palette = palette_py.PALETTES[args.palette]()
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screen = screen_py.SHR320Screen()
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# Conversion matrix from RGB to CAM16UCS colour values. Indexed by
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# 24-bit RGB value
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rgb_to_cam16 = np.load("data/rgb_to_cam16ucs.npy")
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# Open and resize source image
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image = image_py.open(args.input)
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if args.show_input:
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image_py.resize(image, screen.X_RES, screen.Y_RES,
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srgb_output=False).show()
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rgb = np.array(
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image_py.resize(image, screen.X_RES, screen.Y_RES,
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gamma=args.gamma_correct, srgb_output=True)).astype(
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np.float32) / 255
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palettes_rgb = cluster_palette(rgb)
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# print(palette_rgb)
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# screen.set_palette(0, (image_py.linear_to_srgb_array(palette_rgb) *
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# 15).astype(np.uint8))
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for i, p in palettes_rgb.items():
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screen.set_palette(i, (np.round(p * 15)).astype(np.uint8))
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output_4bit = dither_pyx.dither_shr(rgb, palettes_rgb, rgb_to_cam16)
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screen.set_pixels(output_4bit)
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for i in range(200):
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screen.line_palette[i] = i // 12
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output_rgb = np.zeros((200, 320, 3), dtype=np.uint8)
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for i, p in palettes_rgb.items():
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output_rgb[i*12:(i+1)*12, :, :] = (p[output_4bit[i*12:(i+1)*12,
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:]] * 255).astype(
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np.uint8)
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output_srgb = image_py.linear_to_srgb(output_rgb).astype(np.uint8)
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# dither = dither_pattern.PATTERNS[args.dither]()
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# bitmap = dither_pyx.dither_image(
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# screen, rgb, dither, args.lookahead, args.verbose, rgb_to_cam16)
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# Show output image by rendering in target palette
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# output_palette_name = args.show_palette or args.palette
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# output_palette = palette_py.PALETTES[output_palette_name]()
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# output_screen = screen_py.DHGRScreen(output_palette)
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# if output_palette_name == "ntsc":
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# output_srgb = output_screen.bitmap_to_image_ntsc(bitmap)
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# else:
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# output_srgb = image_py.linear_to_srgb(
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# output_screen.bitmap_to_image_rgb(bitmap)).astype(np.uint8)
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out_image = image_py.resize(
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Image.fromarray(output_srgb), screen.X_RES, screen.Y_RES,
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srgb_output=False) # XXX true
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if args.show_output:
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out_image.show()
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# Save Double hi-res image
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outfile = os.path.join(os.path.splitext(args.output)[0] + "-preview.png")
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out_image.save(outfile, "PNG")
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screen.pack()
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# with open(args.output, "wb") as f:
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# f.write(bytes(screen.aux))
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# f.write(bytes(screen.main))
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with open(args.output, "wb") as f:
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f.write(bytes(screen.memory))
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if __name__ == "__main__":
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main()
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