149 lines
3.9 KiB
Python
Executable File
149 lines
3.9 KiB
Python
Executable File
#!/usr/bin/env python
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'''This script converts from any image type supported by
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Python imaging library to the RLE-encoded format used by
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NxWidgets.
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'''
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from PIL import Image
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def get_palette(img, maxcolors = 255):
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'''Returns a list of colors. If there are too many colors in the image,
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the least used are removed.
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'''
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img = img.convert("RGB")
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colors = img.getcolors(65536)
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colors.sort(key = lambda c: -c[0])
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return [c[1] for c in colors[:maxcolors]]
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def write_palette(outfile, palette):
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'''Write the palette (normal and hilight) to the output file.'''
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outfile.write('static const NXWidgets::nxwidget_pixel_t palette[BITMAP_PALETTESIZE] =\n');
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outfile.write('{\n')
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for i in range(0, len(palette), 4):
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outfile.write(' ');
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for r, g, b in palette[i:i+4]:
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outfile.write('MKRGB(%3d,%3d,%3d), ' % (r, g, b))
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outfile.write('\n');
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outfile.write('};\n\n')
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outfile.write('static const NXWidgets::nxwidget_pixel_t hilight_palette[BITMAP_PALETTESIZE] =\n');
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outfile.write('{\n')
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for i in range(0, len(palette), 4):
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outfile.write(' ');
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for r, g, b in palette[i:i+4]:
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r = min(255, r + 50)
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g = min(255, g + 50)
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b = min(255, b + 50)
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outfile.write('MKRGB(%3d,%3d,%3d), ' % (r, g, b))
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outfile.write('\n');
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outfile.write('};\n\n')
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def quantize(color, palette):
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'''Return the color index to closest match in the palette.'''
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try:
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return palette.index(color)
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except ValueError:
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# No exact match, search for the closest
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def distance(color2):
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return sum([(a - b)**2 for a, b in zip(color, color2)])
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return palette.index(min(palette, key = distance));
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def encode_row(img, palette, y):
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'''RLE-encode one row of image data.'''
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entries = []
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color = None
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repeats = 0
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for x in range(0, img.size[0]):
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c = quantize(img.getpixel((x, y)), palette)
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if c == color and repeats < 255:
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repeats += 1
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else:
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if color is not None:
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entries.append((repeats, color))
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repeats = 1
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color = c
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if color is not None:
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entries.append((repeats, color))
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return entries
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def write_image(outfile, img, palette):
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'''Write the image contents to the output file.'''
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outfile.write('static const NXWidgets::SRlePaletteBitmapEntry bitmap[] =\n');
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outfile.write('{\n');
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for y in range(0, img.size[1]):
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entries = encode_row(img, palette, y)
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row = ""
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for r, c in entries:
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if len(row) > 60:
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outfile.write(' ' + row + '\n')
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row = ""
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row += '{%3d, %3d}, ' % (r, c)
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row += ' ' * (73 - len(row))
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outfile.write(' ' + row + '/* Row %d */\n' % y)
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outfile.write('};\n\n');
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def write_descriptor(outfile, name):
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'''Write the public descriptor structure for the image.'''
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outfile.write('extern const struct NXWidgets::SRlePaletteBitmap g_%s =\n' % name)
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outfile.write('{\n')
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outfile.write(' CONFIG_NXWIDGETS_BPP,\n')
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outfile.write(' CONFIG_NXWIDGETS_FMT,\n')
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outfile.write(' BITMAP_PALETTESIZE,\n')
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outfile.write(' BITMAP_WIDTH,\n')
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outfile.write(' BITMAP_HEIGHT,\n')
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outfile.write(' {palette, hilight_palette},\n')
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outfile.write(' bitmap\n')
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outfile.write('};\n')
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if __name__ == '__main__':
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import sys
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import os.path
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if len(sys.argv) != 3:
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print "Usage: bitmap_converter.py source.png output.cxx"
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sys.exit(1)
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img = Image.open(sys.argv[1]).convert("RGB")
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outfile = open(sys.argv[2], 'w')
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palette = get_palette(img)
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outfile.write(
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'''
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/* Automatically NuttX bitmap file. */
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/* Generated from %(src)s by bitmap_converter.py. */
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#include <nxconfig.hxx>
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#include <crlepalettebitmap.hxx>
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#define BITMAP_WIDTH %(width)s
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#define BITMAP_HEIGHT %(height)s
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#define BITMAP_PALETTESIZE %(palettesize)s
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''' % {'src': sys.argv[1], 'width': img.size[0], 'height': img.size[1],
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'palettesize': len(palette)}
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)
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name = os.path.splitext(os.path.basename(sys.argv[1]))[0]
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write_palette(outfile, palette)
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write_image(outfile, img, palette)
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write_descriptor(outfile, name)
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