ref: 1b9540cc49f76626445d2cb5744be1e81c709ca8
dir: /tools/unique.py/
#!/usr/bin/env python3 # -*- coding: utf-8 -*- """ Usage: python unique.py [-f|--flip] [-x|--cross] image.png Erase duplicate tiles from an input image. -f or --flip counts X/Y mirrored tiles as duplicates. -x or --cross erases with a cross instead of a blank tile. """ import sys import png def rgb5_pixels(row): yield from (tuple(c // 8 for c in row[x:x+3]) for x in range(0, len(row), 4)) def rgb8_pixels(row): yield from (c * 8 + c // 4 for pixel in row for c in pixel) def gray_pixels(row): yield from (pixel[0] // 10 for pixel in row) def rows_to_tiles(rows, width, height): assert len(rows) == height and len(rows[0]) == width yield from (tuple(tuple(row[x:x+8]) for row in rows[y:y+8]) for y in range(0, height, 8) for x in range(0, width, 8)) def tiles_to_rows(tiles, width, height): assert width % 8 == 0 and height % 8 == 0 width, height = width // 8, height // 8 tiles = list(tiles) assert len(tiles) == width * height tile_rows = (tiles[y:y+width] for y in range(0, width * height, width)) yield from ([tile[y][x] for tile in tile_row for x in range(8)] for tile_row in tile_rows for y in range(8)) def tile_variants(tile, flip): yield tile if flip: yield tile[::-1] yield tuple(row[::-1] for row in tile) yield tuple(row[::-1] for row in tile[::-1]) def unique_tiles(tiles, flip, cross): if cross: blank = [[(0, 0, 0)] * 8 for _ in range(8)] for y in range(8): blank[y][y] = blank[y][7 - y] = (31, 31, 31) blank = tuple(tuple(row) for row in blank) else: blank = tuple(tuple([(31, 31, 31)] * 8) for _ in range(8)) seen = set() for tile in tiles: if any(variant in seen for variant in tile_variants(tile, flip)): yield blank else: yield tile seen.add(tile) def is_grayscale(colors): return (colors.issubset({(31, 31, 31), (21, 21, 21), (10, 10, 10), (0, 0, 0)}) or colors.issubset({(31, 31, 31), (20, 20, 20), (10, 10, 10), (0, 0, 0)})) def erase_duplicates(filename, flip, cross): with open(filename, 'rb') as file: width, height, rows = png.Reader(file).asRGBA8()[:3] rows = [list(rgb5_pixels(row)) for row in rows] if width % 8 or height % 8: return False tiles = unique_tiles(rows_to_tiles(rows, width, height), flip, cross) rows = list(tiles_to_rows(tiles, width, height)) if is_grayscale({c for row in rows for c in row}): rows = [list(gray_pixels(row)) for row in rows] writer = png.Writer(width, height, greyscale=True, bitdepth=2, compression=9) else: rows = [list(rgb8_pixels(row)) for row in rows] writer = png.Writer(width, height, greyscale=False, bitdepth=8, compression=9) with open(filename, 'wb') as file: writer.write(file, rows) return True def main(): flip = cross = False while True: if len(sys.argv) < 2: print(f'Usage: {sys.argv[0]} [-f|--flip] [-x|--cross] tileset.png', file=sys.stderr) sys.exit(1) elif sys.argv[1] in {'-f', '--flip'}: flip = True elif sys.argv[1] in {'-x', '--cross'}: cross = True elif sys.argv[1] in {'-fx', '-xf'}: flip = cross = True else: break sys.argv.pop(1) for filename in sys.argv[1:]: if not filename.lower().endswith('.png'): print(f'{filename} is not a .png file!', file=sys.stderr) elif not erase_duplicates(filename, flip, cross): print(f'{filename} is not divisible into 8x8 tiles!', file=sys.stderr) if __name__ == '__main__': main()