ref: 0af787ea6d42d6f9c16f952b46519ab94f356abb
dir: /tools/gfx.py/
#!/usr/bin/env python2 # -*- coding: utf-8 -*- """Supplementary scripts for graphics conversion.""" import os import argparse from pokemontools import gfx, lz # Graphics with inverted tilemaps that aren't covered by filepath_rules. pics = [ 'gfx/shrink1', 'gfx/shrink2', ] def recursive_read(filename): def recurse(filename_): lines = [] for line in open(filename_): if 'include "' in line.lower(): lines += recurse(line.split('"')[1]) else: lines += [line] return lines lines = recurse(filename) return ''.join(lines) base_stats = None def get_base_stats(): global base_stats if not base_stats: base_stats = recursive_read('data/base_stats.asm') return base_stats def get_pokemon_dimensions(path): try: byte = bytearray(open(path, 'rb').read())[0] width = byte & 0xf height = (byte >> 8) & 0xf return width, height except: return None def get_animation_frames(path=None, w=7, h=7, bitmask_path=None, frame_path=None): """Retrieve animation frame tilemaps from generated frame/bitmask data.""" if not path: path = bitmask_path if not path: path = frame_path if not path: raise Exception("need at least one of path, bitmask_path or frame_path") if not bitmask_path: bitmask_path = os.path.join(os.path.split(path)[0], 'bitmask.asm') if not frame_path: frame_path = os.path.join(os.path.split(path)[0], 'frames.asm') bitmask_lines = open(bitmask_path).readlines() frame_lines = open(frame_path).readlines() bitmask_length = w * h bitmasks = [] bitmask = [] for line in bitmask_lines: if '\tdb ' in line: value = line.split('\tdb ')[1].strip().replace('%', '0b') value = int(value, 0) #print line.strip(), value, len(bitmasks), len(bitmask) for bit in xrange(8): bitmask += [(value >> bit) & 1] if len(bitmask) >= bitmask_length: bitmasks += [bitmask] bitmask = [] break if bitmask: bitmasks += [bitmask] frames = [] frame_labels = [] i = 0 for line in frame_lines: if '\tdw ' in line: frame_labels += [line.split('\tdw ')[1].strip()] else: for part in line.split(): part = part.strip() if part in frame_labels: frames += [(part, i)] i += 1 results = [] for label, i in frames: result = [] # get the bitmask and tile ids for each frame # don't care if we read past bounds, so just read the rest of the file values = [] for line in frame_lines[i:]: if '\tdb ' in line: values += line.split('\tdb ')[1].split(';')[0].split(',') #print bitmasks #print values[0] #print int(values[0].replace('$', '0x'), 0) bitmask = bitmasks[int(values[0].replace('$', '0x'), 0)] tiles = values[1:] k = 0 j = 0 for bit in bitmask: if bit: result += [int(tiles[k].replace('$', '0x'), 0)] k += 1 else: result += [j] j += 1 results += [result] return results def get_animated_graphics(path, w=7, h=7, bitmask_path=None, frame_path=None): frames = get_animation_frames(path, w, h, bitmask_path, frame_path) new_path = path.replace('.animated.2bpp', '.2bpp') tiles = gfx.get_tiles(bytearray(open(path, 'rb').read())) new_tiles = tiles[:w * h] for frame in frames: for tile in frame: new_tiles += [tiles[tile]] new_graphic = gfx.connect(new_tiles) print new_path, list(new_graphic) open(new_path, 'wb').write(bytearray(new_graphic)) return new_path def filepath_rules(filepath): """Infer attributes of certain graphics by their location in the filesystem.""" args = {} filedir, filename = os.path.split(filepath) if filedir.startswith('./'): filedir = filedir[2:] name, ext = os.path.splitext(filename) if ext == '.lz': name, ext = os.path.splitext(name) pokemon_name = '' if 'gfx/pokemon/' in filedir: pokemon_name = filedir.split('/')[-1] if pokemon_name.startswith('unown_'): index = filedir.find(pokemon_name) if index != -1: filedir = filedir[:index + len('unown')] + filedir[index + len('unown_a'):] if name == 'front' or name == 'front.animated': args['pal_file'] = os.path.join(filedir, 'normal.pal') args['pic'] = True args['animate'] = True elif name == 'back': args['pal_file'] = os.path.join(filedir, 'normal.pal') args['pic'] = True elif 'gfx/trainers' in filedir: args['pic'] = True elif os.path.join(filedir, name) in pics: args['pic'] = True elif filedir == 'gfx/tilesets': args['tileset'] = True if args.get('pal_file'): if os.path.exists(args['pal_file']): args['palout'] = args['pal_file'] else: del args['pal_file'] if args.get('pic'): if ext == '.png': w, h = gfx.png.Reader(filepath).asRGBA8()[:2] w = min(w/8, h/8) args['pic_dimensions'] = w, w elif ext == '.2bpp': if pokemon_name and name == 'front' or name == 'front.animated': w, h = get_pokemon_dimensions(filepath.replace(ext, '.dimensions')) or (7, 7) args['pic_dimensions'] = w, w elif pokemon_name and name == 'back': args['pic_dimensions'] = 6, 6 else: args['pic_dimensions'] = 7, 7 if args.get('tileset'): args['width'] = 128 return args def to_1bpp(filename, **kwargs): name, ext = os.path.splitext(filename) if ext == '.1bpp': pass elif ext == '.2bpp': gfx.export_2bpp_to_1bpp(filename, **kwargs) elif ext == '.png': gfx.export_png_to_1bpp(filename, **kwargs) elif ext == '.lz': decompress(filename, **kwargs) to_1bpp(name, **kwargs) def to_2bpp(filename, **kwargs): name, ext = os.path.splitext(filename) if ext == '.1bpp': gfx.export_1bpp_to_2bpp(filename, **kwargs) elif ext == '.2bpp': pass elif ext == '.png': gfx.export_png_to_2bpp(filename, **kwargs) elif ext == '.lz': decompress(filename, **kwargs) to_2bpp(name, **kwargs) def to_png(filename, **kwargs): name, ext = os.path.splitext(filename) if ext == '.1bpp': gfx.export_1bpp_to_png(filename, **kwargs) elif ext == '.2bpp' and name.endswith('.animated'): w, h = kwargs.get('pic_dimensions') or (7, 7) new_path = get_animated_graphics(filename, w=w, h=h) return to_png(new_path, **kwargs) elif ext == '.2bpp': gfx.export_2bpp_to_png(filename, **kwargs) elif ext == '.png': pass elif ext == '.lz': decompress(filename, **kwargs) to_png(name, **kwargs) def compress(filename, **kwargs): data = open(filename, 'rb').read() lz_data = lz.Compressed(data).output open(filename + '.lz', 'wb').write(bytearray(lz_data)) def decompress(filename, **kwargs): lz_data = open(filename, 'rb').read() data = lz.Decompressed(lz_data).output name, ext = os.path.splitext(filename) open(name, 'wb').write(bytearray(data)) methods = { '2bpp': to_2bpp, '1bpp': to_1bpp, 'png': to_png, 'lz': compress, 'unlz': decompress, } def main(method_name, filenames=None): if filenames is None: filenames = [] for filename in filenames: args = filepath_rules(filename) method = methods.get(method_name) if method: method(filename, **args) def get_args(): ap = argparse.ArgumentParser() ap.add_argument('method_name') ap.add_argument('filenames', nargs='*') args = ap.parse_args() return args if __name__ == '__main__': main(**get_args().__dict__)