ref: e463564ffe1d86ce13f722e88cfe1154708ed7d2
dir: /tables/util.py/
import array import sys import hashlib import os from functools import lru_cache def cache(user_function): 'Simple lightweight unbounded cache. Sometimes called "memoize".' return lru_cache(maxsize=None)(user_function) # Both are common SNES rom extensions. For Zelda3 (NA), they are equivalent files. COMMON_ROM_NAMES = ['zelda3.sfc', 'zelda3.smc'] DEFAULT_ROM_DIRECTORY = os.path.dirname(__file__) ZELDA3_SHA256 = '66871d66be19ad2c34c927d6b14cd8eb6fc3181965b6e517cb361f7316009cfb' def load_rom(filename): global ROM ROM = LoadedRom(filename) return ROM def get_byte(addr): return ROM.get_byte(addr) @cache def get_bytes(addr, n): return ROM.get_bytes(addr, n) @cache def get_words(addr, n): return ROM.get_words(addr, n) def get_int8(ea): b = get_byte(ea) if b & 0x80: b -= 256 return b def get_int16(ea): b = get_word(ea) if b & 0x8000: b -= 65536 return b def get_word(addr): return ROM.get_word(addr) class LoadedRom: def __init__(self, path = None): rom_path = self.__get_rom_path(path) self.ROM = open(rom_path, 'rb').read() hash = hashlib.sha256(self.ROM).hexdigest() if hash != ZELDA3_SHA256: raise Exception(f"ROM with hash {hash} not supported. Expected {ZELDA3_SHA256}. Please verify your ROM is the NA 1.0 version."); def get_byte(self, ea): assert (ea & 0x8000) ea = ((ea >> 16) & 0x7f) * 0x8000 + (ea & 0x7fff) return self.ROM[ea] def get_word(self, ea): return self.get_byte(ea) + self.get_byte(ea + 1) * 256 def get_24(self, ea): return self.get_byte(ea) + self.get_byte(ea + 1) * 256 + self.get_byte(ea + 2) * 65536 def get_bytes(self, addr, n): r = bytearray() for i in range(n): r.append(self.get_byte(addr)) addr += 1 if (addr & 0x8000) == 0: addr += 0x8000 return r def get_words(self, addr, n): r = [] for i in range(n): r.append(self.get_word(addr)) addr += 2 if (addr & 0x8000) == 0: addr += 0x8000 return r def __get_rom_path(self, path = None): # Check default locations when no path is given by user. if path is None: for rom_name in COMMON_ROM_NAMES: rom_path = os.path.join(DEFAULT_ROM_DIRECTORY, rom_name) if os.path.isfile(rom_path): return rom_path raise Exception(f"Could not find any ROMs ({', '.join(COMMON_ROM_NAMES)}) at the default location {DEFAULT_ROM_DIRECTORY}.") rom_path = os.path.join(DEFAULT_ROM_DIRECTORY, path) if os.path.isfile(rom_path): return rom_path raise Exception(f"No ROM found at provided path {rom_path}.") def split_list(l, n): return [l[i:i+n] for i in range(0, len(l), n)] def to_hex(v): return '%#x' % v if v < -9 or v >9 else '%d'%v def print_int_array(name, r, tname, decimal, split_length = 16, file = sys.stdout): rlen = len(r) rr = split_list(r, split_length ) if decimal != None: if decimal: rr = [['%d' % s for s in t] for t in rr] else: rr = [[to_hex(s) for s in t] for t in rr] def pad_all_columns(rrs): colsiz = [max((0 if j >= len(r) else len(r[j])) for r in rrs) for j in range(len(rrs[0]))] def pad(c, i): return (' ' * (i - len(c))) + c return [[pad(c, colsiz[i]) for (i, c) in enumerate(r)] for r in rrs] if len(rr) == 1: print('static const %s %s[%d] = {%s};' % (tname, name, rlen, ", ".join(rr[0])), file = file) else: print('static const %s %s[%d] = {' % (tname, name, rlen), file = file) for t in pad_all_columns(rr): print(" " + "".join([(a + ', ') for a in t]), file = file) print('};', file = file) class Reader: def __init__(self, ea, rb): self.ea, self.rb = ea, rb def next(self): r = self.rb(self.ea) self.ea += 1 if (self.ea & 0xffff) == 0: self.ea += 0x8000 return r def decomp(ea, rb, offset_is_be = True, return_length = False): result = bytearray() reader = Reader(ea, rb) while True: b = reader.next() if b == 0xff: if return_length: return result, (reader.ea - ea) & 0x7fff else: return result if (b & 0xe0) != 0xe0: lx = b & 0x1f cmd = b & 0xe0 else: cmd = (b << 3) & 0xe0 lx = ((b & 3) << 8) | reader.next() lx += 1 if cmd == 0x00: # 000 - literal # print('literal %d' % lx) while lx: result.append(reader.next()) lx -= 1 elif cmd & 0x80: # 1xx - copy # print('copy %d' % lx) offs = reader.next() << 8 offs |= reader.next() if not offset_is_be: offs = ((offs >> 8) | (offs << 8)) & 0xffff while lx: result.append(result[offs]) offs += 1 lx -= 1 elif (cmd & 0x40) == 0: # 00x - memset # print('memset %d' % lx) b = reader.next() while lx: result.append(b) lx -= 1 elif (cmd & 0x20) == 0: # 010 - memset16 # print('memsetw %d' % lx) b1, b2 = reader.next(), reader.next() while lx: result.append(b1) if lx==1: break result.append(b2) lx -= 2 else: # 011 - incr # print('incr %d' % lx) b = reader.next() while lx: result.append(b) b = (b + 1) & 0xff lx -= 1 def decode_brr(get_byte, olds = (0, 0)): ea=0 r = [] old , older = olds while True: cmd = get_byte(ea) shift = cmd >> 4 filter = (cmd >> 2) & 3 #print("shift=%d, filter=%d" % (shift, filter)) for i in range(16): t = (get_byte(ea+1+i//2) >> (0 if i & 1 else 4)) & 0xf s = (t & 7) - (t & 8) if shift <= 12: s = ((s << shift) >> 1) else: s = (s >> 3) << 12 # -2048 or 0 if filter == 1: s += old*1+((-old*1) >> 4) elif filter == 2: s += old*2 + ((-old*3) >> 5) - older + ((older*1) >> 4) elif filter == 3: s += old*2 + ((-old*13) >> 6) - older + ((older*3) >> 4) # saturate to 16 bits if s < -0x8000: s = -0x8000 elif s >= 0x7fff: s = 0x7fff # wrap to 15 bits s = (s & 0x3fff) - (s & 0x4000) older, old = old, s #print('%d: 0x%x -> %d (shift %d, filter %d)' % (i, t, s*2, shift, filter)) r.append(s*2) ea += 9 if cmd & 1: break return array.array('h', r) kBrrFilters = [ lambda old, older: 0, lambda old, older: old*1+((-old*1) >> 4), lambda old, older: old*2 + ((-old*3) >> 5) - older + ((older*1) >> 4), lambda old, older: old*2 + ((-old*13) >> 6) - older + ((older*3) >> 4) ] def brr_get_one(old, rs, r): s = (rs << r) >> 1 if r <= 12 else (rs >> 3) << 12 s += old s = -0x8000 if s < -0x8000 else 0x7fff if s > 0x7fff else s return (s & 0x3fff) - (s & 0x4000) # wrap to 15 bits def encode_brr_generic(data, brr_repeat, olds = (0, 0), lossless=True): assert len(data) % 16 == 0 loop_enabled, loop_offset = 1 if brr_repeat != 0 else 0, 0 result = [] blk_data = [0] * 16 best_data = [0] * 9 p = 0 best_old, best_older = olds while p < len(data): # print(p) best_err = 1 << 60 startold, startolder = best_old, best_older if all(data[p + i] == 0 for i in range(16)): result.extend((loop_enabled * 2, 0, 0, 0, 0, 0, 0, 0, 0)) p += 16 continue for filter in range(4): if filter != 0 and (p == 0 or p == loop_offset): continue for r in range(12, 0, -1): blk_err = 0 old, older = startold, startolder for i in range(16): s = kBrrFilters[filter](old, older) xs = data[p + i] >> 1 best_e = 1<<60 for j in (0, 1, -1, 2, -2, 3, -3, 4, -4, 5, -5, 6, -6, 7, -7, -8): s0 = brr_get_one(s, j, r) e = (xs - s0) * (xs - s0) if e < best_e: best_e, best_j, best_s0 = e, j, s0 if e == 0: #print(j) break if best_e != 0 and lossless: break blk_err += best_e blk_data[i] = best_j & 0xf older, old = old, best_s0 else: if blk_err < best_err: best_err = blk_err best_old, best_older = old, older best_data[0] = r << 4 | filter << 2 | loop_enabled << 1 for i in range(8): best_data[i + 1] = blk_data[i * 2] << 4 | blk_data[i * 2 + 1] result.extend(best_data) if lossless: assert best_err==0 p += 16 # result[-9] |= 1 return result