mirror of
https://github.com/Virtual-World-RE/NeoGF.git
synced 2024-11-15 11:45:33 +01:00
51ebbc94ed
Added fisrt version of pack, but it wanted to be rework for optimisation.
329 lines
10 KiB
Python
329 lines
10 KiB
Python
#!/usr/bin/env python3
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__version__ = "1.0"
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__author__ = "rigodron, algoflash, GGLinnk"
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__OriginalAutor__ = "infval"
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from os import listdir, path, stat
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from pathlib import Path
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from struct import unpack, pack
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def pzz_decompress(compressed_bytes: bytes):
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uncompressed_bytes = bytearray()
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compressed_bytes_size = len(compressed_bytes) // 2 * 2
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cb = 0 # Control bytes
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cb_bit = -1
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i = 0
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while i < compressed_bytes_size:
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if cb_bit < 0:
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cb = compressed_bytes[i + 1]
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cb |= compressed_bytes[i + 0] << 8
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cb_bit = 15
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i += 2
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continue
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compress_flag = cb & (1 << cb_bit)
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cb_bit -= 1
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print(compress_flag)
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if compress_flag:
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c = compressed_bytes[i + 1]
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c |= compressed_bytes[i + 0] << 8
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offset = (c & 0x7FF) * 2
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if offset == 0:
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break # End of the compressed data
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count = (c >> 11) * 2
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if count == 0:
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i += 2
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c = compressed_bytes[i + 1]
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c |= compressed_bytes[i + 0] << 8
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count = c * 2
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index = len(uncompressed_bytes) - offset
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for j in range(count):
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uncompressed_bytes.append(uncompressed_bytes[index + j])
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else:
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uncompressed_bytes.extend(compressed_bytes[i: i + 2])
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i += 2
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return uncompressed_bytes
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def bytes_align(bout: bytes):
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success = False
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while not success:
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bout.extend(b"\x00\x00")
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address = len(bout)
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if hex(address).endswith("00"):
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break
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def pzz_compress(b):
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bout = bytearray()
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size_b = len(b) // 2 * 2
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cb = 0 # Control bytes
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cb_bit = 15
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cb_pos = 0
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bout.extend(b"\x00\x00")
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i = 0
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while i < size_b:
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start = max(i - 0x7FF * 2, 0)
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count_r = 0
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max_i = -1
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tmp = b[i: i + 2]
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init_count = len(tmp)
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while True:
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start = b.find(tmp, start, i + 1)
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if start != -1 and start % 2 != 0:
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start += 1
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continue
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if start != -1:
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count = init_count
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while i < size_b - count \
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and count < 0xFFFF * 2 \
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and b[start + count] == b[i + count] \
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and b[start + count + 1] == b[i + count + 1]:
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count += 2
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if count_r < count:
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count_r = count
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max_i = start
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start += 2
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else:
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break
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start = max_i
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compress_flag = 0
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if count_r >= 4:
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compress_flag = 1
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offset = i - start
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offset //= 2
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count_r //= 2
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c = offset
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if count_r <= 0x1F:
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c |= count_r << 11
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bout.append((c >> 8))
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bout.append(c & 0xFF)
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else:
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bout.append((c >> 8))
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bout.append(c & 0xFF)
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bout.append((count_r >> 8))
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bout.append(count_r & 0xFF)
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i += count_r * 2
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else:
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bout.extend(b[i: i + 2])
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i += 2
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cb |= (compress_flag << cb_bit)
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cb_bit -= 1
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if cb_bit < 0:
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bout[cb_pos + 1] = cb & 0xFF
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bout[cb_pos + 0] = cb >> 8
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cb = 0x0000
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cb_bit = 15
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cb_pos = len(bout)
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bout.extend(b"\x00\x00")
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cb |= (1 << cb_bit)
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bout[cb_pos + 1] = cb & 0xFF
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bout[cb_pos + 0] = cb >> 8
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bout.extend(b"\x00\x00")
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bytes_align(bout)
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return bout
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def pzz_unpack(path, dir_path):
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""" BMS script: https://zenhax.com/viewtopic.php?f=9&t=8724&p=39437#p39437
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"""
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with open(path, "rb") as f:
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file_count = f.read(4)
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file_count, = unpack(">I", file_count) # < big-endian uint32
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#file_count contient la taille en groupes de 4 octets
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size = f.read(file_count * 4)
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# size contient l'ensemble des octets du fichier
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size = unpack(">{}I".format(file_count), size)
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# size contient le fichier par groupes d'uint32
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print("File count:", file_count)
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offset = 0x800
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for i, s in enumerate(size): # on a un ensemble d'uint32 et leur index qu'on parcours
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is_compressed = (s & 0x40000000) != 0 # "and" avec le bit du poids le plus fort
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print(s)
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s &= 0x3FFFFFFF # s contient maintenant tous les bits sans le bit du poids le plus fort
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print(s)
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s *= 0x800 # 1000 0000 0000
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# s doit contenir la taille du fichier
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#print( s )
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if s == 0:
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continue
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comp_str = ""
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if is_compressed:
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comp_str = "_compressed"
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filename = "{}_{:03}{}".format(Path(path).stem, i, comp_str)
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p = (Path(dir_path) / filename).with_suffix(".dat")
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print("Offset: {:010} - {}".format(offset, p))
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f.seek(offset)
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p.write_bytes(f.read(s))
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offset += s
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def pzz_pack(src, dir_path):
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bout = bytearray()
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filebout = bytearray()
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file_count = 0;
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files = []
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linkPath = path.normpath(dir_path)
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linkFiles = [f for f in listdir(linkPath) if path.isfile(path.join(linkPath, f))]
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for file in linkFiles:
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if (str(src)[12:-18] in file):
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file_count += 1
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files.append(file)
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is_odd_number = (file_count % 2) != 0
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if (file_count == 6 or file_count == 12):
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file_count += 4
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for i, file in enumerate(files):
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count = int(0x40 << 24) + int(path.getsize(linkPath + "/" + file) / 0x800)
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if (i == 1 or i == 3 or i == 5 or i == 7):
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filebout.extend(b"\x00\x00\x00\x00")
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filebout.extend(pack(">I", count))
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else:
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filebout.extend(pack(">I", count))
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file_count = pack(">I", file_count)
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bout.extend(file_count)
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bout.extend(filebout)
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elif (file_count == 6 or file_count == 14):
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file_count += 2
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for i, file in enumerate(files):
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count = int(0x40 << 24) + int(path.getsize(linkPath + "/" + file) / 0x800)
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if (i == 1 or i == 3):
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filebout.extend(b"\x00\x00\x00\x00")
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filebout.extend(pack(">I", count))
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else:
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filebout.extend(pack(">I", count))
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file_count = pack(">I", file_count)
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bout.extend(file_count)
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bout.extend(filebout)
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elif is_odd_number:
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file_count += 1
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for i, file in enumerate(files):
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count = int(0x40 << 24) + int(path.getsize(linkPath + "/" + file) / 0x800)
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if (i == 1):
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filebout.extend(b"\x00\x00\x00\x00")
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filebout.extend(pack(">I", count))
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else:
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filebout.extend(pack(">I", count))
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file_count = pack(">I", file_count)
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bout.extend(file_count)
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bout.extend(filebout)
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success = False
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while not success:
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bout.extend(b"\x00\x00")
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address = len(bout)
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if hex(address).endswith("800"):
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break
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for file in files:
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filebout = open(linkPath + "/" + file, "rb")
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data = filebout.read()
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bout.extend(data)
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filename = "{}".format(str(src)[12:-19])
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p = (Path(dir_path) / filename).with_suffix(".pzz")
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p.write_bytes(bout)
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def pzz_test():
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print(pack(">I", int(0x40 << 24) + int(stat(linkPath + "/" + file).st_size) / 0x800))
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def get_argparser():
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import argparse
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parser = argparse.ArgumentParser(description='PZZ (de)compressor & unpacker - [GameCube] Gotcha Force v' + __version__)
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parser.add_argument('--version', action='version', version='%(prog)s ' + __version__)
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parser.add_argument('input_path', metavar='INPUT', help='only relative if -bu, -bc, -bd, p')
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parser.add_argument('output_path', metavar='OUTPUT', help='directory if -u, -bu, -bc, -bd')
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group = parser.add_mutually_exclusive_group(required=True)
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group.add_argument('-u', '--unpack', action='store_true', help='PZZ files from AFS')
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group.add_argument('-c', '--compress', action='store_true')
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group.add_argument('-d', '--decompress', action='store_true', help='Unpacked files from PZZ')
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group.add_argument('-bu', '--batch-unpack', action='store_true', help='INPUT relative pattern; e.g. AFS_DATA\\*.pzz')
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group.add_argument('-bc', '--batch-compress', action='store_true', help='INPUT relative pattern; e.g. AFS_DATA\\*.bin')
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group.add_argument('-bd', '--batch-decompress', action='store_true', help='INPUT relative pattern; e.g. AFS_DATA\\*_compressed.dat')
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group.add_argument('-p', '--pack', action='store_true')
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group.add_argument('-t', '--test', action='store_true')
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return parser
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if __name__ == '__main__':
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import sys
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parser = get_argparser()
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args = parser.parse_args()
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p_input = Path(args.input_path)
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p_output = Path(args.output_path)
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if args.compress:
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print("### Compress")
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p_output.write_bytes(pzz_compress(p_input.read_bytes()))
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elif args.decompress:
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print("### Decompress")
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p_output.write_bytes(pzz_decompress(p_input.read_bytes()))
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elif args.batch_compress:
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print("### Batch Compress")
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p_output.mkdir(exist_ok=True)
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p = Path('.')
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for filename in p.glob(args.input_path):
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print(filename)
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b = filename.read_bytes()
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(p_output / filename.name).with_suffix(".dat").write_bytes(pzz_compress(b))
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elif args.batch_decompress:
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print("### Batch Decompress")
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p_output.mkdir(exist_ok=True)
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p = Path('.')
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for filename in p.glob(args.input_path):
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print(filename)
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try:
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b = filename.read_bytes()
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(p_output / filename.name).with_suffix(".bin").write_bytes(pzz_decompress(b))
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except IndexError:
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print("! Wrong PZZ file")
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elif args.pack:
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print("### Pack")
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p_output.mkdir(exist_ok=True)
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pzz_pack(p_input, p_output)
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elif args.test:
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pzz_test()
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elif args.unpack:
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print("### Unpack")
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p_output.mkdir(exist_ok=True)
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pzz_unpack(p_input, p_output)
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#elif args.batch_pack:
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# pass
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elif args.batch_unpack:
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print("### Batch Unpack")
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p_output.mkdir(exist_ok=True)
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p = Path('.')
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for filename in p.glob(args.input_path):
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print(filename)
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pzz_unpack(filename, p_output)
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