import struct from base import Box # <-- THIS IS THE KEY CHANGE class ItemLocation: # ... (rest of this class is unchanged) def __init__(self, item_id, offset, length): self.item_id = item_id self.offset = offset self.length = length def __repr__(self): return f"" class ItemLocationBox(Box): # ... (rest of this class is unchanged) def __init__(self, size: int, box_type: str, offset: int, raw_data: bytes): super().__init__(size, box_type, offset, raw_data) self.locations = [] self._parse_locations() def _parse_locations(self): # ... (all the parsing logic here is unchanged) stream = self.raw_data version_flags = struct.unpack('>I', stream[:4])[0] sizes = struct.unpack('>H', stream[4:6])[0] offset_size = (sizes >> 12) & 0x0F length_size = (sizes >> 8) & 0x0F base_offset_size = (sizes >> 4) & 0x0F item_count = struct.unpack('>H', stream[6:8])[0] current_pos = 8 for _ in range(item_count): item_id = struct.unpack('>H', stream[current_pos : current_pos+2])[0] current_pos += 2 # Skip construction_method current_pos += 2 # Skip data_reference_index current_pos += base_offset_size extent_count = struct.unpack('>H', stream[current_pos : current_pos+2])[0] current_pos += 2 if extent_count > 0: offset = self._read_int(stream, current_pos, offset_size) current_pos += offset_size length = self._read_int(stream, current_pos, length_size) current_pos += length_size self.locations.append(ItemLocation(item_id, offset, length)) def _read_int(self, data, pos, size): if size == 1: return data[pos] if size == 2: return struct.unpack('>H', data[pos:pos+2])[0] if size == 4: return struct.unpack('>I', data[pos:pos+4])[0] if size == 8: return struct.unpack('>Q', data[pos:pos+8])[0] return 0 class ItemInfoEntry: """A data class for one item described in an 'iinf' box.""" def __init__(self, item_id, item_type, item_name): self.item_id = item_id self.type = item_type self.name = item_name def __repr__(self): return f"" class ItemInfoBox(Box): """ A specialized class for the 'iinf' box. Parses its own data to build a list of all available items. """ def __init__(self, size: int, box_type: str, offset: int, raw_data: bytes): super().__init__(size, box_type, offset, raw_data) self.entries: list[ItemInfoEntry] = [] self._parse_entries() def _parse_entries(self): # 'iinf' is a FullBox, so the first 4 bytes are version/flags item_count = struct.unpack('>H', self.raw_data[4:6])[0] # The children are 'infe' boxes, which are parsed by the generic parser for infe_box in self.children: if infe_box.type == 'infe': # 'infe' is a FullBox (version, flags) # version = infe_box.raw_data[0] item_id = struct.unpack('>H', infe_box.raw_data[4:6])[0] item_type = infe_box.raw_data[8:12].decode('ascii').strip('\x00') item_name_bytes = infe_box.raw_data[12:] item_name = item_name_bytes.decode('utf-8', errors='ignore').strip('\x00') self.entries.append(ItemInfoEntry(item_id, item_type, item_name)) class PrimaryItemBox(Box): """ A specialized class for the 'pitm' box. """ def __init__(self, size: int, box_type: str, offset: int, raw_data: bytes): super().__init__(size, box_type, offset, raw_data) self.item_id: int = 0 self._parse_item_id() def _parse_item_id(self): # 'pitm' is a FullBox (version, flags) self.item_id = struct.unpack('>H', self.raw_data[4:6])[0]