mirror of
https://github.com/ammaraskar/pyCraft.git
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354 lines
12 KiB
Python
354 lines
12 KiB
Python
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#!/usr/bin/env python
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# -*- coding: utf8 -*-
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"""
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Implements reading & writing for the Minecraft Named Binary Tag (NBT) format,
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created by Markus Petersson.
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.. moduleauthor:: Tyler Kennedy <tk@tkte.ch>
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"""
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import gzip
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from struct import unpack, pack
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class BaseTag(object):
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def __init__(self, value, name=None):
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self.name = name
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self.value = value
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@staticmethod
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def _read_utf8(read):
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"""Reads a length-prefixed UTF-8 string."""
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name_length = read('H', 2)[0]
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return read.io.read(name_length).decode('utf-8')
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@staticmethod
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def _write_utf8(write, value):
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"""Writes a length-prefixed UTF-8 string."""
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write('h', len(value))
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write.io.write(value.encode('UTF-8'))
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@classmethod
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def read(cls, read, has_name=True):
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"""
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Read the tag in using the reader `rd`.
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If `has_name` is `False`, skip reading the tag name.
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"""
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name = cls._read_utf8(read) if has_name else None
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if cls is TAG_Compound:
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# A TAG_Compound is almost identical to Python's native dict()
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# object, or a Java HashMap.
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final = {}
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while True:
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# Find the type of each tag in a compound in turn.
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tag = read('b', 1)[0]
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if tag == 0:
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# A tag of 0 means we've reached TAG_End, used to terminate
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# a TAG_Compound.
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break
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# We read in each tag in turn, using its name as the key in
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# the dict (Since a compound cannot have repeating names,
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# this works fine).
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tmp = _tags[tag].read(read)
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final[tmp.name] = tmp
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return cls(final, name=name)
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elif cls is TAG_List:
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# A TAG_List is a very simple homogeneous array, similar to
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# Python's native list() object, but restricted to a single type.
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tag_type, length = read('bi', 5)
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tag_read = _tags[tag_type].read
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return cls(
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_tags[tag_type],
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[tag_read(read, has_name=False) for x in range(0, length)],
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name=name
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)
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elif cls is TAG_String:
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# A simple length-prefixed UTF-8 string.
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value = cls._read_utf8(read)
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return cls(value, name=name)
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elif cls is TAG_Byte_Array:
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# A simple array of (signed) bytes.
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length = read('i', 4)[0]
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return cls(read('{0}b'.format(length), length), name=name)
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elif cls is TAG_Int_Array:
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# A simple array of (signed) 4-byte integers.
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length = read('i', 4)[0]
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return cls(read('{0}i'.format(length), length * 4), name=name)
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elif cls is TAG_Byte:
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# A single (signed) byte.
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return cls(read('b', 1)[0], name=name)
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elif cls is TAG_Short:
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# A single (signed) short.
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return cls(read('h', 2)[0], name=name)
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elif cls is TAG_Int:
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# A signed (signed) 4-byte int.
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return cls(read('i', 4)[0], name=name)
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elif cls is TAG_Long:
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# A single (signed) 8-byte long.
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return cls(read('q', 8)[0], name=name)
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elif cls is TAG_Float:
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# A single single-precision floating point value.
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return cls(read('f', 4)[0], name=name)
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elif cls is TAG_Double:
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# A single double-precision floating point value.
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return cls(read('d', 8)[0], name=name)
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def write(self, write):
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# Only write the name TAG_String if our name is not `None`.
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# If you want a blank name, use ''.
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if self.name is not None:
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if isinstance(self, NBTFile):
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write('b', 0x0A)
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else:
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write('b', _tags.index(self.__class__))
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self._write_utf8(write, self.name)
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if isinstance(self, TAG_List):
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write('bi', _tags.index(self.type_), len(self.value))
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for item in self.value:
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# If our list item isn't of type self._type, convert
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# it before writing.
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if not isinstance(item, self.type_):
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item = self.type_(item)
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item.write(write)
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elif isinstance(self, TAG_Compound):
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for v in self.value.values():
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v.write(write)
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# A tag of type 0 (TAg_End) terminates a TAG_Compound.
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write('b', 0)
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elif isinstance(self, TAG_String):
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self._write_utf8(write, self.value)
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elif isinstance(self, TAG_Int_Array):
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l = len(self.value)
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write('i{0}i'.format(l), l, *self.value)
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elif isinstance(self, TAG_Byte_Array):
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l = len(self.value)
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write('i{0}b'.format(l), l, *self.value)
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elif isinstance(self, TAG_Byte):
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write('b', self.value)
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elif isinstance(self, TAG_Short):
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write('h', self.value)
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elif isinstance(self, TAG_Int):
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write('i', self.value)
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elif isinstance(self, TAG_Long):
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write('q', self.value)
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elif isinstance(self, TAG_Float):
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write('f', self.value)
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elif isinstance(self, TAG_Double):
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write('d', self.value)
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def pretty(self, indent=0, indent_str=' '):
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"""
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Pretty-print a tag in the same general style as Markus's example
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output.
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"""
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return '{0}{1}({2!r}): {3!r}'.format(
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indent_str * indent,
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self.__class__.__name__,
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self.name,
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self.value
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)
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def __repr__(self):
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return '{0}({1!r}, {2!r})'.format(
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self.__class__.__name__, self.value, self.name)
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def __str__(self):
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return repr(self)
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def __unicode__(self):
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return unicode(repr(self), 'utf-8')
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class TAG_Byte(BaseTag):
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pass
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class TAG_Short(BaseTag):
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pass
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class TAG_Int(BaseTag):
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pass
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class TAG_Long(BaseTag):
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pass
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class TAG_Float(BaseTag):
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pass
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class TAG_Double(BaseTag):
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pass
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class TAG_Byte_Array(BaseTag):
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def pretty(self, indent=0, indent_str=' '):
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return '{0}TAG_Byte_Array({1!r}): [{2} bytes]'.format(
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indent_str * indent, self.name, len(self.value))
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class TAG_String(BaseTag):
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pass
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class TAG_List(BaseTag, list):
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def __init__(self, tag_type, value=None, name=None):
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"""
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Creates a new homogeneous list of `tag_type` items, copying `value`
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if provided.
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"""
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self.name = name
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self.value = self
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self.type_ = tag_type
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if value is not None:
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self.extend(value)
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def pretty(self, indent=0, indent_str=' '):
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t = []
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t.append('{0}TAG_List({1!r}): {2} entries'.format(
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indent_str * indent, self.name, len(self.value)))
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t.append('{0}{{'.format(indent_str * indent))
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for v in self.value:
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t.append(v.pretty(indent + 1, indent_str))
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t.append('{0}}}'.format(indent_str * indent))
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return '\n'.join(t)
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def __repr__(self):
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return '{0}({1!r} entries, {2!r})'.format(
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self.__class__.__name__, len(self), self.name)
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class TAG_Compound(BaseTag, dict):
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def __init__(self, value=None, name=None):
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self.name = name
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self.value = self
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if value is not None:
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self.update(value)
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def pretty(self, indent=0, indent_str=' '):
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t = []
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t.append('{0}TAG_Compound({1!r}): {2} entries'.format(
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indent_str * indent, self.name, len(self.value)))
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t.append('{0}{{'.format(indent_str * indent))
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for v in self.values():
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t.append(v.pretty(indent + 1, indent_str))
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t.append('{0}}}'.format(indent_str * indent))
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return '\n'.join(t)
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def __repr__(self):
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return '{0}({1!r} entries, {2!r})'.format(
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self.__class__.__name__, len(self), self.name)
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def __setitem__(self, key, value):
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"""
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Sets the TAG_*'s name if it isn't already set to that of the key
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it's being assigned to. This results in cleaner code, as the name
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does not need to be specified twice.
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"""
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if value.name is None:
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value.name = key
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super(TAG_Compound, self).__setitem__(key, value)
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def update(self, *args, **kwargs):
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"""See `__setitem__`."""
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super(TAG_Compound, self).update(*args, **kwargs)
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for key, item in self.items():
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if item.name is None:
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item.name = key
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class TAG_Int_Array(BaseTag):
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def pretty(self, indent=0, indent_str=' '):
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return '{0}TAG_Int_Array({1!r}): [{2} integers]'.format(
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indent_str * indent, self.name, len(self.value))
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# The TAG_* types have the convienient property of being continuous.
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# The code is written in such a way that if this were to no longer be
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# true in the future, _tags can simply be replaced with a dict().
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_tags = (
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None,
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TAG_Byte,
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TAG_Short,
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TAG_Int,
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TAG_Long,
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TAG_Float,
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TAG_Double,
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TAG_Byte_Array,
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TAG_String,
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TAG_List,
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TAG_Compound,
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TAG_Int_Array
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)
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class NBTFile(TAG_Compound):
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class Compression(object):
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"""
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Defines compression schemes to be used for loading and saving
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NBT files.
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"""
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# NONE is simply for the sake of completeness.
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NONE = 10
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# Use Gzip compression when reading or writing.
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GZIP = 20
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def __init__(self, io=None, name=None, value=None, compression=None,
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little_endian=False):
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"""
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Creates a new NBTFile or loads one from any file-like object providing
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`read()`.
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Construction a new NBTFile() is as simple as:
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>>> nbt = NBTFile(name='')
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Whereas loading an existing one is most often done:
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>>> with open('my_file.nbt', rb') as io:
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... nbt = NBTFile(io=io, compression=NBTFile.Compression.GZIP)
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"""
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# No file or path given, so we're creating a new NBTFile.
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if io is None:
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super(NBTFile, self).__init__(value if value else {}, name)
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return
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if compression is None or compression == NBTFile.Compression.NONE:
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final_io = io
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elif compression == NBTFile.Compression.GZIP:
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final_io = gzip.GzipFile(fileobj=io, mode='rb')
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else:
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raise ValueError('Unrecognized compression scheme.')
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# The pocket edition uses little-endian NBT files, but annoyingly
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# without any kind of header we can't determine that ourselves,
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# not even a magic number we could flip.
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if little_endian:
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read = lambda fmt, size: unpack('<' + fmt, final_io.read(size))
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else:
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read = lambda fmt, size: unpack('>' + fmt, final_io.read(size))
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read.io = final_io
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# All valid NBT files will begin with 0x0A, which is a TAG_Compound.
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if read('b', 1)[0] != 0x0A:
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raise IOError('NBTFile does not begin with 0x0A.')
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tmp = TAG_Compound.read(read)
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super(NBTFile, self).__init__(tmp, tmp.name)
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def save(self, io, compression=None, little_endian=False):
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"""
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Saves the `NBTFile()` to `io`, which can be any file-like object
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providing `write()`.
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"""
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if compression is None or compression == NBTFile.Compression.NONE:
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final_io = io
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elif compression == NBTFile.Compression.GZIP:
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final_io = gzip.GzipFile(fileobj=io, mode='wb')
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if little_endian:
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write = lambda fmt, *args: final_io.write(pack('<' + fmt, *args))
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else:
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write = lambda fmt, *args: final_io.write(pack('>' + fmt, *args))
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write.io = final_io
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self.write(write)
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