A python package to read and edit nbt data
Project description
nbtlib
A python library to read and edit nbt data. Requires python 3.6.
Features
- Create, read and edit nbt files
- Supports gzipped and uncompressed files
- Parse and serialize raw nbt data
- Define tag schemas that automatically enforce predefined tag types
- Convert nbt between binary form and literal notation
- Includes a CLI to quickly perform read/write/merge operations
Installation
The package can be installed with pip.
$ pip install nbtlib
Basic usage
The following examples will give you a very basic overview of what you can do. For more advanced examples, check out the "Usage" notebook in the docs folder.
Reading files
Reading files can be done directly with the load() function. The
root property contains the root nbt tag. Every nbt tag inherits from
its python counterpart so you can use all the usual builtin operations
on nbt tags.
from nbtlib import nbt
nbt_file = nbt.load('bigtest.nbt')
assert nbt_file.root['intTest'] == 2147483647
Editing files
You can use nbt files as context managers in order to save modifications
automatically at the end of the with block.
from nbtlib import nbt
from nbtlib.tag import *
with nbt.load('demo.nbt') as demo:
demo.root['counter'] = Int(demo.root['counter'] + 1)
You can also use the save() method.
from nbtlib import nbt
from nbtlib.tag import *
demo = nbt.load('demo.nbt')
demo.root['counter'] = Int(demo.root['counter'] + 1)
demo.save()
For more details check out the "Usage" notebook.
Using schemas
A schema lets you create compound tags that enforce a specific tag type for any given key.
from nbtlib import schema
from nbtlib.tag import *
MySchema = schema('MySchema', {
'foo': String,
'bar': Short
})
my_object = MySchema({'foo': 'hello world', 'bar': 21})
assert isinstance(my_object['foo'], String)
Nbt literals
nbtlib also defines utilities to deal with literal nbt data. For
instance, you can parse nbt literals using the parse_nbt() function.
from nbtlib import parse_nbt
from nbtlib.tag import *
my_compound = parse_nbt('{foo:[hello,world],bar:[I;1,2,3]}')
assert my_compound == Compound({
'foo': List[String](['hello', 'world']),
'bar': IntArray([1, 2, 3])
})
Command-line interface
The package comes with a small CLI that makes it easy to quickly perform basic operations on nbt files.
$ nbt --help
usage: nbt [-h] (-r | -w <nbt> | -m <nbt>) [--plain] <file>
Perform basic operations on nbt files.
positional arguments:
<file> the target file
optional arguments:
-h, --help show this help message and exit
-r read nbt data from a file
-w <nbt> write nbt to a file
-m <nbt> merge nbt into an nbt file
--plain don't use gzip compression
Read nbt data
You can read nbt files by using the -r option. This will print the
literal notation of the binary nbt data.
$ nbt -r demo.nbt
{counter:42}
You can use the following command if you want to save the output into a file.
$ nbt -r my_file.nbt > my_file.txt
Write nbt data
You can write nbt data to a file by using the -w option. This will
convert the literal nbt notation to its binary form and save it in the
specified file.
$ nbt -w '{foo:[1,2,3],bar:{hello:[B;1b,1b,0b,1b]}}' my_file.nbt
The file will be created if it doesn't already exist.
Merge nbt data
Finally, you can merge some nbt data into an already existing file by
using the -m option. This will recursively update the file with
the values parsed from the literal argument.
$ nbt -m '{bar:{"new key":56f}}' my_file.nbt
You can check the result by using the -r option.
$ nbt -r my_file.nbt
{foo:[1,2,3],bar:{hello:[B;1b,1b,0b,1b],"new key":56.0f}}
Here, the compound values that aren't present in the input literal are
left untouched. Using the -w option instead of -m would
overwrite the whole file.
Compression
By default, the CLI will assume that you're working with gzipped nbt
files. If you want to read, write or merge uncompressed nbt files, you
can use the --plain option.
Reading
$ nbt -r my_file.nbt --plain
{name:"Reading from an uncompressed file"}
Writing
$ nbt -w '{name:"Writing in an uncompressed file"} my_file.nbt --plain
Merging
$ nbt -m '{name:"Merging in an uncompressed file"} my_file.nbt --plain
Contributing
Contributions are welcome. Unit tests are built with pytest. You can
run the test suite with:
$ python -m pytest tests
License - MIT
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