Skip to content
/ MidiTok Public
forked from Natooz/MidiTok

A convenient MIDI / symbolic music tokenizer for Deep Learning networks 🎶

License

Notifications You must be signed in to change notification settings

aspil/MidiTok

 
 

Repository files navigation

MidiTok

Python package to tokenize music files, introduced at the ISMIR 2021 LBDs.

MidiTok Logo

PyPI version fury.io Python 3.8 Documentation Status GitHub CI Codecov GitHub license Downloads Code style

MidiTok can tokenize MIDI and abc files, i.e. convert them into sequences of tokens ready to be fed to models such as Transformer, for any generation, transcription or MIR task. MidiTok features most known music tokenizations (e.g. REMI, Compound Word...), and is built around the idea that they all share common parameters and methods. Tokenizers can be trained with Byte Pair Encoding (BPE), Unigram and WordPiece, and it offers data augmentation methods.

MidiTok is integrated with the Hugging Face Hub 🤗! Don't hesitate to share your models to the community!

Documentation: miditok.readthedocs.com

Install

pip install miditok

MidiTok uses Symusic to read and write MIDI and abc files, and BPE/Unigram is backed by Hugging Face 🤗tokenizers for superfast encoding.

Usage example

Tokenizing and detokenzing can be done by calling the tokenizer:

from miditok import REMI, TokenizerConfig
from symusic import Score

# Creating a multitrack tokenizer, read the doc to explore all the parameters
config = TokenizerConfig(num_velocities=16, use_chords=True, use_programs=True)
tokenizer = REMI(config)

# Loads a midi, converts to tokens, and back to a MIDI
midi = Score("path/to/your_midi.mid")
tokens = tokenizer(midi)  # calling the tokenizer will automatically detect MIDIs, paths and tokens
converted_back_midi = tokenizer(tokens)  # PyTorch, Tensorflow and Numpy tensors are supported

Here is a complete yet concise example of how you can use MidiTok to train any PyTorch model. And here is a simple notebook example showing how to use Hugging Face models to generate music, with MidiTok taking care of tokenizing music files.

from miditok import REMI, TokenizerConfig
from miditok.pytorch_data import DatasetMIDI, DataCollator
from miditok.utils import split_files_for_training
from torch.utils.data import DataLoader
from pathlib import Path

# Creating a multitrack tokenizer, read the doc to explore all the parameters
config = TokenizerConfig(num_velocities=16, use_chords=True, use_programs=True)
tokenizer = REMI(config)

# Train the tokenizer with Byte Pair Encoding (BPE)
files_paths = list(Path("path", "to", "midis").glob("**/*.mid"))
tokenizer.train(vocab_size=30000, files_paths=files_paths)
tokenizer.save(Path("path", "to", "save", "tokenizer.json"))
# And pushing it to the Hugging Face hub (you can download it back with .from_pretrained)
tokenizer.push_to_hub("username/model-name", private=True, token="your_hf_token")

# Split MIDIs into smaller chunks for training
dataset_chunks_dir = Path("path", "to", "midi_chunks")
split_files_for_training(
    files_paths=files_paths,
    tokenizer=tokenizer,
    save_dir=dataset_chunks_dir,
    max_seq_len=1024,
)

# Create a Dataset, a DataLoader and a collator to train a model
dataset = DatasetMIDI(
    files_paths=list(dataset_chunks_dir.glob("**/*.mid")),
    tokenizer=tokenizer,
    max_seq_len=1024,
    bos_token_id=tokenizer["BOS_None"],
    eos_token_id=tokenizer["EOS_None"],
)
collator = DataCollator(tokenizer.pad_token_id, copy_inputs_as_labels=True)
dataloader = DataLoader(dataset, batch_size=64, collate_fn=collator)

# Iterate over the dataloader to train a model
for batch in dataloader:
    print("Train your model on this batch...")

Tokenizations

MidiTok implements the tokenizations: (links to original papers)

You can find short presentations in the documentation.

Contributions

Contributions are gratefully welcomed, feel free to open an issue or send a PR if you want to add a tokenization or speed up the code. You can read the contribution guide for details.

Todos

  • Support music-xml files;
  • no_duration_drums option, discarding duration tokens for drum notes;
  • Control Change messages;
  • Speed-up global/track events parsing with Rust or C++ bindings.

Citation

If you use MidiTok for your research, a citation in your manuscript would be gladly appreciated. ❤️

[MidiTok paper] [MidiTok original ISMIR publication]

@inproceedings{miditok2021,
    title={{MidiTok}: A Python package for {MIDI} file tokenization},
    author={Fradet, Nathan and Briot, Jean-Pierre and Chhel, Fabien and El Fallah Seghrouchni, Amal and Gutowski, Nicolas},
    booktitle={Extended Abstracts for the Late-Breaking Demo Session of the 22nd International Society for Music Information Retrieval Conference},
    year={2021},
    url={https://archives.ismir.net/ismir2021/latebreaking/000005.pdf},
}

The BibTeX citations of all tokenizations can be found in the documentation

Acknowledgments

@Natooz thanks its employers who allowed him to develop this project, by chronological order Aubay, the LIP6 (Sorbonne University), and the Metacreation Lab (Simon Fraser University).

All Thanks To Our Contributors

About

A convenient MIDI / symbolic music tokenizer for Deep Learning networks 🎶

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Python 96.1%
  • Jupyter Notebook 3.9%