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Alexandre Défossez
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23fe483
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Parent(s):
8e10a53
Improve demo (#51)
Browse files* allowing sharing directly, changelog, reduce volume.
* activate
* plop
- CHANGELOG.md +11 -2
- README.md +1 -1
- app.py +11 -9
- app_batched.py +3 -1
- audiocraft/__init__.py +1 -1
- audiocraft/data/audio.py +3 -1
- audiocraft/data/audio_utils.py +9 -4
- audiocraft/models/musicgen.py +2 -0
- audiocraft/modules/conditioners.py +6 -2
CHANGELOG.md
CHANGED
@@ -4,6 +4,15 @@ All notable changes to this project will be documented in this file.
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The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/).
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## [0.0.
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-
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The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/).
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## [0.0.2a] - TBD
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Improved demo, fixed top p (thanks @jnordberg).
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Compressor tanh on output to avoid clipping with some style (especially piano).
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Now repeating the conditioning periodically if it is too short.
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More options when launching Gradio app locally (thanks @ashleykleynhans).
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## [0.0.1] - 2023-06-09
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Initial release, with model evaluation only.
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README.md
CHANGED
@@ -80,7 +80,7 @@ wav = model.generate_with_chroma(descriptions, melody[None].expand(3, -1, -1), s
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for idx, one_wav in enumerate(wav):
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# Will save under {idx}.wav, with loudness normalization at -14 db LUFS.
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audio_write(f'{idx}', one_wav.cpu(), model.sample_rate, strategy="loudness")
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```
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for idx, one_wav in enumerate(wav):
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# Will save under {idx}.wav, with loudness normalization at -14 db LUFS.
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audio_write(f'{idx}', one_wav.cpu(), model.sample_rate, strategy="loudness", loudness_compressor=True)
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```
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app.py
CHANGED
@@ -13,7 +13,6 @@ import gradio as gr
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from audiocraft.models import MusicGen
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from audiocraft.data.audio import audio_write
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-
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MODEL = None
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@@ -56,7 +55,9 @@ def predict(model, text, melody, duration, topk, topp, temperature, cfg_coef):
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output = output.detach().cpu().float()[0]
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with NamedTemporaryFile("wb", suffix=".wav", delete=False) as file:
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audio_write(
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waveform_video = gr.make_waveform(file.name)
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return waveform_video
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gr.Markdown(
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"""
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# MusicGen
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-
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This is the demo for [MusicGen](https://github.com/facebookresearch/audiocraft), a simple and controllable model for music generation
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presented at: ["Simple and Controllable Music Generation"](https://huggingface.co/papers/2306.05284).
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<br/>
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@@ -129,19 +130,19 @@ def ui(**kwargs):
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gr.Markdown(
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"""
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### More details
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The model will generate a short music extract based on the description you provided.
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You can generate up to 30 seconds of audio.
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-
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We present 4 model variations:
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1. Melody -- a music generation model capable of generating music condition on text and melody inputs. **Note**, you can also use text only.
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2. Small -- a 300M transformer decoder conditioned on text only.
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3. Medium -- a 1.5B transformer decoder conditioned on text only.
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4. Large -- a 3.3B transformer decoder conditioned on text only (might OOM for the longest sequences.)
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-
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When using `melody`, ou can optionaly provide a reference audio from
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which a broad melody will be extracted. The model will then try to follow both the description and melody provided.
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-
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You can also use your own GPU or a Google Colab by following the instructions on our repo.
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See [github.com/facebookresearch/audiocraft](https://github.com/facebookresearch/audiocraft)
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for more details.
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@@ -168,7 +169,8 @@ def ui(**kwargs):
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if share:
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launch_kwargs['share'] = share
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interface.launch(**launch_kwargs)
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if __name__ == "__main__":
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# torch.cuda.set_per_process_memory_fraction(0.48)
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server_port=args.server_port,
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share=args.share,
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listen=args.listen
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)
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from audiocraft.models import MusicGen
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from audiocraft.data.audio import audio_write
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MODEL = None
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output = output.detach().cpu().float()[0]
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with NamedTemporaryFile("wb", suffix=".wav", delete=False) as file:
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audio_write(
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file.name, output, MODEL.sample_rate, strategy="loudness",
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loudness_headroom_db=16, loudness_compressor=True, add_suffix=False)
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waveform_video = gr.make_waveform(file.name)
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return waveform_video
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gr.Markdown(
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"""
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# MusicGen
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This is the demo for [MusicGen](https://github.com/facebookresearch/audiocraft), a simple and controllable model for music generation
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presented at: ["Simple and Controllable Music Generation"](https://huggingface.co/papers/2306.05284).
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<br/>
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gr.Markdown(
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"""
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### More details
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+
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The model will generate a short music extract based on the description you provided.
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You can generate up to 30 seconds of audio.
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+
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We present 4 model variations:
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1. Melody -- a music generation model capable of generating music condition on text and melody inputs. **Note**, you can also use text only.
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2. Small -- a 300M transformer decoder conditioned on text only.
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3. Medium -- a 1.5B transformer decoder conditioned on text only.
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4. Large -- a 3.3B transformer decoder conditioned on text only (might OOM for the longest sequences.)
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+
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When using `melody`, ou can optionaly provide a reference audio from
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which a broad melody will be extracted. The model will then try to follow both the description and melody provided.
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+
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You can also use your own GPU or a Google Colab by following the instructions on our repo.
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See [github.com/facebookresearch/audiocraft](https://github.com/facebookresearch/audiocraft)
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for more details.
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if share:
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launch_kwargs['share'] = share
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interface.queue().launch(**launch_kwargs, max_threads=1)
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if __name__ == "__main__":
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# torch.cuda.set_per_process_memory_fraction(0.48)
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server_port=args.server_port,
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share=args.share,
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listen=args.listen
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)
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app_batched.py
CHANGED
@@ -57,7 +57,9 @@ def predict(texts, melodies):
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out_files = []
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for output in outputs:
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with NamedTemporaryFile("wb", suffix=".wav", delete=False) as file:
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audio_write(
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waveform_video = gr.make_waveform(file.name)
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out_files.append(waveform_video)
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return [out_files]
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out_files = []
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for output in outputs:
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with NamedTemporaryFile("wb", suffix=".wav", delete=False) as file:
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audio_write(
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file.name, output, MODEL.sample_rate, strategy="loudness",
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loudness_headroom_db=16, loudness_compressor=True, add_suffix=False)
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waveform_video = gr.make_waveform(file.name)
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out_files.append(waveform_video)
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return [out_files]
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audiocraft/__init__.py
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@@ -7,4 +7,4 @@
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# flake8: noqa
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from . import data, modules, models
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__version__ = '0.0.
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# flake8: noqa
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from . import data, modules, models
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__version__ = '0.0.2a1'
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audiocraft/data/audio.py
CHANGED
@@ -155,6 +155,7 @@ def audio_write(stem_name: tp.Union[str, Path],
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format: str = 'wav', mp3_rate: int = 320, normalize: bool = True,
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strategy: str = 'peak', peak_clip_headroom_db: float = 1,
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rms_headroom_db: float = 18, loudness_headroom_db: float = 14,
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log_clipping: bool = True, make_parent_dir: bool = True,
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add_suffix: bool = True) -> Path:
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"""Convenience function for saving audio to disk. Returns the filename the audio was written to.
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@@ -173,7 +174,8 @@ def audio_write(stem_name: tp.Union[str, Path],
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rms_headroom_db (float): Headroom in dB when doing 'rms' strategy. This must be much larger
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than the `peak_clip` one to avoid further clipping.
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loudness_headroom_db (float): Target loudness for loudness normalization.
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-
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occurs despite strategy (only for 'rms').
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make_parent_dir (bool): Make parent directory if it doesn't exist.
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Returns:
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format: str = 'wav', mp3_rate: int = 320, normalize: bool = True,
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strategy: str = 'peak', peak_clip_headroom_db: float = 1,
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rms_headroom_db: float = 18, loudness_headroom_db: float = 14,
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loudness_compressor: bool = False,
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log_clipping: bool = True, make_parent_dir: bool = True,
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add_suffix: bool = True) -> Path:
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"""Convenience function for saving audio to disk. Returns the filename the audio was written to.
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rms_headroom_db (float): Headroom in dB when doing 'rms' strategy. This must be much larger
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than the `peak_clip` one to avoid further clipping.
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loudness_headroom_db (float): Target loudness for loudness normalization.
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loudness_compressor (bool): Uses tanh for soft clipping when strategy is 'loudness'.
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when strategy is 'loudness'log_clipping (bool): If True, basic logging on stderr when clipping still
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occurs despite strategy (only for 'rms').
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make_parent_dir (bool): Make parent directory if it doesn't exist.
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Returns:
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audiocraft/data/audio_utils.py
CHANGED
@@ -54,8 +54,8 @@ def convert_audio(wav: torch.Tensor, from_rate: float,
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return wav
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-
def normalize_loudness(wav: torch.Tensor, sample_rate: int, loudness_headroom_db: float =
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energy_floor: float = 2e-3):
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"""Normalize an input signal to a user loudness in dB LKFS.
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Audio loudness is defined according to the ITU-R BS.1770-4 recommendation.
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@@ -63,6 +63,7 @@ def normalize_loudness(wav: torch.Tensor, sample_rate: int, loudness_headroom_db
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wav (torch.Tensor): Input multichannel audio data.
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sample_rate (int): Sample rate.
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loudness_headroom_db (float): Target loudness of the output in dB LUFS.
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energy_floor (float): anything below that RMS level will not be rescaled.
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Returns:
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output (torch.Tensor): Loudness normalized output data.
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delta_loudness = -loudness_headroom_db - input_loudness_db
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gain = 10.0 ** (delta_loudness / 20.0)
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output = gain * wav
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assert output.isfinite().all(), (input_loudness_db, wav.pow(2).mean().sqrt())
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return output
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def normalize_audio(wav: torch.Tensor, normalize: bool = True,
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strategy: str = 'peak', peak_clip_headroom_db: float = 1,
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rms_headroom_db: float = 18, loudness_headroom_db: float = 14,
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-
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stem_name: tp.Optional[str] = None) -> torch.Tensor:
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"""Normalize the audio according to the prescribed strategy (see after).
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@@ -109,6 +113,7 @@ def normalize_audio(wav: torch.Tensor, normalize: bool = True,
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rms_headroom_db (float): Headroom in dB when doing 'rms' strategy. This must be much larger
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than the `peak_clip` one to avoid further clipping.
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loudness_headroom_db (float): Target loudness for loudness normalization.
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log_clipping (bool): If True, basic logging on stderr when clipping still
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occurs despite strategy (only for 'rms').
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sample_rate (int): Sample rate for the audio data (required for loudness).
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_clip_wav(wav, log_clipping=log_clipping, stem_name=stem_name)
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elif strategy == 'loudness':
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assert sample_rate is not None, "Loudness normalization requires sample rate."
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-
wav = normalize_loudness(wav, sample_rate, loudness_headroom_db)
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_clip_wav(wav, log_clipping=log_clipping, stem_name=stem_name)
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else:
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assert wav.abs().max() < 1
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return wav
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+
def normalize_loudness(wav: torch.Tensor, sample_rate: int, loudness_headroom_db: float = 14,
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loudness_compressor: bool = False, energy_floor: float = 2e-3):
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"""Normalize an input signal to a user loudness in dB LKFS.
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Audio loudness is defined according to the ITU-R BS.1770-4 recommendation.
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wav (torch.Tensor): Input multichannel audio data.
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sample_rate (int): Sample rate.
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loudness_headroom_db (float): Target loudness of the output in dB LUFS.
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+
loudness_compressor (bool): Uses tanh for soft clipping.
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energy_floor (float): anything below that RMS level will not be rescaled.
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Returns:
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output (torch.Tensor): Loudness normalized output data.
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delta_loudness = -loudness_headroom_db - input_loudness_db
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gain = 10.0 ** (delta_loudness / 20.0)
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output = gain * wav
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+
if loudness_compressor:
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+
output = torch.tanh(output)
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assert output.isfinite().all(), (input_loudness_db, wav.pow(2).mean().sqrt())
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return output
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def normalize_audio(wav: torch.Tensor, normalize: bool = True,
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strategy: str = 'peak', peak_clip_headroom_db: float = 1,
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rms_headroom_db: float = 18, loudness_headroom_db: float = 14,
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loudness_compressor: bool = False, log_clipping: bool = False,
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sample_rate: tp.Optional[int] = None,
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stem_name: tp.Optional[str] = None) -> torch.Tensor:
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"""Normalize the audio according to the prescribed strategy (see after).
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rms_headroom_db (float): Headroom in dB when doing 'rms' strategy. This must be much larger
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than the `peak_clip` one to avoid further clipping.
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loudness_headroom_db (float): Target loudness for loudness normalization.
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+
loudness_compressor (bool): If True, uses tanh based soft clipping.
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log_clipping (bool): If True, basic logging on stderr when clipping still
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occurs despite strategy (only for 'rms').
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sample_rate (int): Sample rate for the audio data (required for loudness).
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_clip_wav(wav, log_clipping=log_clipping, stem_name=stem_name)
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elif strategy == 'loudness':
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assert sample_rate is not None, "Loudness normalization requires sample rate."
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wav = normalize_loudness(wav, sample_rate, loudness_headroom_db, loudness_compressor)
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_clip_wav(wav, log_clipping=log_clipping, stem_name=stem_name)
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else:
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assert wav.abs().max() < 1
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audiocraft/models/musicgen.py
CHANGED
@@ -88,6 +88,8 @@ class MusicGen:
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cache_dir = os.environ.get('MUSICGEN_ROOT', None)
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compression_model = load_compression_model(name, device=device, cache_dir=cache_dir)
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lm = load_lm_model(name, device=device, cache_dir=cache_dir)
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return MusicGen(name, compression_model, lm)
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cache_dir = os.environ.get('MUSICGEN_ROOT', None)
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compression_model = load_compression_model(name, device=device, cache_dir=cache_dir)
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lm = load_lm_model(name, device=device, cache_dir=cache_dir)
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+
if name == 'melody' and True:
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+
lm.condition_provider.conditioners['self_wav'].match_len_on_eval = True
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return MusicGen(name, compression_model, lm)
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audiocraft/modules/conditioners.py
CHANGED
@@ -9,6 +9,7 @@ from copy import deepcopy
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from dataclasses import dataclass, field
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from itertools import chain
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import logging
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import random
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import re
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import typing as tp
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@@ -484,7 +485,7 @@ class ChromaStemConditioner(WaveformConditioner):
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**kwargs: Additional parameters for the chroma extractor.
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"""
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def __init__(self, output_dim: int, sample_rate: int, n_chroma: int, radix2_exp: int,
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-
duration: float, match_len_on_eval: bool =
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n_eval_wavs: int = 0, device: tp.Union[torch.device, str] = "cpu", **kwargs):
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from demucs import pretrained
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super().__init__(dim=n_chroma, output_dim=output_dim, device=device)
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@@ -535,7 +536,10 @@ class ChromaStemConditioner(WaveformConditioner):
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chroma = chroma[:, :self.chroma_len]
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logger.debug(f'chroma was truncated! ({t} -> {chroma.shape[1]})')
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elif t < self.chroma_len:
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-
chroma = F.pad(chroma, (0, 0, 0, self.chroma_len - t))
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logger.debug(f'chroma was zero-padded! ({t} -> {chroma.shape[1]})')
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return chroma
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from dataclasses import dataclass, field
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from itertools import chain
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import logging
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+
import math
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import random
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import re
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import typing as tp
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**kwargs: Additional parameters for the chroma extractor.
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"""
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487 |
def __init__(self, output_dim: int, sample_rate: int, n_chroma: int, radix2_exp: int,
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+
duration: float, match_len_on_eval: bool = True, eval_wavs: tp.Optional[str] = None,
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n_eval_wavs: int = 0, device: tp.Union[torch.device, str] = "cpu", **kwargs):
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from demucs import pretrained
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super().__init__(dim=n_chroma, output_dim=output_dim, device=device)
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536 |
chroma = chroma[:, :self.chroma_len]
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logger.debug(f'chroma was truncated! ({t} -> {chroma.shape[1]})')
|
538 |
elif t < self.chroma_len:
|
539 |
+
# chroma = F.pad(chroma, (0, 0, 0, self.chroma_len - t))
|
540 |
+
n_repeat = int(math.ceil(self.chroma_len / t))
|
541 |
+
chroma = chroma.repeat(1, n_repeat, 1)
|
542 |
+
chroma = chroma[:, :self.chroma_len]
|
543 |
logger.debug(f'chroma was zero-padded! ({t} -> {chroma.shape[1]})')
|
544 |
return chroma
|
545 |
|