From 66dd72bb2b807aaf6d011c89678d85b51fb3b859 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 15 Dec 2023 16:10:51 +0100 Subject: [PATCH 01/45] feat(model): add `num_frames` and `receptive_field` to segmentation models Co-authored-by: Bilal Rahou --- CHANGELOG.md | 6 ++ pyannote/audio/models/blocks/sincnet.py | 89 ++++++++++++++++++- pyannote/audio/models/segmentation/PyanNet.py | 31 +++++++ .../audio/models/segmentation/SSeRiouSS.py | 78 ++++++++++++++++ pyannote/audio/models/segmentation/debug.py | 77 ++++++++++++++++ pyannote/audio/utils/frame.py | 80 +++++++++++++++++ 6 files changed, 359 insertions(+), 2 deletions(-) create mode 100644 pyannote/audio/utils/frame.py diff --git a/CHANGELOG.md b/CHANGELOG.md index 777f41f38..ed30b980a 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -1,5 +1,11 @@ # Changelog +## develop branch + +### New features + +- feat(model): add `num_frames` and `receptive_field` to segmentation models + ## Version 3.1.1 (2023-12-01) ### TL;DR diff --git a/pyannote/audio/models/blocks/sincnet.py b/pyannote/audio/models/blocks/sincnet.py index 65bd6e57f..33e312ba5 100644 --- a/pyannote/audio/models/blocks/sincnet.py +++ b/pyannote/audio/models/blocks/sincnet.py @@ -28,6 +28,9 @@ import torch.nn as nn import torch.nn.functional as F from asteroid_filterbanks import Encoder, ParamSincFB +from pyannote.core import SlidingWindow + +from pyannote.audio.utils.frame import conv1d_num_frames, conv1d_receptive_field_size class SincNet(nn.Module): @@ -35,10 +38,11 @@ def __init__(self, sample_rate: int = 16000, stride: int = 1): super().__init__() if sample_rate != 16000: - raise NotImplementedError("PyanNet only supports 16kHz audio for now.") + raise NotImplementedError("SincNet only supports 16kHz audio for now.") # TODO: add support for other sample rate. it should be enough to multiply # kernel_size by (sample_rate / 16000). but this needs to be double-checked. + self.sample_rate = sample_rate self.stride = stride self.wav_norm1d = nn.InstanceNorm1d(1, affine=True) @@ -70,6 +74,88 @@ def __init__(self, sample_rate: int = 16000, stride: int = 1): self.pool1d.append(nn.MaxPool1d(3, stride=3, padding=0, dilation=1)) self.norm1d.append(nn.InstanceNorm1d(60, affine=True)) + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames for a given number of input samples + + Parameters + ---------- + num_samples : int + Number of input samples + + Returns + ------- + num_frames : int + Number of output frames + """ + + kernel_size = [251, 3, 5, 3, 5, 3] + stride = [self.stride, 3, 1, 3, 1, 3] + padding = [0, 0, 0, 0, 0, 0] + dilation = [1, 1, 1, 1, 1, 1] + + num_frames = num_samples + for k, s, p, d in zip(kernel_size, stride, padding, dilation): + num_frames = conv1d_num_frames( + num_frames, kernel_size=k, stride=s, padding=p, dilation=d + ) + + return num_frames + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute receptive field size + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size + """ + + kernel_size = [251, 3, 5, 3, 5, 3] + stride = [self.stride, 3, 1, 3, 1, 3] + padding = [0, 0, 0, 0, 0, 0] + dilation = [1, 1, 1, 1, 1, 1] + + receptive_field_size = num_frames + for k, s, p, d in reversed(list(zip(kernel_size, stride, padding, dilation))): + receptive_field_size = conv1d_receptive_field_size( + num_frames=receptive_field_size, + kernel_size=k, + stride=s, + padding=p, + dilation=d, + ) + + return receptive_field_size + + def receptive_field(self) -> SlidingWindow: + """Compute receptive field + + Returns + ------- + receptive field : SlidingWindow + + Source + ------ + https://distill.pub/2019/computing-receptive-fields/ + + """ + + # duration of the receptive field of each output frame + duration = self.receptive_field_size() / self.sample_rate + + # step between the receptive field region of two consecutive output frames + step = ( + self.receptive_field_size(num_frames=2) + - self.receptive_field_size(num_frames=1) + ) / self.sample_rate + + return SlidingWindow(start=0.0, duration=duration, step=step) + def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """Pass forward @@ -83,7 +169,6 @@ def forward(self, waveforms: torch.Tensor) -> torch.Tensor: for c, (conv1d, pool1d, norm1d) in enumerate( zip(self.conv1d, self.pool1d, self.norm1d) ): - outputs = conv1d(outputs) # https://github.com/mravanelli/SincNet/issues/4 diff --git a/pyannote/audio/models/segmentation/PyanNet.py b/pyannote/audio/models/segmentation/PyanNet.py index 5af3734b1..2c4443e06 100644 --- a/pyannote/audio/models/segmentation/PyanNet.py +++ b/pyannote/audio/models/segmentation/PyanNet.py @@ -27,6 +27,7 @@ import torch.nn as nn import torch.nn.functional as F from einops import rearrange +from pyannote.core import SlidingWindow from pyannote.core.utils.generators import pairwise from pyannote.audio.core.model import Model @@ -157,6 +158,36 @@ def build(self): self.classifier = nn.Linear(in_features, out_features) self.activation = self.default_activation() + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames for a given number of input samples + + Parameters + ---------- + num_samples : int + Number of input samples + + Returns + ------- + num_frames : int + Number of output frames + """ + + return self.sincnet.num_frames(num_samples) + + def receptive_field(self) -> SlidingWindow: + """Compute receptive field + + Returns + ------- + receptive field : SlidingWindow + + Source + ------ + https://distill.pub/2019/computing-receptive-fields/ + + """ + return self.sincnet.receptive_field() + def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """Pass forward diff --git a/pyannote/audio/models/segmentation/SSeRiouSS.py b/pyannote/audio/models/segmentation/SSeRiouSS.py index 7cd545177..9ba656182 100644 --- a/pyannote/audio/models/segmentation/SSeRiouSS.py +++ b/pyannote/audio/models/segmentation/SSeRiouSS.py @@ -27,10 +27,12 @@ import torch.nn as nn import torch.nn.functional as F import torchaudio +from pyannote.core import SlidingWindow from pyannote.core.utils.generators import pairwise from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task +from pyannote.audio.utils.frame import conv1d_num_frames, conv1d_receptive_field_size from pyannote.audio.utils.params import merge_dict @@ -191,6 +193,82 @@ def build(self): self.classifier = nn.Linear(in_features, out_features) self.activation = self.default_activation() + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames for a given number of input samples + + Parameters + ---------- + num_samples : int + Number of input samples + + Returns + ------- + num_frames : int + Number of output frames + """ + + num_frames = num_samples + for conv_layer in self.wav2vec.feature_extractor.conv_layers: + num_frames = conv1d_num_frames( + num_frames, + kernel_size=conv_layer.kernel_size, + stride=conv_layer.stride, + padding=conv_layer.conv.padding[0], + dilation=conv_layer.conv.dilation[0], + ) + + return num_frames + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute receptive field size + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size + """ + + receptive_field_size = num_frames + for conv_layer in reversed(self.wav2vec.feature_extractor.conv_layers): + receptive_field_size = conv1d_receptive_field_size( + num_frames=receptive_field_size, + kernel_size=conv_layer.kernel_size, + stride=conv_layer.stride, + padding=conv_layer.conv.padding[0], + dilation=conv_layer.conv.dilation[0], + ) + + return receptive_field_size + + def receptive_field(self) -> SlidingWindow: + """Compute receptive field + + Returns + ------- + receptive field : SlidingWindow + + Source + ------ + https://distill.pub/2019/computing-receptive-fields/ + + """ + + # duration of the receptive field of each output frame + duration = self.receptive_field_size() / self.hparams.sample_rate + + # step between the receptive field region of two consecutive output frames + step = ( + self.receptive_field_size(num_frames=2) + - self.receptive_field_size(num_frames=1) + ) / self.hparams.sample_rate + + return SlidingWindow(start=0.0, duration=duration, step=step) + def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """Pass forward diff --git a/pyannote/audio/models/segmentation/debug.py b/pyannote/audio/models/segmentation/debug.py index 89512320c..a230bf768 100644 --- a/pyannote/audio/models/segmentation/debug.py +++ b/pyannote/audio/models/segmentation/debug.py @@ -26,6 +26,7 @@ import torch import torch.nn as nn from einops import rearrange +from pyannote.core import SlidingWindow from torchaudio.transforms import MFCC from pyannote.audio.core.model import Model @@ -57,6 +58,82 @@ def __init__( bidirectional=True, ) + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames for a given number of input samples + + Parameters + ---------- + num_samples : int + Number of input samples + + Returns + ------- + num_frames : int + Number of output frames + + Source + ------ + https://pytorch.org/docs/stable/generated/torch.stft.html#torch.stft + + """ + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + center = self.mfcc.MelSpectrogram.spectrogram.center + return ( + 1 + num_samples // hop_length + if center + else 1 + (num_samples - n_fft) // hop_length + ) + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute receptive field size + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size + """ + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + center = self.mfcc.MelSpectrogram.spectrogram.center + + if center: + return (num_frames - 1) * hop_length + else: + return (num_frames - 1) * hop_length + n_fft + + def receptive_field(self) -> SlidingWindow: + """Compute receptive field + + Returns + ------- + receptive field : SlidingWindow + + Source + ------ + https://distill.pub/2019/computing-receptive-fields/ + + """ + + # duration of the receptive field of each output frame + duration = ( + self.mfcc.MelSpectrogram.spectrogram.win_length / self.hparams.sample_rate + ) + + # step between the receptive field region of two consecutive output frames + step = ( + self.mfcc.MelSpectrogram.spectrogram.hop_length / self.hparams.sample_rate + ) + + return SlidingWindow(start=0.0, duration=duration, step=step) + def build(self): # define task-dependent layers diff --git a/pyannote/audio/utils/frame.py b/pyannote/audio/utils/frame.py new file mode 100644 index 000000000..e3987873d --- /dev/null +++ b/pyannote/audio/utils/frame.py @@ -0,0 +1,80 @@ +# MIT License +# +# Copyright (c) 2023 CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + + +import math + + +def conv1d_num_frames(num_samples, kernel_size=5, stride=1, padding=0, dilation=1): + """Compute expected number of frames after 1D convolution + + Parameters + ---------- + num_samples : int + Number of samples in the input signal + kernel_size : int + Kernel size + stride : int + Stride + padding : int + Padding + dilation : int + Dilation + + Returns + ------- + num_frames : int + Number of frames in the output signal + + Source + ------ + https://pytorch.org/docs/stable/generated/torch.nn.Conv1d.html#torch.nn.Conv1d + """ + return math.floor( + 1 + (num_samples + 2 * padding - dilation * (kernel_size - 1) - 1) / stride + ) + + +def conv1d_receptive_field_size( + num_frames=1, kernel_size=5, stride=1, padding=0, dilation=1 +): + """Compute receptive field size for `num_frames` frames after 1D convolution + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + kernel_size : int + Kernel size + stride : int + Stride + padding : int + Padding + dilation : int + Dilation + + Returns + ------- + receptive_field : int + Receptive field size + """ + return (num_frames - 1) * stride - 2 * padding + dilation * (kernel_size - 1) + 1 From 4d2d16bd6101899171013dcb014b17418ed50d88 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 20 Dec 2023 16:03:13 +0100 Subject: [PATCH 02/45] doc: update benchmark section (#1592) --- README.md | 26 ++++++++++++++------------ 1 file changed, 14 insertions(+), 12 deletions(-) diff --git a/README.md b/README.md index a82a2488f..696fb219d 100644 --- a/README.md +++ b/README.md @@ -78,18 +78,20 @@ Out of the box, `pyannote.audio` speaker diarization [pipeline](https://hf.co/py Those numbers are diarization error rates (in %): | Benchmark | [v2.1](https://hf.co/pyannote/speaker-diarization-2.1) | [v3.1](https://hf.co/pyannote/speaker-diarization-3.1) | [Premium](https://forms.gle/eKhn7H2zTa68sMMx8) | -| ---------------------- | ------------------------------------------------------ | ------------------------------------------------------ | ---------------------------------------------- | -| AISHELL-4 | 14.1 | 12.3 | 11.9 | -| AliMeeting (channel 1) | 27.4 | 24.5 | 22.5 | -| AMI (IHM) | 18.9 | 18.8 | 16.6 | -| AMI (SDM) | 27.1 | 22.6 | 20.9 | -| AVA-AVD | 66.3 | 50.0 | 39.8 | -| CALLHOME (part 2) | 31.6 | 28.4 | 22.2 | -| DIHARD 3 (full) | 26.9 | 21.4 | 17.2 | -| Ego4D (dev.) | 61.5 | 51.2 | 43.8 | -| MSDWild | 32.8 | 25.4 | 19.8 | -| REPERE (phase2) | 8.2 | 7.8 | 7.6 | -| VoxConverse (v0.3) | 11.2 | 11.2 | 9.4 | +| ---------------------- | ------ | ------ | --------- | +| [AISHELL-4](https://arxiv.org/abs/2104.03603) | 14.1 | 12.2 | 11.9 | +| [AliMeeting](https://www.openslr.org/119/) (channel 1) | 27.4 | 24.4 | 22.5 | +| [AMI](https://groups.inf.ed.ac.uk/ami/corpus/) (IHM) | 18.9 | 18.8 | 16.6 | +| [AMI](https://groups.inf.ed.ac.uk/ami/corpus/) (SDM) | 27.1 | 22.4 | 20.9 | +| [AVA-AVD](https://arxiv.org/abs/2111.14448) | 66.3 | 50.0 | 39.8 | +| [CALLHOME](https://catalog.ldc.upenn.edu/LDC2001S97) ([part 2](https://github.com/BUTSpeechFIT/CALLHOME_sublists/issues/1)) | 31.6 | 28.4 | 22.2 | +| [DIHARD 3](https://catalog.ldc.upenn.edu/LDC2022S14) ([full](https://arxiv.org/abs/2012.01477)) | 26.9 | 21.7 | 17.2 | +| [Earnings21](https://github.com/revdotcom/speech-datasets) | 17.0 | 9.4 | 9.0 | +| [Ego4D](https://arxiv.org/abs/2110.07058) (dev.) | 61.5 | 51.2 | 43.8 | +| [MSDWild](https://github.com/X-LANCE/MSDWILD) | 32.8 | 25.3 | 19.8 | +| [RAMC](https://www.openslr.org/123/) | 22.5 | 22.2 | 18.4 | +| [REPERE](https://www.islrn.org/resources/360-758-359-485-0/) (phase2) | 8.2 | 7.8 | 7.6 | +| [VoxConverse](https://github.com/joonson/voxconverse) (v0.3) | 11.2 | 11.3 | 9.4 | [Diarization error rate](http://pyannote.github.io/pyannote-metrics/reference.html#diarization) (in %) From 7bd88d5f13063c2aaa0969e9adc7760c389860f9 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 20 Dec 2023 21:26:42 +0100 Subject: [PATCH 03/45] feat(pipeline): add Waveform and SampleRate preprocessors (#1593) --- CHANGELOG.md | 3 ++- pyannote/audio/utils/preprocessors.py | 18 ++++++++++++++++-- 2 files changed, 18 insertions(+), 3 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index ed30b980a..4bcaa93b6 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -1,9 +1,10 @@ # Changelog -## develop branch +## develop ### New features +- feat(pipeline): add `Waveform` and `SampleRate` preprocessors - feat(model): add `num_frames` and `receptive_field` to segmentation models ## Version 3.1.1 (2023-12-01) diff --git a/pyannote/audio/utils/preprocessors.py b/pyannote/audio/utils/preprocessors.py index ce4685d1f..b26553bf9 100644 --- a/pyannote/audio/utils/preprocessors.py +++ b/pyannote/audio/utils/preprocessors.py @@ -27,12 +27,13 @@ # Hervé BREDIN - http://herve.niderb.fr from functools import reduce -from itertools import chain from typing import Dict, List, Optional, Set from pyannote.core import Annotation, Segment from pyannote.database import ProtocolFile +from pyannote.audio.core.io import Audio, get_torchaudio_info + class LowerTemporalResolution: """Artificially degrade temporal resolution of reference annotation @@ -50,7 +51,6 @@ def __init__(self, resolution: float = 0.1): self.resolution = resolution def __call__(self, current_file: ProtocolFile) -> Annotation: - annotation = current_file["annotation"] new_annotation = annotation.empty() @@ -128,3 +128,17 @@ def __call__(self, current_file: ProtocolFile) -> Annotation: derived[seg] = intersect_label return derived + + +class Waveform: + def __init__(self): + self._audio = Audio() + + def __call__(self, file: ProtocolFile): + waveform, _ = self._audio(file) + return waveform + + +class SampleRate: + def __call__(self, file: ProtocolFile): + return get_torchaudio_info(file).sample_rate From 80634c9029743780cc959e0d249cbbb085959545 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Cl=C3=A9ment=20Pag=C3=A9s?= <55240756+clement-pages@users.noreply.github.com> Date: Fri, 22 Dec 2023 09:16:12 +0100 Subject: [PATCH 04/45] fix: update `isort` version to 5.12.0 in pre-commit-config (#1596) Co-authored-by: clement-pages --- .pre-commit-config.yaml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.pre-commit-config.yaml b/.pre-commit-config.yaml index 549e46ad0..92c952bdc 100644 --- a/.pre-commit-config.yaml +++ b/.pre-commit-config.yaml @@ -14,7 +14,7 @@ repos: # Sort imports - repo: https://github.com/PyCQA/isort - rev: 5.10.1 + rev: 5.12.0 hooks: - id: isort args: ["--profile", "black"] From e21e7bb35ff7e830f47e6cbfd7923549c2b26a9b Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 8 Jan 2024 09:52:19 +0100 Subject: [PATCH 05/45] ci: deactivate FAQtory --- .github/workflows/new_issue.yml | 29 ----------------------------- 1 file changed, 29 deletions(-) delete mode 100644 .github/workflows/new_issue.yml diff --git a/.github/workflows/new_issue.yml b/.github/workflows/new_issue.yml deleted file mode 100644 index b8477dc16..000000000 --- a/.github/workflows/new_issue.yml +++ /dev/null @@ -1,29 +0,0 @@ -name: issues -on: - issues: - types: [opened] -jobs: - add-comment: - runs-on: ubuntu-latest - permissions: - issues: write - steps: - - uses: actions/checkout@v3 - with: - ref: develop - - name: Install FAQtory - run: pip install FAQtory - - name: Run Suggest - env: - TITLE: ${{ github.event.issue.title }} - run: faqtory suggest "$TITLE" > suggest.md - - name: Read suggest.md - id: suggest - uses: juliangruber/read-file-action@v1 - with: - path: ./suggest.md - - name: Suggest FAQ - uses: 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"_model_name": "DescriptionStyleModel", + "_view_count": null, + "_view_module": "@jupyter-widgets/base", + "_view_module_version": "1.2.0", + "_view_name": "StyleView", + "description_width": "" + } + } + } + } + }, + "cells": [ + { + "cell_type": "markdown", + "metadata": { + "id": "view-in-github", + "colab_type": "text" + }, + "source": [ + "\"Open" + ] + }, + { + "cell_type": "markdown", + "source": [ + "Sharing a minimal reproduction example (MRE) is a prerequisite for `pyannote.audio` contributors to be able to solve them.\n", + "\n", + "Having an MRE is very important for contributors to be able to reproduce the bug in the same way that you are experiencing it. When testing a potential fix for the issue, contributors will use the MRE to validate that the fix is working as intended.\n", + "\n", + "This notebook provides a template that should help you create such a MRE.\n", + "\n", + "Duplicate it, edit it, and share it as a link within your `pyannote.audio` bug report." + ], + "metadata": { + "id": "SWidE_E7ol-U" + } + }, + { + "cell_type": "markdown", + "source": [ + "# Setup\n", + "\n", + "Before anything, make sure to run this section." + ], + "metadata": { + "id": "k1vex_KZTDFm" + } + }, + { + "cell_type": "markdown", + "source": [ + "Specify the `pyannote.audio` version you found the issue in (including the Git commit hash if using a non-released version)." + ], + "metadata": { + "id": "XRNSJ2omranm" + } + }, + { + "cell_type": "code", + "source": [ + "!pip install -qqq pyannote.audio==3.1.1" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/" + }, + "id": "THKj6xjdSv9k", + "outputId": "719baaf8-2028-4b8e-8e46-e6a813aaf6f8" + }, + "execution_count": 1, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\u001b[2K \u001b[90m━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━\u001b[0m \u001b[32m208.7/208.7 kB\u001b[0m \u001b[31m4.7 MB/s\u001b[0m eta \u001b[36m0:00:00\u001b[0m\n", + "\u001b[2K \u001b[90m━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━\u001b[0m \u001b[32m44.6/44.6 kB\u001b[0m \u001b[31m6.4 MB/s\u001b[0m eta \u001b[36m0:00:00\u001b[0m\n", + "\u001b[2K \u001b[90m━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━\u001b[0m \u001b[32m2.0/2.0 MB\u001b[0m \u001b[31m15.1 MB/s\u001b[0m eta \u001b[36m0:00:00\u001b[0m\n", + "\u001b[2K \u001b[90m━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━\u001b[0m \u001b[32m79.5/79.5 kB\u001b[0m \u001b[31m10.4 MB/s\u001b[0m eta \u001b[36m0:00:00\u001b[0m\n", + "\u001b[2K \u001b[90m━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━\u001b[0m \u001b[32m58.5/58.5 kB\u001b[0m \u001b[31m8.5 MB/s\u001b[0m eta \u001b[36m0:00:00\u001b[0m\n", + "\u001b[2K 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antlr4-python3-runtime (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + " Building wheel for docopt (setup.py) ... \u001b[?25l\u001b[?25hdone\n", + " Building wheel for julius (setup.py) ... \u001b[?25l\u001b[?25hdone\n" + ] + } + ] + }, + { + "cell_type": "markdown", + "source": [ + "Declare your [Huggingface token](https://huggingface.co/settings/tokens) as `HF_TOKEN` secret by clicking on the 🔑 icon on the left:\n", + "\n", + "* **Name**: `HF_TOKEN` \n", + "* **Value**: your Huggingface token (e.g. `hf_ABCdzRFTkglhlcalBAPGHSQvxLmQs`)" + ], + "metadata": { + "id": "ZLhE8e7iTpTu" + } + }, + { + "cell_type": "markdown", + "source": [ + "Check that you can load the pretrained pipeline." + ], + "metadata": { + "id": "Mogy5_qYUoXs" + } + }, + { + "cell_type": "code", + "source": [ + "# access your HF token\n", + "from google.colab import userdata\n", + "hf_token = userdata.get('HF_TOKEN')\n", + "\n", + "# load the pretrained pipeline\n", + "from pyannote.audio import Pipeline\n", + "pipeline = Pipeline.from_pretrained(\n", + " \"pyannote/speaker-diarization-3.1\",\n", + " use_auth_token=hf_token)" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/", + "height": 307, + "referenced_widgets": [ + "3d0fe95350234ab599497683ae6d4ce6", + "239beda16fde4b1d9e6abfb47f036040", + "2d6f5fe6f9ab4a8b853e7b023aaee35f", + "771629a0fbab4b0e9ad6425b5affe380", + "8763b8e4c8104b879d4324257a810c0f", + "22536aef3997408dbf5ea58241f01e3e", + "2a6a5f33d7c34b6b996ab7a5b7c2f11d", + "c348b2f57c6c437fa8a9a2688bf17f4f", + "7526127b349a4467a6d3083d92bef5ec", + "30efc0ed76fb496483d4bb425a930636", + "e760e231084f4889bb489bc550b7a816", + "9951dce8a6c947dd9a2ed6106cb68f30", + "d68c24e62487484b83bbb06271a6981c", + "467f3c9f15184784aa913cb3ae46700f", + "c87055ce8cef498f999a20ff2b34e1b8", + "63d957e24276476b9bf1be150675217c", + "afe35fd2ea654d7b861046e847f82e51", + "c5f4f5f5fbad4d14973dc21eae2358d4", + "b4faa4c7fd01498abe07fef6189de4d4", + "35ab2642d8a5481780c43eaef7044f3c", + "37de7e413b25451ca5288ea5f43dd2d5", + "47012c0ff9394d77b8d857a933b4082e", + "d3ca3e02944c49f88d2b232295b19293", + "392a6347341f4dac94cad19e1f0bf02b", + "ba0102afa62c443eb9de89412301bb46", + "b71a286118004001a9a65ece5ba352d2", + "29b969a7441d41059969962f338d0def", + "3d0be590ca374ef1a768b8d3577d3105", + "c0ac81654e1c4904a87a2c777b520c09", + "36f8eb5005864f779aa8185acf55e2c5", + "5cbb5cf6a37d451c87215851ee8b0b65", + "ca3ee9d356bc464e82ee061375cc4ef2", + "67e4c4a2768b40eca34e8add6265c40c", + "2149e37d14e94f82a77386682ba29195", + "501eb1f4c1a8458a86c917d7dac5eeb5", + "7a115cf3065f4acdb0ae13577447a333", + "532d713a67c94b0d8cf0d61be72c73e7", + "3f36703cc5bc4fbcbeb97ab722e573cc", + "8088c86a3d394f9e88267196b369dfb9", + "46c5a63bcc3a472284869bcb11407bed", + "754c1729ba074d518557bd53c01e3787", + "bbe45325b7b74832bf6fe4a9769e0565", + "9261da2864ce4fd9b0f05f2a2efc54a3", + "940ed223c43d40e5b85eadf3a5ef0382", + "ef97ca55c62b40f7bb233120f8efba62", + "2da74c40ebd44b61adaf840b9e7ce343", + "c9517e2631c247b6ba083da05cfd0399", + "29b6d0dc6624409c8c8a8e0565c2bc08", + "7b6f8f9b2eee485f8defe25d2a9afc4a", + "fbaa859f9a8d4d5fb15667ede53a2cfb", + "1840bc4e8cb54d3d89d5b1f199065c77", + "3f955f5b7421415bb79319058d0d094d", + "849cf4fb4ac249368fb8a5c837f8430a", + "0411eb97e38b4fa081e05f87076ba129", + "34842bb9a73048caace624929cfc2b03" + ] + }, + "id": "i8rs3XylTTys", + "outputId": "b1b7445e-6f29-4ce0-c111-f5ffcb488c47" + }, + "execution_count": 3, + "outputs": [ + { + "output_type": "display_data", + "data": { + "text/plain": [ + "config.yaml: 0%| | 0.00/469 [00:00] 937.60K --.-KB/s in 0.04s \n", + "\n", + "2024-01-08 15:31:42 (25.7 MB/s) - ‘sample.wav’ saved [960104/960104]\n", + "\n" + ] + } + ] + }, + { + "cell_type": "markdown", + "source": [ + "Apply the pretrained pipeline and visualize the output." + ], + "metadata": { + "id": "RH6AEClgaAgU" + } + }, + { + "cell_type": "code", + "source": [ + "diarization = pipeline(\"sample.wav\")" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/" + }, + "id": "AoCal-3UXK0z", + "outputId": "59428f0f-af42-4e78-fc04-abd6324c73db" + }, + "execution_count": 6, + "outputs": [ + { + "output_type": "stream", + "name": "stderr", + "text": [ + "/usr/local/lib/python3.10/dist-packages/pyannote/audio/utils/reproducibility.py:74: ReproducibilityWarning: TensorFloat-32 (TF32) has been disabled as it might lead to reproducibility issues and lower accuracy.\n", + "It can be re-enabled by calling\n", + " >>> import torch\n", + " >>> torch.backends.cuda.matmul.allow_tf32 = True\n", + " >>> torch.backends.cudnn.allow_tf32 = True\n", + "See https://github.com/pyannote/pyannote-audio/issues/1370 for more details.\n", + "\n", + " warnings.warn(\n" + ] + } + ] + }, + { + "cell_type": "code", + "source": [ + "diarization" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/", + "height": 259 + }, + "id": "iIKvKZoZXN_M", + "outputId": "e7dcd7e1-0512-425c-b46a-6dc18d7a67b1" + }, + "execution_count": 7, + "outputs": [ + { + "output_type": "execute_result", + "data": { + "text/plain": [ + "" + ], + "image/png": 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wgggAAAAAAKAw/TrTeFvzumxdvbqoWtppXb8hSfL6m9u6ZXtvt21tc7c9z660/TXbsHlbXtu4ucLVsDOvt7yZfZOU1u2ZY60I2/7/+H1jW0uFK4HeacPmDWne1FzpMoAybdi8oey269/Y4tgQepj1b2zp0v7sxwHojTpzTEzldSqIWPPJS7OlT/d8iaJ5yMHJudfnb3+5rlu293arL/h4t2+zK2x/za56Yk3yxLxKl8NOjHz1d/m/Sd417VNZUelieojmxkHJ/zki33z1e5UuBXql6xb8VaVLAAoy/R+fqXQJQMHsxwGAns6lmQAAAAAAgMIIIgAAAAAAgMIIIgAAAAAAgMJ06h4Rg++6M0M+8CdF1dLO6icXJ0+35Orjarr9PhFDvnNf+h9zdLdusytsf81u/fDgHDXmfZUuh5343eNPJw8nr9/+rRz64e55T/V0zYvmJc135fKh57hPBFTATSfdnENqR1a6DKBMLzYvK/ua8H//iT/J4Q3VBVcEdMYLK9Z36f1b7McB6I06c0xM5XUqiOhTW5O+Q4YUVUs7peqqJC15V7/u/9JGn/1qu+15dqXtr1nVgD7Zf98BlS6HnVi1z1tvvdaaPXOsFaFPdVXSnAzqs0+lS4FeqWpAVWoH1la6DKBMVQOqym5bPai/Y0PoYaoH9e/S/uzHAeiNOnNMTOW5NBMAAAAAAFAYQQQAAAAAAFAYQQQAAAAAAFAYQQQAAAAAAFCYTgURfQ84oKg6Oqg7qD4XDViZww6py2WnHJah1QML32bfurpUX31V+tbVFb6tImx/zeoOqq90KezC/iMOzG/PvST7jziw0qX0GEPqR+bcNSMzouHoXHDkhdl/n8GVLgl6hf33Gew9B3ugct67Q6sHdttxNNA5XfX+tB8HoDezH9yzlFpbW1t31WjdunWpra1Nc3NzampquqMuAAAAAACgh+pMbuDSTAAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEUCS5NX1m/LNeS/k1fWbKl0K0AuYc6BnWNOyJnN/c2/WtKzpUX0BAFAZ/lajM1Z3YpwIIoAkb+1oZs9fakcDdAtzDvQMr7WsyXeWzM1rXRAedGVfAABUhr/V6IzVGwQRAAAAAABADyCIAAAAAAAACtOv0gUAPcv6N7bktY2bK10GsJdb/8aWSpcAvM2GzRvSvKl5t/sAAGDv4PwQ5Vj/xptltxVEAO1M/8dnKl0CANDNrlvwV5UuAQCAHsT5Icrx5qaNZbd1aSYAAAAAAKAwgggAAAAAAKAwgggAAAAAAKAw7hEBtPP3n/iTHN5QXekygL3cCyvWu+Yo9CA3nXRzDqkduVt9vNi8zL0mAAD2Es4PUY7nfrs8Y79UXltBBNBO9aD+2X/fAZUuA9jLVQ/qX+kSgLepGlCV2oG1u90HAAB7B+eHKEf1oPLjBZdmAgAAAAAACiOIAAAAAAAACiOIAAAAAAAACiOIAAAAAAAACiOIAJIkQ6sH5rJTDsvQ6oGVLgXoBcw50DPsv8/gXHDkhdl/n8E9qi8AACrD32p0xpCq8sdJqbW1tXVXjdatW5fa2to0NzenpqZmt4oDAAAAAAD2bJ3JDXwjAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKIwgAgAAAAAAKEy/chq1trYmSdatW1doMQAAAAAAQM+3PS/Ynh/sTFlBxPr165MkjY2Nu1EWAAAAAACwN1m/fn1qa2t32qbUWkZcsW3btixfvjzV1dUplUpdViDQ3rp169LY2JiXX345NTU1lS4HoEczZwKUz5wJUD5zJkB5Wltbs379+gwfPjx9+uz8LhBlfSOiT58+Oeigg7qkOGDXampqHOwAlMmcCVA+cyZA+cyZALu2q29CbOdm1QAAAAAAQGEEEQAAAAAAQGEEEdCDDBw4MDfccEMGDhxY6VIAejxzJkD5zJkA5TNnAnS9sm5WDQAAAAAA8E74RgQAAAAAAFAYQQQAAAAAAFAYQQQAAAAAAFAYQQQAAAAAAFAYQQRUwL/927/l7LPPzvDhw1MqlfLwww+3W9/a2prrr78+w4YNy6BBg3Laaaflt7/9bWWKBaigXc2XkydPTqlUavdzxhlnVKZYgAr74he/mA984AOprq5OXV1dJk6cmCVLlrRr09LSkmnTpmXIkCGpqqrKpEmT0tTUVKGKASqnnDnzlFNO6XCs+elPf7pCFQPs2QQRUAEbN27M+973vtx+++07XD9r1qx89atfzde+9rU89dRT2XfffTN+/Pi0tLR0c6UAlbWr+TJJzjjjjLzyyittP/fdd183VgjQczz++OOZNm1annzyyfzkJz/Jli1bMm7cuGzcuLGtzVVXXZUf/OAHeeCBB/L4449n+fLlOe+88ypYNUBllDNnJsnll1/e7lhz1qxZFaoYYM9Wam1tba10EdCblUqlPPTQQ5k4cWKSt74NMXz48HzmM5/JX/7lXyZJmpubU19fn7vvvjsXXHBBBasFqJw/nC+Tt74RsXbt2g7flAAgWbVqVerq6vL444/n5JNPTnNzcw444IDMnTs3f/Znf5Yk+c///M8cffTRWbhwYU488cQKVwxQOX84ZyZvfSPi2GOPzd/93d9VtjiAvYBvREAPs2zZsqxYsSKnnXZa27La2tqccMIJWbhwYQUrA+iZ5s+fn7q6uhx55JGZOnVqVq9eXemSAHqE5ubmJMngwYOTJM8++2y2bNnS7jjzqKOOysEHH+w4E+j1/nDO3O7ee+/N0KFD8973vjef+9zn8vrrr1eiPIA9Xr9KFwC0t2LFiiRJfX19u+X19fVt6wB4yxlnnJHzzjsvI0eOzNKlS3PttdfmzDPPzMKFC9O3b99KlwdQMdu2bcuVV16ZD37wg3nve9+b5K3jzAEDBmS//fZr19ZxJtDb7WjOTJILL7wwI0aMyPDhw7No0aLMmDEjS5YsyYMPPljBagH2TIIIAGCP9fbL1Y0aNSqjR4/OYYcdlvnz5+fUU0+tYGUAlTVt2rQsXrw4P/vZzypdCkCP98fmzClTprT9e9SoURk2bFhOPfXULF26NIcddlh3lwmwR3NpJuhhGhoakiRNTU3tljc1NbWtA2DHDj300AwdOjQvvPBCpUsBqJgrrrgijzzySObNm5eDDjqobXlDQ0M2b96ctWvXtmvvOBPozf7YnLkjJ5xwQpI41gR4BwQR0MOMHDkyDQ0Neeyxx9qWrVu3Lk899VTGjBlTwcoAer7f//73Wb16dYYNG1bpUgC6XWtra6644oo89NBD+dd//deMHDmy3frjjz8+/fv3b3ecuWTJkrz00kuOM4FeZ1dz5o4899xzSeJYE+AdcGkmqIANGza0+wTFsmXL8txzz2Xw4ME5+OCDc+WVV+av//qvc8QRR2TkyJG57rrrMnz48EycOLFyRQNUwM7my8GDB+fGG2/MpEmT0tDQkKVLl+aaa67J4YcfnvHjx1ewaoDKmDZtWubOnZvvfe97qa6ubrvvQ21tbQYNGpTa2tpcdtllufrqqzN48ODU1NRk+vTpGTNmTE488cQKVw/QvXY1Zy5dujRz587NWWedlSFDhmTRokW56qqrcvLJJ2f06NEVrh5gz1NqbW1trXQR0NvMnz8/H/3oRzssv+SSS3L33XentbU1N9xwQ77xjW9k7dq1+dCHPpQ77rgj7373uytQLUDl7Gy+/Id/+IdMnDgxv/zlL7N27doMHz4848aNy0033ZT6+voKVAtQWaVSaYfL77rrrkyePDlJ0tLSks985jO57777smnTpowfPz533HGHSzMBvc6u5syXX345F110URYvXpyNGzemsbEx5557bmbOnJmamppurhZgzyeIAAAAAAAACuMeEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAAAAAQGEEEQAAQDuTJ0/OxIkTK10GAACwl+hX6QIAAIDuUyqVdrr+hhtuyFe+8pW0trZ2U0UAAMDeThABAAC9yCuvvNL27/vvvz/XX399lixZ0rasqqoqVVVVlSgNAADYS7k0EwAA9CINDQ1tP7W1tSmVSu2WVVVVdbg00ymnnJLp06fnyiuvzP7775/6+vp885vfzMaNG/PJT34y1dXVOfzww/Poo4+229bixYtz5plnpqqqKvX19bn44ovz6quvdvMzBgAAKk0QAQAA7NI999yToUOH5umnn8706dMzderUnH/++TnppJPy7//+7xk3blwuvvjivP7660mStWvXZuzYsTnuuOPyzDPP5F/+5V/S1NSUj33sYxV+JgAAQHcTRAAAALv0vve9LzNnzswRRxyRz33uc9lnn30ydOjQXH755TniiCNy/fXXZ/Xq1Vm0aFGS5Lbbbstxxx2XW265JUcddVSOO+643HnnnZk3b17+67/+q8LPBgAA6E7uEQEAAOzS6NGj2/7dt2/fDBkyJKNGjWpbVl9fnyRZuXJlkuRXv/pV5s2bt8P7TSxdujTvfve7C64YAADoKQQRAADALvXv37/d76VSqd2yUqmUJNm2bVuSZMOGDTn77LPzpS99qUNfw4YNK7BSAACgpxFEAAAAXe79739/vvvd7+aQQw5Jv37+7AAAgN7MPSIAAIAuN23atKxZsyYf//jH84tf/CJLly7Nj370o3zyk5/M1q1bK10eAADQjQQRAABAlxs+fHh+/vOfZ+vWrRk3blxGjRqVK6+8Mvvtt1/69PFnCAAA9Cal1tbW1koXAQAAAAAA7J18FAkAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACiMIAIAAAAAACjM/wM8DotLF49/uQAAAABJRU5ErkJggg==\n" + }, + "metadata": {}, + "execution_count": 7 + } + ] + }, + { + "cell_type": "markdown", + "source": [ + "# MRE\n", + "\n", + "Now that things are setup, edit the following cells with the piece of code allowing to reproduce the bug report.\n" + ], + "metadata": { + "id": "qHxFJZDxr5O1" + } + }, + { + "cell_type": "code", + "source": [ + "from pyannote.audio import Model\n", + "model = Model.from_pretrained(\n", + " \"pyannote/speaker-diarization-3.1\",\n", + " use_auth_token=hf_token)" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/", + "height": 499 + }, + "id": "gVrDtBcusDbK", + "outputId": "25823c18-bff7-43b5-ef30-f5e8b2e43e2b" + }, + "execution_count": 8, + "outputs": [ + { + "output_type": "error", + "ename": "EntryNotFoundError", + "evalue": "404 Client Error. (Request ID: Root=1-659c1570-229842ad49cdd505022bd7b3;3b3426ec-0f8e-49a4-8783-f5740d92a8ed)\n\nEntry Not Found for url: https://huggingface.co/pyannote/speaker-diarization-3.1/resolve/main/pytorch_model.bin.", + "traceback": [ + "\u001b[0;31m---------------------------------------------------------------------------\u001b[0m", + "\u001b[0;31mHTTPError\u001b[0m Traceback (most recent call last)", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/utils/_errors.py\u001b[0m in \u001b[0;36mhf_raise_for_status\u001b[0;34m(response, endpoint_name)\u001b[0m\n\u001b[1;32m 285\u001b[0m \u001b[0;32mtry\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m--> 286\u001b[0;31m \u001b[0mresponse\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mraise_for_status\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 287\u001b[0m \u001b[0;32mexcept\u001b[0m \u001b[0mHTTPError\u001b[0m \u001b[0;32mas\u001b[0m \u001b[0me\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/requests/models.py\u001b[0m in \u001b[0;36mraise_for_status\u001b[0;34m(self)\u001b[0m\n\u001b[1;32m 1020\u001b[0m \u001b[0;32mif\u001b[0m \u001b[0mhttp_error_msg\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m-> 1021\u001b[0;31m \u001b[0;32mraise\u001b[0m \u001b[0mHTTPError\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mhttp_error_msg\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0mresponse\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mself\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 1022\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;31mHTTPError\u001b[0m: 404 Client Error: Not Found for url: https://huggingface.co/pyannote/speaker-diarization-3.1/resolve/main/pytorch_model.bin", + "\nThe above exception was the direct cause of the following exception:\n", + "\u001b[0;31mEntryNotFoundError\u001b[0m Traceback (most recent call last)", + "\u001b[0;32m\u001b[0m in \u001b[0;36m\u001b[0;34m()\u001b[0m\n\u001b[1;32m 1\u001b[0m \u001b[0;32mfrom\u001b[0m \u001b[0mpyannote\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0maudio\u001b[0m \u001b[0;32mimport\u001b[0m \u001b[0mModel\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m----> 2\u001b[0;31m model = Model.from_pretrained(\n\u001b[0m\u001b[1;32m 3\u001b[0m \u001b[0;34m\"pyannote/speaker-diarization-3.1\"\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 4\u001b[0m use_auth_token=hf_token)\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/pyannote/audio/core/model.py\u001b[0m in \u001b[0;36mfrom_pretrained\u001b[0;34m(cls, checkpoint, map_location, hparams_file, strict, use_auth_token, cache_dir, **kwargs)\u001b[0m\n\u001b[1;32m 622\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 623\u001b[0m \u001b[0;32mtry\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m--> 624\u001b[0;31m path_for_pl = hf_hub_download(\n\u001b[0m\u001b[1;32m 625\u001b[0m \u001b[0mmodel_id\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 626\u001b[0m \u001b[0mHF_PYTORCH_WEIGHTS_NAME\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/utils/_validators.py\u001b[0m in \u001b[0;36m_inner_fn\u001b[0;34m(*args, **kwargs)\u001b[0m\n\u001b[1;32m 116\u001b[0m \u001b[0mkwargs\u001b[0m \u001b[0;34m=\u001b[0m \u001b[0msmoothly_deprecate_use_auth_token\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mfn_name\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mfn\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0m__name__\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0mhas_token\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mhas_token\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0mkwargs\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mkwargs\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 117\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m--> 118\u001b[0;31m \u001b[0;32mreturn\u001b[0m \u001b[0mfn\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m*\u001b[0m\u001b[0margs\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0;34m**\u001b[0m\u001b[0mkwargs\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 119\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 120\u001b[0m \u001b[0;32mreturn\u001b[0m \u001b[0m_inner_fn\u001b[0m \u001b[0;31m# type: ignore\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/file_download.py\u001b[0m in \u001b[0;36mhf_hub_download\u001b[0;34m(repo_id, filename, subfolder, repo_type, revision, library_name, library_version, cache_dir, local_dir, local_dir_use_symlinks, user_agent, force_download, force_filename, proxies, etag_timeout, resume_download, token, local_files_only, legacy_cache_layout, endpoint)\u001b[0m\n\u001b[1;32m 1236\u001b[0m \u001b[0;32mtry\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 1237\u001b[0m \u001b[0;32mtry\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m-> 1238\u001b[0;31m metadata = get_hf_file_metadata(\n\u001b[0m\u001b[1;32m 1239\u001b[0m \u001b[0murl\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0murl\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 1240\u001b[0m \u001b[0mtoken\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mtoken\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/utils/_validators.py\u001b[0m in \u001b[0;36m_inner_fn\u001b[0;34m(*args, **kwargs)\u001b[0m\n\u001b[1;32m 116\u001b[0m \u001b[0mkwargs\u001b[0m \u001b[0;34m=\u001b[0m \u001b[0msmoothly_deprecate_use_auth_token\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mfn_name\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mfn\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0m__name__\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0mhas_token\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mhas_token\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0mkwargs\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mkwargs\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 117\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m--> 118\u001b[0;31m \u001b[0;32mreturn\u001b[0m \u001b[0mfn\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m*\u001b[0m\u001b[0margs\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0;34m**\u001b[0m\u001b[0mkwargs\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 119\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 120\u001b[0m \u001b[0;32mreturn\u001b[0m \u001b[0m_inner_fn\u001b[0m \u001b[0;31m# type: ignore\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/file_download.py\u001b[0m in \u001b[0;36mget_hf_file_metadata\u001b[0;34m(url, token, proxies, timeout, library_name, library_version, user_agent)\u001b[0m\n\u001b[1;32m 1629\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 1630\u001b[0m \u001b[0;31m# Retrieve metadata\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m-> 1631\u001b[0;31m r = _request_wrapper(\n\u001b[0m\u001b[1;32m 1632\u001b[0m \u001b[0mmethod\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0;34m\"HEAD\"\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 1633\u001b[0m \u001b[0murl\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0murl\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/file_download.py\u001b[0m in \u001b[0;36m_request_wrapper\u001b[0;34m(method, url, follow_relative_redirects, **params)\u001b[0m\n\u001b[1;32m 383\u001b[0m \u001b[0;31m# Recursively follow relative redirects\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 384\u001b[0m \u001b[0;32mif\u001b[0m \u001b[0mfollow_relative_redirects\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m--> 385\u001b[0;31m response = _request_wrapper(\n\u001b[0m\u001b[1;32m 386\u001b[0m \u001b[0mmethod\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mmethod\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 387\u001b[0m \u001b[0murl\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0murl\u001b[0m\u001b[0;34m,\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/file_download.py\u001b[0m in \u001b[0;36m_request_wrapper\u001b[0;34m(method, url, follow_relative_redirects, **params)\u001b[0m\n\u001b[1;32m 407\u001b[0m \u001b[0;31m# Perform request and return if status_code is not in the retry list.\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 408\u001b[0m \u001b[0mresponse\u001b[0m \u001b[0;34m=\u001b[0m \u001b[0mget_session\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mrequest\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mmethod\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0mmethod\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0murl\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0murl\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0;34m**\u001b[0m\u001b[0mparams\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m--> 409\u001b[0;31m \u001b[0mhf_raise_for_status\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mresponse\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 410\u001b[0m \u001b[0;32mreturn\u001b[0m \u001b[0mresponse\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 411\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;32m/usr/local/lib/python3.10/dist-packages/huggingface_hub/utils/_errors.py\u001b[0m in \u001b[0;36mhf_raise_for_status\u001b[0;34m(response, endpoint_name)\u001b[0m\n\u001b[1;32m 294\u001b[0m \u001b[0;32melif\u001b[0m \u001b[0merror_code\u001b[0m \u001b[0;34m==\u001b[0m \u001b[0;34m\"EntryNotFound\"\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 295\u001b[0m \u001b[0mmessage\u001b[0m \u001b[0;34m=\u001b[0m \u001b[0;34mf\"{response.status_code} Client Error.\"\u001b[0m \u001b[0;34m+\u001b[0m \u001b[0;34m\"\\n\\n\"\u001b[0m \u001b[0;34m+\u001b[0m \u001b[0;34mf\"Entry Not Found for url: {response.url}.\"\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m--> 296\u001b[0;31m \u001b[0;32mraise\u001b[0m \u001b[0mEntryNotFoundError\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mmessage\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0mresponse\u001b[0m\u001b[0;34m)\u001b[0m \u001b[0;32mfrom\u001b[0m \u001b[0me\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 297\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 298\u001b[0m \u001b[0;32melif\u001b[0m \u001b[0merror_code\u001b[0m \u001b[0;34m==\u001b[0m \u001b[0;34m\"GatedRepo\"\u001b[0m\u001b[0;34m:\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;31mEntryNotFoundError\u001b[0m: 404 Client Error. (Request ID: Root=1-659c1570-229842ad49cdd505022bd7b3;3b3426ec-0f8e-49a4-8783-f5740d92a8ed)\n\nEntry Not Found for url: https://huggingface.co/pyannote/speaker-diarization-3.1/resolve/main/pytorch_model.bin." + ] + } + ] + }, + { + "cell_type": "code", + "source": [ + "# this does not work because `pyannote/speaker-diarization-3.1` is a not a `Model`, it is a `Pipeline`." + ], + "metadata": { + "id": "e4GWU8Sbsy9u" + }, + "execution_count": 9, + "outputs": [] + } + ] +} \ No newline at end of file From 42ef141298e51147f93b18f8caef2049fadcdd4c Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 8 Jan 2024 16:53:52 +0100 Subject: [PATCH 07/45] github: add bug_report.yml template --- .github/ISSUE_TEMPLATE/bug_report.yml | 56 +++++++++++++++++++++++++++ 1 file changed, 56 insertions(+) create mode 100644 .github/ISSUE_TEMPLATE/bug_report.yml diff --git a/.github/ISSUE_TEMPLATE/bug_report.yml b/.github/ISSUE_TEMPLATE/bug_report.yml new file mode 100644 index 000000000..f75e050bf --- /dev/null +++ b/.github/ISSUE_TEMPLATE/bug_report.yml @@ -0,0 +1,56 @@ +name: Bug report +description: Report a bug in pyannote.audio +body: + +- type: markdown + attributes: + value: | + When reporting bugs, please follow the guidelines in this template. This helps identify the problem precisely and thus enables contributors to fix it faster. + - Write a descriptive issue title above. + - The golden rule is to **always open *one* issue for *one* bug**. If you notice several bugs and want to report them, make sure to create one new issue for each of them. + - Search [open](https://github.com/pyannote/pyannote-audio/issues) and [closed](https://github.com/pyannote/pyannote-audio/issues?q=is%3Aissue+is%3Aclosed) issues to ensure it has not already been reported. If you don't find a relevant match or if you're unsure, don't hesitate to **open a new issue**. The bugsquad will handle it from there if it's a duplicate. + - Please always check if your issue is reproducible in the latest version – it may already have been fixed! + - If you use a custom build, please test if your issue is reproducible in official releases too. + +- type: textarea + attributes: + label: Tested versions + description: | + To properly fix a bug, we need to identify if the bug was recently introduced in the engine, or if it was always present. + - Please specify the pyannote.audio version you found the issue in, including the **Git commit hash** if using a development build. + - If you can, **please test earlier pyannote.audio versions** and, if applicable, newer versions (development branch). Mention whether the bug is reproducible or not in the versions you tested. + - The aim is for us to identify whether a bug is a **regression**, i.e. an issue that didn't exist in a previous version, but was introduced later on, breaking existing functionality. For example, if a bug is reproducible in 3.2 but not in 3.0, we would like you to test intermediate 3.1 to find which version is the first one where the issue can be reproduced. + placeholder: | + - Reproducible in: 3.1, 3.2, and later + - Not reproducible in: 3.0 + validations: + required: true + +- type: input + attributes: + label: System information + description: | + - Specify the OS version, and when relevant hardware information. + - For issues that are likely OS-specific and/or GPU-related, please specify the GPU model and architecture. + - **Bug reports not including the required information may be closed at the maintainers' discretion.** If in doubt, always include all the requested information; it's better to include too much information than not enough information. + placeholder: macOS 13.6 - pyannote.audio 3.1.1 - M1 Pro + validations: + required: true + +- type: textarea + attributes: + label: Issue description + description: | + Describe your issue briefly. What doesn't work, and how do you expect it to work instead? + You can include audio, images or videos with drag and drop, and format code blocks or logs with ``` tags. + validations: + required: true + +- type: input + attributes: + label: Minimal reproduction example (MRE) + description: | + Having reproducible issues is a prerequisite for contributors to be able to solve them. + Include a link to minimal reproduction example using [this Google Colab notebook](https://colab.research.google.com/github/pyannote/pyannote-audio/blob/develop/tutorials/MRE_template.ipynb) as a starting point. + validations: + required: true From 27cd91f87ce1b31f95995d7f7ca93e20cd76c1b7 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 8 Jan 2024 17:02:40 +0100 Subject: [PATCH 08/45] github: create config.yml --- .github/ISSUE_TEMPLATE/config.yml | 16 ++++++++++++++++ 1 file changed, 16 insertions(+) create mode 100644 .github/ISSUE_TEMPLATE/config.yml diff --git a/.github/ISSUE_TEMPLATE/config.yml b/.github/ISSUE_TEMPLATE/config.yml new file mode 100644 index 000000000..764d5828a --- /dev/null +++ b/.github/ISSUE_TEMPLATE/config.yml @@ -0,0 +1,16 @@ +blank_issues_enabled: false + +contact_links: + + - name: Feature request + url: https://github.com/pyannote/pyannote-audio/discussions + about: Please use Github Discussions. + + - name: Consulting + url: https://herve.niderb.fr/consulting + about: Using pyannote.audio in production? Make the most of it thanks to our consulting services. + + - name: Premium models + url: https://forms.gle/eKhn7H2zTa68sMMx8 + about: We are considering selling premium models, extensions, or services around pyannote.audio. + From eb2e813b36cfe611b0b8ca275b4aba27349a510d Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 8 Jan 2024 17:04:22 +0100 Subject: [PATCH 09/45] github: update config.yml (#1607) --- .github/ISSUE_TEMPLATE/config.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/ISSUE_TEMPLATE/config.yml b/.github/ISSUE_TEMPLATE/config.yml index 764d5828a..70e131dc2 100644 --- a/.github/ISSUE_TEMPLATE/config.yml +++ b/.github/ISSUE_TEMPLATE/config.yml @@ -4,7 +4,7 @@ contact_links: - name: Feature request url: https://github.com/pyannote/pyannote-audio/discussions - about: Please use Github Discussions. + about: Suggest an idea for this project. - name: Consulting url: https://herve.niderb.fr/consulting From eda0c51b134c3c0db414b87ce0e773bdd682c3e9 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 8 Jan 2024 17:05:05 +0100 Subject: [PATCH 10/45] Delete .github/ISSUE_TEMPLATE/feature_request.md --- .github/ISSUE_TEMPLATE/feature_request.md | 20 -------------------- 1 file changed, 20 deletions(-) delete mode 100644 .github/ISSUE_TEMPLATE/feature_request.md diff --git a/.github/ISSUE_TEMPLATE/feature_request.md b/.github/ISSUE_TEMPLATE/feature_request.md deleted file mode 100644 index 4ead48053..000000000 --- a/.github/ISSUE_TEMPLATE/feature_request.md +++ /dev/null @@ -1,20 +0,0 @@ ---- -name: Feature request -about: Suggest an idea for this project -title: '' -labels: '' -assignees: '' - ---- - -**Is your feature request related to a problem? Please describe.** -A clear and concise description of what the problem is. Ex. I'm always frustrated when [...] - -**Describe the solution you'd like** -A clear and concise description of what you want to happen. - -**Describe alternatives you've considered** -A clear and concise description of any alternative solutions or features you've considered. - -**Additional context** -Add any other context about the feature request here. From 8f477fada9a595dc0c0e54de92e8c43cd9b1a7ea Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 9 Jan 2024 13:06:09 +0100 Subject: [PATCH 11/45] fix(task): fix random generators (#1594) Before this change, each worker would select the same files, resulting in less randomness than expected. --- CHANGELOG.md | 4 +++ pyannote/audio/tasks/embedding/mixins.py | 2 +- pyannote/audio/tasks/segmentation/mixins.py | 27 +++++++++++++-------- pyannote/audio/utils/random.py | 23 +++++++++++------- tutorials/add_your_own_task.ipynb | 2 +- 5 files changed, 37 insertions(+), 21 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 4bcaa93b6..75f4fab62 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -7,6 +7,10 @@ - feat(pipeline): add `Waveform` and `SampleRate` preprocessors - feat(model): add `num_frames` and `receptive_field` to segmentation models +### Fixes + +- fix(task): fix random generators + ## Version 3.1.1 (2023-12-01) ### TL;DR diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py index da164f04e..03875256e 100644 --- a/pyannote/audio/tasks/embedding/mixins.py +++ b/pyannote/audio/tasks/embedding/mixins.py @@ -145,7 +145,7 @@ def train__iter__(self): """ # create worker-specific random number generator - rng = create_rng_for_worker(self.model.current_epoch) + rng = create_rng_for_worker(self.model) classes = list(self.specifications.classes) diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index 018e8db70..94c6da506 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -421,12 +421,16 @@ def train__iter__helper(self, rng: random.Random, **filters): # indices of training files that matches domain filters training = self.metadata["subset"] == Subsets.index("train") for key, value in filters.items(): - training &= self.metadata[key] == self.metadata_unique_values[key].index(value) + training &= self.metadata[key] == self.metadata_unique_values[key].index( + value + ) file_ids = np.where(training)[0] # turn annotated duration into a probability distribution annotated_duration = self.annotated_duration[file_ids] - prob_annotated_duration = annotated_duration / np.sum(annotated_duration) + cum_prob_annotated_duration = np.cumsum( + annotated_duration / np.sum(annotated_duration) + ) duration = self.duration @@ -434,7 +438,7 @@ def train__iter__helper(self, rng: random.Random, **filters): while True: # select one file at random (with probability proportional to its annotated duration) - file_id = np.random.choice(file_ids, p=prob_annotated_duration) + file_id = file_ids[cum_prob_annotated_duration.searchsorted(rng.random())] # generate `num_chunks_per_file` chunks from this file for _ in range(num_chunks_per_file): @@ -444,14 +448,17 @@ def train__iter__helper(self, rng: random.Random, **filters): )[0] # turn annotated regions duration into a probability distribution - prob_annotated_regions_duration = self.annotated_regions["duration"][ - annotated_region_indices - ] / np.sum(self.annotated_regions["duration"][annotated_region_indices]) + cum_prob_annotated_regions_duration = np.cumsum( + self.annotated_regions["duration"][annotated_region_indices] + / np.sum( + self.annotated_regions["duration"][annotated_region_indices] + ) + ) # selected one annotated region at random (with probability proportional to its duration) - annotated_region_index = np.random.choice( - annotated_region_indices, p=prob_annotated_regions_duration - ) + annotated_region_index = annotated_region_indices[ + cum_prob_annotated_regions_duration.searchsorted(rng.random()) + ] # select one chunk at random in this annotated region _, _, start, end = self.annotated_regions[annotated_region_index] @@ -475,7 +482,7 @@ def train__iter__(self): """ # create worker-specific random number generator - rng = create_rng_for_worker(self.model.current_epoch) + rng = create_rng_for_worker(self.model) balance = getattr(self, "balance", None) if balance is None: diff --git a/pyannote/audio/utils/random.py b/pyannote/audio/utils/random.py index 97d50c362..4980d3520 100644 --- a/pyannote/audio/utils/random.py +++ b/pyannote/audio/utils/random.py @@ -27,7 +27,7 @@ import torch -def create_rng_for_worker(epoch: int) -> Random: +def create_rng_for_worker(model) -> Random: """Create worker-specific random number generator This makes sure that @@ -43,19 +43,24 @@ def create_rng_for_worker(epoch: int) -> Random: # create random number generator rng = Random() - #  create seed as a combination of PL_GLOBAL_SEED (set by pl.seed_everything()) - #  and other PL multi-processing variables - global_seed = int(os.environ.get("PL_GLOBAL_SEED", "0")) - local_rank = int(os.environ.get("LOCAL_RANK", "0")) - node_rank = int(os.environ.get("NODE_RANK", "0")) - + global_seed = os.environ.get("PL_GLOBAL_SEED", "unset") worker_info = torch.utils.data.get_worker_info() if worker_info is None: - worker_id = 0 + worker_id = None else: worker_id = worker_info.id - rng.seed(hash((global_seed, worker_id, local_rank, node_rank, epoch))) + seed = hash( + ( + global_seed, + worker_id, + model.local_rank, + model.global_rank, + model.current_epoch, + ) + ) + + rng.seed(seed) return rng diff --git a/tutorials/add_your_own_task.ipynb b/tutorials/add_your_own_task.ipynb index 251846957..6e1575dc8 100644 --- a/tutorials/add_your_own_task.ipynb +++ b/tutorials/add_your_own_task.ipynb @@ -236,7 +236,7 @@ "\n", " # create worker-specific random number generator (RNG) to avoid this common bug:\n", " # tanelp.github.io/posts/a-bug-that-plagues-thousands-of-open-source-ml-projects/\n", - " rng = create_rng_for_worker(self.model.current_epoch)\n", + " rng = create_rng_for_worker(self.model)\n", "\n", " # load list and number of classes\n", " classes = self.specifications.classes\n", From d41ce0a73d8c21208fddccbfd51804b9b78de2f3 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 11 Jan 2024 13:04:18 +0100 Subject: [PATCH 12/45] doc: fix typo in README --- README.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/README.md b/README.md index 696fb219d..2c6a889f1 100644 --- a/README.md +++ b/README.md @@ -70,7 +70,7 @@ for turn, _, speaker in diarization.itertracks(yield_label=True): - Videos - [Introduction to speaker diarization](https://umotion.univ-lemans.fr/video/9513-speech-segmentation-and-speaker-diarization/) / JSALT 2023 summer school / 90 min - [Speaker segmentation model](https://www.youtube.com/watch?v=wDH2rvkjymY) / Interspeech 2021 / 3 min - - [First releaase of pyannote.audio](https://www.youtube.com/watch?v=37R_R82lfwA) / ICASSP 2020 / 8 min + - [First release of pyannote.audio](https://www.youtube.com/watch?v=37R_R82lfwA) / ICASSP 2020 / 8 min ## Benchmark From 9e4ec5f6e0b0f5d60c557981fc680e8cebf78f5b Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Cl=C3=A9ment=20Pag=C3=A9s?= <55240756+clement-pages@users.noreply.github.com> Date: Fri, 12 Jan 2024 10:46:46 +0100 Subject: [PATCH 13/45] feat(task): add option to cache training metadata to disk Co-authored-by: Herve Bredin --- .github/ISSUE_TEMPLATE/bug_report.yml | 6 +- .github/ISSUE_TEMPLATE/config.yml | 5 +- CHANGELOG.md | 5 + pyannote/audio/core/model.py | 23 +- pyannote/audio/core/task.py | 423 ++++++++++++++++-- pyannote/audio/tasks/embedding/mixins.py | 16 +- pyannote/audio/tasks/segmentation/mixins.py | 400 +++-------------- .../audio/tasks/segmentation/multilabel.py | 141 +++++- .../overlapped_speech_detection.py | 23 +- .../tasks/segmentation/speaker_diarization.py | 47 +- .../segmentation/voice_activity_detection.py | 23 +- tests/tasks/test_reproducibility.py | 48 +- tests/test_train.py | 172 ++++++- tutorials/MRE_template.ipynb | 2 +- tutorials/adapting_pretrained_pipeline.ipynb | 1 + tutorials/add_your_own_task.ipynb | 110 +++-- 16 files changed, 949 insertions(+), 496 deletions(-) diff --git a/.github/ISSUE_TEMPLATE/bug_report.yml b/.github/ISSUE_TEMPLATE/bug_report.yml index f75e050bf..6f024c73b 100644 --- a/.github/ISSUE_TEMPLATE/bug_report.yml +++ b/.github/ISSUE_TEMPLATE/bug_report.yml @@ -10,7 +10,7 @@ body: - The golden rule is to **always open *one* issue for *one* bug**. If you notice several bugs and want to report them, make sure to create one new issue for each of them. - Search [open](https://github.com/pyannote/pyannote-audio/issues) and [closed](https://github.com/pyannote/pyannote-audio/issues?q=is%3Aissue+is%3Aclosed) issues to ensure it has not already been reported. If you don't find a relevant match or if you're unsure, don't hesitate to **open a new issue**. The bugsquad will handle it from there if it's a duplicate. - Please always check if your issue is reproducible in the latest version – it may already have been fixed! - - If you use a custom build, please test if your issue is reproducible in official releases too. + - If you use a custom build, please test if your issue is reproducible in official releases too. - type: textarea attributes: @@ -18,7 +18,7 @@ body: description: | To properly fix a bug, we need to identify if the bug was recently introduced in the engine, or if it was always present. - Please specify the pyannote.audio version you found the issue in, including the **Git commit hash** if using a development build. - - If you can, **please test earlier pyannote.audio versions** and, if applicable, newer versions (development branch). Mention whether the bug is reproducible or not in the versions you tested. + - If you can, **please test earlier pyannote.audio versions** and, if applicable, newer versions (development branch). Mention whether the bug is reproducible or not in the versions you tested. - The aim is for us to identify whether a bug is a **regression**, i.e. an issue that didn't exist in a previous version, but was introduced later on, breaking existing functionality. For example, if a bug is reproducible in 3.2 but not in 3.0, we would like you to test intermediate 3.1 to find which version is the first one where the issue can be reproduced. placeholder: | - Reproducible in: 3.1, 3.2, and later @@ -33,7 +33,7 @@ body: - Specify the OS version, and when relevant hardware information. - For issues that are likely OS-specific and/or GPU-related, please specify the GPU model and architecture. - **Bug reports not including the required information may be closed at the maintainers' discretion.** If in doubt, always include all the requested information; it's better to include too much information than not enough information. - placeholder: macOS 13.6 - pyannote.audio 3.1.1 - M1 Pro + placeholder: macOS 13.6 - pyannote.audio 3.1.1 - M1 Pro validations: required: true diff --git a/.github/ISSUE_TEMPLATE/config.yml b/.github/ISSUE_TEMPLATE/config.yml index 70e131dc2..6d6ee3543 100644 --- a/.github/ISSUE_TEMPLATE/config.yml +++ b/.github/ISSUE_TEMPLATE/config.yml @@ -2,7 +2,7 @@ blank_issues_enabled: false contact_links: - - name: Feature request + - name: Feature request url: https://github.com/pyannote/pyannote-audio/discussions about: Suggest an idea for this project. @@ -12,5 +12,4 @@ contact_links: - name: Premium models url: https://forms.gle/eKhn7H2zTa68sMMx8 - about: We are considering selling premium models, extensions, or services around pyannote.audio. - + about: We are considering selling premium models, extensions, or services around pyannote.audio. diff --git a/CHANGELOG.md b/CHANGELOG.md index 75f4fab62..1cff92eb4 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -4,6 +4,7 @@ ### New features +- feat(task): add option to cache task training metadata to speed up training - feat(pipeline): add `Waveform` and `SampleRate` preprocessors - feat(model): add `num_frames` and `receptive_field` to segmentation models @@ -11,6 +12,10 @@ - fix(task): fix random generators +## Breaking changes + +- BREAKING(task): custom tasks need to be updated (see "Add your own task" tutorial) + ## Version 3.1.1 (2023-12-01) ### TL;DR diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index bedb7f6c4..098c15c02 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -142,8 +142,8 @@ def specifications(self) -> Union[Specifications, Tuple[Specifications]]: except AttributeError as e: raise UnknownSpecificationsError( "Task specifications are not available. This is most likely because they depend on " - "the content of the training subset. Use `model.task.setup()` to go over the training " - "subset and fix this, or let lightning trainer do that for you in `trainer.fit(model)`." + "the content of the training subset. Use `model.prepare_data()` and `model.setup()` " + "to go over the training subset and fix this, or let lightning trainer do that for you in `trainer.fit(model)`." ) from e return specifications @@ -217,9 +217,19 @@ def __example_output( self.specifications, __example_output, example_output ) + def prepare_data(self): + self.task.prepare_data() + def setup(self, stage=None): if stage == "fit": - self.task.setup_metadata() + # let the task know about the trainer (e.g for broadcasting + # cache path between multi-GPU training processes). + self.task.trainer = self.trainer + + # setup the task if defined (only on training and validation stages, + # but not for basic inference) + if self.task: + self.task.setup(stage) # list of layers before adding task-dependent layers before = set((name, id(module)) for name, module in self.named_modules()) @@ -252,7 +262,7 @@ def setup(self, stage=None): module.to(self.device) # add (trainable) loss function (e.g. ArcFace has its own set of trainable weights) - if stage == "fit": + if self.task: # let task know about the model self.task.model = self # setup custom loss function @@ -468,9 +478,8 @@ def __by_name( if isinstance(modules, str): modules = [modules] - for name, module in ModelSummary(self, max_depth=-1).named_modules: - if name not in modules: - continue + for name in modules: + module = getattr(self, name) for parameter in module.parameters(recurse=True): parameter.requires_grad = requires_grad diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py index 1edfbc35c..5c0b16f29 100644 --- a/pyannote/audio/core/task.py +++ b/pyannote/audio/core/task.py @@ -23,19 +23,25 @@ from __future__ import annotations +import itertools import multiprocessing import sys import warnings +from collections import defaultdict from dataclasses import dataclass from enum import Enum from functools import cached_property, partial from numbers import Number +from pathlib import Path +from tempfile import mkstemp from typing import Dict, List, Literal, Optional, Sequence, Text, Tuple, Union +import numpy as np import pytorch_lightning as pl import scipy.special import torch from pyannote.database import Protocol +from pyannote.database.protocol.protocol import Scope, Subset from torch.utils.data import DataLoader, Dataset, IterableDataset from torch_audiomentations import Identity from torch_audiomentations.core.transforms_interface import BaseWaveformTransform @@ -44,6 +50,9 @@ from pyannote.audio.utils.loss import binary_cross_entropy, nll_loss from pyannote.audio.utils.protocol import check_protocol +Subsets = list(Subset.__args__) +Scopes = list(Scope.__args__) + # Type of machine learning problem class Problem(Enum): @@ -151,6 +160,41 @@ def __len__(self): return self.task.val__len__() +def get_dtype(value: int, unsigned: Optional[bool] = False) -> str: + """Return the most suitable type for storing the + value passed in parameter in memory. + + Parameters + ---------- + value: int + value whose type is best suited to storage in memory + unsigned: bool, optional + positive integer mode only. Default to False + + Returns + ------- + str: + numpy formatted type + (see https://numpy.org/doc/stable/reference/arrays.dtypes.html) + """ + if unsigned: + if value < 0: + raise ValueError( + f"negative value ({value}) is incompatible with unsigned types" + ) + # unsigned byte (8 bits), unsigned short (16 bits), unsigned int (32 bits) + types_list = [(255, "B"), (65_535, "u2"), (4_294_967_296, "u4")] + else: + # signe byte (8 bits), signed short (16 bits), signed int (32 bits): + types_list = [(127, "b"), (32_768, "i2"), (2_147_483_648, "i")] + filtered_list = [ + (max_val, type) for max_val, type in types_list if max_val > abs(value) + ] + if not filtered_list: + return "u8" if unsigned else "i8" # unsigned or signed long (64 bits) + return filtered_list[0][1] + + class Task(pl.LightningDataModule): """Base task class @@ -169,6 +213,13 @@ class Task(pl.LightningDataModule): ---------- protocol : Protocol pyannote.database protocol + cache : str, optional + As (meta-)data preparation might take a very long time for large datasets, + it can be cached to disk for later (and faster!) re-use. + When `cache` does not exist, `Task.prepare_data()` generates training + and validation metadata from `protocol` and save them to disk. + When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration in seconds. Defaults to two seconds (2.). min_duration : float, optional @@ -201,11 +252,13 @@ class Task(pl.LightningDataModule): ---------- specifications : Specifications or tuple of Specifications Task specifications (available after `Task.setup` has been called.) + """ def __init__( self, protocol: Protocol, + cache: Optional[Union[str, None]] = None, duration: float = 2.0, min_duration: float = None, warm_up: Union[float, Tuple[float, float]] = 0.0, @@ -221,8 +274,16 @@ def __init__( self.protocol, checks = check_protocol(protocol) self.has_validation = checks["has_validation"] self.has_scope = checks["has_scope"] + if not self.has_scope: + raise ValueError( + "Protocol must provide 'scope' information (e.g. 'file', 'database', or 'global')." + ) + self.has_classes = checks["has_classes"] + # metadata cache + self.cache = Path(cache) if cache else cache + # batching self.duration = duration self.min_duration = duration if min_duration is None else min_duration @@ -255,24 +316,347 @@ def __init__( self._metric = metric def prepare_data(self): - """Use this to download and prepare data - - This is where we might end up downloading datasets - and transform them so that they are ready to be used - with pyannote.database. but for now, the API assume - that we directly provide a pyannote.database.Protocol. + """Use this to prepare data from task protocol Notes ----- - Called only once. + Called only once on the main process (and only on it), for global_rank 0. + + After this method is called, the task should have a `prepared_data` attribute + with the following dictionary structure: + + prepared_data = { + 'protocol': name of the protocol + 'audio-path': array of N paths to audio + 'audio-metadata': array of N audio infos such as audio subset, scope and database + 'audio-info': array of N audio torchaudio.info struct + 'audio-encoding': array of N audio encodings + 'audio-annotated': array of N annotated duration (usually equals file duration but might be shorter if file is not fully annotated) + 'annotations-regions': array of M annotated regions + 'annotations-segments': array of M' annotated segments + 'metadata-values': dict of lists of values for subset, scope and database + 'metadata-`database-name`-labels': array of `database-name` labels. Each database with "database" scope labels has it own array. + 'metadata-labels': array of global scope labels + } + + """ + + if self.cache: + # check if cache exists and is not empty: + if self.cache.exists() and self.cache.stat().st_size > 0: + # data was already created, nothing to do + return + # create parent directory if needed + self.cache.parent.mkdir(parents=True, exist_ok=True) + else: + # if no cache was provided by user, create a temporary file + # in system directory used for temp files + self.cache = Path(mkstemp()[1]) + + # list of possible values for each metadata key + # (will become .prepared_data[""]) + metadata_unique_values = defaultdict(list) + metadata_unique_values["subset"] = Subsets + metadata_unique_values["scope"] = Scopes + + audios = list() # list of path to audio files + audio_infos = list() + audio_encodings = list() + metadata = list() # list of metadata + + annotated_duration = list() # total duration of annotated regions (per file) + annotated_regions = list() # annotated regions + annotations = list() # actual annotations + unique_labels = list() + database_unique_labels = {} + + if self.has_validation: + files_iter = itertools.chain( + self.protocol.train(), self.protocol.development() + ) + else: + files_iter = self.protocol.train() + + for file_id, file in enumerate(files_iter): + # gather metadata and update metadata_unique_values so that each metadatum + # (e.g. source database or label) is represented by an integer. + metadatum = dict() + + # keep track of source database and subset (train, development, or test) + if file["database"] not in metadata_unique_values["database"]: + metadata_unique_values["database"].append(file["database"]) + metadatum["database"] = metadata_unique_values["database"].index( + file["database"] + ) + metadatum["subset"] = Subsets.index(file["subset"]) + + # keep track of label scope (file, database, or global) + metadatum["scope"] = Scopes.index(file["scope"]) + + remaining_metadata_keys = set(file) - set( + [ + "uri", + "database", + "subset", + "audio", + "torchaudio.info", + "scope", + "classes", + "annotation", + "annotated", + ] + ) + + # keep track of any other (integer or string) metadata provided by the protocol + # (e.g. a "domain" key for domain-adversarial training) + for key in remaining_metadata_keys: + value = file[key] + + if isinstance(value, str): + if value not in metadata_unique_values[key]: + metadata_unique_values[key].append(value) + metadatum[key] = metadata_unique_values[key].index(value) + + elif isinstance(value, int): + metadatum[key] = value + + else: + warnings.warn( + f"Ignoring '{key}' metadata because of its type ({type(value)}). Only str and int are supported for now.", + category=UserWarning, + ) + + metadata.append(metadatum) + + # reset list of file-scoped labels + file_unique_labels = list() + + # path to audio file + audios.append(str(file["audio"])) + + # audio info + audio_info = file["torchaudio.info"] + audio_infos.append( + ( + audio_info.sample_rate, # sample rate + audio_info.num_frames, # number of frames + audio_info.num_channels, # number of channels + audio_info.bits_per_sample, # bits per sample + ) + ) + audio_encodings.append(audio_info.encoding) # encoding + + # annotated regions and duration + _annotated_duration = 0.0 + for segment in file["annotated"]: + # skip annotated regions that are shorter than training chunk duration + if segment.duration < self.duration: + continue + + # append annotated region + annotated_region = ( + file_id, + segment.duration, + segment.start, + ) + annotated_regions.append(annotated_region) + + # increment annotated duration + _annotated_duration += segment.duration + + # append annotated duration + annotated_duration.append(_annotated_duration) + + # annotations + for segment, _, label in file["annotation"].itertracks(yield_label=True): + # "scope" is provided by speaker diarization protocols to indicate + # whether speaker labels are local to the file ('file'), consistent across + # all files in a database ('database'), or globally consistent ('global') + + # 0 = 'file' / 1 = 'database' / 2 = 'global' + scope = Scopes.index(file["scope"]) + + # update list of file-scope labels + if label not in file_unique_labels: + file_unique_labels.append(label) + # and convert label to its (file-scope) index + file_label_idx = file_unique_labels.index(label) + + database_label_idx = global_label_idx = -1 + + if scope > 0: # 'database' or 'global' + # update list of database-scope labels + database = file["database"] + if database not in database_unique_labels: + database_unique_labels[database] = [] + if label not in database_unique_labels[database]: + database_unique_labels[database].append(label) + + # and convert label to its (database-scope) index + database_label_idx = database_unique_labels[database].index(label) + + if scope > 1: # 'global' + # update list of global-scope labels + if label not in unique_labels: + unique_labels.append(label) + # and convert label to its (global-scope) index + global_label_idx = unique_labels.index(label) + + annotations.append( + ( + file_id, # index of file + segment.start, # start time + segment.end, # end time + file_label_idx, # file-scope label index + database_label_idx, # database-scope label index + global_label_idx, # global-scope index + ) + ) + + # since not all metadata keys are present in all files, fallback to -1 when a key is missing + metadata = [ + tuple(metadatum.get(key, -1) for key in metadata_unique_values) + for metadatum in metadata + ] + metadata_dtype = [ + (key, get_dtype(max(m[i] for m in metadata))) + for i, key in enumerate(metadata_unique_values) + ] + + # turn list of files metadata into a single numpy array + # TODO: improve using https://github.com/pytorch/pytorch/issues/13246#issuecomment-617140519 + info_dtype = [ + ( + "sample_rate", + get_dtype(max(ai[0] for ai in audio_infos), unsigned=True), + ), + ( + "num_frames", + get_dtype(max(ai[1] for ai in audio_infos), unsigned=True), + ), + ("num_channels", "B"), + ("bits_per_sample", "B"), + ] + + # turn list of annotated regions into a single numpy array + region_dtype = [ + ( + "file_id", + get_dtype(max(ar[0] for ar in annotated_regions), unsigned=True), + ), + ("duration", "f"), + ("start", "f"), + ] + + # turn list of annotations into a single numpy array + segment_dtype = [ + ( + "file_id", + get_dtype(max(a[0] for a in annotations), unsigned=True), + ), + ("start", "f"), + ("end", "f"), + ("file_label_idx", get_dtype(max(a[3] for a in annotations))), + ("database_label_idx", get_dtype(max(a[4] for a in annotations))), + ("global_label_idx", get_dtype(max(a[5] for a in annotations))), + ] + + # save all protocol data in a dict + prepared_data = {} + + # keep track of protocol name + prepared_data["protocol"] = self.protocol.name + + prepared_data["audio-path"] = np.array(audios, dtype=np.string_) + audios.clear() + + prepared_data["audio-metadata"] = np.array(metadata, dtype=metadata_dtype) + metadata.clear() + + prepared_data["audio-info"] = np.array(audio_infos, dtype=info_dtype) + audio_infos.clear() + + prepared_data["audio-encoding"] = np.array(audio_encodings, dtype=np.string_) + audio_encodings.clear() + + prepared_data["audio-annotated"] = np.array(annotated_duration) + annotated_duration.clear() + + prepared_data["annotations-regions"] = np.array( + annotated_regions, dtype=region_dtype + ) + annotated_regions.clear() + + prepared_data["annotations-segments"] = np.array( + annotations, dtype=segment_dtype + ) + annotations.clear() + + prepared_data["metadata-values"] = metadata_unique_values + + for database, labels in database_unique_labels.items(): + prepared_data[f"metadata-{database}-labels"] = np.array( + labels, dtype=np.string_ + ) + database_unique_labels.clear() + + prepared_data["metadata-labels"] = np.array(unique_labels, dtype=np.string_) + unique_labels.clear() + + self.prepare_validation(prepared_data) + self.post_prepare_data(prepared_data) + + # save prepared data on the disk + with open(self.cache, "wb") as cache_file: + np.savez_compressed(cache_file, **prepared_data) + + def post_prepare_data(self, prepared_data: Dict): + """Method for completing `prepared_data` with task-specific data. + For instance, for a classification task, this could be a list of + possible classes. + + Parameters + ---------- + prepared_data: dict + dictionnary containing protocol data prepared by + `prepare_data()` + Note + ---- + This method does not return anything. Thus, user have to directly modify + `prepared_data`, for updates to be taken into account """ pass + def setup(self, stage=None): + """Setup data cached by prepare_data into the task on each device""" + + # send cache path on all processes used for the training, + # allowing them to access the cache generated by prepare_data + if stage == "fit": + self.cache = self.trainer.strategy.broadcast(self.cache) + + try: + with open(self.cache, "rb") as cache_file: + self.prepared_data = dict(np.load(cache_file, allow_pickle=True)) + except FileNotFoundError: + print( + "Cached data for protocol not found. Ensure that prepare_data() was called", + " and executed correctly or/and that the path to the task cache is correct.", + ) + raise + + # checks that the task current protocol matches the cached protocol + if self.protocol.name != self.prepared_data["protocol"]: + raise ValueError( + f"Protocol specified for the task ({self.protocol.name}) " + f"does not correspond to the cached one ({self.prepared_data['protocol']})" + ) + @property def specifications(self) -> Union[Specifications, Tuple[Specifications]]: # setup metadata on-demand the first time specifications are requested and missing if not hasattr(self, "_specifications"): - self.setup_metadata() + self.setup() return self._specifications @specifications.setter @@ -281,29 +665,6 @@ def specifications( ): self._specifications = specifications - @property - def has_setup_metadata(self): - return getattr(self, "_has_setup_metadata", False) - - @has_setup_metadata.setter - def has_setup_metadata(self, value: bool): - self._has_setup_metadata = value - - def setup_metadata(self): - """Called at the beginning of training at the very beginning of Model.setup(stage="fit") - - Notes - ----- - This hook is called on every process when using DDP. - - If `specifications` attribute has not been set in `__init__`, - `setup` is your last chance to set it. - """ - - if not self.has_setup_metadata: - self.setup() - self.has_setup_metadata = True - def setup_loss_func(self): pass diff --git a/pyannote/audio/tasks/embedding/mixins.py b/pyannote/audio/tasks/embedding/mixins.py index 03875256e..9b404f9cf 100644 --- a/pyannote/audio/tasks/embedding/mixins.py +++ b/pyannote/audio/tasks/embedding/mixins.py @@ -75,7 +75,7 @@ def batch_size(self) -> int: def batch_size(self, batch_size: int): self.batch_size_ = batch_size - def setup(self): + def setup(self, stage=None): # loop over the training set, remove annotated regions shorter than # chunk duration, and keep track of the reference annotations, per class. @@ -119,12 +119,6 @@ def setup(self): classes=sorted(self._train), ) - if not self.has_validation: - return - - if isinstance(self.protocol, SpeakerVerificationProtocol): - self._validation = list(self.protocol.development_trial()) - def default_metric( self, ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]: @@ -250,9 +244,13 @@ def training_step(self, batch, batch_idx: int): return {"loss": loss} + def prepare_validation(self, prepared_dict: Dict): + if isinstance(self.protocol, SpeakerVerificationProtocol): + prepared_dict["validation"] = list(self.protocol.development_trial()) + def val__getitem__(self, idx): if isinstance(self.protocol, SpeakerVerificationProtocol): - trial = self._validation[idx] + trial = self.prepared_data["validation"][idx] data = dict() for idx in [1, 2]: @@ -281,7 +279,7 @@ def val__getitem__(self, idx): def val__len__(self): if isinstance(self.protocol, SpeakerVerificationProtocol): - return len(self._validation) + return len(self.prepared_data["validation"]) elif isinstance(self.protocol, SpeakerDiarizationProtocol): return 0 diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index 94c6da506..1af863d89 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -23,14 +23,11 @@ import itertools import math import random -import warnings -from collections import defaultdict from typing import Dict, Sequence, Union import matplotlib.pyplot as plt import numpy as np import torch -from pyannote.database.protocol import SegmentationProtocol, SpeakerDiarizationProtocol from pyannote.database.protocol.protocol import Scope, Subset from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger from torch.utils.data._utils.collate import default_collate @@ -38,23 +35,23 @@ from torchmetrics import Metric from torchmetrics.classification import BinaryAUROC, MulticlassAUROC, MultilabelAUROC -from pyannote.audio.core.task import Problem +from pyannote.audio.core.task import Problem, Task, get_dtype from pyannote.audio.utils.random import create_rng_for_worker Subsets = list(Subset.__args__) Scopes = list(Scope.__args__) -class SegmentationTaskMixin: +class SegmentationTask(Task): """Methods common to most segmentation tasks""" def get_file(self, file_id): file = dict() - file["audio"] = str(self.audios[file_id], encoding="utf-8") + file["audio"] = str(self.prepared_data["audio-path"][file_id], encoding="utf-8") - _audio_info = self.audio_infos[file_id] - _encoding = self.audio_encodings[file_id] + _audio_info = self.prepared_data["audio-info"][file_id] + _encoding = self.prepared_data["audio-encoding"][file_id] sample_rate = _audio_info["sample_rate"] num_frames = _audio_info["num_frames"] @@ -71,319 +68,6 @@ def get_file(self, file_id): return file - def setup(self): - """Setup""" - - # duration of training chunks - # TODO: handle variable duration case - duration = getattr(self, "duration", 0.0) - - # list of possible values for each metadata key - metadata_unique_values = defaultdict(list) - - metadata_unique_values["subset"] = Subsets - - if isinstance(self.protocol, SpeakerDiarizationProtocol): - metadata_unique_values["scope"] = Scopes - - elif isinstance(self.protocol, SegmentationProtocol): - classes = getattr(self, "classes", list()) - - # make sure classes attribute exists (and set to None if it did not exist) - self.classes = getattr(self, "classes", None) - if self.classes is None: - classes = list() - # metadata_unique_values["classes"] = list(classes) - - audios = list() # list of path to audio files - audio_infos = list() - audio_encodings = list() - metadata = list() # list of metadata - - annotated_duration = list() # total duration of annotated regions (per file) - annotated_regions = list() # annotated regions - annotations = list() # actual annotations - annotated_classes = list() # list of annotated classes (per file) - unique_labels = list() - - if self.has_validation: - files_iter = itertools.chain( - self.protocol.train(), self.protocol.development() - ) - else: - files_iter = self.protocol.train() - - for file_id, file in enumerate(files_iter): - # gather metadata and update metadata_unique_values so that each metadatum - # (e.g. source database or label) is represented by an integer. - metadatum = dict() - - # keep track of source database and subset (train, development, or test) - if file["database"] not in metadata_unique_values["database"]: - metadata_unique_values["database"].append(file["database"]) - metadatum["database"] = metadata_unique_values["database"].index( - file["database"] - ) - metadatum["subset"] = Subsets.index(file["subset"]) - - # keep track of speaker label scope (file, database, or global) for speaker diarization protocols - if isinstance(self.protocol, SpeakerDiarizationProtocol): - metadatum["scope"] = Scopes.index(file["scope"]) - - # keep track of list of classes for regular segmentation protocols - # Different files may be annotated using a different set of classes - # (e.g. one database for speech/music/noise, and another one for male/female/child) - if isinstance(self.protocol, SegmentationProtocol): - if "classes" in file: - local_classes = file["classes"] - else: - local_classes = file["annotation"].labels() - - # if task was not initialized with a fixed list of classes, - # we build it as the union of all classes found in files - if self.classes is None: - for klass in local_classes: - if klass not in classes: - classes.append(klass) - annotated_classes.append( - [classes.index(klass) for klass in local_classes] - ) - - # if task was initialized with a fixed list of classes, - # we make sure that all files use a subset of these classes - # if they don't, we issue a warning and ignore the extra classes - else: - extra_classes = set(local_classes) - set(self.classes) - if extra_classes: - warnings.warn( - f"Ignoring extra classes ({', '.join(extra_classes)}) found for file {file['uri']} ({file['database']}). " - ) - annotated_classes.append( - [ - self.classes.index(klass) - for klass in set(local_classes) & set(self.classes) - ] - ) - - remaining_metadata_keys = set(file) - set( - [ - "uri", - "database", - "subset", - "audio", - "torchaudio.info", - "scope", - "classes", - "annotation", - "annotated", - ] - ) - - # keep track of any other (integer or string) metadata provided by the protocol - # (e.g. a "domain" key for domain-adversarial training) - for key in remaining_metadata_keys: - value = file[key] - - if isinstance(value, str): - if value not in metadata_unique_values[key]: - metadata_unique_values[key].append(value) - metadatum[key] = metadata_unique_values[key].index(value) - - elif isinstance(value, int): - metadatum[key] = value - - else: - warnings.warn( - f"Ignoring '{key}' metadata because of its type ({type(value)}). Only str and int are supported for now.", - category=UserWarning, - ) - - metadata.append(metadatum) - - database_unique_labels = list() - - # reset list of file-scoped labels - file_unique_labels = list() - - # path to audio file - audios.append(str(file["audio"])) - - # audio info - audio_info = file["torchaudio.info"] - audio_infos.append( - ( - audio_info.sample_rate, # sample rate - audio_info.num_frames, # number of frames - audio_info.num_channels, # number of channels - audio_info.bits_per_sample, # bits per sample - ) - ) - audio_encodings.append(audio_info.encoding) # encoding - - # annotated regions and duration - _annotated_duration = 0.0 - for segment in file["annotated"]: - # skip annotated regions that are shorter than training chunk duration - if segment.duration < duration: - continue - - # append annotated region - annotated_region = ( - file_id, - segment.duration, - segment.start, - segment.end, - ) - annotated_regions.append(annotated_region) - - # increment annotated duration - _annotated_duration += segment.duration - - # append annotated duration - annotated_duration.append(_annotated_duration) - - # annotations - for segment, _, label in file["annotation"].itertracks(yield_label=True): - # "scope" is provided by speaker diarization protocols to indicate - # whether speaker labels are local to the file ('file'), consistent across - # all files in a database ('database'), or globally consistent ('global') - - if "scope" in file: - # 0 = 'file' - # 1 = 'database' - # 2 = 'global' - scope = Scopes.index(file["scope"]) - - # update list of file-scope labels - if label not in file_unique_labels: - file_unique_labels.append(label) - # and convert label to its (file-scope) index - file_label_idx = file_unique_labels.index(label) - - database_label_idx = global_label_idx = -1 - - if scope > 0: # 'database' or 'global' - # update list of database-scope labels - if label not in database_unique_labels: - database_unique_labels.append(label) - - # and convert label to its (database-scope) index - database_label_idx = database_unique_labels.index(label) - - if scope > 1: # 'global' - # update list of global-scope labels - if label not in unique_labels: - unique_labels.append(label) - # and convert label to its (global-scope) index - global_label_idx = unique_labels.index(label) - - # basic segmentation protocols do not provide "scope" information - # as classes are global by definition - - else: - try: - file_label_idx = ( - database_label_idx - ) = global_label_idx = classes.index(label) - except ValueError: - # skip labels that are not in the list of classes - continue - - annotations.append( - ( - file_id, # index of file - segment.start, # start time - segment.end, # end time - file_label_idx, # file-scope label index - database_label_idx, # database-scope label index - global_label_idx, # global-scope index - ) - ) - - # since not all metadata keys are present in all files, fallback to -1 when a key is missing - metadata = [ - tuple(metadatum.get(key, -1) for key in metadata_unique_values) - for metadatum in metadata - ] - dtype = [(key, "i") for key in metadata_unique_values] - self.metadata = np.array(metadata, dtype=dtype) - - # NOTE: read with str(self.audios[file_id], encoding='utf-8') - self.audios = np.array(audios, dtype=np.string_) - - # turn list of files metadata into a single numpy array - # TODO: improve using https://github.com/pytorch/pytorch/issues/13246#issuecomment-617140519 - - dtype = [ - ("sample_rate", "i"), - ("num_frames", "i"), - ("num_channels", "i"), - ("bits_per_sample", "i"), - ] - self.audio_infos = np.array(audio_infos, dtype=dtype) - self.audio_encodings = np.array(audio_encodings, dtype=np.string_) - - self.annotated_duration = np.array(annotated_duration) - - # turn list of annotated regions into a single numpy array - dtype = [("file_id", "i"), ("duration", "f"), ("start", "f"), ("end", "f")] - self.annotated_regions = np.array(annotated_regions, dtype=dtype) - - # convert annotated_classes (which is a list of list of classes, one list of classes per file) - # into a single (num_files x num_classes) numpy array: - # * True indicates that this particular class was annotated for this particular file (though it may not be active in this file) - # * False indicates that this particular class was not even annotated (i.e. its absence does not imply that it is not active in this file) - if isinstance(self.protocol, SegmentationProtocol) and self.classes is None: - self.classes = classes - self.annotated_classes = np.zeros( - (len(annotated_classes), len(self.classes)), dtype=np.bool_ - ) - for file_id, classes in enumerate(annotated_classes): - self.annotated_classes[file_id, classes] = True - - # turn list of annotations into a single numpy array - dtype = [ - ("file_id", "i"), - ("start", "f"), - ("end", "f"), - ("file_label_idx", "i"), - ("database_label_idx", "i"), - ("global_label_idx", "i"), - ] - self.annotations = np.array(annotations, dtype=dtype) - - self.metadata_unique_values = metadata_unique_values - - if not self.has_validation: - return - - validation_chunks = list() - - # obtain indexes of files in the validation subset - validation_file_ids = np.where( - self.metadata["subset"] == Subsets.index("development") - )[0] - - # iterate over files in the validation subset - for file_id in validation_file_ids: - # get annotated regions in file - annotated_regions = self.annotated_regions[ - self.annotated_regions["file_id"] == file_id - ] - - # iterate over annotated regions - for annotated_region in annotated_regions: - # number of chunks in annotated region - num_chunks = round(annotated_region["duration"] // duration) - - # iterate over chunks - for c in range(num_chunks): - start_time = annotated_region["start"] + c * duration - validation_chunks.append((file_id, start_time, duration)) - - dtype = [("file_id", "i"), ("start", "f"), ("duration", "f")] - self.validation_chunks = np.array(validation_chunks, dtype=dtype) - def default_metric( self, ) -> Union[Metric, Sequence[Metric], Dict[str, Metric]]: @@ -419,15 +103,17 @@ def train__iter__helper(self, rng: random.Random, **filters): """ # indices of training files that matches domain filters - training = self.metadata["subset"] == Subsets.index("train") + training = self.prepared_data["audio-metadata"]["subset"] == Subsets.index( + "train" + ) for key, value in filters.items(): - training &= self.metadata[key] == self.metadata_unique_values[key].index( - value - ) + training &= self.prepared_data["audio-metadata"][key] == self.prepared_data[ + "metadata" + ][key].index(value) file_ids = np.where(training)[0] # turn annotated duration into a probability distribution - annotated_duration = self.annotated_duration[file_ids] + annotated_duration = self.prepared_data["audio-annotated"][file_ids] cum_prob_annotated_duration = np.cumsum( annotated_duration / np.sum(annotated_duration) ) @@ -444,14 +130,19 @@ def train__iter__helper(self, rng: random.Random, **filters): for _ in range(num_chunks_per_file): # find indices of annotated regions in this file annotated_region_indices = np.where( - self.annotated_regions["file_id"] == file_id + self.prepared_data["annotations-regions"]["file_id"] == file_id )[0] # turn annotated regions duration into a probability distribution + cum_prob_annotated_regions_duration = np.cumsum( - self.annotated_regions["duration"][annotated_region_indices] + self.prepared_data["annotations-regions"]["duration"][ + annotated_region_indices + ] / np.sum( - self.annotated_regions["duration"][annotated_region_indices] + self.prepared_data["annotations-regions"]["duration"][ + annotated_region_indices + ] ) ) @@ -461,8 +152,10 @@ def train__iter__helper(self, rng: random.Random, **filters): ] # select one chunk at random in this annotated region - _, _, start, end = self.annotated_regions[annotated_region_index] - start_time = rng.uniform(start, end - duration) + _, region_duration, start = self.prepared_data["annotations-regions"][ + annotated_region_index + ] + start_time = rng.uniform(start, start + region_duration - duration) yield self.prepare_chunk(file_id, start_time, duration) @@ -492,7 +185,7 @@ def train__iter__(self): # create a subchunk generator for each combination of "balance" keys subchunks = dict() for product in itertools.product( - *[self.metadata_unique_values[key] for key in balance] + *[self.prepared_data["metadata"][key] for key in balance] ): # we iterate on the cartesian product of the values in metadata_unique_values # eg: for balance=["database", "split"], with 2 databases and 2 splits: @@ -564,11 +257,48 @@ def collate_fn(self, batch, stage="train"): def train__len__(self): # Number of training samples in one epoch - duration = np.sum(self.annotated_duration) + duration = np.sum(self.prepared_data["audio-annotated"]) return max(self.batch_size, math.ceil(duration / self.duration)) + def prepare_validation(self, prepared_data: Dict): + validation_chunks = list() + + # obtain indexes of files in the validation subset + validation_file_ids = np.where( + prepared_data["audio-metadata"]["subset"] == Subsets.index("development") + )[0] + + # iterate over files in the validation subset + for file_id in validation_file_ids: + # get annotated regions in file + annotated_regions = prepared_data["annotations-regions"][ + prepared_data["annotations-regions"]["file_id"] == file_id + ] + + # iterate over annotated regions + for annotated_region in annotated_regions: + # number of chunks in annotated region + num_chunks = round(annotated_region["duration"] // self.duration) + + # iterate over chunks + for c in range(num_chunks): + start_time = annotated_region["start"] + c * self.duration + validation_chunks.append((file_id, start_time, self.duration)) + + dtype = [ + ( + "file_id", + get_dtype(max(v[0] for v in validation_chunks), unsigned=True), + ), + ("start", "f"), + ("duration", "f"), + ] + + prepared_data["validation"] = np.array(validation_chunks, dtype=dtype) + validation_chunks.clear() + def val__getitem__(self, idx): - validation_chunk = self.validation_chunks[idx] + validation_chunk = self.prepared_data["validation"][idx] return self.prepare_chunk( validation_chunk["file_id"], validation_chunk["start"], @@ -576,7 +306,7 @@ def val__getitem__(self, idx): ) def val__len__(self): - return len(self.validation_chunks) + return len(self.prepared_data["validation"]) def validation_step(self, batch, batch_idx: int): """Compute validation area under the ROC curve diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py index c1d58431a..c641b5c3e 100644 --- a/pyannote/audio/tasks/segmentation/multilabel.py +++ b/pyannote/audio/tasks/segmentation/multilabel.py @@ -20,6 +20,8 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. +import itertools +import textwrap from typing import Dict, List, Optional, Sequence, Text, Tuple, Union import numpy as np @@ -31,11 +33,11 @@ from torch_audiomentations.core.transforms_interface import BaseWaveformTransform from torchmetrics import Metric -from pyannote.audio.core.task import Problem, Resolution, Specifications, Task -from pyannote.audio.tasks.segmentation.mixins import SegmentationTaskMixin +from pyannote.audio.core.task import Problem, Resolution, Specifications +from pyannote.audio.tasks.segmentation.mixins import SegmentationTask -class MultiLabelSegmentation(SegmentationTaskMixin, Task): +class MultiLabelSegmentation(SegmentationTask): """Generic multi-label segmentation Multi-label segmentation is the process of detecting temporal intervals @@ -47,7 +49,13 @@ class MultiLabelSegmentation(SegmentationTaskMixin, Task): Parameters ---------- protocol : Protocol - pyannote.database protocol + cache : str, optional + As (meta-)data preparation might take a very long time for large datasets, + it can be cached to disk for later (and faster!) re-use. + When `cache` does not exist, `Task.prepare_data()` generates training + and validation metadata from `protocol` and save them to disk. + When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data + are loaded from disk. Defaults to a temporary path. classes : List[str], optional List of classes. Defaults to the list of classes available in the training set. duration : float, optional @@ -84,6 +92,7 @@ class MultiLabelSegmentation(SegmentationTaskMixin, Task): def __init__( self, protocol: Protocol, + cache: Optional[Union[str, None]] = None, classes: Optional[List[str]] = None, duration: float = 2.0, warm_up: Union[float, Tuple[float, float]] = 0.0, @@ -109,6 +118,7 @@ def __init__( pin_memory=pin_memory, augmentation=augmentation, metric=metric, + cache=cache, ) self.balance = balance @@ -119,11 +129,114 @@ def __init__( # classes should be detected. therefore, we postpone the definition of # specifications to setup() - def setup(self): - super().setup() + def post_prepare_data(self, prepared_data: Dict): + # as different files may be annotated using a different set of classes + # (e.g. one database for speech/music/noise, and another one for + # male/female/child), we keep track of this information. this is used + # to know whether a missing class is considered a negative example (0) or + # simple an unknown example (-1) + + if self.classes is None and not self.has_classes: + msg = textwrap.dedent( + """ + Could not infer list of classes. Either provide a list of classes when + instantiating the task, or make sure that the training protocol provides + a 'classes' entry. See https://github.com/pyannote/pyannote-database#segmentation + for more details. + """ + ) + + if self.has_validation: + files_iter = itertools.chain( + self.protocol.train(), self.protocol.development() + ) + else: + files_iter = self.protocol.train() + + if self.classes is None: + classes = list() # overall list of classes + annotated_classes = list() # list of annotated classes (per file) + + for file in files_iter: + file_classes = file.get("classes", None) + + if not file_classes: + msg = textwrap.dedent( + f""" + File "{file['uri']}" (from {file['database']} database) does not + provide a 'classes' entry. Please make sure the corresponding + training protocol provides a 'classes' entry for all files. See + https://github.com/pyannote/pyannote-database#segmentation for more + details. + """ + ) + raise ValueError(msg) + + for klass in file_classes: + if klass not in classes: + classes.append(klass) + annotated_classes.append( + [classes.index(klass) for klass in file_classes] + ) + + prepared_data["classes-list"] = np.array(classes, dtype=np.string_) + self.classes = classes + + else: + annotated_classes = list() # list of annotated classes (per file) + for file in files_iter: + file_classes = file.get("classes", None) + + if not file_classes: + msg = textwrap.dedent( + f""" + File "{file['uri']}" (from {file['database']} database) does not + provide a 'classes' entry. Please make sure the corresponding + training protocol provides a 'classes' entry for all files. See + https://github.com/pyannote/pyannote-database#segmentation for more + details. + """ + ) + raise ValueError(msg) + + extra_classes = set(file_classes) - set(self.classes) + if extra_classes: + msg = textwrap.dedent( + f""" + File "{file['uri']}" (from {file['database']} database) provides + extra classes ({', '.join(extra_classes)}) that are ignored. + """ + ) + print(msg) + + annotated_classes.append( + [ + self.classes.index(klass) + for klass in set(file_classes) & set(self.classes) + ] + ) + + prepared_data["classes-list"] = np.array(self.classes, dtype=np.string_) + + # convert annotated_classes (which is a list of list of classes, one list of classes per file) + # into a single (num_files x num_classes) numpy array: + # * True indicates that this particular class was annotated for this particular file + # (though it may not be active in this file) + # * False indicates that this particular class was not even annotated (i.e. its absence + # does not imply that it is not active in this file) + annotated_classes_array = np.zeros( + (len(annotated_classes), len(self.classes)), dtype=np.bool_ + ) + for file_id, classes in enumerate(annotated_classes): + annotated_classes_array[file_id, classes] = True + prepared_data["classes-annotated"] = annotated_classes_array + annotated_classes.clear() + + def setup(self, stage=None): + super().setup(stage) self.specifications = Specifications( - classes=self.classes, + classes=self.prepared_data["classes-list"], problem=Problem.MULTI_LABEL_CLASSIFICATION, resolution=Resolution.FRAME, duration=self.duration, @@ -169,7 +282,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): sample = dict() sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration) # gather all annotations of current file - annotations = self.annotations[self.annotations["file_id"] == file_id] + annotations = self.prepared_data["annotations-segments"][ + self.prepared_data["annotations-segments"]["file_id"] == file_id + ] # gather all annotations with non-empty intersection with current chunk chunk_annotations = annotations[ @@ -184,9 +299,13 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): # frame-level targets (-1 for un-annotated classes) y = -np.ones( - (self.model.example_output.num_frames, len(self.classes)), dtype=np.int8 + ( + self.model.example_output.num_frames, + len(self.prepared_data["classes-list"]), + ), + dtype=np.int8, ) - y[:, self.annotated_classes[file_id]] = 0 + y[:, self.prepared_data["classes-annotated"][file_id]] = 0 for start, end, label in zip( start_idx, end_idx, chunk_annotations["global_label_idx"] ): @@ -196,7 +315,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): y, self.model.example_output.frames, labels=self.classes ) - metadata = self.metadata[file_id] + metadata = self.prepared_data["audio-metadata"][file_id] sample["meta"] = {key: metadata[key] for key in metadata.dtype.names} sample["meta"]["file"] = file_id diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py index 0b7209c5c..7249ed0f4 100644 --- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py +++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py @@ -21,7 +21,7 @@ # SOFTWARE. -from typing import Dict, Sequence, Text, Tuple, Union +from typing import Dict, Optional, Sequence, Text, Tuple, Union import numpy as np from pyannote.core import Segment, SlidingWindowFeature @@ -29,11 +29,11 @@ from torch_audiomentations.core.transforms_interface import BaseWaveformTransform from torchmetrics import Metric -from pyannote.audio.core.task import Problem, Resolution, Specifications, Task -from pyannote.audio.tasks.segmentation.mixins import SegmentationTaskMixin +from pyannote.audio.core.task import Problem, Resolution, Specifications +from pyannote.audio.tasks.segmentation.mixins import SegmentationTask -class OverlappedSpeechDetection(SegmentationTaskMixin, Task): +class OverlappedSpeechDetection(SegmentationTask): """Overlapped speech detection Overlapped speech detection is the task of detecting regions where at least @@ -51,6 +51,13 @@ class OverlappedSpeechDetection(SegmentationTaskMixin, Task): ---------- protocol : Protocol pyannote.database protocol + cache : str, optional + As (meta-)data preparation might take a very long time for large datasets, + it can be cached to disk for later (and faster!) re-use. + When `cache` does not exist, `Task.prepare_data()` generates training + and validation metadata from `protocol` and save them to disk. + When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration. Defaults to 2s. warm_up : float or (float, float), optional @@ -105,6 +112,7 @@ def __init__( pin_memory: bool = False, augmentation: BaseWaveformTransform = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, + cache: Optional[Union[str, None]] = None, ): super().__init__( protocol, @@ -115,6 +123,7 @@ def __init__( pin_memory=pin_memory, augmentation=augmentation, metric=metric, + cache=cache, ) self.specifications = Specifications( @@ -163,7 +172,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration) # gather all annotations of current file - annotations = self.annotations[self.annotations["file_id"] == file_id] + annotations = self.prepared_data["annotations-segments"][ + self.prepared_data["annotations-segments"]["file_id"] == file_id + ] # gather all annotations with non-empty intersection with current chunk chunk_annotations = annotations[ @@ -186,7 +197,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): y, self.model.example_output.frames, labels=["speech"] ) - metadata = self.metadata[file_id] + metadata = self.prepared_data["audio-metadata"][file_id] sample["meta"] = {key: metadata[key] for key in metadata.dtype.names} sample["meta"]["file"] = file_id diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py index 1094672ed..47c5adc63 100644 --- a/pyannote/audio/tasks/segmentation/speaker_diarization.py +++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py @@ -23,7 +23,7 @@ import math import warnings from collections import Counter -from typing import Dict, Literal, Sequence, Text, Tuple, Union +from typing import Dict, Literal, Optional, Sequence, Text, Tuple, Union import numpy as np import torch @@ -37,8 +37,8 @@ from torch_audiomentations.core.transforms_interface import BaseWaveformTransform from torchmetrics import Metric -from pyannote.audio.core.task import Problem, Resolution, Specifications, Task -from pyannote.audio.tasks.segmentation.mixins import SegmentationTaskMixin +from pyannote.audio.core.task import Problem, Resolution, Specifications +from pyannote.audio.tasks.segmentation.mixins import SegmentationTask from pyannote.audio.torchmetrics import ( DiarizationErrorRate, FalseAlarmRate, @@ -58,13 +58,20 @@ Scopes = list(Scope.__args__) -class SpeakerDiarization(SegmentationTaskMixin, Task): +class SpeakerDiarization(SegmentationTask): """Speaker diarization Parameters ---------- protocol : SpeakerDiarizationProtocol pyannote.database protocol + cache : str, optional + As (meta-)data preparation might take a very long time for large datasets, + it can be cached to disk for later (and faster!) re-use. + When `cache` does not exist, `Task.prepare_data()` generates training + and validation metadata from `protocol` and save them to disk. + When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration. Defaults to 2s. max_speakers_per_chunk : int, optional @@ -127,6 +134,7 @@ class SpeakerDiarization(SegmentationTaskMixin, Task): def __init__( self, protocol: SpeakerDiarizationProtocol, + cache: Optional[Union[str, None]] = None, duration: float = 2.0, max_speakers_per_chunk: int = None, max_speakers_per_frame: int = None, @@ -152,6 +160,7 @@ def __init__( pin_memory=pin_memory, augmentation=augmentation, metric=metric, + cache=cache, ) if not isinstance(protocol, SpeakerDiarizationProtocol): @@ -186,28 +195,34 @@ def __init__( self.weight = weight self.vad_loss = vad_loss - def setup(self): - super().setup() + def setup(self, stage=None): + super().setup(stage) # estimate maximum number of speakers per chunk when not provided if self.max_speakers_per_chunk is None: - training = self.metadata["subset"] == Subsets.index("train") + training = self.prepared_data["audio-metadata"]["subset"] == Subsets.index( + "train" + ) num_unique_speakers = [] progress_description = f"Estimating maximum number of speakers per {self.duration:g}s chunk in the training set" for file_id in track( np.where(training)[0], description=progress_description ): - annotations = self.annotations[ - np.where(self.annotations["file_id"] == file_id)[0] + annotations = self.prepared_data["annotations-segments"][ + np.where( + self.prepared_data["annotations-segments"]["file_id"] == file_id + )[0] ] - annotated_regions = self.annotated_regions[ - np.where(self.annotated_regions["file_id"] == file_id)[0] + annotated_regions = self.prepared_data["annotations-regions"][ + np.where( + self.prepared_data["annotations-regions"]["file_id"] == file_id + )[0] ] for region in annotated_regions: # find annotations within current region region_start = region["start"] - region_end = region["end"] + region_end = region["start"] + region["duration"] region_annotations = annotations[ np.where( (annotations["start"] >= region_start) @@ -318,7 +333,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): file = self.get_file(file_id) # get label scope - label_scope = Scopes[self.metadata[file_id]["scope"]] + label_scope = Scopes[self.prepared_data["audio-metadata"][file_id]["scope"]] label_scope_key = f"{label_scope}_label_idx" # @@ -328,7 +343,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration) # gather all annotations of current file - annotations = self.annotations[self.annotations["file_id"] == file_id] + annotations = self.prepared_data["annotations-segments"][ + self.prepared_data["annotations-segments"]["file_id"] == file_id + ] # gather all annotations with non-empty intersection with current chunk chunk_annotations = annotations[ @@ -364,7 +381,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): y, self.model.example_output.frames, labels=labels ) - metadata = self.metadata[file_id] + metadata = self.prepared_data["audio-metadata"][file_id] sample["meta"] = {key: metadata[key] for key in metadata.dtype.names} sample["meta"]["file"] = file_id diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py index fd9eb8e75..183fa2ffc 100644 --- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py +++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py @@ -20,7 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. -from typing import Dict, Sequence, Text, Tuple, Union +from typing import Dict, Optional, Sequence, Text, Tuple, Union import numpy as np from pyannote.core import Segment, SlidingWindowFeature @@ -28,11 +28,11 @@ from torch_audiomentations.core.transforms_interface import BaseWaveformTransform from torchmetrics import Metric -from pyannote.audio.core.task import Problem, Resolution, Specifications, Task -from pyannote.audio.tasks.segmentation.mixins import SegmentationTaskMixin +from pyannote.audio.core.task import Problem, Resolution, Specifications +from pyannote.audio.tasks.segmentation.mixins import SegmentationTask -class VoiceActivityDetection(SegmentationTaskMixin, Task): +class VoiceActivityDetection(SegmentationTask): """Voice activity detection Voice activity detection (or VAD) is the task of detecting speech regions @@ -45,6 +45,13 @@ class VoiceActivityDetection(SegmentationTaskMixin, Task): ---------- protocol : Protocol pyannote.database protocol + cache : str, optional + As (meta-)data preparation might take a very long time for large datasets, + it can be cached to disk for later (and faster!) re-use. + When `cache` does not exist, `Task.prepare_data()` generates training + and validation metadata from `protocol` and save them to disk. + When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration. Defaults to 2s. warm_up : float or (float, float), optional @@ -79,6 +86,7 @@ class VoiceActivityDetection(SegmentationTaskMixin, Task): def __init__( self, protocol: Protocol, + cache: Optional[Union[str, None]] = None, duration: float = 2.0, warm_up: Union[float, Tuple[float, float]] = 0.0, balance: Sequence[Text] = None, @@ -98,6 +106,7 @@ def __init__( pin_memory=pin_memory, augmentation=augmentation, metric=metric, + cache=cache, ) self.balance = balance @@ -145,7 +154,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): sample["X"], _ = self.model.audio.crop(file, chunk, duration=duration) # gather all annotations of current file - annotations = self.annotations[self.annotations["file_id"] == file_id] + annotations = self.prepared_data["annotations-segments"][ + self.prepared_data["annotations-segments"]["file_id"] == file_id + ] # gather all annotations with non-empty intersection with current chunk chunk_annotations = annotations[ @@ -167,7 +178,7 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): y, self.model.example_output.frames, labels=["speech"] ) - metadata = self.metadata[file_id] + metadata = self.prepared_data["audio-metadata"][file_id] sample["meta"] = {key: metadata[key] for key in metadata.dtype.names} sample["meta"]["file"] = file_id diff --git a/tests/tasks/test_reproducibility.py b/tests/tasks/test_reproducibility.py index a7307e0cf..88f2b2d8a 100644 --- a/tests/tasks/test_reproducibility.py +++ b/tests/tasks/test_reproducibility.py @@ -3,7 +3,7 @@ from pyannote.database import FileFinder, get_protocol from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel -from pyannote.audio.tasks import MultiLabelSegmentation, VoiceActivityDetection +from pyannote.audio.tasks import VoiceActivityDetection def setup_tasks(task): @@ -16,7 +16,8 @@ def setup_tasks(task): def create_dl(model, task): m = model(task=task) - m.setup("fit") + m.prepare_data() + m.setup() return task.train_dataloader() @@ -31,35 +32,32 @@ def get_next5(dl): def test_seeding_ensures_data_loaders(): "Setting a global seed for the dataloaders ensures that we get data back in the same order" - for task in [VoiceActivityDetection, MultiLabelSegmentation]: + seed_everything(1) + protocol, vad = setup_tasks(VoiceActivityDetection) + dl = create_dl(SimpleSegmentationModel, vad) + last5a = get_next5(dl) - seed_everything(1) - protocol, vad = setup_tasks(task) - dl = create_dl(SimpleSegmentationModel, vad) - last5a = get_next5(dl) + seed_everything(1) + protocol, vad = setup_tasks(VoiceActivityDetection) + dl = create_dl(SimpleSegmentationModel, vad) + last5b = get_next5(dl) - seed_everything(1) - protocol, vad = setup_tasks(task) - dl = create_dl(SimpleSegmentationModel, vad) - last5b = get_next5(dl) - - for i in range(len(last5b)): - assert torch.equal(last5a[i]["X"], last5b[i]["X"]) + for i in range(len(last5b)): + assert torch.equal(last5a[i]["X"], last5b[i]["X"]) def test_different_seeds(): "Changing the global seed will change the order of the data that loads" - for task in [VoiceActivityDetection, MultiLabelSegmentation]: - protocol, vad = setup_tasks(task) - seed_everything(4) - dl = create_dl(SimpleSegmentationModel, vad) - last5a = get_next5(dl) + protocol, vad = setup_tasks(VoiceActivityDetection) + seed_everything(4) + dl = create_dl(SimpleSegmentationModel, vad) + last5a = get_next5(dl) - protocol, vad = setup_tasks(task) - seed_everything(5) - dl = create_dl(SimpleSegmentationModel, vad) - last5b = get_next5(dl) + protocol, vad = setup_tasks(VoiceActivityDetection) + seed_everything(5) + dl = create_dl(SimpleSegmentationModel, vad) + last5b = get_next5(dl) - for i in range(5): - assert not torch.equal(last5a[i]["X"], last5b[i]["X"]) + for i in range(5): + assert not torch.equal(last5a[i]["X"], last5b[i]["X"]) diff --git a/tests/test_train.py b/tests/test_train.py index 7a7bfe338..6a7a6c69b 100644 --- a/tests/test_train.py +++ b/tests/test_train.py @@ -1,11 +1,39 @@ +# The MIT License (MIT) +# +# Copyright (c) 2024- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in +# all copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + + +from tempfile import mkstemp + import pytest from pyannote.database import FileFinder, get_protocol from pytorch_lightning import Trainer +from pyannote.audio.models.embedding.debug import SimpleEmbeddingModel from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel from pyannote.audio.tasks import ( + MultiLabelSegmentation, OverlappedSpeechDetection, SpeakerDiarization, + SupervisedRepresentationLearningWithArcFace, VoiceActivityDetection, ) @@ -17,6 +45,31 @@ def protocol(): ) +@pytest.fixture() +def cache(): + return mkstemp()[1] + + +@pytest.fixture() +def gender_protocol(): + def to_gender(file): + annotation = file["annotation"] + mapping = {label: label[0] for label in annotation.labels()} + return annotation.rename_labels(mapping) + + def classes(file): + return ["M", "F"] + + return get_protocol( + "Debug.SpeakerDiarization.Debug", + preprocessors={ + "audio": FileFinder(), + "annotation": to_gender, + "classes": classes, + }, + ) + + def test_train_segmentation(protocol): segmentation = SpeakerDiarization(protocol) model = SimpleSegmentationModel(task=segmentation) @@ -24,6 +77,48 @@ def test_train_segmentation(protocol): trainer.fit(model) +def test_train_segmentation_with_cached_data_mono_device(protocol, cache): + first_task = SpeakerDiarization(protocol, cache=cache) + first_model = SimpleSegmentationModel(task=first_task) + first_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + first_trainer.fit(first_model) + + second_task = SpeakerDiarization(protocol, cache=cache) + second_model = SimpleSegmentationModel(task=second_task) + second_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + second_trainer.fit(second_model) + + +def test_train_multilabel_segmentation(gender_protocol): + multilabel_segmentation = MultiLabelSegmentation(gender_protocol) + model = SimpleSegmentationModel(task=multilabel_segmentation) + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + +def test_train_multilabel_segmentation_with_cached_data_mono_device( + gender_protocol, cache +): + first_task = MultiLabelSegmentation(gender_protocol, cache=cache) + first_model = SimpleSegmentationModel(task=first_task) + first_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + first_trainer.fit(first_model) + + second_task = MultiLabelSegmentation(gender_protocol, cache=cache) + second_model = SimpleSegmentationModel(task=second_task) + second_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + second_trainer.fit(second_model) + + +def test_train_supervised_representation_with_arcface(protocol): + supervised_representation_with_arface = SupervisedRepresentationLearningWithArcFace( + protocol + ) + model = SimpleEmbeddingModel(task=supervised_representation_with_arface) + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + def test_train_voice_activity_detection(protocol): voice_activity_detection = VoiceActivityDetection(protocol) model = SimpleSegmentationModel(task=voice_activity_detection) @@ -31,6 +126,18 @@ def test_train_voice_activity_detection(protocol): trainer.fit(model) +def test_train_voice_activity_detection_with_cached_data_mono_device(protocol, cache): + first_task = VoiceActivityDetection(protocol, cache=cache) + first_model = SimpleSegmentationModel(task=first_task) + first_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + first_trainer.fit(first_model) + + second_task = VoiceActivityDetection(protocol, cache=cache) + second_model = SimpleSegmentationModel(task=second_task) + second_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + second_trainer.fit(second_model) + + def test_train_overlapped_speech_detection(protocol): overlapped_speech_detection = OverlappedSpeechDetection(protocol) model = SimpleSegmentationModel(task=overlapped_speech_detection) @@ -38,6 +145,20 @@ def test_train_overlapped_speech_detection(protocol): trainer.fit(model) +def test_train_overlapped_speech_detection_with_cached_data_mono_device( + protocol, cache +): + first_task = OverlappedSpeechDetection(protocol, cache=cache) + first_model = SimpleSegmentationModel(task=first_task) + first_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + first_trainer.fit(first_model) + + second_task = OverlappedSpeechDetection(protocol, cache=cache) + second_model = SimpleSegmentationModel(task=second_task) + second_trainer = Trainer(fast_dev_run=True, accelerator="cpu", devices=1) + second_trainer.fit(second_model) + + def test_finetune_with_task_that_does_not_need_setup_for_specs(protocol): voice_activity_detection = VoiceActivityDetection(protocol) model = SimpleSegmentationModel(task=voice_activity_detection) @@ -62,6 +183,18 @@ def test_finetune_with_task_that_needs_setup_for_specs(protocol): trainer.fit(model) +def test_finetune_with_task_that_needs_setup_for_specs_and_with_cache(protocol, cache): + segmentation = SpeakerDiarization(protocol, cache=cache) + model = SimpleSegmentationModel(task=segmentation) + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + segmentation = SpeakerDiarization(protocol, cache=cache) + model.task = segmentation + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + def test_transfer_with_task_that_does_not_need_setup_for_specs(protocol): segmentation = SpeakerDiarization(protocol) model = SimpleSegmentationModel(task=segmentation) @@ -94,7 +227,22 @@ def test_finetune_freeze_with_task_that_needs_setup_for_specs(protocol): segmentation = SpeakerDiarization(protocol) model.task = segmentation - model.freeze_up_to("mfcc") + model.freeze_by_name("mfcc") + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + +def test_finetune_freeze_with_task_that_needs_setup_for_specs_and_with_cache( + protocol, cache +): + segmentation = SpeakerDiarization(protocol, cache=cache) + model = SimpleSegmentationModel(task=segmentation) + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + segmentation = SpeakerDiarization(protocol, cache=cache) + model.task = segmentation + model.freeze_by_name("mfcc") trainer = Trainer(fast_dev_run=True, accelerator="cpu") trainer.fit(model) @@ -107,7 +255,23 @@ def test_finetune_freeze_with_task_that_does_not_need_setup_for_specs(protocol): vad = VoiceActivityDetection(protocol) model.task = vad - model.freeze_up_to("mfcc") + model.freeze_by_name("mfcc") + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + +def test_finetune_freeze_with_task_that_does_not_need_setup_for_specs_and_with_cache( + protocol, + cache, +): + vad = VoiceActivityDetection(protocol, cache=cache) + model = SimpleSegmentationModel(task=vad) + trainer = Trainer(fast_dev_run=True, accelerator="cpu") + trainer.fit(model) + + vad = VoiceActivityDetection(protocol, cache=cache) + model.task = vad + model.freeze_by_name("mfcc") trainer = Trainer(fast_dev_run=True, accelerator="cpu") trainer.fit(model) @@ -120,7 +284,7 @@ def test_transfer_freeze_with_task_that_does_not_need_setup_for_specs(protocol): voice_activity_detection = VoiceActivityDetection(protocol) model.task = voice_activity_detection - model.freeze_up_to("mfcc") + model.freeze_by_name("mfcc") trainer = Trainer(fast_dev_run=True, accelerator="cpu") trainer.fit(model) @@ -133,6 +297,6 @@ def test_transfer_freeze_with_task_that_needs_setup_for_specs(protocol): segmentation = SpeakerDiarization(protocol) model.task = segmentation - model.freeze_up_to("mfcc") + model.freeze_by_name("mfcc") trainer = Trainer(fast_dev_run=True, accelerator="cpu") trainer.fit(model) diff --git a/tutorials/MRE_template.ipynb b/tutorials/MRE_template.ipynb index 7a44c1449..70ffacbc2 100644 --- a/tutorials/MRE_template.ipynb +++ b/tutorials/MRE_template.ipynb @@ -2217,4 +2217,4 @@ "outputs": [] } ] -} \ No newline at end of file +} diff --git a/tutorials/adapting_pretrained_pipeline.ipynb b/tutorials/adapting_pretrained_pipeline.ipynb index 06d318809..d7096fb77 100644 --- a/tutorials/adapting_pretrained_pipeline.ipynb +++ b/tutorials/adapting_pretrained_pipeline.ipynb @@ -344,6 +344,7 @@ " loss=\"bce\", \n", " vad_loss=\"bce\")\n", "model.task = task\n", + "model.prepare_data()\n", "model.setup(stage=\"fit\")" ] }, diff --git a/tutorials/add_your_own_task.ipynb b/tutorials/add_your_own_task.ipynb index 6e1575dc8..38daa73fb 100644 --- a/tutorials/add_your_own_task.ipynb +++ b/tutorials/add_your_own_task.ipynb @@ -147,13 +147,14 @@ "metadata": {}, "outputs": [], "source": [ - "from typing import Optional\n", - "import torch\n", - "import torch.nn as nn\n", + "from math import ceil\n", + "from typing import Dict, Optional,Tuple, Union\n", "import numpy as np\n", - "from pyannote.core import Annotation\n", - "from pyannote.audio import Model\n", + "from pyannote.core import Segment, SlidingWindow\n", + "from pyannote.audio.utils.random import create_rng_for_worker\n", "from pyannote.audio.core.task import Task, Resolution\n", + "from pyannote.database import Protocol\n", + "from torchmetrics.classification import MultilabelAUROC\n", "\n", "# Your custom task must be a subclass of `pyannote.audio.core.task.Task`\n", "class SoundEventDetection(Task):\n", @@ -163,11 +164,13 @@ " self,\n", " protocol: Protocol,\n", " duration: float = 5.0,\n", + " min_duration: float = 5.0,\n", " warm_up: Union[float, Tuple[float, float]] = 0.0,\n", " batch_size: int = 32,\n", " num_workers: int = None,\n", " pin_memory: bool = False,\n", - " augmentation: BaseWaveformTransform = None,\n", + " augmentation = None,\n", + " cache: Optional[Union[str, None]] = None,\n", " **other_params,\n", " ):\n", "\n", @@ -180,28 +183,62 @@ " num_workers=num_workers,\n", " pin_memory=pin_memory,\n", " augmentation=augmentation,\n", + " cache=cache,\n", " )\n", + " \n", + " def prepare_data(self):\n", + " # this method is called to prepare data from the specified protocol. \n", + " # For most tasks, calling Task.prepare_data() is sufficient. If you \n", + " # need to prepare task-specific data, define a post_prepare_data method for your task.\n", + " super().prepare_data()\n", "\n", - " def setup(self):\n", + " def post_prepare_data(self, prepared_data: Dict):\n", + " # this method is called at the end of Task.prepare_data() \n", + " # to complete data preparation with task-specific data, here \n", + " # the list of classes and some training metadata\n", "\n", " # load metadata for training subset\n", - " self.train_metadata_ = list()\n", + " prepared_data[\"train_metadata\"] = list()\n", " for training_file in self.protocol.train():\n", - " self.training_metadata_.append({\n", + " prepared_data[\"train_metadata\"].append({\n", " # path to audio file (str)\n", " \"audio\": training_file[\"audio\"],\n", " # duration of audio file (float)\n", - " \"duration\": training_file[\"duration\"],\n", + " \"duration\": training_file[\"torchaudio.info\"].num_frames / training_file[\"torchaudio.info\"].sample_rate,\n", " # reference annotation (pyannote.core.Annotation)\n", " \"annotation\": training_file[\"annotation\"],\n", " })\n", "\n", " # gather the list of classes\n", " classes = set()\n", - " for training_file in self.train_metadata_:\n", - " classes.update(training_file[\"reference\"].labels())\n", - " classes = sorted(classes)\n", + " for training_file in prepared_data[\"train_metadata\"]:\n", + " classes.update(training_file[\"annotation\"].labels())\n", + " prepared_data[\"classes\"] = sorted(classes)\n", + "\n", + " # `has_validation` is True if protocol defines a development set\n", + " if not self.has_validation:\n", + " return\n", + " \n", + " def prepare_validation(self, prepared_data : Dict):\n", + " # this method is called at the end of Task.prepare_data(), to complete data preparation\n", + " # with task validation elements\n", + " \n", + " # load metadata for validation subset\n", + " prepared_data[\"validation\"] = list()\n", + " for validation_file in self.protocol.development():\n", + " prepared_data[\"validation\"].append({\n", + " \"audio\": validation_file[\"audio\"],\n", + " \"num_samples\": validation_file[\"torchaudio.info\"].num_frames,\n", + " \"annotation\": validation_file[\"annotation\"],\n", + " })\n", + " \n", + " \n", + " def setup(self, stage: Optional[Union[str, None]] = None):\n", + " # this method assigns prepared data from task.prepare_data() to the task\n", + " # and declares the task specifications\n", "\n", + " super().setup(stage)\n", + " \n", " # specify the addressed problem\n", " self.specifications = Specifications(\n", " # it is a multi-label classification problem\n", @@ -212,22 +249,13 @@ " # the model will ingest chunks with that duration (in seconds)\n", " duration=self.duration,\n", " # human-readable names of classes\n", - " classes=classes)\n", - "\n", - " # `has_validation` is True iff protocol defines a development set\n", - " if not self.has_validation:\n", - " return\n", - "\n", - " # load metadata for validation subset\n", - " self.validation_metadata_ = list()\n", - " for validation_file in self.protocol.development():\n", - " self.validation_metadata_.append({\n", - " \"audio\": validation_file[\"audio\"],\n", - " \"num_samples\": math.floor(validation_file[\"duration\"] / self.duration),\n", - " \"annotation\": validation_file[\"annotation\"],\n", - " })\n", - " \n", - " \n", + " classes=self.prepared_data[\"classes\"])\n", + " \n", + " def default_metric(self):\n", + " # this method defines the default metrics used to evaluate the model during\n", + " # a training\n", + " num_classes = len(self.specifications.classes)\n", + " return MultilabelAUROC(num_classes, average=\"macro\", compute_on_cpu=True)\n", "\n", " def train__iter__(self):\n", " # this method generates training samples, one at a time, \"ad infinitum\". each worker \n", @@ -246,7 +274,7 @@ " while True:\n", "\n", " # select training file at random\n", - " random_training_file, *_ = rng.choices(self.train_metadata_, k=1)\n", + " random_training_file, *_ = rng.choices(self.prepared_data[\"train_metadata\"], k=1)\n", "\n", " # select one chunk at random \n", " random_start_time = rng.uniform(0, random_training_file[\"duration\"] - self.duration)\n", @@ -275,8 +303,8 @@ " # we compute this number as the total duration of the training set divided by \n", " # duration of training chunks. we make sure that an epoch is at least one batch long,\n", " # or pytorch-lightning will complain\n", - " train_duration = sum(training_file[\"duration\"] for training_file in self.train_metadata_)\n", - " return max(self.batch_size, math.ceil(train_duration / self.duration))\n", + " train_duration = sum(training_file[\"duration\"] for training_file in self.prepared_data[\"train_metadata\"])\n", + " return max(self.batch_size, ceil(train_duration / self.duration))\n", "\n", " def val__getitem__(self, sample_idx):\n", "\n", @@ -287,9 +315,9 @@ "\n", " # find which part of the validation set corresponds to sample_idx\n", " num_samples = np.cumsum([\n", - " validation_file[\"num_samples\"] for validation_file in self.validation_metadata_])\n", + " validation_file[\"num_samples\"] for validation_file in self.prepared_data[\"validation\"]])\n", " file_idx = np.where(num_samples < sample_idx)[0][0]\n", - " validation_file = self.validation_metadata_[file_idx]\n", + " validation_file = self.prepared_data[\"validation\"][file_idx]\n", " idx = sample_idx - (num_samples[file_idx] - validation_file[\"num_samples\"]) \n", " chunk = SlidingWindow(start=0., duration=self.duration, step=self.duration)[idx]\n", "\n", @@ -299,7 +327,7 @@ " # load labels corresponding to random chunk as {0|1} numpy array\n", " # y[k] = 1 means that kth class is active\n", " y = np.zeros((num_classes,))\n", - " active_classes = validaiton_file[\"annotation\"].crop(chunk).labels()\n", + " active_classes = validation_file[\"annotation\"].crop(chunk).labels()\n", " for active_class in active_classes:\n", " y[classes.index(active_class)] = 1\n", "\n", @@ -307,7 +335,7 @@ "\n", " def val__len__(self):\n", " return sum(validation_file[\"num_samples\"] \n", - " for validation_file in self.validation_metadata_)\n", + " for validation_file in self.prepared_data[\"validation\"])\n", "\n", " # `pyannote.audio.core.task.Task` base class provides a `LightningModule.training_step` and \n", " # `LightningModule.validation_step` methods that rely on self.specifications to guess which \n", @@ -323,14 +351,16 @@ "\n", " # pyannote.audio.tasks.segmentation.mixin also provides a convenient mixin\n", " # for \"segmentation\" tasks (ie. with Resolution.FRAME) that already defines\n", - " # a bunch of useful methods. \n" + " # a bunch of useful methods. You can use it by inheriting your task from the \n", + " # pyannote.audio.tasks.segmentation.mixinSegmentationTask\n" ] } ], "metadata": { "kernelspec": { - "display_name": "Python 3.8.5 64-bit ('pyannote-audio-v2': conda)", - "name": "python385jvsc74a57bd0af55542e943232842f746a64555e4e006c72c98a3a863e85e6cbaf12772fa219" + "display_name": "Python 3", + "language": "python", + "name": "python3" }, "language_info": { "codemirror_mode": { @@ -342,7 +372,7 @@ "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", - "version": "3.8.5" + "version": "3.10.13" } }, "nbformat": 4, From b41b176e3ff28e4c9daeaf7de6e4f80133e44dc9 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Cl=C3=A9ment=20Pag=C3=A9s?= <55240756+clement-pages@users.noreply.github.com> Date: Mon, 15 Jan 2024 13:11:21 +0100 Subject: [PATCH 14/45] fix: fix support for non-ASCII characters MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Fixes #1608 #1612 Co-authored-by: Hervé BREDIN --- pyannote/audio/core/task.py | 12 ++++++------ pyannote/audio/tasks/segmentation/mixins.py | 5 ++--- .../audio/tasks/segmentation/multilabel.py | 10 +++++----- tests/data/database.yml | 1 + tests/data/debug.train.lst | 2 +- tests/data/debug.train.rttm | 18 +++++++++--------- .../data/tr\303\26100.wav" | Bin 7 files changed, 24 insertions(+), 24 deletions(-) rename tests/data/trn00.wav => "tests/data/tr\303\26100.wav" (100%) diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py index 5c0b16f29..a0686fc88 100644 --- a/pyannote/audio/core/task.py +++ b/pyannote/audio/core/task.py @@ -215,11 +215,11 @@ class Task(pl.LightningDataModule): pyannote.database protocol cache : str, optional As (meta-)data preparation might take a very long time for large datasets, - it can be cached to disk for later (and faster!) re-use. + it can be cached to disk for later (and faster!) re-use. When `cache` does not exist, `Task.prepare_data()` generates training and validation metadata from `protocol` and save them to disk. When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data - are loaded from disk. Defaults to a temporary path. + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration in seconds. Defaults to two seconds (2.). min_duration : float, optional @@ -567,7 +567,7 @@ def prepare_data(self): # keep track of protocol name prepared_data["protocol"] = self.protocol.name - prepared_data["audio-path"] = np.array(audios, dtype=np.string_) + prepared_data["audio-path"] = np.array(audios, dtype=np.str_) audios.clear() prepared_data["audio-metadata"] = np.array(metadata, dtype=metadata_dtype) @@ -576,7 +576,7 @@ def prepare_data(self): prepared_data["audio-info"] = np.array(audio_infos, dtype=info_dtype) audio_infos.clear() - prepared_data["audio-encoding"] = np.array(audio_encodings, dtype=np.string_) + prepared_data["audio-encoding"] = np.array(audio_encodings, dtype=np.str_) audio_encodings.clear() prepared_data["audio-annotated"] = np.array(annotated_duration) @@ -596,11 +596,11 @@ def prepare_data(self): for database, labels in database_unique_labels.items(): prepared_data[f"metadata-{database}-labels"] = np.array( - labels, dtype=np.string_ + labels, dtype=np.str_ ) database_unique_labels.clear() - prepared_data["metadata-labels"] = np.array(unique_labels, dtype=np.string_) + prepared_data["metadata-labels"] = np.array(unique_labels, dtype=np.str_) unique_labels.clear() self.prepare_validation(prepared_data) diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index 1af863d89..4e97c6e9f 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -48,16 +48,15 @@ class SegmentationTask(Task): def get_file(self, file_id): file = dict() - file["audio"] = str(self.prepared_data["audio-path"][file_id], encoding="utf-8") + file["audio"] = self.prepared_data["audio-path"][file_id] _audio_info = self.prepared_data["audio-info"][file_id] - _encoding = self.prepared_data["audio-encoding"][file_id] + encoding = self.prepared_data["audio-encoding"][file_id] sample_rate = _audio_info["sample_rate"] num_frames = _audio_info["num_frames"] num_channels = _audio_info["num_channels"] bits_per_sample = _audio_info["bits_per_sample"] - encoding = str(_encoding, encoding="utf-8") file["torchaudio.info"] = AudioMetaData( sample_rate=sample_rate, num_frames=num_frames, diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py index c641b5c3e..66a28e7ba 100644 --- a/pyannote/audio/tasks/segmentation/multilabel.py +++ b/pyannote/audio/tasks/segmentation/multilabel.py @@ -49,13 +49,13 @@ class MultiLabelSegmentation(SegmentationTask): Parameters ---------- protocol : Protocol - cache : str, optional + cache : str, optional As (meta-)data preparation might take a very long time for large datasets, - it can be cached to disk for later (and faster!) re-use. + it can be cached to disk for later (and faster!) re-use. When `cache` does not exist, `Task.prepare_data()` generates training and validation metadata from `protocol` and save them to disk. When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data - are loaded from disk. Defaults to a temporary path. + are loaded from disk. Defaults to a temporary path. classes : List[str], optional List of classes. Defaults to the list of classes available in the training set. duration : float, optional @@ -179,7 +179,7 @@ def post_prepare_data(self, prepared_data: Dict): [classes.index(klass) for klass in file_classes] ) - prepared_data["classes-list"] = np.array(classes, dtype=np.string_) + prepared_data["classes-list"] = np.array(classes, dtype=np.str_) self.classes = classes else: @@ -216,7 +216,7 @@ def post_prepare_data(self, prepared_data: Dict): ] ) - prepared_data["classes-list"] = np.array(self.classes, dtype=np.string_) + prepared_data["classes-list"] = np.array(self.classes, dtype=np.str_) # convert annotated_classes (which is a list of list of classes, one list of classes per file) # into a single (num_files x num_classes) numpy array: diff --git a/tests/data/database.yml b/tests/data/database.yml index 608bf40b4..10d3fb084 100644 --- a/tests/data/database.yml +++ b/tests/data/database.yml @@ -2,6 +2,7 @@ Protocols: Debug: SpeakerDiarization: Debug: + scope: database train: uri: debug.train.lst annotation: debug.train.rttm diff --git a/tests/data/debug.train.lst b/tests/data/debug.train.lst index 16be824f4..471bf03d4 100644 --- a/tests/data/debug.train.lst +++ b/tests/data/debug.train.lst @@ -1,4 +1,4 @@ -trn00 +trñ00 trn01 trn02 trn03 diff --git a/tests/data/debug.train.rttm b/tests/data/debug.train.rttm index 004a3f2eb..be89e2a4c 100644 --- a/tests/data/debug.train.rttm +++ b/tests/data/debug.train.rttm @@ -1,26 +1,26 @@ -SPEAKER trn00 1 3.168 0.800 MEO069 -SPEAKER trn00 1 5.463 0.640 MEO069 +SPEAKER trn00 1 3.168 0.800 MÉO069 +SPEAKER trn00 1 5.463 0.640 MÉO069 SPEAKER trn00 1 5.496 0.574 MEE068 -SPEAKER trn00 1 10.454 0.499 MEO069 +SPEAKER trn00 1 10.454 0.499 MÉO069 SPEAKER trn00 1 11.040 4.592 MEE068 -SPEAKER trn00 1 16.736 1.410 MEO069 +SPEAKER trn00 1 16.736 1.410 MÉO069 SPEAKER trn00 1 16.980 2.778 MEE067 SPEAKER trn00 1 18.883 0.490 MEE068 -SPEAKER trn00 1 18.985 1.831 MEO069 +SPEAKER trn00 1 18.985 1.831 MÉO069 SPEAKER trn00 1 20.944 0.447 MEE067 SPEAKER trn00 1 21.392 4.465 MEE068 -SPEAKER trn00 1 22.928 0.384 MEO069 -SPEAKER trn00 1 25.001 2.471 MEO069 +SPEAKER trn00 1 22.928 0.384 MÉO069 +SPEAKER trn00 1 25.001 2.471 MÉO069 SPEAKER trn00 1 28.033 1.967 MEE068 SPEAKER trn01 1 2.977 0.391 FEO066 SPEAKER trn01 1 18.705 0.964 MEE068 SPEAKER trn01 1 22.269 0.457 FEO065 -SPEAKER trn01 1 28.474 1.526 MEO069 +SPEAKER trn01 1 28.474 1.526 MÉO069 SPEAKER trn01 1 28.593 1.407 FEO066 SPEAKER trn01 1 28.993 1.007 FEO065 SPEAKER trn02 1 20.704 0.688 FEO066 SPEAKER trn03 1 0.000 1.184 MEE067 -SPEAKER trn03 1 1.104 28.896 MEO069 +SPEAKER trn03 1 1.104 28.896 MÉO069 SPEAKER trn04 1 14.032 1.744 MEE076 SPEAKER trn04 1 14.345 2.471 MEO074 SPEAKER trn04 1 16.736 7.216 MEE075 diff --git a/tests/data/trn00.wav "b/tests/data/tr\303\26100.wav" similarity index 100% rename from tests/data/trn00.wav rename to "tests/data/tr\303\26100.wav" From c921f441f6f091d9822ddc03ba982c9ac4c10104 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Cl=C3=A9ment=20Pag=C3=A9s?= <55240756+clement-pages@users.noreply.github.com> Date: Mon, 15 Jan 2024 16:33:27 +0100 Subject: [PATCH 15/45] fix: remove use of unsigned type (#1616) --- pyannote/audio/core/task.py | 26 +++++++-------------- pyannote/audio/tasks/segmentation/mixins.py | 2 +- 2 files changed, 9 insertions(+), 19 deletions(-) diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py index a0686fc88..82e8939fe 100644 --- a/pyannote/audio/core/task.py +++ b/pyannote/audio/core/task.py @@ -160,7 +160,7 @@ def __len__(self): return self.task.val__len__() -def get_dtype(value: int, unsigned: Optional[bool] = False) -> str: +def get_dtype(value: int) -> str: """Return the most suitable type for storing the value passed in parameter in memory. @@ -168,8 +168,6 @@ def get_dtype(value: int, unsigned: Optional[bool] = False) -> str: ---------- value: int value whose type is best suited to storage in memory - unsigned: bool, optional - positive integer mode only. Default to False Returns ------- @@ -177,21 +175,13 @@ def get_dtype(value: int, unsigned: Optional[bool] = False) -> str: numpy formatted type (see https://numpy.org/doc/stable/reference/arrays.dtypes.html) """ - if unsigned: - if value < 0: - raise ValueError( - f"negative value ({value}) is incompatible with unsigned types" - ) - # unsigned byte (8 bits), unsigned short (16 bits), unsigned int (32 bits) - types_list = [(255, "B"), (65_535, "u2"), (4_294_967_296, "u4")] - else: - # signe byte (8 bits), signed short (16 bits), signed int (32 bits): - types_list = [(127, "b"), (32_768, "i2"), (2_147_483_648, "i")] + # signe byte (8 bits), signed short (16 bits), signed int (32 bits): + types_list = [(127, "b"), (32_768, "i2"), (2_147_483_648, "i")] filtered_list = [ (max_val, type) for max_val, type in types_list if max_val > abs(value) ] if not filtered_list: - return "u8" if unsigned else "i8" # unsigned or signed long (64 bits) + return "i8" # signed long (64 bits) return filtered_list[0][1] @@ -528,11 +518,11 @@ def prepare_data(self): info_dtype = [ ( "sample_rate", - get_dtype(max(ai[0] for ai in audio_infos), unsigned=True), + get_dtype(max(ai[0] for ai in audio_infos)), ), ( "num_frames", - get_dtype(max(ai[1] for ai in audio_infos), unsigned=True), + get_dtype(max(ai[1] for ai in audio_infos)), ), ("num_channels", "B"), ("bits_per_sample", "B"), @@ -542,7 +532,7 @@ def prepare_data(self): region_dtype = [ ( "file_id", - get_dtype(max(ar[0] for ar in annotated_regions), unsigned=True), + get_dtype(max(ar[0] for ar in annotated_regions)), ), ("duration", "f"), ("start", "f"), @@ -552,7 +542,7 @@ def prepare_data(self): segment_dtype = [ ( "file_id", - get_dtype(max(a[0] for a in annotations), unsigned=True), + get_dtype(max(a[0] for a in annotations)), ), ("start", "f"), ("end", "f"), diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index 4e97c6e9f..9c5bcd792 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -287,7 +287,7 @@ def prepare_validation(self, prepared_data: Dict): dtype = [ ( "file_id", - get_dtype(max(v[0] for v in validation_chunks), unsigned=True), + get_dtype(max(v[0] for v in validation_chunks)), ), ("start", "f"), ("duration", "f"), From 293d8fc33eeb0887c001e1e61c2b60be0570f842 Mon Sep 17 00:00:00 2001 From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com> Date: Wed, 24 Jan 2024 11:26:28 +0100 Subject: [PATCH 16/45] improve: add missing Optional typing --- pyannote/audio/augmentation/mix.py | 10 +++---- pyannote/audio/cli/evaluate.py | 2 +- .../CosineAnnealingWarmRestarts.py | 3 +- pyannote/audio/cli/lr_schedulers/CyclicLR.py | 3 +- pyannote/audio/core/callback.py | 4 +-- pyannote/audio/core/inference.py | 10 +++---- pyannote/audio/core/io.py | 4 ++- pyannote/audio/core/model.py | 6 ++-- pyannote/audio/core/task.py | 6 ++-- .../models/embedding/wespeaker/__init__.py | 2 +- .../models/embedding/wespeaker/resnet.py | 6 ++-- pyannote/audio/models/embedding/xvector.py | 8 +++--- pyannote/audio/models/segmentation/PyanNet.py | 6 ++-- .../audio/models/segmentation/SSeRiouSS.py | 4 +-- pyannote/audio/pipelines/clustering.py | 28 +++++++++---------- pyannote/audio/pipelines/multilabel.py | 2 +- .../pipelines/overlapped_speech_detection.py | 2 +- pyannote/audio/pipelines/resegmentation.py | 4 +-- .../audio/pipelines/speaker_diarization.py | 25 +++++++++++------ .../audio/pipelines/speaker_verification.py | 24 ++++++++-------- pyannote/audio/pipelines/utils/diarization.py | 12 ++++---- pyannote/audio/pipelines/utils/getter.py | 4 +-- pyannote/audio/pipelines/utils/oracle.py | 4 +-- .../pipelines/voice_activity_detection.py | 2 +- pyannote/audio/tasks/embedding/arcface.py | 8 +++--- .../audio/tasks/segmentation/multilabel.py | 8 +++--- .../overlapped_speech_detection.py | 23 +++++++-------- .../tasks/segmentation/speaker_diarization.py | 28 ++++++++++--------- .../segmentation/voice_activity_detection.py | 14 +++++----- pyannote/audio/utils/loss.py | 16 +++++++---- pyannote/audio/utils/params.py | 4 ++- pyannote/audio/utils/preview.py | 6 ++-- tutorials/add_your_own_task.ipynb | 4 +-- 33 files changed, 159 insertions(+), 133 deletions(-) diff --git a/pyannote/audio/augmentation/mix.py b/pyannote/audio/augmentation/mix.py index a6fff49c0..c6e811280 100644 --- a/pyannote/audio/augmentation/mix.py +++ b/pyannote/audio/augmentation/mix.py @@ -60,10 +60,10 @@ def __init__( max_snr_in_db: float = 5.0, mode: str = "per_example", p: float = 0.5, - p_mode: str = None, - sample_rate: int = None, - target_rate: int = None, - max_num_speakers: int = None, + p_mode: Optional[str] = None, + sample_rate: Optional[int] = None, + target_rate: Optional[int] = None, + max_num_speakers: Optional[int] = None, output_type: str = "tensor", ): super().__init__( @@ -80,7 +80,7 @@ def __init__( def randomize_parameters( self, - samples: Tensor = None, + samples: Optional[Tensor] = None, sample_rate: Optional[int] = None, targets: Optional[Tensor] = None, target_rate: Optional[int] = None, diff --git a/pyannote/audio/cli/evaluate.py b/pyannote/audio/cli/evaluate.py index a5ab682c5..d88c88635 100644 --- a/pyannote/audio/cli/evaluate.py +++ b/pyannote/audio/cli/evaluate.py @@ -53,7 +53,7 @@ def evaluate(cfg: DictConfig) -> Optional[float]: main_task = progress.add_task(protocol.name, total=len(files)) file_task = progress.add_task("Processing", total=1.0) - def progress_hook(completed: int = None, total: int = None): + def progress_hook(completed: Optional[int] = None, total: Optional[int] = None): progress.update(file_task, completed=completed / total) inference = Inference(model, device=device) diff --git a/pyannote/audio/cli/lr_schedulers/CosineAnnealingWarmRestarts.py b/pyannote/audio/cli/lr_schedulers/CosineAnnealingWarmRestarts.py index d8e5f4b3c..3c270eba1 100644 --- a/pyannote/audio/cli/lr_schedulers/CosineAnnealingWarmRestarts.py +++ b/pyannote/audio/cli/lr_schedulers/CosineAnnealingWarmRestarts.py @@ -20,6 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. +from typing import Optional from torch.optim import Optimizer from torch.optim.lr_scheduler import ( @@ -32,7 +33,7 @@ def CosineAnnealingWarmRestarts( min_lr: float = 1e-8, max_lr: float = 1e-3, patience: int = 1, - num_batches_per_epoch: int = None, + num_batches_per_epoch: Optional[int] = None, **kwargs, ): """Wrapper around CosineAnnealingWarmRestarts diff --git a/pyannote/audio/cli/lr_schedulers/CyclicLR.py b/pyannote/audio/cli/lr_schedulers/CyclicLR.py index cd7a7b730..cca4420b0 100644 --- a/pyannote/audio/cli/lr_schedulers/CyclicLR.py +++ b/pyannote/audio/cli/lr_schedulers/CyclicLR.py @@ -20,6 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. +from typing import Optional from torch.optim import Optimizer from torch.optim.lr_scheduler import CyclicLR as _CyclicLR @@ -31,7 +32,7 @@ def CyclicLR( max_lr: float = 1e-3, mode: str = "triangular2", patience: int = 50, - num_batches_per_epoch: int = None, + num_batches_per_epoch: Optional[int] = None, **kwargs, ): """Wrapper around CyclicLR learning rate scheduler diff --git a/pyannote/audio/core/callback.py b/pyannote/audio/core/callback.py index 5ce522d57..0cc46845b 100644 --- a/pyannote/audio/core/callback.py +++ b/pyannote/audio/core/callback.py @@ -20,7 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. -from typing import List, Mapping, Text, Union +from typing import List, Mapping, Optional, Text, Union from pytorch_lightning import Callback, Trainer from pytorch_lightning.utilities.model_summary import ModelSummary @@ -67,7 +67,7 @@ class GraduallyUnfreeze(Callback): def __init__( self, schedule: Union[Mapping[Text, int], List[Union[List[Text], Text]]] = None, - epochs_per_stage: int = None, + epochs_per_stage: Optional[int] = None, ): super().__init__() diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py index dcf21868d..2d6976f32 100644 --- a/pyannote/audio/core/inference.py +++ b/pyannote/audio/core/inference.py @@ -86,12 +86,12 @@ def __init__( self, model: Union[Model, Text, Path], window: Text = "sliding", - duration: float = None, - step: float = None, + duration: Optional[float] = None, + step: Optional[float] = None, pre_aggregation_hook: Callable[[np.ndarray], np.ndarray] = None, skip_aggregation: bool = False, skip_conversion: bool = False, - device: torch.device = None, + device: Optional[torch.device] = None, batch_size: int = 32, use_auth_token: Union[Text, None] = None, ): @@ -526,7 +526,7 @@ def __first_sample(outputs: np.ndarray, **kwargs) -> np.ndarray: @staticmethod def aggregate( scores: SlidingWindowFeature, - frames: SlidingWindow = None, + frames: Optional[SlidingWindow] = None, warm_up: Tuple[float, float] = (0.0, 0.0), epsilon: float = 1e-12, hamming: bool = False, @@ -702,7 +702,7 @@ def trim( @staticmethod def stitch( activations: SlidingWindowFeature, - frames: SlidingWindow = None, + frames: Optional[SlidingWindow] = None, lookahead: Optional[Tuple[int, int]] = None, cost_func: Callable[[torch.Tensor, torch.Tensor], torch.Tensor] = None, match_func: Callable[[np.ndarray, np.ndarray, float], bool] = None, diff --git a/pyannote/audio/core/io.py b/pyannote/audio/core/io.py index 0a44e75ea..cbb7ee828 100644 --- a/pyannote/audio/core/io.py +++ b/pyannote/audio/core/io.py @@ -253,7 +253,9 @@ def get_duration(self, file: AudioFile) -> float: return frames / sample_rate - def get_num_samples(self, duration: float, sample_rate: int = None) -> int: + def get_num_samples( + self, duration: float, sample_rate: Optional[int] = None + ) -> int: """Deterministic number of samples from duration and sample rate""" sample_rate = sample_rate or self.sample_rate diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index 098c15c02..2acc1248b 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -196,7 +196,7 @@ def example_output(self) -> Union[Output, Tuple[Output]]: def __example_output( example_output: torch.Tensor, - specifications: Specifications = None, + specifications: Optional[Specifications] = None, ) -> Output: if specifications.resolution == Resolution.FRAME: _, num_frames, dimension = example_output.shape @@ -341,7 +341,9 @@ def default_activation(self) -> Union[nn.Module, Tuple[nn.Module]]: Activation. """ - def __default_activation(specifications: Specifications = None) -> nn.Module: + def __default_activation( + specifications: Optional[Specifications] = None, + ) -> nn.Module: if specifications.problem == Problem.BINARY_CLASSIFICATION: return nn.Sigmoid() diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py index 82e8939fe..afad62717 100644 --- a/pyannote/audio/core/task.py +++ b/pyannote/audio/core/task.py @@ -250,12 +250,12 @@ def __init__( protocol: Protocol, cache: Optional[Union[str, None]] = None, duration: float = 2.0, - min_duration: float = None, + min_duration: Optional[float] = None, warm_up: Union[float, Tuple[float, float]] = 0.0, batch_size: int = 32, - num_workers: int = None, + num_workers: Optional[int] = None, pin_memory: bool = False, - augmentation: BaseWaveformTransform = None, + augmentation: Optional[BaseWaveformTransform] = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, ): super().__init__() diff --git a/pyannote/audio/models/embedding/wespeaker/__init__.py b/pyannote/audio/models/embedding/wespeaker/__init__.py index 603a88c64..c504435c3 100644 --- a/pyannote/audio/models/embedding/wespeaker/__init__.py +++ b/pyannote/audio/models/embedding/wespeaker/__init__.py @@ -96,7 +96,7 @@ def compute_fbank(self, waveforms: torch.Tensor) -> torch.Tensor: return features - torch.mean(features, dim=1, keepdim=True) def forward( - self, waveforms: torch.Tensor, weights: torch.Tensor = None + self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: """ diff --git a/pyannote/audio/models/embedding/wespeaker/resnet.py b/pyannote/audio/models/embedding/wespeaker/resnet.py index 54f95fa8b..21fc98fc5 100644 --- a/pyannote/audio/models/embedding/wespeaker/resnet.py +++ b/pyannote/audio/models/embedding/wespeaker/resnet.py @@ -15,6 +15,8 @@ # See the License for the specific language governing permissions and # limitations under the License. +from typing import Optional + import torch import torch.nn as nn import torch.nn.functional as F @@ -35,7 +37,7 @@ def __init__(self, in_dim=0, **kwargs): self.in_dim = in_dim self.stats_pool = StatsPool() - def forward(self, features, weights: torch.Tensor = None): + def forward(self, features, weights: Optional[torch.Tensor] = None): """ Parameters @@ -190,7 +192,7 @@ def _make_layer(self, block, planes, num_blocks, stride): self.in_planes = planes * block.expansion return nn.Sequential(*layers) - def forward(self, x: torch.Tensor, weights: torch.Tensor = None): + def forward(self, x: torch.Tensor, weights: Optional[torch.Tensor] = None): """ Parameters diff --git a/pyannote/audio/models/embedding/xvector.py b/pyannote/audio/models/embedding/xvector.py index 975f0a991..b5a5463ce 100644 --- a/pyannote/audio/models/embedding/xvector.py +++ b/pyannote/audio/models/embedding/xvector.py @@ -41,7 +41,7 @@ def __init__( self, sample_rate: int = 16000, num_channels: int = 1, - mfcc: dict = None, + mfcc: Optional[dict] = None, dimension: int = 512, task: Optional[Task] = None, ): @@ -82,7 +82,7 @@ def __init__( self.embedding = nn.Linear(in_channel * 2, self.hparams.dimension) def forward( - self, waveforms: torch.Tensor, weights: torch.Tensor = None + self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: """ @@ -109,7 +109,7 @@ def __init__( self, sample_rate: int = 16000, num_channels: int = 1, - sincnet: dict = None, + sincnet: Optional[dict] = None, dimension: int = 512, task: Optional[Task] = None, ): @@ -150,7 +150,7 @@ def __init__( self.embedding = nn.Linear(in_channel * 2, self.hparams.dimension) def forward( - self, waveforms: torch.Tensor, weights: torch.Tensor = None + self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: """ diff --git a/pyannote/audio/models/segmentation/PyanNet.py b/pyannote/audio/models/segmentation/PyanNet.py index 2c4443e06..b6cdc604b 100644 --- a/pyannote/audio/models/segmentation/PyanNet.py +++ b/pyannote/audio/models/segmentation/PyanNet.py @@ -74,9 +74,9 @@ class PyanNet(Model): def __init__( self, - sincnet: dict = None, - lstm: dict = None, - linear: dict = None, + sincnet: Optional[dict] = None, + lstm: Optional[dict] = None, + linear: Optional[dict] = None, sample_rate: int = 16000, num_channels: int = 1, task: Optional[Task] = None, diff --git a/pyannote/audio/models/segmentation/SSeRiouSS.py b/pyannote/audio/models/segmentation/SSeRiouSS.py index 9ba656182..45e9ddb7d 100644 --- a/pyannote/audio/models/segmentation/SSeRiouSS.py +++ b/pyannote/audio/models/segmentation/SSeRiouSS.py @@ -79,8 +79,8 @@ def __init__( self, wav2vec: Union[dict, str] = None, wav2vec_layer: int = -1, - lstm: dict = None, - linear: dict = None, + lstm: Optional[dict] = None, + linear: Optional[dict] = None, sample_rate: int = 16000, num_channels: int = 1, task: Optional[Task] = None, diff --git a/pyannote/audio/pipelines/clustering.py b/pyannote/audio/pipelines/clustering.py index 80098ea24..cd4b38935 100644 --- a/pyannote/audio/pipelines/clustering.py +++ b/pyannote/audio/pipelines/clustering.py @@ -25,7 +25,7 @@ import random from enum import Enum -from typing import Tuple +from typing import Optional, Tuple import numpy as np from einops import rearrange @@ -56,9 +56,9 @@ def __init__( def set_num_clusters( self, num_embeddings: int, - num_clusters: int = None, - min_clusters: int = None, - max_clusters: int = None, + num_clusters: Optional[int] = None, + min_clusters: Optional[int] = None, + max_clusters: Optional[int] = None, ): min_clusters = num_clusters or min_clusters or 1 min_clusters = max(1, min(num_embeddings, min_clusters)) @@ -79,7 +79,7 @@ def set_num_clusters( def filter_embeddings( self, embeddings: np.ndarray, - segmentations: SlidingWindowFeature = None, + segmentations: Optional[SlidingWindowFeature] = None, ) -> Tuple[np.ndarray, np.ndarray, np.ndarray]: """Filter NaN embeddings and downsample embeddings @@ -205,10 +205,10 @@ def assign_embeddings( def __call__( self, embeddings: np.ndarray, - segmentations: SlidingWindowFeature = None, - num_clusters: int = None, - min_clusters: int = None, - max_clusters: int = None, + segmentations: Optional[SlidingWindowFeature] = None, + num_clusters: Optional[int] = None, + min_clusters: Optional[int] = None, + max_clusters: Optional[int] = None, **kwargs, ) -> np.ndarray: """Apply clustering @@ -323,7 +323,7 @@ def cluster( embeddings: np.ndarray, min_clusters: int, max_clusters: int, - num_clusters: int = None, + num_clusters: Optional[int] = None, ): """ @@ -476,10 +476,10 @@ class OracleClustering(BaseClustering): def __call__( self, - embeddings: np.ndarray = None, - segmentations: SlidingWindowFeature = None, - file: AudioFile = None, - frames: SlidingWindow = None, + embeddings: Optional[np.ndarray] = None, + segmentations: Optional[SlidingWindowFeature] = None, + file: Optional[AudioFile] = None, + frames: Optional[SlidingWindow] = None, **kwargs, ) -> np.ndarray: """Apply oracle clustering diff --git a/pyannote/audio/pipelines/multilabel.py b/pyannote/audio/pipelines/multilabel.py index 18693f14c..b35ebee7c 100644 --- a/pyannote/audio/pipelines/multilabel.py +++ b/pyannote/audio/pipelines/multilabel.py @@ -75,7 +75,7 @@ class MultiLabelSegmentation(Pipeline): def __init__( self, - segmentation: PipelineModel = None, + segmentation: Optional[PipelineModel] = None, fscore: bool = False, share_min_duration: bool = False, use_auth_token: Union[Text, None] = None, diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py index 1c9790feb..66e61c949 100644 --- a/pyannote/audio/pipelines/overlapped_speech_detection.py +++ b/pyannote/audio/pipelines/overlapped_speech_detection.py @@ -255,7 +255,7 @@ def compute_components( _self, reference: Annotation, hypothesis: Annotation, - uem: Timeline = None, + uem: Optional[Timeline] = None, **kwargs, ) -> dict: return super().compute_components( diff --git a/pyannote/audio/pipelines/resegmentation.py b/pyannote/audio/pipelines/resegmentation.py index d01e5d65f..1eeade4b1 100644 --- a/pyannote/audio/pipelines/resegmentation.py +++ b/pyannote/audio/pipelines/resegmentation.py @@ -86,7 +86,7 @@ def __init__( self, segmentation: PipelineModel = "pyannote/segmentation", diarization: Text = "diarization", - der_variant: dict = None, + der_variant: Optional[dict] = None, use_auth_token: Union[Text, None] = None, ): super().__init__() @@ -137,7 +137,7 @@ def classes(self): def apply( self, file: AudioFile, - diarization: Annotation = None, + diarization: Optional[Annotation] = None, hook: Optional[Callable] = None, ) -> Annotation: """Apply speaker diarization diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py index 354f6be7e..46a7188d1 100644 --- a/pyannote/audio/pipelines/speaker_diarization.py +++ b/pyannote/audio/pipelines/speaker_diarization.py @@ -121,7 +121,7 @@ def __init__( clustering: str = "AgglomerativeClustering", embedding_batch_size: int = 1, segmentation_batch_size: int = 1, - der_variant: dict = None, + der_variant: Optional[dict] = None, use_auth_token: Union[Text, None] = None, ): super().__init__() @@ -428,9 +428,9 @@ def reconstruct( def apply( self, file: AudioFile, - num_speakers: int = None, - min_speakers: int = None, - max_speakers: int = None, + num_speakers: Optional[int] = None, + min_speakers: Optional[int] = None, + max_speakers: Optional[int] = None, return_embeddings: bool = False, hook: Optional[Callable] = None, ) -> Annotation: @@ -538,15 +538,20 @@ def apply( # detected number of speakers can still be out of bounds # (specifically, lower than `min_speakers`), since there could be too few embeddings # to make enough clusters with a given minimum cluster size. - if num_different_speakers < min_speakers or num_different_speakers > max_speakers: - warnings.warn(textwrap.dedent( - f""" + if ( + num_different_speakers < min_speakers + or num_different_speakers > max_speakers + ): + warnings.warn( + textwrap.dedent( + f""" The detected number of speakers ({num_different_speakers}) is outside the given bounds [{min_speakers}, {max_speakers}]. This can happen if the given audio file is too short to contain {min_speakers} or more speakers. Try to lower the desired minimal number of speakers. """ - )) + ) + ) # during counting, we could possibly overcount the number of instantaneous # speakers due to segmentation errors, so we cap the maximum instantaneous number @@ -618,7 +623,9 @@ def apply( # of clusters obtained from `clustering`. In this case, we append zero embeddings # for extra speakers if len(diarization.labels()) > centroids.shape[0]: - centroids = np.pad(centroids, ((0, len(diarization.labels()) - centroids.shape[0]), (0, 0))) + centroids = np.pad( + centroids, ((0, len(diarization.labels()) - centroids.shape[0]), (0, 0)) + ) # re-order centroids so that they match # the order given by diarization.labels() diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py index c870ea622..fe762bd65 100644 --- a/pyannote/audio/pipelines/speaker_verification.py +++ b/pyannote/audio/pipelines/speaker_verification.py @@ -23,7 +23,7 @@ import warnings from functools import cached_property from pathlib import Path -from typing import Text, Union +from typing import Optional, Text, Union import numpy as np import torch @@ -73,7 +73,7 @@ class NeMoPretrainedSpeakerEmbedding(BaseInference): def __init__( self, embedding: Text = "nvidia/speakerverification_en_titanet_large", - device: torch.device = None, + device: Optional[torch.device] = None, ): if not NEMO_IS_AVAILABLE: raise ImportError( @@ -139,7 +139,7 @@ def min_num_samples(self) -> int: return upper def __call__( - self, waveforms: torch.Tensor, masks: torch.Tensor = None + self, waveforms: torch.Tensor, masks: Optional[torch.Tensor] = None ) -> np.ndarray: """ @@ -238,7 +238,7 @@ class SpeechBrainPretrainedSpeakerEmbedding(BaseInference): def __init__( self, embedding: Text = "speechbrain/spkrec-ecapa-voxceleb", - device: torch.device = None, + device: Optional[torch.device] = None, use_auth_token: Union[Text, None] = None, ): if not SPEECHBRAIN_IS_AVAILABLE: @@ -314,7 +314,7 @@ def min_num_samples(self) -> int: return upper def __call__( - self, waveforms: torch.Tensor, masks: torch.Tensor = None + self, waveforms: torch.Tensor, masks: Optional[torch.Tensor] = None ) -> np.ndarray: """ @@ -414,7 +414,7 @@ class ONNXWeSpeakerPretrainedSpeakerEmbedding(BaseInference): def __init__( self, embedding: Text = "hbredin/wespeaker-voxceleb-resnet34-LM", - device: torch.device = None, + device: Optional[torch.device] = None, ): if not ONNX_IS_AVAILABLE: raise ImportError( @@ -560,7 +560,7 @@ def compute_fbank( return features - torch.mean(features, dim=1, keepdim=True) def __call__( - self, waveforms: torch.Tensor, masks: torch.Tensor = None + self, waveforms: torch.Tensor, masks: Optional[torch.Tensor] = None ) -> np.ndarray: """ @@ -645,7 +645,7 @@ class PyannoteAudioPretrainedSpeakerEmbedding(BaseInference): def __init__( self, embedding: PipelineModel = "pyannote/embedding", - device: torch.device = None, + device: Optional[torch.device] = None, use_auth_token: Union[Text, None] = None, ): super().__init__() @@ -695,7 +695,7 @@ def min_num_samples(self) -> int: return upper def __call__( - self, waveforms: torch.Tensor, masks: torch.Tensor = None + self, waveforms: torch.Tensor, masks: Optional[torch.Tensor] = None ) -> np.ndarray: with torch.inference_mode(): if masks is None: @@ -711,7 +711,7 @@ def __call__( def PretrainedSpeakerEmbedding( embedding: PipelineModel, - device: torch.device = None, + device: Optional[torch.device] = None, use_auth_token: Union[Text, None] = None, ): """Pretrained speaker embedding @@ -801,7 +801,7 @@ class SpeakerEmbedding(Pipeline): def __init__( self, embedding: PipelineModel = "pyannote/embedding", - segmentation: PipelineModel = None, + segmentation: Optional[PipelineModel] = None, use_auth_token: Union[Text, None] = None, ): super().__init__() @@ -848,7 +848,7 @@ def main( protocol: str = "VoxCeleb.SpeakerVerification.VoxCeleb1", subset: str = "test", embedding: str = "pyannote/embedding", - segmentation: str = None, + segmentation: Optional[str] = None, ): import typer from pyannote.database import FileFinder, get_protocol diff --git a/pyannote/audio/pipelines/utils/diarization.py b/pyannote/audio/pipelines/utils/diarization.py index 4a35f7049..f6797194c 100644 --- a/pyannote/audio/pipelines/utils/diarization.py +++ b/pyannote/audio/pipelines/utils/diarization.py @@ -20,7 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. -from typing import Dict, Mapping, Tuple, Union +from typing import Dict, Mapping, Optional, Tuple, Union import numpy as np from pyannote.core import Annotation, SlidingWindow, SlidingWindowFeature @@ -28,7 +28,7 @@ from pyannote.metrics.diarization import DiarizationErrorRate from pyannote.audio.core.inference import Inference -from pyannote.audio.utils.signal import Binarize, binarize +from pyannote.audio.utils.signal import Binarize # TODO: move to dedicated module @@ -37,9 +37,9 @@ class SpeakerDiarizationMixin: @staticmethod def set_num_speakers( - num_speakers: int = None, - min_speakers: int = None, - max_speakers: int = None, + num_speakers: Optional[int] = None, + min_speakers: Optional[int] = None, + max_speakers: Optional[int] = None, ): """Validate number of speakers @@ -122,7 +122,7 @@ def optimal_mapping( def speaker_count( binarized_segmentations: SlidingWindowFeature, warm_up: Tuple[float, float] = (0.1, 0.1), - frames: SlidingWindow = None, + frames: Optional[SlidingWindow] = None, ) -> SlidingWindowFeature: """Estimate frame-level number of instantaneous speakers diff --git a/pyannote/audio/pipelines/utils/getter.py b/pyannote/audio/pipelines/utils/getter.py index 4c589ad05..51040d1c4 100644 --- a/pyannote/audio/pipelines/utils/getter.py +++ b/pyannote/audio/pipelines/utils/getter.py @@ -21,7 +21,7 @@ # SOFTWARE. import itertools -from typing import Mapping, Text, Union +from typing import Mapping, Optional, Text, Union import torch from torch_audiomentations.core.transforms_interface import BaseWaveformTransform @@ -171,7 +171,7 @@ def get_augmentation(augmentation: PipelineAugmentation) -> BaseWaveformTransfor ) -def get_devices(needs: int = None): +def get_devices(needs: Optional[int] = None): """Get devices that can be used by the pipeline Parameters diff --git a/pyannote/audio/pipelines/utils/oracle.py b/pyannote/audio/pipelines/utils/oracle.py index 44b4ded61..3bf9ebc9f 100644 --- a/pyannote/audio/pipelines/utils/oracle.py +++ b/pyannote/audio/pipelines/utils/oracle.py @@ -20,7 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. -from typing import Union +from typing import Optional, Union import numpy as np from pyannote.core import Annotation, Segment, SlidingWindow, SlidingWindowFeature @@ -32,7 +32,7 @@ def oracle_segmentation( file: AudioFile, window: SlidingWindow, frames: Union[SlidingWindow, float], - num_speakers: int = None, + num_speakers: Optional[int] = None, ) -> SlidingWindowFeature: """Oracle speaker segmentation diff --git a/pyannote/audio/pipelines/voice_activity_detection.py b/pyannote/audio/pipelines/voice_activity_detection.py index f67489b64..39e529d89 100644 --- a/pyannote/audio/pipelines/voice_activity_detection.py +++ b/pyannote/audio/pipelines/voice_activity_detection.py @@ -284,7 +284,7 @@ class AdaptiveVoiceActivityDetection(Pipeline): def __init__( self, segmentation: PipelineInference = "hbredin/VoiceActivityDetection-PyanNet-DIHARD", - augmentation: PipelineAugmentation = None, + augmentation: Optional[PipelineAugmentation] = None, fscore: bool = False, ): super().__init__() diff --git a/pyannote/audio/tasks/embedding/arcface.py b/pyannote/audio/tasks/embedding/arcface.py index bb2cb1f6c..cb6401e2b 100644 --- a/pyannote/audio/tasks/embedding/arcface.py +++ b/pyannote/audio/tasks/embedding/arcface.py @@ -23,7 +23,7 @@ from __future__ import annotations -from typing import Dict, Sequence, Union +from typing import Dict, Optional, Sequence, Union import pytorch_metric_learning.losses from pyannote.database import Protocol @@ -82,15 +82,15 @@ class SupervisedRepresentationLearningWithArcFace( def __init__( self, protocol: Protocol, - min_duration: float = None, + min_duration: Optional[float] = None, duration: float = 2.0, num_classes_per_batch: int = 32, num_chunks_per_class: int = 1, margin: float = 28.6, scale: float = 64.0, - num_workers: int = None, + num_workers: Optional[int] = None, pin_memory: bool = False, - augmentation: BaseWaveformTransform = None, + augmentation: Optional[BaseWaveformTransform] = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, ): diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py index 66a28e7ba..0e4a4aadc 100644 --- a/pyannote/audio/tasks/segmentation/multilabel.py +++ b/pyannote/audio/tasks/segmentation/multilabel.py @@ -96,12 +96,12 @@ def __init__( classes: Optional[List[str]] = None, duration: float = 2.0, warm_up: Union[float, Tuple[float, float]] = 0.0, - balance: Sequence[Text] = None, - weight: Text = None, + balance: Optional[Sequence[Text]] = None, + weight: Optional[Text] = None, batch_size: int = 32, - num_workers: int = None, + num_workers: Optional[int] = None, pin_memory: bool = False, - augmentation: BaseWaveformTransform = None, + augmentation: Optional[BaseWaveformTransform] = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, ): if not isinstance(protocol, SegmentationProtocol): diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py index 7249ed0f4..97db20032 100644 --- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py +++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py @@ -51,13 +51,13 @@ class OverlappedSpeechDetection(SegmentationTask): ---------- protocol : Protocol pyannote.database protocol - cache : str, optional + cache : str, optional As (meta-)data preparation might take a very long time for large datasets, - it can be cached to disk for later (and faster!) re-use. + it can be cached to disk for later (and faster!) re-use. When `cache` does not exist, `Task.prepare_data()` generates training and validation metadata from `protocol` and save them to disk. When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data - are loaded from disk. Defaults to a temporary path. + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration. Defaults to 2s. warm_up : float or (float, float), optional @@ -73,11 +73,12 @@ class OverlappedSpeechDetection(SegmentationTask): overlap: dict, optional Controls how artificial chunks with overlapping speech are generated: - "probability" key is the probability of artificial overlapping chunks. Setting - "probability" to 0.6 means that, on average, 40% of training chunks are "real" - chunks, while 60% are artifical chunks made out of the (weighted) sum of two - chunks. Defaults to 0.5. + "probability" to 0.6 means that, on average, 40% of training chunks are "real" + chunks, while 60% are artifical chunks made out of the (weighted) sum of two + chunks. Defaults to 0.5. - "snr_min" and "snr_max" keys control the minimum and maximum signal-to-noise - ratio between summed chunks, in dB. Default to 0.0 and 10. + ratio between summed chunks, in dB. Default to 0.0 and 10. + weight: str, optional When provided, use this key to as frame-wise weight in loss function. batch_size : int, optional @@ -105,12 +106,12 @@ def __init__( duration: float = 2.0, warm_up: Union[float, Tuple[float, float]] = 0.0, overlap: dict = OVERLAP_DEFAULTS, - balance: Sequence[Text] = None, - weight: Text = None, + balance: Optional[Sequence[Text]] = None, + weight: Optional[Text] = None, batch_size: int = 32, - num_workers: int = None, + num_workers: Optional[int] = None, pin_memory: bool = False, - augmentation: BaseWaveformTransform = None, + augmentation: Optional[BaseWaveformTransform] = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, cache: Optional[Union[str, None]] = None, ): diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py index 47c5adc63..fb635dc9c 100644 --- a/pyannote/audio/tasks/segmentation/speaker_diarization.py +++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py @@ -65,13 +65,13 @@ class SpeakerDiarization(SegmentationTask): ---------- protocol : SpeakerDiarizationProtocol pyannote.database protocol - cache : str, optional + cache : str, optional As (meta-)data preparation might take a very long time for large datasets, - it can be cached to disk for later (and faster!) re-use. + it can be cached to disk for later (and faster!) re-use. When `cache` does not exist, `Task.prepare_data()` generates training and validation metadata from `protocol` and save them to disk. When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data - are loaded from disk. Defaults to a temporary path. + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration. Defaults to 2s. max_speakers_per_chunk : int, optional @@ -136,19 +136,21 @@ def __init__( protocol: SpeakerDiarizationProtocol, cache: Optional[Union[str, None]] = None, duration: float = 2.0, - max_speakers_per_chunk: int = None, - max_speakers_per_frame: int = None, + max_speakers_per_chunk: Optional[int] = None, + max_speakers_per_frame: Optional[int] = None, weigh_by_cardinality: bool = False, warm_up: Union[float, Tuple[float, float]] = 0.0, - balance: Sequence[Text] = None, - weight: Text = None, + balance: Optional[Sequence[Text]] = None, + weight: Optional[Text] = None, batch_size: int = 32, - num_workers: int = None, + num_workers: Optional[int] = None, pin_memory: bool = False, - augmentation: BaseWaveformTransform = None, + augmentation: Optional[BaseWaveformTransform] = None, vad_loss: Literal["bce", "mse"] = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, - max_num_speakers: int = None, # deprecated in favor of `max_speakers_per_chunk`` + max_num_speakers: Optional[ + int + ] = None, # deprecated in favor of `max_speakers_per_chunk`` loss: Literal["bce", "mse"] = None, # deprecated ): super().__init__( @@ -437,7 +439,7 @@ def segmentation_loss( self, permutated_prediction: torch.Tensor, target: torch.Tensor, - weight: torch.Tensor = None, + weight: Optional[torch.Tensor] = None, ) -> torch.Tensor: """Permutation-invariant segmentation loss @@ -480,7 +482,7 @@ def voice_activity_detection_loss( self, permutated_prediction: torch.Tensor, target: torch.Tensor, - weight: torch.Tensor = None, + weight: Optional[torch.Tensor] = None, ) -> torch.Tensor: """Voice activity detection loss @@ -878,7 +880,7 @@ def main(protocol: str, subset: str = "test", model: str = "pyannote/segmentatio main_task = progress.add_task(protocol.name, total=len(files)) file_task = progress.add_task("Processing", total=1.0) - def progress_hook(completed: int = None, total: int = None): + def progress_hook(completed: Optional[int] = None, total: Optional[int] = None): progress.update(file_task, completed=completed / total) inference = Inference(model, device=device) diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py index 183fa2ffc..6d0bdb98d 100644 --- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py +++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py @@ -45,13 +45,13 @@ class VoiceActivityDetection(SegmentationTask): ---------- protocol : Protocol pyannote.database protocol - cache : str, optional + cache : str, optional As (meta-)data preparation might take a very long time for large datasets, - it can be cached to disk for later (and faster!) re-use. + it can be cached to disk for later (and faster!) re-use. When `cache` does not exist, `Task.prepare_data()` generates training and validation metadata from `protocol` and save them to disk. When `cache` exists, `Task.prepare_data()` is skipped and (meta)-data - are loaded from disk. Defaults to a temporary path. + are loaded from disk. Defaults to a temporary path. duration : float, optional Chunks duration. Defaults to 2s. warm_up : float or (float, float), optional @@ -89,12 +89,12 @@ def __init__( cache: Optional[Union[str, None]] = None, duration: float = 2.0, warm_up: Union[float, Tuple[float, float]] = 0.0, - balance: Sequence[Text] = None, - weight: Text = None, + balance: Optional[Sequence[Text]] = None, + weight: Optional[Text] = None, batch_size: int = 32, - num_workers: int = None, + num_workers: Optional[int] = None, pin_memory: bool = False, - augmentation: BaseWaveformTransform = None, + augmentation: Optional[BaseWaveformTransform] = None, metric: Union[Metric, Sequence[Metric], Dict[str, Metric]] = None, ): super().__init__( diff --git a/pyannote/audio/utils/loss.py b/pyannote/audio/utils/loss.py index 2c55b26f3..55121a678 100644 --- a/pyannote/audio/utils/loss.py +++ b/pyannote/audio/utils/loss.py @@ -23,11 +23,13 @@ """Frame-weighted versions of common loss functions""" +from typing import Optional + import torch import torch.nn.functional as F -def interpolate(target: torch.Tensor, weight: torch.Tensor = None): +def interpolate(target: torch.Tensor, weight: Optional[torch.Tensor] = None): """Interpolate weight to match target frame resolution Parameters @@ -55,7 +57,9 @@ def interpolate(target: torch.Tensor, weight: torch.Tensor = None): def binary_cross_entropy( - prediction: torch.Tensor, target: torch.Tensor, weight: torch.Tensor = None + prediction: torch.Tensor, + target: torch.Tensor, + weight: Optional[torch.Tensor] = None, ) -> torch.Tensor: """Frame-weighted binary cross entropy @@ -91,7 +95,9 @@ def binary_cross_entropy( def mse_loss( - prediction: torch.Tensor, target: torch.Tensor, weight: torch.Tensor = None + prediction: torch.Tensor, + target: torch.Tensor, + weight: Optional[torch.Tensor] = None, ) -> torch.Tensor: """Frame-weighted mean-squared error loss @@ -131,8 +137,8 @@ def mse_loss( def nll_loss( prediction: torch.Tensor, target: torch.Tensor, - class_weight: torch.Tensor = None, - weight: torch.Tensor = None, + class_weight: Optional[torch.Tensor] = None, + weight: Optional[torch.Tensor] = None, ) -> torch.Tensor: """Frame-weighted negative log-likelihood loss diff --git a/pyannote/audio/utils/params.py b/pyannote/audio/utils/params.py index 685e01653..f4ed42bcc 100644 --- a/pyannote/audio/utils/params.py +++ b/pyannote/audio/utils/params.py @@ -1,8 +1,10 @@ # TODO - make it depth-recursive # TODO - switch to Omegaconf maybe? +from typing import Optional -def merge_dict(defaults: dict, custom: dict = None): + +def merge_dict(defaults: dict, custom: Optional[dict] = None): params = dict(defaults) if custom is not None: params.update(custom) diff --git a/pyannote/audio/utils/preview.py b/pyannote/audio/utils/preview.py index fcdf4d124..1a5ace08c 100644 --- a/pyannote/audio/utils/preview.py +++ b/pyannote/audio/utils/preview.py @@ -47,7 +47,7 @@ MOVIEPY_INSTALLED = False -from typing import Mapping +from typing import Mapping, Optional import torch from pyannote.core import ( @@ -64,7 +64,7 @@ from pyannote.audio.utils.signal import Binarize -def listen(audio_file: AudioFile, segment: Segment = None) -> None: +def listen(audio_file: AudioFile, segment: Optional[Segment] = None) -> None: """listen to audio Allows playing of audio files. It will play the whole thing unless @@ -91,7 +91,7 @@ def listen(audio_file: AudioFile, segment: Segment = None) -> None: def preview( audio_file: AudioFile, - segment: Segment = None, + segment: Optional[Segment] = None, zoom: float = 10.0, video_fps: int = 5, video_ext: str = "webm", diff --git a/tutorials/add_your_own_task.ipynb b/tutorials/add_your_own_task.ipynb index 38daa73fb..7fe7858cb 100644 --- a/tutorials/add_your_own_task.ipynb +++ b/tutorials/add_your_own_task.ipynb @@ -148,7 +148,7 @@ "outputs": [], "source": [ "from math import ceil\n", - "from typing import Dict, Optional,Tuple, Union\n", + "from typing import Dict, Optional, Tuple, Union\n", "import numpy as np\n", "from pyannote.core import Segment, SlidingWindow\n", "from pyannote.audio.utils.random import create_rng_for_worker\n", @@ -167,7 +167,7 @@ " min_duration: float = 5.0,\n", " warm_up: Union[float, Tuple[float, float]] = 0.0,\n", " batch_size: int = 32,\n", - " num_workers: int = None,\n", + " num_workers: Optional[int] = None,\n", " pin_memory: bool = False,\n", " augmentation = None,\n", " cache: Optional[Union[str, None]] = None,\n", From c0b9e79aa8063c7ddc78e7213799d0aeae9d3d10 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 24 Jan 2024 21:47:01 +0100 Subject: [PATCH 17/45] BREAKING(model): get rid of `Model.example_output` in favor of `num_frames`, `receptive_field`, and `dimension` properties (#1617) --- CHANGELOG.md | 3 +- pyannote/audio/core/inference.py | 169 ++---------------- pyannote/audio/core/model.py | 39 ---- pyannote/audio/models/blocks/sincnet.py | 4 + pyannote/audio/models/embedding/debug.py | 6 +- .../models/embedding/wespeaker/__init__.py | 5 + pyannote/audio/models/embedding/xvector.py | 12 +- pyannote/audio/models/segmentation/PyanNet.py | 27 +-- .../audio/models/segmentation/SSeRiouSS.py | 25 +-- pyannote/audio/models/segmentation/debug.py | 20 ++- .../pipelines/overlapped_speech_detection.py | 2 +- pyannote/audio/pipelines/resegmentation.py | 5 +- .../audio/pipelines/speaker_diarization.py | 7 +- .../audio/pipelines/speaker_verification.py | 2 +- pyannote/audio/pipelines/utils/diarization.py | 8 +- pyannote/audio/pipelines/utils/oracle.py | 2 +- .../audio/tasks/segmentation/multilabel.py | 21 ++- .../overlapped_speech_detection.py | 21 ++- .../tasks/segmentation/speaker_diarization.py | 23 ++- .../segmentation/voice_activity_detection.py | 21 ++- pyannote/audio/utils/frame.py | 4 +- 21 files changed, 156 insertions(+), 270 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 1cff92eb4..29e5dc311 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -6,7 +6,7 @@ - feat(task): add option to cache task training metadata to speed up training - feat(pipeline): add `Waveform` and `SampleRate` preprocessors -- feat(model): add `num_frames` and `receptive_field` to segmentation models +- feat(model): add `num_frames`, `receptive_field`, and `dimension` properties to segmentation models ### Fixes @@ -14,6 +14,7 @@ ## Breaking changes +- BREAKING(model): get rid of `Model.example_output` in favor of `num_frames`, `receptive_field`, and `dimension` properties - BREAKING(task): custom tasks need to be updated (see "Add your own task" tutorial) ## Version 3.1.1 (2023-12-01) diff --git a/pyannote/audio/core/inference.py b/pyannote/audio/core/inference.py index 2d6976f32..0c3e9b212 100644 --- a/pyannote/audio/core/inference.py +++ b/pyannote/audio/core/inference.py @@ -20,7 +20,6 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. -import math import warnings from pathlib import Path from typing import Callable, List, Optional, Text, Tuple, Union @@ -37,7 +36,6 @@ from pyannote.audio.core.model import Model, Specifications from pyannote.audio.core.task import Resolution from pyannote.audio.utils.multi_task import map_with_specifications -from pyannote.audio.utils.permutation import mae_cost_func, permutate from pyannote.audio.utils.powerset import Powerset from pyannote.audio.utils.reproducibility import fix_reproducibility @@ -263,16 +261,14 @@ def slide( _, num_samples = waveform.shape def __frames( - example_output, specifications: Optional[Specifications] = None + receptive_field, specifications: Optional[Specifications] = None ) -> SlidingWindow: if specifications.resolution == Resolution.CHUNK: return SlidingWindow(start=0.0, duration=self.duration, step=self.step) - return example_output.frames + return receptive_field frames: Union[SlidingWindow, Tuple[SlidingWindow]] = map_with_specifications( - self.model.specifications, - __frames, - self.model.example_output, + self.model.specifications, __frames, self.model.receptive_field ) # prepare complete chunks @@ -373,7 +369,7 @@ def __aggregate( outputs, SlidingWindow(start=0.0, duration=self.duration, step=self.step), ), - frames=frames, + frames, warm_up=self.warm_up, hamming=True, missing=0.0, @@ -526,7 +522,7 @@ def __first_sample(outputs: np.ndarray, **kwargs) -> np.ndarray: @staticmethod def aggregate( scores: SlidingWindowFeature, - frames: Optional[SlidingWindow] = None, + frames: SlidingWindow, warm_up: Tuple[float, float] = (0.0, 0.0), epsilon: float = 1e-12, hamming: bool = False, @@ -539,10 +535,8 @@ def aggregate( ---------- scores : SlidingWindowFeature Raw (unaggregated) scores. Shape is (num_chunks, num_frames_per_chunk, num_classes). - frames : SlidingWindow, optional - Frames resolution. Defaults to estimate it automatically based on `scores` shape - and chunk size. Providing the exact frame resolution (when known) leads to better - temporal precision. + frames : SlidingWindow + Frames resolution. warm_up : (float, float) tuple, optional Left/right warm up duration (in seconds). missing : float, optional @@ -559,15 +553,11 @@ def aggregate( num_chunks, num_frames_per_chunk, num_classes = scores.data.shape chunks = scores.sliding_window - if frames is None: - duration = step = chunks.duration / num_frames_per_chunk - frames = SlidingWindow(start=chunks.start, duration=duration, step=step) - else: - frames = SlidingWindow( - start=chunks.start, - duration=frames.duration, - step=frames.step, - ) + frames = SlidingWindow( + start=chunks.start, + duration=frames.duration, + step=frames.step, + ) masks = 1 - np.isnan(scores) scores.data = np.nan_to_num(scores.data, copy=True, nan=0.0) @@ -602,6 +592,7 @@ def aggregate( scores.sliding_window.start + scores.sliding_window.duration + (num_chunks - 1) * scores.sliding_window.step + + 0.5 * frames.duration ) + 1 ) @@ -627,7 +618,8 @@ def aggregate( # score ~ (num_frames_per_chunk, num_classes)-shaped np.ndarray # mask ~ (num_frames_per_chunk, num_classes)-shaped np.ndarray - start_frame = frames.closest_frame(chunk.start) + start_frame = frames.closest_frame(chunk.start + 0.5 * frames.duration) + aggregated_output[start_frame : start_frame + num_frames_per_chunk] += ( score * mask * hamming_window * warm_up_window ) @@ -698,134 +690,3 @@ def trim( ) return SlidingWindowFeature(new_data, new_chunks) - - @staticmethod - def stitch( - activations: SlidingWindowFeature, - frames: Optional[SlidingWindow] = None, - lookahead: Optional[Tuple[int, int]] = None, - cost_func: Callable[[torch.Tensor, torch.Tensor], torch.Tensor] = None, - match_func: Callable[[np.ndarray, np.ndarray, float], bool] = None, - ) -> SlidingWindowFeature: - """ - - Parameters - ---------- - activations : SlidingWindowFeature - (num_chunks, num_frames, num_classes)-shaped scores. - frames : SlidingWindow, optional - Frames resolution. Defaults to estimate it automatically based on `activations` - shape and chunk size. Providing the exact frame resolution (when known) leads to better - temporal precision. - lookahead : (int, int) tuple - Number of past and future adjacent chunks to use for stitching. - Defaults to (k, k) with k = chunk_duration / chunk_step - 1 - cost_func : callable - Cost function used to find the optimal mapping between two chunks. - Expects two (num_frames, num_classes) torch.tensor as input - and returns cost as a (num_classes, ) torch.tensor - Defaults to mean absolute error (utils.permutations.mae_cost_func) - match_func : callable - Function used to decide whether two speakers mapped by the optimal - mapping actually are a match. - Expects two (num_frames, ) np.ndarray and the cost (from cost_func) - and returns a boolean. Defaults to always returning True. - """ - - num_chunks, num_frames, num_classes = activations.data.shape - - chunks: SlidingWindow = activations.sliding_window - - if frames is None: - duration = step = chunks.duration / num_frames - frames = SlidingWindow(start=chunks.start, duration=duration, step=step) - else: - frames = SlidingWindow( - start=chunks.start, - duration=frames.duration, - step=frames.step, - ) - - max_lookahead = math.floor(chunks.duration / chunks.step - 1) - if lookahead is None: - lookahead = 2 * (max_lookahead,) - - assert all(L <= max_lookahead for L in lookahead) - - if cost_func is None: - cost_func = mae_cost_func - - if match_func is None: - - def always_match(this: np.ndarray, that: np.ndarray, cost: float): - return True - - match_func = always_match - - stitches = [] - for C, (chunk, activation) in enumerate(activations): - local_stitch = np.NAN * np.zeros( - (sum(lookahead) + 1, num_frames, num_classes) - ) - - for c in range( - max(0, C - lookahead[0]), min(num_chunks, C + lookahead[1] + 1) - ): - # extract common temporal support - shift = round((C - c) * num_frames * chunks.step / chunks.duration) - - if shift < 0: - shift = -shift - this_activations = activation[shift:] - that_activations = activations[c, : num_frames - shift] - else: - this_activations = activation[: num_frames - shift] - that_activations = activations[c, shift:] - - # find the optimal one-to-one mapping - _, (permutation,), (cost,) = permutate( - this_activations[np.newaxis], - that_activations, - cost_func=cost_func, - return_cost=True, - ) - - for this, that in enumerate(permutation): - # only stitch under certain condiditions - matching = (c == C) or ( - match_func( - this_activations[:, this], - that_activations[:, that], - cost[this, that], - ) - ) - - if matching: - local_stitch[c - C + lookahead[0], :, this] = activations[ - c, :, that - ] - - # TODO: do not lookahead further once a mismatch is found - - stitched_chunks = SlidingWindow( - start=chunk.start - lookahead[0] * chunks.step, - duration=chunks.duration, - step=chunks.step, - ) - - local_stitch = Inference.aggregate( - SlidingWindowFeature(local_stitch, stitched_chunks), - frames=frames, - hamming=True, - ) - - stitches.append(local_stitch.data) - - stitches = np.stack(stitches) - stitched_chunks = SlidingWindow( - start=chunks.start - lookahead[0] * chunks.step, - duration=chunks.duration + sum(lookahead) * chunks.step, - step=chunks.step, - ) - - return SlidingWindowFeature(stitches, stitched_chunks) diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index 2acc1248b..27f34e7f8 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -25,7 +25,6 @@ import os import warnings from dataclasses import dataclass -from functools import cached_property from importlib import import_module from pathlib import Path from typing import Any, Dict, List, Optional, Text, Tuple, Union @@ -46,7 +45,6 @@ from pyannote.audio.core.io import Audio from pyannote.audio.core.task import ( Problem, - Resolution, Specifications, Task, UnknownSpecificationsError, @@ -112,10 +110,6 @@ def task(self) -> Task: def task(self, task: Task): # reset (cached) properties when task changes del self.specifications - try: - del self.example_output - except AttributeError: - pass self._task = task def build(self): @@ -187,36 +181,6 @@ def __example_input_array(self, duration: Optional[float] = None) -> torch.Tenso def example_input_array(self) -> torch.Tensor: return self.__example_input_array() - @cached_property - def example_output(self) -> Union[Output, Tuple[Output]]: - """Example output""" - example_input_array = self.__example_input_array() - with torch.inference_mode(): - example_output = self(example_input_array) - - def __example_output( - example_output: torch.Tensor, - specifications: Optional[Specifications] = None, - ) -> Output: - if specifications.resolution == Resolution.FRAME: - _, num_frames, dimension = example_output.shape - frame_duration = specifications.duration / num_frames - frames = SlidingWindow(step=frame_duration, duration=frame_duration) - else: - _, dimension = example_output.shape - num_frames = None - frames = None - - return Output( - num_frames=num_frames, - dimension=dimension, - frames=frames, - ) - - return map_with_specifications( - self.specifications, __example_output, example_output - ) - def prepare_data(self): self.task.prepare_data() @@ -270,9 +234,6 @@ def setup(self, stage=None): # setup custom validation metrics self.task.setup_validation_metric() - # cache for later (and to avoid later CUDA error with multiprocessing) - _ = self.example_output - # list of layers after adding task-dependent layers after = set((name, id(module)) for name, module in self.named_modules()) diff --git a/pyannote/audio/models/blocks/sincnet.py b/pyannote/audio/models/blocks/sincnet.py index 33e312ba5..a7657c2e9 100644 --- a/pyannote/audio/models/blocks/sincnet.py +++ b/pyannote/audio/models/blocks/sincnet.py @@ -24,6 +24,8 @@ # Hervé Bredin - http://herve.niderb.fr +from functools import cached_property, lru_cache + import torch import torch.nn as nn import torch.nn.functional as F @@ -74,6 +76,7 @@ def __init__(self, sample_rate: int = 16000, stride: int = 1): self.pool1d.append(nn.MaxPool1d(3, stride=3, padding=0, dilation=1)) self.norm1d.append(nn.InstanceNorm1d(60, affine=True)) + @lru_cache def num_frames(self, num_samples: int) -> int: """Compute number of output frames for a given number of input samples @@ -132,6 +135,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: return receptive_field_size + @cached_property def receptive_field(self) -> SlidingWindow: """Compute receptive field diff --git a/pyannote/audio/models/embedding/debug.py b/pyannote/audio/models/embedding/debug.py index 11b3def30..775b6550f 100644 --- a/pyannote/audio/models/embedding/debug.py +++ b/pyannote/audio/models/embedding/debug.py @@ -39,7 +39,6 @@ def __init__( num_channels: int = 1, task: Optional[Task] = None, ): - super().__init__(sample_rate=sample_rate, num_channels=num_channels, task=task) self.mfcc = MFCC( @@ -58,6 +57,11 @@ def __init__( bidirectional=True, ) + @property + def dimension(self) -> int: + """Dimension of output""" + return 64 + def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """ diff --git a/pyannote/audio/models/embedding/wespeaker/__init__.py b/pyannote/audio/models/embedding/wespeaker/__init__.py index c504435c3..8f1e62105 100644 --- a/pyannote/audio/models/embedding/wespeaker/__init__.py +++ b/pyannote/audio/models/embedding/wespeaker/__init__.py @@ -95,6 +95,11 @@ def compute_fbank(self, waveforms: torch.Tensor) -> torch.Tensor: return features - torch.mean(features, dim=1, keepdim=True) + @property + def dimension(self) -> int: + """Dimension of output""" + return self.resnet.embed_dim + def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: diff --git a/pyannote/audio/models/embedding/xvector.py b/pyannote/audio/models/embedding/xvector.py index b5a5463ce..85610509d 100644 --- a/pyannote/audio/models/embedding/xvector.py +++ b/pyannote/audio/models/embedding/xvector.py @@ -34,7 +34,6 @@ class XVectorMFCC(Model): - MFCC_DEFAULTS = {"n_mfcc": 40, "dct_type": 2, "norm": "ortho", "log_mels": False} def __init__( @@ -81,6 +80,11 @@ def __init__( self.embedding = nn.Linear(in_channel * 2, self.hparams.dimension) + @property + def dimension(self) -> int: + """Dimension of output""" + return self.hparams.dimension + def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: @@ -102,7 +106,6 @@ def forward( class XVectorSincNet(Model): - SINCNET_DEFAULTS = {"stride": 10} def __init__( @@ -149,6 +152,11 @@ def __init__( self.embedding = nn.Linear(in_channel * 2, self.hparams.dimension) + @property + def dimension(self) -> int: + """Dimension of output""" + return self.hparams.dimension + def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: diff --git a/pyannote/audio/models/segmentation/PyanNet.py b/pyannote/audio/models/segmentation/PyanNet.py index b6cdc604b..9d397abcb 100644 --- a/pyannote/audio/models/segmentation/PyanNet.py +++ b/pyannote/audio/models/segmentation/PyanNet.py @@ -20,7 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. - +from functools import cached_property, lru_cache from typing import Optional import torch @@ -139,6 +139,17 @@ def __init__( ] ) + @property + def dimension(self) -> int: + """Dimension of output""" + if isinstance(self.specifications, tuple): + raise ValueError("PyanNet does not support multi-tasking.") + + if self.specifications.powerset: + return self.specifications.num_powerset_classes + else: + return len(self.specifications.classes) + def build(self): if self.hparams.linear["num_layers"] > 0: in_features = self.hparams.linear["hidden_size"] @@ -147,17 +158,10 @@ def build(self): 2 if self.hparams.lstm["bidirectional"] else 1 ) - if isinstance(self.specifications, tuple): - raise ValueError("PyanNet does not support multi-tasking.") - - if self.specifications.powerset: - out_features = self.specifications.num_powerset_classes - else: - out_features = len(self.specifications.classes) - - self.classifier = nn.Linear(in_features, out_features) + self.classifier = nn.Linear(in_features, self.dimension) self.activation = self.default_activation() + @lru_cache def num_frames(self, num_samples: int) -> int: """Compute number of output frames for a given number of input samples @@ -174,6 +178,7 @@ def num_frames(self, num_samples: int) -> int: return self.sincnet.num_frames(num_samples) + @cached_property def receptive_field(self) -> SlidingWindow: """Compute receptive field @@ -186,7 +191,7 @@ def receptive_field(self) -> SlidingWindow: https://distill.pub/2019/computing-receptive-fields/ """ - return self.sincnet.receptive_field() + return self.sincnet.receptive_field def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """Pass forward diff --git a/pyannote/audio/models/segmentation/SSeRiouSS.py b/pyannote/audio/models/segmentation/SSeRiouSS.py index 45e9ddb7d..514ad00de 100644 --- a/pyannote/audio/models/segmentation/SSeRiouSS.py +++ b/pyannote/audio/models/segmentation/SSeRiouSS.py @@ -20,7 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. - +from functools import cached_property, lru_cache from typing import Optional, Union import torch @@ -174,6 +174,17 @@ def __init__( ] ) + @property + def dimension(self) -> int: + """Dimension of output""" + if isinstance(self.specifications, tuple): + raise ValueError("SSeRiouSS does not support multi-tasking.") + + if self.specifications.powerset: + return self.specifications.num_powerset_classes + else: + return len(self.specifications.classes) + def build(self): if self.hparams.linear["num_layers"] > 0: in_features = self.hparams.linear["hidden_size"] @@ -182,17 +193,10 @@ def build(self): 2 if self.hparams.lstm["bidirectional"] else 1 ) - if isinstance(self.specifications, tuple): - raise ValueError("SSeRiouSS model does not support multi-tasking.") - - if self.specifications.powerset: - out_features = self.specifications.num_powerset_classes - else: - out_features = len(self.specifications.classes) - - self.classifier = nn.Linear(in_features, out_features) + self.classifier = nn.Linear(in_features, self.dimension) self.activation = self.default_activation() + @lru_cache def num_frames(self, num_samples: int) -> int: """Compute number of output frames for a given number of input samples @@ -245,6 +249,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: return receptive_field_size + @cached_property def receptive_field(self) -> SlidingWindow: """Compute receptive field diff --git a/pyannote/audio/models/segmentation/debug.py b/pyannote/audio/models/segmentation/debug.py index a230bf768..d41dba51a 100644 --- a/pyannote/audio/models/segmentation/debug.py +++ b/pyannote/audio/models/segmentation/debug.py @@ -21,6 +21,7 @@ # SOFTWARE. +from functools import cached_property, lru_cache from typing import Optional import torch @@ -58,6 +59,7 @@ def __init__( bidirectional=True, ) + @lru_cache def num_frames(self, num_samples: int) -> int: """Compute number of output frames for a given number of input samples @@ -80,7 +82,7 @@ def num_frames(self, num_samples: int) -> int: hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - return ( + return int( 1 + num_samples // hop_length if center else 1 + (num_samples - n_fft) // hop_length @@ -109,6 +111,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: else: return (num_frames - 1) * hop_length + n_fft + @cached_property def receptive_field(self) -> SlidingWindow: """Compute receptive field @@ -134,18 +137,21 @@ def receptive_field(self) -> SlidingWindow: return SlidingWindow(start=0.0, duration=duration, step=step) - def build(self): - # define task-dependent layers - + @property + def dimension(self) -> int: + """Dimension of output""" if isinstance(self.specifications, tuple): raise ValueError("SimpleSegmentationModel does not support multi-tasking.") if self.specifications.powerset: - out_features = self.specifications.num_powerset_classes + return self.specifications.num_powerset_classes else: - out_features = len(self.specifications.classes) + return len(self.specifications.classes) + + def build(self): + # define task-dependent layers - self.classifier = nn.Linear(32 * 2, out_features) + self.classifier = nn.Linear(32 * 2, self.dimension) self.activation = self.default_activation() def forward(self, waveforms: torch.Tensor) -> torch.Tensor: diff --git a/pyannote/audio/pipelines/overlapped_speech_detection.py b/pyannote/audio/pipelines/overlapped_speech_detection.py index 66e61c949..1429e4299 100644 --- a/pyannote/audio/pipelines/overlapped_speech_detection.py +++ b/pyannote/audio/pipelines/overlapped_speech_detection.py @@ -128,7 +128,7 @@ def __init__( # load model model = get_model(segmentation, use_auth_token=use_auth_token) - if model.example_output.dimension > 1: + if model.dimension > 1: inference_kwargs["pre_aggregation_hook"] = lambda scores: np.partition( scores, -2, axis=-1 )[:, :, -2, np.newaxis] diff --git a/pyannote/audio/pipelines/resegmentation.py b/pyannote/audio/pipelines/resegmentation.py index 1eeade4b1..85492f774 100644 --- a/pyannote/audio/pipelines/resegmentation.py +++ b/pyannote/audio/pipelines/resegmentation.py @@ -96,7 +96,6 @@ def __init__( model: Model = get_model(segmentation, use_auth_token=use_auth_token) self._segmentation = Inference(model) - self._frames = self._segmentation.model.example_output.frames self._audio = model.audio @@ -193,8 +192,8 @@ def apply( # estimate frame-level number of instantaneous speakers count = self.speaker_count( binarized_segmentations, + self._segmentation.model.receptive_field, warm_up=(self.warm_up, self.warm_up), - frames=self._frames, ) hook("speaker_counting", count) @@ -205,7 +204,7 @@ def apply( support=Segment( 0.0, self._audio.get_duration(file) + self._segmentation.step ), - resolution=self._frames, + resolution=self._segmentation.model.receptive_field, ) hook("@resegmentation/original", diarization) diff --git a/pyannote/audio/pipelines/speaker_diarization.py b/pyannote/audio/pipelines/speaker_diarization.py index 46a7188d1..737cd1cb2 100644 --- a/pyannote/audio/pipelines/speaker_diarization.py +++ b/pyannote/audio/pipelines/speaker_diarization.py @@ -32,7 +32,7 @@ import numpy as np import torch from einops import rearrange -from pyannote.core import Annotation, SlidingWindow, SlidingWindowFeature +from pyannote.core import Annotation, SlidingWindowFeature from pyannote.metrics.diarization import GreedyDiarizationErrorRate from pyannote.pipeline.parameter import ParamDict, Uniform @@ -147,7 +147,6 @@ def __init__( skip_aggregation=True, batch_size=segmentation_batch_size, ) - self._frames: SlidingWindow = self._segmentation.model.example_output.frames if self._segmentation.model.specifications.powerset: self.segmentation = ParamDict( @@ -493,7 +492,7 @@ def apply( # estimate frame-level number of instantaneous speakers count = self.speaker_count( binarized_segmentations, - frames=self._frames, + self._segmentation.model.receptive_field, warm_up=(0.0, 0.0), ) hook("speaker_counting", count) @@ -527,7 +526,7 @@ def apply( min_clusters=min_speakers, max_clusters=max_speakers, file=file, # <== for oracle clustering - frames=self._frames, # <== for oracle clustering + frames=self._segmentation.model.receptive_field, # <== for oracle clustering ) # hard_clusters: (num_chunks, num_speakers) # centroids: (num_speakers, dimension) diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py index fe762bd65..c49468a79 100644 --- a/pyannote/audio/pipelines/speaker_verification.py +++ b/pyannote/audio/pipelines/speaker_verification.py @@ -672,7 +672,7 @@ def sample_rate(self) -> int: @cached_property def dimension(self) -> int: - return self.model_.example_output.dimension + return self.model_.dimension @cached_property def metric(self) -> str: diff --git a/pyannote/audio/pipelines/utils/diarization.py b/pyannote/audio/pipelines/utils/diarization.py index f6797194c..5a0f8f675 100644 --- a/pyannote/audio/pipelines/utils/diarization.py +++ b/pyannote/audio/pipelines/utils/diarization.py @@ -121,8 +121,8 @@ def optimal_mapping( @staticmethod def speaker_count( binarized_segmentations: SlidingWindowFeature, + frames: SlidingWindow, warm_up: Tuple[float, float] = (0.1, 0.1), - frames: Optional[SlidingWindow] = None, ) -> SlidingWindowFeature: """Estimate frame-level number of instantaneous speakers @@ -133,7 +133,7 @@ def speaker_count( warm_up : (float, float) tuple, optional Left/right warm up ratio of chunk duration. Defaults to (0.1, 0.1), i.e. 10% on both sides. - frames : SlidingWindow, optional + frames : SlidingWindow Frames resolution. Defaults to estimate it automatically based on `segmentations` shape and chunk size. Providing the exact frame resolution (when known) leads to better temporal precision. @@ -147,7 +147,7 @@ def speaker_count( trimmed = Inference.trim(binarized_segmentations, warm_up=warm_up) count = Inference.aggregate( np.sum(trimmed, axis=-1, keepdims=True), - frames=frames, + frames, hamming=False, missing=0.0, skip_average=False, @@ -212,7 +212,7 @@ def to_diarization( # TODO: investigate alternative aggregation activations = Inference.aggregate( segmentations, - frames=count.sliding_window, + count.sliding_window, hamming=False, missing=0.0, skip_average=True, diff --git a/pyannote/audio/pipelines/utils/oracle.py b/pyannote/audio/pipelines/utils/oracle.py index 3bf9ebc9f..24401f752 100644 --- a/pyannote/audio/pipelines/utils/oracle.py +++ b/pyannote/audio/pipelines/utils/oracle.py @@ -39,7 +39,7 @@ def oracle_segmentation( Simulates inference based on an (imaginary) oracle segmentation model: >>> oracle = Model.from_pretrained("oracle") - >>> assert frames == oracle.example_output.frames + >>> assert frames == oracle.receptive_field >>> inference = Inference(oracle, duration=window.duration, step=window.step, skip_aggregation=True) >>> oracle_segmentation = inference(file) diff --git a/pyannote/audio/tasks/segmentation/multilabel.py b/pyannote/audio/tasks/segmentation/multilabel.py index 0e4a4aadc..9184121c4 100644 --- a/pyannote/audio/tasks/segmentation/multilabel.py +++ b/pyannote/audio/tasks/segmentation/multilabel.py @@ -292,15 +292,22 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): ] # discretize chunk annotations at model output resolution - start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - start_idx = np.floor(start / self.model.example_output.frames.step).astype(int) - end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int) + step = self.model.receptive_field.step + half = 0.5 * self.model.receptive_field.duration + + start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - half + start_idx = np.maximum(0, np.round(start / step)).astype(int) + + end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - half + end_idx = np.round(end / step).astype(int) # frame-level targets (-1 for un-annotated classes) + num_frames = self.model.num_frames( + round(duration * self.model.hparams.sample_rate) + ) y = -np.ones( ( - self.model.example_output.num_frames, + num_frames, len(self.prepared_data["classes-list"]), ), dtype=np.int8, @@ -309,10 +316,10 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): for start, end, label in zip( start_idx, end_idx, chunk_annotations["global_label_idx"] ): - y[start:end, label] = 1 + y[start : end + 1, label] = 1 sample["y"] = SlidingWindowFeature( - y, self.model.example_output.frames, labels=self.classes + y, self.model.receptive_field, labels=self.classes ) metadata = self.prepared_data["audio-metadata"][file_id] diff --git a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py index 97db20032..89d299a8d 100644 --- a/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py +++ b/pyannote/audio/tasks/segmentation/overlapped_speech_detection.py @@ -183,19 +183,26 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): ] # discretize chunk annotations at model output resolution - start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - start_idx = np.floor(start / self.model.example_output.frames.step).astype(int) - end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int) + step = self.model.receptive_field.step + half = 0.5 * self.model.receptive_field.duration + + start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - half + start_idx = np.maximum(0, np.round(start / step)).astype(int) + + end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - half + end_idx = np.round(end / step).astype(int) # frame-level targets - y = np.zeros((self.model.example_output.num_frames, 1), dtype=np.uint8) + num_frames = self.model.num_frames( + round(duration * self.model.hparams.sample_rate) + ) + y = np.zeros((num_frames, 1), dtype=np.uint8) for start, end in zip(start_idx, end_idx): - y[start:end, 0] += 1 + y[start : end + 1, 0] += 1 y = 1 * (y > 1) sample["y"] = SlidingWindowFeature( - y, self.model.example_output.frames, labels=["speech"] + y, self.model.receptive_field, labels=["speech"] ) metadata = self.prepared_data["audio-metadata"][file_id] diff --git a/pyannote/audio/tasks/segmentation/speaker_diarization.py b/pyannote/audio/tasks/segmentation/speaker_diarization.py index fb635dc9c..8a091b1f7 100644 --- a/pyannote/audio/tasks/segmentation/speaker_diarization.py +++ b/pyannote/audio/tasks/segmentation/speaker_diarization.py @@ -355,10 +355,14 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): ] # discretize chunk annotations at model output resolution - start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - start_idx = np.floor(start / self.model.example_output.frames.step).astype(int) - end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int) + step = self.model.receptive_field.step + half = 0.5 * self.model.receptive_field.duration + + start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - half + start_idx = np.maximum(0, np.round(start / step)).astype(int) + + end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - half + end_idx = np.round(end / step).astype(int) # get list and number of labels for current scope labels = list(np.unique(chunk_annotations[label_scope_key])) @@ -368,7 +372,10 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): pass # initial frame-level targets - y = np.zeros((self.model.example_output.num_frames, num_labels), dtype=np.uint8) + num_frames = self.model.num_frames( + round(duration * self.model.hparams.sample_rate) + ) + y = np.zeros((num_frames, num_labels), dtype=np.uint8) # map labels to indices mapping = {label: idx for idx, label in enumerate(labels)} @@ -377,11 +384,9 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): start_idx, end_idx, chunk_annotations[label_scope_key] ): mapped_label = mapping[label] - y[start:end, mapped_label] = 1 + y[start : end + 1, mapped_label] = 1 - sample["y"] = SlidingWindowFeature( - y, self.model.example_output.frames, labels=labels - ) + sample["y"] = SlidingWindowFeature(y, self.model.receptive_field, labels=labels) metadata = self.prepared_data["audio-metadata"][file_id] sample["meta"] = {key: metadata[key] for key in metadata.dtype.names} diff --git a/pyannote/audio/tasks/segmentation/voice_activity_detection.py b/pyannote/audio/tasks/segmentation/voice_activity_detection.py index 6d0bdb98d..e52613aeb 100644 --- a/pyannote/audio/tasks/segmentation/voice_activity_detection.py +++ b/pyannote/audio/tasks/segmentation/voice_activity_detection.py @@ -164,18 +164,25 @@ def prepare_chunk(self, file_id: int, start_time: float, duration: float): ] # discretize chunk annotations at model output resolution - start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - start_idx = np.floor(start / self.model.example_output.frames.step).astype(int) - end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - end_idx = np.ceil(end / self.model.example_output.frames.step).astype(int) + step = self.model.receptive_field.step + half = 0.5 * self.model.receptive_field.duration + + start = np.maximum(chunk_annotations["start"], chunk.start) - chunk.start - half + start_idx = np.maximum(0, np.round(start / step)).astype(int) + + end = np.minimum(chunk_annotations["end"], chunk.end) - chunk.start - half + end_idx = np.round(end / step).astype(int) # frame-level targets - y = np.zeros((self.model.example_output.num_frames, 1), dtype=np.uint8) + num_frames = self.model.num_frames( + round(duration * self.model.hparams.sample_rate) + ) + y = np.zeros((num_frames, 1), dtype=np.uint8) for start, end in zip(start_idx, end_idx): - y[start:end, 0] = 1 + y[start : end + 1, 0] = 1 sample["y"] = SlidingWindowFeature( - y, self.model.example_output.frames, labels=["speech"] + y, self.model.receptive_field, labels=["speech"] ) metadata = self.prepared_data["audio-metadata"][file_id] diff --git a/pyannote/audio/utils/frame.py b/pyannote/audio/utils/frame.py index e3987873d..5ff0189be 100644 --- a/pyannote/audio/utils/frame.py +++ b/pyannote/audio/utils/frame.py @@ -24,7 +24,9 @@ import math -def conv1d_num_frames(num_samples, kernel_size=5, stride=1, padding=0, dilation=1): +def conv1d_num_frames( + num_samples, kernel_size=5, stride=1, padding=0, dilation=1 +) -> int: """Compute expected number of frames after 1D convolution Parameters From e43138278a6990bd8ccc673d8a4dcd5824849d7f Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 25 Jan 2024 10:42:32 +0100 Subject: [PATCH 18/45] feat: add pyannote.audio.sample.SAMPLE_FILE (#1629) --- CHANGELOG.md | 1 + MANIFEST.in | 2 ++ pyannote/audio/sample/__init__.py | 56 ++++++++++++++++++++++++++++++ pyannote/audio/sample/sample.rttm | 10 ++++++ pyannote/audio/sample/sample.wav | Bin 0 -> 960104 bytes tests/test_sample.py | 28 +++++++++++++++ 6 files changed, 97 insertions(+) create mode 100644 pyannote/audio/sample/__init__.py create mode 100644 pyannote/audio/sample/sample.rttm create mode 100644 pyannote/audio/sample/sample.wav create mode 100644 tests/test_sample.py diff --git a/CHANGELOG.md b/CHANGELOG.md index 29e5dc311..15b5b6aee 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -7,6 +7,7 @@ - feat(task): add option to cache task training metadata to speed up training - feat(pipeline): add `Waveform` and `SampleRate` preprocessors - feat(model): add `num_frames`, `receptive_field`, and `dimension` properties to segmentation models +- feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` ### Fixes diff --git a/MANIFEST.in b/MANIFEST.in index 16909925f..45ad7d6af 100644 --- a/MANIFEST.in +++ b/MANIFEST.in @@ -1,4 +1,6 @@ recursive-include pyannote *.py recursive-include pyannote *.yaml +recursive-include pyannote *.wav +recursive-include pyannote *.rttm global-exclude *.pyc global-exclude __pycache__ diff --git a/pyannote/audio/sample/__init__.py b/pyannote/audio/sample/__init__.py new file mode 100644 index 000000000..85399af66 --- /dev/null +++ b/pyannote/audio/sample/__init__.py @@ -0,0 +1,56 @@ +# MIT License +# +# Copyright (c) 2024- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + + +from pathlib import Path + +from pyannote.core import Annotation, Segment, Timeline +from pyannote.database.util import load_rttm + +from pyannote.audio.core.io import Audio, AudioFile + + +def _sample() -> AudioFile: + sample_wav = Path(__file__).parent / "sample.wav" + uri = "sample" + + audio = Audio() + waveform, sample_rate = audio(sample_wav) + + sample_rttm = Path(__file__).parent / "sample.rttm" + + annotation: Annotation = load_rttm(sample_rttm)[uri] + duration = audio.get_duration(sample_wav) + + annotated: Timeline = Timeline([Segment(0.0, duration)], uri=uri) + + return { + "audio": sample_wav, + "uri": "sample", + "waveform": waveform, + "sample_rate": sample_rate, + "annotation": annotation, + "annotated": annotated, + } + + +SAMPLE_FILE = _sample() diff --git a/pyannote/audio/sample/sample.rttm b/pyannote/audio/sample/sample.rttm new file mode 100644 index 000000000..7c6b378fe --- /dev/null +++ b/pyannote/audio/sample/sample.rttm @@ -0,0 +1,10 @@ +SPEAKER sample 1 6.690 0.430 speaker90 +SPEAKER sample 1 7.550 0.800 speaker91 +SPEAKER sample 1 8.320 1.700 speaker90 +SPEAKER sample 1 9.920 1.110 speaker91 +SPEAKER sample 1 10.570 4.130 speaker90 +SPEAKER sample 1 14.490 3.430 speaker91 +SPEAKER sample 1 18.050 3.440 speaker90 +SPEAKER sample 1 18.150 0.440 speaker91 +SPEAKER sample 1 21.780 6.720 speaker91 +SPEAKER sample 1 27.850 2.150 speaker90 diff --git a/pyannote/audio/sample/sample.wav b/pyannote/audio/sample/sample.wav new file mode 100644 index 0000000000000000000000000000000000000000..150d49a69dc2da2310fbb526759ff26638595bdc GIT binary patch literal 960104 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19/45] ci: update ci model used for tests --- tests/inference_test.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/tests/inference_test.py b/tests/inference_test.py index bd5040394..da28b79d2 100644 --- a/tests/inference_test.py +++ b/tests/inference_test.py @@ -9,7 +9,7 @@ from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel from pyannote.audio.tasks import VoiceActivityDetection -HF_SAMPLE_MODEL_ID = "pyannote/TestModelForContinuousIntegration" +HF_SAMPLE_MODEL_ID = "pyannote/ci-segmentation" def test_hf_download_inference(): From d115e9ac94c2b05b419799765e8efd05468d4e95 Mon Sep 17 00:00:00 2001 From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com> Date: Tue, 30 Jan 2024 11:21:08 +0100 Subject: [PATCH 20/45] feat(powerset): add `Powerset.permutation_mapping` to help with permutation in powerset space MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Co-authored-by: Hervé BREDIN --- CHANGELOG.md | 1 + pyannote/audio/utils/powerset.py | 105 ++++++++++++++++++++++++++++--- tests/utils/test_powerset.py | 27 +++++++- 3 files changed, 123 insertions(+), 10 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 15b5b6aee..6ec76100e 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -8,6 +8,7 @@ - feat(pipeline): add `Waveform` and `SampleRate` preprocessors - feat(model): add `num_frames`, `receptive_field`, and `dimension` properties to segmentation models - feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` +- feat(powerset): add `Powerset.permutation_mapping` to help with permutation in powerset space ### Fixes diff --git a/pyannote/audio/utils/powerset.py b/pyannote/audio/utils/powerset.py index b75221e48..6a0716df9 100644 --- a/pyannote/audio/utils/powerset.py +++ b/pyannote/audio/utils/powerset.py @@ -25,7 +25,8 @@ # Alexis PLAQUET from functools import cached_property -from itertools import combinations +from itertools import combinations, permutations +from typing import Dict, Tuple import scipy.special import torch @@ -65,6 +66,27 @@ def num_powerset_classes(self) -> int: ) def build_mapping(self) -> torch.Tensor: + """Compute powerset to regular mapping + + Returns + ------- + mapping : (num_powerset_classes, num_classes) torch.Tensor + mapping[i, j] == 1 if jth regular class is a member of ith powerset class + mapping[i, j] == 0 otherwise + + Example + ------- + With num_classes == 3 and max_set_size == 2, returns + + [0, 0, 0] # none + [1, 0, 0] # class #1 + [0, 1, 0] # class #2 + [0, 0, 1] # class #3 + [1, 1, 0] # classes #1 and #2 + [1, 0, 1] # classes #1 and #3 + [0, 1, 1] # classes #2 and #3 + + """ mapping = torch.zeros(self.num_powerset_classes, self.num_classes) powerset_k = 0 for set_size in range(0, self.max_set_size + 1): @@ -76,13 +98,7 @@ def build_mapping(self) -> torch.Tensor: def build_cardinality(self) -> torch.Tensor: """Compute size of each powerset class""" - cardinality = torch.zeros(self.num_powerset_classes) - powerset_k = 0 - for set_size in range(0, self.max_set_size + 1): - for _ in combinations(range(self.num_classes), set_size): - cardinality[powerset_k] = set_size - powerset_k += 1 - return cardinality + return torch.sum(self.mapping, dim=1) def to_multilabel(self, powerset: torch.Tensor, soft: bool = False) -> torch.Tensor: """Convert predictions from powerset to multi-label @@ -138,3 +154,76 @@ def to_powerset(self, multilabel: torch.Tensor) -> torch.Tensor: torch.argmax(torch.matmul(multilabel, self.mapping.T), dim=-1), num_classes=self.num_powerset_classes, ) + + def _permutation_powerset( + self, multilabel_permutation: Tuple[int, ...] + ) -> Tuple[int, ...]: + """Helper function for `permutation_mapping` property + + Takes a (num_classes,)-shaped permutation in multilabel space and returns + the corresponding (num_powerset_classes,)-shaped permutation in powerset space. + This does not cache anything and only works on one single permutation at a time. + + Parameters + ---------- + multilabel_permutation : tuple of int + Permutation in multilabel space. + + Returns + ------- + powerset_permutation : tuple of int + Permutation in powerset space. + + Example + ------- + >>> powerset = Powerset(3, 2) + >>> powerset._permutation_powerset((1, 0, 2)) + # (0, 2, 1, 3, 4, 6, 5) + + """ + + permutated_mapping: torch.Tensor = self.mapping[:, multilabel_permutation] + + arange = torch.arange( + self.num_classes, device=self.mapping.device, dtype=torch.int + ) + powers_of_two = (2**arange).tile((self.num_powerset_classes, 1)) + + # compute the encoding of the powerset classes in this 2**N space, before and after + # permutation of the columns (mapping cols=labels, mapping rows=powerset classes) + before = torch.sum(self.mapping * powers_of_two, dim=-1) + after = torch.sum(permutated_mapping * powers_of_two, dim=-1) + + # find before-to-after permutation + powerset_permutation = (before[None] == after[:, None]).int().argmax(dim=0) + + # return as tuple of indices + return tuple(powerset_permutation.tolist()) + + @cached_property + def permutation_mapping(self) -> Dict[Tuple[int, ...], Tuple[int, ...]]: + """Mapping between multilabel and powerset permutations + + Example + ------- + With num_classes == 3 and max_set_size == 2, returns + + { + (0, 1, 2): (0, 1, 2, 3, 4, 5, 6), + (0, 2, 1): (0, 1, 3, 2, 5, 4, 6), + (1, 0, 2): (0, 2, 1, 3, 4, 6, 5), + (1, 2, 0): (0, 2, 3, 1, 6, 4, 5), + (2, 0, 1): (0, 3, 1, 2, 5, 6, 4), + (2, 1, 0): (0, 3, 2, 1, 6, 5, 4) + } + """ + permutation_mapping = {} + + for multilabel_permutation in permutations( + range(self.num_classes), self.num_classes + ): + permutation_mapping[ + tuple(multilabel_permutation) + ] = self._permutation_powerset(multilabel_permutation) + + return permutation_mapping diff --git a/tests/utils/test_powerset.py b/tests/utils/test_powerset.py index dd12eed41..e04480753 100644 --- a/tests/utils/test_powerset.py +++ b/tests/utils/test_powerset.py @@ -27,10 +27,8 @@ def test_roundtrip(): - for num_classes in range(2, 5): for max_set_size in range(1, num_classes + 1): - powerset = Powerset(num_classes, max_set_size) # simulate a sequence where each frame is assigned to a different powerset class @@ -51,3 +49,28 @@ def test_roundtrip(): reconstruction = powerset.to_powerset(batch_multilabel) assert torch.equal(batch_powerset, reconstruction) + + +def test_permutate_powerset(): + for num_classes in range(1, 6): + for max_set_size in range(1, num_classes + 1): + powerset = Powerset(num_classes, max_set_size) + + # create (num_powerset_class, num_powerset_class)-shaped tensor, where each frame is assigned to a different powerset class + # and convert it to its multi-label equivalent + t1 = torch.nn.functional.one_hot( + torch.arange(powerset.num_powerset_classes), + powerset.num_powerset_classes, + ) + t1_ml = powerset.to_multilabel(t1) + + # then permutate the powerset class in powerset space AND the multilabel equivalent in its native space + # and check it has the same result. + # perm = torch.randperm(num_classes) + perm = tuple(torch.randperm(num_classes).tolist()) + t1_ml_perm = t1_ml[:, perm] + perm_ps = powerset.permutation_mapping[perm] + t1_ps_perm = t1[..., perm_ps] + t1_ps_perm_ml = powerset.to_multilabel(t1_ps_perm) + + assert t1_ml_perm.equal(t1_ps_perm_ml) From fea5c2951e6070342d43a6f305f0f8d28c457328 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 31 Jan 2024 21:55:36 +0100 Subject: [PATCH 21/45] feat(metric): add `reduce` option to `diarization_error_rate` metric (#1635) --- CHANGELOG.md | 1 + .../audio/diarization_error_rate.py | 94 +++++++++--- tests/test_metrics.py | 142 ++++++++++++++++++ 3 files changed, 220 insertions(+), 17 deletions(-) create mode 100644 tests/test_metrics.py diff --git a/CHANGELOG.md b/CHANGELOG.md index 6ec76100e..4090c9c4d 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -9,6 +9,7 @@ - feat(model): add `num_frames`, `receptive_field`, and `dimension` properties to segmentation models - feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` - feat(powerset): add `Powerset.permutation_mapping` to help with permutation in powerset space +- feat(metric): add `reduce` option to `diarization_error_rate` metric ### Fixes diff --git a/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py b/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py index 9502a527e..1fef2cc36 100644 --- a/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py +++ b/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py @@ -33,6 +33,7 @@ def _der_update( preds: torch.Tensor, target: torch.Tensor, threshold: Union[torch.Tensor, float] = 0.5, + reduce: str = "batch", ) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor, torch.Tensor]: """Compute components of diarization error rate @@ -44,14 +45,22 @@ def _der_update( (batch_size, num_speakers, num_frames)-shaped (0 or 1) targets. threshold : float or torch.Tensor, optional Threshold(s) used to binarize predictions. Defaults to 0.5. + reduce : {'batch', 'chunk', 'frame'}, optional + Reduction method. Defaults to 'batch'. Returns ------- - false_alarm : (num_thresholds, )-shaped torch.Tensor - missed_detection : (num_thresholds, )-shaped torch.Tensor - speaker_confusion : (num_thresholds, )-shaped torch.Tensor - speech_total : torch.Tensor - Diarization error rate components accumulated over the whole batch. + false_alarm : torch.Tensor + missed_detection : torch.Tensor + speaker_confusion : torch.Tensor + If `reduce` is 'batch', returns (num_thresholds, )-shaped tensors. + If `reduce` is 'chunk', returns (batch_size, num_thresholds)-shaped tensors. + If `reduce` is 'frame', returns (batch_size, num_frames, num_thresholds)-shaped tensors. + In case `threshold` is a float, the last dimension is removed from the output tensors. + speech_total : (...,)-shaped torch.Tensor torch.Tensor + If `reduce` is 'batch', returns a scalar. + If `reduce` is 'chunk', returns (batch_size,)-shaped tensor. + If `reduce` is 'frame', returns (batch_size, num_frames)-shaped tensor. """ # make threshold a (num_thresholds,) tensor @@ -70,6 +79,9 @@ def _der_update( hypothesis = (permutated_preds.unsqueeze(-1) > threshold).float() # (batch_size, num_speakers, num_frames, num_thresholds) + speech_total = 1.0 * torch.sum(target, 1) + # (batch_size, num_frames) + target = target.unsqueeze(-1) # (batch_size, num_speakers, num_frames, 1) @@ -87,17 +99,47 @@ def _der_update( speaker_confusion = torch.sum((hypothesis != target) * hypothesis, 1) - false_alarm # (batch_size, num_frames, num_thresholds) - false_alarm = torch.sum(torch.sum(false_alarm, 1), 0) - missed_detection = torch.sum(torch.sum(missed_detection, 1), 0) - speaker_confusion = torch.sum(torch.sum(speaker_confusion, 1), 0) + if reduce == "frame": + if scalar_threshold: + return ( + false_alarm[:, :, 0], + missed_detection[:, :, 0], + speaker_confusion[:, :, 0], + speech_total, + ) + return false_alarm, missed_detection, speaker_confusion, torch.sum(target, 1) + + speech_total = torch.sum(speech_total, 1) + # (batch_size, ) + false_alarm = torch.sum(false_alarm, 1) + missed_detection = torch.sum(missed_detection, 1) + speaker_confusion = torch.sum(speaker_confusion, 1) + # (batch_size, num_thresholds) + + if reduce == "chunk": + if scalar_threshold: + return ( + false_alarm[:, 0], + missed_detection[:, 0], + speaker_confusion[:, 0], + speech_total, + ) + return false_alarm, missed_detection, speaker_confusion, speech_total + + speech_total = torch.sum(speech_total, 0) + # scalar + false_alarm = torch.sum(false_alarm, 0) + missed_detection = torch.sum(missed_detection, 0) + speaker_confusion = torch.sum(speaker_confusion, 0) # (num_thresholds, ) - speech_total = 1.0 * torch.sum(target) - if scalar_threshold: - false_alarm = false_alarm[0] - missed_detection = missed_detection[0] - speaker_confusion = speaker_confusion[0] + return ( + false_alarm[0], + missed_detection[0], + speaker_confusion[0], + speech_total, + ) return false_alarm, missed_detection, speaker_confusion, speech_total @@ -131,6 +173,8 @@ def diarization_error_rate( preds: torch.Tensor, target: torch.Tensor, threshold: Union[torch.Tensor, float] = 0.5, + reduce: str = "batch", + return_components: bool = False, ) -> torch.Tensor: """Compute diarization error rate @@ -142,16 +186,32 @@ def diarization_error_rate( (batch_size, num_speakers, num_frames)-shaped (0 or 1) targets. threshold : float or torch.Tensor, optional Threshold(s) used to binarize predictions. Defaults to 0.5. + reduce : {'batch', 'chunk', 'frame'}, optional + Reduction method. Defaults to 'batch'. + return_components : bool, optional + Return diarization error rate components as an additional tuple. + Defaults to False. + Returns ------- - der : (num_thresholds, )-shaped torch.Tensor - Aggregated diarization error rate + der : torch.Tensor + If `reduce` is 'batch', returns (num_thresholds, )-shaped tensors. + If `reduce` is 'chunk', returns (batch_size, num_thresholds)-shaped tensors. + If `reduce` is 'frame', returns (batch_size, num_frames, num_thresholds)-shaped tensors. + In case `threshold` is a float, the last dimension is removed from the output tensors. + components : (false_alarm, missed_detection, speaker_confusion, speech_total) tuple, optional + Same shape as `der`. Only returned when `return_components` is True. + """ false_alarm, missed_detection, speaker_confusion, speech_total = _der_update( - preds, target, threshold=threshold + preds, target, threshold=threshold, reduce=reduce ) - return _der_compute(false_alarm, missed_detection, speaker_confusion, speech_total) + + der = _der_compute(false_alarm, missed_detection, speaker_confusion, speech_total) + if return_components: + return der, (false_alarm, missed_detection, speaker_confusion, speech_total) + return der def optimal_diarization_error_rate( diff --git a/tests/test_metrics.py b/tests/test_metrics.py new file mode 100644 index 000000000..c366dc091 --- /dev/null +++ b/tests/test_metrics.py @@ -0,0 +1,142 @@ +# MIT License +# +# Copyright (c) 2024- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + +import pytest +import torch + +from pyannote.audio.torchmetrics.functional.audio.diarization_error_rate import ( + _der_update, + diarization_error_rate, +) + + +@pytest.fixture +def target(): + chunk1 = [[0, 0], [1, 0], [1, 0], [1, 1], [1, 1], [0, 1], [0, 1]] + chunk2 = [[0, 0], [0, 0], [1, 0], [1, 0], [1, 0], [1, 0], [0, 0]] + return torch.tensor([chunk1, chunk2], dtype=torch.float32).transpose(2, 1) + + +@pytest.fixture +def prediction(): + chunk1 = [[0, 0], [1, 0], [0, 0], [1, 1], [0, 1], [1, 1], [1, 0]] + chunk2 = [[0, 0], [0, 0], [0, 1], [0, 1], [0, 1], [1, 1], [1, 0]] + return torch.tensor([chunk1, chunk2], dtype=torch.float32).transpose(2, 1) + + +def test_frame_reduction(target, prediction): + false_alarm, missed_detection, speaker_confusion, speech_total = _der_update( + prediction, target, reduce="frame" + ) + + torch.testing.assert_close( + false_alarm, + torch.Tensor( + [[0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0], [0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 1.0]] + ), + ) + + torch.testing.assert_close( + missed_detection, + torch.Tensor( + [ + [0.0, 0.0, 1.0, 0.0, 1.0, 0.0, 0.0], + [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0], + ] + ), + ) + + torch.testing.assert_close( + speaker_confusion, + torch.Tensor( + [[0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0], [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0]] + ), + ) + + torch.testing.assert_close( + speech_total, + torch.Tensor( + [[0.0, 1.0, 1.0, 2.0, 2.0, 1.0, 1.0], [0.0, 0.0, 1.0, 1.0, 1.0, 1.0, 0.0]] + ), + ) + + +def test_chunk_reduction(target, prediction): + false_alarm, missed_detection, speaker_confusion, speech_total = _der_update( + prediction, target, reduce="chunk" + ) + + torch.testing.assert_close( + false_alarm, + torch.Tensor([1.0, 2.0]), + ) + + torch.testing.assert_close( + missed_detection, + torch.Tensor([2.0, 0.0]), + ) + + torch.testing.assert_close( + speaker_confusion, + torch.Tensor([1.0, 0.0]), + ) + + torch.testing.assert_close( + speech_total, + torch.Tensor([8.0, 4.0]), + ) + + +def test_batch_reduction(target, prediction): + false_alarm, missed_detection, speaker_confusion, speech_total = _der_update( + prediction, target, reduce="batch" + ) + torch.testing.assert_close(false_alarm.item(), 3.0) + torch.testing.assert_close(missed_detection.item(), 2.0) + torch.testing.assert_close(speaker_confusion.item(), 1.0) + torch.testing.assert_close(speech_total.item(), 12.0) + + +def test_batch_der(target, prediction): + der = diarization_error_rate(prediction, target, reduce="batch") + torch.testing.assert_close(der.item(), (3.0 + 2.0 + 1.0) / 12.0) + + +def test_batch_der_with_components(target, prediction): + der, ( + false_alarm, + missed_detection, + speaker_confusion, + speech_total, + ) = diarization_error_rate( + prediction, target, reduce="batch", return_components=True + ) + torch.testing.assert_close(der.item(), (3.0 + 2.0 + 1.0) / 12.0) + torch.testing.assert_close(false_alarm.item(), 3.0) + torch.testing.assert_close(missed_detection.item(), 2.0) + torch.testing.assert_close(speaker_confusion.item(), 1.0) + torch.testing.assert_close(speech_total.item(), 12.0) + + +def test_chunk_der(target, prediction): + der = diarization_error_rate(prediction, target, reduce="chunk") + torch.testing.assert_close(der, torch.Tensor([4.0 / 8.0, 2.0 / 4.0])) From eba4419c8b46727ffce949bbb833a5a86574f435 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 1 Feb 2024 10:46:37 +0100 Subject: [PATCH 22/45] improve(metric): add support for number of speakers mismatch in `diarization_error_rate` metric --- CHANGELOG.md | 4 ++++ .../functional/audio/diarization_error_rate.py | 18 ++++++++++++++++++ 2 files changed, 22 insertions(+) diff --git a/CHANGELOG.md b/CHANGELOG.md index 4090c9c4d..2944eb72d 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -15,6 +15,10 @@ - fix(task): fix random generators +### Improvements + +- improve(metric): add support for number of speakers mismatch in `diarization_error_rate` metric + ## Breaking changes - BREAKING(model): get rid of `Model.example_output` in favor of `num_frames`, `receptive_field`, and `dimension` properties diff --git a/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py b/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py index 1fef2cc36..c401b70dd 100644 --- a/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py +++ b/pyannote/audio/torchmetrics/functional/audio/diarization_error_rate.py @@ -25,6 +25,7 @@ from typing import Optional, Tuple, Union import torch +import torch.nn.functional as F from pyannote.audio.utils.permutation import permutate @@ -63,6 +64,23 @@ def _der_update( If `reduce` is 'frame', returns (batch_size, num_frames)-shaped tensor. """ + prd_batch_size, prd_num_speakers, prd_num_frames = preds.shape + tgt_batch_size, tgt_num_speakers, tgt_num_frames = target.shape + + if prd_batch_size != tgt_batch_size: + raise ValueError(f"Batch size mismatch: {prd_batch_size} != {tgt_batch_size}.") + + if prd_num_frames != tgt_num_frames: + raise ValueError( + f"Number of frames mismatch: {prd_num_frames} != {tgt_num_frames}." + ) + + # pad number of speakers if necessary + if prd_num_speakers > tgt_num_speakers: + target = F.pad(target, (0, 0, 0, prd_num_speakers - tgt_num_speakers)) + elif prd_num_speakers < tgt_num_speakers: + preds = F.pad(preds, (0, 0, 0, tgt_num_speakers - prd_num_speakers)) + # make threshold a (num_thresholds,) tensor scalar_threshold = isinstance(threshold, Number) if scalar_threshold: From e4d850c8cffa5af8c61f8931c496f4b29c940f6b Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Fri, 2 Feb 2024 16:52:59 +0100 Subject: [PATCH 23/45] fix: fix computation of conv1d receptive field (#1640) --- pyannote/audio/models/blocks/sincnet.py | 4 +--- pyannote/audio/models/segmentation/SSeRiouSS.py | 1 - pyannote/audio/utils/frame.py | 9 +++------ 3 files changed, 4 insertions(+), 10 deletions(-) diff --git a/pyannote/audio/models/blocks/sincnet.py b/pyannote/audio/models/blocks/sincnet.py index a7657c2e9..89368795b 100644 --- a/pyannote/audio/models/blocks/sincnet.py +++ b/pyannote/audio/models/blocks/sincnet.py @@ -120,16 +120,14 @@ def receptive_field_size(self, num_frames: int = 1) -> int: kernel_size = [251, 3, 5, 3, 5, 3] stride = [self.stride, 3, 1, 3, 1, 3] - padding = [0, 0, 0, 0, 0, 0] dilation = [1, 1, 1, 1, 1, 1] receptive_field_size = num_frames - for k, s, p, d in reversed(list(zip(kernel_size, stride, padding, dilation))): + for k, s, d in reversed(list(zip(kernel_size, stride, dilation))): receptive_field_size = conv1d_receptive_field_size( num_frames=receptive_field_size, kernel_size=k, stride=s, - padding=p, dilation=d, ) diff --git a/pyannote/audio/models/segmentation/SSeRiouSS.py b/pyannote/audio/models/segmentation/SSeRiouSS.py index 514ad00de..e337f439c 100644 --- a/pyannote/audio/models/segmentation/SSeRiouSS.py +++ b/pyannote/audio/models/segmentation/SSeRiouSS.py @@ -243,7 +243,6 @@ def receptive_field_size(self, num_frames: int = 1) -> int: num_frames=receptive_field_size, kernel_size=conv_layer.kernel_size, stride=conv_layer.stride, - padding=conv_layer.conv.padding[0], dilation=conv_layer.conv.dilation[0], ) diff --git a/pyannote/audio/utils/frame.py b/pyannote/audio/utils/frame.py index 5ff0189be..cde7ee19c 100644 --- a/pyannote/audio/utils/frame.py +++ b/pyannote/audio/utils/frame.py @@ -56,9 +56,7 @@ def conv1d_num_frames( ) -def conv1d_receptive_field_size( - num_frames=1, kernel_size=5, stride=1, padding=0, dilation=1 -): +def conv1d_receptive_field_size(num_frames=1, kernel_size=5, stride=1, dilation=1): """Compute receptive field size for `num_frames` frames after 1D convolution Parameters @@ -69,8 +67,6 @@ def conv1d_receptive_field_size( Kernel size stride : int Stride - padding : int - Padding dilation : int Dilation @@ -79,4 +75,5 @@ def conv1d_receptive_field_size( receptive_field : int Receptive field size """ - return (num_frames - 1) * stride - 2 * padding + dilation * (kernel_size - 1) + 1 + + return 1 + (kernel_size - 1) * dilation + (num_frames - 1) * stride From e611d1c7aba7661380aa55999b3d784a63213863 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Sat, 3 Feb 2024 19:22:27 +0100 Subject: [PATCH 24/45] feat(model): add `receptive_field` property and `num_frames` method to every model (#1642) --- CHANGELOG.md | 6 +- pyannote/audio/core/model.py | 18 ++ pyannote/audio/models/blocks/sincnet.py | 88 ++++---- pyannote/audio/models/embedding/debug.py | 87 +++++++- .../models/embedding/wespeaker/__init__.py | 87 +++++++- .../models/embedding/wespeaker/resnet.py | 149 +++++++++++++ pyannote/audio/models/embedding/xvector.py | 199 +++++++++++++++++- pyannote/audio/models/segmentation/PyanNet.py | 35 ++- .../audio/models/segmentation/SSeRiouSS.py | 59 +++--- pyannote/audio/models/segmentation/debug.py | 67 +++--- pyannote/audio/utils/frame.py | 79 ------- pyannote/audio/utils/receptive_field.py | 163 ++++++++++++++ 12 files changed, 834 insertions(+), 203 deletions(-) delete mode 100644 pyannote/audio/utils/frame.py create mode 100644 pyannote/audio/utils/receptive_field.py diff --git a/CHANGELOG.md b/CHANGELOG.md index 2944eb72d..514499b13 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -6,7 +6,9 @@ - feat(task): add option to cache task training metadata to speed up training - feat(pipeline): add `Waveform` and `SampleRate` preprocessors -- feat(model): add `num_frames`, `receptive_field`, and `dimension` properties to segmentation models +- feat(model): add `num_frames` method to every model +- feat(model): add `receptive_field` property to every model +- feat(model): and `dimension` property to every model - feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` - feat(powerset): add `Powerset.permutation_mapping` to help with permutation in powerset space - feat(metric): add `reduce` option to `diarization_error_rate` metric @@ -21,7 +23,7 @@ ## Breaking changes -- BREAKING(model): get rid of `Model.example_output` in favor of `num_frames`, `receptive_field`, and `dimension` properties +- BREAKING(model): get rid of `Model.example_output` in favor of `num_frames` method, `receptive_field` property, and `dimension` property - BREAKING(task): custom tasks need to be updated (see "Add your own task" tutorial) ## Version 3.1.1 (2023-12-01) diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index 27f34e7f8..d7a264850 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -25,6 +25,7 @@ import os import warnings from dataclasses import dataclass +from functools import cached_property from importlib import import_module from pathlib import Path from typing import Any, Dict, List, Optional, Text, Tuple, Union @@ -181,6 +182,23 @@ def __example_input_array(self, duration: Optional[float] = None) -> torch.Tenso def example_input_array(self) -> torch.Tensor: return self.__example_input_array() + @cached_property + def receptive_field(self) -> SlidingWindow: + """(Internal) frames""" + + receptive_field_size = self.receptive_field_size(num_frames=1) + receptive_field_step = ( + self.receptive_field_size(num_frames=2) - receptive_field_size + ) + receptive_field_start = ( + self.receptive_field_center(frame=0) - (receptive_field_size - 1) / 2 + ) + return SlidingWindow( + start=receptive_field_start / self.hparams.sample_rate, + duration=receptive_field_size / self.hparams.sample_rate, + step=receptive_field_step / self.hparams.sample_rate, + ) + def prepare_data(self): self.task.prepare_data() diff --git a/pyannote/audio/models/blocks/sincnet.py b/pyannote/audio/models/blocks/sincnet.py index 89368795b..b46549bb3 100644 --- a/pyannote/audio/models/blocks/sincnet.py +++ b/pyannote/audio/models/blocks/sincnet.py @@ -1,6 +1,6 @@ # The MIT License (MIT) # -# Copyright (c) 2019-2020 CNRS +# Copyright (c) 2019- CNRS # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal @@ -23,16 +23,18 @@ # AUTHOR # Hervé Bredin - http://herve.niderb.fr - -from functools import cached_property, lru_cache +from functools import lru_cache import torch import torch.nn as nn import torch.nn.functional as F from asteroid_filterbanks import Encoder, ParamSincFB -from pyannote.core import SlidingWindow -from pyannote.audio.utils.frame import conv1d_num_frames, conv1d_receptive_field_size +from pyannote.audio.utils.receptive_field import ( + multi_conv_num_frames, + multi_conv_receptive_field_center, + multi_conv_receptive_field_size, +) class SincNet(nn.Module): @@ -78,17 +80,17 @@ def __init__(self, sample_rate: int = 16000, stride: int = 1): @lru_cache def num_frames(self, num_samples: int) -> int: - """Compute number of output frames for a given number of input samples + """Compute number of output frames Parameters ---------- num_samples : int - Number of input samples + Number of input samples. Returns ------- num_frames : int - Number of output frames + Number of output frames. """ kernel_size = [251, 3, 5, 3, 5, 3] @@ -96,16 +98,16 @@ def num_frames(self, num_samples: int) -> int: padding = [0, 0, 0, 0, 0, 0] dilation = [1, 1, 1, 1, 1, 1] - num_frames = num_samples - for k, s, p, d in zip(kernel_size, stride, padding, dilation): - num_frames = conv1d_num_frames( - num_frames, kernel_size=k, stride=s, padding=p, dilation=d - ) - - return num_frames + return multi_conv_num_frames( + num_samples, + kernel_size=kernel_size, + stride=stride, + padding=padding, + dilation=dilation, + ) def receptive_field_size(self, num_frames: int = 1) -> int: - """Compute receptive field size + """Compute size of receptive field Parameters ---------- @@ -115,48 +117,46 @@ def receptive_field_size(self, num_frames: int = 1) -> int: Returns ------- receptive_field_size : int - Receptive field size + Receptive field size. """ kernel_size = [251, 3, 5, 3, 5, 3] stride = [self.stride, 3, 1, 3, 1, 3] dilation = [1, 1, 1, 1, 1, 1] - receptive_field_size = num_frames - for k, s, d in reversed(list(zip(kernel_size, stride, dilation))): - receptive_field_size = conv1d_receptive_field_size( - num_frames=receptive_field_size, - kernel_size=k, - stride=s, - dilation=d, - ) + return multi_conv_receptive_field_size( + num_frames, + kernel_size=kernel_size, + stride=stride, + dilation=dilation, + ) - return receptive_field_size + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field - @cached_property - def receptive_field(self) -> SlidingWindow: - """Compute receptive field + Parameters + ---------- + frame : int, optional + Frame index Returns ------- - receptive field : SlidingWindow - - Source - ------ - https://distill.pub/2019/computing-receptive-fields/ - + receptive_field_center : int + Index of receptive field center. """ - # duration of the receptive field of each output frame - duration = self.receptive_field_size() / self.sample_rate - - # step between the receptive field region of two consecutive output frames - step = ( - self.receptive_field_size(num_frames=2) - - self.receptive_field_size(num_frames=1) - ) / self.sample_rate + kernel_size = [251, 3, 5, 3, 5, 3] + stride = [self.stride, 3, 1, 3, 1, 3] + padding = [0, 0, 0, 0, 0, 0] + dilation = [1, 1, 1, 1, 1, 1] - return SlidingWindow(start=0.0, duration=duration, step=step) + return multi_conv_receptive_field_center( + frame, + kernel_size=kernel_size, + stride=stride, + padding=padding, + dilation=dilation, + ) def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """Pass forward diff --git a/pyannote/audio/models/embedding/debug.py b/pyannote/audio/models/embedding/debug.py index 775b6550f..a5e862a24 100644 --- a/pyannote/audio/models/embedding/debug.py +++ b/pyannote/audio/models/embedding/debug.py @@ -1,6 +1,6 @@ # MIT License # -# Copyright (c) 2020 CNRS +# Copyright (c) 2020- CNRS # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal @@ -21,6 +21,7 @@ # SOFTWARE. +from functools import lru_cache from typing import Optional import torch @@ -30,6 +31,11 @@ from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task +from pyannote.audio.utils.receptive_field import ( + conv1d_num_frames, + conv1d_receptive_field_center, + conv1d_receptive_field_size, +) class SimpleEmbeddingModel(Model): @@ -57,6 +63,85 @@ def __init__( bidirectional=True, ) + @lru_cache + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames for a given number of input samples + + Parameters + ---------- + num_samples : int + Number of input samples + + Returns + ------- + num_frames : int + Number of output frames + + Source + ------ + https://pytorch.org/docs/stable/generated/torch.stft.html#torch.stft + + """ + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + center = self.mfcc.MelSpectrogram.spectrogram.center + + return conv1d_num_frames( + num_samples=num_samples, + kernel_size=n_fft, + stride=hop_length, + padding=n_fft // 2 if center else 0, + dilation=1, + ) + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute size of receptive field + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size. + """ + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + + return conv1d_receptive_field_size( + num_frames, kernel_size=n_fft, stride=hop_length, dilation=1 + ) + + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int, optional + Frame index + + Returns + ------- + receptive_field_center : int + Index of receptive field center. + """ + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + center = self.mfcc.MelSpectrogram.spectrogram.center + + return conv1d_receptive_field_center( + frame=frame, + kernel_size=n_fft, + stride=hop_length, + padding=n_fft // 2 if center else 0, + dilation=1, + ) + @property def dimension(self) -> int: """Dimension of output""" diff --git a/pyannote/audio/models/embedding/wespeaker/__init__.py b/pyannote/audio/models/embedding/wespeaker/__init__.py index 8f1e62105..e75779dda 100644 --- a/pyannote/audio/models/embedding/wespeaker/__init__.py +++ b/pyannote/audio/models/embedding/wespeaker/__init__.py @@ -21,7 +21,7 @@ # SOFTWARE. -from functools import partial +from functools import lru_cache, partial from typing import Optional import torch @@ -29,6 +29,11 @@ from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task +from pyannote.audio.utils.receptive_field import ( + conv1d_num_frames, + conv1d_receptive_field_center, + conv1d_receptive_field_size, +) from .resnet import ResNet34, ResNet152, ResNet221, ResNet293 @@ -100,6 +105,86 @@ def dimension(self) -> int: """Dimension of output""" return self.resnet.embed_dim + @lru_cache + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames + + Parameters + ---------- + num_samples : int + Number of input samples. + + Returns + ------- + num_frames : int + Number of output frames. + """ + window_size = int(self.hparams.sample_rate * self.hparams.frame_length * 0.001) + step_size = int(self.hparams.sample_rate * self.hparams.frame_shift * 0.001) + + num_frames = conv1d_num_frames( + num_samples=num_samples, + kernel_size=window_size, + stride=step_size, + padding=0, + dilation=1, + ) + return self.resnet.num_frames(num_frames) + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute size of receptive field + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size. + """ + receptive_field_size = num_frames + receptive_field_size = self.resnet.receptive_field_size(receptive_field_size) + + window_size = int(self.hparams.sample_rate * self.hparams.frame_length * 0.001) + step_size = int(self.hparams.sample_rate * self.hparams.frame_shift * 0.001) + + return conv1d_receptive_field_size( + num_frames=receptive_field_size, + kernel_size=window_size, + stride=step_size, + dilation=1, + ) + + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int, optional + Frame index + + Returns + ------- + receptive_field_center : int + Index of receptive field center. + """ + receptive_field_center = frame + receptive_field_center = self.resnet.receptive_field_center( + frame=receptive_field_center + ) + + window_size = int(self.hparams.sample_rate * self.hparams.frame_length * 0.001) + step_size = int(self.hparams.sample_rate * self.hparams.frame_shift * 0.001) + return conv1d_receptive_field_center( + frame=receptive_field_center, + kernel_size=window_size, + stride=step_size, + padding=0, + dilation=1, + ) + def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: diff --git a/pyannote/audio/models/embedding/wespeaker/resnet.py b/pyannote/audio/models/embedding/wespeaker/resnet.py index 21fc98fc5..b64dd386d 100644 --- a/pyannote/audio/models/embedding/wespeaker/resnet.py +++ b/pyannote/audio/models/embedding/wespeaker/resnet.py @@ -15,6 +15,7 @@ # See the License for the specific language governing permissions and # limitations under the License. +from functools import lru_cache from typing import Optional import torch @@ -23,6 +24,14 @@ from einops import rearrange from pyannote.audio.models.blocks.pooling import StatsPool +from pyannote.audio.utils.receptive_field import ( + conv1d_num_frames, + conv1d_receptive_field_center, + conv1d_receptive_field_size, + multi_conv_num_frames, + multi_conv_receptive_field_center, + multi_conv_receptive_field_size, +) class TSTP(nn.Module): @@ -77,6 +86,7 @@ class BasicBlock(nn.Module): def __init__(self, in_planes, planes, stride=1): super(BasicBlock, self).__init__() + self.stride = stride self.conv1 = nn.Conv2d( in_planes, planes, kernel_size=3, stride=stride, padding=1, bias=False ) @@ -99,6 +109,33 @@ def __init__(self, in_planes, planes, stride=1): nn.BatchNorm2d(self.expansion * planes), ) + @lru_cache + def num_frames(self, num_samples: int) -> int: + return multi_conv_num_frames( + num_samples, + kernel_size=[3, 3], + stride=[self.stride, 1], + padding=[1, 1], + dilation=[1, 1], + ) + + def receptive_field_size(self, num_frames: int = 1) -> int: + return multi_conv_receptive_field_size( + num_frames, + kernel_size=[3, 3], + stride=[self.stride, 1], + dilation=[1, 1], + ) + + def receptive_field_center(self, frame: int = 0) -> int: + return multi_conv_receptive_field_center( + frame, + kernel_size=[3, 3], + stride=[self.stride, 1], + padding=[1, 1], + dilation=[1, 1], + ) + def forward(self, x): out = F.relu(self.bn1(self.conv1(x))) out = self.bn2(self.conv2(out)) @@ -112,6 +149,7 @@ class Bottleneck(nn.Module): def __init__(self, in_planes, planes, stride=1): super(Bottleneck, self).__init__() + self.stride = stride self.conv1 = nn.Conv2d(in_planes, planes, kernel_size=1, bias=False) self.bn1 = nn.BatchNorm2d(planes) self.conv2 = nn.Conv2d( @@ -136,6 +174,33 @@ def __init__(self, in_planes, planes, stride=1): nn.BatchNorm2d(self.expansion * planes), ) + @lru_cache + def num_frames(self, num_samples: int) -> int: + return multi_conv_num_frames( + num_samples, + kernel_size=[1, 3, 1], + stride=[1, self.stride, 1], + padding=[0, 1, 0], + dilation=[1, 1, 1], + ) + + def receptive_field_size(self, num_frames: int = 1) -> int: + return multi_conv_receptive_field_size( + num_frames, + kernel_size=[1, 3, 1], + stride=[1, self.stride, 1], + dilation=[1, 1, 1], + ) + + def receptive_field_center(self, frame: int = 0) -> int: + return multi_conv_receptive_field_center( + frame, + kernel_size=[1, 3, 1], + stride=[1, self.stride, 1], + padding=[0, 1, 0], + dilation=[1, 1, 1], + ) + def forward(self, x): out = F.relu(self.bn1(self.conv1(x))) out = F.relu(self.bn2(self.conv2(out))) @@ -192,6 +257,90 @@ def _make_layer(self, block, planes, num_blocks, stride): self.in_planes = planes * block.expansion return nn.Sequential(*layers) + @lru_cache + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames + + Parameters + ---------- + num_samples : int + Number of input samples. + + Returns + ------- + num_frames : int + Number of output frames. + """ + + num_frames = num_samples + num_frames = conv1d_num_frames( + num_frames, kernel_size=3, stride=1, padding=1, dilation=1 + ) + for layers in [self.layer1, self.layer2, self.layer3, self.layer4]: + for layer in layers: + num_frames = layer.num_frames(num_frames) + + return num_frames + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute size of receptive field + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size. + """ + + receptive_field_size = num_frames + for layers in reversed([self.layer1, self.layer2, self.layer3, self.layer4]): + for layer in reversed(layers): + receptive_field_size = layer.receptive_field_size(receptive_field_size) + + receptive_field_size = conv1d_receptive_field_size( + num_frames=receptive_field_size, + kernel_size=3, + stride=1, + dilation=1, + ) + + return receptive_field_size + + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int, optional + Frame index + + Returns + ------- + receptive_field_center : int + Index of receptive field center. + """ + + receptive_field_center = frame + for layers in reversed([self.layer1, self.layer2, self.layer3, self.layer4]): + for layer in reversed(layers): + receptive_field_center = layer.receptive_field_center( + frame=receptive_field_center + ) + + receptive_field_center = conv1d_receptive_field_center( + frame=receptive_field_center, + kernel_size=3, + stride=1, + padding=1, + dilation=1, + ) + + return receptive_field_center + def forward(self, x: torch.Tensor, weights: Optional[torch.Tensor] = None): """ diff --git a/pyannote/audio/models/embedding/xvector.py b/pyannote/audio/models/embedding/xvector.py index 85610509d..00916fbd0 100644 --- a/pyannote/audio/models/embedding/xvector.py +++ b/pyannote/audio/models/embedding/xvector.py @@ -20,6 +20,7 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. +from functools import lru_cache from typing import Optional import torch @@ -31,6 +32,14 @@ from pyannote.audio.models.blocks.pooling import StatsPool from pyannote.audio.models.blocks.sincnet import SincNet from pyannote.audio.utils.params import merge_dict +from pyannote.audio.utils.receptive_field import ( + conv1d_num_frames, + conv1d_receptive_field_center, + conv1d_receptive_field_size, + multi_conv_num_frames, + multi_conv_receptive_field_center, + multi_conv_receptive_field_size, +) class XVectorMFCC(Model): @@ -56,11 +65,13 @@ def __init__( self.tdnns = nn.ModuleList() in_channel = self.hparams.mfcc["n_mfcc"] out_channels = [512, 512, 512, 512, 1500] - kernel_sizes = [5, 3, 3, 1, 1] - dilations = [1, 2, 3, 1, 1] + self.kernel_size = [5, 3, 3, 1, 1] + self.dilation = [1, 2, 3, 1, 1] + self.padding = [0, 0, 0, 0, 0] + self.stride = [1, 1, 1, 1, 1] for out_channel, kernel_size, dilation in zip( - out_channels, kernel_sizes, dilations + out_channels, self.kernel_size, self.dilation ): self.tdnns.extend( [ @@ -85,6 +96,107 @@ def dimension(self) -> int: """Dimension of output""" return self.hparams.dimension + @lru_cache + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames + + Parameters + ---------- + num_samples : int + Number of input samples. + + Returns + ------- + num_frames : int + Number of output frames. + """ + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + center = self.mfcc.MelSpectrogram.spectrogram.center + + num_frames = conv1d_num_frames( + num_samples, + kernel_size=n_fft, + stride=hop_length, + dilation=1, + padding=n_fft // 2 if center else 0, + ) + + return multi_conv_num_frames( + num_frames, + kernel_size=self.kernel_size, + stride=self.stride, + padding=self.padding, + dilation=self.dilation, + ) + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute size of receptive field + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size. + """ + + receptive_field_size = multi_conv_receptive_field_size( + num_frames, + kernel_size=self.kernel_size, + stride=self.stride, + padding=self.padding, + dilation=self.dilation, + ) + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + + return conv1d_receptive_field_size( + num_frames=receptive_field_size, + kernel_size=n_fft, + stride=hop_length, + dilation=1, + ) + + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int, optional + Frame index + + Returns + ------- + receptive_field_center : int + Index of receptive field center. + """ + + receptive_field_center = multi_conv_receptive_field_center( + frame, + kernel_size=self.kernel_size, + stride=self.stride, + padding=self.padding, + dilation=self.dilation, + ) + + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + center = self.mfcc.MelSpectrogram.spectrogram.center + + return conv1d_receptive_field_center( + frame=receptive_field_center, + kernel_size=n_fft, + stride=hop_length, + padding=n_fft // 2 if center else 0, + dilation=1, + ) + def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: @@ -128,11 +240,13 @@ def __init__( self.tdnns = nn.ModuleList() out_channels = [512, 512, 512, 512, 1500] - kernel_sizes = [5, 3, 3, 1, 1] - dilations = [1, 2, 3, 1, 1] + self.kernel_size = [5, 3, 3, 1, 1] + self.dilation = [1, 2, 3, 1, 1] + self.padding = [0, 0, 0, 0, 0] + self.stride = [1, 1, 1, 1, 1] for out_channel, kernel_size, dilation in zip( - out_channels, kernel_sizes, dilations + out_channels, self.kernel_size, self.dilation ): self.tdnns.extend( [ @@ -157,6 +271,79 @@ def dimension(self) -> int: """Dimension of output""" return self.hparams.dimension + @lru_cache + def num_frames(self, num_samples: int) -> int: + """Compute number of output frames + + Parameters + ---------- + num_samples : int + Number of input samples. + + Returns + ------- + num_frames : int + Number of output frames. + """ + + num_frames = self.sincnet.num_frames(num_samples) + + return multi_conv_num_frames( + num_frames, + kernel_size=self.kernel_size, + stride=self.stride, + padding=self.padding, + dilation=self.dilation, + ) + + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute size of receptive field + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + + Returns + ------- + receptive_field_size : int + Receptive field size. + """ + + receptive_field_size = multi_conv_receptive_field_size( + num_frames, + kernel_size=self.kernel_size, + stride=self.stride, + padding=self.padding, + dilation=self.dilation, + ) + + return self.sincnet.receptive_field_size(num_frames=receptive_field_size) + + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int, optional + Frame index + + Returns + ------- + receptive_field_center : int + Index of receptive field center. + """ + + receptive_field_center = multi_conv_receptive_field_center( + frame, + kernel_size=self.kernel_size, + stride=self.stride, + padding=self.padding, + dilation=self.dilation, + ) + + return self.sincnet.receptive_field_center(frame=receptive_field_center) + def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: diff --git a/pyannote/audio/models/segmentation/PyanNet.py b/pyannote/audio/models/segmentation/PyanNet.py index 9d397abcb..3481b40c6 100644 --- a/pyannote/audio/models/segmentation/PyanNet.py +++ b/pyannote/audio/models/segmentation/PyanNet.py @@ -20,14 +20,13 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. -from functools import cached_property, lru_cache +from functools import lru_cache from typing import Optional import torch import torch.nn as nn import torch.nn.functional as F from einops import rearrange -from pyannote.core import SlidingWindow from pyannote.core.utils.generators import pairwise from pyannote.audio.core.model import Model @@ -178,20 +177,36 @@ def num_frames(self, num_samples: int) -> int: return self.sincnet.num_frames(num_samples) - @cached_property - def receptive_field(self) -> SlidingWindow: - """Compute receptive field + def receptive_field_size(self, num_frames: int = 1) -> int: + """Compute size of receptive field + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal Returns ------- - receptive field : SlidingWindow + receptive_field_size : int + Receptive field size. + """ + return self.sincnet.receptive_field_size(num_frames=num_frames) + + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field - Source - ------ - https://distill.pub/2019/computing-receptive-fields/ + Parameters + ---------- + frame : int, optional + Frame index + Returns + ------- + receptive_field_center : int + Index of receptive field center. """ - return self.sincnet.receptive_field + + return self.sincnet.receptive_field_center(frame=frame) def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """Pass forward diff --git a/pyannote/audio/models/segmentation/SSeRiouSS.py b/pyannote/audio/models/segmentation/SSeRiouSS.py index e337f439c..ef550dfe1 100644 --- a/pyannote/audio/models/segmentation/SSeRiouSS.py +++ b/pyannote/audio/models/segmentation/SSeRiouSS.py @@ -20,20 +20,23 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. -from functools import cached_property, lru_cache +from functools import lru_cache from typing import Optional, Union import torch import torch.nn as nn import torch.nn.functional as F import torchaudio -from pyannote.core import SlidingWindow from pyannote.core.utils.generators import pairwise from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task -from pyannote.audio.utils.frame import conv1d_num_frames, conv1d_receptive_field_size from pyannote.audio.utils.params import merge_dict +from pyannote.audio.utils.receptive_field import ( + conv1d_num_frames, + conv1d_receptive_field_center, + conv1d_receptive_field_size, +) class SSeRiouSS(Model): @@ -198,17 +201,17 @@ def build(self): @lru_cache def num_frames(self, num_samples: int) -> int: - """Compute number of output frames for a given number of input samples + """Compute number of output frames Parameters ---------- num_samples : int - Number of input samples + Number of input samples. Returns ------- num_frames : int - Number of output frames + Number of output frames. """ num_frames = num_samples @@ -224,7 +227,7 @@ def num_frames(self, num_samples: int) -> int: return num_frames def receptive_field_size(self, num_frames: int = 1) -> int: - """Compute receptive field size + """Compute size of receptive field Parameters ---------- @@ -234,7 +237,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: Returns ------- receptive_field_size : int - Receptive field size + Receptive field size. """ receptive_field_size = num_frames @@ -245,33 +248,31 @@ def receptive_field_size(self, num_frames: int = 1) -> int: stride=conv_layer.stride, dilation=conv_layer.conv.dilation[0], ) - return receptive_field_size - @cached_property - def receptive_field(self) -> SlidingWindow: - """Compute receptive field + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int, optional + Frame index Returns ------- - receptive field : SlidingWindow - - Source - ------ - https://distill.pub/2019/computing-receptive-fields/ - + receptive_field_center : int + Index of receptive field center. """ - - # duration of the receptive field of each output frame - duration = self.receptive_field_size() / self.hparams.sample_rate - - # step between the receptive field region of two consecutive output frames - step = ( - self.receptive_field_size(num_frames=2) - - self.receptive_field_size(num_frames=1) - ) / self.hparams.sample_rate - - return SlidingWindow(start=0.0, duration=duration, step=step) + receptive_field_center = frame + for conv_layer in reversed(self.wav2vec.feature_extractor.conv_layers): + receptive_field_center = conv1d_receptive_field_center( + receptive_field_center, + kernel_size=conv_layer.kernel_size, + stride=conv_layer.stride, + padding=conv_layer.conv.padding[0], + dilation=conv_layer.conv.dilation[0], + ) + return receptive_field_center def forward(self, waveforms: torch.Tensor) -> torch.Tensor: """Pass forward diff --git a/pyannote/audio/models/segmentation/debug.py b/pyannote/audio/models/segmentation/debug.py index d41dba51a..93c205b3d 100644 --- a/pyannote/audio/models/segmentation/debug.py +++ b/pyannote/audio/models/segmentation/debug.py @@ -21,17 +21,21 @@ # SOFTWARE. -from functools import cached_property, lru_cache +from functools import lru_cache from typing import Optional import torch import torch.nn as nn from einops import rearrange -from pyannote.core import SlidingWindow from torchaudio.transforms import MFCC from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task +from pyannote.audio.utils.receptive_field import ( + conv1d_num_frames, + conv1d_receptive_field_center, + conv1d_receptive_field_size, +) class SimpleSegmentationModel(Model): @@ -82,14 +86,17 @@ def num_frames(self, num_samples: int) -> int: hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - return int( - 1 + num_samples // hop_length - if center - else 1 + (num_samples - n_fft) // hop_length + + return conv1d_num_frames( + num_samples=num_samples, + kernel_size=n_fft, + stride=hop_length, + padding=n_fft // 2 if center else 0, + dilation=1, ) def receptive_field_size(self, num_frames: int = 1) -> int: - """Compute receptive field size + """Compute size of receptive field Parameters ---------- @@ -99,44 +106,42 @@ def receptive_field_size(self, num_frames: int = 1) -> int: Returns ------- receptive_field_size : int - Receptive field size + Receptive field size. """ hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft - center = self.mfcc.MelSpectrogram.spectrogram.center - if center: - return (num_frames - 1) * hop_length - else: - return (num_frames - 1) * hop_length + n_fft + return conv1d_receptive_field_size( + num_frames, kernel_size=n_fft, stride=hop_length, dilation=1 + ) - @cached_property - def receptive_field(self) -> SlidingWindow: - """Compute receptive field + def receptive_field_center(self, frame: int = 0) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int, optional + Frame index Returns ------- - receptive field : SlidingWindow - - Source - ------ - https://distill.pub/2019/computing-receptive-fields/ - + receptive_field_center : int + Index of receptive field center. """ - # duration of the receptive field of each output frame - duration = ( - self.mfcc.MelSpectrogram.spectrogram.win_length / self.hparams.sample_rate - ) + hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length + n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft + center = self.mfcc.MelSpectrogram.spectrogram.center - # step between the receptive field region of two consecutive output frames - step = ( - self.mfcc.MelSpectrogram.spectrogram.hop_length / self.hparams.sample_rate + return conv1d_receptive_field_center( + frame=frame, + kernel_size=n_fft, + stride=hop_length, + padding=n_fft // 2 if center else 0, + dilation=1, ) - return SlidingWindow(start=0.0, duration=duration, step=step) - @property def dimension(self) -> int: """Dimension of output""" diff --git a/pyannote/audio/utils/frame.py b/pyannote/audio/utils/frame.py deleted file mode 100644 index cde7ee19c..000000000 --- a/pyannote/audio/utils/frame.py +++ /dev/null @@ -1,79 +0,0 @@ -# MIT License -# -# Copyright (c) 2023 CNRS -# -# Permission is hereby granted, free of charge, to any person obtaining a copy -# of this software and associated documentation files (the "Software"), to deal -# in the Software without restriction, including without limitation the rights -# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -# copies of the Software, and to permit persons to whom the Software is -# furnished to do so, subject to the following conditions: -# -# The above copyright notice and this permission notice shall be included in all -# copies or substantial portions of the Software. -# -# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE -# SOFTWARE. - - -import math - - -def conv1d_num_frames( - num_samples, kernel_size=5, stride=1, padding=0, dilation=1 -) -> int: - """Compute expected number of frames after 1D convolution - - Parameters - ---------- - num_samples : int - Number of samples in the input signal - kernel_size : int - Kernel size - stride : int - Stride - padding : int - Padding - dilation : int - Dilation - - Returns - ------- - num_frames : int - Number of frames in the output signal - - Source - ------ - https://pytorch.org/docs/stable/generated/torch.nn.Conv1d.html#torch.nn.Conv1d - """ - return math.floor( - 1 + (num_samples + 2 * padding - dilation * (kernel_size - 1) - 1) / stride - ) - - -def conv1d_receptive_field_size(num_frames=1, kernel_size=5, stride=1, dilation=1): - """Compute receptive field size for `num_frames` frames after 1D convolution - - Parameters - ---------- - num_frames : int, optional - Number of frames in the output signal - kernel_size : int - Kernel size - stride : int - Stride - dilation : int - Dilation - - Returns - ------- - receptive_field : int - Receptive field size - """ - - return 1 + (kernel_size - 1) * dilation + (num_frames - 1) * stride diff --git a/pyannote/audio/utils/receptive_field.py b/pyannote/audio/utils/receptive_field.py new file mode 100644 index 000000000..324c60f16 --- /dev/null +++ b/pyannote/audio/utils/receptive_field.py @@ -0,0 +1,163 @@ +# MIT License +# +# Copyright (c) 2023 CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in all +# copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + + +import math +from typing import List + + +def conv1d_num_frames( + num_samples, kernel_size=5, stride=1, padding=0, dilation=1 +) -> int: + """Compute expected number of frames after 1D convolution + + Parameters + ---------- + num_samples : int + Number of samples in the input signal + kernel_size : int + Kernel size + stride : int + Stride + padding : int + Padding + dilation : int + Dilation + + Returns + ------- + num_frames : int + Number of frames in the output signal + + Source + ------ + https://pytorch.org/docs/stable/generated/torch.nn.Conv1d.html#torch.nn.Conv1d + """ + return math.floor( + 1 + (num_samples + 2 * padding - dilation * (kernel_size - 1) - 1) / stride + ) + + +def multi_conv_num_frames( + num_samples: int, + kernel_size: List[int] = None, + stride: List[int] = None, + padding: List[int] = None, + dilation: List[int] = None, +) -> int: + num_frames = num_samples + for k, s, p, d in zip(kernel_size, stride, padding, dilation): + num_frames = conv1d_num_frames( + num_frames, kernel_size=k, stride=s, padding=p, dilation=d + ) + + return num_frames + + +def conv1d_receptive_field_size(num_frames=1, kernel_size=5, stride=1, dilation=1): + """Compute size of receptive field + + Parameters + ---------- + num_frames : int, optional + Number of frames in the output signal + kernel_size : int + Kernel size + stride : int + Stride + dilation : int + Dilation + + Returns + ------- + size : int + Receptive field size + """ + + effective_kernel_size = 1 + (kernel_size - 1) * dilation + return effective_kernel_size + (num_frames - 1) * stride + + +def multi_conv_receptive_field_size( + num_frames: int, + kernel_size: List[int] = None, + stride: List[int] = None, + padding: List[int] = None, + dilation: List[int] = None, +) -> int: + receptive_field_size = num_frames + for k, s, d in reversed(list(zip(kernel_size, stride, dilation))): + receptive_field_size = conv1d_receptive_field_size( + num_frames=receptive_field_size, + kernel_size=k, + stride=s, + dilation=d, + ) + return receptive_field_size + + +def conv1d_receptive_field_center( + frame=0, kernel_size=5, stride=1, padding=0, dilation=1 +) -> int: + """Compute center of receptive field + + Parameters + ---------- + frame : int + Frame index + kernel_size : int + Kernel size + stride : int + Stride + padding : int + Padding + dilation : int + Dilation + + Returns + ------- + center : int + Index of receptive field center + """ + + effective_kernel_size = 1 + (kernel_size - 1) * dilation + return frame * stride + (effective_kernel_size - 1) / 2 - padding + + +def multi_conv_receptive_field_center( + frame: int, + kernel_size: List[int] = None, + stride: List[int] = None, + padding: List[int] = None, + dilation: List[int] = None, +) -> int: + receptive_field_center = frame + for k, s, p, d in reversed(list(zip(kernel_size, stride, padding, dilation))): + receptive_field_center = conv1d_receptive_field_center( + frame=receptive_field_center, + kernel_size=k, + stride=s, + padding=p, + dilation=d, + ) + + return receptive_field_center From c3cc56cba55d50dc577303fd19ea020948c9da02 Mon Sep 17 00:00:00 2001 From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com> Date: Thu, 8 Feb 2024 16:16:46 +0100 Subject: [PATCH 25/45] fix(task): fix estimation of training set size (#1644) --- CHANGELOG.md | 1 + pyannote/audio/tasks/segmentation/mixins.py | 5 ++++- 2 files changed, 5 insertions(+), 1 deletion(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 514499b13..8b3aee905 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -16,6 +16,7 @@ ### Fixes - fix(task): fix random generators +- fix(task): fix estimation of training set size ### Improvements diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index 9c5bcd792..cbdbbb7a1 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -255,8 +255,11 @@ def collate_fn(self, batch, stage="train"): def train__len__(self): # Number of training samples in one epoch + train_file_ids = np.where( + self.prepared_data["audio-metadata"]["subset"] == Subsets.index("train") + )[0] - duration = np.sum(self.prepared_data["audio-annotated"]) + duration = np.sum(self.prepared_data["audio-annotated"][train_file_ids]) return max(self.batch_size, math.ceil(duration / self.duration)) def prepare_validation(self, prepared_data: Dict): From 8b66bfd7ead4bb016497500bc95c48e5dac73294 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 8 Feb 2024 16:17:32 +0100 Subject: [PATCH 26/45] fix(util): ensure integer receptive field size (#1645) --- pyannote/audio/utils/receptive_field.py | 9 +++------ 1 file changed, 3 insertions(+), 6 deletions(-) diff --git a/pyannote/audio/utils/receptive_field.py b/pyannote/audio/utils/receptive_field.py index 324c60f16..0e484e4ad 100644 --- a/pyannote/audio/utils/receptive_field.py +++ b/pyannote/audio/utils/receptive_field.py @@ -20,8 +20,6 @@ # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. - -import math from typing import List @@ -52,9 +50,7 @@ def conv1d_num_frames( ------ https://pytorch.org/docs/stable/generated/torch.nn.Conv1d.html#torch.nn.Conv1d """ - return math.floor( - 1 + (num_samples + 2 * padding - dilation * (kernel_size - 1) - 1) / stride - ) + return 1 + (num_samples + 2 * padding - dilation * (kernel_size - 1) - 1) // stride def multi_conv_num_frames( @@ -105,6 +101,7 @@ def multi_conv_receptive_field_size( dilation: List[int] = None, ) -> int: receptive_field_size = num_frames + for k, s, d in reversed(list(zip(kernel_size, stride, dilation))): receptive_field_size = conv1d_receptive_field_size( num_frames=receptive_field_size, @@ -140,7 +137,7 @@ def conv1d_receptive_field_center( """ effective_kernel_size = 1 + (kernel_size - 1) * dilation - return frame * stride + (effective_kernel_size - 1) / 2 - padding + return frame * stride + (effective_kernel_size - 1) // 2 - padding def multi_conv_receptive_field_center( From 6e22f41af9994f23f9b94ae4a09d9b9ca39ab4c7 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 8 Feb 2024 16:18:10 +0100 Subject: [PATCH 27/45] improve(pipeline): track all Module instances (not just Model's) (#1646) --- CHANGELOG.md | 1 + pyannote/audio/core/pipeline.py | 3 ++- 2 files changed, 3 insertions(+), 1 deletion(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 8b3aee905..2eead17a8 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -21,6 +21,7 @@ ### Improvements - improve(metric): add support for number of speakers mismatch in `diarization_error_rate` metric +- improve(pipeline): track both `Model` and `nn.Module` attributes in `Pipeline.to(device)` ## Breaking changes diff --git a/pyannote/audio/core/pipeline.py b/pyannote/audio/core/pipeline.py index f844d584f..24e266abf 100644 --- a/pyannote/audio/core/pipeline.py +++ b/pyannote/audio/core/pipeline.py @@ -29,6 +29,7 @@ from typing import Callable, Dict, List, Optional, Text, Union import torch +import torch.nn as nn import yaml from huggingface_hub import hf_hub_download from huggingface_hub.utils import RepositoryNotFoundError @@ -232,7 +233,7 @@ def remove_from(*dicts): _models = self.__dict__.get("_models") _inferences = self.__dict__.get("_inferences") - if isinstance(value, Model): + if isinstance(value, nn.Module): if _models is None: msg = "cannot assign models before Pipeline.__init__() call" raise AttributeError(msg) From a810a5a53ac6e241606fd4ec822ea842f4c0a9b5 Mon Sep 17 00:00:00 2001 From: FrenchKrab <14005967+FrenchKrab@users.noreply.github.com> Date: Thu, 15 Feb 2024 08:27:52 +0100 Subject: [PATCH 28/45] fix: fix seeding in `create_rng_for_worker` (#1649) --- CHANGELOG.md | 2 +- pyannote/audio/utils/random.py | 18 +++++++++--------- 2 files changed, 10 insertions(+), 10 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 2eead17a8..bb1199509 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -15,7 +15,7 @@ ### Fixes -- fix(task): fix random generators +- fix(task): fix random generators and their reproducibility - fix(task): fix estimation of training set size ### Improvements diff --git a/pyannote/audio/utils/random.py b/pyannote/audio/utils/random.py index 4980d3520..0006ad612 100644 --- a/pyannote/audio/utils/random.py +++ b/pyannote/audio/utils/random.py @@ -22,6 +22,7 @@ import os +import zlib from random import Random import torch @@ -51,16 +52,15 @@ def create_rng_for_worker(model) -> Random: else: worker_id = worker_info.id - seed = hash( - ( - global_seed, - worker_id, - model.local_rank, - model.global_rank, - model.current_epoch, - ) + seed_tuple = ( + global_seed, + worker_id, + model.local_rank, + model.global_rank, + model.current_epoch, ) - + # use adler32 because python's `hash` is not deterministic. + seed = zlib.adler32(str(seed_tuple).encode()) rng.seed(seed) return rng From 5b3ed0612953e5d01fe67fb2474c390d8ec47083 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Cl=C3=A9ment=20Pag=C3=A9s?= <55240756+clement-pages@users.noreply.github.com> Date: Sun, 25 Feb 2024 20:37:47 +0100 Subject: [PATCH 29/45] doc: update tutorials notebooks --- tutorials/adapting_pretrained_pipeline.ipynb | 16 +- tutorials/add_your_own_model.ipynb | 285 +----- tutorials/add_your_own_task.ipynb | 381 +------- tutorials/applying_a_model.ipynb | 438 +-------- tutorials/applying_a_pipeline.ipynb | 401 +-------- tutorials/assets/download-model.png | Bin 482731 -> 316384 bytes tutorials/intro.ipynb | 11 +- tutorials/overlapped_speech_detection.ipynb | 398 +++++++-- tutorials/training_a_model.ipynb | 887 +------------------ tutorials/training_with_cli.md | 61 +- tutorials/voice_activity_detection.ipynb | 650 +------------- 11 files changed, 401 insertions(+), 3127 deletions(-) diff --git a/tutorials/adapting_pretrained_pipeline.ipynb b/tutorials/adapting_pretrained_pipeline.ipynb index d7096fb77..ee749fd80 100644 --- a/tutorials/adapting_pretrained_pipeline.ipynb +++ b/tutorials/adapting_pretrained_pipeline.ipynb @@ -43,9 +43,7 @@ "id": "CZjbjOBBDrdm" }, "source": [ - "## Installation\n", - "\n", - "Let's start by installing `pyannote.audio` 2.1.1 (and `rich` for pretty progress bars)." + "## Installation\n" ] }, { @@ -66,7 +64,7 @@ "id": "ndQ10VIf2W1c" }, "source": [ - "⚠ Restart the runtime (Runtime > Restart runtime). \n", + "⚠ Restart the runtime (Runtime > Restart session). \n", "If you don't, `pyannote.database` will throw an error below." ] }, @@ -154,10 +152,10 @@ }, "outputs": [], "source": [ - "import os\n", - "os.environ[\"PYANNOTE_DATABASE_CONFIG\"] = \"/content/AMI-diarization-setup/pyannote/database.yml\"\n", - "from pyannote.database import get_protocol, FileFinder\n", - "dataset = get_protocol(\"AMI-SDM.SpeakerDiarization.mini\", {\"audio\": FileFinder()})" + "from pyannote.database import registry, FileFinder\n", + "\n", + "registry.load_database(\"AMI-diarization-setup/pyannote/database.yml\")\n", + "dataset = registry.get_protocol(\"AMI-SDM.SpeakerDiarization.mini\", {\"audio\": FileFinder()})" ] }, { @@ -345,7 +343,7 @@ " vad_loss=\"bce\")\n", "model.task = task\n", "model.prepare_data()\n", - "model.setup(stage=\"fit\")" + "model.setup()" ] }, { diff --git a/tutorials/add_your_own_model.ipynb b/tutorials/add_your_own_model.ipynb index 30020f8a9..487932588 100644 --- a/tutorials/add_your_own_model.ipynb +++ b/tutorials/add_your_own_model.ipynb @@ -1,284 +1 @@ -{ - "cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Defining a custom model\n", - "\n", - "A collection of models is readily available in `pyannote.audio.models` but you will eventually want to try your own architecture. \n", - "\n", - "This tutorial explains how to define (and then use) your own model. " - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from typing import Optional\n", - "import torch\n", - "import torch.nn as nn\n", - "from pyannote.audio import Model\n", - "from pyannote.audio.core.task import Task, Resolution\n", - "from torchaudio.transforms import MFCC\n", - "\n", - "# Your custom model must be a subclass of `pyannote.audio.Model`,\n", - "# which is a subclass of `pytorch_lightning.LightningModule`, \n", - "# which is a subclass of `torch.nn.Module`.\n", - "class MyCustomModel(Model):\n", - " \"\"\"My custom model\"\"\"\n", - "\n", - "\n", - " def __init__(\n", - " self,\n", - " sample_rate: int = 16000, \n", - " num_channels: int = 1, \n", - " task: Optional[Task] = None,\n", - " param1: int = 32,\n", - " param2: int = 16,\n", - " ):\n", - "\n", - " # First three parameters (sample_rate, num_channels, and task)\n", - " # must be there and passed to super().__init__()\n", - " super().__init__(sample_rate=sample_rate, \n", - " num_channels=num_channels, \n", - " task=task)\n", - "\n", - " # Mark param1 and param2 as hyper-parameters.\n", - " self.save_hyperparameters(\"param1\", \"param2\")\n", - "\n", - " # They will be saved automatically into checkpoints.\n", - " # They are now also available in self.hparams:\n", - " # - param1 == self.hparams.param1\n", - " # - param2 == self.hparams.param2\n", - "\n", - " # Layers that do not depend on the addressed task should be defined in '__init__'.\n", - " self.mfcc = MFCC()\n", - " self.linear1 = nn.Linear(self.mfcc.n_mfcc, self.hparams.param1)\n", - " self.linear2 = nn.Linear(self.hparams.param1, self.hparams.param2)\n", - "\n", - " def build(self):\n", - " # Add layers that depend on the specifications of the task addressed \n", - " # by this model.\n", - "\n", - " # For instance, this simple model could be used for \"speech vs. non-speech\"\n", - " # or \"speech vs. music vs. other\" classification and the only difference\n", - " # would lie in the number of classes (2 or 3) in the final classifier.\n", - " \n", - " # Since task specifications are not available at the time '__init__' is called,\n", - " # task-dependent layers can only be added a 'build' time (where task specifications\n", - " # are available in 'specifications' attribute)\n", - " \n", - " num_classes = len(self.specifications.classes)\n", - " self.classifier = nn.Linear(self.hparams.param2, num_classes)\n", - "\n", - " # 'specifications' has several attributes describing what the task is:\n", - " # - classes: the list of classes\n", - " # - problem: the type of machine learning problem (e.g. binary \n", - " # classification or representation learning) \n", - " # - duration: the duration of input audio chunks, in seconds\n", - " # - resolution: the resolution of the output (e.g. frame-wise scores\n", - " # for voice activity detection or chunk-wise vector for speaker \n", - " # embedding)\n", - " # - permutation_invariant : whether classes are permutation-invariant\n", - " # (e.g. in the case of speaker diarization)\n", - "\n", - " # Depending on the type of 'problem', 'default_activation' can be used\n", - " # to automatically guess what the final activation should be (e.g. softmax\n", - " # for multi-class classification or sigmoid for multi-label classification).\n", - " self.activation = self.default_activation()\n", - "\n", - " # You obviously do not _have_ to use 'default_activation' and can choose to\n", - " # use any activation you see fit (or even not use any activation layer). But\n", - " # note that pyannote.audio tasks also define default loss functions that are\n", - " # consistent with `default_activation` (e.g. binary cross entropy with softmax\n", - " # for binary classification tasks)\n", - " \n", - " def forward(self, waveforms: torch.Tensor) -> torch.Tensor:\n", - "\n", - " # Models are expected to work on batches of audio chunks provided as tensors\n", - " # with shape (batch_size, num_channels, num_samples) and using the sample rate \n", - " # passed to __init__. Resampling will be done automatically for you so you do \n", - " # not have to bother about that when preparing the data.\n", - "\n", - " # Extract sequence of MFCCs and passed them through two linear layers\n", - " mfcc = self.mfcc(waveforms).squeeze(dim=1).transpose(1, 2)\n", - " output = self.linear1(mfcc)\n", - " output = self.linear2(output)\n", - "\n", - " # Apply temporal pooling for tasks which need an output at chunk-level. \n", - " if self.specifications.resolution == Resolution.CHUNK:\n", - " output = torch.mean(output, dim=-1)\n", - " # Keep 'mfcc' frame resolution for frame-level tasks.\n", - " elif self.specifications.resolution == Resolution.FRAME:\n", - " pass\n", - " \n", - " # Apply final classifier and activation function\n", - " output = self.classifier(output)\n", - " return self.activation(output) " - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Using your model with `pyannote.audio` API \n", - "\n", - "Your model can now be used like any other builtin model." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "# initialize your experimental protocol\n", - "from pyannote.database import get_protocol\n", - "protocol = get_protocol('Debug.SpeakerDiarization.Debug')\n", - "\n", - "# initialize the task you want to address\n", - "from pyannote.audio.tasks import VoiceActivityDetection\n", - "task = VoiceActivityDetection(protocol)\n", - "\n", - "# initialize the model\n", - "model = MyCustomModel(task=task)\n", - "\n", - "# train the model\n", - "from pytorch_lightning import Trainer\n", - "trainer = Trainer(max_epochs=1)\n", - "trainer.fit(model)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Using your model with `pyannote-audio-train` CLI\n", - "\n", - "1. Define your model in a proper Python package:\n", - "\n", - "```\n", - "/your/favorite/directory/\n", - " your_package_name/\n", - " __init__.py # needs to be here but can be empty\n", - " custom_model.py # contains the above definition of your model \n", - "```\n", - "\n", - "2. Add the package to your `PYTHONPATH`:\n", - "\n", - "```bash\n", - "$ export PYTHONPATH=/your/favorite/directory\n", - "```\n", - "\n", - "3. Check that you can import it from Python:\n", - "\n", - "```python\n", - ">>> from your_package_name.custom_model import MyCustomModel\n", - "```\n", - "\n", - "4. Tell `Hydra` (on which `pyannote-audio-train` is based) about this new model:\n", - "\n", - "```\n", - "/your/favorite/directory/\n", - " custom_config/\n", - " model/\n", - " MyCustomModel.yaml\n", - "```\n", - "\n", - "where the content of `MyCustomModel.yaml` is as follows:\n", - "\n", - "```yaml\n", - "# @package _group_\n", - "_target_: your_package_name.custom_model.MyCustomModel\n", - "param1: 32\n", - "param2: 16\n", - "```\n", - "\n", - "5. Enjoy\n", - "\n", - "```bash\n", - "$ pyannote-audio-train --config-dir=/your/favorite/directory/custom_config \\\n", - " protocol=Debug.SpeakerDiarization.Debug \\\n", - " task=VoiceActivityDetection \\\n", - " model=MyCustomModel \\\n", - " model.param2=12 \n", - "```" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Contributing your model to `pyannote-audio` \n", - "\n", - "1. Add your model in `pyannote.audio.models`.\n", - "\n", - "```\n", - "pyannote/\n", - " audio/\n", - " models/\n", - " custom_model.py \n", - "```\n", - "\n", - "2. Check that you can import it from Python:\n", - "\n", - "```python\n", - ">>> from pyannote.audio.models.custom_model import MyCustomModel\n", - "```\n", - "\n", - "3. Add the corresponding `Hydra` configuration file:\n", - "\n", - "```\n", - "pyannote/\n", - " audio/\n", - " cli/\n", - " train_config/\n", - " model/\n", - " MyCustomModel.yaml\n", - "```\n", - "\n", - "where the content of `MyCustomModel.yaml` is as follows:\n", - "\n", - "```yaml\n", - "# @package _group_\n", - "_target_: pyannote.audio.models.custom_model.MyCustomModel\n", - "param1: 32\n", - "param2: 16\n", - "```\n", - "\n", - "4. Enjoy\n", - "\n", - "```bash\n", - "$ pyannote-audio-train protocol=Debug.SpeakerDiarization.Debug \\\n", - " task=VoiceActivityDetection \\\n", - " model=MyCustomModel \\\n", - " model.param2=12 \n", - "```" - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.8.5" - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} +{"cells":[{"cell_type":"markdown","metadata":{"id":"kY1p-wCLHw92"},"source":["# Add your own model"]},{"cell_type":"markdown","metadata":{"id":"iD_DNGmmHs9v"},"source":["\"Open"]},{"cell_type":"markdown","metadata":{"id":"hhBTSvk6H_JC"},"source":["## Tutorial setup"]},{"cell_type":"markdown","metadata":{"id":"r-ocA5Z8PqNl"},"source":["### `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"I7lc6ctfIBv-"},"source":["If you are running this tutorial on `Colab`, execute the following commands in order to setup `Colab` environment. These commands will install `pyannote.audio` and download a mini version of the `AMI` corpus."]},{"cell_type":"code","execution_count":null,"metadata":{"id":"l07Xq_UAIUFE"},"outputs":[],"source":["!pip install -qq pyannote.audio==3.1.1\n","!pip install -qq ipython==7.34.0\n","!git clone https://github.com/pyannote/AMI-diarization-setup.git\n","%cd ./AMI-diarization-setup/pyannote/\n","!bash ./download_ami_mini.sh\n","%cd /content"]},{"cell_type":"markdown","metadata":{"id":"3rjw5hATOv_c"},"source":["⚠ Restart the runtime (Runtime > Restart session)."]},{"cell_type":"markdown","metadata":{},"source":["### Non `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"VdMVQD-9QAto"},"source":["If you are not using `Colab`, this tutorial assumes that\n","* `pyannote.audio` has been installed\n","* the [AMI corpus](https://groups.inf.ed.ac.uk/ami/corpus/) has already been [setup for use with `pyannote`](https://github.com/pyannote/AMI-diarization-setup/tree/main/pyannote)"]},{"cell_type":"markdown","metadata":{"id":"kuemd4PWHeqh"},"source":["## Defining a custom model\n","\n","A collection of models is readily available in `pyannote.audio.models` but you will eventually want to try your own architecture.\n","\n","This tutorial explains how to define (and then use) your own model. "]},{"cell_type":"code","execution_count":18,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":12960,"status":"ok","timestamp":1704802939163,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"kNwQfnTOHeqm","outputId":"5f71bde3-5f13-4431-918f-6e1ca3ddd518"},"outputs":[],"source":["from typing import Optional\n","import torch\n","import torch.nn as nn\n","from pyannote.audio import Model\n","from pyannote.core import SlidingWindow\n","from pyannote.audio.core.task import Task, Resolution\n","from torchaudio.transforms import MFCC\n","\n","# Your custom model must be a subclass of `pyannote.audio.Model`,\n","# which is a subclass of `pytorch_lightning.LightningModule`,\n","# which is a subclass of `torch.nn.Module`.\n","class MyCustomModel(Model):\n"," \"\"\"My custom model\"\"\"\n","\n","\n"," def __init__(\n"," self,\n"," sample_rate: int = 16000,\n"," num_channels: int = 1,\n"," task: Optional[Task] = None,\n"," param1: int = 32,\n"," param2: int = 16,\n"," ):\n","\n"," # First three parameters (sample_rate, num_channels, and task)\n"," # must be there and passed to super().__init__()\n"," super().__init__(sample_rate=sample_rate,\n"," num_channels=num_channels,\n"," task=task)\n","\n"," # Mark param1 and param2 as hyper-parameters.\n"," self.save_hyperparameters(\"param1\", \"param2\")\n","\n"," # They will be saved automatically into checkpoints.\n"," # They are now also available in self.hparams:\n"," # - param1 == self.hparams.param1\n"," # - param2 == self.hparams.param2\n","\n"," # Layers that do not depend on the addressed task should be defined in '__init__'.\n"," self.mfcc = MFCC()\n"," self.linear1 = nn.Linear(self.mfcc.n_mfcc, self.hparams.param1)\n"," self.linear2 = nn.Linear(self.hparams.param1, self.hparams.param2)\n","\n"," def num_frames(self, num_samples: int) -> int:\n"," # Compute number of output frames for a given number of input samples\n"," hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length\n"," n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft\n"," center = self.mfcc.MelSpectrogram.spectrogram.center\n"," return (\n"," 1 + num_samples // hop_length\n"," if center\n"," else 1 + (num_samples - n_fft) // hop_length\n"," )\n","\n"," def receptive_field_size(self, num_frames: int = 1) -> int:\n"," # Compute receptive field size\n"," hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length\n"," n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft\n"," center = self.mfcc.MelSpectrogram.spectrogram.center\n","\n"," if center:\n"," return (num_frames - 1) * hop_length\n"," else:\n"," return (num_frames - 1) * hop_length + n_fft\n","\n"," def receptive_field(self) -> SlidingWindow:\n"," # Compute receptive field\n","\n"," # duration of the receptive field of each output frame\n"," duration = (\n"," self.mfcc.MelSpectrogram.spectrogram.win_length / self.hparams.sample_rate\n"," )\n","\n"," # step between the receptive field region of two consecutive output frames\n"," step = (\n"," self.mfcc.MelSpectrogram.spectrogram.hop_length / self.hparams.sample_rate\n"," )\n","\n"," return SlidingWindow(start=0.0, duration=duration, step=step)\n","\n"," def build(self):\n"," # Add layers that depend on the specifications of the task addressed\n"," # by this model.\n","\n"," # For instance, this simple model could be used for \"speech vs. non-speech\"\n"," # or \"speech vs. music vs. other\" classification and the only difference\n"," # would lie in the number of classes (2 or 3) in the final classifier.\n","\n"," # Since task specifications are not available at the time '__init__' is called,\n"," # task-dependent layers can only be added a 'build' time (where task specifications\n"," # are available in 'specifications' attribute)\n","\n"," num_classes = len(self.specifications.classes)\n"," self.classifier = nn.Linear(self.hparams.param2, num_classes)\n","\n"," # 'specifications' has several attributes describing what the task is:\n"," # - classes: the list of classes\n"," # - problem: the type of machine learning problem (e.g. binary\n"," # classification or representation learning)\n"," # - duration: the duration of input audio chunks, in seconds\n"," # - resolution: the resolution of the output (e.g. frame-wise scores\n"," # for voice activity detection or chunk-wise vector for speaker\n"," # embedding)\n"," # - permutation_invariant : whether classes are permutation-invariant\n"," # (e.g. in the case of speaker diarization)\n","\n"," # Depending on the type of 'problem', 'default_activation' can be used\n"," # to automatically guess what the final activation should be (e.g. softmax\n"," # for multi-class classification or sigmoid for multi-label classification).\n"," self.activation = self.default_activation()\n","\n"," # You obviously do not _have_ to use 'default_activation' and can choose to\n"," # use any activation you see fit (or even not use any activation layer). But\n"," # note that pyannote.audio tasks also define default loss functions that are\n"," # consistent with `default_activation` (e.g. binary cross entropy with softmax\n"," # for binary classification tasks)\n","\n"," def forward(self, waveforms: torch.Tensor) -> torch.Tensor:\n","\n"," # Models are expected to work on batches of audio chunks provided as tensors\n"," # with shape (batch_size, num_channels, num_samples) and using the sample rate\n"," # passed to __init__. Resampling will be done automatically for you so you do\n"," # not have to bother about that when preparing the data.\n","\n"," # Extract sequence of MFCCs and passed them through two linear layers\n"," mfcc = self.mfcc(waveforms).squeeze(dim=1).transpose(1, 2)\n"," output = self.linear1(mfcc)\n"," output = self.linear2(output)\n","\n"," # Apply temporal pooling for tasks which need an output at chunk-level.\n"," if self.specifications.resolution == Resolution.CHUNK:\n"," output = torch.mean(output, dim=-1)\n"," # Keep 'mfcc' frame resolution for frame-level tasks.\n"," elif self.specifications.resolution == Resolution.FRAME:\n"," pass\n","\n"," # Apply final classifier and activation function\n"," output = self.classifier(output)\n"," return self.activation(output)"]},{"cell_type":"markdown","metadata":{"id":"BuieqViJHeqp"},"source":["## Using your model with `pyannote.audio` API\n","\n","Your model can now be used like any other builtin model."]},{"cell_type":"code","execution_count":null,"metadata":{"id":"qwTjuGuvHeqr"},"outputs":[],"source":["# initialize your experimental protocol\n","from pyannote.database import registry, FileFinder\n","\n","registry.load_database(\"./AMI-diarization-setup/pyannote/database.yml\")\n","protocol = registry.get_protocol('AMI.SpeakerDiarization.mini', preprocessors={\"audio\": FileFinder()})\n","\n","# initialize the task you want to address\n","from pyannote.audio.tasks import VoiceActivityDetection\n","task = VoiceActivityDetection(protocol)\n","\n","# initialize the model\n","model = MyCustomModel(task=task)\n","\n","# train the model\n","from pytorch_lightning import Trainer\n","trainer = Trainer(max_epochs=1)\n","trainer.fit(model)"]},{"cell_type":"markdown","metadata":{"id":"4qidmGQyHeqt"},"source":["## Using your model with `pyannote-audio-train` CLI\n","\n","1. Define your model in a proper Python package:\n","\n","```\n","/your/favorite/directory/\n"," your_package_name/\n"," __init__.py # needs to be here but can be empty\n"," custom_model.py # contains the above definition of your model\n","```\n","\n","2. Add the package to your `PYTHONPATH`:\n","\n","```bash\n","$ export PYTHONPATH=/your/favorite/directory\n","```\n","\n","3. Check that you can import it from Python:\n","\n","```python\n",">>> from your_package_name.custom_model import MyCustomModel\n","```\n","\n","4. Tell `Hydra` (on which `pyannote-audio-train` is based) about this new model:\n","\n","```\n","/your/favorite/directory/\n"," custom_config/\n"," model/\n"," MyCustomModel.yaml\n","```\n","\n","where the content of `MyCustomModel.yaml` is as follows:\n","\n","```yaml\n","# @package _group_\n","_target_: your_package_name.custom_model.MyCustomModel\n","param1: 32\n","param2: 16\n","```\n","\n","5. Enjoy\n","\n","```bash\n","$ pyannote-audio-train --config-dir=/your/favorite/directory/custom_config \\\n"," protocol=Debug.SpeakerDiarization.Debug \\\n"," task=VoiceActivityDetection \\\n"," model=MyCustomModel \\\n"," model.param2=12\n","```"]},{"cell_type":"markdown","metadata":{"id":"8W2UT1IpHequ"},"source":["## Contributing your model to `pyannote-audio`\n","\n","1. Add your model in `pyannote.audio.models`.\n","\n","```\n","pyannote/\n"," audio/\n"," models/\n"," custom_model.py \n","```\n","\n","2. Check that you can import it from Python:\n","\n","```python\n",">>> from pyannote.audio.models.custom_model import MyCustomModel\n","```\n","\n","3. Add the corresponding `Hydra` configuration file:\n","\n","```\n","pyannote/\n"," audio/\n"," cli/\n"," train_config/\n"," model/\n"," MyCustomModel.yaml\n","```\n","\n","where the content of `MyCustomModel.yaml` is as follows:\n","\n","```yaml\n","# @package _group_\n","_target_: pyannote.audio.models.custom_model.MyCustomModel\n","param1: 32\n","param2: 16\n","```\n","\n","4. Enjoy\n","\n","```bash\n","$ pyannote-audio-train protocol=Debug.SpeakerDiarization.Debug \\\n"," task=VoiceActivityDetection \\\n"," model=MyCustomModel \\\n"," model.param2=12\n","```"]}],"metadata":{"accelerator":"GPU","colab":{"gpuType":"T4","provenance":[]},"kernelspec":{"display_name":"Python 3","name":"python3"},"language_info":{"codemirror_mode":{"name":"ipython","version":3},"file_extension":".py","mimetype":"text/x-python","name":"python","nbconvert_exporter":"python","pygments_lexer":"ipython3","version":"3.10.13"}},"nbformat":4,"nbformat_minor":0} diff --git a/tutorials/add_your_own_task.ipynb b/tutorials/add_your_own_task.ipynb index 7fe7858cb..b572e3d28 100644 --- a/tutorials/add_your_own_task.ipynb +++ b/tutorials/add_your_own_task.ipynb @@ -1,380 +1 @@ -{ - "cells": [ - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Defining a custom task\n", - "\n", - "In `pyannote.audio`, a *task* is a combination of a **_problem_** that needs to be addressed and an **experimental protocol**.\n", - "\n", - "For example, one can address **_voice activity detection_** following the **AMI only_words** experimental protocol, by instantiating the following *task*:\n" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "# this assumes that the AMI corpus has been setup for diarization\n", - "# according to https://github.com/pyannote/AMI-diarization-setup\n", - "import os\n", - "os.environ['PYANNOTE_DATABASE_CONFIG'] = '/Users/bredin/Development/pyannote/pyannote-db/AMI-diarization-setup/pyannote/database.yml'\n", - "\n", - "from pyannote.database import get_protocol, FileFinder\n", - "ami = get_protocol('AMI.SpeakerDiarization.only_words', \n", - " preprocessors={'audio': FileFinder()})\n", - "\n", - "# address voice activity detection\n", - "from pyannote.audio.tasks import VoiceActivityDetection\n", - "task = VoiceActivityDetection(ami)" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "A growing collection of tasks is readily available in `pyannote.audio.tasks`..." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.tasks import __all__ as TASKS; print('\\n'.join(TASKS))" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "... but you will eventually want to use `pyannote.audio` to address a different task. \n", - "In this example, we will add a new task addressing the **sound event detection** problem.\n", - "\n" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Problem specification\n", - "\n", - "A problem is expected to be solved by a model $f$ that takes an audio chunk $X$ as input and returns its predicted solution $\\hat{y} = f(X)$. \n", - "\n", - "### Resolution\n", - "\n", - "Depending on the addressed problem, you might expect the model to output just one prediction for the whole audio chunk (`Resolution.CHUNK`) or a temporal sequence of predictions (`Resolution.FRAME`).\n", - "\n", - "In our particular case, we would like the model to provide one decision for the whole chunk:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.core.task import Resolution\n", - "resolution = Resolution.CHUNK" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "### Type of problem\n", - "\n", - "Similarly, the type of your problem may fall into one of these generic machine learning categories:\n", - "* `Problem.BINARY_CLASSIFICATION` for binary classification\n", - "* `Problem.MONO_LABEL_CLASSIFICATION` for multi-class classification \n", - "* `Problem.MULTI_LABEL_CLASSIFICATION` for multi-label classification\n", - "* `Problem.REGRESSION` for regression\n", - "* `Problem.REPRESENTATION` for representation learning\n", - "\n", - "In our particular case, we would like the model to do multi-label classification because one audio chunk may contain multiple sound events:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.core.task import Problem\n", - "problem = Problem.MULTI_LABEL_CLASSIFICATION" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.core.task import Specifications\n", - "specifications = Specifications(\n", - " problem=problem,\n", - " resolution=resolution,\n", - " duration=5.0,\n", - " classes=[\"Speech\", \"Dog\", \"Cat\", \"Alarm_bell_ringing\", \"Dishes\", \n", - " \"Frying\", \"Blender\", \"Running_water\", \"Vacuum_cleaner\", \n", - " \"Electric_shaver_toothbrush\"],\n", - ")" - ] - }, - { - "attachments": {}, - "cell_type": "markdown", - "metadata": {}, - "source": [ - "A task is expected to be solved by a model $f$ that (usually) takes an audio chunk $X$ as input and returns its predicted solution $\\hat{y} = f(X)$. \n", - "\n", - "To help training the model $f$, the task $\\mathcal{T}$ is in charge of \n", - "- generating $(X, y)$ training samples using the **dataset**\n", - "- defining the loss function $\\mathcal{L}(y, \\hat{y})$\n" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from math import ceil\n", - "from typing import Dict, Optional, Tuple, Union\n", - "import numpy as np\n", - "from pyannote.core import Segment, SlidingWindow\n", - "from pyannote.audio.utils.random import create_rng_for_worker\n", - "from pyannote.audio.core.task import Task, Resolution\n", - "from pyannote.database import Protocol\n", - "from torchmetrics.classification import MultilabelAUROC\n", - "\n", - "# Your custom task must be a subclass of `pyannote.audio.core.task.Task`\n", - "class SoundEventDetection(Task):\n", - " \"\"\"Sound event detection\"\"\"\n", - "\n", - " def __init__(\n", - " self,\n", - " protocol: Protocol,\n", - " duration: float = 5.0,\n", - " min_duration: float = 5.0,\n", - " warm_up: Union[float, Tuple[float, float]] = 0.0,\n", - " batch_size: int = 32,\n", - " num_workers: Optional[int] = None,\n", - " pin_memory: bool = False,\n", - " augmentation = None,\n", - " cache: Optional[Union[str, None]] = None,\n", - " **other_params,\n", - " ):\n", - "\n", - " super().__init__(\n", - " protocol,\n", - " duration=duration,\n", - " min_duration=min_duration,\n", - " warm_up=warm_up,\n", - " batch_size=batch_size,\n", - " num_workers=num_workers,\n", - " pin_memory=pin_memory,\n", - " augmentation=augmentation,\n", - " cache=cache,\n", - " )\n", - " \n", - " def prepare_data(self):\n", - " # this method is called to prepare data from the specified protocol. \n", - " # For most tasks, calling Task.prepare_data() is sufficient. If you \n", - " # need to prepare task-specific data, define a post_prepare_data method for your task.\n", - " super().prepare_data()\n", - "\n", - " def post_prepare_data(self, prepared_data: Dict):\n", - " # this method is called at the end of Task.prepare_data() \n", - " # to complete data preparation with task-specific data, here \n", - " # the list of classes and some training metadata\n", - "\n", - " # load metadata for training subset\n", - " prepared_data[\"train_metadata\"] = list()\n", - " for training_file in self.protocol.train():\n", - " prepared_data[\"train_metadata\"].append({\n", - " # path to audio file (str)\n", - " \"audio\": training_file[\"audio\"],\n", - " # duration of audio file (float)\n", - " \"duration\": training_file[\"torchaudio.info\"].num_frames / training_file[\"torchaudio.info\"].sample_rate,\n", - " # reference annotation (pyannote.core.Annotation)\n", - " \"annotation\": training_file[\"annotation\"],\n", - " })\n", - "\n", - " # gather the list of classes\n", - " classes = set()\n", - " for training_file in prepared_data[\"train_metadata\"]:\n", - " classes.update(training_file[\"annotation\"].labels())\n", - " prepared_data[\"classes\"] = sorted(classes)\n", - "\n", - " # `has_validation` is True if protocol defines a development set\n", - " if not self.has_validation:\n", - " return\n", - " \n", - " def prepare_validation(self, prepared_data : Dict):\n", - " # this method is called at the end of Task.prepare_data(), to complete data preparation\n", - " # with task validation elements\n", - " \n", - " # load metadata for validation subset\n", - " prepared_data[\"validation\"] = list()\n", - " for validation_file in self.protocol.development():\n", - " prepared_data[\"validation\"].append({\n", - " \"audio\": validation_file[\"audio\"],\n", - " \"num_samples\": validation_file[\"torchaudio.info\"].num_frames,\n", - " \"annotation\": validation_file[\"annotation\"],\n", - " })\n", - " \n", - " \n", - " def setup(self, stage: Optional[Union[str, None]] = None):\n", - " # this method assigns prepared data from task.prepare_data() to the task\n", - " # and declares the task specifications\n", - "\n", - " super().setup(stage)\n", - " \n", - " # specify the addressed problem\n", - " self.specifications = Specifications(\n", - " # it is a multi-label classification problem\n", - " problem=Problem.MULTI_LABEL_CLASSIFICATION,\n", - " # we expect the model to output one prediction \n", - " # for the whole chunk\n", - " resolution=Resolution.CHUNK,\n", - " # the model will ingest chunks with that duration (in seconds)\n", - " duration=self.duration,\n", - " # human-readable names of classes\n", - " classes=self.prepared_data[\"classes\"])\n", - " \n", - " def default_metric(self):\n", - " # this method defines the default metrics used to evaluate the model during\n", - " # a training\n", - " num_classes = len(self.specifications.classes)\n", - " return MultilabelAUROC(num_classes, average=\"macro\", compute_on_cpu=True)\n", - "\n", - " def train__iter__(self):\n", - " # this method generates training samples, one at a time, \"ad infinitum\". each worker \n", - " # of the dataloader will run it, independently from other workers. pyannote.audio and\n", - " # pytorch-lightning will take care of making batches out of it.\n", - "\n", - " # create worker-specific random number generator (RNG) to avoid this common bug:\n", - " # tanelp.github.io/posts/a-bug-that-plagues-thousands-of-open-source-ml-projects/\n", - " rng = create_rng_for_worker(self.model)\n", - "\n", - " # load list and number of classes\n", - " classes = self.specifications.classes\n", - " num_classes = len(classes)\n", - "\n", - " # yield training samples \"ad infinitum\"\n", - " while True:\n", - "\n", - " # select training file at random\n", - " random_training_file, *_ = rng.choices(self.prepared_data[\"train_metadata\"], k=1)\n", - "\n", - " # select one chunk at random \n", - " random_start_time = rng.uniform(0, random_training_file[\"duration\"] - self.duration)\n", - " random_chunk = Segment(random_start_time, random_start_time + self.duration)\n", - "\n", - " # load audio excerpt corresponding to random chunk\n", - " X = self.model.audio.crop(random_training_file[\"audio\"], \n", - " random_chunk, \n", - " fixed=self.duration)\n", - " \n", - " # load labels corresponding to random chunk as {0|1} numpy array\n", - " # y[k] = 1 means that kth class is active\n", - " y = np.zeros((num_classes,))\n", - " active_classes = random_training_file[\"annotation\"].crop(random_chunk).labels()\n", - " for active_class in active_classes:\n", - " y[classes.index(active_class)] = 1\n", - " \n", - " # yield training samples as a dict (use 'X' for input and 'y' for target)\n", - " yield {'X': X, 'y': y}\n", - "\n", - " def train__len__(self):\n", - " # since train__iter__ runs \"ad infinitum\", we need a way to define what an epoch is.\n", - " # this is the purpose of this method. it outputs the number of training samples that\n", - " # make an epoch.\n", - "\n", - " # we compute this number as the total duration of the training set divided by \n", - " # duration of training chunks. we make sure that an epoch is at least one batch long,\n", - " # or pytorch-lightning will complain\n", - " train_duration = sum(training_file[\"duration\"] for training_file in self.prepared_data[\"train_metadata\"])\n", - " return max(self.batch_size, ceil(train_duration / self.duration))\n", - "\n", - " def val__getitem__(self, sample_idx):\n", - "\n", - " # load list and number of classes\n", - " classes = self.specifications.classes\n", - " num_classes = len(classes)\n", - "\n", - "\n", - " # find which part of the validation set corresponds to sample_idx\n", - " num_samples = np.cumsum([\n", - " validation_file[\"num_samples\"] for validation_file in self.prepared_data[\"validation\"]])\n", - " file_idx = np.where(num_samples < sample_idx)[0][0]\n", - " validation_file = self.prepared_data[\"validation\"][file_idx]\n", - " idx = sample_idx - (num_samples[file_idx] - validation_file[\"num_samples\"]) \n", - " chunk = SlidingWindow(start=0., duration=self.duration, step=self.duration)[idx]\n", - "\n", - " # load audio excerpt corresponding to current chunk\n", - " X = self.model.audio.crop(validation_file[\"audio\"], chunk, fixed=self.duration)\n", - "\n", - " # load labels corresponding to random chunk as {0|1} numpy array\n", - " # y[k] = 1 means that kth class is active\n", - " y = np.zeros((num_classes,))\n", - " active_classes = validation_file[\"annotation\"].crop(chunk).labels()\n", - " for active_class in active_classes:\n", - " y[classes.index(active_class)] = 1\n", - "\n", - " return {'X': X, 'y': y}\n", - "\n", - " def val__len__(self):\n", - " return sum(validation_file[\"num_samples\"] \n", - " for validation_file in self.prepared_data[\"validation\"])\n", - "\n", - " # `pyannote.audio.core.task.Task` base class provides a `LightningModule.training_step` and \n", - " # `LightningModule.validation_step` methods that rely on self.specifications to guess which \n", - " # loss and metrics should be used. you can obviously choose to customize them. \n", - " # More details can be found in pytorch-lightning documentation and in \n", - " # pyannote.audio.core.task.Task source code. \n", - "\n", - " # def training_step(self, batch, batch_idx: int):\n", - " # return loss\n", - "\n", - " # def validation_step(self, batch, batch_idx: int):\n", - " # return metric\n", - "\n", - " # pyannote.audio.tasks.segmentation.mixin also provides a convenient mixin\n", - " # for \"segmentation\" tasks (ie. with Resolution.FRAME) that already defines\n", - " # a bunch of useful methods. You can use it by inheriting your task from the \n", - " # pyannote.audio.tasks.segmentation.mixinSegmentationTask\n" - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.10.13" - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} +{"cells":[{"cell_type":"markdown","metadata":{"id":"W7BMj2EZlWqU"},"source":["\"Open"]},{"cell_type":"markdown","metadata":{"id":"HG6OvaE4lWqZ"},"source":["# Defining a custom task"]},{"cell_type":"markdown","metadata":{"id":"c6LwrLYVlWqZ"},"source":["## Tutorial setup"]},{"cell_type":"markdown","metadata":{"id":"6lR9bgJBlWqb"},"source":["### `Google Colab` setup"]},{"cell_type":"markdown","metadata":{},"source":["If you are running this tutorial on `Colab`, execute the following commands in order to setup `Colab` environment. These commands will install `pyannote.audio` and download a mini version of the `AMI` corpus."]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":127254,"status":"ok","timestamp":1704809957597,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"6LoOS-PjlWqd","outputId":"cd92e2d4-83cc-4bb0-ad5c-824cb2ca11ac"},"outputs":[],"source":["!pip install -qq pyannote.audio==3.1.1\n","!pip install -qq ipython==7.34.0\n","!git clone https://github.com/pyannote/AMI-diarization-setup.git\n","%cd ./AMI-diarization-setup/pyannote/\n","!bash ./download_ami_mini.sh\n","%cd /content"]},{"cell_type":"markdown","metadata":{"id":"LsZTSX-ulWqf"},"source":["⚠ Restart the runtime (Runtime > Restart session)."]},{"cell_type":"markdown","metadata":{"id":"904hVjv8lWqg"},"source":["### Non `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"serWAfFxlWqh"},"source":["If you are not using `Colab`, this tutorial assumes that\n","* `pyannote.audio` has been installed\n","* the [AMI corpus](https://groups.inf.ed.ac.uk/ami/corpus/) has already been [setup for use with `pyannote`](https://github.com/pyannote/AMI-diarization-setup/tree/main/pyannote)"]},{"cell_type":"markdown","metadata":{"id":"uWyNce9FlkA3"},"source":["## Task in `pyannote.audio`"]},{"cell_type":"markdown","metadata":{"id":"BK4hbdq6lWqj"},"source":["\n","In `pyannote.audio`, a *task* is a combination of a **_problem_** that needs to be addressed and an **experimental protocol**.\n","\n","For example, one can address **_voice activity detection_** following the **AMI only_words** experimental protocol, by instantiating the following *task*:\n"]},{"cell_type":"code","execution_count":null,"metadata":{"id":"-4B8nLDmlWql"},"outputs":[],"source":["# this assumes that the AMI corpus has been setup for diarization\n","# according to https://github.com/pyannote/AMI-diarization-setup\n","\n","from pyannote.database import registry, FileFinder\n","registry.load_database(\"AMI-diarization-setup/pyannote/database.yml\")\n","ami = registry.get_protocol('AMI.SpeakerDiarization.mini',\n"," preprocessors={'audio': FileFinder()})\n","\n","# address voice activity detection\n","from pyannote.audio.tasks import VoiceActivityDetection\n","task = VoiceActivityDetection(ami)"]},{"cell_type":"markdown","metadata":{"id":"A9nxwDQGlWqn"},"source":["A growing collection of tasks is readily available in `pyannote.audio.tasks`..."]},{"cell_type":"code","execution_count":2,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":232,"status":"ok","timestamp":1704810010556,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"qbbDA2P5lWqp","outputId":"bf1988fb-9140-4d6a-8a2c-970578331f35"},"outputs":[{"name":"stdout","output_type":"stream","text":["SpeakerDiarization\n","VoiceActivityDetection\n","OverlappedSpeechDetection\n","MultiLabelSegmentation\n","SpeakerEmbedding\n","Segmentation\n"]}],"source":["from pyannote.audio.tasks import __all__ as TASKS; print('\\n'.join(TASKS))"]},{"cell_type":"markdown","metadata":{"id":"hihPu4iElWqr"},"source":["... but you will eventually want to use `pyannote.audio` to address a different task. \n","In this example, we will add a new task addressing the **sound event detection** problem.\n","\n"]},{"cell_type":"markdown","metadata":{"id":"RZOs3C4HlWqr"},"source":["## Problem specification\n","\n","A problem is expected to be solved by a model $f$ that takes an audio chunk $X$ as input and returns its predicted solution $\\hat{y} = f(X)$.\n","\n","### Resolution\n","\n","Depending on the addressed problem, you might expect the model to output just one prediction for the whole audio chunk (`Resolution.CHUNK`) or a temporal sequence of predictions (`Resolution.FRAME`).\n","\n","In our particular case, we would like the model to provide one decision for the whole chunk:"]},{"cell_type":"code","execution_count":3,"metadata":{"executionInfo":{"elapsed":234,"status":"ok","timestamp":1704810016464,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"G96Mz8vPlWqs"},"outputs":[],"source":["from pyannote.audio.core.task import Resolution\n","resolution = Resolution.CHUNK"]},{"cell_type":"markdown","metadata":{"id":"_Efd28eclWqt"},"source":["### Type of problem\n","\n","Similarly, the type of your problem may fall into one of these generic machine learning categories:\n","* `Problem.BINARY_CLASSIFICATION` for binary classification\n","* `Problem.MONO_LABEL_CLASSIFICATION` for multi-class classification\n","* `Problem.MULTI_LABEL_CLASSIFICATION` for multi-label classification\n","* `Problem.REGRESSION` for regression\n","* `Problem.REPRESENTATION` for representation learning\n","\n","In our particular case, we would like the model to do multi-label classification because one audio chunk may contain multiple sound events:"]},{"cell_type":"code","execution_count":4,"metadata":{"executionInfo":{"elapsed":315,"status":"ok","timestamp":1704810020230,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"Cl0VqB5jlWqu"},"outputs":[],"source":["from pyannote.audio.core.task import Problem\n","problem = Problem.MULTI_LABEL_CLASSIFICATION"]},{"cell_type":"code","execution_count":5,"metadata":{"executionInfo":{"elapsed":251,"status":"ok","timestamp":1704810021646,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"Hz_B7FCplWqv"},"outputs":[],"source":["from pyannote.audio.core.task import Specifications\n","specifications = Specifications(\n"," problem=problem,\n"," resolution=resolution,\n"," duration=5.0,\n"," classes=[\"Speech\", \"Dog\", \"Cat\", \"Alarm_bell_ringing\", \"Dishes\",\n"," \"Frying\", \"Blender\", \"Running_water\", \"Vacuum_cleaner\",\n"," \"Electric_shaver_toothbrush\"],\n",")"]},{"cell_type":"markdown","metadata":{"id":"5N72ksU7lWqv"},"source":["A task is expected to be solved by a model $f$ that (usually) takes an audio chunk $X$ as input and returns its predicted solution $\\hat{y} = f(X)$.\n","\n","To help training the model $f$, the task $\\mathcal{T}$ is in charge of\n","- generating $(X, y)$ training samples using the **dataset**\n","- defining the loss function $\\mathcal{L}(y, \\hat{y})$\n"]},{"cell_type":"code","execution_count":null,"metadata":{"id":"lrTD1RwUlWqw"},"outputs":[],"source":["from math import ceil\n","from typing import Dict, Optional,Tuple, Union\n","import numpy as np\n","from pyannote.core import Segment, SlidingWindow\n","from pyannote.audio.utils.random import create_rng_for_worker\n","from pyannote.audio.core.task import Task, Resolution\n","from pyannote.database import Protocol\n","from torchmetrics.classification import MultilabelAUROC\n","\n","# Your custom task must be a subclass of `pyannote.audio.core.task.Task`\n","class SoundEventDetection(Task):\n"," \"\"\"Sound event detection\"\"\"\n","\n"," def __init__(\n"," self,\n"," protocol: Protocol,\n"," duration: float = 5.0,\n"," min_duration: float = 5.0,\n"," warm_up: Union[float, Tuple[float, float]] = 0.0,\n"," batch_size: int = 32,\n"," num_workers: int = None,\n"," pin_memory: bool = False,\n"," augmentation = None,\n"," cache: Optional[Union[str, None]] = None,\n"," **other_params,\n"," ):\n","\n"," super().__init__(\n"," protocol,\n"," duration=duration,\n"," min_duration=min_duration,\n"," warm_up=warm_up,\n"," batch_size=batch_size,\n"," num_workers=num_workers,\n"," pin_memory=pin_memory,\n"," augmentation=augmentation,\n"," cache=cache,\n"," )\n"," \n"," def prepare_data(self):\n"," # this method is called to prepare data from the specified protocol. \n"," # For most tasks, calling Task.prepare_data() is sufficient. If you \n"," # need to prepare task-specific data, define a post_prepare_data method for your task.\n"," super().prepare_data()\n","\n"," def post_prepare_data(self, prepared_data: Dict):\n"," # this method is called at the end of Task.prepare_data() \n"," # to complete data preparation with task-specific data, here \n"," # the list of classes and some training metadata\n","\n"," # load metadata for training subset\n"," prepared_data[\"train_metadata\"] = list()\n"," for training_file in self.protocol.train():\n"," prepared_data[\"train_metadata\"].append({\n"," # path to audio file (str)\n"," \"audio\": training_file[\"audio\"],\n"," # duration of audio file (float)\n"," \"duration\": training_file[\"torchaudio.info\"].num_frames / training_file[\"torchaudio.info\"].sample_rate,\n"," # reference annotation (pyannote.core.Annotation)\n"," \"annotation\": training_file[\"annotation\"],\n"," })\n","\n"," # gather the list of classes\n"," classes = set()\n"," for training_file in prepared_data[\"train_metadata\"]:\n"," classes.update(training_file[\"annotation\"].labels())\n"," prepared_data[\"classes\"] = sorted(classes)\n","\n"," # `has_validation` is True if protocol defines a development set\n"," if not self.has_validation:\n"," return\n"," \n"," def prepare_validation(self, prepared_data : Dict):\n"," # this method is called at the end of Task.prepare_data(), to complete data preparation\n"," # with task validation elements\n"," \n"," # load metadata for validation subset\n"," prepared_data[\"validation\"] = list()\n"," for validation_file in self.protocol.development():\n"," prepared_data[\"validation\"].append({\n"," \"audio\": validation_file[\"audio\"],\n"," \"num_samples\": validation_file[\"torchaudio.info\"].num_frames,\n"," \"annotation\": validation_file[\"annotation\"],\n"," })\n"," \n"," \n"," def setup(self, stage: Optional[Union[str, None]] = None):\n"," # this method assigns prepared data from task.prepare_data() to the task\n"," # and declares the task specifications\n","\n"," super().setup(stage)\n"," \n"," # specify the addressed problem\n"," self.specifications = Specifications(\n"," # it is a multi-label classification problem\n"," problem=Problem.MULTI_LABEL_CLASSIFICATION,\n"," # we expect the model to output one prediction \n"," # for the whole chunk\n"," resolution=Resolution.CHUNK,\n"," # the model will ingest chunks with that duration (in seconds)\n"," duration=self.duration,\n"," # human-readable names of classes\n"," classes=self.prepared_data[\"classes\"])\n"," \n"," def default_metric(self):\n"," # this method defines the default metrics used to evaluate the model during\n"," # a training\n"," num_classes = len(self.specifications.classes)\n"," return MultilabelAUROC(num_classes, average=\"macro\", compute_on_cpu=True)\n","\n"," def train__iter__(self):\n"," # this method generates training samples, one at a time, \"ad infinitum\". each worker \n"," # of the dataloader will run it, independently from other workers. pyannote.audio and\n"," # pytorch-lightning will take care of making batches out of it.\n","\n"," # create worker-specific random number generator (RNG) to avoid this common bug:\n"," # tanelp.github.io/posts/a-bug-that-plagues-thousands-of-open-source-ml-projects/\n"," rng = create_rng_for_worker(self.model)\n","\n"," # load list and number of classes\n"," classes = self.specifications.classes\n"," num_classes = len(classes)\n","\n"," # yield training samples \"ad infinitum\"\n"," while True:\n","\n"," # select training file at random\n"," random_training_file, *_ = rng.choices(self.prepared_data[\"train_metadata\"], k=1)\n","\n"," # select one chunk at random \n"," random_start_time = rng.uniform(0, random_training_file[\"duration\"] - self.duration)\n"," random_chunk = Segment(random_start_time, random_start_time + self.duration)\n","\n"," # load audio excerpt corresponding to random chunk\n"," X = self.model.audio.crop(random_training_file[\"audio\"], \n"," random_chunk, \n"," fixed=self.duration)\n"," \n"," # load labels corresponding to random chunk as {0|1} numpy array\n"," # y[k] = 1 means that kth class is active\n"," y = np.zeros((num_classes,))\n"," active_classes = random_training_file[\"annotation\"].crop(random_chunk).labels()\n"," for active_class in active_classes:\n"," y[classes.index(active_class)] = 1\n"," \n"," # yield training samples as a dict (use 'X' for input and 'y' for target)\n"," yield {'X': X, 'y': y}\n","\n"," def train__len__(self):\n"," # since train__iter__ runs \"ad infinitum\", we need a way to define what an epoch is.\n"," # this is the purpose of this method. it outputs the number of training samples that\n"," # make an epoch.\n","\n"," # we compute this number as the total duration of the training set divided by \n"," # duration of training chunks. we make sure that an epoch is at least one batch long,\n"," # or pytorch-lightning will complain\n"," train_duration = sum(training_file[\"duration\"] for training_file in self.prepared_data[\"train_metadata\"])\n"," return max(self.batch_size, ceil(train_duration / self.duration))\n","\n"," def val__getitem__(self, sample_idx):\n","\n"," # load list and number of classes\n"," classes = self.specifications.classes\n"," num_classes = len(classes)\n","\n","\n"," # find which part of the validation set corresponds to sample_idx\n"," num_samples = np.cumsum([\n"," validation_file[\"num_samples\"] for validation_file in self.prepared_data[\"validation\"]])\n"," file_idx = np.where(num_samples < sample_idx)[0][0]\n"," validation_file = self.prepared_data[\"validation\"][file_idx]\n"," idx = sample_idx - (num_samples[file_idx] - validation_file[\"num_samples\"]) \n"," chunk = SlidingWindow(start=0., duration=self.duration, step=self.duration)[idx]\n","\n"," # load audio excerpt corresponding to current chunk\n"," X = self.model.audio.crop(validation_file[\"audio\"], chunk, fixed=self.duration)\n","\n"," # load labels corresponding to random chunk as {0|1} numpy array\n"," # y[k] = 1 means that kth class is active\n"," y = np.zeros((num_classes,))\n"," active_classes = validation_file[\"annotation\"].crop(chunk).labels()\n"," for active_class in active_classes:\n"," y[classes.index(active_class)] = 1\n","\n"," return {'X': X, 'y': y}\n","\n"," def val__len__(self):\n"," return sum(validation_file[\"num_samples\"] \n"," for validation_file in self.prepared_data[\"validation\"])\n","\n"," # `pyannote.audio.core.task.Task` base class provides a `LightningModule.training_step` and \n"," # `LightningModule.validation_step` methods that rely on self.specifications to guess which \n"," # loss and metrics should be used. you can obviously choose to customize them. \n"," # More details can be found in pytorch-lightning documentation and in \n"," # pyannote.audio.core.task.Task source code. \n","\n"," # def training_step(self, batch, batch_idx: int):\n"," # return loss\n","\n"," # def validation_step(self, batch, batch_idx: int):\n"," # return metric\n","\n"," # pyannote.audio.tasks.segmentation.mixin also provides a convenient mixin\n"," # for \"segmentation\" tasks (ie. with Resolution.FRAME) that already defines\n"," # a bunch of useful methods. You can use it by inheriting your task from the \n"," # pyannote.audio.tasks.segmentation.mixinSegmentationTask"]}],"metadata":{"colab":{"provenance":[]},"kernelspec":{"display_name":"Python 3","language":"python","name":"python3"},"language_info":{"codemirror_mode":{"name":"ipython","version":3},"file_extension":".py","mimetype":"text/x-python","name":"python","nbconvert_exporter":"python","pygments_lexer":"ipython3","version":"3.10.13"}},"nbformat":4,"nbformat_minor":0} diff --git a/tutorials/applying_a_model.ipynb b/tutorials/applying_a_model.ipynb index e035d0654..68524eb57 100644 --- a/tutorials/applying_a_model.ipynb +++ b/tutorials/applying_a_model.ipynb @@ -1,437 +1 @@ -{ - "cells": [ - { - "cell_type": "code", - "execution_count": 1, - "metadata": {}, - "outputs": [], - "source": [ - "# preparing notebook for visualization purposes\n", - "# (only show outputs between t=0s and t=30s)\n", - "from pyannote.core import notebook, Segment\n", - "notebook.crop = Segment(0, 30)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Applying a pretrained model\n", - "\n", - "In this tutorial, you will learn how to apply `pyannote.audio` models on an audio file, whose manual annotation is depicted below" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [], - "source": [ - "# clone pyannote-audio Github repository and update ROOT_DIR accordingly\n", - "ROOT_DIR = \"/Users/hbredin/Development/pyannote/pyannote-audio\"\n", - "AUDIO_FILE = f\"{ROOT_DIR}/tutorials/assets/sample.wav\"" - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "" - ] - }, - "execution_count": 3, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.database.util import load_rttm\n", - "REFERENCE = f\"{ROOT_DIR}/tutorials/assets/sample.rttm\"\n", - "reference = load_rttm(REFERENCE)[\"sample\"]\n", - "reference" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Loading models from 🤗 hub\n", - "\n", - "A bunch of pretrained models are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-model) and can be listed by looking for the [`pyannote-audio-model`](https://hf.co/models?other=pyannote-audio-model) tag." - ] - }, - { - "cell_type": "code", - "execution_count": 16, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['pyannote/Segmentation-PyanNet-DIHARD',\n", - " 'pyannote/TestModelForContinuousIntegration',\n", - " 'pyannote/embedding',\n", - " 'pyannote/segmentation',\n", - " 'pyannote/brouhaha']" - ] - }, - "execution_count": 16, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from huggingface_hub import HfApi\n", - "available_models = [m.modelId for m in HfApi().list_models(filter=\"pyannote-audio-model\")]\n", - "list(filter(lambda p: p.startswith(\"pyannote/\"), available_models))" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) models (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. Despite this initial process, those models can perfectly be downloaded for later offline use: keep reading this tutorial until the end to learn how to do that.\n", - "\n", - "For instance, to load the speaker segmentation model used in this tutorial, you have to visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation), accept the terms, and log in using `notebook_login` below:" - ] - }, - { - "cell_type": "code", - "execution_count": 5, - "metadata": {}, - "outputs": [ - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "1b7ac613e9e841c8903dc4932e183006", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "VBox(children=(HTML(value='
, resolution=, duration=5.0, warm_up=(0.0, 0.0), classes=['speaker#1', 'speaker#2', 'speaker#3'], permutation_invariant=True)" - ] - }, - "execution_count": 8, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "specs = model.specifications\n", - "specs" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "... which can be understood like that:\n", - "\n", - "* `duration = 5.0`: the model ingests 5s-long audio chunks\n", - "* `Resolution.FRAME` and `len(classes) == 3`: the model output a sequence of frame-wise 3-dimensoinal scores\n", - "* `Problem.MULTI_LABEL_CLASSIFICATION` for each frame, more than one speaker can be active at once" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "To apply the model on the audio file, we wrap it into an `Inference` instance:" - ] - }, - { - "cell_type": "code", - "execution_count": 9, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "" - ] - }, - "execution_count": 9, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.audio import Inference\n", - "inference = Inference(model, step=2.5)\n", - "output = inference(AUDIO_FILE)\n", - "output" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "For each of the 11 positions of the 5s window, the model outputs a 3-dimensional vector every 16ms (293 frames for 5 seconds), corresponding to the probabilities that each of (up to) 3 speakers is active. " - ] - }, - { - "cell_type": "code", - "execution_count": 10, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "(11, 293, 3)" - ] - }, - "execution_count": 10, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "output.data.shape" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Processing a file from memory\n", - "\n", - "In case the audio file is not stored on disk, pipelines can also process audio provided as a `{\"waveform\": ..., \"sample_rate\": ...}` dictionary. " - ] - }, - { - "cell_type": "code", - "execution_count": 11, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "type(waveform)=\n", - "waveform.shape=torch.Size([1, 480000])\n", - "waveform.dtype=torch.float32\n" - ] - } - ], - "source": [ - "import torchaudio\n", - "waveform, sample_rate = torchaudio.load(AUDIO_FILE)\n", - "\n", - "print(f\"{type(waveform)=}\")\n", - "print(f\"{waveform.shape=}\")\n", - "print(f\"{waveform.dtype=}\")\n", - "\n", - "audio_in_memory = {\"waveform\": waveform, \"sample_rate\": sample_rate}" - ] - }, - { - "cell_type": "code", - "execution_count": 12, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "" - ] - }, - "execution_count": 12, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "output = inference(audio_in_memory)\n", - "output" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Processing part of a file\n", - "\n", - "If needed, `Inference` can be used to process only part of a file:" - ] - }, - { - "cell_type": "code", - "execution_count": 13, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "" - ] - }, - "execution_count": 13, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.core import Segment\n", - "output = inference.crop(AUDIO_FILE, Segment(10, 20))\n", - "output" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Offline use\n", - "\n", - "Gating models allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. Please fill this form as precisely as possible. \n", - "\n", - "For instance, before gating `pyannote/segmentation`, I had no idea that so many people were relying on it in production. Hint: sponsors are more than welcome! maintaining open source libraries is time consuming.\n", - "\n", - "That being said: this whole authentication process does not prevent you from using official `pyannote.audio` models offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production).\n", - "\n", - "* Step 1: download the `pytorch_model.bin` model\n", - "\n", - "![](assets/download-model.png)\n", - "\n", - "* Step 2: load the model" - ] - }, - { - "cell_type": "code", - "execution_count": 14, - "metadata": {}, - "outputs": [], - "source": [ - "# look ma: no hands! \n", - "offline_model = Model.from_pretrained(\"pytorch_model.bin\")" - ] - }, - { - "cell_type": "code", - "execution_count": 15, - "metadata": {}, - "outputs": [], - "source": [ - "# just checking weights are the same...\n", - "import torch\n", - "for weights, offline_weights in zip(model.parameters(), offline_model.parameters()):\n", - " assert torch.equal(weights, offline_weights)" - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3.9.13 ('pyannote-mps')", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.9.13" - }, - "vscode": { - "interpreter": { - "hash": "36a3a48a52702f18671693adf589423ec3f7db45d50f6ee539f1b0696bb58d43" - } - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} +{"cells":[{"cell_type":"markdown","metadata":{"id":"rkz0m90MTNdU"},"source":["**\"Open**"]},{"cell_type":"markdown","metadata":{"id":"vDBFFNeGWF0v"},"source":["# Applying a pretrained model\n","\n","In this tutorial, you will learn how to apply `pyannote.audio` models on an audio file, whose manual annotation is depicted below"]},{"cell_type":"markdown","metadata":{"id":"DcXUj3lVTkWz"},"source":["## Tutorial setup"]},{"cell_type":"code","execution_count":3,"metadata":{"executionInfo":{"elapsed":221,"status":"ok","timestamp":1704806538788,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"p7uwJtF1W0Od"},"outputs":[],"source":["# preparing notebook for visualization purposes\n","# (only show outputs between t=0s and t=30s)\n","from pyannote.core import notebook, Segment\n","notebook.crop = Segment(0, 30)"]},{"cell_type":"markdown","metadata":{"id":"yr4ONuV9Tlgj"},"source":["### `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"OaXXRLf5Tp2D"},"source":["If you are running this tutorial on `Colab`, execute the following commands in order to setup `Colab` environment. These commands will install `pyannote.audio`, and download resources used in this tutorial."]},{"cell_type":"code","execution_count":null,"metadata":{"id":"wQub0z0VTzpU"},"outputs":[],"source":["!pip install -qq pyannote.audio==3.1.1\n","!pip install -qq ipython==7.34.0\n","!wget -q \"https://github.com/pyannote/pyannote-audio/raw/develop/tutorials/assets/sample.wav\"\n","!wget -q \"https://github.com/pyannote/pyannote-audio/raw/develop/tutorials/assets/sample.rttm\"\n","!wget -q -P ./assets/ \"https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/assets/download-model.png\""]},{"cell_type":"markdown","metadata":{"id":"4Qy1iMvGVaHF"},"source":["⚠ Restart the runtime (Runtime > Restart session)."]},{"cell_type":"code","execution_count":18,"metadata":{"executionInfo":{"elapsed":203,"status":"ok","timestamp":1704807063824,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"vHwJOO-sUdF2"},"outputs":[],"source":["AUDIO_FILE = \"sample.wav\"\n","REFERENCE = \"sample.rttm\""]},{"cell_type":"markdown","metadata":{"id":"CUmGkiY-V-wI"},"source":["### Non `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"_E4buYUQWXE5"},"source":["If you are not using Colab, clone `pyannote.audio` [GitHub repository](https://github.com/pyannote/pyannote-audio) and update ROOT_DIR accordingly"]},{"cell_type":"code","execution_count":2,"metadata":{"executionInfo":{"elapsed":232,"status":"ok","timestamp":1704806051725,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"Wii7pyvSTIa1"},"outputs":[],"source":["# clone pyannote-audio Github repository and update ROOT_DIR accordingly\n","ROOT_DIR = \"/pyannote-audio\"\n","AUDIO_FILE = f\"{ROOT_DIR}/tutorials/assets/sample.wav\"\n","REFERENCE = f\"{ROOT_DIR}/tutorials/assets/sample.rttm\""]},{"cell_type":"markdown","metadata":{"id":"o01jf1VTXC8u"},"source":["## References\n","\n","First, let's take a look at the audio reference used in this tutorial. It can be accessed as follows:"]},{"cell_type":"code","execution_count":4,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":259},"executionInfo":{"elapsed":542,"status":"ok","timestamp":1704807074571,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"Q4hYAMEiTIa3","outputId":"9fecf73e-2448-4a4e-93e4-f35d2ec4da8b"},"outputs":[{"data":{"image/png":"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","text/plain":[""]},"execution_count":4,"metadata":{},"output_type":"execute_result"}],"source":["from pyannote.database.util import load_rttm\n","\n","reference = load_rttm(REFERENCE)[\"sample\"]\n","reference"]},{"cell_type":"markdown","metadata":{"id":"3cpR2brxTIa6"},"source":["## Loading models from 🤗 hub\n","\n","A bunch of pretrained models are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-model) and can be listed by looking for the [`pyannote-audio-model`](https://hf.co/models?other=pyannote-audio-model) tag."]},{"cell_type":"code","execution_count":5,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":1201,"status":"ok","timestamp":1704807077972,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"OXNju-sFTIa7","outputId":"6c587fd6-f14f-4162-81ba-0609153aa7f2"},"outputs":[{"data":{"text/plain":["['pyannote/TestModelForContinuousIntegration',\n"," 'pyannote/embedding',\n"," 'pyannote/segmentation',\n"," 'pyannote/brouhaha',\n"," 'pyannote/segmentation-3.0',\n"," 'pyannote/wespeaker-voxceleb-resnet34-LM']"]},"execution_count":5,"metadata":{},"output_type":"execute_result"}],"source":["from huggingface_hub import HfApi\n","available_models = [m.modelId for m in HfApi().list_models(filter=\"pyannote-audio-model\")]\n","list(filter(lambda p: p.startswith(\"pyannote/\"), available_models))"]},{"cell_type":"markdown","metadata":{"id":"LrQ2ykU4TIa-"},"source":["Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) models (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. Despite this initial process, those models can perfectly be downloaded for later offline use: keep reading this tutorial until the end to learn how to do that.\n","\n","For instance, to load the speaker segmentation model used in this tutorial, you have to visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation), accept the terms, and log in using `notebook_login` below:"]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":145,"referenced_widgets":["a73cecb8608f491e8f996c5114df4d0f","bc10c6804346449b8e349728a1acb8d2","73915caf6d1042ca9a27853986217ae2","2d1965df902b4b7eb6e4e28e44d6e32b","b2e03b10050d46548932f429bcc18d81","0c537fef94bd4a3d8c42d981a70ea35b","79d55946b3764666a0b57a72722f6c19","988c83c85f7d44d0be949de6eedcf977","53919e13e42441d9b8cf5eb4f2effe96","47da80658de14604a7cc5268b951c172","c7fbfffbbc304f0ba025e03beb8f638a","416ffb7703b1404ab1c19c6b1ecafb4c","5be7421c575d41128d0675dc9abbc196","8b3353af24074ce5b5d2d9b162c61062","cd40e31c191044b7a0f8fa4694ad6380","ecbb880cf0044404ab9bfc5995656807","79287ffea49a4e4a80191b1157de15cc","0e04a45510f346b8ab3c465b10ccdfd2","bf5c88fe90f0462b95aa8a81467c1e9d","09ee64808a5c431b928066a4cb287a78","52a4a1aab39741f2a0499428f07a4c25","f23cc133109c4ecb9b383f118bcc71aa","2b91f4b11d5848c0b6795b649bc2d7bc","b437981acb894f97ad45daaebe2734c7","01a79756e1104be0bcbe1d233677d605","990375a830eb4cd79c69ad78b9ac685b","49cb317b141a43b7b8ce342e2d62ab03","abc23089f4ef4d2a9f8a104fb1dba14a","57cf64e9c70e4057a76c2f3fb1e9b191","5e90e4818f1f43f2aa4714e0e40dc15d","fb027db34fd740c2a4758d650ae3f73c","1a30ac8b519948bbad72886049b53d55"]},"executionInfo":{"elapsed":215,"status":"ok","timestamp":1704807086866,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"x9iQwHjfTIa_","outputId":"b5b3c597-4c2e-4306-e6a5-9ccc9ed19d08"},"outputs":[],"source":["from huggingface_hub import notebook_login\n","notebook_login()"]},{"cell_type":"markdown","metadata":{"id":"fUvB3kwwTIbA"},"source":["Once authenticated, you can load the model..."]},{"cell_type":"code","execution_count":null,"metadata":{"executionInfo":{"elapsed":3254,"status":"ok","timestamp":1704807117456,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"IzYUeS99TIbE"},"outputs":[],"source":["from pyannote.audio import Model\n","model = Model.from_pretrained(\"pyannote/segmentation-3.0\", use_auth_token=True)"]},{"cell_type":"markdown","metadata":{"id":"UxuGtfPoTIbF"},"source":["... which consists in SincNet feature extraction (`sincnet`) , LSTM sequence modeling (`lstm`), a few feed-forward layers (`linear`), and a final multi-label `classifier`:"]},{"cell_type":"code","execution_count":8,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":223,"status":"ok","timestamp":1704807124564,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"BQ2RDdqUTIbH","outputId":"6caf82ff-7a19-401d-ad79-8350315ec9de"},"outputs":[{"data":{"text/plain":[" | Name | Type | Params | In sizes | Out sizes \n","---------------------------------------------------------------------------------------------------------\n","0 | sincnet | SincNet | 42.6 K | [1, 1, 160000] | [1, 60, 589] \n","1 | lstm | LSTM | 1.4 M | [1, 589, 60] | [[1, 589, 256], [[8, 1, 128], [8, 1, 128]]]\n","2 | linear | ModuleList | 49.4 K | ? | ? \n","3 | classifier | Linear | 903 | [1, 589, 128] | [1, 589, 7] \n","4 | activation | LogSoftmax | 0 | [1, 589, 7] | [1, 589, 7] \n","---------------------------------------------------------------------------------------------------------\n","1.5 M Trainable params\n","0 Non-trainable params\n","1.5 M Total params\n","5.893 Total estimated model params size (MB)"]},"execution_count":8,"metadata":{},"output_type":"execute_result"}],"source":["from pytorch_lightning.utilities.model_summary import summarize\n","\n","summarize(model)"]},{"cell_type":"markdown","metadata":{"id":"ahfL4saFTIbI"},"source":["More details about the model are provided by its specifications..."]},{"cell_type":"code","execution_count":9,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":195,"status":"ok","timestamp":1704807127275,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"B0OFti5ITIbJ","outputId":"c2d74d99-7727-4f36-9a0f-4ec2aa76bd25"},"outputs":[{"data":{"text/plain":["Specifications(problem=, resolution=, duration=10.0, min_duration=None, warm_up=(0.0, 0.0), classes=['speaker#1', 'speaker#2', 'speaker#3'], powerset_max_classes=2, permutation_invariant=True)"]},"execution_count":9,"metadata":{},"output_type":"execute_result"}],"source":["specs = model.specifications\n","specs"]},{"cell_type":"markdown","metadata":{"id":"kP5sRrrdTIbK"},"source":["... which can be understood like that:\n","\n","* `duration = 10.0`: the model ingests 10s-long audio chunks\n","* `Resolution.FRAME`: the model output a sequence of frame-wise scores\n","* `len(classes) = 3`: model handle chunks with up to 3 speakers\n","* `powerset_max_classes = 2`: at most 2 speakers can talk at the same time (overlapped speech)\n","The previous two specifications give the classes that the model can predict: {no speech}, {spk1}, {spk2}, {spk3}, {spk1, spk2}, {spk1, spk3}, {spk2, spk3}, so a total of 7 classes.\n","More details about powerset can be found in the article `A. Plaquet and H. Bredin, “Powerset multi-class cross entropy loss for neural speaker diarization,” 2023.`, available [here](https://arxiv.org/abs/2310.13025).\n","* `Problem.MONO_LABEL_CLASSIFICATION`: the model prediction associates one class to each time frame"]},{"cell_type":"markdown","metadata":{"id":"wTY4-nT2TIbM"},"source":["To apply the model on the audio file, we wrap it into an `Inference` instance:"]},{"cell_type":"code","execution_count":10,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":657},"executionInfo":{"elapsed":1614,"status":"ok","timestamp":1704807131091,"user":{"displayName":"Clément 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pyannote.audio import Inference\n","inference = Inference(model, step=2.5)\n","output = inference(AUDIO_FILE)\n","output"]},{"cell_type":"markdown","metadata":{"id":"MoqfhoX_TIbO"},"source":["For each of the 9 positions of the 10s window, the model outputs a 3-dimensional vector every 17ms (589 frames for 10 seconds), corresponding to the probabilities that each of (up to) 3 speakers is active. "]},{"cell_type":"code","execution_count":11,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":196,"status":"ok","timestamp":1704807141814,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"JObvduJMTIbO","outputId":"af45591c-c30d-401a-8906-db029140cea2"},"outputs":[{"data":{"text/plain":["(9, 589, 3)"]},"execution_count":11,"metadata":{},"output_type":"execute_result"}],"source":["output.data.shape"]},{"cell_type":"markdown","metadata":{"id":"Zdk-iqOaTIbQ"},"source":["## Processing a file from memory\n","\n","In case the audio file is not stored on disk, pipelines can also process audio provided as a `{\"waveform\": ..., \"sample_rate\": ...}` dictionary."]},{"cell_type":"code","execution_count":12,"metadata":{"executionInfo":{"elapsed":229,"status":"ok","timestamp":1704807145587,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"oFQrkl01TIbQ"},"outputs":[{"name":"stdout","output_type":"stream","text":["type(waveform)=\n","waveform.shape=torch.Size([1, 480000])\n","waveform.dtype=torch.float32\n"]}],"source":["import torchaudio\n","waveform, sample_rate = torchaudio.load(AUDIO_FILE)\n","\n","print(f\"{type(waveform)=}\")\n","print(f\"{waveform.shape=}\")\n","print(f\"{waveform.dtype=}\")\n","\n","audio_in_memory = {\"waveform\": waveform, \"sample_rate\": sample_rate}"]},{"cell_type":"code","execution_count":13,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":657},"executionInfo":{"elapsed":1904,"status":"ok","timestamp":1704807149946,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"j2zi1CzHTIbR","outputId":"fb8ac3d0-c9f0-4b0a-c01f-a10612bdf254"},"outputs":[{"data":{"image/png":"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= inference(audio_in_memory)\n","output"]},{"cell_type":"markdown","metadata":{"id":"aB5QNx7lTIbS"},"source":["## Processing part of a file\n","\n","If needed, `Inference` can be used to process only part of a file:"]},{"cell_type":"code","execution_count":19,"metadata":{"id":"E0Pydt0VTIbT"},"outputs":[{"data":{"image/png":"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","text/plain":[""]},"execution_count":19,"metadata":{},"output_type":"execute_result"}],"source":["from pyannote.core import Segment\n","output = inference.crop(audio_in_memory, Segment(0, 20))\n","output"]},{"cell_type":"markdown","metadata":{"id":"K_Z-ciLaTIbU"},"source":["## Offline use\n","\n","Gating models allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. Please fill this form as precisely as possible.\n","\n","For instance, before gating `pyannote/segmentation`, I had no idea that so many people were relying on it in production. 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Copy a token from your Hugging Face\ntokens page and paste it below.
Immediately click login after copying\nyour token or it might be stored in plain text in this notebook file.
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"cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Applying a pretrained pipeline\n", - "\n", - "In this tutorial, you will learn how to apply `pyannote.audio` pipelines on an audio file.\n", - "\n", - "A pipeline takes an audio file as input and returns a labeled temporal segmentation of the audio file. \n", - "\n", - "More precisely, it usually applies a pretrained model (= neural network) on the audio file, post-processes the output of the model, and returns its output as a [`pyannote.core.Annotation`](http://pyannote.github.io/pyannote-core/structure.html#annotation) instance. It should become clearer as you keep reading..." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Loading pipeline from 🤗 hub\n", - "\n", - "A bunch of pretrained pipelines are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-pipeline) and can be listed by looking for the [`pyannote-audio-pipeline`](https://hf.co/models?other=pyannote-audio-pipeline) tag." - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['pyannote/overlapped-speech-detection',\n", - " 'pyannote/speaker-diarization',\n", - " 'pyannote/speaker-segmentation',\n", - " 'pyannote/voice-activity-detection']" - ] - }, - "execution_count": 4, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from huggingface_hub import HfApi\n", - "available_pipelines = [p.modelId for p in HfApi().list_models(filter=\"pyannote-audio-pipeline\")]\n", - "list(filter(lambda p: p.startswith(\"pyannote/\"), available_pipelines))" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) pipelines (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. Despite this initial process, those pipelines can perfectly be downloaded for later offline use: keep reading this tutorial until the end to learn how to do that.\n", - "\n", - "For instance, to load the speaker diarization pipeline used in this tutorial, you have to visit [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization), accept the terms, visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation) (used internally by the speaker diarization pipeline), accept the terms, and log in using `notebook_login` below:" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [ - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "9466934e67254fe6a7ff67b727a3f3ab", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "VBox(children=(HTML(value='
" - ] - }, - "execution_count": 9, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "# we visualize [0, 30] time range\n", - "from pyannote.core import notebook, Segment\n", - "notebook.crop = Segment(0, 30)\n", - "dia" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "When available, the reference annotation can be visualized too, for comparison:" - ] - }, - { - "cell_type": "code", - "execution_count": 10, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "" - ] - }, - "execution_count": 10, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.database.util import load_rttm\n", - "REFERENCE = f\"{ROOT_DIR}/tutorials/assets/sample.rttm\"\n", - "reference = load_rttm(REFERENCE)[\"sample\"]\n", - "\n", - "# map hypothesized and reference speakers for visualization purposes\n", - "pipeline.optimal_mapping(dia, reference)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Processing a file from memory\n", - "\n", - "In case the audio file is not stored on disk, pipelines can also process audio provided as a `{\"waveform\": ..., \"sample_rate\": ...}` dictionary. " - ] - }, - { - "cell_type": "code", - "execution_count": 11, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "type(waveform)=\n", - "waveform.shape=torch.Size([1, 480000])\n", - "waveform.dtype=torch.float32\n" - ] - } - ], - "source": [ - "import torchaudio\n", - "waveform, sample_rate = torchaudio.load(AUDIO_FILE)\n", - "\n", - "print(f\"{type(waveform)=}\")\n", - "print(f\"{waveform.shape=}\")\n", - "print(f\"{waveform.dtype=}\")\n", - "\n", - "audio_in_memory = {\"waveform\": waveform, \"sample_rate\": sample_rate}" - ] - }, - { - "cell_type": "code", - "execution_count": 12, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "" - ] - }, - "execution_count": 12, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "vad = Pipeline.from_pretrained(\"pyannote/voice-activity-detection\", use_auth_token=True)\n", - "vad(audio_in_memory)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Offline use\n", - "\n", - "Gating models and pipelines allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. Please fill this form as precisely as possible. \n", - "\n", - "For instance, before gating `pyannote/speaker-diarization`, I had no idea that so many people were relying on it in production. Hint: sponsors are more than welcome! maintaining open source libraries is time consuming.\n", - "\n", - "That being said: this whole authentication process does not prevent you from using official `pyannote.audio` models and pipelines offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production).\n", - "\n", - "* Step 1: download `config.yaml` of [`pyannote/voice-activity-detection`](https://hf.co/pyannote/voice-activity-detection) pipeline\n", - "\n", - "![](assets/download-pipeline.png)\n", - "\n", - "* Step 2: download the `pytorch_model.bin` model\n", - "\n", - "![](assets/download-model.png)\n", - "\n", - "* Step 3: edit `config.yaml` to point to the local model\n", - "\n", - "```diff\n", - "pipeline:\n", - " name: pyannote.audio.pipelines.VoiceActivityDetection\n", - " params:\n", - "- segmentation: pyannote/segmentation@Interspeech2021\n", - "+ segmentation: pytorch_model.bin\n", - "\n", - "params:\n", - " min_duration_off: 0.09791355693027545\n", - " min_duration_on: 0.05537587440407595\n", - " offset: 0.4806866463041527\n", - " onset: 0.8104268538848918\n", - "```\n", - "\n", - "* Step 4: load the pipeline" - ] - }, - { - "cell_type": "code", - "execution_count": 21, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "" - ] - }, - "execution_count": 21, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "# look ma: no hands!\n", - "offline_vad = Pipeline.from_pretrained(\"config.yaml\")\n", - "offline_vad(audio_in_memory)" - ] - }, - { - "cell_type": "code", - "execution_count": 22, - "metadata": {}, - "outputs": [], - "source": [ - "# just checking output is the same\n", - "assert (vad(audio_in_memory) == offline_vad(audio_in_memory))" - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3.9.13 ('pyannote-mps')", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.9.13" - }, - "vscode": { - "interpreter": { - "hash": "36a3a48a52702f18671693adf589423ec3f7db45d50f6ee539f1b0696bb58d43" - } - } - }, - "nbformat": 4, - "nbformat_minor": 2 -} +{"cells":[{"cell_type":"markdown","metadata":{},"source":["**\"Open**"]},{"cell_type":"markdown","metadata":{"id":"uiNbotxCeq4b"},"source":["# Applying a pretrained pipeline\n","\n","In this tutorial, you will learn how to apply `pyannote.audio` pipelines on an audio file.\n","\n","A pipeline takes an audio file as input and returns a labeled temporal segmentation of the audio file.\n","\n","More precisely, it usually applies a pretrained model (= neural network) on the audio file, post-processes the output of the model, and returns its output as a [`pyannote.core.Annotation`](http://pyannote.github.io/pyannote-core/structure.html#annotation) instance. It should become clearer as you keep reading..."]},{"cell_type":"markdown","metadata":{"id":"z_4VUpZxesS2"},"source":["## Tutorial setup"]},{"cell_type":"markdown","metadata":{"id":"gbonpHYte3FC"},"source":["### `Google Colab` setup\n"]},{"cell_type":"markdown","metadata":{"id":"hxhhcj8Fe7v7"},"source":["If you are running this tutorial on `Colab`, execute the following commands in order to setup `Colab` environment. These commands will install `pyannote.audio`, and download resources used in this tutorial."]},{"cell_type":"code","execution_count":4,"metadata":{"executionInfo":{"elapsed":17283,"status":"ok","timestamp":1704808539241,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"NFdANMKsfD1p"},"outputs":[],"source":["!pip install -qq pyannote.audio==3.1.1\n","!pip install -qq ipython==7.34.0\n","!wget -q \"https://github.com/pyannote/pyannote-audio/raw/develop/tutorials/assets/sample.wav\"\n","!wget -q \"https://github.com/pyannote/pyannote-audio/raw/develop/tutorials/assets/sample.rttm\"\n","!wget -q -P ./assets/ \"https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/assets/download-model.png\"\n","!wget -q -P ./assets/ \"https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/assets/download-pipeline.png\""]},{"cell_type":"markdown","metadata":{"id":"PScZ6o_9gkfo"},"source":["⚠ Restart the runtime (Runtime > Restart session)."]},{"cell_type":"code","execution_count":13,"metadata":{"executionInfo":{"elapsed":458,"status":"ok","timestamp":1704809048938,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"ZU_QIx1UhcV6"},"outputs":[],"source":["AUDIO_FILE = \"sample.wav\"\n","REFERENCE = \"sample.rttm\""]},{"cell_type":"markdown","metadata":{"id":"d-qKbc9shI6o"},"source":["### Non `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"0KEh-IGqho6F"},"source":["If you are not using Colab, clone `pyannote.audio` [GitHub repository](https://github.com/pyannote/pyannote-audio) and update ROOT_DIR accordingly"]},{"cell_type":"code","execution_count":10,"metadata":{"id":"DuoohiL6hOiJ"},"outputs":[],"source":["ROOT_DIR = \"/pyannote-audio\"\n","AUDIO_FILE = f\"{ROOT_DIR}/tutorials/assets/sample.wav\"\n","REFERENCE = f\"{ROOT_DIR}/tutorials/assets/sample.rttm\""]},{"cell_type":"markdown","metadata":{"id":"yA9JsY84eq4e"},"source":["## Loading pipeline from 🤗 hub\n","\n","A bunch of pretrained pipelines are available on [🤗 Huggingface model hub](https://hf.co/models?other=pyannote-audio-pipeline) and can be listed by looking for the [`pyannote-audio-pipeline`](https://hf.co/models?other=pyannote-audio-pipeline) tag."]},{"cell_type":"code","execution_count":2,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":2323,"status":"ok","timestamp":1704808592263,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"eAXGgYt8eq4f","outputId":"86772355-3bf0-42e5-c478-2d35a80853e9"},"outputs":[{"data":{"text/plain":["['pyannote/overlapped-speech-detection',\n"," 'pyannote/speaker-diarization',\n"," 'pyannote/speaker-segmentation',\n"," 'pyannote/voice-activity-detection',\n"," 'pyannote/speaker-diarization-3.0',\n"," 'pyannote/speaker-diarization-3.1']"]},"execution_count":2,"metadata":{},"output_type":"execute_result"}],"source":["from huggingface_hub import HfApi\n","available_pipelines = [p.modelId for p in HfApi().list_models(filter=\"pyannote-audio-pipeline\")]\n","list(filter(lambda p: p.startswith(\"pyannote/\"), available_pipelines))"]},{"cell_type":"markdown","metadata":{"id":"fry3qMrJeq4h"},"source":["Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) pipelines (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. Despite this initial process, those pipelines can perfectly be downloaded for later offline use: keep reading this tutorial until the end to learn how to do that.\n","\n","For instance, to load the speaker diarization pipeline used in this tutorial, you have to visit [hf.co/pyannote/speaker-diarization](https://hf.co/pyannote/speaker-diarization), accept the terms, visit [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation) (used internally by the speaker diarization pipeline), accept the terms, and log in using `notebook_login` below:"]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":145,"referenced_widgets":["6fe26270a8794dea85b9ac8dedde6353","f9969c7acd834359bd67e83c31b82c0b","ef6be001daaa465598bdf20c304bae0b","a8e61b300a324911b1d3babf6b1ebac1","45c2352ba41b46288c8ba74c661e1f85","78f428e1d8ac4c78bd84d208a78b1fe5","9d7b5e47af9448c98a2a434f02b54633","253408a6cab947c7b9ae40a14e255328","a435c85128f148cb80152d03825710e2","90533da4fc1341a28bc247bc9fbbbe9e","6556790d1997431a8476447297e3f595","5253489738b249f69b30f1c84884a95a","3f500b1182a945c3b8b546b1bd04f98e","c3b3069a93994e55b993cab04c066f17","f77186e2976d4a7daa798fd9f0f7b4cb","7ffa4930e0a7421e9464abff87bbde7f","1dd6bfb824ba4919ba392e0d4cd5ac82","7c23cd10c573438c840148ba1afaa5f3","bc4d3f45eaf04cccb7a655ef87d7a927","36f60aa99ea84b739f066c6ee216f159","5033834cc66f49efaa16b240245ec1d3","0b127e22a6de4339aecc1e76a6719d7f","8a7afaf126ac49dcaf24d64c2d918086","1b5f49211db54348924a05482ca7379d","1f3be36a57074214a5f92e08165e41be","275642719b694328ad3b0fb06b53e42a","ae378b480ed747438bcbe147a7e8d277","b22a1d21940e4995b72642b003ae1301","58e423b86bf349aa89fc81a2b0d0f697","a3ebe0f0e6e44522a2545db0ed47af62","dc9c065286e544df921e5bc4a51faf64","16244ab1dc76493d9fafad80a9b65700"]},"executionInfo":{"elapsed":418,"status":"ok","timestamp":1704808601143,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"IdXJumYveq4i","outputId":"cb87e106-b30f-4ec8-e726-d797ca98698b"},"outputs":[],"source":["from huggingface_hub import notebook_login\n","notebook_login()"]},{"cell_type":"markdown","metadata":{"id":"ym2671Fweq4j"},"source":["Once authenticated, you can load the pipeline (and the internal models)..."]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":266,"referenced_widgets":["5a2a95f41f014663b5d131635844e3c8","f8df65e5ad6444648681230f415b8d08","17e14569a3f74cbf991b582c27fdf280","4e0ca7f084804d30a89cb9dc439b6cdc","d304f698c6f34f3692548267ca0aba47","3f69734124f7449da0efffbbfd1153fe","686b58e0ccee468f938ea5659f3a9623","e98b1f7ec5e04e748069340fa2fcec2d","616f35eccdd34bcdb5c9f700103ff538","185457147fe44751a1c6e7ae6ad23570","b02b253086e34249ae1d896a75a08960","0b191fb0d6db4f1a98a641dc50445f1e","4a589ea883de4409b7a8275127747fa7","b5f4829158cf4a5c8350966d8eacbf60","7cab72ad0ace45d58d6954021082ace7","5440ac4cffa0438c99c0daeca27a4087","0d0dfc2576784812b6abf673752fa812","84e416e01cfa4a79b0294a44cfd77f32","b33021db4313476ab8bcb85bb1b190d7","6d5431955c09424a96e825aa9bba1b62","54eacc5604f64f658617cde596a728dd","1749a0e7fc6847849ab40ac7f764b699","ff048516fdba44a48a69c51a82aa7aaa","775611277f1948a5ab95641c4e92ff2e","c955f8144b46451493474e02726b5deb","c9eeb26bd5e049f89205e494d54e3818","d4d428f0b0c44756a128adae747716d2","70d672feec1c452aa49a40a3b8c1a4f0","e8b3188ee4934ab4becbc431fc4ccb0b","754a843fd634446b8d246998eaded1fa","1e53e26668aa4f8dabdd6973b79b5b9f","cf5ae82d36384a728d8ca893cc27392b","5cc77ca8ba304ad88342ed6ced6c6a4a","6412ef268e11484f8bbcdb510f66ee21","a987408c2f994329a9a80208b22e3c52","9446f61936c4421d9610464984890353","a80c0fb6a1254bb9a00741c1346b9d9a","b55e95f31216480fa6c81bd1b57ad729","517a1b1faec045f7847ca84f0538f4e1","008a47e4d1174b188e75232fed325398","30864d7b4d074994ba643c73875a67b8","b852998433e24f7fad1fe27e249085f9","46ac2d0bfedc47c8836e8dde0fc91662","58b140d0453a4a219bc64e0152cc5c5e","3bb60a8db7c0406f8debdc8dd88bcdb4","bf644ae3e2894787bb416740749200cd","0fccc53081a34d58a46912d1ceae0533","39cd6fe37b6f4476b6032c29f026d570","87a0e712c0b045449b98ee368c62fff2","2be7c1f5fe32462f8d1cd7ea57cfbf3a","d6135ce9cfaa4f8496a70cee4f1e89a7","00ac431507a54c0d9a41244013b1c0f3","6f318bc3e900434a9134a79e4057f666","7580595b498a4c50b748af9df67132e2","3f1d750804a54d78a6abff2623441360"]},"executionInfo":{"elapsed":30028,"status":"ok","timestamp":1704808674003,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"1NihzPUPeq4k","outputId":"04275648-23ef-4453-9bf4-8d8dfadd99e0"},"outputs":[],"source":["from pyannote.audio import Pipeline\n","pipeline = Pipeline.from_pretrained(\"pyannote/speaker-diarization-3.1\", use_auth_token=True)"]},{"cell_type":"markdown","metadata":{"id":"cZhtRXAHeq4l"},"source":["## Processing a file from disk"]},{"cell_type":"markdown","metadata":{"id":"X7hQRbzeeq4m"},"source":["... and apply it to an audio file. \n","\n","The pipeline will automatically use GPUs when available.\n","On CPU it might take a long while (up to 10x RT)."]},{"cell_type":"code","execution_count":9,"metadata":{"executionInfo":{"elapsed":82100,"status":"ok","timestamp":1704808982782,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"digxFLaueq4n"},"outputs":[],"source":["dia = pipeline(AUDIO_FILE)"]},{"cell_type":"markdown","metadata":{"id":"9WTsQVjjeq4o"},"source":["## Visualizing the output\n","\n","Most pipelines return a [`pyannote.core.Annotation`](http://pyannote.github.io/pyannote-core/structure.html#annotation) instance..."]},{"cell_type":"code","execution_count":10,"metadata":{"executionInfo":{"elapsed":1079,"status":"ok","timestamp":1704809008347,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"Ch7SaA4-eq4p"},"outputs":[],"source":["from pyannote.core import Annotation\n","assert isinstance(dia, Annotation)"]},{"cell_type":"markdown","metadata":{"id":"T4BsOhmXeq4p"},"source":["... whose [API](https://pyannote.github.io/pyannote-core/structure.html#annotation) you can use to print the result:"]},{"cell_type":"code","execution_count":11,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":610,"status":"ok","timestamp":1704809011691,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"OzEPn1hqeq4p","outputId":"e61015ad-c0df-4890-acc6-f65c87d7c30d"},"outputs":[{"name":"stdout","output_type":"stream","text":[" 6.7 7.2 SPEAKER_01\n"," 7.2 7.2 SPEAKER_02\n"," 7.6 8.3 SPEAKER_01\n"," 8.3 9.9 SPEAKER_02\n"," 9.9 10.9 SPEAKER_01\n","10.5 14.7 SPEAKER_02\n","10.9 11.0 SPEAKER_00\n","14.3 17.9 SPEAKER_00\n","18.0 21.5 SPEAKER_02\n","18.2 18.4 SPEAKER_00\n","21.8 28.5 SPEAKER_00\n","27.9 30.0 SPEAKER_02\n"]}],"source":["for speech_turn, track, speaker in dia.itertracks(yield_label=True):\n"," print(f\"{speech_turn.start:4.1f} {speech_turn.end:4.1f} {speaker}\")"]},{"cell_type":"markdown","metadata":{"id":"PqiV2D2geq4q"},"source":["If you happen to be running this example in a _Jupyter notebook_, `dia` can be [visualized directly](http://pyannote.github.io/pyannote-core/visualization.html):"]},{"cell_type":"code","execution_count":12,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":220},"executionInfo":{"elapsed":841,"status":"ok","timestamp":1704809016036,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"80D-4Yhreq4r","outputId":"ee02c234-ebc6-40f3-94b1-0838fac05f81"},"outputs":[{"data":{"image/png":"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we visualize [0, 30] time range\n","from pyannote.core import notebook, Segment\n","notebook.crop = Segment(0, 30)\n","dia"]},{"cell_type":"markdown","metadata":{"id":"TC_ZiDYoeq4s"},"source":["When available, the reference annotation can be visualized too, for comparison:"]},{"cell_type":"code","execution_count":14,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":220},"executionInfo":{"elapsed":1085,"status":"ok","timestamp":1704809060416,"user":{"displayName":"Clément 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pyannote.database.util import load_rttm\n","\n","reference = load_rttm(REFERENCE)[\"sample\"]\n","\n","# map hypothesized and reference speakers for visualization purposes\n","pipeline.optimal_mapping(dia, reference)"]},{"cell_type":"markdown","metadata":{"id":"rfTV3nSSeq4t"},"source":["## Processing a file from memory\n","\n","In case the audio file is not stored on disk, pipelines can also process audio provided as a `{\"waveform\": ..., \"sample_rate\": ...}` dictionary."]},{"cell_type":"code","execution_count":11,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":410,"status":"ok","timestamp":1704809066383,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"Nha4sg76eq4u","outputId":"69192d82-c240-47d1-fe01-d373c2b4e500"},"outputs":[{"name":"stdout","output_type":"stream","text":["type(waveform)=\n","waveform.shape=torch.Size([1, 480000])\n","waveform.dtype=torch.float32\n"]}],"source":["import torchaudio\n","waveform, sample_rate = torchaudio.load(AUDIO_FILE)\n","\n","print(f\"{type(waveform)=}\")\n","print(f\"{waveform.shape=}\")\n","print(f\"{waveform.dtype=}\")\n","\n","audio_in_memory = {\"waveform\": waveform, \"sample_rate\": sample_rate}"]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":388,"referenced_widgets":["514552137d7442368b39aaddce056bb8","f744ac29ccdd4d9d91050fabaed13e16","f18c80869ccc4ce1b2a215293d493e19","2c0b1ed212544e14b4934e036e8736d7","9988b4433d6e4c58a819a2e1b54f57b2","b8861f8cb72c4e65afac6519b7004170","668a49e70c2b4c8a9dcb534cb30714d6","9025d2b6c7b14162a692b98c3e86ec8a","6c361855da5e4eb78e311defb2ca2f2b","3be13f7f05da47b1ae3795ead9f2546a","07bb94f0dcda45a9a5e2d553fd239106","57ef34701b594a60a9fd269943b49888","1d051eb2d87e4671aa08039761c7899a","9537f195677745cba18618764b2290ab","4f0d63f098b0491097c6b72f3baee04f","f7be373f08c64c8bb5b6e070a7373cca","be8b64ce7f8247499c8bbcb62c5dd902","491c3dcba4474a52b860080fa7a627e7","4abbe0d8e0fa4e1b9d712743013b2d4e","661c7494ef2d47c794e6236e5f2c8978","6358920ecd46403a87cca46509465076","4f25b89365b24056b803119d415ac056","1d97d11a99454cc990cc5e374d0f8197","425146d4e0fb453486629d9d6af0a999","8fad50e0475341d9801e9f86e04e15c7","ea03f9526a7440a0a9a281ee877892fd","d1863b2c9ebc4efa9cac2dad7dfaf53a","8bda58a4c0c6430ca1470282ddbe8222","5d38b6ceec1844068f48da7bedf471fa","2a72c7660c2f498089c63c78eaa69fc8","05283cf0054d412c9a1ebfcc44bf41cb","b9d9acd287c345debdff1e72a85641af","91ca95844e084619b9ae01fe8176f875"]},"executionInfo":{"elapsed":12810,"status":"ok","timestamp":1704809082573,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"LvboMeeYeq4u","outputId":"225dd352-6367-4793-ae11-f8125d930c2b"},"outputs":[],"source":["vad = Pipeline.from_pretrained(\"pyannote/voice-activity-detection\", use_auth_token=True)"]},{"cell_type":"code","execution_count":12,"metadata":{},"outputs":[{"data":{"image/png":"iVBORw0KGgoAAAANSUhEUgAABiIAAADyCAYAAADAzN2uAAAAOXRFWHRTb2Z0d2FyZQBNYXRwbG90bGliIHZlcnNpb24zLjguMCwgaHR0cHM6Ly9tYXRwbG90bGliLm9yZy81sbWrAAAACXBIWXMAAA9hAAAPYQGoP6dpAAAWJUlEQVR4nO3dfZCVdf3/8dfhRrzZG2SRXTZWF2/QTDDtV941Rt4Aak4o2r2JFY2KOqilaSplTRYTYk3ajU2pk/ptHNOyGW3KwMxRy8rIvt/IdpwRQ9FodhcxhOD8/nBc20BYZD+cZXk8ZnaGvc6153ofZs41n+XJua5KtVqtBgAAAAAAoIAhtR4AAAAAAAAYvIQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKESIAAAAAAIBihAgAAAAAAKAYIQIAAAAAAChGiAAAAAAAAIoRIgAAAAAAgGKECAAAAAAAoBghAgAAAAAAKEaIAAAAAAAAihEiAAAAAACAYoQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKGfQh4oUXXsg555yTPffcMyNGjEhLS0umTp2ahx56KEnS3t6eSqWSSqWS3XbbLYceemjuuOOOnp//3Oc+1/P4f34dcMABPftMnjx5o/ucffbZvWZZuHBhTjzxxDQ1NWXXXXfNgQcemIsvvjh///vfkySLFi1KpVJJZ2fnBq+jvb091113Xf//BQEAAAAAQEHDtvYJ1q1Y0R9z9MnQpqYt/pkZM2ZkzZo1ufnmm7P33ntn+fLluf/++7PiP+a++uqrM2vWrHR3d2f+/Pl5//vfnze96U058sgjkyRvectb8otf/KLX8w4b1vuvbtasWbn66qt7bdt11117/vztb3875557bs4888zceeedaW9vz9NPP51bbrkl8+fPz7XXXrvFrw0AAAAAAAa6rQ4Rz016az+M0Tdv+vvSLdq/s7MzDz74YBYtWpR3vetdSZK99tor73jHO3rtV19fn5aWlrS0tOT666/PD37wg9xzzz09IWLYsGFpaWnZ5LF23XXX193nmWeeyQUXXJALLrggCxYs6Nne3t6eo48+eqOfgAAAAAAAgMFgUF+aqa6uLnV1dbn77rvz8ssv9+lnhg0bluHDh2fNmjX9Nscdd9yRNWvW5JJLLtno4yNHjuy3YwEAAAAAwEAyqEPEsGHDctNNN+Xmm2/OyJEjc9RRR+Xyyy/P4sWLN7r/mjVrcs0116SrqyvHHHNMz/Y//elPPVHj1a//vv/DDTfcsME+t956a5LkySefTENDQ8aOHdunuceNG7fBcz399NNv8G8BAAAAAABqZ6svzTTQzZgxIyeddFIefPDBPPLII7n33nszb968fPe7383MmTOTJJdeemmuuOKKrF69OnV1dfnyl7+ck046qec59t9///zkJz/p9bwNDQ29vv/whz+cz372s722NTc3J0mq1WoqlUqfZ37wwQdTX1/fa9vkyZP7/PMAAAAAADBQbHWIaFn8eD+MUdbOO++c448/Pscff3yuvPLKfOITn8jcuXN7QsSnP/3pzJw5M3V1dWlubt4gGuy0007Zd999N3mMxsbG191nwoQJ6erqyrPPPtunT0WMHz9+g8s1/ffNsQEAAAAAYHuw1f+6PbSpqT/m2KYOPPDA3H333T3fjx49erOhYWucdtpp+cxnPpN58+b1uln1qzo7O90nAgAAAACAQWlQ/zf7FStW5PTTT8/HPvaxTJo0KfX19Xnssccyb968vPe97+3z8/z73//Oc88912tbpVLpufRSkrz00ksb7DNixIjsvvvuaWtry4IFC3Leeeelu7s7H/3oR9Pe3p5nnnkmt9xyS+rq6jJ//vyte7EAAAAAADAADeoQUVdXl8MOOywLFixIR0dH1q5dm7a2tsyaNSuXX355n5/nz3/+8waXVBoxYkRWr17d8/2NN96YG2+8sdc+U6dOzX333ZckOffcczNhwoR89atfzSmnnJJ//etfaW9vz3ve855cdNFFW/EqAQAAAABg4KpUq9VqrYcAAAAAAAAGpyG1HgAAAAAAABi8hAgAAAAAAKAYIQIAAAAAAChGiAAAAAAAAIoRIgAAAAAAgGKECAAAAAAAoJhhfdlp/fr1WbZsWerr61OpVErPBAAAAAAADGDVajUrV65Ma2trhgzZ9Gce+hQili1blra2tn4ZDgAAAAAAGByWLl2acePGbXKfPoWI+vr6nidsaGjY+skAAAAAAIDtVnd3d9ra2nr6wab0KUS8ejmmhoYGIQIAAAAAAEiSPt3Owc2qAQAAAACAYoQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKESIAAAAAAIBihAgAAAAAAKAYIQIAAAAAAChGiAAAAAAAAIoRIgAAAAAAgGKECAAAAAAAoBghAgAAAAAAKEaIAAAAAAAAihEiAAAAAACAYoQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKESIAAAAAAIBihAgAAAAAAKAYIQIAAAAAAChGiAAAAAAAAIoRIgAAAAAAgGKECAAAAAAAoBghAgAAAAAAKEaIAAAAAAAAihEiAAAAAACAYoQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKESIAAAAAAIBihAgAAAAAAKAYIQIAAAAAAChGiAAAAAAAAIoRIgAAAAAAgGKECAAAAAAAoBghAgAAAAAAKEaIAAAAAAAAihEiAAAAAACAYoQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKESIAAAAAAIBihAgAAAAAAKAYIQIAAAAAAChGiAAAAAAAAIoRIgAAAAAAgGKECAAAAAAAoBghAgAAAAAAKEaIAAAAAAAAihEiAAAAAACAYoQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKESIAAAAAAIBihAgAAAAAAKAYIQIAAAAAAChGiAAAAAAAAIoRIgAAAAAAgGKECAAAAAAAoBghAgAAAAAAKEaIAAAAAAAAihEiAAAAAACAYoQIAAAAAACgGCECAAAAAAAoRogAAAAAAACKESIAAAAAAIBihAgAAAAAAKCYLQoR655/vtQcrx1j+fJ0z78265YvL36sWhwPAAD6y+bWsta6MHBt7fvT+xsAqLUt6QVbFiJeeGGLh9lS655/PiuvXbBNokctjgcAAP1lc2tZa10YuLb2/en9DQDU2pb0ApdmAgAAAAAAihEiAAAAAACAYoQIAAAAAACgmGFbsvP6ru6sW7Gi1CyvHKOzq+jzb+q4pV8bAAD0p76una11YeDpr999vb8BgFpZ39Xd5323KET886yPZe2QwfkhihUf+GCtRwAAgCKsdWHw8v4GAGpl5fr1fd53cFYFAAAAAABgQBAiAAAAAACAYoQIAAAAAACgmC26R8So738vTW//f6VmSZKs/d//q8k1Lpv+5/YMP/DN2/y4AADwRvV17WytCwNPf/3u6/0NANTK8N8+lpwwrU/7blGIGNLYkKFNTW9oqL5aN7Kx6PO/niEjG4u/NgAA6E99XTtb68LA01+/+3p/AwC1MqSxoe/7FpwDAAAAAADYwQkRAAAAAABAMUIEAAAAAABQzBaFiKF77FFqjteOMWZM6i+6MEPHjCl+rFocDwAA+svm1rLWujBwbe370/sbAKi1LekFlWq1Wt3cTt3d3WlsbExXV1caGvp+AwoAAAAAAGDw2ZJu4NJMAAAAAABAMUIEAAAAAABQjBABAAAAAAAUI0QAAAAAAADFCBEAAAAAAEAxQgQAAAAAAFCMEAEAAAAAABQjRAAAAAAAAMUIEQAAAAAAQDFCBAAAAAAAUIwQAQAAAAAAFCNEAAAAAAAAxQgRAAAAAABAMUIEAAAAAABQjBABAAAAAAAUI0QAAAAAAADFCBEAAAAAAEAxQgQAAAAAAFCMEAEAAAAAABQjRAAAAAAAAMUIEQAAAAAAQDFCBAAAAAAAUIwQAQAAAAAAFCNEAAAAAAAAxQgRAAAAAABAMUIEAAAAAABQjBABAAAAAAAUI0QAAAAAAADFCBEAAAAAAEAxQgQAAAAAAFCMEAEAAAAAABQjRAAAAAAAAMUIEQAAAAAAQDFCBAAAAAAAUIwQAQAAAAAAFCNEAAAAAAAAxQgRAAAAAABAMUIEAAAAAABQjBABAAAAAAAUI0QAAAAAAADFCBEAAAAAAEAxQgQAAAAAAFCMEAEAAAAAABQjRAAAAAAAAMUIEQAAAAAAQDFCBAAAAAAAUIwQAQAAAAAAFCNEAAAAAAAAxQgRAAAAAABAMUIEAAAAAABQjBABAAAAAAAUI0QAAAAAAADFCBEAAAAAAEAxQgQAAAAAAFCMEAEAAAAAABQjRAAAAAAAAMUIEQAAAAAAQDFCBAAAAAAAUIwQAQAAAAAAFCNEAAAAAAAAxQgRAAAAAABAMUIEAAAAAABQjBABAAAAAAAUI0QAAAAAAADFCBEAAAAAAEAxQgQAAAAAAFCMEAEAAAAAABQzrC87VavVJEl3d3fRYQAAAAAAgIHv1V7waj/YlD6FiJUrVyZJ2tratmIsAAAAAABgMFm5cmUaGxs3uU+l2odcsX79+ixbtiz19fWpVCr9NiDwmu7u7rS1tWXp0qVpaGio9TgAA5pzJkDfOWcC9J1zJkDfVavVrFy5Mq2trRkyZNN3gejTJyKGDBmScePG9ctwwKY1NDRY7AD0kXMmQN85ZwL0nXMmQN9s7pMQr3KzagAAAAAAoBghAgAAAAAAKEaIgAFixIgRmTt3bkaMGFHrUQAGPOdMgL5zzgToO+dMgDL6dLNqAAAAAACAN8InIgAAAAAAgGKECAAAAAAAoBghAgAAAAAAKEaIAAAAAAAAihEiYBv71a9+lZNPPjmtra2pVCq5++67ez1erVZz1VVXZezYsdll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Offline use\n","\n","Gating models and pipelines allows [me](https://herve.niderb.fr) to know a bit more about `pyannote.audio` user base and eventually help me write grant proposals to make `pyannote.audio` even better. Please fill this form as precisely as possible.\n","\n","For instance, before gating `pyannote/speaker-diarization`, I had no idea that so many people were relying on it in production. Hint: sponsors are more than welcome! maintaining open source libraries is time consuming.\n","\n","That being said: this whole authentication process does not prevent you from using official `pyannote.audio` models and pipelines offline (i.e. without going through the authentication process in every `docker run ...` or whatever you are using in production).\n","\n","* Step 1: download `config.yaml` of [`pyannote/voice-activity-detection`](https://hf.co/pyannote/voice-activity-detection) pipeline\n","\n","![](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/assets/download-pipeline.png?raw=1)\n","\n","* Step 2: download the `pytorch_model.bin` model\n","\n","![](https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/assets/download-model.png?raw=1)\n","\n","* Step 3: edit `config.yaml` to point to the local model\n","\n","```diff\n","pipeline:\n"," name: pyannote.audio.pipelines.VoiceActivityDetection\n"," params:\n","- segmentation: pyannote/segmentation@Interspeech2021\n","+ segmentation: pytorch_model.bin\n","\n","params:\n"," min_duration_off: 0.09791355693027545\n"," min_duration_on: 0.05537587440407595\n"," offset: 0.4806866463041527\n"," onset: 0.8104268538848918\n","```\n","\n","* Step 4: load the pipeline"]},{"cell_type":"code","execution_count":null,"metadata":{"id":"a1bZGOoEeq4v","outputId":"a8851164-100c-4cc1-afd2-d387a5fc4fd5"},"outputs":[{"data":{"image/png":"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look ma: no hands!\n","offline_vad = Pipeline.from_pretrained(\"config.yaml\")\n","offline_vad(audio_in_memory)"]},{"cell_type":"code","execution_count":null,"metadata":{"id":"eepjEec8eq4w"},"outputs":[],"source":["# just checking output is the same\n","assert (vad(audio_in_memory) == offline_vad(audio_in_memory))"]}],"metadata":{"accelerator":"GPU","colab":{"gpuType":"T4","provenance":[{"file_id":"https://github.com/pyannote/pyannote-audio/blob/develop/tutorials/applying_a_pipeline.ipynb","timestamp":1704808199718}]},"kernelspec":{"display_name":"Python 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zNdE3eICr$ahg5Rmf6?{7x+qC9Fe2dwu?|14zkDax_q1p-o}*=jc^$2!pN;6h9`k)R u|Np=rjP>so{Qo8WZY6ZB{}V>Db4TbcqqRZ+Ozt<@M_pCtT9JxH=>GuE=(3>z diff --git a/tutorials/intro.ipynb b/tutorials/intro.ipynb index 572ea2f6d..328ddceaf 100644 --- a/tutorials/intro.ipynb +++ b/tutorials/intro.ipynb @@ -10,15 +10,6 @@ "\"Open" ] }, - { - "cell_type": "markdown", - "metadata": { - "id": "9-KmdPlBYnp6" - }, - "source": [ - "\"Open" - ] - }, { "cell_type": "markdown", "metadata": { @@ -622,7 +613,7 @@ "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", - "version": "3.11.5" + "version": "3.10.13" }, "widgets": { "application/vnd.jupyter.widget-state+json": { diff --git a/tutorials/overlapped_speech_detection.ipynb b/tutorials/overlapped_speech_detection.ipynb index 1ad5d4090..9211f0626 100644 --- a/tutorials/overlapped_speech_detection.ipynb +++ b/tutorials/overlapped_speech_detection.ipynb @@ -1,13 +1,41 @@ { "cells": [ { - "cell_type": "code", - "execution_count": null, + "cell_type": "markdown", "metadata": {}, - "outputs": [], "source": [ - "# TODO: switch to AMI\n", - "PROTOCOL = 'Debug.SpeakerDiarization.Debug'" + "\"Open" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Finetuning a segmentation model on an overlapped speech detection task with `pyannote.audio`\n", + "\n", + "Overlapped speech detection (OSD) is the task of detecting regions where at least two speakers are speaking at the same time. In this notebook, we will finetune a segmentation model on the OSD task, then evaluate an OSD pipeline on AMI database." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Tutorial setup" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### `Google Colab` setup" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "If you are running this tutorial on `Colab`, execute the following commands in order to setup `Colab` environment. These commands will install `pyannote.audio` and download a mini version of the `AMI` corpus." ] }, { @@ -16,17 +44,49 @@ "metadata": {}, "outputs": [], "source": [ - "# TODO: update this tutorial to do fine tuning of a model pretrained on DIHARD" + "!pip install -qq pyannote.audio==3.1.1\n", + "!pip install -qq ipython==7.34.0\n", + "!git clone https://github.com/pyannote/AMI-diarization-setup.git\n", + "%cd ./AMI-diarization-setup/pyannote/\n", + "!bash ./download_ami_mini.sh\n", + "%cd /content" ] }, { - "attachments": {}, "cell_type": "markdown", "metadata": {}, "source": [ - "# Overlapped speech detection with `pyannote.audio`\n", - "\n", - "Overlapped speech detection (OSD) is the task of detecting regions where at least two speakers are speaking at the same time. In this notebook, we will train and evaluate an OSD pipeline on Debug database." + "⚠ Restart the runtime (Runtime > Restart session)." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Non `Google Colab` setup" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "If you are not using `Colab`, this tutorial assumes that\n", + "* `pyannote.audio` has been installed\n", + "* the [AMI corpus](https://groups.inf.ed.ac.uk/ami/corpus/) has already been [setup for use with `pyannote`](https://github.com/pyannote/AMI-diarization-setup/tree/main/pyannote)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Protocol" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Firstly, we define a protocol, here `AMI.SpeakerDiarization.mini`" ] }, { @@ -35,8 +95,10 @@ "metadata": {}, "outputs": [], "source": [ - "from pyannote.database import get_protocol, FileFinder\n", - "protocol = get_protocol(PROTOCOL, preprocessors={\"audio\": FileFinder()})" + "from pyannote.database import registry, FileFinder\n", + "\n", + "registry.load_database(\"AMI-diarization-setup/pyannote/database.yml\")\n", + "protocol = registry.get_protocol(\"AMI.SpeakerDiarization.mini\", preprocessors={\"audio\": FileFinder()})" ] }, { @@ -60,7 +122,7 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 24, "metadata": {}, "outputs": [], "source": [ @@ -79,9 +141,21 @@ }, { "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], + "execution_count": 26, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + "" + ] + }, + "execution_count": 26, + "metadata": {}, + "output_type": "execute_result" + } + ], "source": [ "first_training_file['annotation']" ] @@ -96,9 +170,21 @@ }, { "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], + "execution_count": 27, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" + ] + }, + "execution_count": 27, + "metadata": {}, + "output_type": "execute_result" + } + ], "source": [ "from pyannote.audio.pipelines.overlapped_speech_detection import OracleOverlappedSpeechDetection\n", "oracle_osd = OracleOverlappedSpeechDetection()\n", @@ -111,7 +197,9 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "## Training" + "## Finetuning\n", + "\n", + "In this part, we propose to finetune the [hf.co/pyannote/segmentation-3.0](https://hf.co/pyannote/segmentation-3.0) on an OSD *task*" ] }, { @@ -119,7 +207,7 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "We initialize an OSD *task* that describes how the model will be trained:\n", + "Firstly, we initialize an OSD *task* that describes how the model will be trained:\n", "\n", "* `protocol` indicates that we will use files available in `protocol.train()`.\n", "* `duration=2.` and `batch_size=16` indicates that the model will ingest batches of 16 two seconds long audio chunks." @@ -136,11 +224,12 @@ ] }, { - "attachments": {}, "cell_type": "markdown", "metadata": {}, "source": [ - "We initialize the *model*: it needs to know about the task (`task=osd`) for which it is being trained for:" + "The next step is to load the segmentation model. Official [pyannote.audio](https://github.com/pyannote/pyannote-audio) models (i.e. those under the [`pyannote` organization](https://hf.co/pyannote) umbrella) are open-source, but gated. It means that you have to first accept users conditions on their respective Huggingface page to access the pretrained weights and hyper-parameters. Despite this initial process, those models can perfectly be downloaded for later offline use: keep reading this tutorial until the end to learn how to do that.\n", + "\n", + "For instance, to load the speaker segmentation model used in this tutorial, you have to visit [hf.co/pyannote/segmentation-3.0](https://hf.co/pyannote/segmentation-3.0), accept the terms, and log in using `notebook_login` below:" ] }, { @@ -149,8 +238,8 @@ "metadata": {}, "outputs": [], "source": [ - "from pyannote.audio.models.segmentation.debug import SimpleSegmentationModel\n", - "model = SimpleSegmentationModel(task=osd)" + "from huggingface_hub import notebook_login\n", + "notebook_login()" ] }, { @@ -158,18 +247,129 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "Now that everything is ready, let's train with `pytorch-ligthning`!" + "We can then initialize the *pretrained model*: it needs to know about the task (`task=osd`) for which it is being trained for:" ] }, { "cell_type": "code", - "execution_count": null, + "execution_count": 30, "metadata": {}, "outputs": [], + "source": [ + "from pyannote.audio.core.model import Model\n", + "\n", + "pretrained_model = Model.from_pretrained(\"pyannote/segmentation-3.0\", use_auth_token=True)\n", + "# we assign the OSD task to the model\n", + "pretrained_model.task = osd" + ] + }, + { + "attachments": {}, + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Now that everything is ready, let's train with `pytorch-ligthning`!" + ] + }, + { + "cell_type": "code", + "execution_count": 33, + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "GPU available: False, used: False\n", + "TPU available: False, using: 0 TPU cores\n", + "IPU available: False, using: 0 IPUs\n", + "HPU available: False, using: 0 HPUs\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "\n", + " | Name | Type | Params | In sizes | Out sizes \n", + "---------------------------------------------------------------------------------------------------------------------\n", + "0 | sincnet | SincNet | 42.6 K | [1, 1, 32000] | [1, 60, 115] \n", + "1 | lstm | LSTM | 1.4 M | [1, 115, 60] | [[1, 115, 256], [[8, 1, 128], [8, 1, 128]]]\n", + "2 | linear | ModuleList | 49.4 K | ? | ? \n", + "3 | classifier | Linear | 129 | [1, 115, 128] | [1, 115, 1] \n", + "4 | activation | Sigmoid | 0 | [1, 115, 1] | [1, 115, 1] \n", + "5 | validation_metric | MetricCollection | 0 | ? | ? \n", + "---------------------------------------------------------------------------------------------------------------------\n", + "1.5 M Trainable params\n", + "0 Non-trainable params\n", + "1.5 M Total params\n", + "5.890 Total estimated model params size (MB)\n" + ] + }, + { + "data": { + "application/vnd.jupyter.widget-view+json": { + "model_id": "2433ca383e8f4470adae1e34ffa53b2f", + "version_major": 2, + "version_minor": 0 + }, + "text/plain": [ + "Sanity Checking: | | 0/? [00:00, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" + ] + }, + "execution_count": 35, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "oracle_osd(test_file).get_timeline()" ] }, { @@ -203,20 +431,32 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 36, "metadata": {}, "outputs": [], "source": [ "from pyannote.audio import Inference\n", - "inference = Inference(model)\n", + "inference = Inference(pretrained_model)\n", "osd_probability = inference(test_file)" ] }, { "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], + "execution_count": 37, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "" + ] + }, + "execution_count": 37, + "metadata": {}, + "output_type": "execute_result" + } + ], "source": [ "osd_probability" ] @@ -226,7 +466,7 @@ "cell_type": "markdown", "metadata": {}, "source": [ - "## Pipeline" + "## Pipeline" ] }, { @@ -244,12 +484,12 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 38, "metadata": {}, "outputs": [], "source": [ "from pyannote.audio.pipelines import OverlappedSpeechDetection as OverlappedSpeechDetectionPipeline\n", - "pipeline = OverlappedSpeechDetectionPipeline(scores=inference).instantiate(\n", + "pipeline = OverlappedSpeechDetectionPipeline(pretrained_model).instantiate(\n", " {\"onset\": 0.5, \"offset\": 0.5, \"min_duration_on\": 0.1, \"min_duration_off\": 0.1})" ] }, @@ -263,9 +503,21 @@ }, { "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], + "execution_count": 39, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" + ] + }, + "execution_count": 39, + "metadata": {}, + "output_type": "execute_result" + } + ], "source": [ "pipeline(test_file).get_timeline()" ] @@ -288,25 +540,27 @@ }, { "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "# to make things faster, we run the inference once and for all... \n", - "validation_files = list(protocol.development())\n", - "for file in validation_files:\n", - " file['osd'] = inference(file)\n", - "# ... and tell the pipeline to load OSD scores directly from files\n", - "pipeline = OverlappedSpeechDetectionPipeline(scores=\"osd\")" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], + "execution_count": 40, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "{'loss': 0.7273619100616171,\n", + " 'params': {'onset': 0.4321866835452871,\n", + " 'offset': 0.33656592926710593,\n", + " 'min_duration_on': 0.11171631479481339,\n", + " 'min_duration_off': 0.07311754878841395}}" + ] + }, + "execution_count": 40, + "metadata": {}, + "output_type": "execute_result" + } + ], "source": [ "from pyannote.pipeline import Optimizer\n", + "validation_files = list(protocol.development())\n", "optimizer = Optimizer(pipeline)\n", "optimizer.tune(validation_files, n_iterations=200, show_progress=False)" ] @@ -321,11 +575,23 @@ }, { "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "optimized_pipeline = OverlappedSpeechDetectionPipeline(scores=inference).instantiate(optimizer.best_params)\n", + "execution_count": 41, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" + ] + }, + "execution_count": 41, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "optimized_pipeline = OverlappedSpeechDetectionPipeline(pretrained_model).instantiate(optimizer.best_params)\n", "optimized_pipeline(test_file).get_timeline()" ] } @@ -346,7 +612,7 @@ "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", - "version": "3.8.5" + "version": "3.10.13" } }, "nbformat": 4, diff --git a/tutorials/training_a_model.ipynb b/tutorials/training_a_model.ipynb index f3e019f8b..582d729a5 100644 --- a/tutorials/training_a_model.ipynb +++ b/tutorials/training_a_model.ipynb @@ -1,886 +1 @@ -{ - "cells": [ - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "# preparing notebook for visualization purposes\n", - "# (only show outputs between t=180s and t=240s)\n", - "from pyannote.core import notebook, Segment\n", - "notebook.crop = Segment(210, 240)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Training, fine-tuning, and transfer learning with `pyannote.audio`\n", - "\n", - "In this tutorial, you will learn how to use `pyannote.audio` to \n", - "\n", - "* train a voice activity detection model from scratch, \n", - "* fine-tune a pretrained speaker segmentation model,\n", - "* perform transfer learning (from speaker segmentation to overlapped speech detection)\n", - "\n", - "## Data preparation\n", - "\n", - "This tutorial assumes that \n", - "* the [AMI corpus](https://groups.inf.ed.ac.uk/ami/corpus/) has already been [setup for use with `pyannote`](https://github.com/pyannote/AMI-diarization-setup/tree/main/pyannote)\n", - "* the `PYANNOTE_DATABASE_CONFIG` environment variable is set accordingly. \n", - "\n", - "See [`pyannote.database` documentation](https://github.com/pyannote/pyannote-database#pyannote-database) to learn how to prepare your own dataset for training with `pyannote.audio`." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.database import get_protocol\n", - "ami = get_protocol('AMI.SpeakerDiarization.only_words')" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Training a voice activity detection model from scratch" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Voice activity detection (VAD) is the task of detecting speech regions in a given audio stream or recording.\n", - "\n", - "We initialize a VAD *task* that describes how the model will be trained:\n", - "\n", - "* `ami` indicates that we will use files available in `ami.train()`.\n", - "* `duration=2.` and `batch_size=128` indicates that the model will ingest batches of 128 two seconds long audio chunks." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.tasks import VoiceActivityDetection\n", - "vad_task = VoiceActivityDetection(ami, duration=2.0, batch_size=128)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "We initialize one *model* with the `PyanNet` architecture used [in that paper](https://arxiv.org/abs/2104.04045). \n", - "In particular, we increase the default stride of the initial `sincnet` feature extraction layer to `10`.\n", - "\n", - "The model is also provided with the task (`task=vad_task`) for which it is being trained:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.models.segmentation import PyanNet\n", - "vad_model = PyanNet(task=vad_task, sincnet={'stride': 10})" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Now that everything is ready, let's train with `pytorch-ligthning`!" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - "GPU available: True, used: True\n", - "TPU available: False, using: 0 TPU cores\n", - "IPU available: False, using: 0 IPUs\n", - "LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0]\n", - "\n", - " | Name | Type | Params | In sizes | Out sizes \n", - "-----------------------------------------------------------------------------------------------------------------------\n", - "0 | sincnet | SincNet | 42.6 K | [128, 1, 32000] | [128, 60, 115] \n", - "1 | lstm | LSTM | 589 K | [128, 115, 60] | [[128, 115, 256], [[4, 128, 128], [4, 128, 128]]]\n", - "2 | linear | ModuleList | 49.4 K | ? | ? \n", - "3 | classifier | Linear | 129 | [128, 115, 128] | [128, 115, 1] \n", - "4 | activation | Sigmoid | 0 | [128, 115, 1] | [128, 115, 1] \n", - "5 | validation_metric | AUROC | 0 | ? | ? \n", - "-----------------------------------------------------------------------------------------------------------------------\n", - "681 K Trainable params\n", - "0 Non-trainable params\n", - "681 K Total params\n", - "2.728 Total estimated model params size (MB)\n" - ] - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validation sanity check'), FloatProgress(value=1.0, bar_style='info', layout=Layout…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "0a76f04fd4ab4cad9dac09344b932e49", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Training'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), max…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validating'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), m…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\n" - ] - } - ], - "source": [ - "import pytorch_lightning as pl\n", - "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=1)\n", - "trainer.fit(vad_model)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "For the purpose of this tutorial, the model is trained for only 1 epoch. One can obviously expect better performance by training longer and on more data.\n", - "\n", - "See [`pytorch-lightning`](https://www.pytorchlightning.ai/) documentation to learn more about the [`Trainer` API](https://pytorch-lightning.readthedocs.io/en/latest/common/trainer.html), in particular." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Once trained, the model can be applied to a test file:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "test_file = next(ami.test())\n", - "# here we use a test file provided by the protocol, but it could be any audio file\n", - "# e.g. test_file = \"/path/to/test.wav\"." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Because the model was trained on 2s audio chunks and that test files are likely to be much longer than that, we wrap the `model` with an `Inference` instance: it will take care of sliding a 2s window over the whole file and aggregate the output of the model." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.audio import Inference\n", - "vad = Inference(vad_model)\n", - "\n", - "vad_probability = vad(test_file)\n", - "vad_probability" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Perfect voice activity detection output should look like that:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": "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", - "text/plain": [ - ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "expected_output = test_file[\"annotation\"].get_timeline().support()\n", - "expected_output" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Fine-tuning a pretrained speaker segmentation model\n", - "\n", - "Speaker diarization is the task of partitioning a given audio stream of recording into according to the speaker identity.\n", - "\n", - "[`pyannote/segmentation`](https://hf.co/pyannote/segmentation) is a model that was pretrained to perform speaker diarization, but only locally, on 5s-long audio chunks. \n", - "\n", - "To load the speaker segmentation model, \n", - "\n", - "* accept the user conditions on [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation).\n", - "* login using `notebook_login` below" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from huggingface_hub import notebook_login\n", - "notebook_login()" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio import Model\n", - "pretrained = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Let's visualize how it performs on our test file:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "spk_probability = Inference(pretrained, step=2.5)(test_file)\n", - "spk_probability" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "A perfect output would look like that:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "test_file[\"annotation\"].discretize(notebook.crop, resolution=0.010)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "We are going to fine-tune this pretrained model on the AMI dataset:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.tasks import SpeakerDiarization\n", - "seg_task = SpeakerDiarization(ami, duration=5.0, max_num_speakers=4)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "To check that fine-tuning was actually helpful, we need to evaluate the performance of the pretrained model, and compute the average local diarization error rate on a 5s window sliding over the whole test set. To do so, we need to create a helper function:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "def test(model, protocol, subset=\"test\"):\n", - " from pyannote.audio.utils.signal import binarize\n", - " from pyannote.audio.utils.metric import DiscreteDiarizationErrorRate\n", - " from pyannote.audio.pipelines.utils import get_devices\n", - "\n", - " (device,) = get_devices(needs=1)\n", - " metric = DiscreteDiarizationErrorRate()\n", - " files = list(getattr(protocol, subset)())\n", - "\n", - " inference = Inference(model, device=device)\n", - "\n", - " for file in files:\n", - " reference = file[\"annotation\"]\n", - " hypothesis = binarize(inference(file))\n", - " uem = file[\"annotated\"]\n", - " _ = metric(reference, hypothesis, uem=uem)\n", - " \n", - " return abs(metric)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "We can then evaluate the model and see its local DER:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "Local DER (pretrained) = 18.3%\n" - ] - } - ], - "source": [ - "der_pretrained = test(model=pretrained, protocol=ami, subset=\"test\")\n", - "print(f\"Local DER (pretrained) = {der_pretrained * 100:.1f}%\")" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Next, we prepare the model for fine-tuning, simply by overriding its `task` attribute..." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from copy import deepcopy\n", - "finetuned = deepcopy(pretrained)\n", - "finetuned.task = seg_task" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "... and we train it (for just one epoch)" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - "GPU available: True, used: True\n", - "TPU available: False, using: 0 TPU cores\n", - "IPU available: False, using: 0 IPUs\n", - "LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0]\n", - "\n", - " | Name | Type | Params | In sizes | Out sizes \n", - "-------------------------------------------------------------------------------------------------------------------\n", - "0 | sincnet | SincNet | 42.6 K | [32, 1, 80000] | [32, 60, 293] \n", - "1 | lstm | LSTM | 1.4 M | [32, 293, 60] | [[32, 293, 256], [[8, 32, 128], [8, 32, 128]]]\n", - "2 | linear | ModuleList | 49.4 K | ? | ? \n", - "3 | classifier | Linear | 516 | [32, 293, 128] | [32, 293, 4] \n", - "4 | activation | Sigmoid | 0 | [32, 293, 4] | [32, 293, 4] \n", - "5 | validation_metric | AUROC | 0 | ? | ? \n", - "-------------------------------------------------------------------------------------------------------------------\n", - "1.5 M Trainable params\n", - "0 Non-trainable params\n", - "1.5 M Total params\n", - "5.892 Total estimated model params size (MB)\n" - ] - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validation sanity check'), FloatProgress(value=1.0, bar_style='info', layout=Layout…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "634877439d6744d88223cfd1313e5fc1", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Training'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), max…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validating'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), m…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\n" - ] - } - ], - "source": [ - "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=1)\n", - "trainer.fit(finetuned)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "We now evaluate the performance of the fine-tuned model..." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "Local DER (finetuned) = 17.5%\n" - ] - } - ], - "source": [ - "der_finetuned = test(model=finetuned, protocol=ami, subset=\"test\")\n", - "print(f\"Local DER (finetuned) = {der_finetuned * 100:.1f}%\")" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "... to confirm that it actually improved its performance on the AMI test set.\n", - "\n", - "\n", - "## Transfer learning\n", - "\n", - "What if you are only interested in detecting overlapped speech regions? \n", - "\n", - "Looking at the output of the `pyannote/segmentation` model, it seems that it would be a good starting point for training such a dedicated model:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "\n", - "Inference('pyannote/segmentation', use_auth_token=True, step=2.5)(test_file)" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "test_file[\"annotation\"]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Let's update the model so that it specifically addresses overlapped speech detection. \n", - "This is achieved very simply by updating the `task` attribute..." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.tasks import OverlappedSpeechDetection\n", - "osd_task = OverlappedSpeechDetection(ami, duration=2.0)\n", - "\n", - "osd_model = Model.from_pretrained(\"pyannote/segmentation\", use_auth_token=True)\n", - "osd_model.task = osd_task" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "... optionally freeezing a bunch of layers..." - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "['sincnet',\n", - " 'sincnet.wav_norm1d',\n", - " 'sincnet.conv1d',\n", - " 'sincnet.conv1d.0',\n", - " 'sincnet.conv1d.0.filterbank',\n", - " 'sincnet.conv1d.1',\n", - " 'sincnet.conv1d.2',\n", - " 'sincnet.pool1d',\n", - " 'sincnet.pool1d.0',\n", - " 'sincnet.pool1d.1',\n", - " 'sincnet.pool1d.2',\n", - " 'sincnet.norm1d',\n", - " 'sincnet.norm1d.0',\n", - " 'sincnet.norm1d.1',\n", - " 'sincnet.norm1d.2',\n", - " 'lstm']" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "osd_model.freeze_up_to('lstm')" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "... and training it:" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - "GPU available: True, used: True\n", - "TPU available: False, using: 0 TPU cores\n", - "IPU available: False, using: 0 IPUs\n", - "LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0]\n", - "\n", - " | Name | Type | Params | In sizes | Out sizes \n", - "-------------------------------------------------------------------------------------------------------------------\n", - "0 | sincnet | SincNet | 42.6 K | [32, 1, 32000] | [32, 60, 115] \n", - "1 | lstm | LSTM | 1.4 M | [32, 115, 60] | [[32, 115, 256], [[8, 32, 128], [8, 32, 128]]]\n", - "2 | linear | ModuleList | 49.4 K | ? | ? \n", - "3 | classifier | Linear | 129 | [32, 115, 128] | [32, 115, 1] \n", - "4 | activation | Sigmoid | 0 | [32, 115, 1] | [32, 115, 1] \n", - "5 | validation_metric | AUROC | 0 | ? | ? \n", - "-------------------------------------------------------------------------------------------------------------------\n", - "49.5 K Trainable params\n", - "1.4 M Non-trainable params\n", - "1.5 M Total params\n", - "5.890 Total estimated model params size (MB)\n" - ] - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validation sanity check'), FloatProgress(value=1.0, bar_style='info', layout=Layout…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "17ca908b800f4d34841bc2c7d5ccdff3", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Training'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), max…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validating'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), m…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\n" - ] - } - ], - "source": [ - "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=1)\n", - "trainer.fit(osd_model)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Et voilà! A brand new overlapped speech detection model!" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.audio.utils.signal import binarize\n", - "binarize(Inference(osd_model)(test_file))" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": "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", - "text/plain": [ - "" - ] - }, - "execution_count": null, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "test_file[\"annotation\"]" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Going further\n", - "\n", - "This tutorial only scratched the surface of the training API.\n", - "\n", - "Every task supports an `augmentation` parameter for training with data augmentation via [`torch-audiomentations`](https://github.com/asteroid-team/torch-audiomentations) library:\n", - "\n", - "```python\n", - "from torch_audiomentations import AddBackgroundNoise\n", - "augmentation = AddBackgroundNoise(\"/path/to/background/noise/directory\")\n", - "vad_task = VoiceActivityDetection(ami, augmentation=augmentation)\n", - "```\n", - "\n", - "We also benefit from all the nice things [`pytorch-lightning`](ttps://pytorch-lightning.readthedocs.io) has to offer (like multi-gpu training, for instance).\n", - "\n", - "```python\n", - "trainer = Trainer(devices=4, accelerator=\"gpu\", strategy='ddp')\n", - "trainer.fit(model)\n", - "```\n", - "\n", - "Default optimizer (`Adam` with default parameters) is automatically set up for you. \n", - "Customizing optimizer (and scheduler) requires overriding [`model.configure_optimizers`](https://pytorch-lightning.readthedocs.io/en/stable/api/pytorch_lightning.core.lightning.html#pytorch_lightning.core.lightning.LightningModule.configure_optimizers) method:\n", - "\n", - "```python\n", - "from types import MethodType\n", - "from torch.optim import SGD\n", - "from torch.optim.lr_scheduler import ExponentialLR\n", - "def configure_optimizers(self):\n", - " return {\"optimizer\": SGD(self.parameters()),\n", - " \"lr_scheduler\": ExponentialLR(optimizer, 0.9)}\n", - "model.configure_optimizers = MethodType(configure_optimizers, model)\n", - "trainer.fit(model)\n", - "```" - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3 (ipykernel)", - "language": "python", - "name": "python3" - } - }, - "nbformat": 4, - "nbformat_minor": 4 -} +{"cells":[{"cell_type":"markdown","metadata":{},"source":["\"Open"]},{"cell_type":"markdown","metadata":{},"source":["\n","# Training, fine-tuning, and transfer learning with pyannote.audio\n","\n","In this tutorial, you will learn how to use pyannote.audio to\n","\n","- train a voice activity detection model from scratch,\n","- fine-tune a pretrained speaker segmentation model,\n","- perform transfer learning (from speaker segmentation to overlapped speech detection)\n"]},{"cell_type":"markdown","metadata":{},"source":["## Tutorial setup"]},{"cell_type":"markdown","metadata":{"id":"72ECjKLknm8D"},"source":["### `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"mBBNyENbofJ4"},"source":["If you are running this tutorial on `Colab`, execute the following commands in order to setup `Colab` environment. These commands will install `pyannote.audio` and download a mini version of the `AMI` corpus."]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":68165,"status":"ok","timestamp":1704810976973,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"Luhkk8D4oiir","outputId":"7f43b6e3-8dba-40c1-a9e9-5b3ae4ddc891"},"outputs":[],"source":["!pip install -qq pyannote.audio==3.1.1\n","!pip install -qq ipython==7.34.0\n","!git clone https://github.com/pyannote/AMI-diarization-setup.git\n","%cd ./AMI-diarization-setup/pyannote/\n","!bash ./download_ami_mini.sh\n","%cd /content"]},{"cell_type":"markdown","metadata":{"id":"VWo84u4ypEMc"},"source":["⚠ Restart the runtime (Runtime > Restart session)."]},{"cell_type":"markdown","metadata":{"id":"zmnD8CUUnt1N"},"source":["### Non `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"HS7SxeZkoth1"},"source":["If you are not using `Colab`, this tutorial assumes that\n","* `pyannote.audio` has been installed\n","* the [AMI corpus](https://groups.inf.ed.ac.uk/ami/corpus/) has already been [setup for use with `pyannote`](https://github.com/pyannote/AMI-diarization-setup/tree/main/pyannote)\n"]},{"cell_type":"code","execution_count":1,"metadata":{"executionInfo":{"elapsed":810,"status":"ok","timestamp":1704811019354,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"67whHDb3pOIe"},"outputs":[],"source":["# preparing notebook for visualization purposes\n","# (only show outputs between t=180s and t=240s)\n","from pyannote.core import notebook, Segment\n","notebook.crop = Segment(210, 240)"]},{"cell_type":"markdown","metadata":{"id":"z4-LIYSEnj5i"},"source":["## Data preparation\n","\n","See [`pyannote.database` documentation](https://github.com/pyannote/pyannote-database#pyannote-database) to learn how to prepare your own dataset for training with `pyannote.audio`."]},{"cell_type":"code","execution_count":null,"metadata":{"id":"8vw0KmndnX8L"},"outputs":[],"source":["from pyannote.database import registry, FileFinder\n","\n","registry.load_database(\"AMI-diarization-setup/pyannote/database.yml\")\n","ami = registry.get_protocol('AMI.SpeakerDiarization.mini')"]},{"cell_type":"markdown","metadata":{"id":"69qydyg6nX8M"},"source":["## Training a voice activity detection model from scratch"]},{"cell_type":"markdown","metadata":{"id":"l0-I4_ApnX8N"},"source":["Voice activity detection (VAD) is the task of detecting speech regions in a given audio stream or recording.\n","\n","We initialize a VAD *task* that describes how the model will be trained:\n","\n","* `ami` indicates that we will use files available in `ami.train()`.\n","* `duration=2.` and `batch_size=128` indicates that the model will ingest batches of 128 two seconds long audio chunks."]},{"cell_type":"code","execution_count":null,"metadata":{"id":"lFDktlSDnX8O"},"outputs":[],"source":["from pyannote.audio.tasks import VoiceActivityDetection\n","vad_task = VoiceActivityDetection(ami, duration=2.0, batch_size=128)"]},{"cell_type":"markdown","metadata":{"id":"EZ0Kje3RnX8Q"},"source":["We initialize one *model* with the `PyanNet` architecture used [in that paper](https://arxiv.org/abs/2104.04045). \n","In particular, we increase the default stride of the initial `sincnet` feature extraction layer to `10`.\n","\n","The model is also provided with the task (`task=vad_task`) for which it is being trained:"]},{"cell_type":"code","execution_count":4,"metadata":{"executionInfo":{"elapsed":226,"status":"ok","timestamp":1704811118255,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"kSfY8Y3fnX8R"},"outputs":[],"source":["from pyannote.audio.models.segmentation import PyanNet\n","vad_model = PyanNet(task=vad_task, sincnet={'stride': 10})"]},{"cell_type":"markdown","metadata":{"id":"WCNd35YInX8T"},"source":["Now that everything is ready, let's train with `pytorch-ligthning`!"]},{"cell_type":"code","execution_count":5,"metadata":{"id":"ExlUZ6DonX8U"},"outputs":[{"name":"stderr","output_type":"stream","text":["GPU available: False, used: False\n","TPU available: False, using: 0 TPU cores\n","IPU available: False, using: 0 IPUs\n","HPU available: False, using: 0 HPUs\n","\n"," | Name | Type | Params | In sizes | Out sizes \n","---------------------------------------------------------------------------------------------------------------------\n","0 | sincnet | SincNet | 42.6 K | [1, 1, 32000] | [1, 60, 115] \n","1 | lstm | LSTM | 589 K | [1, 115, 60] | [[1, 115, 256], [[4, 1, 128], [4, 1, 128]]]\n","2 | linear | ModuleList | 49.4 K | ? | ? \n","3 | classifier | Linear | 129 | [1, 115, 128] | [1, 115, 1] \n","4 | activation | Sigmoid | 0 | [1, 115, 1] | [1, 115, 1] \n","5 | validation_metric | MetricCollection | 0 | ? | ? \n","---------------------------------------------------------------------------------------------------------------------\n","681 K Trainable params\n","0 Non-trainable params\n","681 K Total params\n","2.728 Total estimated model params size (MB)\n"]},{"data":{"application/vnd.jupyter.widget-view+json":{"model_id":"766125242dd74f4bbd958c0488de0aeb","version_major":2,"version_minor":0},"text/plain":["Sanity Checking: | | 0/? [00:00"]},"execution_count":7,"metadata":{},"output_type":"execute_result"}],"source":["from pyannote.audio import Inference\n","vad = Inference(vad_model)\n","\n","vad_probability = vad(test_file)\n","vad_probability"]},{"cell_type":"markdown","metadata":{"id":"vYf27Tg9nX8Z"},"source":["Perfect voice activity detection output should look like that:"]},{"cell_type":"code","execution_count":8,"metadata":{"id":"DRX0bew-nX8Z","outputId":"77b43b35-ba67-4189-c588-43396ee49366"},"outputs":[{"data":{"image/png":"iVBORw0KGgoAAAANSUhEUgAABjwAAACMCAYAAADIgwBEAAAAOXRFWHRTb2Z0d2FyZQBNYXRwbG90bGliIHZlcnNpb24zLjguMCwgaHR0cHM6Ly9tYXRwbG90bGliLm9yZy81sbWrAAAACXBIWXMAAA9hAAAPYQGoP6dpAAARi0lEQVR4nO3de2yVd/0H8M/pyqWzPYWOS0GKWxQnRLYVL7iZKC5aQWJGYlzcGIlkmYsWCPMWZyZMTRi6xWniZdFk3ZLFOKOpzkU2m9Bg3HDOObYxYWbosgstZCAcKHFCeX5/7NfzS38Uejunp9/yeiVN2qfP+T6fh57z6ef0zXlOLsuyLAAAAAAAABJWVekCAAAAAAAARkvgAQAAAAAAJE/gAQAAAAAAJE/gAQAAAAAAJE/gAQAAAAAAJE/gAQAAAAAAJE/gAQAAAAAAJE/gAQAAAAAAJK+6XAufPn069u/fH3V1dZHL5cp1GAAAAAAAIAFZlsWxY8di7ty5UVVV+tdjlC3w2L9/fzQ1NZVreQAAAAAAIEGvvPJKzJs3r+Trli3wqKuri4g3C8/n8+U6DAAAAAAAkIBCoRBNTU3F/KDUyhZ49F3GKp/PCzwAAAAAAICIiLK9DYY3LQcAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8AAAAAAAAJIn8ADgvNLV1RW33357dHV1VbqUijjfz5+hGQ/3k/FQA3B2HqMAMDC/IyceP9O0CDwAOK90dXXFN7/5zfN2UDnfz5+hGQ/3k/FQA3B2HqMAMDC/IyceP9O0CDwAAAAAAIDkVZf7ALt27Yra2tpyHwYAhmTPnj2VLmFc8O/AuYyn+8d4qgX4Px6bAHBufldOHH6WaSl74PHhD3+43IcAAIbphhtuqHQJMCTuqwAApMgcC5VR9sBjx44dXuEBwLixZ88eg2dEPPDAA7Fw4cJKl8E4NZ4eJ+6rMD6Npz4BAOOROXbiMPekpeyBxxVXXBH5fL7chwEAhmHhwoWxZMmSSpcBg3JfBQAgReZYqAxvWg4AAAAAACRP4AHAeWXOnDmxefPmmDNnTqVLqYjz/fwZmvFwPxkPNQBn5zEKAAPzO3Li8TNNSy7LsqwcCxcKhaivr4+jR4+6pBUAAAAAAJznyp0beIUHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQPIEHAAAAAACQvOpyLZxlWUREFAqFch0CAAAAAABIRF9e0JcflFrZAo9Dhw5FRERTU1O5DgEAAAAAACTm0KFDUV9fX/J1yxZ4NDQ0RETEyy+/XJbCgTQUCoVoamqKV155JfL5fKXLASpAHwD0ASBCLwD0ASDi6NGjMX/+/GJ+UGplCzyqqt58e5D6+noNDIh8Pq8XwHlOHwD0ASBCLwD0AeD/8oOSr1uWVQEAAAAAAMaQwAMAAAAAAEhe2QKPKVOmxObNm2PKlCnlOgSQAL0A0AcAfQCI0AsAfQAofx/IZVmWlWVlAAAAAACAMeKSVgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPKGFXjccccd8b73vS/q6upi1qxZsWrVqnjhhRf67fPTn/40li1bFvl8PnK5XBw5cuSMdQ4fPhyrV6+OfD4f06ZNixtvvDGOHz8+qhMBxkap+sDFF18cuVyu38fWrVvH6CyA0RqsFxw+fDjWr18fl156adTU1MT8+fNjw4YNcfTo0X7rvPzyy7Fy5cq48MILY9asWfGVr3wlTp06NdanA4xAqfrA/58Hcrlc/OIXvxjr0wFGYCjPDW6++eZ4+9vfHjU1NTFz5sy45pprYu/evf32MQ9A2krVC8wEkK6h9IE+WZbFihUrIpfLxW9+85t+3yvFTDCswGPHjh3R2toaf/7zn6OjoyNOnjwZLS0t0dPTU9znxIkTsXz58vj6179+1nVWr14dzz//fHR0dMTDDz8cf/zjH+Nzn/vcsAoHKqNUfSAi4lvf+lZ0dXUVP9avX1/u8oESGawX7N+/P/bv3x933XVX7N69O+6777545JFH4sYbbyyu0dvbGytXroz//ve/8fjjj8f9998f9913X2zatKlSpwUMQyn6QJ+2trZ+M8GqVavG+GyAkRjKc4P3vOc90dbWFnv27IlHH300siyLlpaW6O3tjQjzAEwEpegFfcwEkKah9IE+3//+9yOXy52xvWQzQTYKBw8ezCIi27Fjxxnf6+zszCIi+/e//91v+9///vcsIrInn3yyuG3btm1ZLpfLXnvttdGUA1TASPpAlmXZ2972tuzuu+8uf4HAmDhXL+jzy1/+Mps8eXJ28uTJLMuy7Pe//31WVVWVdXd3F/f5yU9+kuXz+eyNN94oe81AaY2kD2RZlkVE1t7ePgYVAuU2lD7wzDPPZBGRvfjii1mWmQdgIhpJL8gyMwFMJGfrA08//XT21re+Nevq6jrjMV+qmWBU7+HR93L0hoaGId9m586dMW3atHjve99b3PbRj340qqqq4oknnhhNOUAFjKQP9Nm6dWtcdNFF0dzcHHfeeaeXrUPChtILjh49Gvl8PqqrqyPizZlg8eLFMXv27OI+H//4x6NQKMTzzz9f3oKBkhtJH+jT2toaM2bMiPe///1x7733RpZlZa0VKI/B+kBPT0+0tbXFJZdcEk1NTRFhHoCJaCS9oI+ZACaGgfrAiRMn4vrrr48f/ehH0djYeMZtSjUTVA++y8BOnz4dGzdujA9+8IPx7ne/e8i36+7ujlmzZvUvoro6Ghoaoru7e6TlABUw0j4QEbFhw4ZYsmRJNDQ0xOOPPx633nprdHV1xfe+970yVQuUy1B6weuvvx7f/va3+13Csru7u98gExHFr80EkJaR9oGINy9xefXVV8eFF14Yf/jDH+ILX/hCHD9+PDZs2DAWpQMlcq4+8OMf/zi++tWvRk9PT1x66aXR0dERkydPjgjzAEw0I+0FEWYCmCjO1gduueWWuOqqq+Kaa64Z8HalmglGHHi0trbG7t27409/+tNIlwASN5o+8MUvfrH4+WWXXRaTJ0+Om2++Oe64446YMmVKKcsEymywXlAoFGLlypWxaNGiuP3228e2OGBMjKYPfOMb3yh+3tzcHD09PXHnnXf64wYk5lx9YPXq1fGxj30surq64q677oprr702HnvssZg6dWoFKgXKaTS9wEwAE8NAfeChhx6K7du3x9NPP13244/oklbr1q2Lhx9+ODo7O2PevHnDum1jY2McPHiw37ZTp07F4cOHB3wpCzA+jaYPDGTp0qVx6tSpeOmll0ZfHDBmBusFx44di+XLl0ddXV20t7fHpEmTit9rbGyMAwcO9Nu/72szAaRjNH1gIEuXLo1XX3013njjjXKVDJTYYH2gvr4+FixYEB/60IfiV7/6Vezduzfa29sjwjwAE8loesFAzASQnrP1ge3bt8e+ffti2rRpUV1dXbzE7ac+9alYtmxZRJRuJhhW4JFlWaxbty7a29tj+/btcckllwzn5hERceWVV8aRI0fiqaeeKm7bvn17nD59OpYuXTrs9YCxVYo+MJBdu3ZFVVXVGZe8A8anofSCQqEQLS0tMXny5HjooYfO+F+cV155ZTz33HP9/iNER0dH5PP5WLRoUdnPARidUvSBgezatSumT5/uFZ+QgJE8N8iyLLIsK/4B0zwA6StFLxiImQDSMVgf+NrXvhbPPvts7Nq1q/gREXH33XdHW1tbRJRuJhjWJa1aW1vj5z//efz2t7+Nurq64rWz6uvro6amJiLevJ5Wd3d3vPjiixER8dxzz0VdXV3Mnz8/GhoaYuHChbF8+fK46aab4p577omTJ0/GunXr4jOf+UzMnTt3OOUAFVCKPrBz58544okn4iMf+UjU1dXFzp0745Zbbokbbrghpk+fXrFzA4ZusF7Q90fOEydOxAMPPBCFQiEKhUJERMycOTMuuOCCaGlpiUWLFsWaNWviu9/9bnR3d8dtt90Wra2tntRAAkrRB373u9/FgQMH4gMf+EBMnTo1Ojo6YsuWLfHlL3+5kqcGDNFgfeCf//xnPPjgg9HS0hIzZ86MV199NbZu3Ro1NTXxiU98IiLCPAATQCl6gZkA0jZYH2hsbBzwVRrz588vhiMlmwmyYYiIAT/a2tqK+2zevHnQfQ4dOpRdd911WW1tbZbP57O1a9dmx44dG04pQIWUog889dRT2dKlS7P6+vps6tSp2cKFC7MtW7Zk//nPfypzUsCwDdYLOjs7z7rPv/71r+I6L730UrZixYqspqYmmzFjRvalL30pO3nyZGVOChiWUvSBbdu2ZVdccUVWW1ubveUtb8kuv/zy7J577sl6e3srd2LAkA3WB1577bVsxYoV2axZs7JJkyZl8+bNy66//vps7969/dYxD0DaStELzASQtqH8vXCg27S3t/fbVoqZIPe/iwMAAAAAACRrRG9aDgAAAAAAMJ4IPAAAAAAAgOQJPAAAAAAAgOQJPAAAAAAAgOQJPAAAAAAAgOQJPAAAAAAAgOQJPAAAAAAAgOQJPAAAgFH77Gc/G6tWrap0GQAAwHmsutIFAAAA41sulzvn9zdv3hw/+MEPIsuyMaoIAADgTAIPAADgnLq6uoqfP/jgg7Fp06Z44YUXittqa2ujtra2EqUBAAAUuaQVAABwTo2NjcWP+vr6yOVy/bbV1taecUmrZcuWxfr162Pjxo0xffr0mD17dvzsZz+Lnp6eWLt2bdTV1cU73vGO2LZtW79j7d69O1asWBG1tbUxe/bsWLNmTbz++utjfMYAAECKBB4AAEBZ3H///TFjxoz4y1/+EuvXr4/Pf/7z8elPfzquuuqq+Nvf/hYtLS2xZs2aOHHiREREHDlyJK6++upobm6Ov/71r/HII4/EgQMH4tprr63wmQAAACkQeAAAAGVx+eWXx2233RYLFiyIW2+9NaZOnRozZsyIm266KRYsWBCbNm2KQ4cOxbPPPhsRET/84Q+jubk5tmzZEu9617uiubk57r333ujs7Ix//OMfFT4bAABgvPMeHgAAQFlcdtllxc8vuOCCuOiii2Lx4sXFbbNnz46IiIMHD0ZExDPPPBOdnZ0Dvh/Ivn374p3vfGeZKwYAAFIm8AAAAMpi0qRJ/b7O5XL9tuVyuYiIOH36dEREHD9+PD75yU/Gd77znTPWmjNnThkrBQAAJgKBBwAAMC4sWbIkfv3rX8fFF18c1dWeqgAAAMPjPTwAAIBxobW1NQ4fPhzXXXddPPnkk7Fv37549NFHY+3atdHb21vp8gAAgHFO4AEAAIwLc+fOjcceeyx6e3ujpaUlFi9eHBs3boxp06ZFVZWnLgAAwLnlsizLKl0EAAAAAADAaPhvUgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPIEHgAAAAAAQPL+B1+RY/AO9VQHAAAAAElFTkSuQmCC","text/plain":[", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>"]},"execution_count":8,"metadata":{},"output_type":"execute_result"}],"source":["expected_output = test_file[\"annotation\"].get_timeline().support()\n","expected_output"]},{"cell_type":"markdown","metadata":{"id":"dzNs5vrUnX8a"},"source":["## Fine-tuning a pretrained speaker segmentation model\n","\n","Speaker diarization is the task of partitioning a given audio stream of recording into according to the speaker identity.\n","\n","[`pyannote/segmentation`](https://huggingface.co/pyannote/segmentation-3.0) is a model that was pretrained to perform speaker diarization, but only locally, on 10s-long audio chunks.\n","\n","To load the speaker segmentation model,\n","\n","* accept the user conditions on [hf.co/pyannote/segmentation](https://hf.co/pyannote/segmentation-3.0).\n","* login using `notebook_login` below"]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":145,"referenced_widgets":["0c403a6fbba048a9a5388b71a0d83259","b906b2359fa84291b3b78bcced4f3028","8f7afdee0292401181bd477a89ee3069","05b307b893b84133a376088787ababac","c258b47039a243cabadd48de545542f2","15ab3c58a6014beb9c7ba5e3f5bc0b77","df65aff406cc4288806b278cf83fb7df","31f30fd568f84363b8dea2d40f54885c","f383e9d323c64c64b528266858d6595c","772e6eb169d84fcb808957fd886a59d1","dcf595ee01a248f895635ad054c8ce28","385eecea5fca4494be7a0e2dc34110ca","c742508bbe1e4f0f9ad385896afea5eb","e7aa7e431546419792ff998e10c4bbe9","0e04e5e88aae4f14838356c422ba7ed5","20ba5327eef34c7fa20f9f247b9042b1","cc9cc24a3aea416a99897cf0c617f225","98b09e7bb5d14a9d8c85e52f54c9c6cf","50ed1cf2997e4929853964103bb7552c","4bf2285d01ca4f6c86a117f73972c7e7","d1063e27f20648ff9a43fede902a08a4","3b133fae87364dcc89a34ed147995807","e50f15a31e4543219ed038b88132d905","6b641f7304e943d7b53466fc5aa376a2","8865c7d7d01040329de63b6a13e0fdff","3e816698f9f54bc28712b7e0a1f1dba5","bd36d10136344d4b9965557a8783c5f1","d1f2777676bf4237947a0e42ff7da6de","245a4232482547579a72d10243664849","d072771073ed479b8e16cd9e5b9262c7","bf24ab0141ce423393972b66c6d09f94","bd2757c3b84f4ec283b083d64ea52d7a"]},"executionInfo":{"elapsed":362,"status":"ok","timestamp":1704811300494,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"peG_1xclnX8b","outputId":"3befc3a8-d54c-4a4b-9b40-2ce1229eeaa5"},"outputs":[],"source":["from huggingface_hub import notebook_login\n","notebook_login()"]},{"cell_type":"code","execution_count":10,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":81,"referenced_widgets":["84262babb03c4f7dab14b35637e29c31","35f0b383bafc4425a27f36bc95874430","f3d067b1a56849c19c933fb3380386b6","5fb8f440470f4492a5a7a009760a0926","c8348fafe0de405da831284cb39af5cc","b3a67d2e0c14492788806bb221761174","2f70dbe63df14dd18224e2bcb35b6e38","0f59d4fccfc045b89337b4b4254de7c3","c3204d520d604179923e93e0a9bfd395","1cc4aeb271f4441d83c3227a0fef607e","dd4a788ac0cb44ce93b6c001449d5d45","bcccc0031f7245a394abc3aee4a6e1c2","69c5b722ba3746aa80d87b3ee9fea08e","ef96f5501bbb4a55b3aedac70d1261b5","2d26c7ece1fe40178ab85f3d14408532","693fc1fa7fd746ce8a089f3fd6683b51","fd5fe3ad4e43456c896ca45ff6a6f155","b92e36c0853f40738b51b8ef39f0377d","8336d24b72414718b82c3195897ee896","469ce1b8998a4d998d42fbea5f431781","e7045e323ec947b3b354ffc61365f4cd","b86e1bdb52414bfab9798b661e3e096d"]},"executionInfo":{"elapsed":3764,"status":"ok","timestamp":1704811326591,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"wO1fXdA9nX8c","outputId":"5933da6e-d984-4ab1-9041-62b3d9c5a909"},"outputs":[],"source":["from pyannote.audio import Model\n","pretrained = Model.from_pretrained(\"pyannote/segmentation-3.0\", use_auth_token=True)"]},{"cell_type":"markdown","metadata":{"id":"zm1-d-IsnX8d"},"source":["Let's visualize how it performs on our test file:"]},{"cell_type":"code","execution_count":11,"metadata":{"id":"beFpRrN-nX8d"},"outputs":[{"data":{"image/png":"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","text/plain":[""]},"execution_count":11,"metadata":{},"output_type":"execute_result"}],"source":["spk_probability = Inference(pretrained, step=2.5)(test_file)\n","spk_probability"]},{"cell_type":"markdown","metadata":{"id":"hrJ9pDbTnX8e"},"source":["A perfect output would look like that:"]},{"cell_type":"code","execution_count":12,"metadata":{"id":"bLcE98G4nX8f","outputId":"7bb6ed3d-8076-4ebf-fa89-95a8c5943d27"},"outputs":[{"data":{"image/png":"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","text/plain":[""]},"execution_count":12,"metadata":{},"output_type":"execute_result"}],"source":["test_file[\"annotation\"].discretize(notebook.crop, resolution=0.010)"]},{"cell_type":"markdown","metadata":{"id":"9DY3NIY5nX8f"},"source":["We are going to fine-tune this pretrained model on the AMI dataset:"]},{"cell_type":"code","execution_count":13,"metadata":{"executionInfo":{"elapsed":1183,"status":"ok","timestamp":1704811457994,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"GJ2BWqqknX8g"},"outputs":[],"source":["from pyannote.audio.tasks import SpeakerDiarization\n","seg_task = SpeakerDiarization(ami, duration=10.0, max_speakers_per_chunk=3, max_speakers_per_frame=2)"]},{"cell_type":"markdown","metadata":{"id":"y6e77EJ-nX8g"},"source":["To check that fine-tuning was actually helpful, we need to evaluate the performance of the pretrained model, and compute the average local diarization error rate on a 10s window sliding over the whole test set. To do so, we need to create a helper function:"]},{"cell_type":"code","execution_count":14,"metadata":{"id":"XxJs0DtCnX8h"},"outputs":[],"source":["def test(model, protocol, subset=\"test\"):\n"," from pyannote.audio.utils.signal import binarize\n"," from pyannote.audio.utils.metric import DiscreteDiarizationErrorRate\n"," from pyannote.audio.pipelines.utils import get_devices\n","\n"," (device,) = get_devices(needs=1)\n"," metric = DiscreteDiarizationErrorRate()\n"," files = list(getattr(protocol, subset)())\n","\n"," inference = Inference(model, device=device)\n","\n"," for file in files:\n"," reference = file[\"annotation\"]\n"," hypothesis = binarize(inference(file))\n"," uem = file[\"annotated\"]\n"," _ = metric(reference, hypothesis, uem=uem)\n","\n"," return abs(metric)"]},{"cell_type":"markdown","metadata":{"id":"Nkdm0dR0nX8h"},"source":["We can then evaluate the model and see its local DER:"]},{"cell_type":"code","execution_count":15,"metadata":{"id":"LH0CGdmnnX8i","outputId":"b07ba927-6f23-403a-d70b-74cf8685df06"},"outputs":[{"name":"stdout","output_type":"stream","text":["Local DER (pretrained) = 19.7%\n"]}],"source":["der_pretrained = test(model=pretrained, protocol=ami, subset=\"test\")\n","print(f\"Local DER (pretrained) = {der_pretrained * 100:.1f}%\")"]},{"cell_type":"markdown","metadata":{"id":"qUCdup8QnX8i"},"source":["Next, we prepare the model for fine-tuning, simply by overriding its `task` attribute..."]},{"cell_type":"code","execution_count":16,"metadata":{"id":"5i5Bv-7enX8j"},"outputs":[],"source":["from copy import deepcopy\n","finetuned = deepcopy(pretrained)\n","finetuned.task = seg_task"]},{"cell_type":"markdown","metadata":{"id":"nDPEYDZKnX8j"},"source":["... and we train it (for just one epoch)"]},{"cell_type":"code","execution_count":17,"metadata":{"colab":{"referenced_widgets":["","634877439d6744d88223cfd1313e5fc1"]},"id":"AIUsJ3MqnX8k","outputId":"6078a5dd-5cb2-4780-db4e-e3516d1cce8e"},"outputs":[{"name":"stderr","output_type":"stream","text":["GPU available: False, used: False\n","TPU available: False, using: 0 TPU cores\n","IPU available: False, using: 0 IPUs\n","HPU available: False, using: 0 HPUs\n"]},{"name":"stderr","output_type":"stream","text":["\n"," | Name | Type | Params | In sizes | Out sizes \n","----------------------------------------------------------------------------------------------------------------------\n","0 | sincnet | SincNet | 42.6 K | [1, 1, 160000] | [1, 60, 589] \n","1 | lstm | LSTM | 1.4 M | [1, 589, 60] | [[1, 589, 256], [[8, 1, 128], [8, 1, 128]]]\n","2 | linear | ModuleList | 49.4 K | ? | ? \n","3 | classifier | Linear | 903 | [1, 589, 128] | [1, 589, 7] \n","4 | activation | LogSoftmax | 0 | [1, 589, 7] | [1, 589, 7] \n","5 | powerset | Powerset | 0 | ? | ? \n","6 | validation_metric | MetricCollection | 0 | ? | ? \n","----------------------------------------------------------------------------------------------------------------------\n","1.5 M Trainable params\n","0 Non-trainable params\n","1.5 M Total params\n","5.893 Total estimated model params size (MB)\n"]},{"data":{"application/vnd.jupyter.widget-view+json":{"model_id":"fc1c93f0b95649b1ae7a7135c9c04d62","version_major":2,"version_minor":0},"text/plain":["Sanity Checking: | | 0/? [00:00"]},"execution_count":19,"metadata":{},"output_type":"execute_result"}],"source":["Inference('pyannote/segmentation-3.0', use_auth_token=True, step=2.5)(test_file)"]},{"cell_type":"code","execution_count":20,"metadata":{"id":"DvpRY7H1nX82","outputId":"ce284d08-e0f1-4a58-da1e-0b7c62fa2f31"},"outputs":[{"data":{"image/png":"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update the model so that it specifically addresses overlapped speech detection. \n","This is achieved very simply by updating the `task` attribute..."]},{"cell_type":"code","execution_count":21,"metadata":{"id":"xhmDk1qJnX83"},"outputs":[],"source":["from pyannote.audio.tasks import OverlappedSpeechDetection\n","osd_task = OverlappedSpeechDetection(ami, duration=2.0)\n","\n","osd_model = Model.from_pretrained(\"pyannote/segmentation-3.0\", use_auth_token=True)\n","osd_model.task = osd_task"]},{"cell_type":"markdown","metadata":{"id":"wbb0MeQanX84"},"source":["... optionally freeezing a bunch of layers..."]},{"cell_type":"code","execution_count":22,"metadata":{"id":"tuE1xNjunX84","outputId":"2211d836-8bda-4550-a5e2-7646c764c0af"},"outputs":[{"data":{"text/plain":["['sincnet',\n"," 'sincnet.wav_norm1d',\n"," 'sincnet.conv1d',\n"," 'sincnet.conv1d.0',\n"," 'sincnet.conv1d.0.filterbank',\n"," 'sincnet.conv1d.1',\n"," 'sincnet.conv1d.2',\n"," 'sincnet.pool1d',\n"," 'sincnet.pool1d.0',\n"," 'sincnet.pool1d.1',\n"," 'sincnet.pool1d.2',\n"," 'sincnet.norm1d',\n"," 'sincnet.norm1d.0',\n"," 'sincnet.norm1d.1',\n"," 'sincnet.norm1d.2',\n"," 'lstm']"]},"execution_count":22,"metadata":{},"output_type":"execute_result"}],"source":["osd_model.freeze_up_to('lstm')"]},{"cell_type":"markdown","metadata":{"id":"DrKqQyXonX85"},"source":["... and training it:"]},{"cell_type":"code","execution_count":23,"metadata":{"colab":{"referenced_widgets":["","17ca908b800f4d34841bc2c7d5ccdff3"]},"id":"z9PIQ4oUnX85","outputId":"ed98a898-d9a2-4895-d523-9660abf79f1e"},"outputs":[{"name":"stderr","output_type":"stream","text":["GPU available: False, used: False\n","TPU available: False, using: 0 TPU cores\n","IPU available: False, using: 0 IPUs\n","HPU available: False, using: 0 HPUs\n"]},{"name":"stderr","output_type":"stream","text":["\n"," | Name | Type | Params | In sizes | Out sizes \n","---------------------------------------------------------------------------------------------------------------------\n","0 | sincnet | SincNet | 42.6 K | [1, 1, 32000] | [1, 60, 115] \n","1 | lstm | LSTM | 1.4 M | [1, 115, 60] | [[1, 115, 256], [[8, 1, 128], [8, 1, 128]]]\n","2 | linear | ModuleList | 49.4 K | ? | ? \n","3 | classifier | Linear | 129 | [1, 115, 128] | [1, 115, 1] \n","4 | activation | Sigmoid | 0 | [1, 115, 1] | [1, 115, 1] \n","5 | validation_metric | MetricCollection | 0 | ? | ? \n","---------------------------------------------------------------------------------------------------------------------\n","49.5 K Trainable params\n","1.4 M Non-trainable params\n","1.5 M Total params\n","5.890 Total estimated model params size (MB)\n"]},{"data":{"application/vnd.jupyter.widget-view+json":{"model_id":"7a9dfccd597f477bb2990e2746433375","version_major":2,"version_minor":0},"text/plain":["Sanity Checking: | | 0/? [00:00"]},"execution_count":24,"metadata":{},"output_type":"execute_result"}],"source":["from pyannote.audio.utils.signal import binarize\n","binarize(Inference(osd_model)(test_file))"]},{"cell_type":"code","execution_count":25,"metadata":{"id":"P_7CB2wgnX87","outputId":"a5e3a05f-8695-4880-9380-fbde264ca06f"},"outputs":[{"data":{"image/png":"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Going further\n","\n","This tutorial only scratched the surface of the training API.\n","\n","Every task supports an `augmentation` parameter for training with data augmentation via [`torch-audiomentations`](https://github.com/asteroid-team/torch-audiomentations) library:\n","\n","```python\n","from torch_audiomentations import AddBackgroundNoise\n","augmentation = AddBackgroundNoise(\"/path/to/background/noise/directory\")\n","vad_task = VoiceActivityDetection(ami, augmentation=augmentation)\n","```\n","\n","We also benefit from all the nice things [`pytorch-lightning`](https://lightning.ai/docs/pytorch/stable/) has to offer (like multi-gpu training, for instance).\n","\n","```python\n","trainer = Trainer(devices=4, accelerator=\"gpu\", strategy='ddp')\n","trainer.fit(model)\n","```\n","\n","Default optimizer (`Adam` with default parameters) is automatically set up for you. \n","Customizing optimizer (and scheduler) requires overriding 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diff --git a/tutorials/training_with_cli.md b/tutorials/training_with_cli.md index bc34bd573..984465938 100644 --- a/tutorials/training_with_cli.md +++ b/tutorials/training_with_cli.md @@ -2,7 +2,7 @@ *This tutorial is a very preliminary draft. Expect hiccups and missing details.* -`pyannote.audio` provides a command line tool called `pyannote-audio-train` +`pyannote.audio` provides a command line tool called `pyannote-audio-train` that allows to train models directly from your terminal. It relies on extra dependencies installed using th `[cli]` suffix: @@ -20,6 +20,7 @@ detection on the AMI corpus... pyannote-audio-train \ model=PyanNet \ task=VoiceActivityDetection \ + +registry="AMI-diarization-setup/pyannote/database.yml" \ protocol=AMI.SpeakerDiarization.only_words ``` @@ -28,20 +29,64 @@ pyannote-audio-train \ ```python from pyannote.audio.tasks import VoiceActivityDetection from pyannote.audio.models.segmentation import PyanNet -from pyannote.database import get_protocol +from pyannote.database import registry, FileFinder() from pytorch_lightning import Trainer -protocol = get_protocol("AMI.SpeakerDiarization.only_words") +registry.load_database("AMI-diarization-setup/pyannote/database.yml") +protocol = registry.get_protocol("AMI.SpeakerDiarization.only_words", preprocessors={"audio": FileFinder()}) task = VoiceActivityDetection(protocol) model = PyanNet(task=task) trainer = Trainer() trainer.fit(model) ``` +You can also evaluate a model from it checkpoint on the AMI corpus by calling the following commad... + +```bash +pyannote-audio-eval \ + model=path_to_model_checkpoint.ckpt \ + +registry="AMI-diarization-setup/pyannote/database.yml" \ + protocol="Debug.SpeakerDiarization.Debug" \ + subset=test \ +``` +... which is more or less equivalent to running the following Python script: + +```python +from pyannote.database import FileFinder, ProtocolFile, registry + +from pyannote.audio import Inference, Model +from pyannote.audio.utils.metric import DiscreteDiarizationErrorRate +from pyannote.audio.utils.signal import binarize + +model = Model.from_pretrained("path_to_checkpoint.ckpt") + +# load evaluation files +registry.load_database("AMI-diarization-setup/pyannote/database.yml") +protocol = registry.get_protocol("AMI.SpeakerDiarization.only_words", preprocessors={"audio": FileFinder()}) +files = list(getattr(protocol, "test")()) + +# load evaluation metric +metric = DiscreteDiarizationErrorRate() + +inference = Inference(model) + +def hypothesis(file: ProtocolFile): + return Inference.trim( + binarize(inference(file, hook=progress_hook)), + ) + +for file in files: + reference = file["annotation"] + uem = file["annotated"] + _ = metric(reference, hypothesis(file), uem=uem) + +report = metric.report(display=False) +``` + ## Hydra-based configuration -`pyannote-audio-train` relies on [`Hydra`](https://hydra.cc) to configure the -training process. Adding `--cfg job` option to the previous command will let +`pyannote-audio-train` relies on [`Hydra`](https://hydra.cc) to configure the +training process. Adding `--cfg job` option to the previous command will let you know about the actual configuration used for training: @@ -49,6 +94,7 @@ you know about the actual configuration used for training: pyannote-audio-train --cfg job \ model=PyanNet \ task=VoiceActivityDetection \ + registry="AMI-diarization-setup/pyannote/database.yml" \ protocol=AMI.SpeakerDiarization.only_words ``` @@ -71,6 +117,7 @@ To change the duration of audio chunks used for training to 2 seconds, you would pyannote-audio-train \ model=PyanNet \ task=VoiceActivityDetection task.duration=2.0 \ + registry="AMI-diarization-setup/pyannote/database.yml" \ protocol=AMI.SpeakerDiarization.only_words ``` @@ -104,6 +151,7 @@ pyannote-audio-train \ --config-dir /path/to/custom_config \ model=PyanNet \ task=VoiceActivityDetection task.duration=2.0 \ + registry="AMI-diarization-setup/pyannote/database.yml" \ protocol=AMI.SpeakerDiarization.only_words \ +augmentation=background_noise ``` @@ -123,10 +171,11 @@ Here, we launch a grid of (3 x 2 =) six different jobs: * mono-directional or bidirectional LSTMs ```bash -pyannote-audio-train +pyannote-audio-train --multirun hydra/launcher=submitit_slurm \ model=PyanNet +model.lstm.num_layers=2,3,4 +model.lstm.bidirectional=true,false \ task=VoiceActivityDetection \ + registry="AMI-diarization-setup/pyannote/database.yml" \ protocol=AMI.SpeakerDiarization.only_words ``` diff --git a/tutorials/voice_activity_detection.ipynb b/tutorials/voice_activity_detection.ipynb index df2cadd15..470ee53df 100644 --- a/tutorials/voice_activity_detection.ipynb +++ b/tutorials/voice_activity_detection.ipynb @@ -1,649 +1 @@ -{ - "cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Training a voice activity detection pipeline from scratch with `pyannote.audio`\n", - "\n", - "Voice activity detection (VAD) is the task of detecting speech regions in a given audio stream or recording. \n", - "In this tutorial, you will learn how to train and evaluate a VAD pipeline from scratch." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Data preparation\n", - "\n", - "This tutorial assumes that \n", - "* the [AMI corpus](https://groups.inf.ed.ac.uk/ami/corpus/) has already been [setup for use with `pyannote`](https://github.com/pyannote/AMI-diarization-setup/tree/main/pyannote)\n", - "* the `PYANNOTE_DATABASE_CONFIG` environment variable is set accordingly. \n", - "\n", - "See [`pyannote.database` documentation](https://github.com/pyannote/pyannote-database#pyannote-database) to learn how to prepare your own dataset for training with `pyannote.audio`." - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.database import get_protocol, FileFinder\n", - "preprocessors = {\"audio\": FileFinder()}\n", - "ami = get_protocol('AMI.SpeakerDiarization.only_words', \n", - " preprocessors=preprocessors)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "`pyannote.database` *protocols* usually define \n", - "* a training set: `for training_file in protocol.train(): ...`, \n", - "* a validation set: `for validation_file in protocol.development(): ...` \n", - "* an evaluation set `for evaluation_file in protocol.test(): ...`" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Let's listen to one minute of the first training file..." - ] - }, - { - "cell_type": "code", - "execution_count": 40, - "metadata": {}, - "outputs": [], - "source": [ - "first_training_file = next(ami.train())\n", - "reference = first_training_file[\"annotation\"]" - ] - }, - { - "cell_type": "code", - "execution_count": 72, - "metadata": {}, - "outputs": [ - { - "data": { - "text/html": [ - "\n", - " \n", - " " - ], - "text/plain": [ - "" - ] - }, - "execution_count": 72, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.audio.utils.preview import listen\n", - "from pyannote.core import Segment\n", - "one_minute = Segment(240, 300)\n", - "listen(first_training_file, one_minute)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "... and visualize the manual annotation:" - ] - }, - { - "cell_type": "code", - "execution_count": 73, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": 73, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.core import notebook\n", - "notebook.crop = one_minute\n", - "reference" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Training" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "We initialize a VAD *task* that describes how the model will be trained:\n", - "\n", - "* `ami` indicates that we will use files available in `ami.train()`.\n", - "* `duration=2.` and `batch_size=128` indicates that the model will ingest batches of 128 two seconds long audio chunks." - ] - }, - { - "cell_type": "code", - "execution_count": 17, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.tasks import VoiceActivityDetection\n", - "vad = VoiceActivityDetection(ami, duration=2., batch_size=128)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "We initialize one *model* with the `PyanNet` architecture used [in that paper](https://arxiv.org/abs/2104.04045). \n", - "In particular, we increase the default stride of the initial `sincnet` feature extraction layer to `10`.\n", - "\n", - "The model is also provided with the task (`task=vad`) for which it is being trained:" - ] - }, - { - "cell_type": "code", - "execution_count": 20, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio.models.segmentation import PyanNet\n", - "model = PyanNet(sincnet={'stride': 10}, task=vad)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Now that everything is ready, let's train with `pytorch-ligthning`!" - ] - }, - { - "cell_type": "code", - "execution_count": 21, - "metadata": {}, - "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - "GPU available: True, used: True\n", - "TPU available: False, using: 0 TPU cores\n", - "IPU available: False, using: 0 IPUs\n", - "LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0]\n", - "\n", - " | Name | Type | Params | In sizes | Out sizes \n", - "-----------------------------------------------------------------------------------------------------------------------\n", - "0 | sincnet | SincNet | 42.6 K | [128, 1, 32000] | [128, 60, 115] \n", - "1 | lstm | LSTM | 589 K | [128, 115, 60] | [[128, 115, 256], [[4, 128, 128], [4, 128, 128]]]\n", - "2 | linear | ModuleList | 49.4 K | ? | ? \n", - "3 | classifier | Linear | 129 | [128, 115, 128] | [128, 115, 1] \n", - "4 | activation | Sigmoid | 0 | [128, 115, 1] | [128, 115, 1] \n", - "5 | validation_metric | AUROC | 0 | ? | ? \n", - "-----------------------------------------------------------------------------------------------------------------------\n", - "681 K Trainable params\n", - "0 Non-trainable params\n", - "681 K Total params\n", - "2.728 Total estimated model params size (MB)\n" - ] - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validation sanity check'), FloatProgress(value=1.0, bar_style='info', layout=Layout…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "5bee6d4900844312aac04eb9b176f023", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Training'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), max…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validating'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), m…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "data": { - "application/vnd.jupyter.widget-view+json": { - "model_id": "", - "version_major": 2, - "version_minor": 0 - }, - "text/plain": [ - "HBox(children=(HTML(value='Validating'), FloatProgress(value=1.0, bar_style='info', layout=Layout(flex='2'), m…" - ] - }, - "metadata": {}, - "output_type": "display_data" - }, - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\n", - "\n" - ] - } - ], - "source": [ - "import pytorch_lightning as pl\n", - "trainer = pl.Trainer(devices=1, accelerator=\"gpu\", max_epochs=2)\n", - "trainer.fit(model)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "For the purpose of this tutorial, the model is trained for only 2 epochs. One can obviously expect better performance by training longer and on more data.\n", - "\n", - "See [`pytorch-lightning`](https://www.pytorchlightning.ai/) documentation to learn more about the [`Trainer` API](https://pytorch-lightning.readthedocs.io/en/latest/common/trainer.html), in particular." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Inference\n", - "\n", - "Once trained, the model can be applied to a test file:" - ] - }, - { - "cell_type": "code", - "execution_count": 23, - "metadata": {}, - "outputs": [], - "source": [ - "test_file = next(ami.test())\n", - "# here we use a test file provided by the protocol, but it could be any audio file\n", - "# e.g. test_file = \"/path/to/test.wav\"." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Because the model was trained on 2s audio chunks and that test files are likely to be much longer than that, we wrap the `model` with an `Inference` instance: it will take care of sliding a 2s window over the whole file and aggregate the output of the model." - ] - }, - { - "cell_type": "code", - "execution_count": 29, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.audio import Inference\n", - "inference = Inference(model)\n", - "vad_probability = inference(test_file)" - ] - }, - { - "cell_type": "code", - "execution_count": 30, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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", - "text/plain": [ - "" - ] - }, - "execution_count": 30, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "vad_probability" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Perfect voice activity detection output should look like that:" - ] - }, - { - "cell_type": "code", - "execution_count": 34, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" - ] - }, - "execution_count": 34, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "expected_output = test_file[\"annotation\"].get_timeline().support()\n", - "expected_output" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Pipeline" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Almost there! To obtain the final speech regions, we need to apply a detection threshold. \n", - "For that, we rely on the voice activity detection pipeline whose hyper-parameters are set manually:\n", - "- `onset=0.6`: mark region as `active` when probability goes above 0.6\n", - "- `offset=0.4`: switch back to `inactive` when probability goes below 0.4\n", - "- `min_duration_on=0.0`: remove `active` regions shorter than that many seconds\n", - "- `min_duration_off=0.0`: fill `inactive` regions shorter than that many seconds\n", - "\n", - "\n", - "More details about those hyper-parameters are provided in Figure 2 of [that paper](https://arxiv.org/abs/2104.04045)." - ] - }, - { - "cell_type": "code", - "execution_count": 56, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 56, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "from pyannote.audio.pipelines import VoiceActivityDetection as VoiceActivityDetectionPipeline\n", - "pipeline = VoiceActivityDetectionPipeline(segmentation=model)\n", - "initial_params = {\"onset\": 0.6, \"offset\": 0.4, \n", - " \"min_duration_on\": 0.0, \"min_duration_off\": 0.0}\n", - "pipeline.instantiate(initial_params)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Here we go:" - ] - }, - { - "cell_type": "code", - "execution_count": 76, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": "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", - "text/plain": [ - ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" - ] - }, - "execution_count": 76, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "pipeline(test_file).get_timeline()" - ] - }, - { - "cell_type": "code", - "execution_count": 77, - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": "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", - "text/plain": [ - ", , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>" - ] - }, - "execution_count": 77, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "expected_output" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Looks decent! Let's perform a proper evaluation by computing the [detection error rate](https://pyannote.github.io/pyannote-metrics/reference.html#detection) over the whole AMI test set:" - ] - }, - { - "cell_type": "code", - "execution_count": 54, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "Detection error rate = 7.3%\n" - ] - } - ], - "source": [ - "from pyannote.metrics.detection import DetectionErrorRate\n", - "metric = DetectionErrorRate()\n", - "\n", - "for file in ami.test():\n", - " \n", - " # apply the voice activity detection pipeline\n", - " speech = pipeline(file)\n", - "\n", - " # evaluate its output\n", - " _ = metric(\n", - " file['annotation'], # this is the reference annotation\n", - " speech, # this is the hypothesized annotation\n", - " uem=file['annotated']) # this is the part of the file that should be evaluated\n", - " \n", - "# aggregate the performance over the whole test set\n", - "detection_error_rate = abs(metric)\n", - "print(f'Detection error rate = {detection_error_rate * 100:.1f}%')" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## Optimizing pipeline hyper-parameters" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "While good enough, the hyper-parameters that we chose manually, we can try to optimize `onset` and `offset` on the development (a.k.a. validation) set to get better performance (and freeze the other two hyper-parameters)." - ] - }, - { - "cell_type": "code", - "execution_count": 60, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "" - ] - }, - "execution_count": 60, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "pipeline.freeze({'min_duration_on': 0.0, 'min_duration_off': 0.0})" - ] - }, - { - "cell_type": "code", - "execution_count": 63, - "metadata": {}, - "outputs": [], - "source": [ - "from pyannote.pipeline import Optimizer\n", - "\n", - "optimizer = Optimizer(pipeline)\n", - "optimizer.tune(list(ami.development()), \n", - " warm_start=initial_params, \n", - " n_iterations=20, \n", - " show_progress=False)\n", - "\n", - "optimized_params = optimizer.best_params" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "There you go: better hyper-parameters that (should) lead to better results!" - ] - }, - { - "cell_type": "code", - "execution_count": 78, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "{'onset': 0.8020095763639215, 'offset': 0.5643079355945013, 'min_duration_on': 0.0, 'min_duration_off': 0.0}\n" - ] - } - ], - "source": [ - "print(optimized_params)" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "Let's evaluate the voice activity detection pipeline with this new set of hyper-parameters:" - ] - }, - { - "cell_type": "code", - "execution_count": 79, - "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "Detection error rate = 6.9%\n" - ] - } - ], - "source": [ - "optimized_pipeline = pipeline.instantiate(optimized_params)\n", - "\n", - "metric = DetectionErrorRate()\n", - "\n", - "for file in ami.test():\n", - " speech = optimized_pipeline(file)\n", - " _ = metric(file['annotation'], speech, uem=file['annotated'])\n", - " \n", - "detection_error_rate = abs(metric)\n", - "print(f'Detection error rate = {detection_error_rate * 100:.1f}%')" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "🎉 Yeay! 5% relativement improvement simply by tuning the thresholds." - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 3", - "language": "python", - "name": "python3" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 3 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython3", - "version": "3.7.3" - } - }, - "nbformat": 4, - "nbformat_minor": 4 -} +{"cells":[{"cell_type":"markdown","metadata":{"id":"3M4zoYI4Q-Xi"},"source":["\"Open"]},{"cell_type":"markdown","metadata":{"id":"fEew3B3-Q-Xl"},"source":["# Training a voice activity detection pipeline from scratch with `pyannote.audio`\n","\n","Voice activity detection (VAD) is the task of detecting speech regions in a given audio stream or recording. \n","In this tutorial, you will learn how to train and evaluate a VAD pipeline from scratch."]},{"cell_type":"markdown","metadata":{"id":"1F6PKPftQ-Xm"},"source":["## Tutorial setup"]},{"cell_type":"markdown","metadata":{"id":"ErPKDILdQ-Xn"},"source":["### `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"SYU2JJ9-Q-Xo"},"source":["If you are running this tutorial on `Colab`, execute the following commands in order to setup `Colab` environment. These commands will install `pyannote.audio` and download a mini version of the `AMI` corpus."]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":1772401,"status":"ok","timestamp":1704890790335,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"EMspGag4Q-Xp","outputId":"0aaf740d-96c8-4340-a9e7-5c529f12fe9b"},"outputs":[],"source":["!pip install -qq pyannote.audio==3.1.1\n","!pip install -qq ipython==7.34.0\n","!git clone https://github.com/pyannote/AMI-diarization-setup.git\n","%cd ./AMI-diarization-setup/pyannote/\n","!bash ./download_ami_mini.sh\n","%cd /content"]},{"cell_type":"markdown","metadata":{"id":"TFqu_5vyQ-Xq"},"source":["⚠ Restart the runtime (Runtime > Restart session)."]},{"cell_type":"markdown","metadata":{"id":"7_7eodg5Q-Xr"},"source":["### Non `Google Colab` setup"]},{"cell_type":"markdown","metadata":{"id":"WCy8p55QQ-Xr"},"source":["If you are not using `Colab`, this tutorial assumes that\n","* `pyannote.audio` has been installed\n","* the [AMI corpus](https://groups.inf.ed.ac.uk/ami/corpus/) has already been [setup for use with `pyannote`](https://github.com/pyannote/AMI-diarization-setup/tree/main/pyannote)"]},{"cell_type":"markdown","metadata":{"id":"M-oe_8FFQ-Xu"},"source":["## Data preparation\n","\n","See [`pyannote.database` documentation](https://github.com/pyannote/pyannote-database#pyannote-database) to learn how to prepare your own dataset for training with `pyannote.audio`."]},{"cell_type":"code","execution_count":null,"metadata":{"id":"KBstX_2sQ-Xu"},"outputs":[],"source":["from pyannote.database import registry, FileFinder\n","\n","registry.load_database(\"AMI-diarization-setup/pyannote/database.yml\")\n","preprocessors = {\"audio\": FileFinder()}\n","ami = registry.get_protocol('AMI.SpeakerDiarization.mini',\n"," preprocessors=preprocessors)"]},{"cell_type":"markdown","metadata":{"id":"oYIKQ5kwQ-Xv"},"source":["`pyannote.database` *protocols* usually define\n","* a training set: `for training_file in protocol.train(): ...`,\n","* a validation set: `for validation_file in protocol.development(): ...`\n","* an evaluation set `for evaluation_file in protocol.test(): ...`"]},{"cell_type":"markdown","metadata":{"id":"siLd6sE3Q-Xw"},"source":["Let's listen to one minute of the first training file..."]},{"cell_type":"code","execution_count":2,"metadata":{"executionInfo":{"elapsed":212,"status":"ok","timestamp":1704890828290,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"bai4OplyQ-Xw"},"outputs":[],"source":["first_training_file = next(ami.train())\n","reference = first_training_file[\"annotation\"]"]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":151,"output_embedded_package_id":"1GxUBhwcdeeXdLogFqdzXqSDl6FNpaR2t"},"executionInfo":{"elapsed":7227,"status":"ok","timestamp":1704890839349,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"5t2l6o3NQ-Xx","outputId":"9755f212-b8ca-45ad-e1a2-60f00665d7be"},"outputs":[],"source":["from pyannote.audio.utils.preview import listen\n","from pyannote.core import Segment\n","\n","one_minute = Segment(240, 300)\n","listen(first_training_file, one_minute)"]},{"cell_type":"markdown","metadata":{"id":"Z3-VQas0Q-Xy"},"source":["... and visualize the manual annotation:"]},{"cell_type":"code","execution_count":4,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":239},"executionInfo":{"elapsed":592,"status":"ok","timestamp":1704890847735,"user":{"displayName":"Clément 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pyannote.core import notebook\n","notebook.crop = one_minute\n","reference"]},{"cell_type":"markdown","metadata":{"id":"fzbxnisZQ-Xz"},"source":["## Training"]},{"cell_type":"markdown","metadata":{"id":"C_QEjNxjQ-Xz"},"source":["We initialize a VAD *task* that describes how the model will be trained:\n","\n","* `ami` indicates that we will use files available in `ami.train()`.\n","* `duration=2.` and `batch_size=128` indicates that the model will ingest batches of 128 two seconds long audio chunks."]},{"cell_type":"code","execution_count":5,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":543,"status":"ok","timestamp":1704890854558,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"oRkU-MboQ-Xz","outputId":"173a3d4b-fdf4-4e13-817d-dc024ac87524"},"outputs":[{"name":"stdout","output_type":"stream","text":["Protocol AMI.SpeakerDiarization.mini does not precompute the output of torchaudio.info(): adding a 'torchaudio.info' preprocessor for you to speed up dataloaders. See pyannote.database documentation on how to do that yourself.\n"]}],"source":["from pyannote.audio.tasks import VoiceActivityDetection\n","\n","vad = VoiceActivityDetection(ami, duration=2., batch_size=128)"]},{"cell_type":"markdown","metadata":{"id":"A7q9pnI4Q-X1"},"source":["We initialize one *model* with the `PyanNet` architecture used [in that paper](https://arxiv.org/abs/2104.04045). \n","In particular, we increase the default stride of the initial `sincnet` feature extraction layer to `10`.\n","\n","The model is also provided with the task (`task=vad`) for which it is being trained:"]},{"cell_type":"code","execution_count":6,"metadata":{"executionInfo":{"elapsed":241,"status":"ok","timestamp":1704890861715,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"dHJMJHB6Q-X1"},"outputs":[],"source":["from pyannote.audio.models.segmentation import PyanNet\n","\n","model = PyanNet(sincnet={'stride': 10}, task=vad)"]},{"cell_type":"markdown","metadata":{"id":"Rwh2ulN2Q-X2"},"source":["Now that everything is ready, let's train with `pytorch-ligthning`!"]},{"cell_type":"code","execution_count":7,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":414,"referenced_widgets":["de7bbc2d644e4ba79f3b4dcc26da3cb7","b62ef7013afe4da4a00ba0a70a63e938","b20cbf0c630a44f8b108d141e0b14ecc","4946ea8187904c7fa9f7c5de92a563e2","929954f82bc6407aaa6b069da848d1e3","53ac5430d2ef45ecaaecc3da0706825b","ffd1d20386d14e2f945f2d84df7a681f","69c34a612abb4d7a83bd796ef97d1c92","2ea0e51154e54129a6b164fc72588edc","910983c75b5247deb203ab218e05b25a","a1861066848a4efda4cc1f09beacb451","321302a76845477cbfd6b644071048b9","0300ea5285a94c7580c789849ea8b7e7","51dc1507c16e4fd88da6e9681b6f8443","84560e1a1a154cf7a4cc998aaa7db862","dce43bbd970643d99f8abbcb299925ec","f3bb471baf44445d9ea50d0adde041c1","14556644c3104b02850a07f172f1411a","50f8b2a4995242ac9d9961f34f2223ae","622cf364efe34719877311f1a46d24b4","ef09269769d845fb84ba39bd43a4ee0c","b827c08a92434a31b82d0382057ee82b","d5dbc90f387a4c9eb43789707505e617","3b55a90beb874204a44df7f231da55eb","8429d57eec2f4c9c8cda3900c0da5df5","d4f4fff579354b10b3cdb32cb11754fe","b886a9d46c7647f0aa5e04260a5b6e1e","5151fae07f114d4e86ee7ec4e487faae","4d2ea6328f684e6e888bc5710dea4340","290e8084737b4ff7a816f4b67fa8d411","bb89bf63ea124306acf411cbeaca2b90","e17799ed71e04167bd46363cf84cc93f","146c185d279d4583860ba4f9defda025"]},"executionInfo":{"elapsed":1454764,"status":"ok","timestamp":1704892319974,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"KkFsUEV_Q-X2","outputId":"3361c2b5-f341-41e1-e027-8fb9b7404d34"},"outputs":[{"name":"stderr","output_type":"stream","text":["INFO:pytorch_lightning.utilities.rank_zero:GPU available: True (cuda), used: True\n","INFO:pytorch_lightning.utilities.rank_zero:TPU available: False, using: 0 TPU cores\n","INFO:pytorch_lightning.utilities.rank_zero:IPU available: False, using: 0 IPUs\n","INFO:pytorch_lightning.utilities.rank_zero:HPU available: False, using: 0 HPUs\n","WARNING:pytorch_lightning.loggers.tensorboard:Missing logger folder: /content/lightning_logs\n","INFO:pytorch_lightning.accelerators.cuda:LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0]\n","INFO:pytorch_lightning.callbacks.model_summary:\n"," | Name | Type | Params | In sizes | Out sizes \n","---------------------------------------------------------------------------------------------------------------------\n","0 | sincnet | SincNet | 42.6 K | [1, 1, 32000] | [1, 60, 115] \n","1 | lstm | LSTM | 589 K | [1, 115, 60] | [[1, 115, 256], [[4, 1, 128], [4, 1, 128]]]\n","2 | linear | ModuleList | 49.4 K | ? | ? \n","3 | classifier | Linear | 129 | [1, 115, 128] | [1, 115, 1] \n","4 | activation | Sigmoid | 0 | [1, 115, 1] | [1, 115, 1] \n","5 | validation_metric | MetricCollection | 0 | ? | ? \n","---------------------------------------------------------------------------------------------------------------------\n","681 K Trainable params\n","0 Non-trainable params\n","681 K Total params\n","2.728 Total estimated model params size (MB)\n"]},{"data":{"application/vnd.jupyter.widget-view+json":{"model_id":"de7bbc2d644e4ba79f3b4dcc26da3cb7","version_major":2,"version_minor":0},"text/plain":["Sanity Checking: | | 0/? [00:00"]},"execution_count":10,"metadata":{},"output_type":"execute_result"}],"source":["vad_probability"]},{"cell_type":"markdown","metadata":{"id":"Mscb9fDsQ-X6"},"source":["Perfect voice activity detection output should look like that:"]},{"cell_type":"code","execution_count":11,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":145},"executionInfo":{"elapsed":689,"status":"ok","timestamp":1704892633130,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"ObtOlbOTQ-X7","outputId":"8dd51edd-e56e-4ae1-e95c-5a592c1a106c"},"outputs":[{"data":{"image/png":"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, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>"]},"execution_count":11,"metadata":{},"output_type":"execute_result"}],"source":["expected_output = test_file[\"annotation\"].get_timeline().support()\n","expected_output"]},{"cell_type":"markdown","metadata":{"id":"j0f1oMTUQ-X7"},"source":["## Pipeline"]},{"cell_type":"markdown","metadata":{"id":"QcRNQQ_VQ-X7"},"source":["Almost there! To obtain the final speech regions, we need to apply a detection threshold. \n","For that, we rely on the voice activity detection pipeline whose hyper-parameters are set manually:\n","- `onset=0.6`: mark region as `active` when probability goes above 0.6\n","- `offset=0.4`: switch back to `inactive` when probability goes below 0.4\n","- `min_duration_on=0.0`: remove `active` regions shorter than that many seconds\n","- `min_duration_off=0.0`: fill `inactive` regions shorter than that many seconds\n","\n","\n","More details about those hyper-parameters are provided in Figure 2 of [that paper](https://arxiv.org/abs/2104.04045)."]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":589,"status":"ok","timestamp":1704892638091,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"TGkXstVpQ-X8","outputId":"d77d4cbe-98e9-4439-9c82-a51d0aeb4e25"},"outputs":[],"source":["from pyannote.audio.pipelines import VoiceActivityDetection as VoiceActivityDetectionPipeline\n","pipeline = VoiceActivityDetectionPipeline(segmentation=model)\n","initial_params = {\"onset\": 0.6, \"offset\": 0.4,\n"," \"min_duration_on\": 0.0, \"min_duration_off\": 0.0}\n","pipeline.instantiate(initial_params)"]},{"cell_type":"markdown","metadata":{"id":"thmmfIyjQ-X8"},"source":["Here we go:"]},{"cell_type":"code","execution_count":13,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":145},"executionInfo":{"elapsed":44782,"status":"ok","timestamp":1704892685345,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"lq9gPG2hQ-X9","outputId":"928eea8e-737c-4689-cdb7-262a71dd6b3f"},"outputs":[{"data":{"image/png":"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, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ])>"]},"execution_count":14,"metadata":{},"output_type":"execute_result"}],"source":["expected_output"]},{"cell_type":"markdown","metadata":{"id":"L1FOF3CcQ-X-"},"source":["Looks decent! Let's perform a proper evaluation by computing the [detection error rate](https://pyannote.github.io/pyannote-metrics/reference.html#detection) over the whole AMI test set:"]},{"cell_type":"code","execution_count":15,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":153804,"status":"ok","timestamp":1704892850039,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"6v44K7WxQ-X_","outputId":"ce83364e-147c-4d7d-ee07-69fb49d6ca39"},"outputs":[{"name":"stdout","output_type":"stream","text":["Detection error rate = 12.4%\n"]}],"source":["from pyannote.metrics.detection import DetectionErrorRate\n","metric = DetectionErrorRate()\n","\n","for file in ami.test():\n","\n"," # apply the voice activity detection pipeline\n"," speech = pipeline(file)\n","\n"," # evaluate its output\n"," _ = metric(\n"," file['annotation'], # this is the reference annotation\n"," speech, # this is the hypothesized annotation\n"," uem=file['annotated']) # this is the part of the file that should be evaluated\n","\n","# aggregate the performance over the whole test set\n","detection_error_rate = abs(metric)\n","print(f'Detection error rate = {detection_error_rate * 100:.1f}%')"]},{"cell_type":"markdown","metadata":{"id":"CiADYH02Q-X_"},"source":["## Optimizing pipeline hyper-parameters"]},{"cell_type":"markdown","metadata":{"id":"Zik9XIQ1Q-YA"},"source":["While good enough, the hyper-parameters that we chose manually, we can try to optimize `onset` and `offset` on the development (a.k.a. validation) set to get better performance (and freeze the other two hyper-parameters)."]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":219,"status":"ok","timestamp":1704893681462,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"pcQ8eJujQ-YA","outputId":"599cb846-c12f-4d6a-e5b6-c623fd9a583c"},"outputs":[],"source":["pipeline.freeze({'min_duration_on': 0.0, 'min_duration_off': 0.0})"]},{"cell_type":"code","execution_count":17,"metadata":{"executionInfo":{"elapsed":192449,"status":"ok","timestamp":1704893876383,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"xdClXgoMQ-YB"},"outputs":[],"source":["from pyannote.pipeline import Optimizer\n","\n","optimizer = Optimizer(pipeline)\n","optimizer.tune(list(ami.development()),\n"," warm_start=initial_params,\n"," n_iterations=20,\n"," show_progress=False)\n","\n","optimized_params = optimizer.best_params"]},{"cell_type":"markdown","metadata":{"id":"wVT0HjowQ-YB"},"source":["There you go: better hyper-parameters that (should) lead to better results!"]},{"cell_type":"code","execution_count":18,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":219,"status":"ok","timestamp":1704893925876,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"IuUGrd8CQ-YB","outputId":"393d66bc-b04b-4265-bbdf-19c7ff04098e"},"outputs":[{"name":"stdout","output_type":"stream","text":["{'onset': 0.824238792126195, 'offset': 0.5375254799320842, 'min_duration_on': 0.0, 'min_duration_off': 0.0}\n"]}],"source":["print(optimized_params)"]},{"cell_type":"markdown","metadata":{"id":"3nQUzBigQ-YC"},"source":["Let's evaluate the voice activity detection pipeline with this new set of hyper-parameters:"]},{"cell_type":"code","execution_count":19,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":155290,"status":"ok","timestamp":1704894084275,"user":{"displayName":"Clément PAGES","userId":"11757386314069785178"},"user_tz":-60},"id":"7A0sPO_4Q-YD","outputId":"5d28de05-fbbd-4c31-8cc7-62543c82a91d"},"outputs":[{"name":"stdout","output_type":"stream","text":["Detection error rate = 12.0%\n"]}],"source":["optimized_pipeline = pipeline.instantiate(optimized_params)\n","\n","metric = DetectionErrorRate()\n","\n","for file in ami.test():\n"," speech = optimized_pipeline(file)\n"," _ = metric(file['annotation'], speech, uem=file['annotated'])\n","\n","detection_error_rate = abs(metric)\n","print(f'Detection error rate = {detection_error_rate * 100:.1f}%')"]},{"cell_type":"markdown","metadata":{"id":"q6TiP03kQ-YD"},"source":["🎉 Yeay! We can see an improvement simply by adjusting the thresholds."]}],"metadata":{"accelerator":"GPU","colab":{"gpuType":"T4","provenance":[]},"kernelspec":{"display_name":"Python 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From d83c0f8ea9eff1470df988c588d8d1f01f9c5bd3 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Cl=C3=A9ment=20Pag=C3=A9s?= <55240756+clement-pages@users.noreply.github.com> Date: Sun, 25 Feb 2024 20:49:08 +0100 Subject: [PATCH 30/45] fix(cli): update CLI with latest APIs --- .github/workflows/test.yml | 2 +- .github/workflows/test_cli.yml | 33 ++++ pyannote/audio/cli/evaluate.py | 14 +- .../cli/evaluate_config/hydra/default.yaml | 3 +- pyannote/audio/cli/train.py | 16 +- pyannote/audio/cli/train_config/config.yaml | 1 - .../cli/train_config/trainer/default.yaml | 2 +- tests/test_cli.py | 149 ++++++++++++++++++ 8 files changed, 205 insertions(+), 15 deletions(-) create mode 100644 .github/workflows/test_cli.yml create mode 100644 tests/test_cli.py diff --git a/.github/workflows/test.yml b/.github/workflows/test.yml index 90a4302c6..e649027ae 100644 --- a/.github/workflows/test.yml +++ b/.github/workflows/test.yml @@ -30,4 +30,4 @@ jobs: pip install -e .[dev,testing] - name: Test with pytest run: | - pytest + pytest -k "not test_cli.py" diff --git a/.github/workflows/test_cli.yml b/.github/workflows/test_cli.yml new file mode 100644 index 000000000..731a4b5b6 --- /dev/null +++ b/.github/workflows/test_cli.yml @@ -0,0 +1,33 @@ +name: CLI tests + +on: + push: + branches: [develop] + pull_request: + branches: [develop] + +jobs: + build: + timeout-minutes: 20 + runs-on: ${{ matrix.os }} + strategy: + matrix: + os: [ubuntu-latest] + python-version: ["3.10"] + steps: + - uses: actions/checkout@v2 + - name: Set up Python ${{ matrix.python-version }} + uses: actions/setup-python@v2 + with: + python-version: ${{ matrix.python-version }} + - name: Install libsndfile + if: matrix.os == 'ubuntu-latest' + run: | + sudo apt-get update + sudo apt-get install libsndfile1 + - name: Install pyannote.audio + run: | + pip install -e .[dev,testing,cli] + - name: Test with pytest + run: | + pytest tests/test_cli.py diff --git a/pyannote/audio/cli/evaluate.py b/pyannote/audio/cli/evaluate.py index d88c88635..3eec5e3cc 100644 --- a/pyannote/audio/cli/evaluate.py +++ b/pyannote/audio/cli/evaluate.py @@ -25,7 +25,7 @@ import hydra from omegaconf import DictConfig -from pyannote.database import FileFinder, ProtocolFile, get_protocol +from pyannote.database import FileFinder, ProtocolFile, registry from rich.progress import Progress from pyannote.audio import Inference, Model @@ -41,8 +41,16 @@ def evaluate(cfg: DictConfig) -> Optional[float]: (device,) = get_devices(needs=1) model = Model.from_pretrained(cfg.model, device=device) + # load databases into registry if it was specified + if "registry" in cfg: + for database_yml in cfg.registry.split(","): + registry.load_database(database_yml) + # load evaluation files - protocol = get_protocol(cfg.protocol, preprocessors={"audio": FileFinder()}) + protocol = registry.get_protocol( + cfg.protocol, preprocessors={"audio": FileFinder()} + ) + files = list(getattr(protocol, cfg.subset)()) # load evaluation metric @@ -65,8 +73,6 @@ def hypothesis(file: ProtocolFile): warm_up=(warm_up, warm_up), ) - metric = DiscreteDiarizationErrorRate() - for file in files: progress.update(file_task, description=file["uri"]) reference = file["annotation"] diff --git a/pyannote/audio/cli/evaluate_config/hydra/default.yaml b/pyannote/audio/cli/evaluate_config/hydra/default.yaml index 95979432b..1aaebd1b9 100644 --- a/pyannote/audio/cli/evaluate_config/hydra/default.yaml +++ b/pyannote/audio/cli/evaluate_config/hydra/default.yaml @@ -22,7 +22,8 @@ help: template: |- ${hydra.help.header} - pyannote-audio-eval protocol={protocol_name} + pyannote-audio-eval registry={path_to_database.yml} + protocol={protocol_name} subset={test | development | train} model={path_to_pretrained_model} warm_up={warm_up_duration_in_seconds} diff --git a/pyannote/audio/cli/train.py b/pyannote/audio/cli/train.py index 74041554b..f052cd5b3 100644 --- a/pyannote/audio/cli/train.py +++ b/pyannote/audio/cli/train.py @@ -51,8 +51,9 @@ def train(cfg: DictConfig) -> Optional[float]: seed_everything(seed=seed) # load databases into registry - for database_yml in cfg.registry.split(","): - registry.load_database(database_yml) + if "registry" in cfg: + for database_yml in cfg.registry.split(","): + registry.load_database(database_yml) # instantiate training protocol with optional preprocessors preprocessors = {"audio": FileFinder(), "torchaudio.info": get_torchaudio_info} @@ -75,9 +76,9 @@ def train(cfg: DictConfig) -> Optional[float]: # instantiate model fine_tuning = cfg.model["_target_"] == "pyannote.audio.cli.pretrained" - model = instantiate(cfg.model) - model.task = task - model.setup(stage="fit") + model = instantiate(cfg.model, task=task) + model.prepare_data() + model.setup() # validation metric to monitor (and its direction: min or max) monitor, direction = task.val_monitor @@ -146,7 +147,6 @@ def configure_optimizers(self): # in case of fine-tuning, validate the initial model to make sure # that we actually improve over the initial performance if fine_tuning: - model.setup(stage="fit") trainer.validate(model) # train the model @@ -157,7 +157,9 @@ def configure_optimizers(self): # return the best validation score # this can be used for hyper-parameter optimization with Hydra sweepers - if monitor is not None: + # this can only be done if the trainer is not in fast dev run mode, as + # checkpointing is disabled in this mode + if monitor is not None and not trainer.fast_dev_run: best_monitor = float(checkpoint.best_model_score) if direction == "min": return best_monitor diff --git a/pyannote/audio/cli/train_config/config.yaml b/pyannote/audio/cli/train_config/config.yaml index d5b761cc9..d7ecd547a 100644 --- a/pyannote/audio/cli/train_config/config.yaml +++ b/pyannote/audio/cli/train_config/config.yaml @@ -1,4 +1,3 @@ -registry: ??? protocol: ??? defaults: diff --git a/pyannote/audio/cli/train_config/trainer/default.yaml b/pyannote/audio/cli/train_config/trainer/default.yaml index ac3a60ff4..f32031af1 100644 --- a/pyannote/audio/cli/train_config/trainer/default.yaml +++ b/pyannote/audio/cli/train_config/trainer/default.yaml @@ -30,6 +30,6 @@ precision: 32 profiler: null reload_dataloaders_every_n_epochs: 0 use_distributed_sampler: True # TODO: check what this does exactly -strategy: null +strategy: auto sync_batchnorm: False val_check_interval: 1.0 diff --git a/tests/test_cli.py b/tests/test_cli.py new file mode 100644 index 000000000..f62cc5260 --- /dev/null +++ b/tests/test_cli.py @@ -0,0 +1,149 @@ +# The MIT License (MIT) +# +# Copyright (c) 2024- CNRS +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in +# all copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. + +import subprocess + +import pytest +from pyannote.database import FileFinder, get_protocol + + +@pytest.fixture() +def protocol(): + return get_protocol( + "Debug.SpeakerDiarization.Debug", preprocessors={"audio": FileFinder()} + ) + + +@pytest.fixture() +def database(): + return "./tests/data/database.yml" + + +@pytest.fixture() +def model(): + return "pyannote/ci-segmentation" + + +def test_cli_train_vad(database, protocol): + res = subprocess.run( + [ + "pyannote-audio-train", + "model=DebugSegmentation", + "task=VoiceActivityDetection", + f"+registry={database}", + f"protocol={protocol.name}", + "trainer=fast_dev_run", + "hydra.run.dir=.", # run hydra app in current directory + "hydra.output_subdir=null", # disable hydra outputs + "hydra/hydra_logging=disabled", + "hydra/job_logging=disabled", + ] + ) + assert res.returncode == 0 + + +def test_cli_train_segmentation(database, protocol): + res = subprocess.run( + [ + "pyannote-audio-train", + "model=DebugSegmentation", + "task=SpeakerDiarization", + f"+registry={database}", + f"protocol={protocol.name}", + "trainer=fast_dev_run", + "hydra.run.dir=.", # run hydra app in current directory + "hydra.output_subdir=null", # disable hydra outputs + "hydra/hydra_logging=disabled", + "hydra/job_logging=disabled", + ] + ) + assert res.returncode == 0 + + +def test_cli_train_osd(database, protocol): + res = subprocess.run( + [ + "pyannote-audio-train", + "model=DebugSegmentation", + "task=OverlappedSpeechDetection", + f"+registry={database}", + f"protocol={protocol.name}", + "trainer=fast_dev_run", + "hydra.run.dir=.", # run hydra app in current directory + "hydra.output_subdir=null", # disable hydra outputs + "hydra/hydra_logging=disabled", + "hydra/job_logging=disabled", + ] + ) + assert res.returncode == 0 + + +def test_cli_train_supervised_representation_with_arcface(database, protocol): + res = subprocess.run( + [ + "pyannote-audio-train", + "model=DebugEmbedding", + "task=SpeakerEmbedding", + f"+registry={database}", + f"protocol={protocol.name}", + "trainer=fast_dev_run", + "hydra.run.dir=.", # run hydra app in current directory + "hydra.output_subdir=null", # disable hydra outputs + "hydra/hydra_logging=disabled", + "hydra/job_logging=disabled", + ] + ) + assert res.returncode == 0 + + +def test_cli_train_segmentation_with_pyannet(database, protocol): + res = subprocess.run( + [ + "pyannote-audio-train", + "model=PyanNet", + "task=SpeakerDiarization", + f"+registry={database}", + f"protocol={protocol.name}", + "trainer=fast_dev_run", + "hydra.run.dir=.", # run hydra app in current directory + "hydra.output_subdir=null", # disable hydra outputs + "hydra/hydra_logging=disabled", + "hydra/job_logging=disabled", + ] + ) + assert res.returncode == 0 + + +def test_cli_eval_segmentation_model(database, protocol, model): + res = subprocess.run( + [ + "pyannote-audio-eval", + f"model={model}", + f"+registry={database}", + f"protocol={protocol.name}", + "hydra.run.dir=.", # run hydra app in current directory + "hydra.output_subdir=null", # disable hydra outputs + "hydra/hydra_logging=disabled", + "hydra/job_logging=disabled", + ] + ) + assert res.returncode == 0 From 99ed3d6de3d16685c33e52873dc4015245a091e6 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Cl=C3=A9ment=20Pag=C3=A9s?= <55240756+clement-pages@users.noreply.github.com> Date: Sun, 25 Feb 2024 21:00:25 +0100 Subject: [PATCH 31/45] improve(ux): improve error message on missing specifications --- pyannote/audio/core/model.py | 10 +--------- pyannote/audio/core/task.py | 6 +++++- tests/tasks/test_specifications.py | 27 +++++++++++++++++++++++++++ 3 files changed, 33 insertions(+), 10 deletions(-) create mode 100644 tests/tasks/test_specifications.py diff --git a/pyannote/audio/core/model.py b/pyannote/audio/core/model.py index d7a264850..8af802293 100644 --- a/pyannote/audio/core/model.py +++ b/pyannote/audio/core/model.py @@ -131,15 +131,7 @@ def specifications(self) -> Union[Specifications, Tuple[Specifications]]: ) from e else: - try: - specifications = self.task.specifications - - except AttributeError as e: - raise UnknownSpecificationsError( - "Task specifications are not available. This is most likely because they depend on " - "the content of the training subset. Use `model.prepare_data()` and `model.setup()` " - "to go over the training subset and fix this, or let lightning trainer do that for you in `trainer.fit(model)`." - ) from e + specifications = self.task.specifications return specifications diff --git a/pyannote/audio/core/task.py b/pyannote/audio/core/task.py index afad62717..0a61e2a6f 100644 --- a/pyannote/audio/core/task.py +++ b/pyannote/audio/core/task.py @@ -646,7 +646,11 @@ def setup(self, stage=None): def specifications(self) -> Union[Specifications, Tuple[Specifications]]: # setup metadata on-demand the first time specifications are requested and missing if not hasattr(self, "_specifications"): - self.setup() + raise UnknownSpecificationsError( + "Task specifications are not available. This is most likely because they depend on " + "the content of the training subset. Use `task.prepare_data()` and `task.setup()` " + "to go over the training subset and fix this, or let lightning trainer do that for you in `trainer.fit(model)`." + ) return self._specifications @specifications.setter diff --git a/tests/tasks/test_specifications.py b/tests/tasks/test_specifications.py new file mode 100644 index 000000000..32b816155 --- /dev/null +++ b/tests/tasks/test_specifications.py @@ -0,0 +1,27 @@ +import pytest +from pyannote.database import FileFinder, get_protocol + +from pyannote.audio.core.model import Model +from pyannote.audio.core.task import UnknownSpecificationsError +from pyannote.audio.tasks import SpeakerDiarization + + +@pytest.fixture() +def protocol(): + return get_protocol( + "Debug.SpeakerDiarization.Debug", preprocessors={"audio": FileFinder()} + ) + + +def test_unknown_specifications_error_raised_on_non_setup_task(protocol): + task = SpeakerDiarization(protocol=protocol) + with pytest.raises(UnknownSpecificationsError): + _ = task.specifications + + +def test_unknown_specifications_error_raised_on_non_setup_model_task(protocol): + task = SpeakerDiarization(protocol=protocol) + model = Model.from_pretrained("pyannote/ci-segmentation") + model.task = task + with pytest.raises(UnknownSpecificationsError): + _ = model.specifications From bad61792a82b408f80106d5d834426ece0b955f6 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 4 Mar 2024 10:09:39 +0100 Subject: [PATCH 32/45] doc: update link to premium survey From dc49f37356709434aee279547c543ad06f7dc4c0 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Sun, 17 Mar 2024 07:40:03 +0100 Subject: [PATCH 33/45] improve(io): switch to torchaudio >= 2.2.0 (#1674) fix: fixes #1576 --- CHANGELOG.md | 1 + pyannote/audio/core/io.py | 2 -- pyannote/audio/pipelines/speaker_verification.py | 4 ---- pyannote/audio/tasks/segmentation/mixins.py | 2 +- requirements.txt | 2 +- 5 files changed, 3 insertions(+), 8 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index bb1199509..45d5b4b3f 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -22,6 +22,7 @@ - improve(metric): add support for number of speakers mismatch in `diarization_error_rate` metric - improve(pipeline): track both `Model` and `nn.Module` attributes in `Pipeline.to(device)` +- improve(io): switch to `torchaudio >= 2.2.0` ## Breaking changes diff --git a/pyannote/audio/core/io.py b/pyannote/audio/core/io.py index cbb7ee828..8fafe69d3 100644 --- a/pyannote/audio/core/io.py +++ b/pyannote/audio/core/io.py @@ -40,8 +40,6 @@ from pyannote.core import Segment from torch import Tensor -torchaudio.set_audio_backend("soundfile") - AudioFile = Union[Text, Path, IOBase, Mapping] AudioFileDocString = """ diff --git a/pyannote/audio/pipelines/speaker_verification.py b/pyannote/audio/pipelines/speaker_verification.py index c49468a79..8c4139b6f 100644 --- a/pyannote/audio/pipelines/speaker_verification.py +++ b/pyannote/audio/pipelines/speaker_verification.py @@ -28,7 +28,6 @@ import numpy as np import torch import torch.nn.functional as F -import torchaudio import torchaudio.compliance.kaldi as kaldi from huggingface_hub import hf_hub_download from huggingface_hub.utils import RepositoryNotFoundError @@ -40,7 +39,6 @@ from pyannote.audio.core.model import CACHE_DIR from pyannote.audio.pipelines.utils import PipelineModel, get_model -backend = torchaudio.get_audio_backend() try: from speechbrain.pretrained import ( EncoderClassifier as SpeechBrain_EncoderClassifier, @@ -49,8 +47,6 @@ SPEECHBRAIN_IS_AVAILABLE = True except ImportError: SPEECHBRAIN_IS_AVAILABLE = False -finally: - torchaudio.set_audio_backend(backend) try: from nemo.collections.asr.models import ( diff --git a/pyannote/audio/tasks/segmentation/mixins.py b/pyannote/audio/tasks/segmentation/mixins.py index cbdbbb7a1..be30828f0 100644 --- a/pyannote/audio/tasks/segmentation/mixins.py +++ b/pyannote/audio/tasks/segmentation/mixins.py @@ -31,7 +31,7 @@ from pyannote.database.protocol.protocol import Scope, Subset from pytorch_lightning.loggers import MLFlowLogger, TensorBoardLogger from torch.utils.data._utils.collate import default_collate -from torchaudio.backend.common import AudioMetaData +from torchaudio import AudioMetaData from torchmetrics import Metric from torchmetrics.classification import BinaryAUROC, MulticlassAUROC, MultilabelAUROC diff --git a/requirements.txt b/requirements.txt index 7e71fe024..3a0aa74dc 100644 --- a/requirements.txt +++ b/requirements.txt @@ -15,5 +15,5 @@ speechbrain >= 0.5.14 tensorboardX >= 2.6 torch >= 2.0.0 torch_audiomentations >= 0.11.0 -torchaudio >= 2.0.0 +torchaudio >= 2.2.0 torchmetrics >= 0.11.0 From cf876c2f60290840f228aa2780ff87c4c15a761d Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 4 Apr 2024 17:08:57 +0200 Subject: [PATCH 34/45] doc: update CHANGELOG (#1681) --- CHANGELOG.md | 17 ++++++++--------- 1 file changed, 8 insertions(+), 9 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 45d5b4b3f..8741e7932 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -4,25 +4,24 @@ ### New features -- feat(task): add option to cache task training metadata to speed up training +- feat(task): add option to cache task training metadata to speed up training (with [@clement-pages](https://github.com/clement-pages/)) +- feat(model): add `receptive_field`, `num_frames` and `dimension` to models (with [@Bilal-Rahou](https://github.com/Bilal-Rahou)) +- feat(util): add `Powerset.permutation_mapping` to help with permutation in powerset space (with [@FrenchKrab](https://github.com/FrenchKrab)) +- feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` +- feat(metric): add `reduce` option to `diarization_error_rate` metric (with [@Bilal-Rahou](https://github.com/Bilal-Rahou)) - feat(pipeline): add `Waveform` and `SampleRate` preprocessors -- feat(model): add `num_frames` method to every model -- feat(model): add `receptive_field` property to every model -- feat(model): and `dimension` property to every model -- feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` -- feat(powerset): add `Powerset.permutation_mapping` to help with permutation in powerset space -- feat(metric): add `reduce` option to `diarization_error_rate` metric ### Fixes -- fix(task): fix random generators and their reproducibility -- fix(task): fix estimation of training set size +- fix(task): fix random generators and their reproducibility (with [@FrenchKrab](https://github.com/FrenchKrab)) +- fix(task): fix estimation of training set size (with [@FrenchKrab](https://github.com/FrenchKrab)) ### Improvements - improve(metric): add support for number of speakers mismatch in `diarization_error_rate` metric - improve(pipeline): track both `Model` and `nn.Module` attributes in `Pipeline.to(device)` - improve(io): switch to `torchaudio >= 2.2.0` +- improve(doc): update tutorials (with [@clement-pages](https://github.com/clement-pages/)) ## Breaking changes From 1a397b0153e3e75f51c71a7a0507372a1b0791a3 Mon Sep 17 00:00:00 2001 From: Simon Ottenhaus <69142583+simonottenhauskenbun@users.noreply.github.com> Date: Fri, 5 Apr 2024 14:19:53 +0200 Subject: [PATCH 35/45] community: add tutorial for offline use of pyannote/speaker-diarization-3.1 --- README.md | 2 + .../offline_usage_speaker_diarization.ipynb | 172 ++++++++++++++++++ 2 files changed, 174 insertions(+) create mode 100644 tutorials/community/offline_usage_speaker_diarization.ipynb diff --git a/README.md b/README.md index 2c6a889f1..b3df6eabc 100644 --- a/README.md +++ b/README.md @@ -71,6 +71,8 @@ for turn, _, speaker in diarization.itertracks(yield_label=True): - [Introduction to speaker diarization](https://umotion.univ-lemans.fr/video/9513-speech-segmentation-and-speaker-diarization/) / JSALT 2023 summer school / 90 min - [Speaker segmentation model](https://www.youtube.com/watch?v=wDH2rvkjymY) / Interspeech 2021 / 3 min - [First release of pyannote.audio](https://www.youtube.com/watch?v=37R_R82lfwA) / ICASSP 2020 / 8 min +- Community contributions (not maintained by the core team) + - 2024-04-05 > [Offline speaker diarization (speaker-diarization-3.1)](tutorials/community/offline_usage_speaker_diarization.ipynb) by [Simon Ottenhaus](https://github.com/simonottenhauskenbun) ## Benchmark diff --git a/tutorials/community/offline_usage_speaker_diarization.ipynb b/tutorials/community/offline_usage_speaker_diarization.ipynb new file mode 100644 index 000000000..932742628 --- /dev/null +++ b/tutorials/community/offline_usage_speaker_diarization.ipynb @@ -0,0 +1,172 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Offline Speaker Diarization (speaker-diarization-3.1)\n", + "\n", + "This notebooks gives a short introduction how to use the [speaker-diarization-3.1](https://huggingface.co/pyannote/speaker-diarization-3.1) pipeline with local models.\n", + "\n", + "In order to use local models, you first need to download them from huggingface and place them in a local folder. \n", + "Then you need to create a local config file, similar to the one in HF, but with local model paths.\n", + "\n", + "❗ **Naming of the model files is REALLY important! See end of notebook for details.** ❗\n", + "\n", + "## Get the models\n", + "\n", + "1. Install the `pyannote-audio` package: `!pip install pyannote.audio`\n", + "2. Create a huggingface account https://huggingface.co/join\n", + "3. Accept [pyannote/segmentation-3.0](https://hf.co/pyannote/segmentation-3.0) user conditions\n", + "4. Create a local folder `models`, place all downloaded files there\n", + " 1. [wespeaker-voxceleb-resnet34-LM](https://huggingface.co/pyannote/wespeaker-voxceleb-resnet34-LM/blob/main/pytorch_model.bin), to be placed in `models/pyannote_model_wespeaker-voxceleb-resnet34-LM.bin`\n", + " 2. [segmentation-3.0](https://huggingface.co/pyannote/segmentation-3.0/blob/main/pytorch_model.bin), to be placed in `models/pyannote_model_segmentation-3.0.bin`\n", + "\n", + "Running `ls models` should show the following files:\n", + "```\n", + "pyannote_model_segmentation-3.0.bin (5.7M)\n", + "pyannote_model_wespeaker-voxceleb-resnet34-LM.bin (26MB)\n", + "```\n", + "\n", + "❗ **make sure the 'wespeaker-voxceleb-resnet34-LM' model is named 'pyannote_model_wespeaker-voxceleb-resnet34-LM.bin'** ❗" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Config for local models\n", + "\n", + "Create a local config, similar to the one in HF: [speaker-diarization-3.1/blob/main/config.yaml](https://huggingface.co/pyannote/speaker-diarization-3.1/blob/main/config.yaml), but with local model paths\n", + "\n", + "Contents of `models/pyannote_diarization_config.yaml`:\n", + "\n", + "```yaml\n", + "version: 3.1.0\n", + "\n", + "pipeline:\n", + " name: pyannote.audio.pipelines.SpeakerDiarization\n", + " params:\n", + " clustering: AgglomerativeClustering\n", + " # embedding: pyannote/wespeaker-voxceleb-resnet34-LM # if you want to use the HF model\n", + " embedding: models/pyannote_model_wespeaker-voxceleb-resnet34-LM.bin # if you want to use the local model\n", + " embedding_batch_size: 32\n", + " embedding_exclude_overlap: true\n", + " # segmentation: pyannote/segmentation-3.0 # if you want to use the HF model\n", + " segmentation: models/pyannote_model_segmentation-3.0.bin # if you want to use the local model\n", + " segmentation_batch_size: 32\n", + "\n", + "params:\n", + " clustering:\n", + " method: centroid\n", + " min_cluster_size: 12\n", + " threshold: 0.7045654963945799\n", + " segmentation:\n", + " min_duration_off: 0.0\n", + "```" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Loading the local pipeline\n", + "\n", + "**Hint**: The paths in the config are relative to the current working directory, not relative to the config file.\n", + "If you want to start your notebook/script from a different directory, you can use `os.chdir` temporarily, to 'emulate' config-relative paths.\n" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [ + "from pathlib import Path\n", + "from pyannote.audio import Pipeline\n", + "\n", + "def load_pipeline_from_pretrained(path_to_config: str | Path) -> Pipeline:\n", + " path_to_config = Path(path_to_config)\n", + "\n", + " print(f\"Loading pyannote pipeline from {path_to_config}...\")\n", + " # the paths in the config are relative to the current working directory\n", + " # so we need to change the working directory to the model path\n", + " # and then change it back\n", + "\n", + " cwd = Path.cwd().resolve() # store current working directory\n", + "\n", + " # first .parent is the folder of the config, second .parent is the folder containing the 'models' folder\n", + " cd_to = path_to_config.parent.parent.resolve()\n", + "\n", + " print(f\"Changing working directory to {cd_to}\")\n", + " os.chdir(cd_to)\n", + "\n", + " pipeline = Pipeline.from_pretrained(path_to_config)\n", + "\n", + " print(f\"Changing working directory back to {cwd}\")\n", + " os.chdir(cwd)\n", + "\n", + " return pipeline\n", + "\n", + "PATH_TO_CONFIG = \"path/to/your/pyannote_diarization_config.yaml\"\n", + "pipeline = load_pipeline_from_pretrained(PATH_TO_CONFIG)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Notes on file naming (pyannote-audio 3.1.1)\n", + "\n", + "Pyannote uses some internal logic to determine the model type.\n", + "\n", + "The funtion `def PretrainedSpeakerEmbedding(...` in (speaker_verification.py)[https://github.com/pyannote/pyannote-audio/blob/develop/pyannote/audio/pipelines/speaker_verification.py#L712] uses the the file path of the model to infer the model type.\n", + "\n", + "```python\n", + "def PretrainedSpeakerEmbedding(\n", + " embedding: PipelineModel,\n", + " device: torch.device = None,\n", + " use_auth_token: Union[Text, None] = None,\n", + "):\n", + " #...\n", + " if isinstance(embedding, str) and \"pyannote\" in embedding:\n", + " return PyannoteAudioPretrainedSpeakerEmbedding(\n", + " embedding, device=device, use_auth_token=use_auth_token\n", + " )\n", + "\n", + " elif isinstance(embedding, str) and \"speechbrain\" in embedding:\n", + " return SpeechBrainPretrainedSpeakerEmbedding(\n", + " embedding, device=device, use_auth_token=use_auth_token\n", + " )\n", + "\n", + " elif isinstance(embedding, str) and \"nvidia\" in embedding:\n", + " return NeMoPretrainedSpeakerEmbedding(embedding, device=device)\n", + "\n", + " elif isinstance(embedding, str) and \"wespeaker\" in embedding:\n", + " return ONNXWeSpeakerPretrainedSpeakerEmbedding(embedding, device=device) # <-- this is called, but the wespeaker-voxceleb-resnet34-LM is not an ONNX model\n", + "\n", + " else:\n", + " # fallback to pyannote in case we are loading a local model\n", + " return PyannoteAudioPretrainedSpeakerEmbedding(\n", + " embedding, device=device, use_auth_token=use_auth_token\n", + " )\n", + "```\n", + "\n", + "The [wespeaker-voxceleb-resnet34-LM](https://huggingface.co/pyannote/wespeaker-voxceleb-resnet34-LM/blob/main/pytorch_model.bin) model is not an ONNX model, but a `PyannoteAudioPretrainedSpeakerEmbedding`. So if `wespeaker` is in the file name, the code will infer the model type incorrectly. If `pyannote` is somewhere in the file name, the model type will be inferred correctly, as the first if statement will be true..." + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3", + "language": "python", + "name": "python3" + }, + "language_info": { + "name": "python", + "version": "3.11.7" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} From f9009e2ef8dcc62eba2c3432210163ef91519484 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Thu, 18 Apr 2024 17:45:40 +0200 Subject: [PATCH 36/45] github: update config.yml (#1689) --- .github/ISSUE_TEMPLATE/config.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/ISSUE_TEMPLATE/config.yml b/.github/ISSUE_TEMPLATE/config.yml index 6d6ee3543..84f6ea55a 100644 --- a/.github/ISSUE_TEMPLATE/config.yml +++ b/.github/ISSUE_TEMPLATE/config.yml @@ -11,5 +11,5 @@ contact_links: about: Using pyannote.audio in production? Make the most of it thanks to our consulting services. - name: Premium models - url: https://forms.gle/eKhn7H2zTa68sMMx8 + url: https://forms.office.com/e/GdqwVgkZ5C about: We are considering selling premium models, extensions, or services around pyannote.audio. From 704f87414a57173938ba546115bbd71de02da82b Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Mon, 22 Apr 2024 13:04:10 +0200 Subject: [PATCH 37/45] doc: update README --- README.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/README.md b/README.md index b3df6eabc..50dfeb286 100644 --- a/README.md +++ b/README.md @@ -79,7 +79,7 @@ for turn, _, speaker in diarization.itertracks(yield_label=True): Out of the box, `pyannote.audio` speaker diarization [pipeline](https://hf.co/pyannote/speaker-diarization-3.1) v3.1 is expected to be much better (and faster) than v2.x. Those numbers are diarization error rates (in %): -| Benchmark | [v2.1](https://hf.co/pyannote/speaker-diarization-2.1) | [v3.1](https://hf.co/pyannote/speaker-diarization-3.1) | [Premium](https://forms.gle/eKhn7H2zTa68sMMx8) | +| Benchmark | [v2.1](https://hf.co/pyannote/speaker-diarization-2.1) | [v3.1](https://hf.co/pyannote/speaker-diarization-3.1) | [Premium](https://forms.office.com/e/GdqwVgkZ5C) | | ---------------------- | ------ | ------ | --------- | | [AISHELL-4](https://arxiv.org/abs/2104.03603) | 14.1 | 12.2 | 11.9 | | [AliMeeting](https://www.openslr.org/119/) (channel 1) | 27.4 | 24.4 | 22.5 | From 4407a66023cb42fd74450ab83b802a09ffa27d52 Mon Sep 17 00:00:00 2001 From: Lukas <38840142+lukasstorck@users.noreply.github.com> Date: Sun, 5 May 2024 21:12:39 +0200 Subject: [PATCH 38/45] doc: fix typo in powerset docstring --- pyannote/audio/utils/powerset.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/pyannote/audio/utils/powerset.py b/pyannote/audio/utils/powerset.py index 6a0716df9..23f921569 100644 --- a/pyannote/audio/utils/powerset.py +++ b/pyannote/audio/utils/powerset.py @@ -109,7 +109,7 @@ def to_multilabel(self, powerset: torch.Tensor, soft: bool = False) -> torch.Ten Soft predictions in "powerset" space. soft : bool, optional Return soft multi-label predictions. Defaults to False (i.e. hard predictions) - Assumes that `powerset` are "logits" (not "probabilities"). + Assumes that `powerset` are "log probabilities". Returns ------- From 5d56a11fd8340f34672ed53b5e32750feee820c8 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Tue, 7 May 2024 17:16:14 +0200 Subject: [PATCH 39/45] chore: remove use of vmap in stats-pooling layer (#1706) --- pyannote/audio/models/blocks/pooling.py | 77 +++++++++++++------------ 1 file changed, 40 insertions(+), 37 deletions(-) diff --git a/pyannote/audio/models/blocks/pooling.py b/pyannote/audio/models/blocks/pooling.py index 22d736a03..dc31bea8e 100644 --- a/pyannote/audio/models/blocks/pooling.py +++ b/pyannote/audio/models/blocks/pooling.py @@ -26,53 +26,53 @@ import torch import torch.nn as nn import torch.nn.functional as F -from einops import rearrange -class StatsPool(nn.Module): - """Statistics pooling +def _pool(sequences: torch.Tensor, weights: torch.Tensor) -> torch.Tensor: + """Helper function to compute statistics pooling - Compute temporal mean and (unbiased) standard deviation - and returns their concatenation. + Assumes that weights are already interpolated to match the number of frames + in sequences and that they encode the activation of only one speaker. - Reference - --------- - https://en.wikipedia.org/wiki/Weighted_arithmetic_mean + Parameters + ---------- + sequences : (batch, features, frames) torch.Tensor + Sequences of features. + weights : (batch, frames) torch.Tensor + (Already interpolated) weights. + Returns + ------- + output : (batch, 2 * features) torch.Tensor + Concatenation of mean and (unbiased) standard deviation. """ - def _pool(self, sequences: torch.Tensor, weights: torch.Tensor) -> torch.Tensor: - """Helper function to compute statistics pooling + weights = weights.unsqueeze(dim=1) + # (batch, 1, frames) - Assumes that weights are already interpolated to match the number of frames - in sequences and that they encode the activation of only one speaker. + v1 = weights.sum(dim=2) + 1e-8 + mean = torch.sum(sequences * weights, dim=2) / v1 - Parameters - ---------- - sequences : (batch, features, frames) torch.Tensor - Sequences of features. - weights : (batch, frames) torch.Tensor - (Already interpolated) weights. + dx2 = torch.square(sequences - mean.unsqueeze(2)) + v2 = torch.square(weights).sum(dim=2) - Returns - ------- - output : (batch, 2 * features) torch.Tensor - Concatenation of mean and (unbiased) standard deviation. - """ + var = torch.sum(dx2 * weights, dim=2) / (v1 - v2 / v1 + 1e-8) + std = torch.sqrt(var) - weights = weights.unsqueeze(dim=1) - # (batch, 1, frames) + return torch.cat([mean, std], dim=1) - v1 = weights.sum(dim=2) + 1e-8 - mean = torch.sum(sequences * weights, dim=2) / v1 - dx2 = torch.square(sequences - mean.unsqueeze(2)) - v2 = torch.square(weights).sum(dim=2) +class StatsPool(nn.Module): + """Statistics pooling - var = torch.sum(dx2 * weights, dim=2) / (v1 - v2 / v1 + 1e-8) - std = torch.sqrt(var) + Compute temporal mean and (unbiased) standard deviation + and returns their concatenation. - return torch.cat([mean, std], dim=1) + Reference + --------- + https://en.wikipedia.org/wiki/Weighted_arithmetic_mean + + """ def forward( self, sequences: torch.Tensor, weights: Optional[torch.Tensor] = None @@ -112,17 +112,20 @@ def forward( has_speaker_dimension = True # interpolate weights if needed - _, _, num_frames = sequences.shape - _, _, num_weights = weights.shape + _, _, num_frames = sequences.size() + _, num_speakers, num_weights = weights.size() if num_frames != num_weights: warnings.warn( f"Mismatch between frames ({num_frames}) and weights ({num_weights}) numbers." ) weights = F.interpolate(weights, size=num_frames, mode="nearest") - output = rearrange( - torch.vmap(self._pool, in_dims=(None, 1))(sequences, weights), - "speakers batch features -> batch speakers features", + output = torch.stack( + [ + _pool(sequences, weights[:, speaker, :]) + for speaker in range(num_speakers) + ], + dim=1, ) if not has_speaker_dimension: From 9a61ec26d9e14a8a1107f8b5bbb536160c4d6345 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 May 2024 10:38:18 +0200 Subject: [PATCH 40/45] fix: fix receptive field computation with non-zero padding (#1707) --- pyannote/audio/models/blocks/sincnet.py | 2 ++ pyannote/audio/models/embedding/debug.py | 32 +++++------------- .../models/embedding/wespeaker/__init__.py | 1 + .../models/embedding/wespeaker/resnet.py | 3 ++ pyannote/audio/models/embedding/xvector.py | 33 +++++-------------- .../audio/models/segmentation/SSeRiouSS.py | 10 ++++-- pyannote/audio/models/segmentation/debug.py | 32 +++++------------- pyannote/audio/utils/receptive_field.py | 11 +++++-- 8 files changed, 48 insertions(+), 76 deletions(-) diff --git a/pyannote/audio/models/blocks/sincnet.py b/pyannote/audio/models/blocks/sincnet.py index b46549bb3..2a085201c 100644 --- a/pyannote/audio/models/blocks/sincnet.py +++ b/pyannote/audio/models/blocks/sincnet.py @@ -122,12 +122,14 @@ def receptive_field_size(self, num_frames: int = 1) -> int: kernel_size = [251, 3, 5, 3, 5, 3] stride = [self.stride, 3, 1, 3, 1, 3] + padding = [0, 0, 0, 0, 0, 0] dilation = [1, 1, 1, 1, 1, 1] return multi_conv_receptive_field_size( num_frames, kernel_size=kernel_size, stride=stride, + padding=padding, dilation=dilation, ) diff --git a/pyannote/audio/models/embedding/debug.py b/pyannote/audio/models/embedding/debug.py index a5e862a24..b09283908 100644 --- a/pyannote/audio/models/embedding/debug.py +++ b/pyannote/audio/models/embedding/debug.py @@ -31,11 +31,6 @@ from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task -from pyannote.audio.utils.receptive_field import ( - conv1d_num_frames, - conv1d_receptive_field_center, - conv1d_receptive_field_size, -) class SimpleEmbeddingModel(Model): @@ -87,13 +82,10 @@ def num_frames(self, num_samples: int) -> int: n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - return conv1d_num_frames( - num_samples=num_samples, - kernel_size=n_fft, - stride=hop_length, - padding=n_fft // 2 if center else 0, - dilation=1, - ) + if center: + return 1 + num_samples // hop_length + else: + return 1 + (num_samples - n_fft) // hop_length def receptive_field_size(self, num_frames: int = 1) -> int: """Compute size of receptive field @@ -111,10 +103,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft - - return conv1d_receptive_field_size( - num_frames, kernel_size=n_fft, stride=hop_length, dilation=1 - ) + return n_fft + (num_frames - 1) * hop_length def receptive_field_center(self, frame: int = 0) -> int: """Compute center of receptive field @@ -134,13 +123,10 @@ def receptive_field_center(self, frame: int = 0) -> int: n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - return conv1d_receptive_field_center( - frame=frame, - kernel_size=n_fft, - stride=hop_length, - padding=n_fft // 2 if center else 0, - dilation=1, - ) + if center: + return frame * hop_length + else: + return frame * hop_length + n_fft // 2 @property def dimension(self) -> int: diff --git a/pyannote/audio/models/embedding/wespeaker/__init__.py b/pyannote/audio/models/embedding/wespeaker/__init__.py index e75779dda..75df427d6 100644 --- a/pyannote/audio/models/embedding/wespeaker/__init__.py +++ b/pyannote/audio/models/embedding/wespeaker/__init__.py @@ -154,6 +154,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: num_frames=receptive_field_size, kernel_size=window_size, stride=step_size, + padding=0, dilation=1, ) diff --git a/pyannote/audio/models/embedding/wespeaker/resnet.py b/pyannote/audio/models/embedding/wespeaker/resnet.py index b64dd386d..2a1f58e0b 100644 --- a/pyannote/audio/models/embedding/wespeaker/resnet.py +++ b/pyannote/audio/models/embedding/wespeaker/resnet.py @@ -124,6 +124,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: num_frames, kernel_size=[3, 3], stride=[self.stride, 1], + padding=[1, 1], dilation=[1, 1], ) @@ -189,6 +190,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: num_frames, kernel_size=[1, 3, 1], stride=[1, self.stride, 1], + padding=[0, 1, 0], dilation=[1, 1, 1], ) @@ -305,6 +307,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: num_frames=receptive_field_size, kernel_size=3, stride=1, + padding=1, dilation=1, ) diff --git a/pyannote/audio/models/embedding/xvector.py b/pyannote/audio/models/embedding/xvector.py index 00916fbd0..3161876e3 100644 --- a/pyannote/audio/models/embedding/xvector.py +++ b/pyannote/audio/models/embedding/xvector.py @@ -33,9 +33,6 @@ from pyannote.audio.models.blocks.sincnet import SincNet from pyannote.audio.utils.params import merge_dict from pyannote.audio.utils.receptive_field import ( - conv1d_num_frames, - conv1d_receptive_field_center, - conv1d_receptive_field_size, multi_conv_num_frames, multi_conv_receptive_field_center, multi_conv_receptive_field_size, @@ -115,13 +112,10 @@ def num_frames(self, num_samples: int) -> int: n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - num_frames = conv1d_num_frames( - num_samples, - kernel_size=n_fft, - stride=hop_length, - dilation=1, - padding=n_fft // 2 if center else 0, - ) + if center: + num_frames = 1 + num_samples // hop_length + else: + num_frames = 1 + (num_samples - n_fft) // hop_length return multi_conv_num_frames( num_frames, @@ -155,13 +149,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft - - return conv1d_receptive_field_size( - num_frames=receptive_field_size, - kernel_size=n_fft, - stride=hop_length, - dilation=1, - ) + return n_fft + (receptive_field_size - 1) * hop_length def receptive_field_center(self, frame: int = 0) -> int: """Compute center of receptive field @@ -189,13 +177,10 @@ def receptive_field_center(self, frame: int = 0) -> int: n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - return conv1d_receptive_field_center( - frame=receptive_field_center, - kernel_size=n_fft, - stride=hop_length, - padding=n_fft // 2 if center else 0, - dilation=1, - ) + if center: + return receptive_field_center * hop_length + else: + return receptive_field_center * hop_length + n_fft // 2 def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None diff --git a/pyannote/audio/models/segmentation/SSeRiouSS.py b/pyannote/audio/models/segmentation/SSeRiouSS.py index ef550dfe1..b96464ab3 100644 --- a/pyannote/audio/models/segmentation/SSeRiouSS.py +++ b/pyannote/audio/models/segmentation/SSeRiouSS.py @@ -149,9 +149,12 @@ def __init__( self.lstm = nn.ModuleList( [ nn.LSTM( - wav2vec_dim - if i == 0 - else lstm["hidden_size"] * (2 if lstm["bidirectional"] else 1), + ( + wav2vec_dim + if i == 0 + else lstm["hidden_size"] + * (2 if lstm["bidirectional"] else 1) + ), **one_layer_lstm, ) for i in range(num_layers) @@ -246,6 +249,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: num_frames=receptive_field_size, kernel_size=conv_layer.kernel_size, stride=conv_layer.stride, + padding=conv_layer.conv.padding[0], dilation=conv_layer.conv.dilation[0], ) return receptive_field_size diff --git a/pyannote/audio/models/segmentation/debug.py b/pyannote/audio/models/segmentation/debug.py index 93c205b3d..ccac612a9 100644 --- a/pyannote/audio/models/segmentation/debug.py +++ b/pyannote/audio/models/segmentation/debug.py @@ -31,11 +31,6 @@ from pyannote.audio.core.model import Model from pyannote.audio.core.task import Task -from pyannote.audio.utils.receptive_field import ( - conv1d_num_frames, - conv1d_receptive_field_center, - conv1d_receptive_field_size, -) class SimpleSegmentationModel(Model): @@ -87,13 +82,10 @@ def num_frames(self, num_samples: int) -> int: n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - return conv1d_num_frames( - num_samples=num_samples, - kernel_size=n_fft, - stride=hop_length, - padding=n_fft // 2 if center else 0, - dilation=1, - ) + if center: + return 1 + num_samples // hop_length + else: + return 1 + (num_samples - n_fft) // hop_length def receptive_field_size(self, num_frames: int = 1) -> int: """Compute size of receptive field @@ -111,10 +103,7 @@ def receptive_field_size(self, num_frames: int = 1) -> int: hop_length = self.mfcc.MelSpectrogram.spectrogram.hop_length n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft - - return conv1d_receptive_field_size( - num_frames, kernel_size=n_fft, stride=hop_length, dilation=1 - ) + return n_fft + (num_frames - 1) * hop_length def receptive_field_center(self, frame: int = 0) -> int: """Compute center of receptive field @@ -134,13 +123,10 @@ def receptive_field_center(self, frame: int = 0) -> int: n_fft = self.mfcc.MelSpectrogram.spectrogram.n_fft center = self.mfcc.MelSpectrogram.spectrogram.center - return conv1d_receptive_field_center( - frame=frame, - kernel_size=n_fft, - stride=hop_length, - padding=n_fft // 2 if center else 0, - dilation=1, - ) + if center: + return frame * hop_length + else: + return frame * hop_length + n_fft // 2 @property def dimension(self) -> int: diff --git a/pyannote/audio/utils/receptive_field.py b/pyannote/audio/utils/receptive_field.py index 0e484e4ad..420a62de0 100644 --- a/pyannote/audio/utils/receptive_field.py +++ b/pyannote/audio/utils/receptive_field.py @@ -69,7 +69,9 @@ def multi_conv_num_frames( return num_frames -def conv1d_receptive_field_size(num_frames=1, kernel_size=5, stride=1, dilation=1): +def conv1d_receptive_field_size( + num_frames=1, kernel_size=5, stride=1, padding=0, dilation=1 +): """Compute size of receptive field Parameters @@ -80,6 +82,8 @@ def conv1d_receptive_field_size(num_frames=1, kernel_size=5, stride=1, dilation= Kernel size stride : int Stride + padding : int + Padding dilation : int Dilation @@ -90,7 +94,7 @@ def conv1d_receptive_field_size(num_frames=1, kernel_size=5, stride=1, dilation= """ effective_kernel_size = 1 + (kernel_size - 1) * dilation - return effective_kernel_size + (num_frames - 1) * stride + return effective_kernel_size + (num_frames - 1) * stride - 2 * padding def multi_conv_receptive_field_size( @@ -102,11 +106,12 @@ def multi_conv_receptive_field_size( ) -> int: receptive_field_size = num_frames - for k, s, d in reversed(list(zip(kernel_size, stride, dilation))): + for k, s, p, d in reversed(list(zip(kernel_size, stride, padding, dilation))): receptive_field_size = conv1d_receptive_field_size( num_frames=receptive_field_size, kernel_size=k, stride=s, + padding=p, dilation=d, ) return receptive_field_size From 7a9013745216d736538bdfaea22c5308f9b0c23b Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 May 2024 11:16:19 +0200 Subject: [PATCH 41/45] feat: add `fbank_only` property to `WeSpeaker` models (#1708) --- CHANGELOG.md | 7 +- .../models/embedding/wespeaker/__init__.py | 158 +++++++++++++++++- .../models/embedding/wespeaker/resnet.py | 63 ++++++- 3 files changed, 210 insertions(+), 18 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 8741e7932..647d478ef 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -6,15 +6,16 @@ - feat(task): add option to cache task training metadata to speed up training (with [@clement-pages](https://github.com/clement-pages/)) - feat(model): add `receptive_field`, `num_frames` and `dimension` to models (with [@Bilal-Rahou](https://github.com/Bilal-Rahou)) +- feat(model): add `fbank_only` property to `WeSpeaker` models - feat(util): add `Powerset.permutation_mapping` to help with permutation in powerset space (with [@FrenchKrab](https://github.com/FrenchKrab)) -- feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` +- feat(sample): add sample file at `pyannote.audio.sample.SAMPLE_FILE` - feat(metric): add `reduce` option to `diarization_error_rate` metric (with [@Bilal-Rahou](https://github.com/Bilal-Rahou)) - feat(pipeline): add `Waveform` and `SampleRate` preprocessors ### Fixes -- fix(task): fix random generators and their reproducibility (with [@FrenchKrab](https://github.com/FrenchKrab)) -- fix(task): fix estimation of training set size (with [@FrenchKrab](https://github.com/FrenchKrab)) +- fix(task): fix random generators and their reproducibility (with [@FrenchKrab](https://github.com/FrenchKrab)) +- fix(task): fix estimation of training set size (with [@FrenchKrab](https://github.com/FrenchKrab)) ### Improvements diff --git a/pyannote/audio/models/embedding/wespeaker/__init__.py b/pyannote/audio/models/embedding/wespeaker/__init__.py index 75df427d6..be51196c1 100644 --- a/pyannote/audio/models/embedding/wespeaker/__init__.py +++ b/pyannote/audio/models/embedding/wespeaker/__init__.py @@ -25,6 +25,7 @@ from typing import Optional import torch +import torch.nn.functional as F import torchaudio.compliance.kaldi as kaldi from pyannote.audio.core.model import Model @@ -39,16 +40,33 @@ class BaseWeSpeakerResNet(Model): + """Base class for WeSpeaker's ResNet models + + Parameters + ---------- + fbank_centering_span : float, optional + Span of the fbank centering window (in seconds). + Defaults (None) to use whole input. + + See also + -------- + torchaudio.compliance.kaldi.fbank + + """ + def __init__( self, sample_rate: int = 16000, num_channels: int = 1, num_mel_bins: int = 80, - frame_length: int = 25, - frame_shift: int = 10, + frame_length: float = 25.0, # in milliseconds + frame_shift: float = 10.0, # in milliseconds + round_to_power_of_two: bool = True, + snip_edges: bool = True, dither: float = 0.0, window_type: str = "hamming", use_energy: bool = False, + fbank_centering_span: Optional[float] = None, task: Optional[Task] = None, ): super().__init__(sample_rate=sample_rate, num_channels=num_channels, task=task) @@ -60,21 +78,38 @@ def __init__( "frame_length", "frame_shift", "dither", + "round_to_power_of_two", + "snip_edges", "window_type", "use_energy", + "fbank_centering_span", ) self._fbank = partial( kaldi.fbank, num_mel_bins=self.hparams.num_mel_bins, frame_length=self.hparams.frame_length, + round_to_power_of_two=self.hparams.round_to_power_of_two, frame_shift=self.hparams.frame_shift, + snip_edges=self.hparams.snip_edges, dither=self.hparams.dither, sample_frequency=self.hparams.sample_rate, window_type=self.hparams.window_type, use_energy=self.hparams.use_energy, ) + @property + def fbank_only(self) -> bool: + """Whether to only extract fbank features""" + return getattr(self, "_fbank_only", False) + + @fbank_only.setter + def fbank_only(self, value: bool): + if hasattr(self, "receptive_field"): + del self.receptive_field + + self._fbank_only = value + def compute_fbank(self, waveforms: torch.Tensor) -> torch.Tensor: """Extract fbank features @@ -85,6 +120,7 @@ def compute_fbank(self, waveforms: torch.Tensor) -> torch.Tensor: Returns ------- fbank : (batch_size, num_frames, num_mel_bins) + fbank features Source: https://github.com/wenet-e2e/wespeaker/blob/45941e7cba2c3ea99e232d02bedf617fc71b0dad/wespeaker/bin/infer_onnx.py#L30C1-L50 """ @@ -98,11 +134,37 @@ def compute_fbank(self, waveforms: torch.Tensor) -> torch.Tensor: features = torch.vmap(self._fbank)(waveforms.to(fft_device)).to(device) - return features - torch.mean(features, dim=1, keepdim=True) + # center features with global average + if self.hparams.fbank_centering_span is None: + return features - torch.mean(features, dim=1, keepdim=True) + + # center features with running average + window_size = int(self.hparams.sample_rate * self.hparams.frame_length * 0.001) + step_size = int(self.hparams.sample_rate * self.hparams.frame_shift * 0.001) + kernel_size = conv1d_num_frames( + num_samples=int( + self.hparams.fbank_centering_span * self.hparams.sample_rate + ), + kernel_size=window_size, + stride=step_size, + padding=0, + dilation=1, + ) + return features - F.avg_pool1d( + features.transpose(1, 2), + kernel_size=2 * (kernel_size // 2) + 1, + stride=1, + padding=kernel_size // 2, + count_include_pad=False, + ).transpose(1, 2) @property def dimension(self) -> int: """Dimension of output""" + + if self.fbank_only: + return self.hparams.num_mel_bins + return self.resnet.embed_dim @lru_cache @@ -122,6 +184,8 @@ def num_frames(self, num_samples: int) -> int: window_size = int(self.hparams.sample_rate * self.hparams.frame_length * 0.001) step_size = int(self.hparams.sample_rate * self.hparams.frame_shift * 0.001) + # TODO: take round_to_power_of_two and snip_edges into account + num_frames = conv1d_num_frames( num_samples=num_samples, kernel_size=window_size, @@ -129,6 +193,10 @@ def num_frames(self, num_samples: int) -> int: padding=0, dilation=1, ) + + if self.fbank_only: + return num_frames + return self.resnet.num_frames(num_frames) def receptive_field_size(self, num_frames: int = 1) -> int: @@ -144,8 +212,13 @@ def receptive_field_size(self, num_frames: int = 1) -> int: receptive_field_size : int Receptive field size. """ + receptive_field_size = num_frames - receptive_field_size = self.resnet.receptive_field_size(receptive_field_size) + + if not self.fbank_only: + receptive_field_size = self.resnet.receptive_field_size( + receptive_field_size + ) window_size = int(self.hparams.sample_rate * self.hparams.frame_length * 0.001) step_size = int(self.hparams.sample_rate * self.hparams.frame_shift * 0.001) @@ -172,9 +245,11 @@ def receptive_field_center(self, frame: int = 0) -> int: Index of receptive field center. """ receptive_field_center = frame - receptive_field_center = self.resnet.receptive_field_center( - frame=receptive_field_center - ) + + if not self.fbank_only: + receptive_field_center = self.resnet.receptive_field_center( + frame=receptive_field_center + ) window_size = int(self.hparams.sample_rate * self.hparams.frame_length * 0.001) step_size = int(self.hparams.sample_rate * self.hparams.frame_shift * 0.001) @@ -189,14 +264,79 @@ def receptive_field_center(self, frame: int = 0) -> int: def forward( self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None ) -> torch.Tensor: + """Extract speaker embeddings + + Parameters + ---------- + waveforms : torch.Tensor + Batch of waveforms with shape (batch, channel, sample) + weights : (batch, frames) or (batch, speakers, frames) torch.Tensor, optional + Batch of weights passed to statistics pooling layer. + + Returns + ------- + embeddings : (batch, dimension) or (batch, speakers, dimension) torch.Tensor + Batch of embeddings. """ + fbank = self.compute_fbank(waveforms) + if self.fbank_only: + return fbank + + return self.resnet(fbank, weights=weights)[1] + + def forward_frames(self, waveforms: torch.Tensor) -> torch.Tensor: + """Extract frame-wise embeddings + Parameters ---------- waveforms : torch.Tensor Batch of waveforms with shape (batch, channel, sample) - weights : torch.Tensor, optional - Batch of weights with shape (batch, frame). + + Returns + ------- + embeddings : (batch, ..., embedding_frames) torch.Tensor + Batch of frame-wise embeddings. + """ + fbank = self.compute_fbank(waveforms) + return self.resnet.forward_frames(fbank) + + def forward_embedding( + self, frames: torch.Tensor, weights: torch.Tensor = None + ) -> torch.Tensor: + """Extract speaker embeddings from frame-wise embeddings + + Parameters + ---------- + frames : torch.Tensor + Batch of frames with shape (batch, ..., embedding_frames). + weights : (batch, frames) or (batch, speakers, frames) torch.Tensor, optional + Batch of weights passed to statistics pooling layer. + + Returns + ------- + embeddings : (batch, dimension) or (batch, speakers, dimension) torch.Tensor + Batch of embeddings. + + """ + return self.resnet.forward_embedding(frames, weights=weights)[1] + + def forward( + self, waveforms: torch.Tensor, weights: Optional[torch.Tensor] = None + ) -> torch.Tensor: + """Extract speaker embeddings + + Parameters + ---------- + waveforms : torch.Tensor + Batch of waveforms with shape (batch, channel, sample) + weights : (batch, frames) or (batch, speakers, frames) torch.Tensor, optional + Batch of weights passed to statistics pooling layer. + + Returns + ------- + embeddings : (batch, dimension) or (batch, speakers, dimension) torch.Tensor + Batch of embeddings. """ fbank = self.compute_fbank(waveforms) diff --git a/pyannote/audio/models/embedding/wespeaker/resnet.py b/pyannote/audio/models/embedding/wespeaker/resnet.py index 2a1f58e0b..4c9d5a5f0 100644 --- a/pyannote/audio/models/embedding/wespeaker/resnet.py +++ b/pyannote/audio/models/embedding/wespeaker/resnet.py @@ -344,12 +344,64 @@ def receptive_field_center(self, frame: int = 0) -> int: return receptive_field_center - def forward(self, x: torch.Tensor, weights: Optional[torch.Tensor] = None): + def forward_frames(self, fbank: torch.Tensor) -> torch.Tensor: + """Extract frame-wise embeddings + + Parameters + ---------- + fbanks : (batch, frames, features) torch.Tensor + Batch of fbank features + + Returns + ------- + embeddings : (batch, ..., embedding_frames) torch.Tensor + Batch of frame-wise embeddings. + """ + fbank = fbank.permute(0, 2, 1) # (B,T,F) => (B,F,T) + fbank = fbank.unsqueeze_(1) + out = F.relu(self.bn1(self.conv1(fbank))) + out = self.layer1(out) + out = self.layer2(out) + out = self.layer3(out) + out = self.layer4(out) + return out + + def forward_embedding( + self, frames: torch.Tensor, weights: torch.Tensor = None + ) -> torch.Tensor: + """Extract speaker embeddings Parameters ---------- - x : (batch, frames, features) torch.Tensor + frames : torch.Tensor + Batch of frames with shape (batch, ..., embedding_frames). + weights : (batch, frames) or (batch, speakers, frames) torch.Tensor, optional + Batch of weights passed to statistics pooling layer. + + Returns + ------- + embeddings : (batch, dimension) or (batch, speakers, dimension) torch.Tensor + Batch of embeddings. + """ + + stats = self.pool(frames, weights=weights) + + embed_a = self.seg_1(stats) + if self.two_emb_layer: + out = F.relu(embed_a) + out = self.seg_bn_1(out) + embed_b = self.seg_2(out) + return embed_a, embed_b + else: + return torch.tensor(0.0), embed_a + + def forward(self, fbank: torch.Tensor, weights: Optional[torch.Tensor] = None): + """Extract speaker embeddings + + Parameters + ---------- + fbank : (batch, frames, features) torch.Tensor Batch of features weights : (batch, frames) torch.Tensor, optional Batch of weights @@ -358,10 +410,9 @@ def forward(self, x: torch.Tensor, weights: Optional[torch.Tensor] = None): ------- embedding : (batch, embedding_dim) torch.Tensor """ - x = x.permute(0, 2, 1) # (B,T,F) => (B,F,T) - - x = x.unsqueeze_(1) - out = F.relu(self.bn1(self.conv1(x))) + fbank = fbank.permute(0, 2, 1) # (B,T,F) => (B,F,T) + fbank = fbank.unsqueeze_(1) + out = F.relu(self.bn1(self.conv1(fbank))) out = self.layer1(out) out = self.layer2(out) out = self.layer3(out) From 461580848a621b378ad3b943b99e4b916c07c2e2 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 May 2024 11:21:44 +0200 Subject: [PATCH 42/45] fix(hook): fix `torch.Tensor` support in `ArtifactHook` --- CHANGELOG.md | 1 + pyannote/audio/pipelines/utils/hook.py | 4 ++++ 2 files changed, 5 insertions(+) diff --git a/CHANGELOG.md b/CHANGELOG.md index 647d478ef..710be5817 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -16,6 +16,7 @@ - fix(task): fix random generators and their reproducibility (with [@FrenchKrab](https://github.com/FrenchKrab)) - fix(task): fix estimation of training set size (with [@FrenchKrab](https://github.com/FrenchKrab)) +- fix(hook): fix `torch.Tensor` support in `ArtifactHook` ### Improvements diff --git a/pyannote/audio/pipelines/utils/hook.py b/pyannote/audio/pipelines/utils/hook.py index 2a675d1c9..db6972e2e 100644 --- a/pyannote/audio/pipelines/utils/hook.py +++ b/pyannote/audio/pipelines/utils/hook.py @@ -24,6 +24,7 @@ from copy import deepcopy from typing import Any, Mapping, Optional, Text +import torch from rich.progress import ( BarColumn, Progress, @@ -75,6 +76,9 @@ def __call__( ): return + if isinstance(step_artifact, torch.Tensor): + step_artifact = step_artifact.numpy(force=True) + file.setdefault(self.file_key, dict())[step_name] = deepcopy(step_artifact) From 07a85a7c061d83ac663ed8723d8f09c966b30271 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 May 2024 11:36:04 +0200 Subject: [PATCH 43/45] doc: update changelog --- CHANGELOG.md | 5 +++++ 1 file changed, 5 insertions(+) diff --git a/CHANGELOG.md b/CHANGELOG.md index 710be5817..a444fd7d3 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -17,6 +17,7 @@ - fix(task): fix random generators and their reproducibility (with [@FrenchKrab](https://github.com/FrenchKrab)) - fix(task): fix estimation of training set size (with [@FrenchKrab](https://github.com/FrenchKrab)) - fix(hook): fix `torch.Tensor` support in `ArtifactHook` +- fix(doc): fix typo in `Powerset` docstring (with [@lukasstorck](https://github.com/lukasstorck)) ### Improvements @@ -30,6 +31,10 @@ - BREAKING(model): get rid of `Model.example_output` in favor of `num_frames` method, `receptive_field` property, and `dimension` property - BREAKING(task): custom tasks need to be updated (see "Add your own task" tutorial) +## Community contributions + +- community: add tutorial for offline use of `pyannote/speaker-diarization-3.1` (by [@simonottenhauskenbun](https://github.com/simonottenhauskenbun)) + ## Version 3.1.1 (2023-12-01) ### TL;DR From e01134dbddae2e4b93c3f11f0b57757bba15a7b3 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 May 2024 11:40:27 +0200 Subject: [PATCH 44/45] doc: update changelog --- CHANGELOG.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index a444fd7d3..ad88762c2 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -1,6 +1,6 @@ # Changelog -## develop +## Version 3.2.0 (2024-05-08) ### New features From bb4dd2eed453a6778246537fbb5e51190fd5ac1d Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Herv=C3=A9=20BREDIN?= Date: Wed, 8 May 2024 11:40:45 +0200 Subject: [PATCH 45/45] git: update version --- version.txt | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/version.txt b/version.txt index 94ff29cc4..944880fa1 100644 --- a/version.txt +++ b/version.txt @@ -1 +1 @@ -3.1.1 +3.2.0