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base: LLM:0.2.7
Branches Tags
LLM:main LLM:voxtral_tests LLM:feature/voxtral LLM:api_live LLM:VAD-evolutions LLM:rework_state_light LLM:new_api LLM:language-detection LLM:ScriptProcessorNode-to-AudioWorklet LLM:translation-improvements LLM:windows_audio_loopback LLM:new-api LLM:regularfry-ayo-logging-fixes LLM:seamless-streaming
LLM:v0.2.19 LLM:0.2.18 LLM:0.2.17.post1 LLM:0.2.17 LLM:0.2.16 LLM:0.2.15 LLM:0.2.14 LLM:0.2.13 LLM:0.2.12 LLM:0.2.11 LLM:0.2.10 LLM:0.2.9 LLM:0.2.8 LLM:0.2.7 LLM:0.2.6 LLM:0.2.5 LLM:0.2.4.dev0 LLM:0.2.2 LLM:0.2.1 LLM:0.1.9 LLM:0.1.8 LLM:0.1.7 LLM:0.1.6 LLM:0.1.5 LLM:0.1.4 LLM:0.1.3 LLM:0.1.1 LLM:0.0.1
...
compare: LLM:language-detection
Branches Tags
LLM:main LLM:voxtral_tests LLM:feature/voxtral LLM:api_live LLM:VAD-evolutions LLM:rework_state_light LLM:new_api LLM:language-detection LLM:ScriptProcessorNode-to-AudioWorklet LLM:translation-improvements LLM:windows_audio_loopback LLM:new-api LLM:regularfry-ayo-logging-fixes LLM:seamless-streaming
LLM:v0.2.19 LLM:0.2.18 LLM:0.2.17.post1 LLM:0.2.17 LLM:0.2.16 LLM:0.2.15 LLM:0.2.14 LLM:0.2.13 LLM:0.2.12 LLM:0.2.11 LLM:0.2.10 LLM:0.2.9 LLM:0.2.8 LLM:0.2.7 LLM:0.2.6 LLM:0.2.5 LLM:0.2.4.dev0 LLM:0.2.2 LLM:0.2.1 LLM:0.1.9 LLM:0.1.8 LLM:0.1.7 LLM:0.1.6 LLM:0.1.5 LLM:0.1.4 LLM:0.1.3 LLM:0.1.1 LLM:0.0.1

74 Commits
0.2.7 ... language-d

Author SHA1 Message Date
Quentin Fuxa
674b20d3af in buffer while language not detected » 2025-09-21 11:05:00 +02:00
Quentin Fuxa
a5503308c5 O(n) to O(1) for simulstreaming timestamp determination 2025-09-21 11:04:00 +02:00
Quentin Fuxa
e61afdefa3 punctuation is now checked in timed_object 2025-09-22 22:40:39 +02:00
Quentin Fuxa
426d70a790 simulstreaming infer does not return a dictionary anymore 2025-09-21 11:03:00 +02:00
Quentin Fuxa
b03a212fbf fixes #227 , auto language dectection v0.1 - simulstreaming only - when diarization and auto 2025-09-19 19:15:28 +02:00
Quentin Fuxa
1833e7c921 0.2.10 2025-09-16 23:45:00 +02:00
Quentin Fuxa
777ec63a71 --pcm-input option information 2025-09-17 16:06:28 +02:00
Quentin Fuxa
0a6e5ae9c1 ffmpeg install instruction error indicates --pcm-input alternative 2025-09-17 16:04:17 +02:00
Quentin Fuxa
ee448a37e9 when pcm-input is set, the frontend uses AudioWorklet 2025-09-17 14:55:57 +02:00
Quentin Fuxa
9c051052b0 Merge branch 'main' into ScriptProcessorNode-to-AudioWorklet 2025-09-17 11:28:36 +02:00
Quentin Fuxa
4d7c487614 replace deprecated ScriptProcessorNode with AudioWorklet 2025-09-17 10:53:53 +02:00
Quentin Fuxa
65025cc448 nllb backend can be transformers, and model size can be 1.3B 2025-09-17 10:20:31 +02:00
Quentin Fuxa
bbba1d9bb7 add nllb-backend and translation perf test in dev_notes 2025-09-16 20:45:01 +02:00
Quentin Fuxa
99dc96c644 fixes #224 2025-09-16 18:34:35 +02:00
GeorgeCaoJ
2a27d2030a feat: support web audio 16kHz PCM input and remove ffmpeg dependency 2025-09-15 23:22:25 +08:00
Quentin Fuxa
cd160caaa1 asyncio.to_thread for transcription and translation 2025-09-15 15:23:22 +02:00
Quentin Fuxa
d27b5eb23e Merge pull request #219 from notV3NOM/main 
Fix warmup file behavior
 2025-09-15 10:19:26 +02:00
Quentin Fuxa
f9d704a900 Merge branch 'main' of https://github.com/notv3nom/whisperlivekit into pr/notV3NOM/219 2025-09-15 10:00:14 +02:00
Quentin Fuxa
2f6e00f512 simulstreaming warmup is done in whisperlivekit.simul_whisper.backend.load_model, not in warmup_online 2025-09-15 09:43:15 +02:00
Quentin Fuxa
5aa312e437 simulstreaming warmup is done in whisperlivekit.simul_whisper.backend.load_model, not in warmup_online 2025-09-13 20:19:19 +01:00
notV3NOM
ebaf36a8be Fix warmup file behavior 2025-09-13 20:44:24 +05:30
Quentin Fuxa
babe93b99a to 0.2.9 2025-09-11 21:36:32 +02:00
Quentin Fuxa
a4e9f3cab7 support for raw PCM input option by @YeonjunNotFR 2025-09-11 21:32:11 +02:00
Quentin Fuxa
b06866877a add --disable-punctuation-split option 2025-09-11 21:03:00 +02:00
Quentin Fuxa
967cdfebc8 fix Translation imports 2025-09-11 21:03:00 +02:00
Quentin Fuxa
3c11c60126 fix by @treeaaa 2025-09-11 21:03:00 +02:00
Quentin Fuxa
2963e8a757 translate when at least 3 new tokens 2025-09-09 21:45:00 +02:00
Quentin Fuxa
cb2d4ea88a audio processor lines use now Lines objects instead of dict 2025-09-09 21:45:00 +02:00
Quentin Fuxa
add7ea07ee translator takes all the tokens from the queue 2025-09-09 19:55:39 +02:00
Quentin Fuxa
da8726b2cb Merge pull request #211 from Alexander-ARTV/main 
Fix type error when setting encoder_feature in simul_whisper->infer for faster whisper encoder
 2025-09-09 15:46:59 +02:00
Quentin Fuxa
3358877054 Fix StorageView conversion for CPU/GPU compatibility 2025-09-09 15:44:16 +02:00
Quentin Fuxa
1f7798c7c1 condition on encoder_feature_ctranslate type 2025-09-09 12:16:52 +02:00
Alexander Lindberg
c7b3bb5e58 Fix regression with faster-whisper encoder_feature 2025-09-09 11:18:55 +03:00
Quentin Fuxa
f661f21675 translation asyncio task 2025-09-08 18:34:31 +02:00
Quentin Fuxa
b6164aa59b translation device determined with torch.device 2025-09-08 11:34:40 +02:00
Quentin Fuxa
4209d7f7c0 Place all tensors on the same device in sortformer diarization 2025-09-08 10:20:57 +02:00
Quentin Fuxa
334b338ab0 use platform to determine system and recommand mlx whisper 2025-09-07 15:49:11 +02:00
Quentin Fuxa
72f33be6f2 translation: use of get_nllb_code 2025-09-07 15:25:14 +02:00
Quentin Fuxa
84890b8e61 Merge pull request #201 from notV3NOM/main 
Fix: simulstreaming preload model count argument in cli
 2025-09-07 15:18:54 +02:00
Quentin Fuxa
c6668adcf3 Merge pull request #200 from notV3NOM/misc 
docs: add vram usage for large-v3-turbo
 2025-09-07 15:17:42 +02:00
notV3NOM
a178ed5c22 fix simulstreaming preload model count argument in cli 2025-09-06 18:18:09 +05:30
notV3NOM
7601c74c9c add vram usage for large-v3-turbo 2025-09-06 17:56:39 +05:30
Quentin Fuxa
fad9ee4d21 Merge pull request #198 from notV3NOM/main 
Fix scrolling UX with sticky header controls
 2025-09-05 20:46:36 +02:00
Quentin Fuxa
d1a9913c47 nllb v0 2025-09-05 18:02:42 +02:00
notV3NOM
e4ca2623cb Fix scrolling UX with sticky header controls 2025-09-05 21:25:13 +05:30
Quentin Fuxa
9c1bf37960 fixes #197 2025-09-05 16:34:13 +02:00
Quentin Fuxa
f46528471b revamp chromium extension settings 2025-09-05 16:19:48 +02:00
Quentin Fuxa
191680940b Merge branch 'main' of https://github.com/QuentinFuxa/whisper_streaming_web 2025-09-04 23:58:51 +02:00
Quentin Fuxa
ee02afec56 workaround to get the list of microphones in the extension 2025-09-04 23:58:48 +02:00
Quentin Fuxa
a458028de2 Merge pull request #196 from notV3NOM/main 
Fix: Exponentially growing simulstreaming silence timer
 2025-09-04 23:05:59 +02:00
notV3NOM
abd8f2c269 Fix exponentially growing simulstreaming silence timer 2025-09-04 21:49:07 +05:30
Quentin Fuxa
f3ad4e39e4 torch.Tensor to torch.as_tensor 2025-09-04 16:39:11 +02:00
Quentin Fuxa
e0a5cbf0e7 v0.1.0 chrome extension 2025-09-04 16:36:28 +02:00
Quentin Fuxa
953697cd86 torch.Tensor to torch.as_tensor 2025-09-04 15:25:39 +02:00
Quentin Fuxa
3bd2122eb4 0.2.8 : only the decoder of whisper is loaded in memory when a different encoder is used 2025-09-02 21:12:25 +02:00
Quentin Fuxa
50b0527858 update architecture 2025-09-01 21:24:12 +02:00
Quentin Fuxa
b044fcdec2 Merge branch 'main' of https://github.com/QuentinFuxa/whisper_streaming_web 2025-09-01 14:55:19 +02:00
Quentin Fuxa
b0508fcf2c mlx/fasterWhisper encoders are loaded once and shared in simulstreaming 2025-09-01 14:55:11 +02:00
Quentin Fuxa
ce89b0aebc Merge pull request #177 from komiyamma/translate-readme-to-japanese 
Translate README.md to Japanese
 2025-09-01 13:54:50 +02:00
Quentin Fuxa
d5008ed828 mlx/fasterWhisper encoders are loaded once and shared in simulstreaming 2025-09-01 12:33:19 +02:00
Quentin Fuxa
d467716e26 add microphone picker 2025-08-31 10:12:52 +02:00
Quentin Fuxa
199e21b3ef faster-whisper as an optional encoder alternative for simulstreaming 2025-08-30 23:50:16 +02:00
Quentin Fuxa
1d926f2e67 mlx-whisper used as simulstreaming encoder: improve speed for macos systems 2025-08-30 22:19:11 +02:00
Quentin Fuxa
4a71a391b8 get_web_interface_html to get_inline_ui_html for embedded web interface HTML 2025-08-30 13:44:06 +02:00
google-labs-jules[bot]
d3ed4e46e2 Translate README.md to Japanese 
Create a Japanese version of the README.md file named ReadmeJP.md.
This makes the project more accessible to Japanese-speaking users.
 2025-08-30 04:16:18 +00:00
Quentin Fuxa
057a1026d7 Merge branch 'main' of https://github.com/QuentinFuxa/whisper_streaming_web 2025-08-29 22:01:04 +02:00
Quentin Fuxa
1ba171a58d add embedded web interface HTML (single-file version with inline CSS/JS/SVG) 
### Added
- `get_inline_ui_html()`: generates a self-contained version of the web interface, with CSS, JS, and SVG assets inlined directly into the HTML. useful for environments where serving static files is inconvenient or when a single-call UI delivery is preferred.

(cherry picked from commit aa44a92a67)
 2025-08-29 22:00:59 +02:00
Quentin Fuxa
1adac67155 explanations about model persistency in containers 2025-08-29 21:27:08 +02:00
Quentin Fuxa
42be1a3773 Merge pull request #173 from CoderRahul9904/chore/docker/pytorch-timeout-retries 
fix: increase pip timeout & retries for torch wheel install
 2025-08-29 21:22:30 +02:00
Rahul Mourya
0a49fafa0d Update Dockerfile 
fix(docker): increase pip timeout/retries for PyTorch wheel installs
 2025-08-30 00:23:59 +05:30
Quentin Fuxa
4a5d5e1f3b raise Exception when language == auto and task == translation 2025-08-29 17:44:46 +02:00
Quentin Fuxa
583a2ec2e4 highlight Sortformer optional installation 2025-08-27 21:02:25 +02:00
Quentin Fuxa
19765e89e9 remove triton <3 condition 2025-08-27 20:44:39 +02:00
Quentin Fuxa
9895bc83bf auto detection of language for warmup if not indicated 2025-08-27 20:37:48 +02:00
59 changed files with 3777 additions and 845 deletions
Expand all files Collapse all files

3
.gitignore vendored
View File

@@ -137,4 +137,5 @@ run_*.sh
test_*.py
launch.json
.DS_Store
test/*
test/*
nllb-200-distilled-600M-ctranslate2/*

91
DEV_NOTES.md Normal file
View File

@@ -0,0 +1,91 @@
# 1. Simulstreaming: Decouple the encoder for faster inference
Simulstreaming encoder time (whisperlivekit/simul_whisper/simul_whisper.py l. 397) experimentations :
On macOS Apple Silicon M4 :
| Encoder | base.en | small |
|--------|---------|-------|
| WHISPER (no modification) | 0.35s | 1.09s |
| FASTER_WHISPER | 0.4s | 1.20s |
| MLX_WHISPER | 0.07s | 0.20s |
Memory saved by only loading encoder for optimized framework:
For tiny.en, mlx whisper:
Sizes MLX whisper:
Decoder weights: 59110771 bytes
Encoder weights: 15268874 bytes
# 2. Translation: Faster model for each system
## Benchmark Results
Testing on MacBook M3 with NLLB-200-distilled-600M model:
### Standard Transformers vs CTranslate2
| Test Text | Standard Inference Time | CTranslate2 Inference Time | Speedup |
|-----------|-------------------------|---------------------------|---------|
| UN Chief says there is no military solution in Syria | 0.9395s | 2.0472s | 0.5x |
| The rapid advancement of AI technology is transforming various industries | 0.7171s | 1.7516s | 0.4x |
| Climate change poses a significant threat to global ecosystems | 0.8533s | 1.8323s | 0.5x |
| International cooperation is essential for addressing global challenges | 0.7209s | 1.3575s | 0.5x |
| The development of renewable energy sources is crucial for a sustainable future | 0.8760s | 1.5589s | 0.6x |
**Results:**
- Total Standard time: 4.1068s
- Total CTranslate2 time: 8.5476s
- CTranslate2 is slower on this system --> Use Transformers, and ideally we would have an mlx implementation.
# 3. SortFormer Diarization: 4-to-2 Speaker Constraint Algorithm
Transform a diarization model that predicts up to 4 speakers into one that predicts up to 2 speakers by mapping the output predictions.
## Problem Statement
- Input: `self.total_preds` with shape `(x, x, 4)` - predictions for 4 speakers
- Output: Constrained predictions with shape `(x, x, 2)` - predictions for 2 speakers
#
### Initial Setup
For each time step `i`, we have a ranking of 4 speaker predictions (1-4). When only 2 speakers are present, the model will have close predictions for the 2 active speaker positions.
Instead of `np.argmax(preds_np, axis=1)`, we take the top 2 predictions and build a dynamic 4→2 mapping that can evolve over time.
### Algorithm
```python
top_2_speakers = np.argsort(preds_np, axis=1)[:, -2:]
```
- `DS_a_{i}`: Top detected speaker for prediction i
- `DS_b_{i}`: Second detected speaker for prediction i
- `AS_{i}`: Attributed speaker for prediction i
- `GTS_A`: Ground truth speaker A
- `GTS_B`: Ground truth speaker B
- `DIST(a, b)`: Distance between detected speakers a and b
3. **Attribution Logic**
```
AS_0 ← A
AS_1 ← B
IF DIST(DS_a_0, DS_a_1) < DIST(DS_a_0, DS_a_2) AND
DIST(DS_a_0, DS_a_1) < DIST(DS_a_1, DS_a_2):
# Likely that DS_a_0 = DS_a_1 (same speaker)
AS_1 ← A
AS_2 ← B
ELIF DIST(DS_a_0, DS_a_2) < DIST(DS_a_0, DS_a_1) AND
DIST(DS_a_0, DS_a_2) < DIST(DS_a_1, DS_a_2):
AS_2 ← A
ELSE:
AS_2 ← B
to finish
```

31
Dockerfile
View File

@@ -17,18 +17,26 @@ RUN apt-get update && \
ffmpeg \
git \
build-essential \
python3-dev && \
python3-dev \
ca-certificates && \
rm -rf /var/lib/apt/lists/*
RUN python3 -m venv /opt/venv
ENV PATH="/opt/venv/bin:$PATH"
RUN pip3 install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/cu129
# timeout/retries for large torch wheels
RUN pip3 install --upgrade pip setuptools wheel && \
pip3 --disable-pip-version-check install --timeout=120 --retries=5 \
--index-url https://download.pytorch.org/whl/cu129 \
torch torchaudio \
|| (echo "Initial install failed — retrying with extended timeout..." && \
pip3 --disable-pip-version-check install --timeout=300 --retries=3 \
--index-url https://download.pytorch.org/whl/cu129 \
torch torchvision torchaudio)
COPY . .
# Install WhisperLiveKit directly, allowing for optional dependencies
# Note: For gates models, need to add your HF toke. See README.md
# for more details.
RUN if [ -n "$EXTRAS" ]; then \
echo "Installing with extras: [$EXTRAS]"; \
pip install --no-cache-dir whisperlivekit[$EXTRAS]; \
@@ -37,16 +45,14 @@ RUN if [ -n "$EXTRAS" ]; then \
pip install --no-cache-dir whisperlivekit; \
fi
# Enable in-container caching for Hugging Face models by:
# Note: If running multiple containers, better to map a shared
# bucket.
#
# In-container caching for Hugging Face models by:
# A) Make the cache directory persistent via an anonymous volume.
# Note: This only persists for a single, named container. This is
# only for convenience at de/test stage.
# For prod, it is better to use a named volume via host mount/k8s.
VOLUME ["/root/.cache/huggingface/hub"]
# or
# B) Conditionally copy a local pre-cache from the build context to the
# container's cache via the HF_PRECACHE_DIR build-arg.
@@ -61,8 +67,7 @@ RUN if [ -n "$HF_PRECACHE_DIR" ]; then \
echo "No local Hugging Face cache specified, skipping copy"; \
fi
# Conditionally copy a Hugging Face token if provided
# Conditionally copy a Hugging Face token if provided. Useful for Diart backend (pyannote audio models)
RUN if [ -n "$HF_TKN_FILE" ]; then \
echo "Copying Hugging Face token from $HF_TKN_FILE"; \
mkdir -p /root/.cache/huggingface && \
@@ -70,11 +75,9 @@ RUN if [ -n "$HF_TKN_FILE" ]; then \
else \
echo "No Hugging Face token file specified, skipping token setup"; \
fi
# Expose port for the transcription server
EXPOSE 8000
ENTRYPOINT ["whisperlivekit-server", "--host", "0.0.0.0"]
# Default args
CMD ["--model", "medium"]
CMD ["--model", "medium"]

110
README.md
View File

@@ -9,7 +9,7 @@
<p align="center">
<a href="https://pypi.org/project/whisperlivekit/"><img alt="PyPI Version" src="https://img.shields.io/pypi/v/whisperlivekit?color=g"></a>
<a href="https://pepy.tech/project/whisperlivekit"><img alt="PyPI Downloads" src="https://static.pepy.tech/personalized-badge/whisperlivekit?period=total&units=international_system&left_color=grey&right_color=brightgreen&left_text=installations"></a>
<a href="https://pypi.org/project/whisperlivekit/"><img alt="Python Versions" src="https://img.shields.io/badge/python-3.9--3.13-dark_green"></a>
<a href="https://pypi.org/project/whisperlivekit/"><img alt="Python Versions" src="https://img.shields.io/badge/python-3.9--3.15-dark_green"></a>
<a href="https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/LICENSE"><img alt="License" src="https://img.shields.io/badge/License-MIT/Dual Licensed-dark_green"></a>
</p>
@@ -18,8 +18,9 @@ Real-time speech transcription directly to your browser, with a ready-to-use bac
#### Powered by Leading Research:
- [SimulStreaming](https://github.com/ufal/SimulStreaming) (SOTA 2025) - Ultra-low latency transcription with AlignAtt policy
- [WhisperStreaming](https://github.com/ufal/whisper_streaming) (SOTA 2023) - Low latency transcription with LocalAgreement policy
- [SimulStreaming](https://github.com/ufalSimulStreaming) (SOTA 2025) - Ultra-low latency transcription using [AlignAtt policy](https://arxiv.org/pdf/2305.11408)
- [NLLB](https://arxiv.org/abs/2207.04672), ([distilled](https://huggingface.co/entai2965/nllb-200-distilled-600M-ctranslate2)) (2024) - Translation to more than 100 languages.
- [WhisperStreaming](https://github.com/ufal/whisper_streaming) (SOTA 2023) - Low latency transcription using [LocalAgreement policy](https://www.isca-archive.org/interspeech_2020/liu20s_interspeech.pdf)
- [Streaming Sortformer](https://arxiv.org/abs/2507.18446) (SOTA 2025) - Advanced real-time speaker diarization
- [Diart](https://github.com/juanmc2005/diart) (SOTA 2021) - Real-time speaker diarization
- [Silero VAD](https://github.com/snakers4/silero-vad) (2024) - Enterprise-grade Voice Activity Detection
@@ -39,14 +40,7 @@ Real-time speech transcription directly to your browser, with a ready-to-use bac
```bash
pip install whisperlivekit
```
> **FFmpeg is required** and must be installed before using WhisperLiveKit
>
> | OS | How to install |
> |-----------|-------------|
> | Ubuntu/Debian | `sudo apt install ffmpeg` |
> | MacOS | `brew install ffmpeg` |
> | Windows | Download .exe from https://ffmpeg.org/download.html and add to PATH |
> You can also clone the repo and `pip install -e .` for the latest version.
#### Quick Start
1. **Start the transcription server:**
@@ -66,42 +60,32 @@ pip install whisperlivekit
| Optional | `pip install` |
|-----------|-------------|
| Speaker diarization with Sortformer | `git+https://github.com/NVIDIA/NeMo.git@main#egg=nemo_toolkit[asr]` |
| Speaker diarization with Diart | `diart` |
| Original Whisper backend | `whisper` |
| Improved timestamps backend | `whisper-timestamped` |
| Apple Silicon optimization backend | `mlx-whisper` |
| **Speaker diarization with Sortformer** | `git+https://github.com/NVIDIA/NeMo.git@main#egg=nemo_toolkit[asr]` |
| **Apple Silicon optimized backend** | `mlx-whisper` |
| **NLLB Translation** | `huggingface_hub` & `transformers` |
| *[Not recommanded]* Speaker diarization with Diart | `diart` |
| *[Not recommanded]* Original Whisper backend | `whisper` |
| *[Not recommanded]* Improved timestamps backend | `whisper-timestamped` |
| OpenAI API backend | `openai` |
See **Parameters & Configuration** below on how to use them.
> **Pyannote Models Setup** For diarization, you need access to pyannote.audio models:
> 1. [Accept user conditions](https://huggingface.co/pyannote/segmentation) for the `pyannote/segmentation` model
> 2. [Accept user conditions](https://huggingface.co/pyannote/segmentation-3.0) for the `pyannote/segmentation-3.0` model
> 3. [Accept user conditions](https://huggingface.co/pyannote/embedding) for the `pyannote/embedding` model
>4. Login with HuggingFace:
> ```bash
> huggingface-cli login
> ```
## 💻 Usage Examples
#### Command-line Interface
### Usage Examples
Start the transcription server with various options:
**Command-line Interface**: Start the transcription server with various options:
```bash
# Use better model than default (small)
whisperlivekit-server --model large-v3
# Large model and translate from french to danish
whisperlivekit-server --model large-v3 --language fr --target-language da
# Advanced configuration with diarization and language
whisperlivekit-server --host 0.0.0.0 --port 8000 --model medium --diarization --language fr
# Diarization and server listening on */80
whisperlivekit-server --host 0.0.0.0 --port 80 --model medium --diarization --language fr
```
#### Python API Integration (Backend)
Check [basic_server](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/basic_server.py) for a more complete example of how to use the functions and classes.
**Python API Integration**: Check [basic_server](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/basic_server.py) for a more complete example of how to use the functions and classes.
```python
from whisperlivekit import TranscriptionEngine, AudioProcessor, parse_args
@@ -139,30 +123,20 @@ async def websocket_endpoint(websocket: WebSocket):
await audio_processor.process_audio(message)
```
#### Frontend Implementation
The package includes an HTML/JavaScript implementation [here](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/web/live_transcription.html). You can also import it using `from whisperlivekit import get_web_interface_html` & `page = get_web_interface_html()`
**Frontend Implementation**: The package includes an HTML/JavaScript implementation [here](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/web/live_transcription.html). You can also import it using `from whisperlivekit import get_inline_ui_html` & `page = get_inline_ui_html()`
### ⚙️ Parameters & Configuration
## Parameters & Configuration
An important list of parameters can be changed. But what *should* you change?
- the `--model` size. List and recommandations [here](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/available_models.md)
- the `--language`. List [here](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/simul_whisper/whisper/tokenizer.py)
- the `--backend` ? you can switch to `--backend faster-whisper` if `simulstreaming` does not work correctly or if you prefer to avoid the dual-license requirements.
- `--warmup-file`, if you have one
- `--host`, `--port`, `--ssl-certfile`, `--ssl-keyfile`, if you set up a server
- `--diarization`, if you want to use it.
The rest I don't recommend. But below are your options.
| Parameter | Description | Default |
|-----------|-------------|---------|
| `--model` | Whisper model size. | `small` |
| `--language` | Source language code or `auto` | `en` |
| `--task` | `transcribe` or `translate` | `transcribe` |
| `--backend` | Processing backend | `simulstreaming` |
| `--min-chunk-size` | Minimum audio chunk size (seconds) | `1.0` |
| `--model` | Whisper model size. List and recommandations [here](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/available_models.md) | `small` |
| `--language` | List [here](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/simul_whisper/whisper/tokenizer.py). If you use `auto`, the model attempts to detect the language automatically, but it tends to bias towards English. | `auto` |
| `--target-language` | If sets, activates translation using NLLB. Ex: `fr`. [118 languages available](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/translation/mapping_languages.py). If you want to translate to english, you should rather use `--task translate`, since Whisper can do it directly. | `None` |
| `--task` | Set to `translate` to translate *only* to english, using Whisper translation. | `transcribe` |
| `--diarization` | Enable speaker identification | `False` |
| `--backend` | Processing backend. You can switch to `faster-whisper` if `simulstreaming` does not work correctly | `simulstreaming` |
| `--no-vac` | Disable Voice Activity Controller | `False` |
| `--no-vad` | Disable Voice Activity Detection | `False` |
| `--warmup-file` | Audio file path for model warmup | `jfk.wav` |
@@ -170,16 +144,23 @@ The rest I don't recommend. But below are your options.
| `--port` | Server port | `8000` |
| `--ssl-certfile` | Path to the SSL certificate file (for HTTPS support) | `None` |
| `--ssl-keyfile` | Path to the SSL private key file (for HTTPS support) | `None` |
| `--pcm-input` | raw PCM (s16le) data is expected as input and FFmpeg will be bypassed. Frontend will use AudioWorklet instead of MediaRecorder | `False` |
| WhisperStreaming backend options | Description | Default |
| Translation options | Description | Default |
|-----------|-------------|---------|
| `--confidence-validation` | Use confidence scores for faster validation | `False` |
| `--buffer_trimming` | Buffer trimming strategy (`sentence` or `segment`) | `segment` |
| `--nllb-backend` | `transformers` or `ctranslate2` | `ctranslate2` |
| `--nllb-size` | `600M` or `1.3B` | `600M` |
| Diarization options | Description | Default |
|-----------|-------------|---------|
| `--diarization-backend` | `diart` or `sortformer` | `sortformer` |
| `--disable-punctuation-split` | Disable punctuation based splits. See #214 | `False` |
| `--segmentation-model` | Hugging Face model ID for Diart segmentation model. [Available models](https://github.com/juanmc2005/diart/tree/main?tab=readme-ov-file#pre-trained-models) | `pyannote/segmentation-3.0` |
| `--embedding-model` | Hugging Face model ID for Diart embedding model. [Available models](https://github.com/juanmc2005/diart/tree/main?tab=readme-ov-file#pre-trained-models) | `speechbrain/spkrec-ecapa-voxceleb` |
| SimulStreaming backend options | Description | Default |
|-----------|-------------|---------|
| `--disable-fast-encoder` | Disable Faster Whisper or MLX Whisper backends for the encoder (if installed). Inference can be slower but helpful when GPU memory is limited | `False` |
| `--frame-threshold` | AlignAtt frame threshold (lower = faster, higher = more accurate) | `25` |
| `--beams` | Number of beams for beam search (1 = greedy decoding) | `1` |
| `--decoder` | Force decoder type (`beam` or `greedy`) | `auto` |
@@ -191,14 +172,19 @@ The rest I don't recommend. But below are your options.
| `--static-init-prompt` | Static prompt that doesn't scroll | `None` |
| `--max-context-tokens` | Maximum context tokens | `None` |
| `--model-path` | Direct path to .pt model file. Download it if not found | `./base.pt` |
| `--preloaded-model-count` | Optional. Number of models to preload in memory to speed up loading (set up to the expected number of concurrent users) | `1` |
| `--preload-model-count` | Optional. Number of models to preload in memory to speed up loading (set up to the expected number of concurrent users) | `1` |
| Diarization options | Description | Default |
| WhisperStreaming backend options | Description | Default |
|-----------|-------------|---------|
| `--diarization` | Enable speaker identification | `False` |
| `--diarization-backend` | `diart` or `sortformer` | `sortformer` |
| `--segmentation-model` | Hugging Face model ID for Diart segmentation model. [Available models](https://github.com/juanmc2005/diart/tree/main?tab=readme-ov-file#pre-trained-models) | `pyannote/segmentation-3.0` |
| `--embedding-model` | Hugging Face model ID for Diart embedding model. [Available models](https://github.com/juanmc2005/diart/tree/main?tab=readme-ov-file#pre-trained-models) | `speechbrain/spkrec-ecapa-voxceleb` |
| `--confidence-validation` | Use confidence scores for faster validation | `False` |
| `--buffer_trimming` | Buffer trimming strategy (`sentence` or `segment`) | `segment` |
> For diarization using Diart, you need to accept user conditions [here](https://huggingface.co/pyannote/segmentation) for the `pyannote/segmentation` model, [here](https://huggingface.co/pyannote/segmentation-3.0) for the `pyannote/segmentation-3.0` model and [here](https://huggingface.co/pyannote/embedding) for the `pyannote/embedding` model. **Then**, login to HuggingFace: `huggingface-cli login`
### 🚀 Deployment Guide

258
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@@ -0,0 +1,258 @@
<h1 align="center">WhisperLiveKit</h1>
<p align="center">
<img src="https://raw.githubusercontent.com/QuentinFuxa/WhisperLiveKit/refs/heads/main/demo.png" alt="WhisperLiveKit Demo" width="730">
</p>
<p align="center"><b>話者識別機能付き、リアルタイム、完全ローカルな音声テキスト変換</b></p>
<p align="center">
<a href="https://pypi.org/project/whisperlivekit/"><img alt="PyPI Version" src="https://img.shields.io/pypi/v/whisperlivekit?color=g"></a>
<a href="https://pepy.tech/project/whisperlivekit"><img alt="PyPI Downloads" src="https://static.pepy.tech/personalized-badge/whisperlivekit?period=total&units=international_system&left_color=grey&right_color=brightgreen&left_text=installations"></a>
<a href="https://pypi.org/project/whisperlivekit/"><img alt="Python Versions" src="https://img.shields.io/badge/python-3.9--3.13-dark_green"></a>
<a href="https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/LICENSE"><img alt="License" src="https://img.shields.io/badge/License-MIT/Dual Licensed-dark_green"></a>
</p>
すぐに使えるバックエンド+サーバーとシンプルなフロントエンドで、リアルタイムの音声文字起こしをブラウザに直接提供します。✨
#### 主要な研究による技術:
- [SimulStreaming](https://github.com/ufal/SimulStreaming) (SOTA 2025) - AlignAttポリシーによる超低遅延文字起こし
- [WhisperStreaming](https://github.com/ufal/whisper_streaming) (SOTA 2023) - LocalAgreementポリシーによる低遅延文字起こし
- [Streaming Sortformer](https://arxiv.org/abs/2507.18446) (SOTA 2025) - 高度なリアルタイム話者ダイアライゼーション
- [Diart](https://github.com/juanmc2005/diart) (SOTA 2021) - リアルタイム話者ダイアライゼーション
- [Silero VAD](https://github.com/snakers4/silero-vad) (2024) - エンタープライズグレードの音声区間検出
> **なぜ各音声バッチで単純なWhisperモデルを実行しないのか** Whisperは完全な発話向けに設計されており、リアルタイムのチャンク向けではありません。小さなセグメントを処理するとコンテキストが失われ、単語が音節の途中で途切れ、質の悪い文字起こしになります。WhisperLiveKitは、インテリジェントなバッファリングとインクリメンタルな処理のために、最先端の同時音声研究を利用しています。
### アーキテクチャ
<img alt="Architecture" src="https://raw.githubusercontent.com/QuentinFuxa/WhisperLiveKit/refs/heads/main/architecture.png" />
*バックエンドは複数の同時ユーザーをサポートします。音声が検出されない場合、音声区間検出がオーバーヘッドを削減します。*
### インストールとクイックスタート
```bash
pip install whisperlivekit
```
> **FFmpegが必要です** WhisperLiveKitを使用する前にインストールする必要があります。
>
> | OS | インストール方法 |
> |-----------|-------------|
> | Ubuntu/Debian | `sudo apt install ffmpeg` |
> | MacOS | `brew install ffmpeg` |
> | Windows | https://ffmpeg.org/download.html から.exeをダウンロードし、PATHに追加 |
#### クイックスタート
1. **文字起こしサーバーを起動します:**
```bash
whisperlivekit-server --model base --language en
```
2. **ブラウザを開き** `http://localhost:8000` にアクセスします。話し始めると、あなたの言葉がリアルタイムで表示されます!
> - 利用可能なすべての言語のリストについては、[tokenizer.py](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/simul_whisper/whisper/tokenizer.py) を参照してください。
> - HTTPSの要件については、**パラメータ**セクションのSSL設定オプションを参照してください。
#### オプションの依存関係
| オプション | `pip install` |
|-----------|-------------|
| **Sortformerによる話者ダイアライゼーション** | `git+https://github.com/NVIDIA/NeMo.git@main#egg=nemo_toolkit[asr]` |
| Diartによる話者ダイアライゼーション | `diart` |
| オリジナルのWhisperバックエンド | `whisper` |
| タイムスタンプ改善バックエンド | `whisper-timestamped` |
| Apple Silicon最適化バックエンド | `mlx-whisper` |
| OpenAI APIバックエンド | `openai` |
それらの使用方法については、以下の**パラメータと設定**を参照してください。
### 使用例
**コマンドラインインターフェース**: 様々なオプションで文字起こしサーバーを起動します:
```bash
# デフォルト(small)より良いモデルを使用
whisperlivekit-server --model large-v3
# ダイアライゼーションと言語を指定した高度な設定
whisperlivekit-server --host 0.0.0.0 --port 8000 --model medium --diarization --language fr
```
**Python API連携**: 関数やクラスの使用方法のより完全な例については、[basic_server](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/basic_server.py) を確認してください。
```python
from whisperlivekit import TranscriptionEngine, AudioProcessor, parse_args
from fastapi import FastAPI, WebSocket, WebSocketDisconnect
from fastapi.responses import HTMLResponse
from contextlib import asynccontextmanager
import asyncio
transcription_engine = None
@asynccontextmanager
async def lifespan(app: FastAPI):
global transcription_engine
transcription_engine = TranscriptionEngine(model="medium", diarization=True, lan="en")
yield
app = FastAPI(lifespan=lifespan)
async def handle_websocket_results(websocket: WebSocket, results_generator):
async for response in results_generator:
await websocket.send_json(response)
await websocket.send_json({"type": "ready_to_stop"})
@app.websocket("/asr")
async def websocket_endpoint(websocket: WebSocket):
global transcription_engine
# 接続ごとに新しいAudioProcessorを作成し、共有エンジンを渡す
audio_processor = AudioProcessor(transcription_engine=transcription_engine)
results_generator = await audio_processor.create_tasks()
results_task = asyncio.create_task(handle_websocket_results(websocket, results_generator))
await websocket.accept()
while True:
message = await websocket.receive_bytes()
await audio_processor.process_audio(message)
```
**フロントエンド実装**: パッケージにはHTML/JavaScript実装が[ここ](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/web/live_transcription.html)に含まれています。`from whisperlivekit import get_web_interface_html` & `page = get_web_interface_html()` を使ってインポートすることもできます。
## パラメータと設定
重要なパラメータのリストを変更できます。しかし、何を*変更すべき*でしょうか?
- `--model` サイズ。リストと推奨事項は[こちら](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/available_models.md)
- `--language`。リストは[こちら](https://github.com/QuentinFuxa/WhisperLiveKit/blob/main/whisperlivekit/simul_whisper/whisper/tokenizer.py)。`auto`を使用すると、モデルは自動的に言語を検出しようとしますが、英語に偏る傾向があります。
- `--backend` `simulstreaming`が正しく動作しない場合や、デュアルライセンス要件を避けたい場合は`--backend faster-whisper`に切り替えることができます。
- `--warmup-file`、もしあれば
- `--host`, `--port`, `--ssl-certfile`, `--ssl-keyfile`、サーバーをセットアップする場合
- `--diarization`、使用したい場合。
残りは推奨しません。しかし、以下があなたのオプションです。
| パラメータ | 説明 | デフォルト |
|-----------|-------------|---------|
| `--model` | Whisperモデルのサイズ。 | `small` |
| `--language` | ソース言語コードまたは`auto` | `auto` |
| `--task` | `transcribe`または`translate` | `transcribe` |
| `--backend` | 処理バックエンド | `simulstreaming` |
| `--min-chunk-size` | 最小音声チャンクサイズ(秒) | `1.0` |
| `--no-vac` | 音声アクティビティコントローラーを無効化 | `False` |
| `--no-vad` | 音声区間検出を無効化 | `False` |
| `--warmup-file` | モデルのウォームアップ用音声ファイルパス | `jfk.wav` |
| `--host` | サーバーホストアドレス | `localhost` |
| `--port` | サーバーポート | `8000` |
| `--ssl-certfile` | SSL証明書ファイルへのパスHTTPSサポート用 | `None` |
| `--ssl-keyfile` | SSL秘密鍵ファイルへのパスHTTPSサポート用 | `None` |
| WhisperStreamingバックエンドオプション | 説明 | デフォルト |
|-----------|-------------|---------|
| `--confidence-validation` | 高速な検証のために信頼スコアを使用 | `False` |
| `--buffer_trimming` | バッファトリミング戦略(`sentence`または`segment` | `segment` |
| SimulStreamingバックエンドオプション | 説明 | デフォルト |
|-----------|-------------|---------|
| `--frame-threshold` | AlignAttフレームしきい値低いほど速く、高いほど正確 | `25` |
| `--beams` | ビームサーチのビーム数1 = 貪欲デコーディング) | `1` |
| `--decoder` | デコーダタイプを強制(`beam`または`greedy` | `auto` |
| `--audio-max-len` | 最大音声バッファ長(秒) | `30.0` |
| `--audio-min-len` | 処理する最小音声長(秒) | `0.0` |
| `--cif-ckpt-path` | 単語境界検出用CIFモデルへのパス | `None` |
| `--never-fire` | 未完了の単語を決して切り捨てない | `False` |
| `--init-prompt` | モデルの初期プロンプト | `None` |
| `--static-init-prompt` | スクロールしない静的プロンプト | `None` |
| `--max-context-tokens` | 最大コンテキストトークン数 | `None` |
| `--model-path` | .ptモデルファイルへの直接パス。見つからない場合はダウンロード | `./base.pt` |
| `--preloaded-model-count` | オプション。メモリにプリロードするモデルの数(予想される同時ユーザー数まで設定) | `1` |
| ダイアライゼーションオプション | 説明 | デフォルト |
|-----------|-------------|---------|
| `--diarization` | 話者識別を有効化 | `False` |
| `--diarization-backend` | `diart`または`sortformer` | `sortformer` |
| `--segmentation-model` | DiartセグメンテーションモデルのHugging FaceモデルID。[利用可能なモデル](https://github.com/juanmc2005/diart/tree/main?tab=readme-ov-file#pre-trained-models) | `pyannote/segmentation-3.0` |
| `--embedding-model` | Diart埋め込みモデルのHugging FaceモデルID。[利用可能なモデル](https://github.com/juanmc2005/diart/tree/main?tab=readme-ov-file#pre-trained-models) | `speechbrain/spkrec-ecapa-voxceleb` |
> Diartを使用したダイアライゼーションには、pyannote.audioモデルへのアクセスが必要です
> 1. `pyannote/segmentation`モデルの[ユーザー条件に同意](https://huggingface.co/pyannote/segmentation)
> 2. `pyannote/segmentation-3.0`モデルの[ユーザー条件に同意](https://huggingface.co/pyannote/segmentation-3.0)
> 3. `pyannote/embedding`モデルの[ユーザー条件に同意](https://huggingface.co/pyannote/embedding)
>4. HuggingFaceでログイン: `huggingface-cli login`
### 🚀 デプロイガイド
WhisperLiveKitを本番環境にデプロイするには
1. **サーバーセットアップ**: 本番用ASGIサーバーをインストールし、複数のワーカーで起動します
```bash
pip install uvicorn gunicorn
gunicorn -k uvicorn.workers.UvicornWorker -w 4 your_app:app
```
2. **フロントエンド**: カスタマイズした`html`のバージョンをホストし、WebSocket接続が正しくポイントするようにします
3. **Nginx設定** (本番環境で推奨):
```nginx
server {
listen 80;
server_name your-domain.com;
location / {
proxy_pass http://localhost:8000;
proxy_set_header Upgrade $http_upgrade;
proxy_set_header Connection "upgrade";
proxy_set_header Host $host;
}}
```
4. **HTTPSサポート**: 安全なデプロイメントのために、WebSocket URLで "ws://" の代わりに "wss://" を使用します
## 🐋 Docker
GPUまたはCPUサポート付きでDockerを使用してアプリケーションを簡単にデプロイします。
### 前提条件
- Dockerがシステムにインストールされていること
- GPUサポートの場合: NVIDIA Dockerランタイムがインストールされていること
### クイックスタート
**GPUアクセラレーション付き (推奨):**
```bash
docker build -t wlk .
docker run --gpus all -p 8000:8000 --name wlk wlk
```
**CPUのみ:**
```bash
docker build -f Dockerfile.cpu -t wlk .
docker run -p 8000:8000 --name wlk wlk
```
### 高度な使用法
**カスタム設定:**
```bash
# カスタムモデルと言語の例
docker run --gpus all -p 8000:8000 --name wlk wlk --model large-v3 --language fr
```
### メモリ要件
- **大規模モデル**: Dockerランタイムに十分なメモリが割り当てられていることを確認してください
#### カスタマイズ
- `--build-arg` オプション:
- `EXTRAS="whisper-timestamped"` - イメージのインストールにエクストラを追加します(スペースなし)。必要なコンテナオプションを設定することを忘れないでください!
- `HF_PRECACHE_DIR="./.cache/"` - 初回起動を高速化するためにモデルキャッシュをプリロードします
- `HF_TKN_FILE="./token"` - ゲート付きモデルをダウンロードするためにHugging Face Hubアクセストークンを追加します
## 🔮 ユースケース
会議の文字起こしのためにリアルタイムで議論をキャプチャする、聴覚障害のあるユーザーがアクセシビリティツールを通じて会話を追うのを助ける、コンテンツ作成のためにポッドキャストやビデオを自動的に文字起こしする、カスタマーサービスのために話者識別付きでサポートコールを文字起こしする...

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# Available model sizes:
# Available Whisper model sizes:
- tiny.en (english only)
- tiny
@@ -58,6 +58,7 @@
- `small`: ~2GB VRAM
- `medium`: ~5GB VRAM
- `large`: ~10GB VRAM
- `largev3turbo`: ~6GB VRAM
**Audio Quality Impact**:
- Clean, clear audio: smaller models may suffice
@@ -69,4 +70,40 @@
2. Limited resources or need speed? → `small` or smaller
3. Good hardware and want best quality? → `large-v3`
4. Need fast, high-quality transcription without translation? → `large-v3-turbo`
5. Need translation capabilities? → `large-v2` or `large-v3` (avoid turbo)
5. Need translation capabilities? → `large-v2` or `large-v3` (avoid turbo)
_______________________
# Translation Models and Backend
**Language Support**: ~200 languages
## Distilled Model Sizes Available
| Model | Size | Parameters | VRAM (FP16) | VRAM (INT8) | Quality |
|-------|------|------------|-------------|-------------|---------|
| 600M | 2.46 GB | 600M | ~1.5GB | ~800MB | Good, understandable |
| 1.3B | 5.48 GB | 1.3B | ~3GB | ~1.5GB | Better accuracy, context |
**Quality Impact**: 1.3B has ~15-25% better BLEU scores vs 600M across language pairs.
## Backend Performance
| Backend | Speed vs Base | Memory Usage | Quality Loss |
|---------|---------------|--------------|--------------|
| CTranslate2 | 6-10x faster | 40-60% less | ~5% BLEU drop |
| Transformers | Baseline | High | None |
| Transformers + MPS (on Apple Silicon) | 2x faster | Medium | None |
**Metrics**:
- CTranslate2: 50-100+ tokens/sec
- Transformers: 10-30 tokens/sec
- Apple Silicon with MPS: Up to 2x faster than CTranslate2
## Quick Decision Matrix
**Choose 600M**: Limited resources, close to 0 lag
**Choose 1.3B**: Quality matters
**Choose Transformers**: On Apple Silicon

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## WhisperLiveKit Chrome Extension v0.1.0
Capture the audio of your current tab, transcribe or translate it using WhisperliveKit. **Still unstable**
<img src="https://raw.githubusercontent.com/QuentinFuxa/WhisperLiveKit/refs/heads/main/chrome-extension/demo-extension.png" alt="WhisperLiveKit Demo" width="730">
## Running this extension
1. Clone this repository.
2. Load this directory in Chrome as an unpacked extension.
## Devs:
- Impossible to capture audio from tabs if extension is a pannel, unfortunately:
- https://issues.chromium.org/issues/40926394
- https://groups.google.com/a/chromium.org/g/chromium-extensions/c/DET2SXCFnDg
- https://issues.chromium.org/issues/40916430
- To capture microphone in an extension, there are tricks: https://github.com/justinmann/sidepanel-audio-issue , https://medium.com/@lynchee.owo/how-to-enable-microphone-access-in-chrome-extensions-by-code-924295170080 (comments)

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chrome.runtime.onInstalled.addListener((details) => {
if (details.reason.search(/install/g) === -1) {
return
}
chrome.tabs.create({
url: chrome.runtime.getURL("welcome.html"),
active: true
})
})

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/* Theme, WebSocket, recording, rendering logic extracted from inline script and adapted for segmented theme control and WS caption */
let isRecording = false;
let websocket = null;
let recorder = null;
let chunkDuration = 100;
let websocketUrl = "ws://localhost:8000/asr";
let userClosing = false;
let wakeLock = null;
let startTime = null;
let timerInterval = null;
let audioContext = null;
let analyser = null;
let microphone = null;
let waveCanvas = document.getElementById("waveCanvas");
let waveCtx = waveCanvas.getContext("2d");
let animationFrame = null;
let waitingForStop = false;
let lastReceivedData = null;
let lastSignature = null;
let availableMicrophones = [];
let selectedMicrophoneId = null;
waveCanvas.width = 60 * (window.devicePixelRatio || 1);
waveCanvas.height = 30 * (window.devicePixelRatio || 1);
waveCtx.scale(window.devicePixelRatio || 1, window.devicePixelRatio || 1);
const statusText = document.getElementById("status");
const recordButton = document.getElementById("recordButton");
const chunkSelector = document.getElementById("chunkSelector");
const websocketInput = document.getElementById("websocketInput");
const websocketDefaultSpan = document.getElementById("wsDefaultUrl");
const linesTranscriptDiv = document.getElementById("linesTranscript");
const timerElement = document.querySelector(".timer");
const themeRadios = document.querySelectorAll('input[name="theme"]');
const microphoneSelect = document.getElementById("microphoneSelect");
const settingsToggle = document.getElementById("settingsToggle");
const settingsDiv = document.querySelector(".settings");
chrome.runtime.onInstalled.addListener((details) => {
if (details.reason.search(/install/g) === -1) {
return
}
chrome.tabs.create({
url: chrome.runtime.getURL("welcome.html"),
active: true
})
})
function getWaveStroke() {
const styles = getComputedStyle(document.documentElement);
const v = styles.getPropertyValue("--wave-stroke").trim();
return v || "#000";
}
let waveStroke = getWaveStroke();
function updateWaveStroke() {
waveStroke = getWaveStroke();
}
function applyTheme(pref) {
if (pref === "light") {
document.documentElement.setAttribute("data-theme", "light");
} else if (pref === "dark") {
document.documentElement.setAttribute("data-theme", "dark");
} else {
document.documentElement.removeAttribute("data-theme");
}
updateWaveStroke();
}
// Persisted theme preference
const savedThemePref = localStorage.getItem("themePreference") || "system";
applyTheme(savedThemePref);
if (themeRadios.length) {
themeRadios.forEach((r) => {
r.checked = r.value === savedThemePref;
r.addEventListener("change", () => {
if (r.checked) {
localStorage.setItem("themePreference", r.value);
applyTheme(r.value);
}
});
});
}
// React to OS theme changes when in "system" mode
const darkMq = window.matchMedia && window.matchMedia("(prefers-color-scheme: dark)");
const handleOsThemeChange = () => {
const pref = localStorage.getItem("themePreference") || "system";
if (pref === "system") updateWaveStroke();
};
if (darkMq && darkMq.addEventListener) {
darkMq.addEventListener("change", handleOsThemeChange);
} else if (darkMq && darkMq.addListener) {
// deprecated, but included for Safari compatibility
darkMq.addListener(handleOsThemeChange);
}
async function enumerateMicrophones() {
try {
const micPermission = await navigator.permissions.query({
name: "microphone",
});
const stream = await navigator.mediaDevices.getUserMedia({ audio: true });
stream.getTracks().forEach(track => track.stop());
const devices = await navigator.mediaDevices.enumerateDevices();
availableMicrophones = devices.filter(device => device.kind === 'audioinput');
populateMicrophoneSelect();
console.log(`Found ${availableMicrophones.length} microphone(s)`);
} catch (error) {
console.error('Error enumerating microphones:', error);
statusText.textContent = "Error accessing microphones. Please grant permission.";
}
}
function populateMicrophoneSelect() {
if (!microphoneSelect) return;
microphoneSelect.innerHTML = '<option value="">Default Microphone</option>';
availableMicrophones.forEach((device, index) => {
const option = document.createElement('option');
option.value = device.deviceId;
option.textContent = device.label || `Microphone ${index + 1}`;
microphoneSelect.appendChild(option);
});
const savedMicId = localStorage.getItem('selectedMicrophone');
if (savedMicId && availableMicrophones.some(mic => mic.deviceId === savedMicId)) {
microphoneSelect.value = savedMicId;
selectedMicrophoneId = savedMicId;
}
}
function handleMicrophoneChange() {
selectedMicrophoneId = microphoneSelect.value || null;
localStorage.setItem('selectedMicrophone', selectedMicrophoneId || '');
const selectedDevice = availableMicrophones.find(mic => mic.deviceId === selectedMicrophoneId);
const deviceName = selectedDevice ? selectedDevice.label : 'Default Microphone';
console.log(`Selected microphone: ${deviceName}`);
statusText.textContent = `Microphone changed to: ${deviceName}`;
if (isRecording) {
statusText.textContent = "Switching microphone... Please wait.";
stopRecording().then(() => {
setTimeout(() => {
toggleRecording();
}, 1000);
});
}
}
// Helpers
function fmt1(x) {
const n = Number(x);
return Number.isFinite(n) ? n.toFixed(1) : x;
}
// Default WebSocket URL computation
const host = window.location.hostname || "localhost";
const port = window.location.port;
const protocol = window.location.protocol === "https:" ? "wss" : "ws";
const defaultWebSocketUrl = websocketUrl;
// Populate default caption and input
if (websocketDefaultSpan) websocketDefaultSpan.textContent = defaultWebSocketUrl;
websocketInput.value = defaultWebSocketUrl;
websocketUrl = defaultWebSocketUrl;
// Optional chunk selector (guard for presence)
if (chunkSelector) {
chunkSelector.addEventListener("change", () => {
chunkDuration = parseInt(chunkSelector.value);
});
}
// WebSocket input change handling
websocketInput.addEventListener("change", () => {
const urlValue = websocketInput.value.trim();
if (!urlValue.startsWith("ws://") && !urlValue.startsWith("wss://")) {
statusText.textContent = "Invalid WebSocket URL (must start with ws:// or wss://)";
return;
}
websocketUrl = urlValue;
statusText.textContent = "WebSocket URL updated. Ready to connect.";
});
function setupWebSocket() {
return new Promise((resolve, reject) => {
try {
websocket = new WebSocket(websocketUrl);
} catch (error) {
statusText.textContent = "Invalid WebSocket URL. Please check and try again.";
reject(error);
return;
}
websocket.onopen = () => {
statusText.textContent = "Connected to server.";
resolve();
};
websocket.onclose = () => {
if (userClosing) {
if (waitingForStop) {
statusText.textContent = "Processing finalized or connection closed.";
if (lastReceivedData) {
renderLinesWithBuffer(
lastReceivedData.lines || [],
lastReceivedData.buffer_diarization || "",
lastReceivedData.buffer_transcription || "",
0,
0,
true
);
}
}
} else {
statusText.textContent = "Disconnected from the WebSocket server. (Check logs if model is loading.)";
if (isRecording) {
stopRecording();
}
}
isRecording = false;
waitingForStop = false;
userClosing = false;
lastReceivedData = null;
websocket = null;
updateUI();
};
websocket.onerror = () => {
statusText.textContent = "Error connecting to WebSocket.";
reject(new Error("Error connecting to WebSocket"));
};
websocket.onmessage = (event) => {
const data = JSON.parse(event.data);
if (data.type === "ready_to_stop") {
console.log("Ready to stop received, finalizing display and closing WebSocket.");
waitingForStop = false;
if (lastReceivedData) {
renderLinesWithBuffer(
lastReceivedData.lines || [],
lastReceivedData.buffer_diarization || "",
lastReceivedData.buffer_transcription || "",
0,
0,
true
);
}
statusText.textContent = "Finished processing audio! Ready to record again.";
recordButton.disabled = false;
if (websocket) {
websocket.close();
}
return;
}
lastReceivedData = data;
const {
lines = [],
buffer_transcription = "",
buffer_diarization = "",
remaining_time_transcription = 0,
remaining_time_diarization = 0,
status = "active_transcription",
} = data;
renderLinesWithBuffer(
lines,
buffer_diarization,
buffer_transcription,
remaining_time_diarization,
remaining_time_transcription,
false,
status
);
};
});
}
function renderLinesWithBuffer(
lines,
buffer_diarization,
buffer_transcription,
remaining_time_diarization,
remaining_time_transcription,
isFinalizing = false,
current_status = "active_transcription"
) {
if (current_status === "no_audio_detected") {
linesTranscriptDiv.innerHTML =
"<p style='text-align: center; color: var(--muted); margin-top: 20px;'><em>No audio detected...</em></p>";
return;
}
const showLoading = !isFinalizing && (lines || []).some((it) => it.speaker == 0);
const showTransLag = !isFinalizing && remaining_time_transcription > 0;
const showDiaLag = !isFinalizing && !!buffer_diarization && remaining_time_diarization > 0;
const signature = JSON.stringify({
lines: (lines || []).map((it) => ({ speaker: it.speaker, text: it.text, start: it.start, end: it.end })),
buffer_transcription: buffer_transcription || "",
buffer_diarization: buffer_diarization || "",
status: current_status,
showLoading,
showTransLag,
showDiaLag,
isFinalizing: !!isFinalizing,
});
if (lastSignature === signature) {
const t = document.querySelector(".lag-transcription-value");
if (t) t.textContent = fmt1(remaining_time_transcription);
const d = document.querySelector(".lag-diarization-value");
if (d) d.textContent = fmt1(remaining_time_diarization);
const ld = document.querySelector(".loading-diarization-value");
if (ld) ld.textContent = fmt1(remaining_time_diarization);
return;
}
lastSignature = signature;
const linesHtml = (lines || [])
.map((item, idx) => {
let timeInfo = "";
if (item.start !== undefined && item.end !== undefined) {
timeInfo = ` ${item.start} - ${item.end}`;
}
let speakerLabel = "";
if (item.speaker === -2) {
speakerLabel = `<span class="silence">Silence<span id='timeInfo'>${timeInfo}</span></span>`;
} else if (item.speaker == 0 && !isFinalizing) {
speakerLabel = `<span class='loading'><span class="spinner"></span><span id='timeInfo'><span class="loading-diarization-value">${fmt1(
remaining_time_diarization
)}</span> second(s) of audio are undergoing diarization</span></span>`;
} else if (item.speaker !== 0) {
speakerLabel = `<span id="speaker">Speaker ${item.speaker}<span id='timeInfo'>${timeInfo}</span></span>`;
}
let currentLineText = item.text || "";
if (idx === lines.length - 1) {
if (!isFinalizing && item.speaker !== -2) {
if (remaining_time_transcription > 0) {
speakerLabel += `<span class="label_transcription"><span class="spinner"></span>Lag <span id='timeInfo'><span class="lag-transcription-value">${fmt1(
remaining_time_transcription
)}</span>s</span></span>`;
}
if (buffer_diarization && remaining_time_diarization > 0) {
speakerLabel += `<span class="label_diarization"><span class="spinner"></span>Lag<span id='timeInfo'><span class="lag-diarization-value">${fmt1(
remaining_time_diarization
)}</span>s</span></span>`;
}
}
if (buffer_diarization) {
if (isFinalizing) {
currentLineText +=
(currentLineText.length > 0 && buffer_diarization.trim().length > 0 ? " " : "") + buffer_diarization.trim();
} else {
currentLineText += `<span class="buffer_diarization">${buffer_diarization}</span>`;
}
}
if (buffer_transcription) {
if (isFinalizing) {
currentLineText +=
(currentLineText.length > 0 && buffer_transcription.trim().length > 0 ? " " : "") +
buffer_transcription.trim();
} else {
currentLineText += `<span class="buffer_transcription">${buffer_transcription}</span>`;
}
}
}
return currentLineText.trim().length > 0 || speakerLabel.length > 0
? `<p>${speakerLabel}<br/><div class='textcontent'>${currentLineText}</div></p>`
: `<p>${speakerLabel}<br/></p>`;
})
.join("");
linesTranscriptDiv.innerHTML = linesHtml;
window.scrollTo({ top: document.body.scrollHeight, behavior: "smooth" });
}
function updateTimer() {
if (!startTime) return;
const elapsed = Math.floor((Date.now() - startTime) / 1000);
const minutes = Math.floor(elapsed / 60).toString().padStart(2, "0");
const seconds = (elapsed % 60).toString().padStart(2, "0");
timerElement.textContent = `${minutes}:${seconds}`;
}
function drawWaveform() {
if (!analyser) return;
const bufferLength = analyser.frequencyBinCount;
const dataArray = new Uint8Array(bufferLength);
analyser.getByteTimeDomainData(dataArray);
waveCtx.clearRect(
0,
0,
waveCanvas.width / (window.devicePixelRatio || 1),
waveCanvas.height / (window.devicePixelRatio || 1)
);
waveCtx.lineWidth = 1;
waveCtx.strokeStyle = waveStroke;
waveCtx.beginPath();
const sliceWidth = (waveCanvas.width / (window.devicePixelRatio || 1)) / bufferLength;
let x = 0;
for (let i = 0; i < bufferLength; i++) {
const v = dataArray[i] / 128.0;
const y = (v * (waveCanvas.height / (window.devicePixelRatio || 1))) / 2;
if (i === 0) {
waveCtx.moveTo(x, y);
} else {
waveCtx.lineTo(x, y);
}
x += sliceWidth;
}
waveCtx.lineTo(
waveCanvas.width / (window.devicePixelRatio || 1),
(waveCanvas.height / (window.devicePixelRatio || 1)) / 2
);
waveCtx.stroke();
animationFrame = requestAnimationFrame(drawWaveform);
}
async function startRecording() {
try {
try {
wakeLock = await navigator.wakeLock.request("screen");
} catch (err) {
console.log("Error acquiring wake lock.");
}
let stream;
try {
// Try tab capture first
stream = await new Promise((resolve, reject) => {
chrome.tabCapture.capture({audio: true}, (s) => {
if (s) {
resolve(s);
} else {
reject(new Error('Tab capture failed or not available'));
}
});
});
statusText.textContent = "Using tab audio capture.";
} catch (tabError) {
console.log('Tab capture not available, falling back to microphone', tabError);
// Fallback to microphone
const audioConstraints = selectedMicrophoneId
? { audio: { deviceId: { exact: selectedMicrophoneId } } }
: { audio: true };
stream = await navigator.mediaDevices.getUserMedia(audioConstraints);
statusText.textContent = "Using microphone audio.";
}
audioContext = new (window.AudioContext || window.webkitAudioContext)();
analyser = audioContext.createAnalyser();
analyser.fftSize = 256;
microphone = audioContext.createMediaStreamSource(stream);
microphone.connect(analyser);
recorder = new MediaRecorder(stream, { mimeType: "audio/webm" });
recorder.ondataavailable = (e) => {
if (websocket && websocket.readyState === WebSocket.OPEN) {
websocket.send(e.data);
}
};
recorder.start(chunkDuration);
startTime = Date.now();
timerInterval = setInterval(updateTimer, 1000);
drawWaveform();
isRecording = true;
updateUI();
} catch (err) {
if (window.location.hostname === "0.0.0.0") {
statusText.textContent =
"Error accessing audio input. Browsers may block audio access on 0.0.0.0. Try using localhost:8000 instead.";
} else {
statusText.textContent = "Error accessing audio input. Please check permissions.";
}
console.error(err);
}
}
async function stopRecording() {
if (wakeLock) {
try {
await wakeLock.release();
} catch (e) {
// ignore
}
wakeLock = null;
}
userClosing = true;
waitingForStop = true;
if (websocket && websocket.readyState === WebSocket.OPEN) {
const emptyBlob = new Blob([], { type: "audio/webm" });
websocket.send(emptyBlob);
statusText.textContent = "Recording stopped. Processing final audio...";
}
if (recorder) {
recorder.stop();
recorder = null;
}
if (microphone) {
microphone.disconnect();
microphone = null;
}
if (analyser) {
analyser = null;
}
if (audioContext && audioContext.state !== "closed") {
try {
await audioContext.close();
} catch (e) {
console.warn("Could not close audio context:", e);
}
audioContext = null;
}
if (animationFrame) {
cancelAnimationFrame(animationFrame);
animationFrame = null;
}
if (timerInterval) {
clearInterval(timerInterval);
timerInterval = null;
}
timerElement.textContent = "00:00";
startTime = null;
isRecording = false;
updateUI();
}
async function toggleRecording() {
if (!isRecording) {
if (waitingForStop) {
console.log("Waiting for stop, early return");
return;
}
console.log("Connecting to WebSocket");
try {
if (websocket && websocket.readyState === WebSocket.OPEN) {
await startRecording();
} else {
await setupWebSocket();
await startRecording();
}
} catch (err) {
statusText.textContent = "Could not connect to WebSocket or access mic. Aborted.";
console.error(err);
}
} else {
console.log("Stopping recording");
stopRecording();
}
}
function updateUI() {
recordButton.classList.toggle("recording", isRecording);
recordButton.disabled = waitingForStop;
if (waitingForStop) {
if (statusText.textContent !== "Recording stopped. Processing final audio...") {
statusText.textContent = "Please wait for processing to complete...";
}
} else if (isRecording) {
statusText.textContent = "Recording...";
} else {
if (
statusText.textContent !== "Finished processing audio! Ready to record again." &&
statusText.textContent !== "Processing finalized or connection closed."
) {
statusText.textContent = "Click to start transcription";
}
}
if (!waitingForStop) {
recordButton.disabled = false;
}
}
recordButton.addEventListener("click", toggleRecording);
if (microphoneSelect) {
microphoneSelect.addEventListener("change", handleMicrophoneChange);
}
// Settings toggle functionality
settingsToggle.addEventListener("click", () => {
settingsDiv.classList.toggle("visible");
settingsToggle.classList.toggle("active");
});
document.addEventListener('DOMContentLoaded', async () => {
try {
await enumerateMicrophones();
} catch (error) {
console.log("Could not enumerate microphones on load:", error);
}
});
navigator.mediaDevices.addEventListener('devicechange', async () => {
console.log('Device change detected, re-enumerating microphones');
try {
await enumerateMicrophones();
} catch (error) {
console.log("Error re-enumerating microphones:", error);
}
});
async function run() {
const micPermission = await navigator.permissions.query({
name: "microphone",
});
document.getElementById(
"audioPermission"
).innerText = `MICROPHONE: ${micPermission.state}`;
if (micPermission.state !== "granted") {
chrome.tabs.create({ url: "welcome.html" });
}
const intervalId = setInterval(async () => {
const micPermission = await navigator.permissions.query({
name: "microphone",
});
if (micPermission.state === "granted") {
document.getElementById(
"audioPermission"
).innerText = `MICROPHONE: ${micPermission.state}`;
clearInterval(intervalId);
}
}, 100);
}
void run();

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{
"manifest_version": 3,
"name": "WhisperLiveKit Tab Capture",
"version": "1.0",
"description": "Capture and transcribe audio from browser tabs using WhisperLiveKit.",
"background": {
"service_worker": "background.js"
},
"icons": {
"16": "icons/icon16.png",
"32": "icons/icon32.png",
"48": "icons/icon48.png",
"128": "icons/icon128.png"
},
"action": {
"default_title": "WhisperLiveKit Tab Capture",
"default_popup": "popup.html"
},
"permissions": [
"scripting",
"tabCapture",
"offscreen",
"activeTab",
"storage"
],
"web_accessible_resources": [
{
"resources": [
"requestPermissions.html",
"requestPermissions.js"
],
"matches": [
"<all_urls>"
]
}
]
}

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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8" />
<meta name="viewport" content="width=device-width, initial-scale=1.0" />
<title>WhisperLiveKit</title>
<link rel="stylesheet" href="/web/live_transcription.css" />
</head>
<body>
<div class="settings-container">
<button id="recordButton">
<div class="shape-container">
<div class="shape"></div>
</div>
<div class="recording-info">
<div class="wave-container">
<canvas id="waveCanvas"></canvas>
</div>
<div class="timer">00:00</div>
</div>
</button>
<button id="settingsToggle" class="settings-toggle" title="Show/hide settings">
<img src="/web/src/settings.svg" alt="Settings" />
</button>
<div class="settings">
<div class="field">
<label for="websocketInput">Websocket URL</label>
<input id="websocketInput" type="text" placeholder="ws://host:port/asr" />
</div>
<div class="field">
<label id="microphoneSelectLabel" for="microphoneSelect">Select Microphone</label>
<select id="microphoneSelect">
<option value="">Default Microphone</option>
</select>
<div id="audioPermission"></div>
</div>
<div class="theme-selector-container">
<div class="segmented" role="radiogroup" aria-label="Theme selector">
<input type="radio" id="theme-system" name="theme" value="system" />
<label for="theme-system" title="System">
<img src="/web/src/system_mode.svg" alt="" />
<!-- <span>System</span> -->
</label>
<input type="radio" id="theme-light" name="theme" value="light" />
<label for="theme-light" title="Light">
<img src="/web/src/light_mode.svg" alt="" />
<!-- <span>Light</span> -->
</label>
<input type="radio" id="theme-dark" name="theme" value="dark" />
<label for="theme-dark" title="Dark">
<img src="/web/src/dark_mode.svg" alt="" />
<!-- <span>Dark</span> -->
</label>
</div>
</div>
</div>
</div>
<p id="status"></p>
<div id="linesTranscript"></div>
<script src="live_transcription.js"></script>
</body>
</html>

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<!DOCTYPE html>
<html>
<head>
<title>Request Permissions</title>
<script src="requestPermissions.js"></script>
</head>
<body>
This page exists to workaround an issue with Chrome that blocks permission
requests from chrome extensions
<button id="requestMicrophone">Request Microphone</button>
</body>
</html>

17
chrome-extension/requestPermissions.js Normal file
View File

@@ -0,0 +1,17 @@
/**
* Requests user permission for microphone access.
* @returns {Promise<void>} A Promise that resolves when permission is granted or rejects with an error.
*/
async function getUserPermission() {
console.log("Getting user permission for microphone access...");
await navigator.mediaDevices.getUserMedia({ audio: true });
const micPermission = await navigator.permissions.query({
name: "microphone",
});
if (micPermission.state == "granted") {
window.close();
}
}
// Call the function to request microphone permission
getUserPermission();

29
chrome-extension/sidepanel.js Normal file
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@@ -0,0 +1,29 @@
console.log("sidepanel.js");
async function run() {
const micPermission = await navigator.permissions.query({
name: "microphone",
});
document.getElementById(
"audioPermission"
).innerText = `MICROPHONE: ${micPermission.state}`;
if (micPermission.state !== "granted") {
chrome.tabs.create({ url: "requestPermissions.html" });
}
const intervalId = setInterval(async () => {
const micPermission = await navigator.permissions.query({
name: "microphone",
});
if (micPermission.state === "granted") {
document.getElementById(
"audioPermission"
).innerText = `MICROPHONE: ${micPermission.state}`;
clearInterval(intervalId);
}
}, 100);
}
void run();

539
chrome-extension/web/live_transcription.css Normal file
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@@ -0,0 +1,539 @@
:root {
--bg: #ffffff;
--text: #111111;
--muted: #666666;
--border: #e5e5e5;
--chip-bg: rgba(0, 0, 0, 0.04);
--chip-text: #000000;
--spinner-border: #8d8d8d5c;
--spinner-top: #b0b0b0;
--silence-bg: #f3f3f3;
--loading-bg: rgba(255, 77, 77, 0.06);
--button-bg: #ffffff;
--button-border: #e9e9e9;
--wave-stroke: #000000;
--label-dia-text: #868686;
--label-trans-text: #111111;
}
@media (prefers-color-scheme: dark) {
:root:not([data-theme="light"]) {
--bg: #0b0b0b;
--text: #e6e6e6;
--muted: #9aa0a6;
--border: #333333;
--chip-bg: rgba(255, 255, 255, 0.08);
--chip-text: #e6e6e6;
--spinner-border: #555555;
--spinner-top: #dddddd;
--silence-bg: #1a1a1a;
--loading-bg: rgba(255, 77, 77, 0.12);
--button-bg: #111111;
--button-border: #333333;
--wave-stroke: #e6e6e6;
--label-dia-text: #b3b3b3;
--label-trans-text: #ffffff;
}
}
:root[data-theme="dark"] {
--bg: #0b0b0b;
--text: #e6e6e6;
--muted: #9aa0a6;
--border: #333333;
--chip-bg: rgba(255, 255, 255, 0.08);
--chip-text: #e6e6e6;
--spinner-border: #555555;
--spinner-top: #dddddd;
--silence-bg: #1a1a1a;
--loading-bg: rgba(255, 77, 77, 0.12);
--button-bg: #111111;
--button-border: #333333;
--wave-stroke: #e6e6e6;
--label-dia-text: #b3b3b3;
--label-trans-text: #ffffff;
}
:root[data-theme="light"] {
--bg: #ffffff;
--text: #111111;
--muted: #666666;
--border: #e5e5e5;
--chip-bg: rgba(0, 0, 0, 0.04);
--chip-text: #000000;
--spinner-border: #8d8d8d5c;
--spinner-top: #b0b0b0;
--silence-bg: #f3f3f3;
--loading-bg: rgba(255, 77, 77, 0.06);
--button-bg: #ffffff;
--button-border: #e9e9e9;
--wave-stroke: #000000;
--label-dia-text: #868686;
--label-trans-text: #111111;
}
body {
font-family: ui-sans-serif, system-ui, sans-serif, 'Apple Color Emoji', 'Segoe UI Emoji', 'Segoe UI Symbol', 'Noto Color Emoji';
margin: 20px;
text-align: center;
background-color: var(--bg);
color: var(--text);
}
.settings-toggle {
margin-top: 4px;
width: 40px;
height: 40px;
border: none;
border-radius: 50%;
background-color: var(--button-bg);
cursor: pointer;
transition: all 0.3s ease;
/* border: 1px solid var(--button-border); */
display: flex;
align-items: center;
justify-content: center;
position: relative;
}
.settings-toggle:hover {
background-color: var(--chip-bg);
}
.settings-toggle img {
width: 24px;
height: 24px;
opacity: 0.7;
transition: opacity 0.2s ease, transform 0.3s ease;
}
.settings-toggle:hover img {
opacity: 1;
}
.settings-toggle.active img {
transform: rotate(80deg);
}
/* Record button */
#recordButton {
width: 50px;
height: 50px;
border: none;
border-radius: 50%;
background-color: var(--button-bg);
cursor: pointer;
transition: all 0.3s ease;
border: 1px solid var(--button-border);
display: flex;
align-items: center;
justify-content: center;
position: relative;
}
#recordButton.recording {
width: 180px;
border-radius: 40px;
justify-content: flex-start;
padding-left: 20px;
}
#recordButton:active {
transform: scale(0.95);
}
.shape-container {
width: 25px;
height: 25px;
display: flex;
align-items: center;
justify-content: center;
flex-shrink: 0;
}
.shape {
width: 25px;
height: 25px;
background-color: rgb(209, 61, 53);
border-radius: 50%;
transition: all 0.3s ease;
}
#recordButton:disabled .shape {
background-color: #6e6d6d;
}
#recordButton.recording .shape {
border-radius: 5px;
width: 25px;
height: 25px;
}
/* Recording elements */
.recording-info {
display: none;
align-items: center;
margin-left: 15px;
flex-grow: 1;
}
#recordButton.recording .recording-info {
display: flex;
}
.wave-container {
width: 60px;
height: 30px;
position: relative;
display: flex;
align-items: center;
justify-content: center;
}
#waveCanvas {
width: 100%;
height: 100%;
}
.timer {
font-size: 14px;
font-weight: 500;
color: var(--text);
margin-left: 10px;
}
#status {
margin-top: 20px;
font-size: 16px;
color: var(--text);
}
/* Settings */
.settings-container {
display: flex;
justify-content: center;
align-items: flex-start;
gap: 15px;
margin-top: 20px;
flex-wrap: wrap;
}
.settings {
display: none;
flex-wrap: wrap;
align-items: flex-start;
gap: 12px;
transition: opacity 0.3s ease;
}
.settings.visible {
display: flex;
}
.field {
display: flex;
flex-direction: column;
align-items: flex-start;
gap: 3px;
}
#chunkSelector,
#websocketInput,
#themeSelector,
#microphoneSelect {
font-size: 16px;
padding: 5px 8px;
border-radius: 8px;
border: 1px solid var(--border);
background-color: var(--button-bg);
color: var(--text);
max-height: 30px;
}
#microphoneSelect {
width: 100%;
max-width: 190px;
min-width: 120px;
}
#chunkSelector:focus,
#websocketInput:focus,
#themeSelector:focus,
#microphoneSelect:focus {
outline: none;
border-color: #007bff;
box-shadow: 0 0 0 3px rgba(0, 123, 255, 0.15);
}
label {
font-size: 13px;
color: var(--muted);
}
.ws-default {
font-size: 12px;
color: var(--muted);
}
/* Segmented pill control for Theme */
.segmented {
display: inline-flex;
align-items: stretch;
border: 1px solid var(--button-border);
background-color: var(--button-bg);
border-radius: 999px;
overflow: hidden;
}
.segmented input[type="radio"] {
position: absolute;
opacity: 0;
pointer-events: none;
}
.theme-selector-container {
display: flex;
align-items: center;
margin-top: 17px;
}
.segmented label {
display: inline-flex;
align-items: center;
gap: 6px;
padding: 6px 12px;
font-size: 14px;
color: var(--muted);
cursor: pointer;
user-select: none;
transition: background-color 0.2s ease, color 0.2s ease;
}
.segmented label span {
display: none;
}
.segmented label:hover span {
display: inline;
}
.segmented label:hover {
background-color: var(--chip-bg);
}
.segmented img {
width: 16px;
height: 16px;
}
.segmented input[type="radio"]:checked + label {
background-color: var(--chip-bg);
color: var(--text);
}
.segmented input[type="radio"]:focus-visible + label,
.segmented input[type="radio"]:focus + label {
outline: 2px solid #007bff;
outline-offset: 2px;
border-radius: 999px;
}
/* Transcript area */
#linesTranscript {
margin: 20px auto;
max-width: 700px;
text-align: left;
font-size: 16px;
}
#linesTranscript p {
margin: 0px 0;
}
#linesTranscript strong {
color: var(--text);
}
#speaker {
border: 1px solid var(--border);
border-radius: 100px;
padding: 2px 10px;
font-size: 14px;
margin-bottom: 0px;
}
.label_diarization {
background-color: var(--chip-bg);
border-radius: 8px 8px 8px 8px;
padding: 2px 10px;
margin-left: 10px;
display: inline-block;
white-space: nowrap;
font-size: 14px;
margin-bottom: 0px;
color: var(--label-dia-text);
}
.label_transcription {
background-color: var(--chip-bg);
border-radius: 8px 8px 8px 8px;
padding: 2px 10px;
display: inline-block;
white-space: nowrap;
margin-left: 10px;
font-size: 14px;
margin-bottom: 0px;
color: var(--label-trans-text);
}
#timeInfo {
color: var(--muted);
margin-left: 10px;
}
.textcontent {
font-size: 16px;
padding-left: 10px;
margin-bottom: 10px;
margin-top: 1px;
padding-top: 5px;
border-radius: 0px 0px 0px 10px;
}
.buffer_diarization {
color: var(--label-dia-text);
margin-left: 4px;
}
.buffer_transcription {
color: #7474748c;
margin-left: 4px;
}
.spinner {
display: inline-block;
width: 8px;
height: 8px;
border: 2px solid var(--spinner-border);
border-top: 2px solid var(--spinner-top);
border-radius: 50%;
animation: spin 0.7s linear infinite;
vertical-align: middle;
margin-bottom: 2px;
margin-right: 5px;
}
@keyframes spin {
to {
transform: rotate(360deg);
}
}
.silence {
color: var(--muted);
background-color: var(--silence-bg);
font-size: 13px;
border-radius: 30px;
padding: 2px 10px;
}
.loading {
color: var(--muted);
background-color: var(--loading-bg);
border-radius: 8px 8px 8px 0px;
padding: 2px 10px;
font-size: 14px;
margin-bottom: 0px;
}
/* for smaller screens */
/* @media (max-width: 450px) {
.settings-container {
flex-direction: column;
gap: 10px;
align-items: center;
}
.settings {
justify-content: center;
gap: 8px;
width: 100%;
}
.field {
align-items: center;
width: 100%;
}
#websocketInput,
#microphoneSelect {
min-width: 200px;
max-width: 100%;
}
.theme-selector-container {
margin-top: 10px;
}
} */
/* @media (max-width: 768px) and (min-width: 451px) {
.settings-container {
gap: 10px;
}
.settings {
gap: 8px;
}
#websocketInput,
#microphoneSelect {
min-width: 150px;
max-width: 300px;
}
} */
/* @media (max-width: 480px) {
body {
margin: 10px;
}
.settings-toggle {
width: 35px;
height: 35px;
}
.settings-toggle img {
width: 20px;
height: 20px;
}
.settings {
flex-direction: column;
align-items: center;
gap: 6px;
}
#websocketInput,
#microphoneSelect {
max-width: 400px;
}
.segmented label {
padding: 4px 8px;
font-size: 12px;
}
.segmented img {
width: 14px;
height: 14px;
}
} */
html
{
width: 400px; /* max: 800px */
height: 600px; /* max: 600px */
border-radius: 10px;
}

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chrome-extension/web/src/settings.svg Normal file
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12
chrome-extension/welcome.html Normal file
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@@ -0,0 +1,12 @@
<!DOCTYPE html>
<html>
<head>
<title>Welcome</title>
<script src="welcome.js"></script>
</head>
<body>
This page exists to workaround an issue with Chrome that blocks permission
requests from chrome extensions
<!-- <button id="requestMicrophone">Request Microphone</button> -->
</body>
</html>

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14
pyproject.toml
View File

@@ -4,8 +4,8 @@ build-backend = "setuptools.build_meta"
[project]
name = "whisperlivekit"
version = "0.2.7"
description = "Real-time, Fully Local Whisper's Speech-to-Text and Speaker Diarization"
version = "0.2.10"
description = "Real-time speech-to-text with speaker diarization using Whisper"
readme = "README.md"
authors = [
{ name = "Quentin Fuxa" }
@@ -18,6 +18,11 @@ classifiers = [
"License :: OSI Approved :: MIT License",
"Programming Language :: Python :: 3.9",
"Programming Language :: Python :: 3.10",
"Programming Language :: Python :: 3.11",
"Programming Language :: Python :: 3.12",
"Programming Language :: Python :: 3.13",
"Programming Language :: Python :: 3.14",
"Programming Language :: Python :: 3.15",
"Topic :: Scientific/Engineering :: Artificial Intelligence",
"Topic :: Multimedia :: Sound/Audio :: Speech"
]
@@ -28,10 +33,11 @@ dependencies = [
"faster-whisper",
"uvicorn",
"websockets",
"torch",
"torchaudio>=2.0.0",
"torch>=2.0.0",
"tqdm",
"tiktoken",
'triton>=2.0.0,<3; platform_machine == "x86_64" and (sys_platform == "linux" or sys_platform == "linux2")'
'triton>=2.0.0; platform_machine == "x86_64" and (sys_platform == "linux" or sys_platform == "linux2")'
]
[project.optional-dependencies]

3
whisperlivekit/__init__.py
View File

@@ -1,12 +1,13 @@
from .audio_processor import AudioProcessor
from .core import TranscriptionEngine
from .parse_args import parse_args
from .web.web_interface import get_web_interface_html
from .web.web_interface import get_web_interface_html, get_inline_ui_html
__all__ = [
"TranscriptionEngine",
"AudioProcessor",
"parse_args",
"get_web_interface_html",
"get_inline_ui_html",
"download_simulstreaming_backend",
]

578
whisperlivekit/audio_processor.py
View File

@@ -4,11 +4,11 @@ from time import time, sleep
import math
import logging
import traceback
from whisperlivekit.timed_objects import ASRToken, Silence
from whisperlivekit.core import TranscriptionEngine, online_factory, online_diarization_factory
from whisperlivekit.ffmpeg_manager import FFmpegManager, FFmpegState
from whisperlivekit.timed_objects import ASRToken, Silence, Line, FrontData, State, Transcript
from whisperlivekit.core import TranscriptionEngine, online_factory, online_diarization_factory, online_translation_factory
from whisperlivekit.silero_vad_iterator import FixedVADIterator
from whisperlivekit.results_formater import format_output, format_time
from whisperlivekit.results_formater import format_output
from whisperlivekit.ffmpeg_manager import FFmpegManager, FFmpegState
# Set up logging once
logging.basicConfig(level=logging.INFO, format="%(asctime)s - %(levelname)s - %(message)s")
logger = logging.getLogger(__name__)
@@ -16,6 +16,17 @@ logger.setLevel(logging.DEBUG)
SENTINEL = object() # unique sentinel object for end of stream marker
async def get_all_from_queue(queue):
items = []
try:
while True:
item = queue.get_nowait()
items.append(item)
except asyncio.QueueEmpty:
pass
return items
class AudioProcessor:
"""
Processes audio streams for transcription and diarization.
@@ -38,9 +49,7 @@ class AudioProcessor:
self.bytes_per_sample = 2
self.bytes_per_sec = self.samples_per_sec * self.bytes_per_sample
self.max_bytes_per_sec = 32000 * 5 # 5 seconds of audio at 32 kHz
self.last_ffmpeg_activity = time()
self.ffmpeg_health_check_interval = 5
self.ffmpeg_max_idle_time = 10
self.is_pcm_input = self.args.pcm_input
self.debug = False
# State management
@@ -48,14 +57,17 @@ class AudioProcessor:
self.silence = False
self.silence_duration = 0.0
self.tokens = []
self.buffer_transcription = ""
self.translated_segments = []
self.buffer_transcription = Transcript()
self.buffer_diarization = ""
self.end_buffer = 0
self.end_attributed_speaker = 0
self.lock = asyncio.Lock()
self.beg_loop = None #to deal with a potential little lag at the websocket initialization, this is now set in process_audio
self.sep = " " # Default separator
self.last_response_content = ""
self.last_response_content = FrontData()
self.last_detected_speaker = None
self.speaker_languages = {}
# Models and processing
self.asr = models.asr
@@ -65,62 +77,47 @@ class AudioProcessor:
self.vac = FixedVADIterator(models.vac_model)
else:
self.vac = None
self.ffmpeg_manager = FFmpegManager(
sample_rate=self.sample_rate,
channels=self.channels
)
async def handle_ffmpeg_error(error_type: str):
logger.error(f"FFmpeg error: {error_type}")
self._ffmpeg_error = error_type
self.ffmpeg_manager.on_error_callback = handle_ffmpeg_error
self.ffmpeg_manager = None
self.ffmpeg_reader_task = None
self._ffmpeg_error = None
if not self.is_pcm_input:
self.ffmpeg_manager = FFmpegManager(
sample_rate=self.sample_rate,
channels=self.channels
)
async def handle_ffmpeg_error(error_type: str):
logger.error(f"FFmpeg error: {error_type}")
self._ffmpeg_error = error_type
self.ffmpeg_manager.on_error_callback = handle_ffmpeg_error
self.transcription_queue = asyncio.Queue() if self.args.transcription else None
self.diarization_queue = asyncio.Queue() if self.args.diarization else None
self.translation_queue = asyncio.Queue() if self.args.target_language else None
self.pcm_buffer = bytearray()
# Task references
self.transcription_task = None
self.diarization_task = None
self.ffmpeg_reader_task = None
self.watchdog_task = None
self.all_tasks_for_cleanup = []
# Initialize transcription engine if enabled
if self.args.transcription:
self.online = online_factory(self.args, models.asr, models.tokenizer)
# Initialize diarization engine if enabled
self.online = online_factory(self.args, models.asr, models.tokenizer)
self.sep = self.online.asr.sep
if self.args.diarization:
self.diarization = online_diarization_factory(self.args, models.diarization_model)
if self.args.target_language:
self.online_translation = online_translation_factory(self.args, models.translation_model)
def convert_pcm_to_float(self, pcm_buffer):
"""Convert PCM buffer in s16le format to normalized NumPy array."""
return np.frombuffer(pcm_buffer, dtype=np.int16).astype(np.float32) / 32768.0
async def update_transcription(self, new_tokens, buffer, end_buffer, sep):
"""Thread-safe update of transcription with new data."""
async with self.lock:
self.tokens.extend(new_tokens)
self.buffer_transcription = buffer
self.end_buffer = end_buffer
self.sep = sep
async def update_diarization(self, end_attributed_speaker, buffer_diarization=""):
"""Thread-safe update of diarization with new data."""
async with self.lock:
self.end_attributed_speaker = end_attributed_speaker
if buffer_diarization:
self.buffer_diarization = buffer_diarization
async def add_dummy_token(self):
"""Placeholder token when no transcription is available."""
async with self.lock:
current_time = time() - self.beg_loop
current_time = time() - self.beg_loop if self.beg_loop else 0
self.tokens.append(ASRToken(
start=current_time, end=current_time + 1,
text=".", speaker=-1, is_dummy=True
@@ -141,33 +138,36 @@ class AudioProcessor:
latest_end = max(self.end_buffer, self.tokens[-1].end if self.tokens else 0)
remaining_diarization = max(0, round(latest_end - self.end_attributed_speaker, 1))
return {
"tokens": self.tokens.copy(),
"buffer_transcription": self.buffer_transcription,
"buffer_diarization": self.buffer_diarization,
"end_buffer": self.end_buffer,
"end_attributed_speaker": self.end_attributed_speaker,
"sep": self.sep,
"remaining_time_transcription": remaining_transcription,
"remaining_time_diarization": remaining_diarization
}
return State(
tokens=self.tokens.copy(),
translated_segments=self.translated_segments.copy(),
buffer_transcription=self.buffer_transcription,
buffer_diarization=self.buffer_diarization,
end_buffer=self.end_buffer,
end_attributed_speaker=self.end_attributed_speaker,
remaining_time_transcription=remaining_transcription,
remaining_time_diarization=remaining_diarization
)
async def reset(self):
"""Reset all state variables to initial values."""
async with self.lock:
self.tokens = []
self.buffer_transcription = self.buffer_diarization = ""
self.translated_segments = []
self.buffer_transcription = self.buffer_diarization = Transcript()
self.end_buffer = self.end_attributed_speaker = 0
self.beg_loop = time()
async def ffmpeg_stdout_reader(self):
"""Read audio data from FFmpeg stdout and process it."""
"""Read audio data from FFmpeg stdout and process it into the PCM pipeline."""
beg = time()
while True:
try:
# Check if FFmpeg is running
state = await self.ffmpeg_manager.get_state()
if self.is_stopping:
logger.info("Stopping ffmpeg_stdout_reader due to stopping flag.")
break
state = await self.ffmpeg_manager.get_state() if self.ffmpeg_manager else FFmpegState.STOPPED
if state == FFmpegState.FAILED:
logger.error("FFmpeg is in FAILED state, cannot read data")
break
@@ -175,100 +175,41 @@ class AudioProcessor:
logger.info("FFmpeg is stopped")
break
elif state != FFmpegState.RUNNING:
logger.warning(f"FFmpeg is in {state} state, waiting...")
await asyncio.sleep(0.5)
await asyncio.sleep(0.1)
continue
current_time = time()
elapsed_time = math.floor((current_time - beg) * 10) / 10
buffer_size = max(int(32000 * elapsed_time), 4096)
elapsed_time = max(0.0, current_time - beg)
buffer_size = max(int(32000 * elapsed_time), 4096) # dynamic read
beg = current_time
chunk = await self.ffmpeg_manager.read_data(buffer_size)
if not chunk:
if self.is_stopping:
logger.info("FFmpeg stdout closed, stopping.")
break
else:
# No data available, but not stopping - FFmpeg might be restarting
await asyncio.sleep(0.1)
continue
# No data currently available
await asyncio.sleep(0.05)
continue
self.pcm_buffer.extend(chunk)
await self.handle_pcm_data()
# Process when enough data
if len(self.pcm_buffer) >= self.bytes_per_sec:
if len(self.pcm_buffer) > self.max_bytes_per_sec:
logger.warning(
f"Audio buffer too large: {len(self.pcm_buffer) / self.bytes_per_sec:.2f}s. "
f"Consider using a smaller model."
)
# Process audio chunk
pcm_array = self.convert_pcm_to_float(self.pcm_buffer[:self.max_bytes_per_sec])
self.pcm_buffer = self.pcm_buffer[self.max_bytes_per_sec:]
res = None
end_of_audio = False
silence_buffer = None
if self.args.vac:
res = self.vac(pcm_array)
if res is not None:
if res.get('end', 0) > res.get('start', 0):
end_of_audio = True
elif self.silence: #end of silence
self.silence = False
silence_buffer = Silence(duration=time() - self.start_silence)
if silence_buffer:
if self.args.transcription and self.transcription_queue:
await self.transcription_queue.put(silence_buffer)
if self.args.diarization and self.diarization_queue:
await self.diarization_queue.put(silence_buffer)
if not self.silence:
if self.args.transcription and self.transcription_queue:
await self.transcription_queue.put(pcm_array.copy())
if self.args.diarization and self.diarization_queue:
await self.diarization_queue.put(pcm_array.copy())
self.silence_duration = 0.0
if end_of_audio:
self.silence = True
self.start_silence = time()
# Sleep if no processing is happening
if not self.args.transcription and not self.args.diarization:
await asyncio.sleep(0.1)
except asyncio.CancelledError:
logger.info("ffmpeg_stdout_reader cancelled.")
break
except Exception as e:
logger.warning(f"Exception in ffmpeg_stdout_reader: {e}")
logger.warning(f"Traceback: {traceback.format_exc()}")
# Try to recover by waiting a bit
await asyncio.sleep(1)
# Check if we should exit
if self.is_stopping:
break
logger.info("FFmpeg stdout processing finished. Signaling downstream processors.")
logger.debug(f"Traceback: {traceback.format_exc()}")
await asyncio.sleep(0.2)
logger.info("FFmpeg stdout processing finished. Signaling downstream processors if needed.")
if self.args.transcription and self.transcription_queue:
await self.transcription_queue.put(SENTINEL)
logger.debug("Sentinel put into transcription_queue.")
if self.args.diarization and self.diarization_queue:
await self.diarization_queue.put(SENTINEL)
logger.debug("Sentinel put into diarization_queue.")
if self.args.target_language and self.translation_queue:
await self.translation_queue.put(SENTINEL)
async def transcription_processor(self):
"""Process audio chunks for transcription."""
self.sep = self.online.asr.sep
cumulative_pcm_duration_stream_time = 0.0
while True:
@@ -291,12 +232,11 @@ class AudioProcessor:
asr_processing_logs += f" + Silence of = {item.duration:.2f}s"
if self.tokens:
asr_processing_logs += f" | last_end = {self.tokens[-1].end} |"
logger.info(asr_processing_logs)
if type(item) is Silence:
logger.info(asr_processing_logs)
cumulative_pcm_duration_stream_time += item.duration
self.online.insert_silence(item.duration, self.tokens[-1].end)
self.online.insert_silence(item.duration, self.tokens[-1].end if self.tokens else 0)
continue
logger.info(asr_processing_logs)
if isinstance(item, np.ndarray):
pcm_array = item
@@ -307,36 +247,36 @@ class AudioProcessor:
cumulative_pcm_duration_stream_time += duration_this_chunk
stream_time_end_of_current_pcm = cumulative_pcm_duration_stream_time
self.online.insert_audio_chunk(pcm_array, stream_time_end_of_current_pcm)
new_tokens, current_audio_processed_upto = self.online.process_iter()
new_tokens, current_audio_processed_upto = await asyncio.to_thread(self.online.process_iter)
# Get buffer information
_buffer_transcript_obj = self.online.get_buffer()
buffer_text = _buffer_transcript_obj.text
_buffer_transcript = self.online.get_buffer()
buffer_text = _buffer_transcript.text
if new_tokens:
validated_text = self.sep.join([t.text for t in new_tokens])
if buffer_text.startswith(validated_text):
buffer_text = buffer_text[len(validated_text):].lstrip()
_buffer_transcript.text = buffer_text[len(validated_text):].lstrip()
candidate_end_times = [self.end_buffer]
if new_tokens:
candidate_end_times.append(new_tokens[-1].end)
if _buffer_transcript_obj.end is not None:
candidate_end_times.append(_buffer_transcript_obj.end)
if _buffer_transcript.end is not None:
candidate_end_times.append(_buffer_transcript.end)
candidate_end_times.append(current_audio_processed_upto)
new_end_buffer = max(candidate_end_times)
async with self.lock:
self.tokens.extend(new_tokens)
self.buffer_transcription = _buffer_transcript
self.end_buffer = max(candidate_end_times)
await self.update_transcription(
new_tokens, buffer_text, new_end_buffer, self.sep
)
if self.translation_queue:
for token in new_tokens:
await self.translation_queue.put(token)
self.transcription_queue.task_done()
except Exception as e:
@@ -344,6 +284,14 @@ class AudioProcessor:
logger.warning(f"Traceback: {traceback.format_exc()}")
if 'pcm_array' in locals() and pcm_array is not SENTINEL : # Check if pcm_array was assigned from queue
self.transcription_queue.task_done()
if self.is_stopping:
logger.info("Transcription processor finishing due to stopping flag.")
if self.diarization_queue:
await self.diarization_queue.put(SENTINEL)
if self.translation_queue:
await self.translation_queue.put(SENTINEL)
logger.info("Transcription processor task finished.")
@@ -358,13 +306,11 @@ class AudioProcessor:
logger.debug("Diarization processor received sentinel. Finishing.")
self.diarization_queue.task_done()
break
if type(item) is Silence:
elif type(item) is Silence:
cumulative_pcm_duration_stream_time += item.duration
diarization_obj.insert_silence(item.duration)
continue
if isinstance(item, np.ndarray):
elif isinstance(item, np.ndarray):
pcm_array = item
else:
raise Exception('item should be pcm_array')
@@ -373,7 +319,7 @@ class AudioProcessor:
await diarization_obj.diarize(pcm_array)
async with self.lock:
self.tokens = diarization_obj.assign_speakers_to_tokens(
self.tokens, last_segment = diarization_obj.assign_speakers_to_tokens(
self.tokens,
use_punctuation_split=self.args.punctuation_split
)
@@ -381,7 +327,12 @@ class AudioProcessor:
self.end_attributed_speaker = max(self.tokens[-1].end, self.end_attributed_speaker)
if buffer_diarization:
self.buffer_diarization = buffer_diarization
# if last_segment is not None and last_segment.speaker != self.last_detected_speaker:
# if not self.speaker_languages.get(last_segment.speaker, None):
# self.last_detected_speaker = last_segment.speaker
# self.online.on_new_speaker(last_segment)
self.diarization_queue.task_done()
except Exception as e:
@@ -391,100 +342,129 @@ class AudioProcessor:
self.diarization_queue.task_done()
logger.info("Diarization processor task finished.")
async def translation_processor(self, online_translation):
# the idea is to ignore diarization for the moment. We use only transcription tokens.
# And the speaker is attributed given the segments used for the translation
# in the future we want to have different languages for each speaker etc, so it will be more complex.
while True:
try:
item = await self.translation_queue.get() #block until at least 1 token
if item is SENTINEL:
logger.debug("Translation processor received sentinel. Finishing.")
self.translation_queue.task_done()
break
elif type(item) is Silence:
online_translation.insert_silence(item.duration)
continue
# get all the available tokens for translation. The more words, the more precise
tokens_to_process = [item]
additional_tokens = await get_all_from_queue(self.translation_queue)
sentinel_found = False
for additional_token in additional_tokens:
if additional_token is SENTINEL:
sentinel_found = True
break
tokens_to_process.append(additional_token)
if tokens_to_process:
online_translation.insert_tokens(tokens_to_process)
self.translated_segments = await asyncio.to_thread(online_translation.process)
self.translation_queue.task_done()
for _ in additional_tokens:
self.translation_queue.task_done()
if sentinel_found:
logger.debug("Translation processor received sentinel in batch. Finishing.")
break
except Exception as e:
logger.warning(f"Exception in translation_processor: {e}")
logger.warning(f"Traceback: {traceback.format_exc()}")
if 'token' in locals() and item is not SENTINEL:
self.translation_queue.task_done()
if 'additional_tokens' in locals():
for _ in additional_tokens:
self.translation_queue.task_done()
logger.info("Translation processor task finished.")
async def results_formatter(self):
"""Format processing results for output."""
last_sent_trans = None
last_sent_diar = None
while True:
try:
ffmpeg_state = await self.ffmpeg_manager.get_state()
if ffmpeg_state == FFmpegState.FAILED and self._ffmpeg_error:
yield {
"status": "error",
"error": f"FFmpeg error: {self._ffmpeg_error}",
"lines": [],
"buffer_transcription": "",
"buffer_diarization": "",
"remaining_time_transcription": 0,
"remaining_time_diarization": 0
}
# If FFmpeg error occurred, notify front-end
if self._ffmpeg_error:
yield FrontData(
status="error",
error=f"FFmpeg error: {self._ffmpeg_error}"
)
self._ffmpeg_error = None
await asyncio.sleep(1)
continue
# Get current state
state = await self.get_current_state()
tokens = state["tokens"]
buffer_transcription = state["buffer_transcription"]
buffer_diarization = state["buffer_diarization"]
end_attributed_speaker = state["end_attributed_speaker"]
sep = state["sep"]
# Add dummy tokens if needed
if (not tokens or tokens[-1].is_dummy) and not self.args.transcription and self.args.diarization:
if (not state.tokens or state.tokens[-1].is_dummy) and not self.args.transcription and self.args.diarization:
await self.add_dummy_token()
sleep(0.5)
state = await self.get_current_state()
tokens = state["tokens"]
# Format output
lines, undiarized_text, buffer_transcription, buffer_diarization = format_output(
lines, undiarized_text, end_w_silence = format_output(
state,
self.silence,
current_time = time() - self.beg_loop if self.beg_loop else None,
diarization = self.args.diarization,
debug = self.debug
args = self.args,
debug = self.debug,
sep=self.sep
)
if end_w_silence:
buffer_transcription = Transcript()
buffer_diarization = Transcript()
else:
buffer_transcription = state.buffer_transcription
buffer_diarization = state.buffer_diarization
# Handle undiarized text
if undiarized_text:
combined = sep.join(undiarized_text)
combined = self.sep.join(undiarized_text)
if buffer_transcription:
combined += sep
await self.update_diarization(end_attributed_speaker, combined)
buffer_diarization = combined
combined += self.sep
async with self.lock:
self.end_attributed_speaker = state.end_attributed_speaker
if buffer_diarization:
self.buffer_diarization = buffer_diarization
buffer_diarization.text = combined
response_status = "active_transcription"
final_lines_for_response = lines.copy()
if not tokens and not buffer_transcription and not buffer_diarization:
if not state.tokens and not buffer_transcription and not buffer_diarization:
response_status = "no_audio_detected"
final_lines_for_response = []
elif response_status == "active_transcription" and not final_lines_for_response:
final_lines_for_response = [{
"speaker": 1,
"text": "",
"beg": format_time(state.get("end_buffer", 0)),
"end": format_time(state.get("end_buffer", 0)),
"diff": 0
}]
lines = []
elif not lines:
lines = [Line(
speaker=1,
start=state.end_buffer,
end=state.end_buffer
)]
response = {
"status": response_status,
"lines": final_lines_for_response,
"buffer_transcription": buffer_transcription,
"buffer_diarization": buffer_diarization,
"remaining_time_transcription": state["remaining_time_transcription"],
"remaining_time_diarization": state["remaining_time_diarization"] if self.args.diarization else 0
}
current_response_signature = f"{response_status} | " + \
' '.join([f"{line['speaker']} {line['text']}" for line in final_lines_for_response]) + \
f" | {buffer_transcription} | {buffer_diarization}"
trans = state["remaining_time_transcription"]
diar = state["remaining_time_diarization"]
should_push = (
current_response_signature != self.last_response_content
or last_sent_trans is None
or round(trans, 1) != round(last_sent_trans, 1)
or round(diar, 1) != round(last_sent_diar, 1)
response = FrontData(
status=response_status,
lines=lines,
buffer_transcription=buffer_transcription.text,
buffer_diarization=buffer_transcription.text,
remaining_time_transcription=state.remaining_time_transcription,
remaining_time_diarization=state.remaining_time_diarization if self.args.diarization else 0
)
if should_push and (final_lines_for_response or buffer_transcription or buffer_diarization or response_status == "no_audio_detected" or trans > 0 or diar > 0):
should_push = (response != self.last_response_content)
if should_push and (lines or buffer_transcription or buffer_diarization or response_status == "no_audio_detected"):
yield response
self.last_response_content = current_response_signature
last_sent_trans = trans
last_sent_diar = diar
self.last_response_content = response
# Check for termination condition
if self.is_stopping:
@@ -496,35 +476,34 @@ class AudioProcessor:
if all_processors_done:
logger.info("Results formatter: All upstream processors are done and in stopping state. Terminating.")
final_state = await self.get_current_state()
return
await asyncio.sleep(0.1) # Avoid overwhelming the client
await asyncio.sleep(0.05)
except Exception as e:
logger.warning(f"Exception in results_formatter: {e}")
logger.warning(f"Traceback: {traceback.format_exc()}")
await asyncio.sleep(0.5) # Back off on error
await asyncio.sleep(0.5)
async def create_tasks(self):
"""Create and start processing tasks."""
self.all_tasks_for_cleanup = []
processing_tasks_for_watchdog = []
success = await self.ffmpeg_manager.start()
if not success:
logger.error("Failed to start FFmpeg manager")
async def error_generator():
yield {
"status": "error",
"error": "FFmpeg failed to start. Please check that FFmpeg is installed.",
"lines": [],
"buffer_transcription": "",
"buffer_diarization": "",
"remaining_time_transcription": 0,
"remaining_time_diarization": 0
}
return error_generator()
# If using FFmpeg (non-PCM input), start it and spawn stdout reader
if not self.is_pcm_input:
success = await self.ffmpeg_manager.start()
if not success:
logger.error("Failed to start FFmpeg manager")
async def error_generator():
yield FrontData(
status="error",
error="FFmpeg failed to start. Please check that FFmpeg is installed."
)
return error_generator()
self.ffmpeg_reader_task = asyncio.create_task(self.ffmpeg_stdout_reader())
self.all_tasks_for_cleanup.append(self.ffmpeg_reader_task)
processing_tasks_for_watchdog.append(self.ffmpeg_reader_task)
if self.args.transcription and self.online:
self.transcription_task = asyncio.create_task(self.transcription_processor())
@@ -536,10 +515,11 @@ class AudioProcessor:
self.all_tasks_for_cleanup.append(self.diarization_task)
processing_tasks_for_watchdog.append(self.diarization_task)
self.ffmpeg_reader_task = asyncio.create_task(self.ffmpeg_stdout_reader())
self.all_tasks_for_cleanup.append(self.ffmpeg_reader_task)
processing_tasks_for_watchdog.append(self.ffmpeg_reader_task)
if self.args.target_language and self.args.lan != 'auto':
self.translation_task = asyncio.create_task(self.translation_processor(self.online_translation))
self.all_tasks_for_cleanup.append(self.translation_task)
processing_tasks_for_watchdog.append(self.translation_task)
# Monitor overall system health
self.watchdog_task = asyncio.create_task(self.watchdog(processing_tasks_for_watchdog))
self.all_tasks_for_cleanup.append(self.watchdog_task)
@@ -560,15 +540,6 @@ class AudioProcessor:
logger.error(f"{task_name} unexpectedly completed with exception: {exc}")
else:
logger.info(f"{task_name} completed normally.")
# Check FFmpeg status through the manager
ffmpeg_state = await self.ffmpeg_manager.get_state()
if ffmpeg_state == FFmpegState.FAILED:
logger.error("FFmpeg is in FAILED state, notifying results formatter")
# FFmpeg manager will handle its own recovery
elif ffmpeg_state == FFmpegState.STOPPED and not self.is_stopping:
logger.warning("FFmpeg unexpectedly stopped, attempting restart")
await self.ffmpeg_manager.restart()
except asyncio.CancelledError:
logger.info("Watchdog task cancelled.")
@@ -578,18 +549,24 @@ class AudioProcessor:
async def cleanup(self):
"""Clean up resources when processing is complete."""
logger.info("Starting cleanup of AudioProcessor resources.")
logger.info("Starting cleanup of AudioProcessor resources.")
self.is_stopping = True
for task in self.all_tasks_for_cleanup:
if task and not task.done():
task.cancel()
created_tasks = [t for t in self.all_tasks_for_cleanup if t]
if created_tasks:
await asyncio.gather(*created_tasks, return_exceptions=True)
logger.info("All processing tasks cancelled or finished.")
await self.ffmpeg_manager.stop()
logger.info("FFmpeg manager stopped.")
if self.args.diarization and hasattr(self, 'diarization') and hasattr(self.diarization, 'close'):
if not self.is_pcm_input and self.ffmpeg_manager:
try:
await self.ffmpeg_manager.stop()
logger.info("FFmpeg manager stopped.")
except Exception as e:
logger.warning(f"Error stopping FFmpeg manager: {e}")
if self.args.diarization and hasattr(self, 'dianization') and hasattr(self.diarization, 'close'):
self.diarization.close()
logger.info("AudioProcessor cleanup complete.")
@@ -603,18 +580,83 @@ class AudioProcessor:
if not message:
logger.info("Empty audio message received, initiating stop sequence.")
self.is_stopping = True
# Signal FFmpeg manager to stop accepting data
await self.ffmpeg_manager.stop()
if self.transcription_queue:
await self.transcription_queue.put(SENTINEL)
if not self.is_pcm_input and self.ffmpeg_manager:
await self.ffmpeg_manager.stop()
return
if self.is_stopping:
logger.warning("AudioProcessor is stopping. Ignoring incoming audio.")
return
success = await self.ffmpeg_manager.write_data(message)
if not success:
ffmpeg_state = await self.ffmpeg_manager.get_state()
if ffmpeg_state == FFmpegState.FAILED:
logger.error("FFmpeg is in FAILED state, cannot process audio")
else:
logger.warning("Failed to write audio data to FFmpeg")
if self.is_pcm_input:
self.pcm_buffer.extend(message)
await self.handle_pcm_data()
else:
if not self.ffmpeg_manager:
logger.error("FFmpeg manager not initialized for non-PCM input.")
return
success = await self.ffmpeg_manager.write_data(message)
if not success:
ffmpeg_state = await self.ffmpeg_manager.get_state()
if ffmpeg_state == FFmpegState.FAILED:
logger.error("FFmpeg is in FAILED state, cannot process audio")
else:
logger.warning("Failed to write audio data to FFmpeg")
async def handle_pcm_data(self):
# Process when enough data
if len(self.pcm_buffer) < self.bytes_per_sec:
return
if len(self.pcm_buffer) > self.max_bytes_per_sec:
logger.warning(
f"Audio buffer too large: {len(self.pcm_buffer) / self.bytes_per_sec:.2f}s. "
f"Consider using a smaller model."
)
# Process audio chunk
pcm_array = self.convert_pcm_to_float(self.pcm_buffer[:self.max_bytes_per_sec])
self.pcm_buffer = self.pcm_buffer[self.max_bytes_per_sec:]
res = None
end_of_audio = False
silence_buffer = None
if self.args.vac:
res = self.vac(pcm_array)
if res is not None:
if res.get("end", 0) > res.get("start", 0):
end_of_audio = True
elif self.silence: #end of silence
self.silence = False
silence_buffer = Silence(duration=time() - self.start_silence)
if silence_buffer:
if self.args.transcription and self.transcription_queue:
await self.transcription_queue.put(silence_buffer)
if self.args.diarization and self.diarization_queue:
await self.diarization_queue.put(silence_buffer)
if self.translation_queue:
await self.translation_queue.put(silence_buffer)
if not self.silence:
if self.args.transcription and self.transcription_queue:
await self.transcription_queue.put(pcm_array.copy())
if self.args.diarization and self.diarization_queue:
await self.diarization_queue.put(pcm_array.copy())
self.silence_duration = 0.0
if end_of_audio:
self.silence = True
self.start_silence = time()
if not self.args.transcription and not self.args.diarization:
await asyncio.sleep(0.1)

13
whisperlivekit/basic_server.py
View File

@@ -2,7 +2,7 @@ from contextlib import asynccontextmanager
from fastapi import FastAPI, WebSocket, WebSocketDisconnect
from fastapi.responses import HTMLResponse
from fastapi.middleware.cors import CORSMiddleware
from whisperlivekit import TranscriptionEngine, AudioProcessor, get_web_interface_html, parse_args
from whisperlivekit import TranscriptionEngine, AudioProcessor, get_inline_ui_html, parse_args
import asyncio
import logging
from starlette.staticfiles import StaticFiles
@@ -18,7 +18,7 @@ args = parse_args()
transcription_engine = None
@asynccontextmanager
async def lifespan(app: FastAPI):
async def lifespan(app: FastAPI):
global transcription_engine
transcription_engine = TranscriptionEngine(
**vars(args),
@@ -38,14 +38,14 @@ app.mount("/web", StaticFiles(directory=str(web_dir)), name="web")
@app.get("/")
async def get():
return HTMLResponse(get_web_interface_html())
return HTMLResponse(get_inline_ui_html())
async def handle_websocket_results(websocket, results_generator):
"""Consumes results from the audio processor and sends them via WebSocket."""
try:
async for response in results_generator:
await websocket.send_json(response)
await websocket.send_json(response.to_dict())
# when the results_generator finishes it means all audio has been processed
logger.info("Results generator finished. Sending 'ready_to_stop' to client.")
await websocket.send_json({"type": "ready_to_stop"})
@@ -63,6 +63,11 @@ async def websocket_endpoint(websocket: WebSocket):
)
await websocket.accept()
logger.info("WebSocket connection opened.")
try:
await websocket.send_json({"type": "config", "useAudioWorklet": bool(args.pcm_input)})
except Exception as e:
logger.warning(f"Failed to send config to client: {e}")
results_generator = await audio_processor.create_tasks()
websocket_task = asyncio.create_task(handle_websocket_results(websocket, results_generator))

41
whisperlivekit/core.py
View File

@@ -4,7 +4,7 @@ try:
except ImportError:
from .whisper_streaming_custom.whisper_online import backend_factory
from .whisper_streaming_custom.online_asr import OnlineASRProcessor
from whisperlivekit.warmup import warmup_asr, warmup_online
from whisperlivekit.warmup import warmup_asr
from argparse import Namespace
import sys
@@ -33,6 +33,7 @@ class TranscriptionEngine:
"model_dir": None,
"lan": "auto",
"task": "transcribe",
"target_language": "",
"backend": "faster-whisper",
"vac": True,
"vac_chunk_size": 0.04,
@@ -41,11 +42,15 @@ class TranscriptionEngine:
"ssl_keyfile": None,
"transcription": True,
"vad": True,
"pcm_input": False,
# whisperstreaming params:
"buffer_trimming": "segment",
"confidence_validation": False,
"buffer_trimming_sec": 15,
# simulstreaming params:
"disable_fast_encoder": False,
"frame_threshold": 25,
"beams": 1,
"decoder_type": None,
@@ -58,9 +63,15 @@ class TranscriptionEngine:
"max_context_tokens": None,
"model_path": './base.pt',
"diarization_backend": "sortformer",
# diart params:
# diarization params:
"disable_punctuation_split" : False,
"segmentation_model": "pyannote/segmentation-3.0",
"embedding_model": "pyannote/embedding",
"embedding_model": "pyannote/embedding",
# translation params:
"nllb_backend": "ctranslate2",
"nllb_size": "600M"
}
config_dict = {**defaults, **kwargs}
@@ -97,7 +108,7 @@ class TranscriptionEngine:
simulstreaming_kwargs = {}
for attr in ['frame_threshold', 'beams', 'decoder_type', 'audio_max_len', 'audio_min_len',
'cif_ckpt_path', 'never_fire', 'init_prompt', 'static_init_prompt',
'max_context_tokens', 'model_path', 'warmup_file', 'preload_model_count']:
'max_context_tokens', 'model_path', 'warmup_file', 'preload_model_count', 'disable_fast_encoder']:
if hasattr(self.args, attr):
simulstreaming_kwargs[attr] = getattr(self.args, attr)
@@ -116,7 +127,7 @@ class TranscriptionEngine:
else:
self.asr, self.tokenizer = backend_factory(self.args)
warmup_asr(self.asr, self.args.warmup_file) #for simulstreaming, warmup should be done in the online class not here
warmup_asr(self.asr, self.args.warmup_file) #for simulstreaming, warmup should be done in the online class not here
if self.args.diarization:
if self.args.diarization_backend == "diart":
@@ -131,7 +142,14 @@ class TranscriptionEngine:
self.diarization_model = SortformerDiarization()
else:
raise ValueError(f"Unknown diarization backend: {self.args.diarization_backend}")
self.translation_model = None
if self.args.target_language:
if self.args.lan == 'auto':
raise Exception('Translation cannot be set with language auto')
else:
from whisperlivekit.translation.translation import load_model
self.translation_model = load_model([self.args.lan], backend=self.args.nllb_backend, model_size=self.args.nllb_size) #in the future we want to handle different languages for different speakers
TranscriptionEngine._initialized = True
@@ -143,7 +161,6 @@ def online_factory(args, asr, tokenizer, logfile=sys.stderr):
asr,
logfile=logfile,
)
# warmup_online(online, args.warmup_file)
else:
online = OnlineASRProcessor(
asr,
@@ -158,11 +175,17 @@ def online_factory(args, asr, tokenizer, logfile=sys.stderr):
def online_diarization_factory(args, diarization_backend):
if args.diarization_backend == "diart":
online = diarization_backend
# Not the best here, since several user/instances will share the same backend, but diart is not SOTA anymore and sortformer is recommanded
# Not the best here, since several user/instances will share the same backend, but diart is not SOTA anymore and sortformer is recommended
if args.diarization_backend == "sortformer":
from whisperlivekit.diarization.sortformer_backend import SortformerDiarizationOnline
online = SortformerDiarizationOnline(shared_model=diarization_backend)
return online
def online_translation_factory(args, translation_model):
#should be at speaker level in the future:
#one shared nllb model for all speaker
#one tokenizer per speaker/language
from whisperlivekit.translation.translation import OnlineTranslation
return OnlineTranslation(translation_model, [args.lan], [args.target_language])

2
whisperlivekit/diarization/diart_backend.py
View File

@@ -242,7 +242,7 @@ class DiartDiarization:
token.speaker = extract_number(segment.speaker) + 1
else:
tokens = add_speaker_to_tokens(segments, tokens)
return tokens
return tokens, segments[-1]
def concatenate_speakers(segments):
segments_concatenated = [{"speaker": 1, "begin": 0.0, "end": 0.0}]

39
whisperlivekit/diarization/sortformer_backend.py
View File

@@ -60,11 +60,15 @@ class SortformerDiarization:
self.diar_model = SortformerEncLabelModel.from_pretrained(model_name)
self.diar_model.eval()
if torch.cuda.is_available():
self.diar_model.to(torch.device("cuda"))
logger.info("Using CUDA for Sortformer model")
else:
logger.info("Using CPU for Sortformer model")
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
self.diar_model.to(device)
## to test
# for name, param in self.diar_model.named_parameters():
# if param.device != device:
# raise RuntimeError(f"Parameter {name} is on {param.device} but should be on {device}")
logger.info(f"Using {device.type.upper()} for Sortformer model")
self.diar_model.sortformer_modules.chunk_len = 10
self.diar_model.sortformer_modules.subsampling_factor = 10
@@ -106,6 +110,7 @@ class SortformerDiarizationOnline:
features=128,
pad_to=0
)
self.audio2mel.to(self.diar_model.device)
self.chunk_duration_seconds = (
self.diar_model.sortformer_modules.chunk_len *
@@ -186,22 +191,25 @@ class SortformerDiarizationOnline:
audio = self.buffer_audio[:threshold]
self.buffer_audio = self.buffer_audio[threshold:]
audio_signal_chunk = torch.tensor(audio).unsqueeze(0).to(self.diar_model.device)
audio_signal_length_chunk = torch.tensor([audio_signal_chunk.shape[1]]).to(self.diar_model.device)
device = self.diar_model.device
audio_signal_chunk = torch.tensor(audio, device=device).unsqueeze(0)
audio_signal_length_chunk = torch.tensor([audio_signal_chunk.shape[1]], device=device)
processed_signal_chunk, processed_signal_length_chunk = self.audio2mel.get_features(
audio_signal_chunk, audio_signal_length_chunk
)
processed_signal_chunk = processed_signal_chunk.to(device)
processed_signal_length_chunk = processed_signal_length_chunk.to(device)
if self._previous_chunk_features is not None:
to_add = self._previous_chunk_features[:, :, -99:]
total_features = torch.concat([to_add, processed_signal_chunk], dim=2)
to_add = self._previous_chunk_features[:, :, -99:].to(device)
total_features = torch.concat([to_add, processed_signal_chunk], dim=2).to(device)
else:
total_features = processed_signal_chunk
total_features = processed_signal_chunk.to(device)
self._previous_chunk_features = processed_signal_chunk
self._previous_chunk_features = processed_signal_chunk.to(device)
chunk_feat_seq_t = torch.transpose(total_features, 1, 2)
chunk_feat_seq_t = torch.transpose(total_features, 1, 2).to(device)
with torch.inference_mode():
left_offset = 8 if self._chunk_index > 0 else 0
@@ -209,7 +217,7 @@ class SortformerDiarizationOnline:
self.streaming_state, self.total_preds = self.diar_model.forward_streaming_step(
processed_signal=chunk_feat_seq_t,
processed_signal_length=torch.tensor([chunk_feat_seq_t.shape[1]]),
processed_signal_length=torch.tensor([chunk_feat_seq_t.shape[1]]).to(device),
streaming_state=self.streaming_state,
total_preds=self.total_preds,
left_offset=left_offset,
@@ -281,13 +289,14 @@ class SortformerDiarizationOnline:
Returns:
List of tokens with speaker assignments
Last speaker_segment
"""
with self.segment_lock:
segments = self.speaker_segments.copy()
if not segments or not tokens:
logger.debug("No segments or tokens available for speaker assignment")
return tokens
return tokens, None
logger.debug(f"Assigning speakers to {len(tokens)} tokens using {len(segments)} segments")
use_punctuation_split = False
@@ -304,7 +313,7 @@ class SortformerDiarizationOnline:
# Use punctuation-aware assignment (similar to diart_backend)
tokens = self._add_speaker_to_tokens_with_punctuation(segments, tokens)
return tokens
return tokens, segments[-1]
def _add_speaker_to_tokens_with_punctuation(self, segments: List[SpeakerSegment], tokens: list) -> list:
"""

12
whisperlivekit/ffmpeg_manager.py
View File

@@ -7,11 +7,12 @@ import contextlib
logger = logging.getLogger(__name__)
logging.basicConfig(level=logging.INFO)
ERROR_INSTALL_INSTRUCTIONS = """
ERROR_INSTALL_INSTRUCTIONS = f"""
{'='*50}
FFmpeg is not installed or not found in your system's PATH.
Please install FFmpeg to enable audio processing.
Alternative Solution: You can still use WhisperLiveKit without FFmpeg by adding the --pcm-input parameter. Note that when using this option, audio will not be compressed between the frontend and backend, which may result in higher bandwidth usage.
Installation instructions:
If you want to install FFmpeg:
# Ubuntu/Debian:
sudo apt update && sudo apt install ffmpeg
@@ -25,6 +26,7 @@ brew install ffmpeg
# 3. Add the 'bin' directory (e.g., C:\\FFmpeg\\bin) to your system's PATH environment variable.
After installation, please restart the application.
{'='*50}
"""
class FFmpegState(Enum):
@@ -183,6 +185,8 @@ class FFmpegManager:
async def _drain_stderr(self):
try:
while True:
if not self.process or not self.process.stderr:
break
line = await self.process.stderr.readline()
if not line:
break
@@ -190,4 +194,4 @@ class FFmpegManager:
except asyncio.CancelledError:
logger.info("FFmpeg stderr drain task cancelled.")
except Exception as e:
logger.error(f"Error draining FFmpeg stderr: {e}")
logger.error(f"Error draining FFmpeg stderr: {e}")

50
whisperlivekit/parse_args.py
View File

@@ -20,7 +20,7 @@ def parse_args():
help="""
The path to a speech audio wav file to warm up Whisper so that the very first chunk processing is fast.
If not set, uses https://github.com/ggerganov/whisper.cpp/raw/master/samples/jfk.wav.
If False, no warmup is performed.
If empty, no warmup is performed.
""",
)
@@ -72,6 +72,12 @@ def parse_args():
help="Disable transcription to only see live diarization results.",
)
parser.add_argument(
"--disable-punctuation-split",
action="store_true",
help="Disable the split parameter.",
)
parser.add_argument(
"--min-chunk-size",
type=float,
@@ -112,6 +118,15 @@ def parse_args():
choices=["transcribe", "translate"],
help="Transcribe or translate.",
)
parser.add_argument(
"--target-language",
type=str,
default="",
dest="target_language",
help="Target language for translation. Not functional yet.",
)
parser.add_argument(
"--backend",
type=str,
@@ -158,9 +173,22 @@ def parse_args():
)
parser.add_argument("--ssl-certfile", type=str, help="Path to the SSL certificate file.", default=None)
parser.add_argument("--ssl-keyfile", type=str, help="Path to the SSL private key file.", default=None)
parser.add_argument(
"--pcm-input",
action="store_true",
default=False,
help="If set, raw PCM (s16le) data is expected as input and FFmpeg will be bypassed. Frontend will use AudioWorklet instead of MediaRecorder."
)
# SimulStreaming-specific arguments
simulstreaming_group = parser.add_argument_group('SimulStreaming arguments (only used with --backend simulstreaming)')
simulstreaming_group.add_argument(
"--disable-fast-encoder",
action="store_true",
default=False,
dest="disable_fast_encoder",
help="Disable Faster Whisper or MLX Whisper backends for encoding (if installed). Slower but helpful when GPU memory is limited",
)
simulstreaming_group.add_argument(
"--frame-threshold",
@@ -252,13 +280,27 @@ def parse_args():
)
simulstreaming_group.add_argument(
"--preloaded_model_count",
"--preload-model-count",
type=int,
default=1,
dest="preloaded_model_count",
dest="preload_model_count",
help="Optional. Number of models to preload in memory to speed up loading (set up to the expected number of concurrent instances).",
)
simulstreaming_group.add_argument(
"--nllb-backend",
type=str,
default="ctranslate2",
help="transformers or ctranslate2",
)
simulstreaming_group.add_argument(
"--nllb-size",
type=str,
default="600M",
help="600M or 1.3B",
)
args = parser.parse_args()
args.transcription = not args.no_transcription

22
whisperlivekit/remove_silences.py
View File

@@ -39,7 +39,7 @@ def blank_to_silence(tokens):
)
else:
if silence_token: #there was silence but no more
if silence_token.end - silence_token.start >= MIN_SILENCE_DURATION:
if silence_token.duration() >= MIN_SILENCE_DURATION:
cleaned_tokens.append(
silence_token
)
@@ -77,15 +77,17 @@ def no_token_to_silence(tokens):
new_tokens.append(token)
return new_tokens
def ends_with_silence(tokens, buffer_transcription, buffer_diarization, current_time, vac_detected_silence):
def ends_with_silence(tokens, current_time, vac_detected_silence):
end_w_silence = False
if not tokens:
return [], buffer_transcription, buffer_diarization
return [], end_w_silence
last_token = tokens[-1]
if tokens and (
if tokens and current_time and (
current_time - last_token.end >= END_SILENCE_DURATION
or
or
(current_time - last_token.end >= 3 and vac_detected_silence)
):
end_w_silence = True
if last_token.speaker == -2:
last_token.end = current_time
else:
@@ -97,14 +99,12 @@ def ends_with_silence(tokens, buffer_transcription, buffer_diarization, current_
probability=0.95
)
)
buffer_transcription = "" # for whisperstreaming backend, we should probably validate the buffer has because of the silence
buffer_diarization = ""
return tokens, buffer_transcription, buffer_diarization
return tokens, end_w_silence
def handle_silences(tokens, buffer_transcription, buffer_diarization, current_time, vac_detected_silence):
def handle_silences(tokens, current_time, vac_detected_silence):
tokens = blank_to_silence(tokens) #useful for simulstreaming backend which tends to generate [BLANK_AUDIO] text
tokens = no_token_to_silence(tokens)
tokens, buffer_transcription, buffer_diarization = ends_with_silence(tokens, buffer_transcription, buffer_diarization, current_time, vac_detected_silence)
return tokens, buffer_transcription, buffer_diarization
tokens, end_w_silence = ends_with_silence(tokens, current_time, vac_detected_silence)
return tokens, end_w_silence

109
whisperlivekit/results_formater.py
View File

@@ -1,21 +1,15 @@
import logging
from datetime import timedelta
from whisperlivekit.remove_silences import handle_silences
from whisperlivekit.timed_objects import Line, format_time
logger = logging.getLogger(__name__)
logger.setLevel(logging.DEBUG)
PUNCTUATION_MARKS = {'.', '!', '?'}
CHECK_AROUND = 4
def format_time(seconds: float) -> str:
"""Format seconds as HH:MM:SS."""
return str(timedelta(seconds=int(seconds)))
def is_punctuation(token):
if token.text.strip() in PUNCTUATION_MARKS:
if token.is_punctuation():
return True
return False
@@ -34,45 +28,37 @@ def next_speaker_change(i, tokens, speaker):
return ind, token.speaker
return None, speaker
def new_line(
token,
speaker,
last_end_diarized,
debug_info = ""
):
return {
"speaker": int(speaker),
"text": token.text + debug_info,
"beg": format_time(token.start),
"end": format_time(token.end),
"diff": round(token.end - last_end_diarized, 2)
}
return Line(
speaker = speaker,
text = token.text + debug_info,
start = token.start,
end = token.end,
)
def append_token_to_last_line(lines, sep, token, debug_info, last_end_diarized):
def append_token_to_last_line(lines, sep, token, debug_info):
if token.text:
lines[-1]["text"] += sep + token.text + debug_info
lines[-1]["end"] = format_time(token.end)
lines[-1]["diff"] = round(token.end - last_end_diarized, 2)
lines[-1].text += sep + token.text + debug_info
lines[-1].end = token.end
def format_output(state, silence, current_time, diarization, debug):
tokens = state["tokens"]
buffer_transcription = state["buffer_transcription"]
buffer_diarization = state["buffer_diarization"]
end_attributed_speaker = state["end_attributed_speaker"]
sep = state["sep"]
def format_output(state, silence, current_time, args, debug, sep):
diarization = args.diarization
disable_punctuation_split = args.disable_punctuation_split
tokens = state.tokens
translated_segments = state.translated_segments # Here we will attribute the speakers only based on the timestamps of the segments
end_attributed_speaker = state.end_attributed_speaker
previous_speaker = -1
lines = []
last_end_diarized = 0
undiarized_text = []
tokens, buffer_transcription, buffer_diarization = handle_silences(tokens, buffer_transcription, buffer_diarization, current_time, silence)
tokens, end_w_silence = handle_silences(tokens, current_time, silence)
last_punctuation = None
for i, token in enumerate(tokens):
speaker = token.speaker
if not diarization and speaker == -1: #Speaker -1 means no attributed by diarization. In the frontend, it should appear under 'Speaker 1'
speaker = 1
if diarization and not tokens[-1].speaker == -2:
@@ -81,18 +67,15 @@ def format_output(state, silence, current_time, diarization, debug):
continue
elif (speaker in [-1, 0]) and token.end < end_attributed_speaker:
speaker = previous_speaker
if speaker not in [-1, 0]:
last_end_diarized = max(token.end, last_end_diarized)
debug_info = ""
if debug:
debug_info = f"[{format_time(token.start)} : {format_time(token.end)}]"
if not lines:
lines.append(new_line(token, speaker, last_end_diarized, debug_info = ""))
lines.append(new_line(token, speaker, debug_info = ""))
continue
else:
previous_speaker = lines[-1]['speaker']
previous_speaker = lines[-1].speaker
if is_punctuation(token):
last_punctuation = i
@@ -101,7 +84,7 @@ def format_output(state, silence, current_time, diarization, debug):
if last_punctuation == i-1:
if speaker != previous_speaker:
# perfect, diarization perfectly aligned
lines.append(new_line(token, speaker, last_end_diarized, debug_info = ""))
lines.append(new_line(token, speaker, debug_info = ""))
last_punctuation, next_punctuation = None, None
continue
@@ -111,28 +94,64 @@ def format_output(state, silence, current_time, diarization, debug):
# That was the idea. Okay haha |SPLIT SPEAKER| that's a good one
# should become:
# That was the idea. |SPLIT SPEAKER| Okay haha that's a good one
lines.append(new_line(token, new_speaker, last_end_diarized, debug_info = ""))
lines.append(new_line(token, new_speaker, debug_info = ""))
else:
# No speaker change to come
append_token_to_last_line(lines, sep, token, debug_info, last_end_diarized)
append_token_to_last_line(lines, sep, token, debug_info)
continue
if speaker != previous_speaker:
if speaker == -2 or previous_speaker == -2: #silences can happen anytime
lines.append(new_line(token, speaker, last_end_diarized, debug_info = ""))
lines.append(new_line(token, speaker, debug_info = ""))
continue
elif next_punctuation_change(i, tokens):
# Corrects advance:
# Are you |SPLIT SPEAKER| okay? yeah, sure. Absolutely
# should become:
# Are you okay? |SPLIT SPEAKER| yeah, sure. Absolutely
append_token_to_last_line(lines, sep, token, debug_info, last_end_diarized)
append_token_to_last_line(lines, sep, token, debug_info)
continue
else: #we create a new speaker, but that's no ideal. We are not sure about the split. We prefer to append to previous line
# lines.append(new_line(token, speaker, last_end_diarized, debug_info = ""))
if disable_punctuation_split:
lines.append(new_line(token, speaker, debug_info = ""))
continue
pass
append_token_to_last_line(lines, sep, token, debug_info, last_end_diarized)
return lines, undiarized_text, buffer_transcription, ''
append_token_to_last_line(lines, sep, token, debug_info)
if lines and translated_segments:
unassigned_translated_segments = []
for ts in translated_segments:
assigned = False
for line in lines:
if ts and ts.overlaps_with(line):
if ts.is_within(line):
line.translation += ts.text + ' '
assigned = True
break
else:
ts0, ts1 = ts.approximate_cut_at(line.end)
if ts0 and line.overlaps_with(ts0):
line.translation += ts0.text + ' '
if ts1:
unassigned_translated_segments.append(ts1)
assigned = True
break
if not assigned:
unassigned_translated_segments.append(ts)
if unassigned_translated_segments:
for line in lines:
remaining_segments = []
for ts in unassigned_translated_segments:
if ts and ts.overlaps_with(line):
line.translation += ts.text + ' '
else:
remaining_segments.append(ts)
unassigned_translated_segments = remaining_segments #maybe do smth in the future about that
if state.buffer_transcription and lines:
lines[-1].end = max(state.buffer_transcription.end, lines[-1].end)
return lines, undiarized_text, end_w_silence

216
whisperlivekit/simul_whisper/backend.py
View File

@@ -3,25 +3,40 @@ import numpy as np
import logging
from typing import List, Tuple, Optional
import logging
from whisperlivekit.timed_objects import ASRToken, Transcript
import platform
from whisperlivekit.timed_objects import ASRToken, Transcript, SpeakerSegment
from whisperlivekit.warmup import load_file
from whisperlivekit.simul_whisper.license_simulstreaming import SIMULSTREAMING_LICENSE
from .whisper import load_model, tokenizer
from .whisper.audio import TOKENS_PER_SECOND
import os
import gc
logger = logging.getLogger(__name__)
import torch
from whisperlivekit.simul_whisper.config import AlignAttConfig
from whisperlivekit.simul_whisper.simul_whisper import PaddedAlignAttWhisper
from whisperlivekit.simul_whisper.whisper import tokenizer
try:
import torch
from whisperlivekit.simul_whisper.config import AlignAttConfig
from whisperlivekit.simul_whisper.simul_whisper import PaddedAlignAttWhisper
from whisperlivekit.simul_whisper.whisper import tokenizer
except ImportError as e:
raise ImportError(
"""SimulStreaming dependencies are not available.
Please install WhisperLiveKit using pip install "whisperlivekit[simulstreaming]".""")
from .mlx_encoder import mlx_model_mapping, load_mlx_encoder
HAS_MLX_WHISPER = True
except ImportError:
if platform.system() == "Darwin" and platform.machine() == "arm64":
print(f"""
{"="*50}
MLX Whisper not found but you are on Apple Silicon. Consider installing mlx-whisper for better performance: pip install mlx-whisper
{"="*50}
""")
HAS_MLX_WHISPER = False
if HAS_MLX_WHISPER:
HAS_FASTER_WHISPER = False
else:
try:
from faster_whisper import WhisperModel
HAS_FASTER_WHISPER = True
except ImportError:
HAS_FASTER_WHISPER = False
# TOO_MANY_REPETITIONS = 3
@@ -37,11 +52,12 @@ class SimulStreamingOnlineProcessor:
self.asr = asr
self.logfile = logfile
self.end = 0.0
self.global_time_offset = 0.0
self.buffer = []
self.committed: List[ASRToken] = []
self.last_result_tokens: List[ASRToken] = []
self.load_new_backend()
#can be moved
if asr.tokenizer:
self.model.tokenizer = asr.tokenizer
@@ -49,7 +65,10 @@ class SimulStreamingOnlineProcessor:
model = self.asr.get_new_model_instance()
self.model = PaddedAlignAttWhisper(
cfg=self.asr.cfg,
loaded_model=model)
loaded_model=model,
mlx_encoder=self.asr.mlx_encoder,
fw_encoder=self.asr.fw_encoder,
)
def insert_silence(self, silence_duration, offset):
"""
@@ -62,7 +81,7 @@ class SimulStreamingOnlineProcessor:
else:
self.process_iter(is_last=True) #we want to totally process what remains in the buffer.
self.model.refresh_segment(complete=True)
self.global_time_offset += silence_duration + offset
self.model.global_time_offset = silence_duration + offset
@@ -74,64 +93,14 @@ class SimulStreamingOnlineProcessor:
self.end = audio_stream_end_time #Only to be aligned with what happens in whisperstreaming backend.
self.model.insert_audio(audio_tensor)
def on_new_speaker(self, last_segment: SpeakerSegment):
self.model.on_new_speaker(last_segment)
self.model.refresh_segment(complete=True)
def get_buffer(self):
return Transcript(
start=None,
end=None,
text='',
probability=None
)
def timestamped_text(self, tokens, generation):
"""
generate timestamped text from tokens and generation data.
args:
tokens: List of tokens to process
generation: Dictionary containing generation progress and optionally results
concat_buffer = Transcript.from_tokens(tokens= self.buffer, sep='')
return concat_buffer
returns:
List of tuples containing (start_time, end_time, word) for each word
"""
FRAME_DURATION = 0.02
if "result" in generation:
split_words = generation["result"]["split_words"]
split_tokens = generation["result"]["split_tokens"]
else:
split_words, split_tokens = self.model.tokenizer.split_to_word_tokens(tokens)
progress = generation["progress"]
frames = [p["most_attended_frames"][0] for p in progress]
absolute_timestamps = [p["absolute_timestamps"][0] for p in progress]
tokens_queue = tokens.copy()
timestamped_words = []
for word, word_tokens in zip(split_words, split_tokens):
# start_frame = None
# end_frame = None
for expected_token in word_tokens:
if not tokens_queue or not frames:
raise ValueError(f"Insufficient tokens or frames for word '{word}'")
actual_token = tokens_queue.pop(0)
current_frame = frames.pop(0)
current_timestamp = absolute_timestamps.pop(0)
if actual_token != expected_token:
raise ValueError(
f"Token mismatch: expected '{expected_token}', "
f"got '{actual_token}' at frame {current_frame}"
)
# if start_frame is None:
# start_frame = current_frame
# end_frame = current_frame
# start_time = start_frame * FRAME_DURATION
# end_time = end_frame * FRAME_DURATION
start_time = current_timestamp
end_time = current_timestamp + 0.1
timestamp_entry = (start_time, end_time, word)
timestamped_words.append(timestamp_entry)
logger.debug(f"TS-WORD:\t{start_time:.2f}\t{end_time:.2f}\t{word}")
return timestamped_words
def process_iter(self, is_last=False) -> Tuple[List[ASRToken], float]:
"""
Process accumulated audio chunks using SimulStreaming.
@@ -139,47 +108,10 @@ class SimulStreamingOnlineProcessor:
Returns a tuple: (list of committed ASRToken objects, float representing the audio processed up to time).
"""
try:
tokens, generation_progress = self.model.infer(is_last=is_last)
ts_words = self.timestamped_text(tokens, generation_progress)
new_tokens = []
for ts_word in ts_words:
start, end, word = ts_word
token = ASRToken(
start=start,
end=end,
text=word,
probability=0.95 # fake prob. Maybe we can extract it from the model?
).with_offset(
self.global_time_offset
)
new_tokens.append(token)
# identical_tokens = 0
# n_new_tokens = len(new_tokens)
# if n_new_tokens:
self.committed.extend(new_tokens)
# if token in self.committed:
# pos = len(self.committed) - 1 - self.committed[::-1].index(token)
# if pos:
# for i in range(len(self.committed) - n_new_tokens, -1, -n_new_tokens):
# commited_segment = self.committed[i:i+n_new_tokens]
# if commited_segment == new_tokens:
# identical_segments +=1
# if identical_tokens >= TOO_MANY_REPETITIONS:
# logger.warning('Too many repetition, model is stuck. Load a new one')
# self.committed = self.committed[:i]
# self.load_new_backend()
# return [], self.end
# pos = self.committed.rindex(token)
return new_tokens, self.end
timestamped_words, timestamped_buffer_language = self.model.infer(is_last=is_last)
self.buffer = timestamped_buffer_language
self.committed.extend(timestamped_words)
return timestamped_words, self.end
except Exception as e:
@@ -209,10 +141,9 @@ class SimulStreamingASR():
sep = ""
def __init__(self, lan, modelsize=None, cache_dir=None, model_dir=None, logfile=sys.stderr, **kwargs):
logger.warning(SIMULSTREAMING_LICENSE)
self.logfile = logfile
self.transcribe_kargs = {}
self.original_language = None if lan == "auto" else lan
self.original_language = lan
self.model_path = kwargs.get('model_path', './large-v3.pt')
self.frame_threshold = kwargs.get('frame_threshold', 25)
@@ -229,7 +160,8 @@ class SimulStreamingASR():
self.max_context_tokens = kwargs.get('max_context_tokens', None)
self.warmup_file = kwargs.get('warmup_file', None)
self.preload_model_count = kwargs.get('preload_model_count', 1)
self.disable_fast_encoder = kwargs.get('disable_fast_encoder', False)
self.fast_encoder = False
if model_dir is not None:
self.model_path = model_dir
elif modelsize is not None:
@@ -249,11 +181,6 @@ class SimulStreamingASR():
}
self.model_path = model_mapping.get(modelsize, f'./{modelsize}.pt')
# Set up tokenizer for translation if needed
if self.task == "translate":
self.tokenizer = self.set_translate_task()
else:
self.tokenizer = None
self.cfg = AlignAttConfig(
model_path=self.model_path,
segment_length=self.segment_length,
@@ -271,17 +198,52 @@ class SimulStreamingASR():
static_init_prompt=self.static_init_prompt,
)
# Set up tokenizer for translation if needed
if self.task == "translate":
self.tokenizer = self.set_translate_task()
else:
self.tokenizer = None
self.model_name = os.path.basename(self.cfg.model_path).replace(".pt", "")
self.model_path = os.path.dirname(os.path.abspath(self.cfg.model_path))
self.models = [self.load_model() for i in range(self.preload_model_count)]
self.mlx_encoder, self.fw_encoder = None, None
if not self.disable_fast_encoder:
if HAS_MLX_WHISPER:
print('Simulstreaming will use MLX whisper for a faster encoder.')
mlx_model_name = mlx_model_mapping[self.model_name]
self.mlx_encoder = load_mlx_encoder(path_or_hf_repo=mlx_model_name)
self.fast_encoder = True
elif HAS_FASTER_WHISPER:
print('Simulstreaming will use Faster Whisper for the encoder.')
self.fw_encoder = WhisperModel(
self.model_name,
device='auto',
compute_type='auto',
)
self.fast_encoder = True
self.models = [self.load_model() for i in range(self.preload_model_count)]
def load_model(self):
whisper_model = load_model(name=self.model_name, download_root=self.model_path)
whisper_model = load_model(name=self.model_name, download_root=self.model_path, decoder_only=self.fast_encoder)
warmup_audio = load_file(self.warmup_file)
whisper_model.transcribe(warmup_audio, language=self.original_language)
if warmup_audio is not None:
warmup_audio = torch.from_numpy(warmup_audio).float()
if self.fast_encoder:
temp_model = PaddedAlignAttWhisper(
cfg=self.cfg,
loaded_model=whisper_model,
mlx_encoder=self.mlx_encoder,
fw_encoder=self.fw_encoder,
)
temp_model.warmup(warmup_audio)
temp_model.remove_hooks()
else:
# For standard encoder, use the original transcribe warmup
warmup_audio = load_file(self.warmup_file)
whisper_model.transcribe(warmup_audio, language=self.original_language if self.original_language != 'auto' else None)
return whisper_model
def get_new_model_instance(self):
@@ -301,10 +263,12 @@ class SimulStreamingASR():
def set_translate_task(self):
"""Set up translation task."""
if self.cfg.language == 'auto':
raise Exception('Translation cannot be done with language = auto')
return tokenizer.get_tokenizer(
multilingual=True,
language=self.model.cfg.language,
num_languages=self.model.model.num_languages,
language=self.cfg.language,
num_languages=99,
task="translate"
)
@@ -312,4 +276,4 @@ class SimulStreamingASR():
"""
Warmup is done directly in load_model
"""
pass
pass

72
whisperlivekit/simul_whisper/mlx_encoder.py Normal file
View File

@@ -0,0 +1,72 @@
import json
from pathlib import Path
import mlx.core as mx
import mlx.nn as nn
from huggingface_hub import snapshot_download
from mlx.utils import tree_unflatten
from mlx_whisper import whisper
mlx_model_mapping = {
"tiny.en": "mlx-community/whisper-tiny.en-mlx",
"tiny": "mlx-community/whisper-tiny-mlx",
"base.en": "mlx-community/whisper-base.en-mlx",
"base": "mlx-community/whisper-base-mlx",
"small.en": "mlx-community/whisper-small.en-mlx",
"small": "mlx-community/whisper-small-mlx",
"medium.en": "mlx-community/whisper-medium.en-mlx",
"medium": "mlx-community/whisper-medium-mlx",
"large-v1": "mlx-community/whisper-large-v1-mlx",
"large-v2": "mlx-community/whisper-large-v2-mlx",
"large-v3": "mlx-community/whisper-large-v3-mlx",
"large-v3-turbo": "mlx-community/whisper-large-v3-turbo",
"large": "mlx-community/whisper-large-mlx",
}
def load_mlx_encoder(
path_or_hf_repo: str,
dtype: mx.Dtype = mx.float32,
) -> whisper.Whisper:
model_path = Path(path_or_hf_repo)
if not model_path.exists():
model_path = Path(snapshot_download(repo_id=path_or_hf_repo))
with open(str(model_path / "config.json"), "r") as f:
config = json.loads(f.read())
config.pop("model_type", None)
quantization = config.pop("quantization", None)
model_args = whisper.ModelDimensions(**config)
wf = model_path / "weights.safetensors"
if not wf.exists():
wf = model_path / "weights.npz"
weights = mx.load(str(wf))
model = whisper.Whisper(model_args, dtype)
if quantization is not None:
class_predicate = (
lambda p, m: isinstance(m, (nn.Linear, nn.Embedding))
and f"{p}.scales" in weights
)
nn.quantize(model, **quantization, class_predicate=class_predicate)
weights = tree_unflatten(list(weights.items()))
# we only want to load the encoder weights here.
# Size examples: for tiny.en,
# Decoder weights: 59110771 bytes
# Encoder weights: 15268874 bytes
encoder_weights = {}
encoder_weights['encoder'] = weights['encoder']
del(weights)
model.update(encoder_weights)
mx.eval(model.parameters())
return model

271
whisperlivekit/simul_whisper/simul_whisper.py
View File

@@ -8,32 +8,48 @@ import torch.nn.functional as F
from .whisper import load_model, DecodingOptions, tokenizer
from .config import AlignAttConfig
from whisperlivekit.timed_objects import ASRToken
from .whisper.audio import log_mel_spectrogram, TOKENS_PER_SECOND, pad_or_trim, N_SAMPLES, N_FRAMES
from .whisper.timing import median_filter
from .whisper.decoding import GreedyDecoder, BeamSearchDecoder, SuppressTokens, detect_language
from .beam import BeamPyTorchInference
from .eow_detection import fire_at_boundary, load_cif
import os
from time import time
from .token_buffer import TokenBuffer
import numpy as np
from ..timed_objects import PUNCTUATION_MARKS
from .generation_progress import *
DEC_PAD = 50257
logger = logging.getLogger(__name__)
import sys
import wave
# New features added to the original version of Simul-Whisper:
# - large-v3 model support
# - translation support
# - beam search
# - prompt -- static vs. non-static
# - context
try:
from mlx_whisper.audio import log_mel_spectrogram as mlx_log_mel_spectrogram
from mlx_whisper.transcribe import pad_or_trim as mlx_pad_or_trim
HAS_MLX_WHISPER = True
except ImportError:
HAS_MLX_WHISPER = False
if HAS_MLX_WHISPER:
HAS_FASTER_WHISPER = False
else:
try:
from faster_whisper.audio import pad_or_trim as fw_pad_or_trim
from faster_whisper.feature_extractor import FeatureExtractor
HAS_FASTER_WHISPER = True
except ImportError:
HAS_FASTER_WHISPER = False
class PaddedAlignAttWhisper:
def __init__(self, cfg: AlignAttConfig, loaded_model=None) -> None:
def __init__(
self,
cfg: AlignAttConfig,
loaded_model=None,
mlx_encoder=None,
fw_encoder=None,
) -> None:
self.log_segments = 0
model_name = os.path.basename(cfg.model_path).replace(".pt", "")
model_path = os.path.dirname(os.path.abspath(cfg.model_path))
@@ -41,7 +57,14 @@ class PaddedAlignAttWhisper:
self.model = loaded_model
else:
self.model = load_model(name=model_name, download_root=model_path)
self.device = 'cuda' if torch.cuda.is_available() else 'cpu'
self.mlx_encoder = mlx_encoder
self.fw_encoder = fw_encoder
if fw_encoder:
self.fw_feature_extractor = FeatureExtractor(feature_size=self.model.dims.n_mels)
logger.info(f"Model dimensions: {self.model.dims}")
self.decode_options = DecodingOptions(
@@ -51,7 +74,11 @@ class PaddedAlignAttWhisper:
)
self.tokenizer_is_multilingual = not model_name.endswith(".en")
self.create_tokenizer(cfg.language if cfg.language != "auto" else None)
# self.create_tokenizer('en')
self.detected_language = cfg.language if cfg.language != "auto" else None
self.global_time_offset = 0.0
self.reset_tokenizer_to_auto_next_call = False
self.sentence_start_time = 0.0
self.max_text_len = self.model.dims.n_text_ctx
self.num_decoder_layers = len(self.model.decoder.blocks)
@@ -126,6 +153,7 @@ class PaddedAlignAttWhisper:
self.last_attend_frame = -self.cfg.rewind_threshold
self.cumulative_time_offset = 0.0
self.sentence_start_time = self.cumulative_time_offset + self.segments_len()
if self.cfg.max_context_tokens is None:
self.max_context_tokens = self.max_text_len
@@ -147,10 +175,18 @@ class PaddedAlignAttWhisper:
self.token_decoder = BeamSearchDecoder(inference=self.inference, eot=self.tokenizer.eot, beam_size=cfg.beam_size)
def remove_hooks(self):
print('remove hook')
for hook in self.l_hooks:
hook.remove()
def warmup(self, audio):
try:
self.insert_audio(audio)
self.infer(is_last=True)
self.refresh_segment(complete=True)
logger.info("Model warmed up successfully")
except Exception as e:
logger.exception(f"Model warmup failed: {e}")
def create_tokenizer(self, language=None):
self.tokenizer = tokenizer.get_tokenizer(
multilingual=self.tokenizer_is_multilingual,
@@ -347,11 +383,11 @@ class PaddedAlignAttWhisper:
new_segment = True
if len(self.segments) == 0:
logger.debug("No segments, nothing to do")
return [], {}
return []
if not self._apply_minseglen():
logger.debug(f"applied minseglen {self.cfg.audio_min_len} > {self.segments_len()}.")
input_segments = torch.cat(self.segments, dim=0)
return [], {}
return []
# input_segments is concatenation of audio, it's one array
if len(self.segments) > 1:
@@ -359,72 +395,76 @@ class PaddedAlignAttWhisper:
else:
input_segments = self.segments[0]
# if self.cfg.language == "auto" and self.reset_tokenizer_to_auto_next_call:
# logger.debug("Resetting tokenizer to auto for new sentence.")
# self.create_tokenizer(None)
# self.detected_language = None
# self.init_tokens()
# self.reset_tokenizer_to_auto_next_call = False
# mel + padding to 30s
mel_padded = log_mel_spectrogram(input_segments, n_mels=self.model.dims.n_mels, padding=N_SAMPLES,
device=self.model.device).unsqueeze(0)
# trim to 3000
mel = pad_or_trim(mel_padded, N_FRAMES)
# the len of actual audio
content_mel_len = int((mel_padded.shape[2] - mel.shape[2])/2)
# encode
encoder_feature = self.model.encoder(mel)
# logger.debug(f"Encoder feature shape: {encoder_feature.shape}")
# if mel.shape[-2:] != (self.model.dims.n_audio_ctx, self.model.dims.n_audio_state):
# logger.debug("mel ")
# NEW : we can use a different encoder, before using standart whisper for cross attention with the hooks on the decoder
beg_encode = time()
if self.mlx_encoder:
mlx_mel_padded = mlx_log_mel_spectrogram(audio=input_segments.detach(), n_mels=self.model.dims.n_mels, padding=N_SAMPLES)
mlx_mel = mlx_pad_or_trim(mlx_mel_padded, N_FRAMES, axis=-2)
mlx_encoder_feature = self.mlx_encoder.encoder(mlx_mel[None])
encoder_feature = torch.as_tensor(mlx_encoder_feature)
content_mel_len = int((mlx_mel_padded.shape[0] - mlx_mel.shape[0])/2)
elif self.fw_encoder:
audio_length_seconds = len(input_segments) / 16000
content_mel_len = int(audio_length_seconds * 100)//2
mel_padded_2 = self.fw_feature_extractor(waveform=input_segments.numpy(), padding=N_SAMPLES)[None, :]
mel = fw_pad_or_trim(mel_padded_2, N_FRAMES, axis=-1)
encoder_feature_ctranslate = self.fw_encoder.encode(mel)
if self.device == 'cpu': #it seems that on gpu, passing StorageView to torch.as_tensor fails and wrapping in the array works
encoder_feature_ctranslate = np.array(encoder_feature_ctranslate)
try:
encoder_feature = torch.as_tensor(encoder_feature_ctranslate, device=self.device)
except TypeError: # Normally the cpu condition should prevent having exceptions, but just in case:
encoder_feature = torch.as_tensor(np.array(encoder_feature_ctranslate), device=self.device)
else:
# mel + padding to 30s
mel_padded = log_mel_spectrogram(input_segments, n_mels=self.model.dims.n_mels, padding=N_SAMPLES,
device=self.device).unsqueeze(0)
# trim to 3000
mel = pad_or_trim(mel_padded, N_FRAMES)
# the len of actual audio
content_mel_len = int((mel_padded.shape[2] - mel.shape[2])/2)
encoder_feature = self.model.encoder(mel)
end_encode = time()
# print('Encoder duration:', end_encode-beg_encode)
if self.cfg.language == "auto" and self.detected_language is None:
language_tokens, language_probs = self.lang_id(encoder_feature)
logger.debug(f"Language tokens: {language_tokens}, probs: {language_probs}")
top_lan, p = max(language_probs[0].items(), key=lambda x: x[1])
logger.info(f"Detected language: {top_lan} with p={p:.4f}")
#self.tokenizer.language = top_lan
#self.tokenizer.__post_init__()
self.create_tokenizer(top_lan)
self.detected_language = top_lan
self.init_tokens()
logger.info(f"Tokenizer language: {self.tokenizer.language}, {self.tokenizer.sot_sequence_including_notimestamps}")
seconds_since_start = (self.cumulative_time_offset + self.segments_len()) - self.sentence_start_time
if seconds_since_start >= 3.0:
language_tokens, language_probs = self.lang_id(encoder_feature)
top_lan, p = max(language_probs[0].items(), key=lambda x: x[1])
print(f"Detected language: {top_lan} with p={p:.4f}")
self.create_tokenizer(top_lan)
self.refresh_segment(complete=True)
self.detected_language = top_lan
logger.info(f"Tokenizer language: {self.tokenizer.language}, {self.tokenizer.sot_sequence_including_notimestamps}")
else:
logger.debug(f"Skipping language detection: {seconds_since_start:.2f}s < 3.0s")
self.trim_context()
current_tokens = self._current_tokens()
#
fire_detected = self.fire_at_boundary(encoder_feature[:, :content_mel_len, :])
####################### Decoding loop
logger.info("Decoding loop starts\n")
sum_logprobs = torch.zeros(self.cfg.beam_size, device=mel.device)
sum_logprobs = torch.zeros(self.cfg.beam_size, device=self.device)
completed = False
# punctuation_stop = False
attn_of_alignment_heads = None
most_attended_frame = None
token_len_before_decoding = current_tokens.shape[1]
generation_progress = []
generation = {
"starting_tokens": BeamTokens(current_tokens[0,:].clone(), self.cfg.beam_size),
"token_len_before_decoding": token_len_before_decoding,
#"fire_detected": fire_detected,
"frames_len": content_mel_len,
"frames_threshold": 4 if is_last else self.cfg.frame_threshold,
# to be filled later
"logits_starting": None,
# to be filled later
"no_speech_prob": None,
"no_speech": False,
# to be filled in the loop
"progress": generation_progress,
}
l_absolute_timestamps = []
while not completed and current_tokens.shape[1] < self.max_text_len: # bos is 3 tokens
generation_progress_loop = []
if new_segment:
tokens_for_logits = current_tokens
@@ -433,50 +473,26 @@ class PaddedAlignAttWhisper:
tokens_for_logits = current_tokens[:,-1:]
logits = self.logits(tokens_for_logits, encoder_feature) # B, len(tokens), token dict size
if new_segment:
generation["logits_starting"] = Logits(logits[:,:,:])
if new_segment and self.tokenizer.no_speech is not None:
probs_at_sot = logits[:, self.sot_index, :].float().softmax(dim=-1)
no_speech_probs = probs_at_sot[:, self.tokenizer.no_speech].tolist()
generation["no_speech_prob"] = no_speech_probs[0]
if no_speech_probs[0] > self.cfg.nonspeech_prob:
generation["no_speech"] = True
logger.info("no speech, stop")
break
logits = logits[:, -1, :] # logits for the last token
generation_progress_loop.append(("logits_before_suppress",Logits(logits)))
# supress blank tokens only at the beginning of the segment
if new_segment:
logits[:, self.tokenizer.encode(" ") + [self.tokenizer.eot]] = -np.inf
new_segment = False
self.suppress_tokens(logits)
#generation_progress_loop.append(("logits_after_suppres",BeamLogits(logits[0,:].clone(), self.cfg.beam_size)))
generation_progress_loop.append(("logits_after_suppress",Logits(logits)))
current_tokens, completed = self.token_decoder.update(current_tokens, logits, sum_logprobs)
generation_progress_loop.append(("beam_tokens",Tokens(current_tokens[:,-1].clone())))
generation_progress_loop.append(("sum_logprobs",sum_logprobs.tolist()))
generation_progress_loop.append(("completed",completed))
logger.debug(f"Decoding completed: {completed}, sum_logprobs: {sum_logprobs.tolist()}, tokens: ")
self.debug_print_tokens(current_tokens)
# if self.decoder_type == "beam":
# logger.debug(f"Finished sequences: {self.token_decoder.finished_sequences}")
# logprobs = F.log_softmax(logits.float(), dim=-1)
# idx = 0
# logger.debug(f"Beam search topk: {logprobs[idx].topk(self.cfg.beam_size + 1)}")
# logger.debug(f"Greedy search argmax: {logits.argmax(dim=-1)}")
# if completed:
# self.debug_print_tokens(current_tokens)
# logger.debug("decode stopped because decoder completed")
attn_of_alignment_heads = [[] for _ in range(self.num_align_heads)]
for i, attn_mat in enumerate(self.dec_attns):
layer_rank = int(i % len(self.model.decoder.blocks))
@@ -495,30 +511,24 @@ class PaddedAlignAttWhisper:
t = torch.cat(mat, dim=1)
tmp.append(t)
attn_of_alignment_heads = torch.stack(tmp, dim=1)
# logger.debug(str(attn_of_alignment_heads.shape) + " tttady")
std, mean = torch.std_mean(attn_of_alignment_heads, dim=-2, keepdim=True, unbiased=False)
attn_of_alignment_heads = (attn_of_alignment_heads - mean) / std
attn_of_alignment_heads = median_filter(attn_of_alignment_heads, 7) # from whisper.timing
attn_of_alignment_heads = attn_of_alignment_heads.mean(dim=1)
# logger.debug(str(attn_of_alignment_heads.shape) + " po mean")
attn_of_alignment_heads = attn_of_alignment_heads[:,:, :content_mel_len]
# logger.debug(str(attn_of_alignment_heads.shape) + " pak ")
# for each beam, the most attended frame is:
most_attended_frames = torch.argmax(attn_of_alignment_heads[:,-1,:], dim=-1)
generation_progress_loop.append(("most_attended_frames",most_attended_frames.clone().tolist()))
# Calculate absolute timestamps accounting for cumulative offset
absolute_timestamps = [(frame * 0.02 + self.cumulative_time_offset) for frame in most_attended_frames.tolist()]
generation_progress_loop.append(("absolute_timestamps", absolute_timestamps))
logger.debug(str(most_attended_frames.tolist()) + " most att frames")
logger.debug(f"Absolute timestamps: {absolute_timestamps} (offset: {self.cumulative_time_offset:.2f}s)")
most_attended_frame = most_attended_frames[0].item()
l_absolute_timestamps.append(absolute_timestamps[0])
generation_progress.append(dict(generation_progress_loop))
logger.debug("current tokens" + str(current_tokens.shape))
if completed:
# # stripping the last token, the eot
@@ -556,66 +566,53 @@ class PaddedAlignAttWhisper:
self.tokenizer.decode([current_tokens[i, -1].item()])
))
# for k,v in generation.items():
# print(k,v,file=sys.stderr)
# for x in generation_progress:
# for y in x.items():
# print("\t\t",*y,file=sys.stderr)
# print("\t","----", file=sys.stderr)
# print("\t", "end of generation_progress_loop", file=sys.stderr)
# sys.exit(1)
####################### End of decoding loop
logger.info("End of decoding loop")
# if attn_of_alignment_heads is not None:
# seg_len = int(segment.shape[0] / 16000 * TOKENS_PER_SECOND)
# # Lets' now consider only the top hypothesis in the beam search
# top_beam_attn_of_alignment_heads = attn_of_alignment_heads[0]
# # debug print: how is the new token attended?
# new_token_attn = top_beam_attn_of_alignment_heads[token_len_before_decoding:, -seg_len:]
# logger.debug(f"New token attention shape: {new_token_attn.shape}")
# if new_token_attn.shape[0] == 0: # it's not attended in the current audio segment
# logger.debug("no token generated")
# else: # it is, and the max attention is:
# new_token_max_attn, _ = new_token_attn.max(dim=-1)
# logger.debug(f"segment max attention: {new_token_max_attn.mean().item()/len(self.segments)}")
# let's now operate only with the top beam hypothesis
tokens_to_split = current_tokens[0, token_len_before_decoding:]
if fire_detected or is_last:
if fire_detected or is_last: #or punctuation_stop:
new_hypothesis = tokens_to_split.flatten().tolist()
split_words, split_tokens = self.tokenizer.split_to_word_tokens(new_hypothesis)
else:
# going to truncate the tokens after the last space
split_words, split_tokens = self.tokenizer.split_to_word_tokens(tokens_to_split.tolist())
generation["result"] = {"split_words": split_words[:-1], "split_tokens": split_tokens[:-1]}
generation["result_truncated"] = {"split_words": split_words[-1:], "split_tokens": split_tokens[-1:]}
# text_to_split = self.tokenizer.decode(tokens_to_split)
# logger.debug(f"text_to_split: {text_to_split}")
# logger.debug("text at current step: {}".format(text_to_split.replace(" ", "<space>")))
# text_before_space = " ".join(text_to_split.split(" ")[:-1])
# logger.debug("before the last space: {}".format(text_before_space.replace(" ", "<space>")))
if len(split_words) > 1:
new_hypothesis = [i for sublist in split_tokens[:-1] for i in sublist]
else:
new_hypothesis = []
### new hypothesis
logger.debug(f"new_hypothesis: {new_hypothesis}")
new_tokens = torch.tensor([new_hypothesis], dtype=torch.long).repeat_interleave(self.cfg.beam_size, dim=0).to(
device=self.model.device,
device=self.device,
)
self.tokens.append(new_tokens)
# TODO: test if this is redundant or not
# ret = ret[ret<DEC_PAD]
logger.info(f"Output: {self.tokenizer.decode(new_hypothesis)}")
self._clean_cache()
return new_hypothesis, generation
timestamped_words = []
timestamp_idx = 0
for word, word_tokens in zip(split_words, split_tokens):
try:
current_timestamp = l_absolute_timestamps[timestamp_idx]
except:
pass
timestamp_idx += len(word_tokens)
timestamp_entry = ASRToken(
start=current_timestamp,
end=current_timestamp + 0.1,
text= word,
probability=0.95,
language=self.detected_language
).with_offset(
self.global_time_offset
)
timestamped_words.append(timestamp_entry)
if self.detected_language is None and self.cfg.language == "auto":
timestamped_buffer_language, timestamped_words = timestamped_words, []
else:
timestamped_buffer_language = []
return timestamped_words, timestamped_buffer_language

10
whisperlivekit/simul_whisper/whisper/__init__.py
View File

@@ -105,6 +105,7 @@ def load_model(
device: Optional[Union[str, torch.device]] = None,
download_root: str = None,
in_memory: bool = False,
decoder_only=False
) -> Whisper:
"""
Load a Whisper ASR model
@@ -151,7 +152,14 @@ def load_model(
del checkpoint_file
dims = ModelDimensions(**checkpoint["dims"])
model = Whisper(dims)
model = Whisper(dims, decoder_only=decoder_only)
if decoder_only:
checkpoint["model_state_dict"] = {
k: v for k, v in checkpoint["model_state_dict"].items()
if 'encoder' not in k
}
model.load_state_dict(checkpoint["model_state_dict"])
if alignment_heads is not None:

18
whisperlivekit/simul_whisper/whisper/model.py
View File

@@ -253,16 +253,18 @@ class TextDecoder(nn.Module):
class Whisper(nn.Module):
def __init__(self, dims: ModelDimensions):
def __init__(self, dims: ModelDimensions, decoder_only: bool = False):
super().__init__()
self.dims = dims
self.encoder = AudioEncoder(
self.dims.n_mels,
self.dims.n_audio_ctx,
self.dims.n_audio_state,
self.dims.n_audio_head,
self.dims.n_audio_layer,
)
if not decoder_only:
self.encoder = AudioEncoder(
self.dims.n_mels,
self.dims.n_audio_ctx,
self.dims.n_audio_state,
self.dims.n_audio_head,
self.dims.n_audio_layer,
)
self.decoder = TextDecoder(
self.dims.n_vocab,
self.dims.n_text_ctx,

150
whisperlivekit/timed_objects.py
View File

@@ -1,14 +1,45 @@
from dataclasses import dataclass
from typing import Optional
from dataclasses import dataclass, field
from typing import Optional, Any, List
from datetime import timedelta
PUNCTUATION_MARKS = {'.', '!', '?', '', '', ''}
def format_time(seconds: float) -> str:
"""Format seconds as HH:MM:SS."""
return str(timedelta(seconds=int(seconds)))
@dataclass
class TimedText:
start: Optional[float]
end: Optional[float]
start: Optional[float] = 0
end: Optional[float] = 0
text: Optional[str] = ''
speaker: Optional[int] = -1
probability: Optional[float] = None
is_dummy: Optional[bool] = False
language: str = None
def is_punctuation(self):
return self.text.strip() in PUNCTUATION_MARKS
def overlaps_with(self, other: 'TimedText') -> bool:
return not (self.end <= other.start or other.end <= self.start)
def is_within(self, other: 'TimedText') -> bool:
return other.contains_timespan(self)
def duration(self) -> float:
return self.end - self.start
def contains_time(self, time: float) -> bool:
return self.start <= time <= self.end
def contains_timespan(self, other: 'TimedText') -> bool:
return self.start <= other.start and self.end >= other.end
def __bool__(self):
return bool(self.text)
@dataclass
class ASRToken(TimedText):
@@ -22,7 +53,28 @@ class Sentence(TimedText):
@dataclass
class Transcript(TimedText):
pass
"""
represents a concatenation of several ASRToken
"""
@classmethod
def from_tokens(
cls,
tokens: List[ASRToken],
sep: Optional[str] = None,
offset: float = 0
) -> "Transcript":
sep = sep if sep is not None else ' '
text = sep.join(token.text for token in tokens)
probability = sum(token.probability for token in tokens if token.probability) / len(tokens) if tokens else None
if tokens:
start = offset + tokens[0].start
end = offset + tokens[-1].end
else:
start = None
end = None
return cls(start, end, text, probability=probability)
@dataclass
class SpeakerSegment(TimedText):
@@ -31,6 +83,92 @@ class SpeakerSegment(TimedText):
"""
pass
@dataclass
class Translation(TimedText):
pass
def approximate_cut_at(self, cut_time):
"""
Each word in text is considered to be of duration (end-start)/len(words in text)
"""
if not self.text or not self.contains_time(cut_time):
return self, None
words = self.text.split()
num_words = len(words)
if num_words == 0:
return self, None
duration_per_word = self.duration() / num_words
cut_word_index = int((cut_time - self.start) / duration_per_word)
if cut_word_index >= num_words:
cut_word_index = num_words -1
text0 = " ".join(words[:cut_word_index])
text1 = " ".join(words[cut_word_index:])
segment0 = Translation(start=self.start, end=cut_time, text=text0)
segment1 = Translation(start=cut_time, end=self.end, text=text1)
return segment0, segment1
@dataclass
class Silence():
duration: float
duration: float
@dataclass
class Line(TimedText):
translation: str = ''
detected_language: str = None
def to_dict(self):
_dict = {
'speaker': int(self.speaker),
'text': self.text,
'start': format_time(self.start),
'end': format_time(self.end),
}
if self.translation:
_dict['translation'] = self.translation
if self.detected_language:
_dict['detected_language'] = self.detected_language
return _dict
@dataclass
class FrontData():
status: str = ''
error: str = ''
lines: list[Line] = field(default_factory=list)
buffer_transcription: str = ''
buffer_diarization: str = ''
remaining_time_transcription: float = 0.
remaining_time_diarization: float = 0.
def to_dict(self):
_dict = {
'status': self.status,
'lines': [line.to_dict() for line in self.lines],
'buffer_transcription': self.buffer_transcription,
'buffer_diarization': self.buffer_diarization,
'remaining_time_transcription': self.remaining_time_transcription,
'remaining_time_diarization': self.remaining_time_diarization,
}
if self.error:
_dict['error'] = self.error
return _dict
@dataclass
class State():
tokens: list
translated_segments: list
buffer_transcription: str
buffer_diarization: str
end_buffer: float
end_attributed_speaker: float
remaining_time_transcription: float
remaining_time_diarization: float

0
whisperlivekit/translation/__init__.py Normal file
View File

182
whisperlivekit/translation/mapping_languages.py Normal file
View File

@@ -0,0 +1,182 @@
"""
adapted from https://store.crowdin.com/custom-mt
"""
LANGUAGES = [
{"name": "Afrikaans", "nllb": "afr_Latn", "crowdin": "af"},
{"name": "Akan", "nllb": "aka_Latn", "crowdin": "ak"},
{"name": "Amharic", "nllb": "amh_Ethi", "crowdin": "am"},
{"name": "Assamese", "nllb": "asm_Beng", "crowdin": "as"},
{"name": "Asturian", "nllb": "ast_Latn", "crowdin": "ast"},
{"name": "Bashkir", "nllb": "bak_Cyrl", "crowdin": "ba"},
{"name": "Bambara", "nllb": "bam_Latn", "crowdin": "bm"},
{"name": "Balinese", "nllb": "ban_Latn", "crowdin": "ban"},
{"name": "Belarusian", "nllb": "bel_Cyrl", "crowdin": "be"},
{"name": "Bengali", "nllb": "ben_Beng", "crowdin": "bn"},
{"name": "Bosnian", "nllb": "bos_Latn", "crowdin": "bs"},
{"name": "Bulgarian", "nllb": "bul_Cyrl", "crowdin": "bg"},
{"name": "Catalan", "nllb": "cat_Latn", "crowdin": "ca"},
{"name": "Cebuano", "nllb": "ceb_Latn", "crowdin": "ceb"},
{"name": "Czech", "nllb": "ces_Latn", "crowdin": "cs"},
{"name": "Welsh", "nllb": "cym_Latn", "crowdin": "cy"},
{"name": "Danish", "nllb": "dan_Latn", "crowdin": "da"},
{"name": "German", "nllb": "deu_Latn", "crowdin": "de"},
{"name": "Dzongkha", "nllb": "dzo_Tibt", "crowdin": "dz"},
{"name": "Greek", "nllb": "ell_Grek", "crowdin": "el"},
{"name": "English", "nllb": "eng_Latn", "crowdin": "en"},
{"name": "Esperanto", "nllb": "epo_Latn", "crowdin": "eo"},
{"name": "Estonian", "nllb": "est_Latn", "crowdin": "et"},
{"name": "Basque", "nllb": "eus_Latn", "crowdin": "eu"},
{"name": "Ewe", "nllb": "ewe_Latn", "crowdin": "ee"},
{"name": "Faroese", "nllb": "fao_Latn", "crowdin": "fo"},
{"name": "Fijian", "nllb": "fij_Latn", "crowdin": "fj"},
{"name": "Finnish", "nllb": "fin_Latn", "crowdin": "fi"},
{"name": "French", "nllb": "fra_Latn", "crowdin": "fr"},
{"name": "Friulian", "nllb": "fur_Latn", "crowdin": "fur-IT"},
{"name": "Scottish Gaelic", "nllb": "gla_Latn", "crowdin": "gd"},
{"name": "Irish", "nllb": "gle_Latn", "crowdin": "ga-IE"},
{"name": "Galician", "nllb": "glg_Latn", "crowdin": "gl"},
{"name": "Guarani", "nllb": "grn_Latn", "crowdin": "gn"},
{"name": "Gujarati", "nllb": "guj_Gujr", "crowdin": "gu-IN"},
{"name": "Haitian Creole", "nllb": "hat_Latn", "crowdin": "ht"},
{"name": "Hausa", "nllb": "hau_Latn", "crowdin": "ha"},
{"name": "Hebrew", "nllb": "heb_Hebr", "crowdin": "he"},
{"name": "Hindi", "nllb": "hin_Deva", "crowdin": "hi"},
{"name": "Croatian", "nllb": "hrv_Latn", "crowdin": "hr"},
{"name": "Hungarian", "nllb": "hun_Latn", "crowdin": "hu"},
{"name": "Armenian", "nllb": "hye_Armn", "crowdin": "hy-AM"},
{"name": "Igbo", "nllb": "ibo_Latn", "crowdin": "ig"},
{"name": "Indonesian", "nllb": "ind_Latn", "crowdin": "id"},
{"name": "Icelandic", "nllb": "isl_Latn", "crowdin": "is"},
{"name": "Italian", "nllb": "ita_Latn", "crowdin": "it"},
{"name": "Javanese", "nllb": "jav_Latn", "crowdin": "jv"},
{"name": "Japanese", "nllb": "jpn_Jpan", "crowdin": "ja"},
{"name": "Kabyle", "nllb": "kab_Latn", "crowdin": "kab"},
{"name": "Kannada", "nllb": "kan_Knda", "crowdin": "kn"},
{"name": "Georgian", "nllb": "kat_Geor", "crowdin": "ka"},
{"name": "Kazakh", "nllb": "kaz_Cyrl", "crowdin": "kk"},
{"name": "Khmer", "nllb": "khm_Khmr", "crowdin": "km"},
{"name": "Kinyarwanda", "nllb": "kin_Latn", "crowdin": "rw"},
{"name": "Kyrgyz", "nllb": "kir_Cyrl", "crowdin": "ky"},
{"name": "Korean", "nllb": "kor_Hang", "crowdin": "ko"},
{"name": "Lao", "nllb": "lao_Laoo", "crowdin": "lo"},
{"name": "Ligurian", "nllb": "lij_Latn", "crowdin": "lij"},
{"name": "Limburgish", "nllb": "lim_Latn", "crowdin": "li"},
{"name": "Lingala", "nllb": "lin_Latn", "crowdin": "ln"},
{"name": "Lithuanian", "nllb": "lit_Latn", "crowdin": "lt"},
{"name": "Luxembourgish", "nllb": "ltz_Latn", "crowdin": "lb"},
{"name": "Maithili", "nllb": "mai_Deva", "crowdin": "mai"},
{"name": "Malayalam", "nllb": "mal_Mlym", "crowdin": "ml-IN"},
{"name": "Marathi", "nllb": "mar_Deva", "crowdin": "mr"},
{"name": "Macedonian", "nllb": "mkd_Cyrl", "crowdin": "mk"},
{"name": "Maltese", "nllb": "mlt_Latn", "crowdin": "mt"},
{"name": "Mossi", "nllb": "mos_Latn", "crowdin": "mos"},
{"name": "Maori", "nllb": "mri_Latn", "crowdin": "mi"},
{"name": "Burmese", "nllb": "mya_Mymr", "crowdin": "my"},
{"name": "Dutch", "nllb": "nld_Latn", "crowdin": "nl"},
{"name": "Norwegian Nynorsk", "nllb": "nno_Latn", "crowdin": "nn-NO"},
{"name": "Nepali", "nllb": "npi_Deva", "crowdin": "ne-NP"},
{"name": "Northern Sotho", "nllb": "nso_Latn", "crowdin": "nso"},
{"name": "Occitan", "nllb": "oci_Latn", "crowdin": "oc"},
{"name": "Odia", "nllb": "ory_Orya", "crowdin": "or"},
{"name": "Papiamento", "nllb": "pap_Latn", "crowdin": "pap"},
{"name": "Polish", "nllb": "pol_Latn", "crowdin": "pl"},
{"name": "Portuguese", "nllb": "por_Latn", "crowdin": "pt-PT"},
{"name": "Dari", "nllb": "prs_Arab", "crowdin": "fa-AF"},
{"name": "Romanian", "nllb": "ron_Latn", "crowdin": "ro"},
{"name": "Rundi", "nllb": "run_Latn", "crowdin": "rn"},
{"name": "Russian", "nllb": "rus_Cyrl", "crowdin": "ru"},
{"name": "Sango", "nllb": "sag_Latn", "crowdin": "sg"},
{"name": "Sanskrit", "nllb": "san_Deva", "crowdin": "sa"},
{"name": "Santali", "nllb": "sat_Olck", "crowdin": "sat"},
{"name": "Sinhala", "nllb": "sin_Sinh", "crowdin": "si-LK"},
{"name": "Slovak", "nllb": "slk_Latn", "crowdin": "sk"},
{"name": "Slovenian", "nllb": "slv_Latn", "crowdin": "sl"},
{"name": "Shona", "nllb": "sna_Latn", "crowdin": "sn"},
{"name": "Sindhi", "nllb": "snd_Arab", "crowdin": "sd"},
{"name": "Somali", "nllb": "som_Latn", "crowdin": "so"},
{"name": "Southern Sotho", "nllb": "sot_Latn", "crowdin": "st"},
{"name": "Spanish", "nllb": "spa_Latn", "crowdin": "es-ES"},
{"name": "Sardinian", "nllb": "srd_Latn", "crowdin": "sc"},
{"name": "Swati", "nllb": "ssw_Latn", "crowdin": "ss"},
{"name": "Sundanese", "nllb": "sun_Latn", "crowdin": "su"},
{"name": "Swedish", "nllb": "swe_Latn", "crowdin": "sv-SE"},
{"name": "Swahili", "nllb": "swh_Latn", "crowdin": "sw"},
{"name": "Tamil", "nllb": "tam_Taml", "crowdin": "ta"},
{"name": "Tatar", "nllb": "tat_Cyrl", "crowdin": "tt-RU"},
{"name": "Telugu", "nllb": "tel_Telu", "crowdin": "te"},
{"name": "Tajik", "nllb": "tgk_Cyrl", "crowdin": "tg"},
{"name": "Tagalog", "nllb": "tgl_Latn", "crowdin": "tl"},
{"name": "Thai", "nllb": "tha_Thai", "crowdin": "th"},
{"name": "Tigrinya", "nllb": "tir_Ethi", "crowdin": "ti"},
{"name": "Tswana", "nllb": "tsn_Latn", "crowdin": "tn"},
{"name": "Tsonga", "nllb": "tso_Latn", "crowdin": "ts"},
{"name": "Turkmen", "nllb": "tuk_Latn", "crowdin": "tk"},
{"name": "Turkish", "nllb": "tur_Latn", "crowdin": "tr"},
{"name": "Uyghur", "nllb": "uig_Arab", "crowdin": "ug"},
{"name": "Ukrainian", "nllb": "ukr_Cyrl", "crowdin": "uk"},
{"name": "Venetian", "nllb": "vec_Latn", "crowdin": "vec"},
{"name": "Vietnamese", "nllb": "vie_Latn", "crowdin": "vi"},
{"name": "Wolof", "nllb": "wol_Latn", "crowdin": "wo"},
{"name": "Xhosa", "nllb": "xho_Latn", "crowdin": "xh"},
{"name": "Yoruba", "nllb": "yor_Latn", "crowdin": "yo"},
{"name": "Zulu", "nllb": "zul_Latn", "crowdin": "zu"},
]
NAME_TO_NLLB = {lang["name"]: lang["nllb"] for lang in LANGUAGES}
NAME_TO_CROWDIN = {lang["name"]: lang["crowdin"] for lang in LANGUAGES}
CROWDIN_TO_NLLB = {lang["crowdin"]: lang["nllb"] for lang in LANGUAGES}
NLLB_TO_CROWDIN = {lang["nllb"]: lang["crowdin"] for lang in LANGUAGES}
CROWDIN_TO_NAME = {lang["crowdin"]: lang["name"] for lang in LANGUAGES}
NLLB_TO_NAME = {lang["nllb"]: lang["name"] for lang in LANGUAGES}
def get_nllb_code(crowdin_code):
return CROWDIN_TO_NLLB.get(crowdin_code, None)
def get_crowdin_code(nllb_code):
return NLLB_TO_CROWDIN.get(nllb_code)
def get_language_name_by_crowdin(crowdin_code):
return CROWDIN_TO_NAME.get(crowdin_code)
def get_language_name_by_nllb(nllb_code):
return NLLB_TO_NAME.get(nllb_code)
def get_language_info(identifier, identifier_type="auto"):
if identifier_type == "auto":
for lang in LANGUAGES:
if (lang["name"].lower() == identifier.lower() or
lang["nllb"] == identifier or
lang["crowdin"] == identifier):
return lang
elif identifier_type == "name":
for lang in LANGUAGES:
if lang["name"].lower() == identifier.lower():
return lang
elif identifier_type == "nllb":
for lang in LANGUAGES:
if lang["nllb"] == identifier:
return lang
elif identifier_type == "crowdin":
for lang in LANGUAGES:
if lang["crowdin"] == identifier:
return lang
return None
def list_all_languages():
return [lang["name"] for lang in LANGUAGES]
def list_all_nllb_codes():
return [lang["nllb"] for lang in LANGUAGES]
def list_all_crowdin_codes():
return [lang["crowdin"] for lang in LANGUAGES]

148
whisperlivekit/translation/translation.py Normal file
View File

@@ -0,0 +1,148 @@
import logging
import time
import ctranslate2
import torch
import transformers
from dataclasses import dataclass
import huggingface_hub
from whisperlivekit.translation.mapping_languages import get_nllb_code
from whisperlivekit.timed_objects import Translation
logger = logging.getLogger(__name__)
#In diarization case, we may want to translate just one speaker, or at least start the sentences there
MIN_SILENCE_DURATION_DEL_BUFFER = 3 #After a silence of x seconds, we consider the model should not use the buffer, even if the previous
# sentence is not finished.
@dataclass
class TranslationModel():
translator: ctranslate2.Translator
tokenizer: dict
device: str
backend_type: str = 'ctranslate2'
def load_model(src_langs, backend='ctranslate2', model_size='600M'):
device = "cuda" if torch.cuda.is_available() else "cpu"
MODEL = f'nllb-200-distilled-{model_size}-ctranslate2'
if backend=='ctranslate2':
MODEL_GUY = 'entai2965'
huggingface_hub.snapshot_download(MODEL_GUY + '/' + MODEL,local_dir=MODEL)
translator = ctranslate2.Translator(MODEL,device=device)
elif backend=='transformers':
translator = transformers.AutoModelForSeq2SeqLM.from_pretrained(f"facebook/nllb-200-distilled-{model_size}")
tokenizer = dict()
for src_lang in src_langs:
tokenizer[src_lang] = transformers.AutoTokenizer.from_pretrained(MODEL, src_lang=src_lang, clean_up_tokenization_spaces=True)
return TranslationModel(
translator=translator,
tokenizer=tokenizer,
backend_type=backend,
device = device
)
class OnlineTranslation:
def __init__(self, translation_model: TranslationModel, input_languages: list, output_languages: list):
self.buffer = []
self.len_processed_buffer = 0
self.translation_remaining = Translation()
self.validated = []
self.translation_pending_validation = ''
self.translation_model = translation_model
self.input_languages = input_languages
self.output_languages = output_languages
def compute_common_prefix(self, results):
#we dont want want to prune the result for the moment.
if not self.buffer:
self.buffer = results
else:
for i in range(min(len(self.buffer), len(results))):
if self.buffer[i] != results[i]:
self.commited.extend(self.buffer[:i])
self.buffer = results[i:]
def translate(self, input, input_lang=None, output_lang=None):
if not input:
return ""
if input_lang is None:
input_lang = self.input_languages[0]
if output_lang is None:
output_lang = self.output_languages[0]
nllb_output_lang = get_nllb_code(output_lang)
tokenizer = self.translation_model.tokenizer[input_lang]
tokenizer_output = tokenizer(input, return_tensors="pt").to(self.translation_model.device)
if self.translation_model.backend_type == 'ctranslate2':
source = tokenizer.convert_ids_to_tokens(tokenizer_output['input_ids'][0])
results = self.translation_model.translator.translate_batch([source], target_prefix=[[nllb_output_lang]])
target = results[0].hypotheses[0][1:]
result = tokenizer.decode(tokenizer.convert_tokens_to_ids(target))
else:
translated_tokens = self.translation_model.translator.generate(**tokenizer_output, forced_bos_token_id=tokenizer.convert_tokens_to_ids(nllb_output_lang))
result = tokenizer.batch_decode(translated_tokens, skip_special_tokens=True)[0]
return result
def translate_tokens(self, tokens):
if tokens:
text = ' '.join([token.text for token in tokens])
start = tokens[0].start
end = tokens[-1].end
translated_text = self.translate(text)
translation = Translation(
text=translated_text,
start=start,
end=end,
)
return translation
return None
def insert_tokens(self, tokens):
self.buffer.extend(tokens)
pass
def process(self):
i = 0
if len(self.buffer) < self.len_processed_buffer + 3: #nothing new to process
return self.validated + [self.translation_remaining]
while i < len(self.buffer):
if self.buffer[i].is_punctuation():
translation_sentence = self.translate_tokens(self.buffer[:i+1])
self.validated.append(translation_sentence)
self.buffer = self.buffer[i+1:]
i = 0
else:
i+=1
self.translation_remaining = self.translate_tokens(self.buffer)
self.len_processed_buffer = len(self.buffer)
return self.validated + [self.translation_remaining]
def insert_silence(self, silence_duration: float):
if silence_duration >= MIN_SILENCE_DURATION_DEL_BUFFER:
self.buffer = []
self.validated += [self.translation_remaining]
if __name__ == '__main__':
output_lang = 'fr'
input_lang = "en"
test_string = """
Transcription technology has improved so much in the past few years. Have you noticed how accurate real-time speech-to-text is now?
"""
test = test_string.split(' ')
step = len(test) // 3
shared_model = load_model([input_lang], backend='ctranslate2')
online_translation = OnlineTranslation(shared_model, input_languages=[input_lang], output_languages=[output_lang])
beg_inference = time.time()
for id in range(5):
val = test[id*step : (id+1)*step]
val_str = ' '.join(val)
result = online_translation.translate(val_str)
print(result)
print('inference time:', time.time() - beg_inference)

69
whisperlivekit/warmup.py
View File

@@ -6,57 +6,46 @@ logger = logging.getLogger(__name__)
def load_file(warmup_file=None, timeout=5):
import os
import tempfile
import urllib.request
import librosa
if warmup_file == "":
logger.info(f"Skipping warmup.")
return None
# Download JFK sample if not already present
if warmup_file is None:
# Download JFK sample if not already present
jfk_url = "https://github.com/ggerganov/whisper.cpp/raw/master/samples/jfk.wav"
temp_dir = tempfile.gettempdir()
warmup_file = os.path.join(temp_dir, "whisper_warmup_jfk.wav")
if not os.path.exists(warmup_file):
logger.debug(f"Downloading warmup file from {jfk_url}")
print(f"Downloading warmup file from {jfk_url}")
import time
import urllib.request
import urllib.error
import socket
original_timeout = socket.getdefaulttimeout()
socket.setdefaulttimeout(timeout)
start_time = time.time()
if not os.path.exists(warmup_file) or os.path.getsize(warmup_file) == 0:
try:
urllib.request.urlretrieve(jfk_url, warmup_file)
logger.debug(f"Download successful in {time.time() - start_time:.2f}s")
except (urllib.error.URLError, socket.timeout) as e:
logger.warning(f"Download failed: {e}. Proceeding without warmup.")
return False
finally:
socket.setdefaulttimeout(original_timeout)
elif not warmup_file:
return False
if not warmup_file or not os.path.exists(warmup_file) or os.path.getsize(warmup_file) == 0:
logger.warning(f"Warmup file {warmup_file} invalid or missing.")
return False
logger.debug(f"Downloading warmup file from {jfk_url}")
with urllib.request.urlopen(jfk_url, timeout=timeout) as r, open(warmup_file, "wb") as f:
f.write(r.read())
except Exception as e:
logger.warning(f"Warmup file download failed: {e}.")
return None
# Validate file and load
if not os.path.exists(warmup_file) or os.path.getsize(warmup_file) == 0:
logger.warning(f"Warmup file {warmup_file} is invalid or missing.")
return None
try:
audio, sr = librosa.load(warmup_file, sr=16000)
audio, _ = librosa.load(warmup_file, sr=16000)
return audio
except Exception as e:
logger.warning(f"Failed to load audio file: {e}")
return False
return audio
logger.warning(f"Failed to load warmup file: {e}")
return None
def warmup_asr(asr, warmup_file=None, timeout=5):
"""
Warmup the ASR model by transcribing a short audio file.
"""
audio = load_file(warmup_file=None, timeout=5)
audio = load_file(warmup_file=warmup_file, timeout=timeout)
if audio is None:
logger.warning("Warmup file unavailable. Skipping ASR warmup.")
return
asr.transcribe(audio)
logger.info("ASR model is warmed up")
def warmup_online(online, warmup_file=None, timeout=5):
audio = load_file(warmup_file=None, timeout=5)
online.warmup(audio)
logger.warning("ASR is warmed up")
logger.info("ASR model is warmed up.")

196
whisperlivekit/web/live_transcription.css
View File

@@ -74,10 +74,13 @@
body {
font-family: ui-sans-serif, system-ui, sans-serif, 'Apple Color Emoji', 'Segoe UI Emoji', 'Segoe UI Symbol', 'Noto Color Emoji';
margin: 20px;
margin: 0;
text-align: center;
background-color: var(--bg);
color: var(--text);
height: 100vh;
display: flex;
flex-direction: column;
}
/* Record button */
@@ -168,9 +171,18 @@ body {
}
#status {
margin-top: 20px;
margin-top: 15px;
font-size: 16px;
color: var(--text);
margin-bottom: 0;
}
.header-container {
position: sticky;
top: 0;
background-color: var(--bg);
z-index: 100;
padding: 20px;
}
/* Settings */
@@ -179,12 +191,11 @@ body {
justify-content: center;
align-items: center;
gap: 15px;
margin-top: 20px;
}
.settings {
display: flex;
flex-direction: column;
flex-wrap: wrap;
align-items: flex-start;
gap: 12px;
}
@@ -198,23 +209,27 @@ body {
#chunkSelector,
#websocketInput,
#themeSelector {
#themeSelector,
#microphoneSelect {
font-size: 16px;
padding: 5px 8px;
border-radius: 8px;
border: 1px solid var(--border);
background-color: var(--button-bg);
color: var(--text);
max-height: 34px;
max-height: 30px;
}
#websocketInput {
width: 220px;
#microphoneSelect {
width: 100%;
max-width: 190px;
min-width: 120px;
}
#chunkSelector:focus,
#websocketInput:focus,
#themeSelector:focus {
#themeSelector:focus,
#microphoneSelect:focus {
outline: none;
border-color: #007bff;
box-shadow: 0 0 0 3px rgba(0, 123, 255, 0.15);
@@ -247,9 +262,9 @@ label {
}
.theme-selector-container {
position: absolute;
top: 20px;
right: 20px;
display: flex;
align-items: center;
margin-top: 17px;
}
.segmented label {
@@ -293,9 +308,21 @@ label {
border-radius: 999px;
}
.transcript-container {
flex: 1;
overflow-y: auto;
padding: 20px;
scrollbar-width: none;
-ms-overflow-style: none;
}
.transcript-container::-webkit-scrollbar {
display: none;
}
/* Transcript area */
#linesTranscript {
margin: 20px auto;
margin: 0 auto;
max-width: 700px;
text-align: left;
font-size: 16px;
@@ -319,7 +346,7 @@ label {
.label_diarization {
background-color: var(--chip-bg);
border-radius: 8px 8px 8px 8px;
border-radius: 100px;
padding: 2px 10px;
margin-left: 10px;
display: inline-block;
@@ -331,7 +358,7 @@ label {
.label_transcription {
background-color: var(--chip-bg);
border-radius: 8px 8px 8px 8px;
border-radius: 100px;
padding: 2px 10px;
display: inline-block;
white-space: nowrap;
@@ -341,9 +368,34 @@ label {
color: var(--label-trans-text);
}
.label_translation {
background-color: var(--chip-bg);
display: inline-flex;
border-radius: 10px;
padding: 4px 8px;
margin-top: 4px;
font-size: 14px;
color: var(--text);
align-items: flex-start;
gap: 4px;
}
.lag-diarization-value {
margin-left: 10px;
}
.label_translation img {
margin-top: 2px;
}
.label_translation img {
width: 12px;
height: 12px;
}
#timeInfo {
color: var(--muted);
margin-left: 10px;
margin-left: 0px;
}
.textcontent {
@@ -400,3 +452,115 @@ label {
font-size: 14px;
margin-bottom: 0px;
}
/* for smaller screens */
@media (max-width: 768px) {
.header-container {
padding: 15px;
}
.settings-container {
flex-direction: column;
gap: 10px;
}
.settings {
justify-content: center;
gap: 8px;
}
.field {
align-items: center;
}
#websocketInput,
#microphoneSelect {
min-width: 100px;
max-width: 160px;
}
.theme-selector-container {
margin-top: 10px;
}
.transcript-container {
padding: 15px;
}
}
@media (max-width: 480px) {
.header-container {
padding: 10px;
}
.settings {
flex-direction: column;
align-items: center;
gap: 6px;
}
#websocketInput,
#microphoneSelect {
max-width: 140px;
}
.segmented label {
padding: 4px 8px;
font-size: 12px;
}
.segmented img {
width: 14px;
height: 14px;
}
.transcript-container {
padding: 10px;
}
}
.label_language {
background-color: var(--chip-bg);
margin-bottom: 0px;
margin-top: 5px;
height: 18.5px;
border-radius: 100px;
padding: 2px 8px;
margin-left: 10px;
display: inline-flex;
align-items: center;
gap: 4px;
font-size: 14px;
color: var(--muted);
}
.label_language img {
width: 12px;
height: 12px;
}
.silence-icon {
width: 14px;
height: 14px;
vertical-align: text-bottom;
}
.speaker-icon {
width: 16px;
height: 16px;
vertical-align: text-bottom;
}
.speaker-badge {
display: inline-flex;
align-items: center;
justify-content: center;
width: 16px;
height: 16px;
margin-left: -5px;
border-radius: 50%;
font-size: 11px;
line-height: 1;
font-weight: 800;
color: var(--muted);
}

112
whisperlivekit/web/live_transcription.html
View File

@@ -1,61 +1,73 @@
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8" />
<meta name="viewport" content="width=device-width, initial-scale=1.0" />
<title>WhisperLiveKit</title>
<link rel="stylesheet" href="/web/live_transcription.css" />
<meta charset="UTF-8" />
<meta name="viewport" content="width=device-width, initial-scale=1.0" />
<title>WhisperLiveKit</title>
<link rel="stylesheet" href="/web/live_transcription.css" />
</head>
<body>
<div class="settings-container">
<button id="recordButton">
<div class="shape-container">
<div class="shape"></div>
</div>
<div class="recording-info">
<div class="wave-container">
<canvas id="waveCanvas"></canvas>
<div class="header-container">
<div class="settings-container">
<button id="recordButton">
<div class="shape-container">
<div class="shape"></div>
</div>
<div class="recording-info">
<div class="wave-container">
<canvas id="waveCanvas"></canvas>
</div>
<div class="timer">00:00</div>
</div>
</button>
<div class="settings">
<div class="field">
<label for="websocketInput">Websocket URL</label>
<input id="websocketInput" type="text" placeholder="ws://host:port/asr" />
</div>
<div class="field">
<label id="microphoneSelectLabel" for="microphoneSelect">Select Microphone</label>
<select id="microphoneSelect">
<option value="">Default Microphone</option>
</select>
</div>
<div class="theme-selector-container">
<div class="segmented" role="radiogroup" aria-label="Theme selector">
<input type="radio" id="theme-system" name="theme" value="system" />
<label for="theme-system" title="System">
<img src="/web/src/system_mode.svg" alt="" />
<span>System</span>
</label>
<input type="radio" id="theme-light" name="theme" value="light" />
<label for="theme-light" title="Light">
<img src="/web/src/light_mode.svg" alt="" />
<span>Light</span>
</label>
<input type="radio" id="theme-dark" name="theme" value="dark" />
<label for="theme-dark" title="Dark">
<img src="/web/src/dark_mode.svg" alt="" />
<span>Dark</span>
</label>
</div>
</div>
</div>
</div>
<div class="timer">00:00</div>
</div>
</button>
<div class="settings">
<div class="field">
<label for="websocketInput">WebSocket URL</label>
<input id="websocketInput" type="text" placeholder="ws://host:port/asr" />
</div>
</div>
<p id="status"></p>
</div>
</div>
<div class="theme-selector-container">
<div class="segmented" role="radiogroup" aria-label="Theme selector">
<input type="radio" id="theme-system" name="theme" value="system" />
<label for="theme-system" title="System">
<img src="/web/src/system_mode.svg" alt="" />
<span>System</span>
</label>
<input type="radio" id="theme-light" name="theme" value="light" />
<label for="theme-light" title="Light">
<img src="/web/src/light_mode.svg" alt="" />
<span>Light</span>
</label>
<input type="radio" id="theme-dark" name="theme" value="dark" />
<label for="theme-dark" title="Dark">
<img src="/web/src/dark_mode.svg" alt="" />
<span>Dark</span>
</label>
<div class="transcript-container">
<div id="linesTranscript"></div>
</div>
</div>
<p id="status"></p>
<div id="linesTranscript"></div>
<script src="/web/live_transcription.js"></script>
<script src="/web/live_transcription.js"></script>
</body>
</html>
</html>

200
whisperlivekit/web/live_transcription.js
View File

@@ -12,12 +12,19 @@ let timerInterval = null;
let audioContext = null;
let analyser = null;
let microphone = null;
let workletNode = null;
let recorderWorker = null;
let waveCanvas = document.getElementById("waveCanvas");
let waveCtx = waveCanvas.getContext("2d");
let animationFrame = null;
let waitingForStop = false;
let lastReceivedData = null;
let lastSignature = null;
let availableMicrophones = [];
let selectedMicrophoneId = null;
let serverUseAudioWorklet = null;
let configReadyResolve;
const configReady = new Promise((r) => (configReadyResolve = r));
waveCanvas.width = 60 * (window.devicePixelRatio || 1);
waveCanvas.height = 30 * (window.devicePixelRatio || 1);
@@ -31,6 +38,7 @@ const websocketDefaultSpan = document.getElementById("wsDefaultUrl");
const linesTranscriptDiv = document.getElementById("linesTranscript");
const timerElement = document.querySelector(".timer");
const themeRadios = document.querySelectorAll('input[name="theme"]');
const microphoneSelect = document.getElementById("microphoneSelect");
function getWaveStroke() {
const styles = getComputedStyle(document.documentElement);
@@ -82,6 +90,61 @@ if (darkMq && darkMq.addEventListener) {
darkMq.addListener(handleOsThemeChange);
}
async function enumerateMicrophones() {
try {
const stream = await navigator.mediaDevices.getUserMedia({ audio: true });
stream.getTracks().forEach(track => track.stop());
const devices = await navigator.mediaDevices.enumerateDevices();
availableMicrophones = devices.filter(device => device.kind === 'audioinput');
populateMicrophoneSelect();
console.log(`Found ${availableMicrophones.length} microphone(s)`);
} catch (error) {
console.error('Error enumerating microphones:', error);
statusText.textContent = "Error accessing microphones. Please grant permission.";
}
}
function populateMicrophoneSelect() {
if (!microphoneSelect) return;
microphoneSelect.innerHTML = '<option value="">Default Microphone</option>';
availableMicrophones.forEach((device, index) => {
const option = document.createElement('option');
option.value = device.deviceId;
option.textContent = device.label || `Microphone ${index + 1}`;
microphoneSelect.appendChild(option);
});
const savedMicId = localStorage.getItem('selectedMicrophone');
if (savedMicId && availableMicrophones.some(mic => mic.deviceId === savedMicId)) {
microphoneSelect.value = savedMicId;
selectedMicrophoneId = savedMicId;
}
}
function handleMicrophoneChange() {
selectedMicrophoneId = microphoneSelect.value || null;
localStorage.setItem('selectedMicrophone', selectedMicrophoneId || '');
const selectedDevice = availableMicrophones.find(mic => mic.deviceId === selectedMicrophoneId);
const deviceName = selectedDevice ? selectedDevice.label : 'Default Microphone';
console.log(`Selected microphone: ${deviceName}`);
statusText.textContent = `Microphone changed to: ${deviceName}`;
if (isRecording) {
statusText.textContent = "Switching microphone... Please wait.";
stopRecording().then(() => {
setTimeout(() => {
toggleRecording();
}, 1000);
});
}
}
// Helpers
function fmt1(x) {
const n = Number(x);
@@ -168,6 +231,14 @@ function setupWebSocket() {
websocket.onmessage = (event) => {
const data = JSON.parse(event.data);
if (data.type === "config") {
serverUseAudioWorklet = !!data.useAudioWorklet;
statusText.textContent = serverUseAudioWorklet
? "Connected. Using AudioWorklet (PCM)."
: "Connected. Using MediaRecorder (WebM).";
if (configReadyResolve) configReadyResolve();
return;
}
if (data.type === "ready_to_stop") {
console.log("Ready to stop received, finalizing display and closing WebSocket.");
@@ -235,7 +306,7 @@ function renderLinesWithBuffer(
const showTransLag = !isFinalizing && remaining_time_transcription > 0;
const showDiaLag = !isFinalizing && !!buffer_diarization && remaining_time_diarization > 0;
const signature = JSON.stringify({
lines: (lines || []).map((it) => ({ speaker: it.speaker, text: it.text, beg: it.beg, end: it.end })),
lines: (lines || []).map((it) => ({ speaker: it.speaker, text: it.text, start: it.start, end: it.end, detected_language: it.detected_language })),
buffer_transcription: buffer_transcription || "",
buffer_diarization: buffer_diarization || "",
status: current_status,
@@ -258,19 +329,26 @@ function renderLinesWithBuffer(
const linesHtml = (lines || [])
.map((item, idx) => {
let timeInfo = "";
if (item.beg !== undefined && item.end !== undefined) {
timeInfo = ` ${item.beg} - ${item.end}`;
if (item.start !== undefined && item.end !== undefined) {
timeInfo = ` ${item.start} - ${item.end}`;
}
let speakerLabel = "";
if (item.speaker === -2) {
speakerLabel = `<span class="silence">Silence<span id='timeInfo'>${timeInfo}</span></span>`;
const silenceIcon = `<img class="silence-icon" src="/web/src/silence.svg" alt="Silence" />`;
speakerLabel = `<span class="silence">${silenceIcon}<span id='timeInfo'>${timeInfo}</span></span>`;
} else if (item.speaker == 0 && !isFinalizing) {
speakerLabel = `<span class='loading'><span class="spinner"></span><span id='timeInfo'><span class="loading-diarization-value">${fmt1(
remaining_time_diarization
)}</span> second(s) of audio are undergoing diarization</span></span>`;
} else if (item.speaker !== 0) {
speakerLabel = `<span id="speaker">Speaker ${item.speaker}<span id='timeInfo'>${timeInfo}</span></span>`;
const speakerIcon = `<img class="speaker-icon" src="/web/src/speaker.svg" alt="Speaker ${item.speaker}" />`;
const speakerNum = `<span class="speaker-badge">${item.speaker}</span>`;
speakerLabel = `<span id="speaker">${speakerIcon}${speakerNum}<span id='timeInfo'>${timeInfo}</span></span>`;
if (item.detected_language) {
speakerLabel += `<span class="label_language"><img src="/web/src/language.svg" alt="Detected language" width="12" height="12" /><span>${item.detected_language}</span></span>`;
}
}
let currentLineText = item.text || "";
@@ -307,6 +385,13 @@ function renderLinesWithBuffer(
}
}
}
if (item.translation) {
currentLineText += `<div class="label_translation">
<img src="/web/src/translate.svg" alt="Translation" width="12" height="12" />
<span>${item.translation}</span>
</div>`;
}
return currentLineText.trim().length > 0 || speakerLabel.length > 0
? `<p>${speakerLabel}<br/><div class='textcontent'>${currentLineText}</div></p>`
@@ -315,7 +400,10 @@ function renderLinesWithBuffer(
.join("");
linesTranscriptDiv.innerHTML = linesHtml;
window.scrollTo({ top: document.body.scrollHeight, behavior: "smooth" });
const transcriptContainer = document.querySelector('.transcript-container');
if (transcriptContainer) {
transcriptContainer.scrollTo({ top: transcriptContainer.scrollHeight, behavior: "smooth" });
}
}
function updateTimer() {
@@ -377,7 +465,11 @@ async function startRecording() {
console.log("Error acquiring wake lock.");
}
const stream = await navigator.mediaDevices.getUserMedia({ audio: true });
const audioConstraints = selectedMicrophoneId
? { audio: { deviceId: { exact: selectedMicrophoneId } } }
: { audio: true };
const stream = await navigator.mediaDevices.getUserMedia(audioConstraints);
audioContext = new (window.AudioContext || window.webkitAudioContext)();
analyser = audioContext.createAnalyser();
@@ -385,13 +477,54 @@ async function startRecording() {
microphone = audioContext.createMediaStreamSource(stream);
microphone.connect(analyser);
recorder = new MediaRecorder(stream, { mimeType: "audio/webm" });
recorder.ondataavailable = (e) => {
if (websocket && websocket.readyState === WebSocket.OPEN) {
websocket.send(e.data);
if (serverUseAudioWorklet) {
if (!audioContext.audioWorklet) {
throw new Error("AudioWorklet is not supported in this browser");
}
};
recorder.start(chunkDuration);
await audioContext.audioWorklet.addModule("/web/pcm_worklet.js");
workletNode = new AudioWorkletNode(audioContext, "pcm-forwarder", { numberOfInputs: 1, numberOfOutputs: 0, channelCount: 1 });
microphone.connect(workletNode);
recorderWorker = new Worker("/web/recorder_worker.js");
recorderWorker.postMessage({
command: "init",
config: {
sampleRate: audioContext.sampleRate,
},
});
recorderWorker.onmessage = (e) => {
if (websocket && websocket.readyState === WebSocket.OPEN) {
websocket.send(e.data.buffer);
}
};
workletNode.port.onmessage = (e) => {
const data = e.data;
const ab = data instanceof ArrayBuffer ? data : data.buffer;
recorderWorker.postMessage(
{
command: "record",
buffer: ab,
},
[ab]
);
};
} else {
try {
recorder = new MediaRecorder(stream, { mimeType: "audio/webm" });
} catch (e) {
recorder = new MediaRecorder(stream);
}
recorder.ondataavailable = (e) => {
if (websocket && websocket.readyState === WebSocket.OPEN) {
if (e.data && e.data.size > 0) {
websocket.send(e.data);
}
}
};
recorder.start(chunkDuration);
}
startTime = Date.now();
timerInterval = setInterval(updateTimer, 1000);
@@ -430,10 +563,28 @@ async function stopRecording() {
}
if (recorder) {
recorder.stop();
try {
recorder.stop();
} catch (e) {
}
recorder = null;
}
if (recorderWorker) {
recorderWorker.terminate();
recorderWorker = null;
}
if (workletNode) {
try {
workletNode.port.onmessage = null;
} catch (e) {}
try {
workletNode.disconnect();
} catch (e) {}
workletNode = null;
}
if (microphone) {
microphone.disconnect();
microphone = null;
@@ -477,9 +628,11 @@ async function toggleRecording() {
console.log("Connecting to WebSocket");
try {
if (websocket && websocket.readyState === WebSocket.OPEN) {
await configReady;
await startRecording();
} else {
await setupWebSocket();
await configReady;
await startRecording();
}
} catch (err) {
@@ -516,3 +669,22 @@ function updateUI() {
}
recordButton.addEventListener("click", toggleRecording);
if (microphoneSelect) {
microphoneSelect.addEventListener("change", handleMicrophoneChange);
}
document.addEventListener('DOMContentLoaded', async () => {
try {
await enumerateMicrophones();
} catch (error) {
console.log("Could not enumerate microphones on load:", error);
}
});
navigator.mediaDevices.addEventListener('devicechange', async () => {
console.log('Device change detected, re-enumerating microphones');
try {
await enumerateMicrophones();
} catch (error) {
console.log("Error re-enumerating microphones:", error);
}
});

16
whisperlivekit/web/pcm_worklet.js Normal file
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@@ -0,0 +1,16 @@
class PCMForwarder extends AudioWorkletProcessor {
process(inputs) {
const input = inputs[0];
if (input && input[0] && input[0].length) {
// Forward mono channel (0). If multi-channel, downmixing can be added here.
const channelData = input[0];
const copy = new Float32Array(channelData.length);
copy.set(channelData);
this.port.postMessage(copy, [copy.buffer]);
}
// Keep processor alive
return true;
}
}
registerProcessor('pcm-forwarder', PCMForwarder);

58
whisperlivekit/web/recorder_worker.js Normal file
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@@ -0,0 +1,58 @@
let sampleRate = 48000;
let targetSampleRate = 16000;
self.onmessage = function (e) {
switch (e.data.command) {
case 'init':
init(e.data.config);
break;
case 'record':
record(e.data.buffer);
break;
}
};
function init(config) {
sampleRate = config.sampleRate;
targetSampleRate = config.targetSampleRate || 16000;
}
function record(inputBuffer) {
const buffer = new Float32Array(inputBuffer);
const resampledBuffer = resample(buffer, sampleRate, targetSampleRate);
const pcmBuffer = toPCM(resampledBuffer);
self.postMessage({ buffer: pcmBuffer }, [pcmBuffer]);
}
function resample(buffer, from, to) {
if (from === to) {
return buffer;
}
const ratio = from / to;
const newLength = Math.round(buffer.length / ratio);
const result = new Float32Array(newLength);
let offsetResult = 0;
let offsetBuffer = 0;
while (offsetResult < result.length) {
const nextOffsetBuffer = Math.round((offsetResult + 1) * ratio);
let accum = 0, count = 0;
for (let i = offsetBuffer; i < nextOffsetBuffer && i < buffer.length; i++) {
accum += buffer[i];
count++;
}
result[offsetResult] = accum / count;
offsetResult++;
offsetBuffer = nextOffsetBuffer;
}
return result;
}
function toPCM(input) {
const buffer = new ArrayBuffer(input.length * 2);
const view = new DataView(buffer);
for (let i = 0; i < input.length; i++) {
const s = Math.max(-1, Math.min(1, input[i]));
view.setInt16(i * 2, s < 0 ? s * 0x8000 : s * 0x7FFF, true);
}
return buffer;
}

1
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@@ -0,0 +1 @@
<svg xmlns="http://www.w3.org/2000/svg" height="24px" viewBox="0 -960 960 960" width="24px" fill="#5f6368"><path d="M480-80q-82 0-155-31.5t-127.5-86Q143-252 111.5-325T80-480q0-83 31.5-155.5t86-127Q252-817 325-848.5T480-880q83 0 155.5 31.5t127 86q54.5 54.5 86 127T880-480q0 82-31.5 155t-86 127.5q-54.5 54.5-127 86T480-80Zm0-82q26-36 45-75t31-83H404q12 44 31 83t45 75Zm-104-16q-18-33-31.5-68.5T322-320H204q29 50 72.5 87t99.5 55Zm208 0q56-18 99.5-55t72.5-87H638q-9 38-22.5 73.5T584-178ZM170-400h136q-3-20-4.5-39.5T300-480q0-21 1.5-40.5T306-560H170q-5 20-7.5 39.5T160-480q0 21 2.5 40.5T170-400Zm216 0h188q3-20 4.5-39.5T580-480q0-21-1.5-40.5T574-560H386q-3 20-4.5 39.5T380-480q0 21 1.5 40.5T386-400Zm268 0h136q5-20 7.5-39.5T800-480q0-21-2.5-40.5T790-560H654q3 20 4.5 39.5T660-480q0 21-1.5 40.5T654-400Zm-16-240h118q-29-50-72.5-87T584-782q18 33 31.5 68.5T638-640Zm-234 0h152q-12-44-31-83t-45-75q-26 36-45 75t-31 83Zm-200 0h118q9-38 22.5-73.5T376-782q-56 18-99.5 55T204-640Z"/></svg>
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@@ -0,0 +1 @@
<svg xmlns="http://www.w3.org/2000/svg" height="24px" viewBox="0 -960 960 960" width="24px" fill="#5f6368"><path d="M433-80q-27 0-46.5-18T363-142l-9-66q-13-5-24.5-12T307-235l-62 26q-25 11-50 2t-39-32l-47-82q-14-23-8-49t27-43l53-40q-1-7-1-13.5v-27q0-6.5 1-13.5l-53-40q-21-17-27-43t8-49l47-82q14-23 39-32t50 2l62 26q11-8 23-15t24-12l9-66q4-26 23.5-44t46.5-18h94q27 0 46.5 18t23.5 44l9 66q13 5 24.5 12t22.5 15l62-26q25-11 50-2t39 32l47 82q14 23 8 49t-27 43l-53 40q1 7 1 13.5v27q0 6.5-2 13.5l53 40q21 17 27 43t-8 49l-48 82q-14 23-39 32t-50-2l-60-26q-11 8-23 15t-24 12l-9 66q-4 26-23.5 44T527-80h-94Zm7-80h79l14-106q31-8 57.5-23.5T639-327l99 41 39-68-86-65q5-14 7-29.5t2-31.5q0-16-2-31.5t-7-29.5l86-65-39-68-99 42q-22-23-48.5-38.5T533-694l-13-106h-79l-14 106q-31 8-57.5 23.5T321-633l-99-41-39 68 86 64q-5 15-7 30t-2 32q0 16 2 31t7 30l-86 65 39 68 99-42q22 23 48.5 38.5T427-266l13 106Zm42-180q58 0 99-41t41-99q0-58-41-99t-99-41q-59 0-99.5 41T342-480q0 58 40.5 99t99.5 41Zm-2-140Z"/></svg>
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1
whisperlivekit/web/src/silence.svg Normal file
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@@ -0,0 +1 @@
<svg xmlns="http://www.w3.org/2000/svg" height="24px" viewBox="0 -960 960 960" width="24px" fill="#5f6368"><path d="M514-556 320-752q9-3 19-5.5t21-2.5q66 0 113 47t47 113q0 11-1.5 22t-4.5 22ZM40-200v-32q0-33 17-62t47-44q51-26 115-44t141-18q26 0 49.5 2.5T456-392l-56-54q-9 3-19 4.5t-21 1.5q-66 0-113-47t-47-113q0-11 1.5-21t4.5-19L84-764q-11-11-11-28t11-28q12-12 28.5-12t27.5 12l675 685q11 11 11.5 27.5T816-80q-11 13-28 12.5T759-80L641-200h39q0 33-23.5 56.5T600-120H120q-33 0-56.5-23.5T40-200Zm80 0h480v-32q0-14-4.5-19.5T580-266q-36-18-92.5-36T360-320q-71 0-127.5 18T140-266q-9 5-14.5 14t-5.5 20v32Zm240 0Zm560-400q0 69-24.5 131.5T829-355q-12 14-30 15t-32-13q-13-13-12-31t12-33q30-38 46.5-85t16.5-98q0-51-16.5-97T767-781q-12-15-12.5-33t12.5-32q13-14 31.5-13.5T829-845q42 51 66.5 113.5T920-600Zm-182 0q0 32-10 61.5T700-484q-11 15-29.5 15.5T638-482q-13-13-13.5-31.5T633-549q6-11 9.5-24t3.5-27q0-14-3.5-27t-9.5-25q-9-17-8.5-35t13.5-31q14-14 32.5-13.5T700-716q18 25 28 54.5t10 61.5Z"/></svg>
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whisperlivekit/web/src/speaker.svg Normal file
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@@ -0,0 +1 @@
<svg xmlns="http://www.w3.org/2000/svg" height="24px" viewBox="0 -960 960 960" width="24px" fill="#5f6368"><path d="M480-480q-66 0-113-47t-47-113q0-66 47-113t113-47q66 0 113 47t47 113q0 66-47 113t-113 47ZM160-240v-32q0-34 17.5-62.5T224-378q62-31 126-46.5T480-440q66 0 130 15.5T736-378q29 15 46.5 43.5T800-272v32q0 33-23.5 56.5T720-160H240q-33 0-56.5-23.5T160-240Zm80 0h480v-32q0-11-5.5-20T700-306q-54-27-109-40.5T480-360q-56 0-111 13.5T260-306q-9 5-14.5 14t-5.5 20v32Zm240-320q33 0 56.5-23.5T560-640q0-33-23.5-56.5T480-720q-33 0-56.5 23.5T400-640q0 33 23.5 56.5T480-560Zm0-80Zm0 400Z"/></svg>
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@@ -0,0 +1 @@
<svg xmlns="http://www.w3.org/2000/svg" height="24px" viewBox="0 -960 960 960" width="24px" fill="#5f6368"><path d="m603-202-34 97q-4 11-14 18t-22 7q-20 0-32.5-16.5T496-133l152-402q5-11 15-18t22-7h30q12 0 22 7t15 18l152 403q8 19-4 35.5T868-80q-13 0-22.5-7T831-106l-34-96H603ZM362-401 188-228q-11 11-27.5 11.5T132-228q-11-11-11-28t11-28l174-174q-35-35-63.5-80T190-640h84q20 39 40 68t48 58q33-33 68.5-92.5T484-720H80q-17 0-28.5-11.5T40-760q0-17 11.5-28.5T80-800h240v-40q0-17 11.5-28.5T360-880q17 0 28.5 11.5T400-840v40h240q17 0 28.5 11.5T680-760q0 17-11.5 28.5T640-720h-76q-21 72-63 148t-83 116l96 98-30 82-122-125Zm266 129h144l-72-204-72 204Z"/></svg>
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59
whisperlivekit/web/web_interface.py
View File

@@ -1,5 +1,6 @@
import logging
import importlib.resources as resources
import base64
logger = logging.getLogger(__name__)
@@ -12,6 +13,60 @@ def get_web_interface_html():
logger.error(f"Error loading web interface HTML: {e}")
return "<html><body><h1>Error loading interface</h1></body></html>"
def get_inline_ui_html():
"""Returns the complete web interface HTML with all assets embedded in a single call."""
try:
with resources.files('whisperlivekit.web').joinpath('live_transcription.html').open('r', encoding='utf-8') as f:
html_content = f.read()
with resources.files('whisperlivekit.web').joinpath('live_transcription.css').open('r', encoding='utf-8') as f:
css_content = f.read()
with resources.files('whisperlivekit.web').joinpath('live_transcription.js').open('r', encoding='utf-8') as f:
js_content = f.read()
# SVG files
with resources.files('whisperlivekit.web').joinpath('src', 'system_mode.svg').open('r', encoding='utf-8') as f:
system_svg = f.read()
system_data_uri = f"data:image/svg+xml;base64,{base64.b64encode(system_svg.encode('utf-8')).decode('utf-8')}"
with resources.files('whisperlivekit.web').joinpath('src', 'light_mode.svg').open('r', encoding='utf-8') as f:
light_svg = f.read()
light_data_uri = f"data:image/svg+xml;base64,{base64.b64encode(light_svg.encode('utf-8')).decode('utf-8')}"
with resources.files('whisperlivekit.web').joinpath('src', 'dark_mode.svg').open('r', encoding='utf-8') as f:
dark_svg = f.read()
dark_data_uri = f"data:image/svg+xml;base64,{base64.b64encode(dark_svg.encode('utf-8')).decode('utf-8')}"
# Replace external references
html_content = html_content.replace(
'<link rel="stylesheet" href="/web/live_transcription.css" />',
f'<style>\n{css_content}\n</style>'
)
html_content = html_content.replace(
'<script src="/web/live_transcription.js"></script>',
f'<script>\n{js_content}\n</script>'
)
# Replace SVG references
html_content = html_content.replace(
'<img src="/web/src/system_mode.svg" alt="" />',
f'<img src="{system_data_uri}" alt="" />'
)
html_content = html_content.replace(
'<img src="/web/src/light_mode.svg" alt="" />',
f'<img src="{light_data_uri}" alt="" />'
)
html_content = html_content.replace(
'<img src="/web/src/dark_mode.svg" alt="" />',
f'<img src="{dark_data_uri}" alt="" />'
)
return html_content
except Exception as e:
logger.error(f"Error creating embedded web interface: {e}")
return "<html><body><h1>Error loading embedded interface</h1></body></html>"
if __name__ == '__main__':
@@ -28,6 +83,6 @@ if __name__ == '__main__':
@app.get("/")
async def get():
return HTMLResponse(get_web_interface_html())
return HTMLResponse(get_inline_ui_html())
uvicorn.run(app=app)
uvicorn.run(app=app)