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PaddleSpeech/docs/source/tts/quick_start.md

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([简体中文](./quick_start_cn.md)|English)
# Quick Start of Text-to-Speech
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The examples in PaddleSpeech are mainly classified by datasets, the TTS datasets we mainly used are:
* CSMCS (Mandarin single speaker)
* AISHELL3 (Mandarin multiple speakers)
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* LJSpeech (English single speaker)
* VCTK (English multiple speakers)
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The models in PaddleSpeech TTS have the following mapping relationship:
* tts0 - Tactron2
* tts1 - TransformerTTS
* tts2 - SpeedySpeech
* tts3 - FastSpeech2
* voc0 - WaveFlow
* voc1 - Parallel WaveGAN
* voc2 - MelGAN
* voc3 - MultiBand MelGAN
* voc4 - Style MelGAN
* voc5 - HiFiGAN
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* vc0 - Tactron2 Voice Clone with GE2E
* vc1 - FastSpeech2 Voice Clone with GE2E
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## Quick Start
Let's take a FastSpeech2 + Parallel WaveGAN with CSMSC dataset for instance. [examples/csmsc](https://github.com/PaddlePaddle/PaddleSpeech/tree/develop/examples/csmsc)
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### Train Parallel WaveGAN with CSMSC
- Go to the directory
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```bash
cd examples/csmsc/voc1
```
- Source env
```bash
source path.sh
```
**Must do this before you start to do anything.**
Set `MAIN_ROOT` as project dir. Using `parallelwave_gan` model as `MODEL`.
- Main entrypoint
```bash
bash run.sh
```
This is just a demo, please make sure source data have been prepared well and every `step` works well before the next `step`.
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### Train FastSpeech2 with CSMSC
- Go to the directory
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```bash
cd examples/csmsc/tts3
```
- Source env
```bash
source path.sh
```
**Must do this before you start to do anything.**
Set `MAIN_ROOT` as project dir. Using `fastspeech2` model as `MODEL`.
- Main entry point
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```bash
bash run.sh
```
This is just a demo, please make sure source data have been prepared well and every `step` works well before the next `step`.
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The steps in `run.sh` mainly include:
- source path.
- preprocess the dataset,
- train the model.
- synthesize waveform from metadata.jsonl.
- synthesize waveform from a text file. (in acoustic models)
- inference using a static model. (optional)
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For more details, you can see `README.md` in examples.
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## Pipeline of TTS
This section shows how to use pretrained models provided by TTS and make an inference with them.
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Pretrained models in TTS are provided in an archive. Extract it to get a folder like this:
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**Acoustic Models:**
```text
checkpoint_name
├── default.yaml
├── snapshot_iter_*.pdz
├── speech_stats.npy
├── phone_id_map.txt
├── spk_id_map.txt (optimal)
└── tone_id_map.txt (optimal)
```
**Vocoders:**
```text
checkpoint_name
├── default.yaml
├── snapshot_iter_*.pdz
└── stats.npy
```
- `default.yaml` stores the config used to train the model.
- `snapshot_iter_*.pdz` is the checkpoint file, where `*` is the steps it has been trained.
- `*_stats.npy` is the stats file of the feature if it has been normalized before training.
- `phone_id_map.txt` is the map of phonemes to phoneme_ids.
- `tone_id_map.txt` is the map of tones to tones_ids, when you split tones and phones before training acoustic models. (for example in our csmsc/speedyspeech example)
- `spk_id_map.txt` is the map of speakers to spk_ids in multi-spk acoustic models. (for example in our aishell3/fastspeech2 example)
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The example code below shows how to use the models for prediction.
### Acoustic Models (text to spectrogram)
The code below shows how to use a `FastSpeech2` model. After loading the pretrained model, use it and the normalizer object to construct a prediction objectthen use `fastspeech2_inferencet(phone_ids)` to generate spectrograms, which can be further used to synthesize raw audio with a vocoder.
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```python
from pathlib import Path
import numpy as np
import paddle
import yaml
from yacs.config import CfgNode
from paddlespeech.t2s.models.fastspeech2 import FastSpeech2
from paddlespeech.t2s.models.fastspeech2 import FastSpeech2Inference
from paddlespeech.t2s.modules.normalizer import ZScore
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# examples/fastspeech2/baker/frontend.py
from frontend import Frontend
# load the pretrained model
checkpoint_dir = Path("fastspeech2_nosil_baker_ckpt_0.4")
with open(checkpoint_dir / "phone_id_map.txt", "r") as f:
phn_id = [line.strip().split() for line in f.readlines()]
vocab_size = len(phn_id)
with open(checkpoint_dir / "default.yaml") as f:
fastspeech2_config = CfgNode(yaml.safe_load(f))
odim = fastspeech2_config.n_mels
model = FastSpeech2(
idim=vocab_size, odim=odim, **fastspeech2_config["model"])
model.set_state_dict(
paddle.load(args.fastspeech2_checkpoint)["main_params"])
model.eval()
# load stats file
stat = np.load(checkpoint_dir / "speech_stats.npy")
mu, std = stat
mu = paddle.to_tensor(mu)
std = paddle.to_tensor(std)
fastspeech2_normalizer = ZScore(mu, std)
# construct a prediction object
fastspeech2_inference = FastSpeech2Inference(fastspeech2_normalizer, model)
# load Chinese Frontend
frontend = Frontend(checkpoint_dir / "phone_id_map.txt")
# text to spectrogram
sentence = "你好吗?"
input_ids = frontend.get_input_ids(sentence, merge_sentences=True)
phone_ids = input_ids["phone_ids"]
flags = 0
# The output of Chinese text frontend is segmented
for part_phone_ids in phone_ids:
with paddle.no_grad():
temp_mel = fastspeech2_inference(part_phone_ids)
if flags == 0:
mel = temp_mel
flags = 1
else:
mel = paddle.concat([mel, temp_mel])
```
### Vocoder (spectrogram to wave)
The code below shows how to use a ` Parallel WaveGAN` model. Like the example above, after loading the pretrained model, use it and the normalizer object to construct a prediction objectthen use `pwg_inference(mel)` to generate raw audio (in wav format).
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```python
from pathlib import Path
import numpy as np
import paddle
import soundfile as sf
import yaml
from yacs.config import CfgNode
from paddlespeech.t2s.models.parallel_wavegan import PWGGenerator
from paddlespeech.t2s.models.parallel_wavegan import PWGInference
from paddlespeech.t2s.modules.normalizer import ZScore
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# load the pretrained model
checkpoint_dir = Path("parallel_wavegan_baker_ckpt_0.4")
with open(checkpoint_dir / "pwg_default.yaml") as f:
pwg_config = CfgNode(yaml.safe_load(f))
vocoder = PWGGenerator(**pwg_config["generator_params"])
vocoder.set_state_dict(paddle.load(args.pwg_params))
vocoder.remove_weight_norm()
vocoder.eval()
# load stats file
stat = np.load(checkpoint_dir / "pwg_stats.npy")
mu, std = stat
mu = paddle.to_tensor(mu)
std = paddle.to_tensor(std)
pwg_normalizer = ZScore(mu, std)
# construct a prediction object
pwg_inference = PWGInference(pwg_normalizer, vocoder)
# spectrogram to wave
wav = pwg_inference(mel)
sf.write(
audio_path,
wav.numpy(),
samplerate=fastspeech2_config.fs)
```