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(formatting_your_dataset)= | |
# Formatting Your Dataset | |
For training a TTS model, you need a dataset with speech recordings and transcriptions. The speech must be divided into audio clips and each clip needs transcription. | |
If you have a single audio file and you need to split it into clips, there are different open-source tools for you. We recommend Audacity. It is an open-source and free audio editing software. | |
It is also important to use a lossless audio file format to prevent compression artifacts. We recommend using `wav` file format. | |
Let's assume you created the audio clips and their transcription. You can collect all your clips under a folder. Let's call this folder `wavs`. | |
``` | |
/wavs | |
| - audio1.wav | |
| - audio2.wav | |
| - audio3.wav | |
... | |
``` | |
You can either create separate transcription files for each clip or create a text file that maps each audio clip to its transcription. In this file, each line must be delimitered by a special character separating the audio file name from the transcription. And make sure that the delimiter is not used in the transcription text. | |
We recommend the following format delimited by `|`. In the following example, `audio1`, `audio2` refer to files `audio1.wav`, `audio2.wav` etc. | |
``` | |
# metadata.txt | |
audio1|This is my sentence. | |
audio2|This is maybe my sentence. | |
audio3|This is certainly my sentence. | |
audio4|Let this be your sentence. | |
... | |
``` | |
In the end, we have the following folder structure | |
``` | |
/MyTTSDataset | |
| | |
| -> metadata.txt | |
| -> /wavs | |
| -> audio1.wav | |
| -> audio2.wav | |
| ... | |
``` | |
The format above is taken from widely-used the [LJSpeech](https://keithito.com/LJ-Speech-Dataset/) dataset. You can also download and see the dataset. 🐸TTS already provides tooling for the LJSpeech. if you use the same format, you can start training your models right away. | |
## Dataset Quality | |
Your dataset should have good coverage of the target language. It should cover the phonemic variety, exceptional sounds and syllables. This is extremely important for especially non-phonemic languages like English. | |
For more info about dataset qualities and properties check our [post](https://github.com/coqui-ai/TTS/wiki/What-makes-a-good-TTS-dataset). | |
## Using Your Dataset in 🐸TTS | |
After you collect and format your dataset, you need to check two things. Whether you need a `formatter` and a `text_cleaner`. The `formatter` loads the text file (created above) as a list and the `text_cleaner` performs a sequence of text normalization operations that converts the raw text into the spoken representation (e.g. converting numbers to text, acronyms, and symbols to the spoken format). | |
If you use a different dataset format then the LJSpeech or the other public datasets that 🐸TTS supports, then you need to write your own `formatter`. | |
If your dataset is in a new language or it needs special normalization steps, then you need a new `text_cleaner`. | |
What you get out of a `formatter` is a `List[Dict]` in the following format. | |
``` | |
>>> formatter(metafile_path) | |
[ | |
{"audio_file":"audio1.wav", "text":"This is my sentence.", "speaker_name":"MyDataset", "language": "lang_code"}, | |
{"audio_file":"audio1.wav", "text":"This is maybe a sentence.", "speaker_name":"MyDataset", "language": "lang_code"}, | |
... | |
] | |
``` | |
Each sub-list is parsed as ```{"<filename>", "<transcription>", "<speaker_name">]```. | |
```<speaker_name>``` is the dataset name for single speaker datasets and it is mainly used | |
in the multi-speaker models to map the speaker of the each sample. But for now, we only focus on single speaker datasets. | |
The purpose of a `formatter` is to parse your manifest file and load the audio file paths and transcriptions. | |
Then, the output is passed to the `Dataset`. It computes features from the audio signals, calls text normalization routines, and converts raw text to | |
phonemes if needed. | |
## Loading your dataset | |
Load one of the dataset supported by 🐸TTS. | |
```python | |
from TTS.tts.configs.shared_configs import BaseDatasetConfig | |
from TTS.tts.datasets import load_tts_samples | |
# dataset config for one of the pre-defined datasets | |
dataset_config = BaseDatasetConfig( | |
formatter="vctk", meta_file_train="", language="en-us", path="dataset-path") | |
) | |
# load training samples | |
train_samples, eval_samples = load_tts_samples(dataset_config, eval_split=True) | |
``` | |
Load a custom dataset with a custom formatter. | |
```python | |
from TTS.tts.datasets import load_tts_samples | |
# custom formatter implementation | |
def formatter(root_path, manifest_file, **kwargs): # pylint: disable=unused-argument | |
"""Assumes each line as ```<filename>|<transcription>``` | |
""" | |
txt_file = os.path.join(root_path, manifest_file) | |
items = [] | |
speaker_name = "my_speaker" | |
with open(txt_file, "r", encoding="utf-8") as ttf: | |
for line in ttf: | |
cols = line.split("|") | |
wav_file = os.path.join(root_path, "wavs", cols[0]) | |
text = cols[1] | |
items.append({"text":text, "audio_file":wav_file, "speaker_name":speaker_name, "root_path": root_path}) | |
return items | |
# load training samples | |
train_samples, eval_samples = load_tts_samples(dataset_config, eval_split=True, formatter=formatter) | |
``` | |
See `TTS.tts.datasets.TTSDataset`, a generic `Dataset` implementation for the `tts` models. | |
See `TTS.vocoder.datasets.*`, for different `Dataset` implementations for the `vocoder` models. | |
See `TTS.utils.audio.AudioProcessor` that includes all the audio processing and feature extraction functions used in a | |
`Dataset` implementation. Feel free to add things as you need. | |