CosyVoice/cosyvoice/cli/frontend.py

# Copyright (c) 2024 Alibaba Inc (authors: Xiang Lyu)
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#   http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from functools import partial
from typing import Generator
import json
import onnxruntime
import torch
import numpy as np
import whisper
from typing import Callable
import torchaudio.compliance.kaldi as kaldi
import torchaudio
import os
import re
import inflect
try:
    import ttsfrd
    use_ttsfrd = True
except ImportError:
    print("failed to import ttsfrd, use wetext instead")
    from wetext import Normalizer as ZhNormalizer
    from wetext import Normalizer as EnNormalizer
    use_ttsfrd = False
from cosyvoice.utils.file_utils import logging, load_wav
from cosyvoice.utils.frontend_utils import contains_chinese, replace_blank, replace_corner_mark, remove_bracket, spell_out_number, split_paragraph, is_only_punctuation


class CosyVoiceFrontEnd:

    def __init__(self,
                 get_tokenizer: Callable,
                 feat_extractor: Callable,
                 campplus_model: str,
                 speech_tokenizer_model: str,
                 spk2info: str = '',
                 allowed_special: str = 'all'):
        self.tokenizer = get_tokenizer()
        self.feat_extractor = feat_extractor
        self.device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
        option = onnxruntime.SessionOptions()
        option.graph_optimization_level = onnxruntime.GraphOptimizationLevel.ORT_ENABLE_ALL
        option.intra_op_num_threads = 1
        self.campplus_session = onnxruntime.InferenceSession(campplus_model, sess_options=option, providers=["CPUExecutionProvider"])
        self.speech_tokenizer_session = onnxruntime.InferenceSession(speech_tokenizer_model, sess_options=option,
                                                                     providers=["CUDAExecutionProvider" if torch.cuda.is_available() else
                                                                                "CPUExecutionProvider"])
        if os.path.exists(spk2info):
            self.spk2info = torch.load(spk2info, map_location=self.device)
        else:
            self.spk2info = {}
        self.allowed_special = allowed_special
        self.use_ttsfrd = use_ttsfrd
        if self.use_ttsfrd:
            self.frd = ttsfrd.TtsFrontendEngine()
            ROOT_DIR = os.path.dirname(os.path.abspath(__file__))
            assert self.frd.initialize('{}/../../pretrained_models/CosyVoice-ttsfrd/resource'.format(ROOT_DIR)) is True, \
                'failed to initialize ttsfrd resource'
            self.frd.set_lang_type('pinyinvg')
        else:
            self.zh_tn_model = ZhNormalizer(remove_erhua=False)
            self.en_tn_model = EnNormalizer()
            self.inflect_parser = inflect.engine()

    def _extract_text_token(self, text):
        if isinstance(text, Generator):
            logging.info('get tts_text generator, will return _extract_text_token_generator!')
            # NOTE add a dummy text_token_len for compatibility
            return self._extract_text_token_generator(text), torch.tensor([0], dtype=torch.int32).to(self.device)
        else:
            text_token = self.tokenizer.encode(text, allowed_special=self.allowed_special)
            text_token = torch.tensor([text_token], dtype=torch.int32).to(self.device)
            text_token_len = torch.tensor([text_token.shape[1]], dtype=torch.int32).to(self.device)
            return text_token, text_token_len

    def _extract_text_token_generator(self, text_generator):
        for text in text_generator:
            text_token, _ = self._extract_text_token(text)
            for i in range(text_token.shape[1]):
                yield text_token[:, i: i + 1]

    def _extract_speech_token(self, prompt_wav):
        speech = load_wav(prompt_wav, 16000)
        assert speech.shape[1] / 16000 <= 30, 'do not support extract speech token for audio longer than 30s'
        feat = whisper.log_mel_spectrogram(speech, n_mels=128)
        speech_token = self.speech_tokenizer_session.run(None,
                                                         {self.speech_tokenizer_session.get_inputs()[0].name:
                                                          feat.detach().cpu().numpy(),
                                                          self.speech_tokenizer_session.get_inputs()[1].name:
                                                          np.array([feat.shape[2]], dtype=np.int32)})[0].flatten().tolist()
        speech_token = torch.tensor([speech_token], dtype=torch.int32).to(self.device)
        speech_token_len = torch.tensor([speech_token.shape[1]], dtype=torch.int32).to(self.device)
        return speech_token, speech_token_len

    def _extract_spk_embedding(self, prompt_wav):
        speech = load_wav(prompt_wav, 16000)
        feat = kaldi.fbank(speech,
                           num_mel_bins=80,
                           dither=0,
                           sample_frequency=16000)
        feat = feat - feat.mean(dim=0, keepdim=True)
        embedding = self.campplus_session.run(None,
                                              {self.campplus_session.get_inputs()[0].name: feat.unsqueeze(dim=0).cpu().numpy()})[0].flatten().tolist()
        embedding = torch.tensor([embedding]).to(self.device)
        return embedding

    def _extract_speech_feat(self, prompt_wav):
        speech = load_wav(prompt_wav, 24000)
        speech_feat = self.feat_extractor(speech).squeeze(dim=0).transpose(0, 1).to(self.device)
        speech_feat = speech_feat.unsqueeze(dim=0)
        speech_feat_len = torch.tensor([speech_feat.shape[1]], dtype=torch.int32).to(self.device)
        return speech_feat, speech_feat_len

    def text_normalize(self, text, split=True, text_frontend=True):
        if isinstance(text, Generator):
            logging.info('get tts_text generator, will skip text_normalize!')
            return [text]
        if text_frontend is False or text == '':
            return [text] if split is True else text
        text = text.strip()
        if self.use_ttsfrd:
            texts = [i["text"] for i in json.loads(self.frd.do_voicegen_frd(text))["sentences"]]
            text = ''.join(texts)
        else:
            if contains_chinese(text):
                text = self.zh_tn_model.normalize(text)
                text = text.replace("\n", "")
                text = replace_blank(text)
                text = replace_corner_mark(text)
                text = text.replace(".", "。")
                text = text.replace(" - ", "，")
                text = remove_bracket(text)
                text = re.sub(r'[，,、]+$', '。', text)
                texts = list(split_paragraph(text, partial(self.tokenizer.encode, allowed_special=self.allowed_special), "zh", token_max_n=80,
                                             token_min_n=60, merge_len=20, comma_split=False))
            else:
                text = self.en_tn_model.normalize(text)
                text = spell_out_number(text, self.inflect_parser)
                texts = list(split_paragraph(text, partial(self.tokenizer.encode, allowed_special=self.allowed_special), "en", token_max_n=80,
                                             token_min_n=60, merge_len=20, comma_split=False))
        texts = [i for i in texts if not is_only_punctuation(i)]
        return texts if split is True else text

    def frontend_sft(self, tts_text, spk_id):
        tts_text_token, tts_text_token_len = self._extract_text_token(tts_text)
        embedding = self.spk2info[spk_id]['embedding']
        model_input = {'text': tts_text_token, 'text_len': tts_text_token_len, 'llm_embedding': embedding, 'flow_embedding': embedding}
        return model_input

    def frontend_zero_shot(self, tts_text, prompt_text, prompt_wav, resample_rate, zero_shot_spk_id):
        tts_text_token, tts_text_token_len = self._extract_text_token(tts_text)
        if zero_shot_spk_id == '':
            prompt_text_token, prompt_text_token_len = self._extract_text_token(prompt_text)
            speech_feat, speech_feat_len = self._extract_speech_feat(prompt_wav)
            speech_token, speech_token_len = self._extract_speech_token(prompt_wav)
            if resample_rate == 24000:
                # cosyvoice2, force speech_feat % speech_token = 2
                token_len = min(int(speech_feat.shape[1] / 2), speech_token.shape[1])
                speech_feat, speech_feat_len[:] = speech_feat[:, :2 * token_len], 2 * token_len
                speech_token, speech_token_len[:] = speech_token[:, :token_len], token_len
            embedding = self._extract_spk_embedding(prompt_wav)
            model_input = {'prompt_text': prompt_text_token, 'prompt_text_len': prompt_text_token_len,
                           'llm_prompt_speech_token': speech_token, 'llm_prompt_speech_token_len': speech_token_len,
                           'flow_prompt_speech_token': speech_token, 'flow_prompt_speech_token_len': speech_token_len,
                           'prompt_speech_feat': speech_feat, 'prompt_speech_feat_len': speech_feat_len,
                           'llm_embedding': embedding, 'flow_embedding': embedding}
        else:
            model_input = self.spk2info[zero_shot_spk_id]
        model_input['text'] = tts_text_token
        model_input['text_len'] = tts_text_token_len
        return model_input

    def frontend_cross_lingual(self, tts_text, prompt_wav, resample_rate, zero_shot_spk_id):
        model_input = self.frontend_zero_shot(tts_text, '', prompt_wav, resample_rate, zero_shot_spk_id)
        # in cross lingual mode, we remove prompt in llm
        del model_input['prompt_text']
        del model_input['prompt_text_len']
        del model_input['llm_prompt_speech_token']
        del model_input['llm_prompt_speech_token_len']
        return model_input

    def frontend_instruct(self, tts_text, spk_id, instruct_text):
        model_input = self.frontend_sft(tts_text, spk_id)
        # in instruct mode, we remove spk_embedding in llm due to information leakage
        del model_input['llm_embedding']
        instruct_text_token, instruct_text_token_len = self._extract_text_token(instruct_text + '<endofprompt>')
        model_input['prompt_text'] = instruct_text_token
        model_input['prompt_text_len'] = instruct_text_token_len
        return model_input

    def frontend_instruct2(self, tts_text, instruct_text, prompt_wav, resample_rate, zero_shot_spk_id):
        model_input = self.frontend_zero_shot(tts_text, instruct_text + '<|endofprompt|>', prompt_wav, resample_rate, zero_shot_spk_id)
        del model_input['llm_prompt_speech_token']
        del model_input['llm_prompt_speech_token_len']
        return model_input

    def frontend_vc(self, source_speech_16k, prompt_wav, resample_rate):
        prompt_speech_token, prompt_speech_token_len = self._extract_speech_token(prompt_wav)
        prompt_speech_feat, prompt_speech_feat_len = self._extract_speech_feat(prompt_wav)
        embedding = self._extract_spk_embedding(prompt_wav)
        source_speech_token, source_speech_token_len = self._extract_speech_token(source_speech_16k)
        model_input = {'source_speech_token': source_speech_token, 'source_speech_token_len': source_speech_token_len,
                       'flow_prompt_speech_token': prompt_speech_token, 'flow_prompt_speech_token_len': prompt_speech_token_len,
                       'prompt_speech_feat': prompt_speech_feat, 'prompt_speech_feat_len': prompt_speech_feat_len,
                       'flow_embedding': embedding}
        return model_input