You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
PaddleSpeech/paddlespeech/t2s/exps/stream_play_tts.py

182 lines
6.4 KiB

# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
#
# 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.
# stream play TTS
# Before first execution, download and decompress the models in the execution directory
# wget https://paddlespeech.bj.bcebos.com/Parakeet/released_models/fastspeech2/fastspeech2_cnndecoder_csmsc_streaming_onnx_1.0.0.zip
# wget https://paddlespeech.bj.bcebos.com/Parakeet/released_models/mb_melgan/mb_melgan_csmsc_onnx_0.2.0.zip
# unzip fastspeech2_cnndecoder_csmsc_streaming_onnx_1.0.0.zip
# unzip mb_melgan_csmsc_onnx_0.2.0.zip
import math
import time
import numpy as np
import onnxruntime as ort
import pyaudio
import soundfile as sf
from paddlespeech.server.utils.audio_process import float2pcm
from paddlespeech.server.utils.util import denorm
from paddlespeech.server.utils.util import get_chunks
from paddlespeech.t2s.frontend.zh_frontend import Frontend
voc_block = 36
voc_pad = 14
am_block = 72
am_pad = 12
voc_upsample = 300
phones_dict = "fastspeech2_cnndecoder_csmsc_streaming_onnx_1.0.0/phone_id_map.txt"
frontend = Frontend(phone_vocab_path=phones_dict, tone_vocab_path=None)
am_stat_path = "fastspeech2_cnndecoder_csmsc_streaming_onnx_1.0.0/speech_stats.npy"
am_mu, am_std = np.load(am_stat_path)
# 模型路径
onnx_am_encoder = "fastspeech2_cnndecoder_csmsc_streaming_onnx_1.0.0/fastspeech2_csmsc_am_encoder_infer.onnx"
onnx_am_decoder = "fastspeech2_cnndecoder_csmsc_streaming_onnx_1.0.0/fastspeech2_csmsc_am_decoder.onnx"
onnx_am_postnet = "fastspeech2_cnndecoder_csmsc_streaming_onnx_1.0.0/fastspeech2_csmsc_am_postnet.onnx"
onnx_voc_melgan = "mb_melgan_csmsc_onnx_0.2.0/mb_melgan_csmsc.onnx"
# 用CPU推理
providers = ['CPUExecutionProvider']
# 配置ort session
sess_options = ort.SessionOptions()
# 创建session
am_encoder_infer_sess = ort.InferenceSession(
onnx_am_encoder, providers=providers, sess_options=sess_options)
am_decoder_sess = ort.InferenceSession(
onnx_am_decoder, providers=providers, sess_options=sess_options)
am_postnet_sess = ort.InferenceSession(
onnx_am_postnet, providers=providers, sess_options=sess_options)
voc_melgan_sess = ort.InferenceSession(
onnx_voc_melgan, providers=providers, sess_options=sess_options)
def depadding(data, chunk_num, chunk_id, block, pad, upsample):
"""
Streaming inference removes the result of pad inference
"""
front_pad = min(chunk_id * block, pad)
# first chunk
if chunk_id == 0:
data = data[:block * upsample]
# last chunk
elif chunk_id == chunk_num - 1:
data = data[front_pad * upsample:]
# middle chunk
else:
data = data[front_pad * upsample:(front_pad + block) * upsample]
return data
def inference_stream(text):
input_ids = frontend.get_input_ids(
text, merge_sentences=False, get_tone_ids=False)
phone_ids = input_ids["phone_ids"]
for i in range(len(phone_ids)):
part_phone_ids = phone_ids[i].numpy()
voc_chunk_id = 0
orig_hs = am_encoder_infer_sess.run(
None, input_feed={'text': part_phone_ids})
orig_hs = orig_hs[0]
# streaming voc chunk info
mel_len = orig_hs.shape[1]
voc_chunk_num = math.ceil(mel_len / voc_block)
start = 0
end = min(voc_block + voc_pad, mel_len)
# streaming am
hss = get_chunks(orig_hs, am_block, am_pad, "am")
am_chunk_num = len(hss)
for i, hs in enumerate(hss):
am_decoder_output = am_decoder_sess.run(None, input_feed={'xs': hs})
am_postnet_output = am_postnet_sess.run(
None,
input_feed={
'xs': np.transpose(am_decoder_output[0], (0, 2, 1))
})
am_output_data = am_decoder_output + np.transpose(
am_postnet_output[0], (0, 2, 1))
normalized_mel = am_output_data[0][0]
sub_mel = denorm(normalized_mel, am_mu, am_std)
sub_mel = depadding(sub_mel, am_chunk_num, i, am_block, am_pad, 1)
if i == 0:
mel_streaming = sub_mel
else:
mel_streaming = np.concatenate((mel_streaming, sub_mel), axis=0)
# streaming voc
# 当流式AM推理的mel帧数大于流式voc推理的chunk size开始进行流式voc 推理
while (mel_streaming.shape[0] >= end and
voc_chunk_id < voc_chunk_num):
voc_chunk = mel_streaming[start:end, :]
sub_wav = voc_melgan_sess.run(
output_names=None, input_feed={'logmel': voc_chunk})
sub_wav = depadding(sub_wav[0], voc_chunk_num, voc_chunk_id,
voc_block, voc_pad, voc_upsample)
yield sub_wav
voc_chunk_id += 1
start = max(0, voc_chunk_id * voc_block - voc_pad)
end = min((voc_chunk_id + 1) * voc_block + voc_pad, mel_len)
if __name__ == '__main__':
text = "欢迎使用飞桨语音合成系统,测试一下合成效果。"
# warm up
# onnxruntime 第一次时间会长一些,建议先 warmup 一下
for sub_wav in inference_stream(text="哈哈哈哈"):
continue
# pyaudio 播放
p = pyaudio.PyAudio()
stream = p.open(
format=p.get_format_from_width(2), # int16
channels=1,
rate=24000,
output=True)
# 计时
wavs = []
t1 = time.time()
for sub_wav in inference_stream(text):
print("响应时间:", time.time() - t1)
t1 = time.time()
wavs.append(sub_wav.flatten())
# float32 to int16
wav = float2pcm(sub_wav)
# to bytes
wav_bytes = wav.tobytes()
stream.write(wav_bytes)
# 关闭 pyaudio 播放器
stream.stop_stream()
stream.close()
p.terminate()
# 流式合成的结果导出
wav = np.concatenate(wavs)
print(wav.shape)
sf.write("demo_stream.wav", data=wav, samplerate=24000)