# 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. import math import os from pathlib import Path from typing import Any from typing import Dict from typing import List from typing import Optional import numpy as np import onnxruntime as ort import paddle from paddle import inference from paddle import jit from paddle.static import InputSpec from yacs.config import CfgNode from paddlespeech.t2s.datasets.data_table import DataTable from paddlespeech.t2s.frontend import English from paddlespeech.t2s.frontend.mix_frontend import MixFrontend from paddlespeech.t2s.frontend.zh_frontend import Frontend from paddlespeech.t2s.modules.normalizer import ZScore from paddlespeech.utils.dynamic_import import dynamic_import model_alias = { # acoustic model "speedyspeech": "paddlespeech.t2s.models.speedyspeech:SpeedySpeech", "speedyspeech_inference": "paddlespeech.t2s.models.speedyspeech:SpeedySpeechInference", "fastspeech2": "paddlespeech.t2s.models.fastspeech2:FastSpeech2", "fastspeech2_inference": "paddlespeech.t2s.models.fastspeech2:FastSpeech2Inference", "tacotron2": "paddlespeech.t2s.models.tacotron2:Tacotron2", "tacotron2_inference": "paddlespeech.t2s.models.tacotron2:Tacotron2Inference", # voc "pwgan": "paddlespeech.t2s.models.parallel_wavegan:PWGGenerator", "pwgan_inference": "paddlespeech.t2s.models.parallel_wavegan:PWGInference", "mb_melgan": "paddlespeech.t2s.models.melgan:MelGANGenerator", "mb_melgan_inference": "paddlespeech.t2s.models.melgan:MelGANInference", "style_melgan": "paddlespeech.t2s.models.melgan:StyleMelGANGenerator", "style_melgan_inference": "paddlespeech.t2s.models.melgan:StyleMelGANInference", "hifigan": "paddlespeech.t2s.models.hifigan:HiFiGANGenerator", "hifigan_inference": "paddlespeech.t2s.models.hifigan:HiFiGANInference", "wavernn": "paddlespeech.t2s.models.wavernn:WaveRNN", "wavernn_inference": "paddlespeech.t2s.models.wavernn:WaveRNNInference", } def denorm(data, mean, std): return data * std + mean def get_chunks(data, block_size: int, pad_size: int): data_len = data.shape[1] chunks = [] n = math.ceil(data_len / block_size) for i in range(n): start = max(0, i * block_size - pad_size) end = min((i + 1) * block_size + pad_size, data_len) chunks.append(data[:, start:end, :]) return chunks # input def get_sentences(text_file: Optional[os.PathLike], lang: str='zh'): # construct dataset for evaluation sentences = [] with open(text_file, 'rt') as f: for line in f: items = line.strip().split() utt_id = items[0] if lang == 'zh': sentence = "".join(items[1:]) elif lang == 'en': sentence = " ".join(items[1:]) elif lang == 'mix': sentence = " ".join(items[1:]) sentences.append((utt_id, sentence)) return sentences def get_test_dataset(test_metadata: List[Dict[str, Any]], am: str, speaker_dict: Optional[os.PathLike]=None, voice_cloning: bool=False): # model: {model_name}_{dataset} am_name = am[:am.rindex('_')] am_dataset = am[am.rindex('_') + 1:] if am_name == 'fastspeech2': fields = ["utt_id", "text"] if am_dataset in {"aishell3", "vctk", "mix"} and speaker_dict is not None: print("multiple speaker fastspeech2!") fields += ["spk_id"] elif voice_cloning: print("voice cloning!") fields += ["spk_emb"] else: print("single speaker fastspeech2!") elif am_name == 'speedyspeech': fields = ["utt_id", "phones", "tones"] elif am_name == 'tacotron2': fields = ["utt_id", "text"] if voice_cloning: print("voice cloning!") fields += ["spk_emb"] test_dataset = DataTable(data=test_metadata, fields=fields) return test_dataset # frontend def get_frontend(lang: str='zh', phones_dict: Optional[os.PathLike]=None, tones_dict: Optional[os.PathLike]=None): if lang == 'zh': frontend = Frontend( phone_vocab_path=phones_dict, tone_vocab_path=tones_dict) elif lang == 'en': frontend = English(phone_vocab_path=phones_dict) elif lang == 'mix': frontend = MixFrontend( phone_vocab_path=phones_dict, tone_vocab_path=tones_dict) else: print("wrong lang!") print("frontend done!") return frontend # dygraph def get_am_inference(am: str='fastspeech2_csmsc', am_config: CfgNode=None, am_ckpt: Optional[os.PathLike]=None, am_stat: Optional[os.PathLike]=None, phones_dict: Optional[os.PathLike]=None, tones_dict: Optional[os.PathLike]=None, speaker_dict: Optional[os.PathLike]=None, return_am: bool=False): with open(phones_dict, "r") as f: phn_id = [line.strip().split() for line in f.readlines()] vocab_size = len(phn_id) print("vocab_size:", vocab_size) tone_size = None if tones_dict is not None: with open(tones_dict, "r") as f: tone_id = [line.strip().split() for line in f.readlines()] tone_size = len(tone_id) print("tone_size:", tone_size) spk_num = None if speaker_dict is not None: with open(speaker_dict, 'rt') as f: spk_id = [line.strip().split() for line in f.readlines()] spk_num = len(spk_id) print("spk_num:", spk_num) odim = am_config.n_mels # model: {model_name}_{dataset} am_name = am[:am.rindex('_')] am_dataset = am[am.rindex('_') + 1:] am_class = dynamic_import(am_name, model_alias) am_inference_class = dynamic_import(am_name + '_inference', model_alias) if am_name == 'fastspeech2': am = am_class( idim=vocab_size, odim=odim, spk_num=spk_num, **am_config["model"]) elif am_name == 'speedyspeech': am = am_class( vocab_size=vocab_size, tone_size=tone_size, spk_num=spk_num, **am_config["model"]) elif am_name == 'tacotron2': am = am_class(idim=vocab_size, odim=odim, **am_config["model"]) am.set_state_dict(paddle.load(am_ckpt)["main_params"]) am.eval() am_mu, am_std = np.load(am_stat) am_mu = paddle.to_tensor(am_mu) am_std = paddle.to_tensor(am_std) am_normalizer = ZScore(am_mu, am_std) am_inference = am_inference_class(am_normalizer, am) am_inference.eval() print("acoustic model done!") if return_am: return am_inference, am else: return am_inference def get_voc_inference( voc: str='pwgan_csmsc', voc_config: Optional[os.PathLike]=None, voc_ckpt: Optional[os.PathLike]=None, voc_stat: Optional[os.PathLike]=None, ): # model: {model_name}_{dataset} voc_name = voc[:voc.rindex('_')] voc_class = dynamic_import(voc_name, model_alias) voc_inference_class = dynamic_import(voc_name + '_inference', model_alias) if voc_name != 'wavernn': voc = voc_class(**voc_config["generator_params"]) voc.set_state_dict(paddle.load(voc_ckpt)["generator_params"]) voc.remove_weight_norm() voc.eval() else: voc = voc_class(**voc_config["model"]) voc.set_state_dict(paddle.load(voc_ckpt)["main_params"]) voc.eval() voc_mu, voc_std = np.load(voc_stat) voc_mu = paddle.to_tensor(voc_mu) voc_std = paddle.to_tensor(voc_std) voc_normalizer = ZScore(voc_mu, voc_std) voc_inference = voc_inference_class(voc_normalizer, voc) voc_inference.eval() print("voc done!") return voc_inference # dygraph to static graph def am_to_static(am_inference, am: str='fastspeech2_csmsc', inference_dir=Optional[os.PathLike], speaker_dict: Optional[os.PathLike]=None): # model: {model_name}_{dataset} am_name = am[:am.rindex('_')] am_dataset = am[am.rindex('_') + 1:] if am_name == 'fastspeech2': if am_dataset in {"aishell3", "vctk"} and speaker_dict is not None: am_inference = jit.to_static( am_inference, input_spec=[ InputSpec([-1], dtype=paddle.int64), InputSpec([1], dtype=paddle.int64), ], ) else: am_inference = jit.to_static( am_inference, input_spec=[InputSpec([-1], dtype=paddle.int64)]) elif am_name == 'speedyspeech': if am_dataset in {"aishell3", "vctk"} and speaker_dict is not None: am_inference = jit.to_static( am_inference, input_spec=[ InputSpec([-1], dtype=paddle.int64), # text InputSpec([-1], dtype=paddle.int64), # tone InputSpec([1], dtype=paddle.int64), # spk_id None # duration ]) else: am_inference = jit.to_static( am_inference, input_spec=[ InputSpec([-1], dtype=paddle.int64), InputSpec([-1], dtype=paddle.int64) ]) elif am_name == 'tacotron2': am_inference = jit.to_static( am_inference, input_spec=[InputSpec([-1], dtype=paddle.int64)]) paddle.jit.save(am_inference, os.path.join(inference_dir, am)) am_inference = paddle.jit.load(os.path.join(inference_dir, am)) return am_inference def voc_to_static(voc_inference, voc: str='pwgan_csmsc', inference_dir=Optional[os.PathLike]): voc_inference = jit.to_static( voc_inference, input_spec=[ InputSpec([-1, 80], dtype=paddle.float32), ]) paddle.jit.save(voc_inference, os.path.join(inference_dir, voc)) voc_inference = paddle.jit.load(os.path.join(inference_dir, voc)) return voc_inference # inference def get_predictor(model_dir: Optional[os.PathLike]=None, model_file: Optional[os.PathLike]=None, params_file: Optional[os.PathLike]=None, device: str='cpu'): config = inference.Config( str(Path(model_dir) / model_file), str(Path(model_dir) / params_file)) if device == "gpu": config.enable_use_gpu(100, 0) elif device == "cpu": config.disable_gpu() config.enable_memory_optim() predictor = inference.create_predictor(config) return predictor def get_am_output( input: str, am_predictor, am, frontend, lang: str='zh', merge_sentences: bool=True, speaker_dict: Optional[os.PathLike]=None, spk_id: int=0, ): am_name = am[:am.rindex('_')] am_dataset = am[am.rindex('_') + 1:] am_input_names = am_predictor.get_input_names() get_tone_ids = False get_spk_id = False if am_name == 'speedyspeech': get_tone_ids = True if am_dataset in {"aishell3", "vctk"} and speaker_dict: get_spk_id = True spk_id = np.array([spk_id]) if lang == 'zh': input_ids = frontend.get_input_ids( input, merge_sentences=merge_sentences, get_tone_ids=get_tone_ids) phone_ids = input_ids["phone_ids"] elif lang == 'en': input_ids = frontend.get_input_ids( input, merge_sentences=merge_sentences) phone_ids = input_ids["phone_ids"] elif lang == 'mix': input_ids = frontend.get_input_ids( input, merge_sentences=merge_sentences) phone_ids = input_ids["phone_ids"] else: print("lang should in {'zh', 'en', 'mix'}!") if get_tone_ids: tone_ids = input_ids["tone_ids"] tones = tone_ids[0].numpy() tones_handle = am_predictor.get_input_handle(am_input_names[1]) tones_handle.reshape(tones.shape) tones_handle.copy_from_cpu(tones) if get_spk_id: spk_id_handle = am_predictor.get_input_handle(am_input_names[1]) spk_id_handle.reshape(spk_id.shape) spk_id_handle.copy_from_cpu(spk_id) phones = phone_ids[0].numpy() phones_handle = am_predictor.get_input_handle(am_input_names[0]) phones_handle.reshape(phones.shape) phones_handle.copy_from_cpu(phones) am_predictor.run() am_output_names = am_predictor.get_output_names() am_output_handle = am_predictor.get_output_handle(am_output_names[0]) am_output_data = am_output_handle.copy_to_cpu() return am_output_data def get_voc_output(voc_predictor, input): voc_input_names = voc_predictor.get_input_names() mel_handle = voc_predictor.get_input_handle(voc_input_names[0]) mel_handle.reshape(input.shape) mel_handle.copy_from_cpu(input) voc_predictor.run() voc_output_names = voc_predictor.get_output_names() voc_output_handle = voc_predictor.get_output_handle(voc_output_names[0]) wav = voc_output_handle.copy_to_cpu() return wav def get_am_sublayer_output(am_sublayer_predictor, input): am_sublayer_input_names = am_sublayer_predictor.get_input_names() input_handle = am_sublayer_predictor.get_input_handle( am_sublayer_input_names[0]) input_handle.reshape(input.shape) input_handle.copy_from_cpu(input) am_sublayer_predictor.run() am_sublayer_names = am_sublayer_predictor.get_output_names() am_sublayer_handle = am_sublayer_predictor.get_output_handle( am_sublayer_names[0]) am_sublayer_output = am_sublayer_handle.copy_to_cpu() return am_sublayer_output def get_streaming_am_output(input: str, am_encoder_infer_predictor, am_decoder_predictor, am_postnet_predictor, frontend, lang: str='zh', merge_sentences: bool=True): get_tone_ids = False if lang == 'zh': input_ids = frontend.get_input_ids( input, merge_sentences=merge_sentences, get_tone_ids=get_tone_ids) phone_ids = input_ids["phone_ids"] else: print("lang should be 'zh' here!") phones = phone_ids[0].numpy() am_encoder_infer_output = get_am_sublayer_output( am_encoder_infer_predictor, input=phones) am_decoder_output = get_am_sublayer_output( am_decoder_predictor, input=am_encoder_infer_output) am_postnet_output = get_am_sublayer_output( am_postnet_predictor, input=np.transpose(am_decoder_output, (0, 2, 1))) am_output_data = am_decoder_output + np.transpose(am_postnet_output, (0, 2, 1)) normalized_mel = am_output_data[0] return normalized_mel # onnx def get_sess(model_dir: Optional[os.PathLike]=None, model_file: Optional[os.PathLike]=None, device: str='cpu', cpu_threads: int=1, use_trt: bool=False): model_dir = str(Path(model_dir) / model_file) sess_options = ort.SessionOptions() sess_options.graph_optimization_level = ort.GraphOptimizationLevel.ORT_ENABLE_ALL sess_options.execution_mode = ort.ExecutionMode.ORT_SEQUENTIAL if device == "gpu": # fastspeech2/mb_melgan can't use trt now! if use_trt: providers = ['TensorrtExecutionProvider'] else: providers = ['CUDAExecutionProvider'] elif device == "cpu": providers = ['CPUExecutionProvider'] sess_options.intra_op_num_threads = cpu_threads sess = ort.InferenceSession( model_dir, providers=providers, sess_options=sess_options) return sess