FUNASR训练
blame | 历史 | 原始文档
Shi Xian
2024-03-13 e04489ce4c0fd0095d0c79ef8f504f425e0435a8 
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#!/usr/bin/env python3


# -*- encoding: utf-8 -*-


# Copyright FunASR (https://github.com/alibaba-damo-academy/FunASR). All Rights Reserved.


#  MIT License  (https://opensource.org/licenses/MIT)


 


import types


import torch


from funasr.register import tables


 


 


def export_rebuild_model(model, **kwargs):


        model.device = kwargs.get("device")


        is_onnx = kwargs.get("type", "onnx") == "onnx"


        encoder_class = tables.encoder_classes.get(kwargs["encoder"]+"Export")


        model.encoder = encoder_class(model.encoder, onnx=is_onnx)


        


        predictor_class = tables.predictor_classes.get(kwargs["predictor"]+"Export")


        model.predictor = predictor_class(model.predictor, onnx=is_onnx)


 


 


        decoder_class = tables.decoder_classes.get(kwargs["decoder"]+"Export")


        model.decoder = decoder_class(model.decoder, onnx=is_onnx)


        


        from funasr.utils.torch_function import sequence_mask


        model.make_pad_mask = sequence_mask(kwargs['max_seq_len'], flip=False)


        


        model.forward = types.MethodType(export_forward, model)


        model.export_dummy_inputs = types.MethodType(export_dummy_inputs, model)


        model.export_input_names = types.MethodType(export_input_names, model)


        model.export_output_names = types.MethodType(export_output_names, model)


        model.export_dynamic_axes = types.MethodType(export_dynamic_axes, model)


        model.export_name = types.MethodType(export_name, model)


        


        return model


 


 


def export_forward(


        self,


        speech: torch.Tensor,


        speech_lengths: torch.Tensor,


    ):


    # a. To device


    batch = {"speech": speech, "speech_lengths": speech_lengths}


    # batch = to_device(batch, device=self.device)


 


    enc, enc_len = self.encoder(**batch)


    mask = self.make_pad_mask(enc_len)[:, None, :]


    pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index = self.predictor(enc, mask)


    pre_token_length = pre_token_length.floor().type(torch.int32)


 


    decoder_out, _ = self.decoder(enc, enc_len, pre_acoustic_embeds, pre_token_length)


    decoder_out = torch.log_softmax(decoder_out, dim=-1)


    # sample_ids = decoder_out.argmax(dim=-1)


 


    return decoder_out, pre_token_length


 


def export_dummy_inputs(self):


    speech = torch.randn(2, 30, 560)


    speech_lengths = torch.tensor([6, 30], dtype=torch.int32)


    return (speech, speech_lengths)


 


 


def export_input_names(self):


    return ['speech', 'speech_lengths']


 


def export_output_names(self):


    return ['logits', 'token_num']


 


def export_dynamic_axes(self):


    return {


        'speech': {


            0: 'batch_size',


            1: 'feats_length'


        },


        'speech_lengths': {


            0: 'batch_size',


        },


        'logits': {


            0: 'batch_size',


            1: 'logits_length'


        },


    }


 


def export_name(self, ):


    return "model.onnx"