Merge pull request #184 from alibaba-damo-academy/dev_timestamp

zhifu gao

2023-03-03 00c1d9119c8154eda88cee4ad0719a99de795f17

 funasr/runtime/python/onnxruntime/rapid_paraformer/paraformer_onnx.py

@@ -24,7 +24,8 @@
    def __init__(self, model_dir: Union[str, Path] = None,
                 batch_size: int = 1,
                 device_id: Union[str, int] = "-1",
                 plot_timestamp: bool = False,
                 plot_timestamp_to: str = "",
                 pred_bias: int = 1,
                 ):

        if not Path(model_dir).exists():
@@ -43,14 +44,15 @@
        )
        self.ort_infer = OrtInferSession(model_file, device_id)
        self.batch_size = batch_size
        self.plot = plot_timestamp
        self.plot_timestamp_to = plot_timestamp_to
        self.pred_bias = pred_bias

    def __call__(self, wav_content: Union[str, np.ndarray, List[str]], **kwargs) -> List:
        waveform_list = self.load_data(wav_content, self.frontend.opts.frame_opts.samp_freq)
        waveform_nums = len(waveform_list)
        asr_res = []
        for beg_idx in range(0, waveform_nums, self.batch_size):
            res = {}
            
            end_idx = min(waveform_nums, beg_idx + self.batch_size)
            feats, feats_len = self.extract_feat(waveform_list[beg_idx:end_idx])
            try:
@@ -66,17 +68,20 @@
                logging.warning("input wav is silence or noise")
                preds = ['']
            else:
                preds, raw_token = self.decode(am_scores, valid_token_lens)[0]
                res['preds'] = preds
                if us_cif_peak is not None:
                    timestamp, timestamp_total = time_stamp_lfr6_onnx(us_cif_peak, copy.copy(raw_token))
                    res['timestamp'] = timestamp
                    if self.plot:
                        self.plot_wave_timestamp(waveform_list[0], timestamp_total)
            asr_res.append(res)
                preds = self.decode(am_scores, valid_token_lens)
                if us_cif_peak is None:
                    for pred in preds:
                        asr_res.append({'preds': pred})
                else:
                    for pred, us_cif_peak_ in zip(preds, us_cif_peak):
                        text, tokens = pred
                        timestamp, timestamp_total = time_stamp_lfr6_onnx(us_cif_peak_, copy.copy(tokens))
                        if len(self.plot_timestamp_to):
                            self.plot_wave_timestamp(waveform_list[0], timestamp_total, self.plot_timestamp_to)
                        asr_res.append({'preds': text, 'timestamp': timestamp})
        return asr_res

    def plot_wave_timestamp(self, wav, text_timestamp):
    def plot_wave_timestamp(self, wav, text_timestamp, dest):
        # TODO: Plot the wav and timestamp results with matplotlib
        import matplotlib
        matplotlib.use('Agg')
@@ -96,7 +101,7 @@
            x_adj = 0.045 if char != '<sil>' else 0.12
            ax1.text((start + end) * 0.5 - x_adj, 0, char)
        # plt.legend()
        plotname = "funasr/runtime/python/onnxruntime/debug.png"
        plotname = "{}/timestamp.png".format(dest)
        plt.savefig(plotname, bbox_inches='tight')

    def load_data(self,
@@ -171,9 +176,7 @@

        # Change integer-ids to tokens
        token = self.converter.ids2tokens(token_int)
        # token = token[:valid_token_num-1]
        token = token[:valid_token_num-self.pred_bias]
        texts = sentence_postprocess(token)
        text = texts[0]
        # text = self.tokenizer.tokens2text(token)
        return text, token
        return texts