FunASR/funasr/models/fsmn_vad_streaming/model.py

from enum import Enum
from typing import List, Tuple, Dict, Any
import logging
import os
import json
import torch
from torch import nn
import math
from typing import Optional
import time
from funasr.register import tables
from funasr.utils.load_utils import load_audio_text_image_video,extract_fbank
from funasr.utils.datadir_writer import DatadirWriter

from dataclasses import dataclass

class VadStateMachine(Enum):
    kVadInStateStartPointNotDetected = 1
    kVadInStateInSpeechSegment = 2
    kVadInStateEndPointDetected = 3


class FrameState(Enum):
    kFrameStateInvalid = -1
    kFrameStateSpeech = 1
    kFrameStateSil = 0


# final voice/unvoice state per frame
class AudioChangeState(Enum):
    kChangeStateSpeech2Speech = 0
    kChangeStateSpeech2Sil = 1
    kChangeStateSil2Sil = 2
    kChangeStateSil2Speech = 3
    kChangeStateNoBegin = 4
    kChangeStateInvalid = 5


class VadDetectMode(Enum):
    kVadSingleUtteranceDetectMode = 0
    kVadMutipleUtteranceDetectMode = 1

class VADXOptions:
    """
    Author: Speech Lab of DAMO Academy, Alibaba Group
    Deep-FSMN for Large Vocabulary Continuous Speech Recognition
    https://arxiv.org/abs/1803.05030
    """
    def __init__(
            self,
            sample_rate: int = 16000,
            detect_mode: int = VadDetectMode.kVadMutipleUtteranceDetectMode.value,
            snr_mode: int = 0,
            max_end_silence_time: int = 800,
            max_start_silence_time: int = 3000,
            do_start_point_detection: bool = True,
            do_end_point_detection: bool = True,
            window_size_ms: int = 200,
            sil_to_speech_time_thres: int = 150,
            speech_to_sil_time_thres: int = 150,
            speech_2_noise_ratio: float = 1.0,
            do_extend: int = 1,
            lookback_time_start_point: int = 200,
            lookahead_time_end_point: int = 100,
            max_single_segment_time: int = 60000,
            nn_eval_block_size: int = 8,
            dcd_block_size: int = 4,
            snr_thres: int = -100.0,
            noise_frame_num_used_for_snr: int = 100,
            decibel_thres: int = -100.0,
            speech_noise_thres: float = 0.6,
            fe_prior_thres: float = 1e-4,
            silence_pdf_num: int = 1,
            sil_pdf_ids: List[int] = [0],
            speech_noise_thresh_low: float = -0.1,
            speech_noise_thresh_high: float = 0.3,
            output_frame_probs: bool = False,
            frame_in_ms: int = 10,
            frame_length_ms: int = 25,
            **kwargs,
    ):
        self.sample_rate = sample_rate
        self.detect_mode = detect_mode
        self.snr_mode = snr_mode
        self.max_end_silence_time = max_end_silence_time
        self.max_start_silence_time = max_start_silence_time
        self.do_start_point_detection = do_start_point_detection
        self.do_end_point_detection = do_end_point_detection
        self.window_size_ms = window_size_ms
        self.sil_to_speech_time_thres = sil_to_speech_time_thres
        self.speech_to_sil_time_thres = speech_to_sil_time_thres
        self.speech_2_noise_ratio = speech_2_noise_ratio
        self.do_extend = do_extend
        self.lookback_time_start_point = lookback_time_start_point
        self.lookahead_time_end_point = lookahead_time_end_point
        self.max_single_segment_time = max_single_segment_time
        self.nn_eval_block_size = nn_eval_block_size
        self.dcd_block_size = dcd_block_size
        self.snr_thres = snr_thres
        self.noise_frame_num_used_for_snr = noise_frame_num_used_for_snr
        self.decibel_thres = decibel_thres
        self.speech_noise_thres = speech_noise_thres
        self.fe_prior_thres = fe_prior_thres
        self.silence_pdf_num = silence_pdf_num
        self.sil_pdf_ids = sil_pdf_ids
        self.speech_noise_thresh_low = speech_noise_thresh_low
        self.speech_noise_thresh_high = speech_noise_thresh_high
        self.output_frame_probs = output_frame_probs
        self.frame_in_ms = frame_in_ms
        self.frame_length_ms = frame_length_ms


class E2EVadSpeechBufWithDoa(object):
    """
    Author: Speech Lab of DAMO Academy, Alibaba Group
    Deep-FSMN for Large Vocabulary Continuous Speech Recognition
    https://arxiv.org/abs/1803.05030
    """
    def __init__(self):
        self.start_ms = 0
        self.end_ms = 0
        self.buffer = []
        self.contain_seg_start_point = False
        self.contain_seg_end_point = False
        self.doa = 0

    def Reset(self):
        self.start_ms = 0
        self.end_ms = 0
        self.buffer = []
        self.contain_seg_start_point = False
        self.contain_seg_end_point = False
        self.doa = 0


class E2EVadFrameProb(object):
    """
    Author: Speech Lab of DAMO Academy, Alibaba Group
    Deep-FSMN for Large Vocabulary Continuous Speech Recognition
    https://arxiv.org/abs/1803.05030
    """
    def __init__(self):
        self.noise_prob = 0.0
        self.speech_prob = 0.0
        self.score = 0.0
        self.frame_id = 0
        self.frm_state = 0


class WindowDetector(object):
    """
    Author: Speech Lab of DAMO Academy, Alibaba Group
    Deep-FSMN for Large Vocabulary Continuous Speech Recognition
    https://arxiv.org/abs/1803.05030
    """
    def __init__(self, window_size_ms: int,
                 sil_to_speech_time: int,
                 speech_to_sil_time: int,
                 frame_size_ms: int):
        self.window_size_ms = window_size_ms
        self.sil_to_speech_time = sil_to_speech_time
        self.speech_to_sil_time = speech_to_sil_time
        self.frame_size_ms = frame_size_ms

        self.win_size_frame = int(window_size_ms / frame_size_ms)
        self.win_sum = 0
        self.win_state = [0] * self.win_size_frame  # 初始化窗

        self.cur_win_pos = 0
        self.pre_frame_state = FrameState.kFrameStateSil
        self.cur_frame_state = FrameState.kFrameStateSil
        self.sil_to_speech_frmcnt_thres = int(sil_to_speech_time / frame_size_ms)
        self.speech_to_sil_frmcnt_thres = int(speech_to_sil_time / frame_size_ms)

        self.voice_last_frame_count = 0
        self.noise_last_frame_count = 0
        self.hydre_frame_count = 0

    def Reset(self) -> None:
        self.cur_win_pos = 0
        self.win_sum = 0
        self.win_state = [0] * self.win_size_frame
        self.pre_frame_state = FrameState.kFrameStateSil
        self.cur_frame_state = FrameState.kFrameStateSil
        self.voice_last_frame_count = 0
        self.noise_last_frame_count = 0
        self.hydre_frame_count = 0

    def GetWinSize(self) -> int:
        return int(self.win_size_frame)

    def DetectOneFrame(self, frameState: FrameState, frame_count: int, cache: dict={}) -> AudioChangeState:
        cur_frame_state = FrameState.kFrameStateSil
        if frameState == FrameState.kFrameStateSpeech:
            cur_frame_state = 1
        elif frameState == FrameState.kFrameStateSil:
            cur_frame_state = 0
        else:
            return AudioChangeState.kChangeStateInvalid
        self.win_sum -= self.win_state[self.cur_win_pos]
        self.win_sum += cur_frame_state
        self.win_state[self.cur_win_pos] = cur_frame_state
        self.cur_win_pos = (self.cur_win_pos + 1) % self.win_size_frame

        if self.pre_frame_state == FrameState.kFrameStateSil and self.win_sum >= self.sil_to_speech_frmcnt_thres:
            self.pre_frame_state = FrameState.kFrameStateSpeech
            return AudioChangeState.kChangeStateSil2Speech

        if self.pre_frame_state == FrameState.kFrameStateSpeech and self.win_sum <= self.speech_to_sil_frmcnt_thres:
            self.pre_frame_state = FrameState.kFrameStateSil
            return AudioChangeState.kChangeStateSpeech2Sil

        if self.pre_frame_state == FrameState.kFrameStateSil:
            return AudioChangeState.kChangeStateSil2Sil
        if self.pre_frame_state == FrameState.kFrameStateSpeech:
            return AudioChangeState.kChangeStateSpeech2Speech
        return AudioChangeState.kChangeStateInvalid

    def FrameSizeMs(self) -> int:
        return int(self.frame_size_ms)


@dataclass
class StatsItem:
    
    # init variables
    data_buf_start_frame = 0
    frm_cnt = 0
    latest_confirmed_speech_frame = 0
    lastest_confirmed_silence_frame = -1
    continous_silence_frame_count = 0
    vad_state_machine = VadStateMachine.kVadInStateStartPointNotDetected
    confirmed_start_frame = -1
    confirmed_end_frame = -1
    number_end_time_detected = 0
    sil_frame = 0
    sil_pdf_ids: list
    noise_average_decibel = -100.0
    pre_end_silence_detected = False
    next_seg = True # unused
    
    output_data_buf = []
    output_data_buf_offset = 0
    frame_probs = [] # unused
    max_end_sil_frame_cnt_thresh: int
    speech_noise_thres: float
    scores = None
    max_time_out = False #unused
    decibel = []
    data_buf = None
    data_buf_all = None
    waveform = None
    last_drop_frames = 0
    
@tables.register("model_classes", "FsmnVADStreaming")
class FsmnVADStreaming(nn.Module):
    """
    Author: Speech Lab of DAMO Academy, Alibaba Group
    Deep-FSMN for Large Vocabulary Continuous Speech Recognition
    https://arxiv.org/abs/1803.05030
    """
    def __init__(self,
                 encoder: str = None,
                 encoder_conf: Optional[Dict] = None,
                 vad_post_args: Dict[str, Any] = None,
                 **kwargs,
                 ):
        super().__init__()
        self.vad_opts = VADXOptions(**kwargs)

        encoder_class = tables.encoder_classes.get(encoder.lower())
        encoder = encoder_class(**encoder_conf)
        self.encoder = encoder


    def ResetDetection(self, cache: dict = {}):
        cache["stats"].continous_silence_frame_count = 0
        cache["stats"].latest_confirmed_speech_frame = 0
        cache["stats"].lastest_confirmed_silence_frame = -1
        cache["stats"].confirmed_start_frame = -1
        cache["stats"].confirmed_end_frame = -1
        cache["stats"].vad_state_machine = VadStateMachine.kVadInStateStartPointNotDetected
        cache["windows_detector"].Reset()
        cache["stats"].sil_frame = 0
        cache["stats"].frame_probs = []

        if cache["stats"].output_data_buf:
            assert cache["stats"].output_data_buf[-1].contain_seg_end_point == True
            drop_frames = int(cache["stats"].output_data_buf[-1].end_ms / self.vad_opts.frame_in_ms)
            real_drop_frames = drop_frames - cache["stats"].last_drop_frames
            cache["stats"].last_drop_frames = drop_frames
            cache["stats"].data_buf_all = cache["stats"].data_buf_all[real_drop_frames * int(self.vad_opts.frame_in_ms * self.vad_opts.sample_rate / 1000):]
            cache["stats"].decibel = cache["stats"].decibel[real_drop_frames:]
            cache["stats"].scores = cache["stats"].scores[:, real_drop_frames:, :]

    def ComputeDecibel(self, cache: dict = {}) -> None:
        frame_sample_length = int(self.vad_opts.frame_length_ms * self.vad_opts.sample_rate / 1000)
        frame_shift_length = int(self.vad_opts.frame_in_ms * self.vad_opts.sample_rate / 1000)
        if cache["stats"].data_buf_all is None:
            cache["stats"].data_buf_all = cache["stats"].waveform[0]  # cache["stats"].data_buf is pointed to cache["stats"].waveform[0]
            cache["stats"].data_buf = cache["stats"].data_buf_all
        else:
            cache["stats"].data_buf_all = torch.cat((cache["stats"].data_buf_all, cache["stats"].waveform[0]))
        for offset in range(0, cache["stats"].waveform.shape[1] - frame_sample_length + 1, frame_shift_length):
            cache["stats"].decibel.append(
                10 * math.log10((cache["stats"].waveform[0][offset: offset + frame_sample_length]).square().sum() + \
                                0.000001))

    def ComputeScores(self, feats: torch.Tensor, cache: dict = {}) -> None:
        scores = self.encoder(feats, cache=cache["encoder"]).to('cpu')  # return B * T * D
        assert scores.shape[1] == feats.shape[1], "The shape between feats and scores does not match"
        self.vad_opts.nn_eval_block_size = scores.shape[1]
        cache["stats"].frm_cnt += scores.shape[1]  # count total frames
        if cache["stats"].scores is None:
            cache["stats"].scores = scores  # the first calculation
        else:
            cache["stats"].scores = torch.cat((cache["stats"].scores, scores), dim=1)

    def PopDataBufTillFrame(self, frame_idx: int, cache: dict={}) -> None:  # need check again
        while cache["stats"].data_buf_start_frame < frame_idx:
            if len(cache["stats"].data_buf) >= int(self.vad_opts.frame_in_ms * self.vad_opts.sample_rate / 1000):
                cache["stats"].data_buf_start_frame += 1
                cache["stats"].data_buf = cache["stats"].data_buf_all[(cache["stats"].data_buf_start_frame - cache["stats"].last_drop_frames) * int(
                    self.vad_opts.frame_in_ms * self.vad_opts.sample_rate / 1000):]

    def PopDataToOutputBuf(self, start_frm: int, frm_cnt: int, first_frm_is_start_point: bool,
                           last_frm_is_end_point: bool, end_point_is_sent_end: bool, cache: dict={}) -> None:
        self.PopDataBufTillFrame(start_frm, cache=cache)
        expected_sample_number = int(frm_cnt * self.vad_opts.sample_rate * self.vad_opts.frame_in_ms / 1000)
        if last_frm_is_end_point:
            extra_sample = max(0, int(self.vad_opts.frame_length_ms * self.vad_opts.sample_rate / 1000 - \
                                      self.vad_opts.sample_rate * self.vad_opts.frame_in_ms / 1000))
            expected_sample_number += int(extra_sample)
        if end_point_is_sent_end:
            expected_sample_number = max(expected_sample_number, len(cache["stats"].data_buf))
        if len(cache["stats"].data_buf) < expected_sample_number:
            print('error in calling pop data_buf\n')

        if len(cache["stats"].output_data_buf) == 0 or first_frm_is_start_point:
            cache["stats"].output_data_buf.append(E2EVadSpeechBufWithDoa())
            cache["stats"].output_data_buf[-1].Reset()
            cache["stats"].output_data_buf[-1].start_ms = start_frm * self.vad_opts.frame_in_ms
            cache["stats"].output_data_buf[-1].end_ms = cache["stats"].output_data_buf[-1].start_ms
            cache["stats"].output_data_buf[-1].doa = 0
        cur_seg = cache["stats"].output_data_buf[-1]
        if cur_seg.end_ms != start_frm * self.vad_opts.frame_in_ms:
            print('warning\n')
        out_pos = len(cur_seg.buffer)  # cur_seg.buff现在没做任何操作
        data_to_pop = 0
        if end_point_is_sent_end:
            data_to_pop = expected_sample_number
        else:
            data_to_pop = int(frm_cnt * self.vad_opts.frame_in_ms * self.vad_opts.sample_rate / 1000)
        if data_to_pop > len(cache["stats"].data_buf):
            print('VAD data_to_pop is bigger than cache["stats"].data_buf.size()!!!\n')
            data_to_pop = len(cache["stats"].data_buf)
            expected_sample_number = len(cache["stats"].data_buf)

        cur_seg.doa = 0
        for sample_cpy_out in range(0, data_to_pop):
            # cur_seg.buffer[out_pos ++] = data_buf_.back();
            out_pos += 1
        for sample_cpy_out in range(data_to_pop, expected_sample_number):
            # cur_seg.buffer[out_pos++] = data_buf_.back()
            out_pos += 1
        if cur_seg.end_ms != start_frm * self.vad_opts.frame_in_ms:
            print('Something wrong with the VAD algorithm\n')
        cache["stats"].data_buf_start_frame += frm_cnt
        cur_seg.end_ms = (start_frm + frm_cnt) * self.vad_opts.frame_in_ms
        if first_frm_is_start_point:
            cur_seg.contain_seg_start_point = True
        if last_frm_is_end_point:
            cur_seg.contain_seg_end_point = True

    def OnSilenceDetected(self, valid_frame: int, cache: dict = {}):
        cache["stats"].lastest_confirmed_silence_frame = valid_frame
        if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateStartPointNotDetected:
            self.PopDataBufTillFrame(valid_frame, cache=cache)
        # silence_detected_callback_
        # pass

    def OnVoiceDetected(self, valid_frame: int, cache:dict={}) -> None:
        cache["stats"].latest_confirmed_speech_frame = valid_frame
        self.PopDataToOutputBuf(valid_frame, 1, False, False, False, cache=cache)

    def OnVoiceStart(self, start_frame: int, fake_result: bool = False, cache:dict={}) -> None:
        if self.vad_opts.do_start_point_detection:
            pass
        if cache["stats"].confirmed_start_frame != -1:
            print('not reset vad properly\n')
        else:
            cache["stats"].confirmed_start_frame = start_frame

        if not fake_result and cache["stats"].vad_state_machine == VadStateMachine.kVadInStateStartPointNotDetected:
            self.PopDataToOutputBuf(cache["stats"].confirmed_start_frame, 1, True, False, False, cache=cache)

    def OnVoiceEnd(self, end_frame: int, fake_result: bool, is_last_frame: bool, cache:dict={}) -> None:
        for t in range(cache["stats"].latest_confirmed_speech_frame + 1, end_frame):
            self.OnVoiceDetected(t, cache=cache)
        if self.vad_opts.do_end_point_detection:
            pass
        if cache["stats"].confirmed_end_frame != -1:
            print('not reset vad properly\n')
        else:
            cache["stats"].confirmed_end_frame = end_frame
        if not fake_result:
            cache["stats"].sil_frame = 0
            self.PopDataToOutputBuf(cache["stats"].confirmed_end_frame, 1, False, True, is_last_frame, cache=cache)
        cache["stats"].number_end_time_detected += 1

    def MaybeOnVoiceEndIfLastFrame(self, is_final_frame: bool, cur_frm_idx: int, cache: dict = {}) -> None:
        if is_final_frame:
            self.OnVoiceEnd(cur_frm_idx, False, True, cache=cache)
            cache["stats"].vad_state_machine = VadStateMachine.kVadInStateEndPointDetected

    def GetLatency(self, cache: dict = {}) -> int:
        return int(self.LatencyFrmNumAtStartPoint(cache=cache) * self.vad_opts.frame_in_ms)

    def LatencyFrmNumAtStartPoint(self, cache: dict = {}) -> int:
        vad_latency = cache["windows_detector"].GetWinSize()
        if self.vad_opts.do_extend:
            vad_latency += int(self.vad_opts.lookback_time_start_point / self.vad_opts.frame_in_ms)
        return vad_latency

    def GetFrameState(self, t: int, cache: dict = {}):
        frame_state = FrameState.kFrameStateInvalid
        cur_decibel = cache["stats"].decibel[t]
        cur_snr = cur_decibel - cache["stats"].noise_average_decibel
        # for each frame, calc log posterior probability of each state
        if cur_decibel < self.vad_opts.decibel_thres:
            frame_state = FrameState.kFrameStateSil
            self.DetectOneFrame(frame_state, t, False, cache=cache)
            return frame_state

        sum_score = 0.0
        noise_prob = 0.0
        assert len(cache["stats"].sil_pdf_ids) == self.vad_opts.silence_pdf_num
        if len(cache["stats"].sil_pdf_ids) > 0:
            assert len(cache["stats"].scores) == 1  # 只支持batch_size = 1的测试
            sil_pdf_scores = [cache["stats"].scores[0][t][sil_pdf_id] for sil_pdf_id in cache["stats"].sil_pdf_ids]
            sum_score = sum(sil_pdf_scores)
            noise_prob = math.log(sum_score) * self.vad_opts.speech_2_noise_ratio
            total_score = 1.0
            sum_score = total_score - sum_score
        speech_prob = math.log(sum_score)
        if self.vad_opts.output_frame_probs:
            frame_prob = E2EVadFrameProb()
            frame_prob.noise_prob = noise_prob
            frame_prob.speech_prob = speech_prob
            frame_prob.score = sum_score
            frame_prob.frame_id = t
            cache["stats"].frame_probs.append(frame_prob)
        if math.exp(speech_prob) >= math.exp(noise_prob) + cache["stats"].speech_noise_thres:
            if cur_snr >= self.vad_opts.snr_thres and cur_decibel >= self.vad_opts.decibel_thres:
                frame_state = FrameState.kFrameStateSpeech
            else:
                frame_state = FrameState.kFrameStateSil
        else:
            frame_state = FrameState.kFrameStateSil
            if cache["stats"].noise_average_decibel < -99.9:
                cache["stats"].noise_average_decibel = cur_decibel
            else:
                cache["stats"].noise_average_decibel = (cur_decibel + cache["stats"].noise_average_decibel * (
                        self.vad_opts.noise_frame_num_used_for_snr
                        - 1)) / self.vad_opts.noise_frame_num_used_for_snr

        return frame_state

    def forward(self, feats: torch.Tensor, waveform: torch.tensor, cache: dict = {},
                is_final: bool = False
                ):
        # if len(cache) == 0:
        #     self.AllResetDetection()
        # self.waveform = waveform  # compute decibel for each frame
        cache["stats"].waveform = waveform
        self.ComputeDecibel(cache=cache)
        self.ComputeScores(feats, cache=cache)
        if not is_final:
            self.DetectCommonFrames(cache=cache)
        else:
            self.DetectLastFrames(cache=cache)
        segments = []
        for batch_num in range(0, feats.shape[0]):  # only support batch_size = 1 now
            segment_batch = []
            if len(cache["stats"].output_data_buf) > 0:
                for i in range(cache["stats"].output_data_buf_offset, len(cache["stats"].output_data_buf)):
                    if not is_final and (not cache["stats"].output_data_buf[i].contain_seg_start_point or not cache["stats"].output_data_buf[
                        i].contain_seg_end_point):
                        continue
                    segment = [cache["stats"].output_data_buf[i].start_ms, cache["stats"].output_data_buf[i].end_ms]
                    segment_batch.append(segment)
                    cache["stats"].output_data_buf_offset += 1  # need update this parameter
            if segment_batch:
                segments.append(segment_batch)
        # if is_final:
        #     # reset class variables and clear the dict for the next query
        #     self.AllResetDetection()
        return segments

    def init_cache(self, cache: dict = {}, **kwargs):
        cache["frontend"] = {}
        cache["prev_samples"] = torch.empty(0)
        cache["encoder"] = {}
        windows_detector = WindowDetector(self.vad_opts.window_size_ms,
                                          self.vad_opts.sil_to_speech_time_thres,
                                          self.vad_opts.speech_to_sil_time_thres,
                                          self.vad_opts.frame_in_ms)

        stats = StatsItem(sil_pdf_ids=self.vad_opts.sil_pdf_ids,
                          max_end_sil_frame_cnt_thresh=self.vad_opts.max_end_silence_time - self.vad_opts.speech_to_sil_time_thres,
                          speech_noise_thres=self.vad_opts.speech_noise_thres,
                      )
        cache["windows_detector"] = windows_detector
        cache["stats"] = stats
        return cache
    
    def generate(self,
                 data_in,
                 data_lengths=None,
                 key: list = None,
                 tokenizer=None,
                 frontend=None,
                 cache: dict = {},
                 **kwargs,
                 ):
    
        if len(cache) == 0:
            self.init_cache(cache, **kwargs)

        meta_data = {}
        chunk_size = kwargs.get("chunk_size", 60000) # 50ms
        chunk_stride_samples = int(chunk_size * frontend.fs / 1000)

        time1 = time.perf_counter()
        cfg = {"is_final": kwargs.get("is_final", False)}
        audio_sample_list = load_audio_text_image_video(data_in,
                                                        fs=frontend.fs,
                                                        audio_fs=kwargs.get("fs", 16000),
                                                        data_type=kwargs.get("data_type", "sound"),
                                                        tokenizer=tokenizer,
                                                        cache=cfg,
                                                        )
        _is_final = cfg["is_final"]  # if data_in is a file or url, set is_final=True

        time2 = time.perf_counter()
        meta_data["load_data"] = f"{time2 - time1:0.3f}"
        assert len(audio_sample_list) == 1, "batch_size must be set 1"

        audio_sample = torch.cat((cache["prev_samples"], audio_sample_list[0]))

        n = int(len(audio_sample) // chunk_stride_samples + int(_is_final))
        m = int(len(audio_sample) % chunk_stride_samples * (1 - int(_is_final)))
        segments = []
        for i in range(n):
            kwargs["is_final"] = _is_final and i == n - 1
            audio_sample_i = audio_sample[i * chunk_stride_samples:(i + 1) * chunk_stride_samples]
    
            # extract fbank feats
            speech, speech_lengths = extract_fbank([audio_sample_i], data_type=kwargs.get("data_type", "sound"),
                                                   frontend=frontend, cache=cache["frontend"],
                                                   is_final=kwargs["is_final"])
            time3 = time.perf_counter()
            meta_data["extract_feat"] = f"{time3 - time2:0.3f}"
            meta_data["batch_data_time"] = speech_lengths.sum().item() * frontend.frame_shift * frontend.lfr_n / 1000
            speech = speech.to(device=kwargs["device"])
            speech_lengths = speech_lengths.to(device=kwargs["device"])
            
            batch = {
                "feats": speech,
                "waveform": cache["frontend"]["waveforms"],
                "is_final": kwargs["is_final"],
                "cache": cache
            }
            segments_i = self.forward(**batch)
            if len(segments_i) > 0:
                segments.extend(*segments_i)


        cache["prev_samples"] = audio_sample[:-m]
        if _is_final:
            self.init_cache(cache, **kwargs)

        ibest_writer = None
        if ibest_writer is None and kwargs.get("output_dir") is not None:
            writer = DatadirWriter(kwargs.get("output_dir"))
            ibest_writer = writer[f"{1}best_recog"]

        results = []
        result_i = {"key": key[0], "value": segments}
        if "MODELSCOPE_ENVIRONMENT" in os.environ and os.environ["MODELSCOPE_ENVIRONMENT"] == "eas":
            result_i = json.dumps(result_i)

        results.append(result_i)
            
        if ibest_writer is not None:
            ibest_writer["text"][key[0]] = segments

 
        return results, meta_data


    def DetectCommonFrames(self, cache: dict = {}) -> int:
        if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateEndPointDetected:
            return 0
        for i in range(self.vad_opts.nn_eval_block_size - 1, -1, -1):
            frame_state = FrameState.kFrameStateInvalid
            frame_state = self.GetFrameState(cache["stats"].frm_cnt - 1 - i - cache["stats"].last_drop_frames, cache=cache)
            self.DetectOneFrame(frame_state, cache["stats"].frm_cnt - 1 - i, False, cache=cache)

        return 0

    def DetectLastFrames(self, cache: dict = {}) -> int:
        if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateEndPointDetected:
            return 0
        for i in range(self.vad_opts.nn_eval_block_size - 1, -1, -1):
            frame_state = FrameState.kFrameStateInvalid
            frame_state = self.GetFrameState(cache["stats"].frm_cnt - 1 - i - cache["stats"].last_drop_frames, cache=cache)
            if i != 0:
                self.DetectOneFrame(frame_state, cache["stats"].frm_cnt - 1 - i, False, cache=cache)
            else:
                self.DetectOneFrame(frame_state, cache["stats"].frm_cnt - 1, True, cache=cache)

        return 0

    def DetectOneFrame(self, cur_frm_state: FrameState, cur_frm_idx: int, is_final_frame: bool, cache: dict = {}) -> None:
        tmp_cur_frm_state = FrameState.kFrameStateInvalid
        if cur_frm_state == FrameState.kFrameStateSpeech:
            if math.fabs(1.0) > self.vad_opts.fe_prior_thres:
                tmp_cur_frm_state = FrameState.kFrameStateSpeech
            else:
                tmp_cur_frm_state = FrameState.kFrameStateSil
        elif cur_frm_state == FrameState.kFrameStateSil:
            tmp_cur_frm_state = FrameState.kFrameStateSil
        state_change = cache["windows_detector"].DetectOneFrame(tmp_cur_frm_state, cur_frm_idx, cache=cache)
        frm_shift_in_ms = self.vad_opts.frame_in_ms
        if AudioChangeState.kChangeStateSil2Speech == state_change:
            silence_frame_count = cache["stats"].continous_silence_frame_count
            cache["stats"].continous_silence_frame_count = 0
            cache["stats"].pre_end_silence_detected = False
            start_frame = 0
            if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateStartPointNotDetected:
                start_frame = max(cache["stats"].data_buf_start_frame, cur_frm_idx - self.LatencyFrmNumAtStartPoint(cache=cache))
                self.OnVoiceStart(start_frame, cache=cache)
                cache["stats"].vad_state_machine = VadStateMachine.kVadInStateInSpeechSegment
                for t in range(start_frame + 1, cur_frm_idx + 1):
                    self.OnVoiceDetected(t, cache=cache)
            elif cache["stats"].vad_state_machine == VadStateMachine.kVadInStateInSpeechSegment:
                for t in range(cache["stats"].latest_confirmed_speech_frame + 1, cur_frm_idx):
                    self.OnVoiceDetected(t, cache=cache)
                if cur_frm_idx - cache["stats"].confirmed_start_frame + 1 > \
                        self.vad_opts.max_single_segment_time / frm_shift_in_ms:
                    self.OnVoiceEnd(cur_frm_idx, False, False, cache=cache)
                    cache["stats"].vad_state_machine = VadStateMachine.kVadInStateEndPointDetected
                elif not is_final_frame:
                    self.OnVoiceDetected(cur_frm_idx, cache=cache)
                else:
                    self.MaybeOnVoiceEndIfLastFrame(is_final_frame, cur_frm_idx, cache=cache)
            else:
                pass
        elif AudioChangeState.kChangeStateSpeech2Sil == state_change:
            cache["stats"].continous_silence_frame_count = 0
            if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateStartPointNotDetected:
                pass
            elif cache["stats"].vad_state_machine == VadStateMachine.kVadInStateInSpeechSegment:
                if cur_frm_idx - cache["stats"].confirmed_start_frame + 1 > \
                        self.vad_opts.max_single_segment_time / frm_shift_in_ms:
                    self.OnVoiceEnd(cur_frm_idx, False, False, cache=cache)
                    cache["stats"].vad_state_machine = VadStateMachine.kVadInStateEndPointDetected
                elif not is_final_frame:
                    self.OnVoiceDetected(cur_frm_idx, cache=cache)
                else:
                    self.MaybeOnVoiceEndIfLastFrame(is_final_frame, cur_frm_idx, cache=cache)
            else:
                pass
        elif AudioChangeState.kChangeStateSpeech2Speech == state_change:
            cache["stats"].continous_silence_frame_count = 0
            if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateInSpeechSegment:
                if cur_frm_idx - cache["stats"].confirmed_start_frame + 1 > \
                        self.vad_opts.max_single_segment_time / frm_shift_in_ms:
                    cache["stats"].max_time_out = True
                    self.OnVoiceEnd(cur_frm_idx, False, False, cache=cache)
                    cache["stats"].vad_state_machine = VadStateMachine.kVadInStateEndPointDetected
                elif not is_final_frame:
                    self.OnVoiceDetected(cur_frm_idx, cache=cache)
                else:
                    self.MaybeOnVoiceEndIfLastFrame(is_final_frame, cur_frm_idx, cache=cache)
            else:
                pass
        elif AudioChangeState.kChangeStateSil2Sil == state_change:
            cache["stats"].continous_silence_frame_count += 1
            if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateStartPointNotDetected:
                # silence timeout, return zero length decision
                if ((self.vad_opts.detect_mode == VadDetectMode.kVadSingleUtteranceDetectMode.value) and (
                        cache["stats"].continous_silence_frame_count * frm_shift_in_ms > self.vad_opts.max_start_silence_time)) \
                        or (is_final_frame and cache["stats"].number_end_time_detected == 0):
                    for t in range(cache["stats"].lastest_confirmed_silence_frame + 1, cur_frm_idx):
                        self.OnSilenceDetected(t, cache=cache)
                    self.OnVoiceStart(0, True, cache=cache)
                    self.OnVoiceEnd(0, True, False, cache=cache)
                    cache["stats"].vad_state_machine = VadStateMachine.kVadInStateEndPointDetected
                else:
                    if cur_frm_idx >= self.LatencyFrmNumAtStartPoint(cache=cache):
                        self.OnSilenceDetected(cur_frm_idx - self.LatencyFrmNumAtStartPoint(cache=cache), cache=cache)
            elif cache["stats"].vad_state_machine == VadStateMachine.kVadInStateInSpeechSegment:
                if cache["stats"].continous_silence_frame_count * frm_shift_in_ms >= cache["stats"].max_end_sil_frame_cnt_thresh:
                    lookback_frame = int(cache["stats"].max_end_sil_frame_cnt_thresh / frm_shift_in_ms)
                    if self.vad_opts.do_extend:
                        lookback_frame -= int(self.vad_opts.lookahead_time_end_point / frm_shift_in_ms)
                        lookback_frame -= 1
                        lookback_frame = max(0, lookback_frame)
                    self.OnVoiceEnd(cur_frm_idx - lookback_frame, False, False, cache=cache)
                    cache["stats"].vad_state_machine = VadStateMachine.kVadInStateEndPointDetected
                elif cur_frm_idx - cache["stats"].confirmed_start_frame + 1 > \
                        self.vad_opts.max_single_segment_time / frm_shift_in_ms:
                    self.OnVoiceEnd(cur_frm_idx, False, False, cache=cache)
                    cache["stats"].vad_state_machine = VadStateMachine.kVadInStateEndPointDetected
                elif self.vad_opts.do_extend and not is_final_frame:
                    if cache["stats"].continous_silence_frame_count <= int(
                            self.vad_opts.lookahead_time_end_point / frm_shift_in_ms):
                        self.OnVoiceDetected(cur_frm_idx, cache=cache)
                else:
                    self.MaybeOnVoiceEndIfLastFrame(is_final_frame, cur_frm_idx, cache=cache)
            else:
                pass

        if cache["stats"].vad_state_machine == VadStateMachine.kVadInStateEndPointDetected and \
                self.vad_opts.detect_mode == VadDetectMode.kVadMutipleUtteranceDetectMode.value:
            self.ResetDetection(cache=cache)