PaddleSpeech/paddlespeech/server/engine/asr/online/ctc_search.py

# 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 copy
from collections import defaultdict

import paddle

from paddlespeech.cli.log import logger
from paddlespeech.s2t.utils.utility import log_add

__all__ = ['CTCPrefixBeamSearch']


class CTCPrefixBeamSearch:
    def __init__(self, config):
        """Implement the ctc prefix beam search

        Args:
            config (yacs.config.CfgNode): the ctc prefix beam search configuration
        """
        self.config = config
        self.reset()

    @paddle.no_grad()
    def search(self, ctc_probs, device, blank_id=0):
        """ctc prefix beam search method decode a chunk feature

        Args:
            xs (paddle.Tensor): feature data
            ctc_probs (paddle.Tensor): the ctc probability of all the tokens
            device (paddle.fluid.core_avx.Place): the feature host device, such as CUDAPlace(0).
            blank_id (int, optional): the blank id in the vocab. Defaults to 0.

        Returns:
            list: the search result
        """
        # decode 
        logger.info("start to ctc prefix search")

        batch_size = 1
        beam_size = self.config.beam_size
        maxlen = ctc_probs.shape[0]

        assert len(ctc_probs.shape) == 2

        # cur_hyps: (prefix, (blank_ending_score, none_blank_ending_score))
        # 0. blank_ending_score,
        # 1. none_blank_ending_score, 
        # 2. viterbi_blank ending, 
        # 3. viterbi_non_blank, 
        # 4. current_token_prob, 
        # 5. times_viterbi_blank, 
        # 6. times_titerbi_non_blank
        if self.cur_hyps is None:
            self.cur_hyps = [(tuple(), (0.0, -float('inf'), 0.0, 0.0,
                                        -float('inf'), [], []))]
            # self.cur_hyps = [(tuple(), (0.0, -float('inf')))]
        # 2. CTC beam search step by step
        for t in range(0, maxlen):
            logp = ctc_probs[t]  # (vocab_size,)
            # next_hyps = defaultdict(lambda: (-float('inf'), -float('inf')))
            next_hyps = defaultdict(
                        lambda: (-float('inf'), -float('inf'), -float('inf'), -float('inf'), -float('inf'), [], []))

            # 2.1 First beam prune: select topk best
            #     do token passing process
            top_k_logp, top_k_index = logp.topk(beam_size)  # (beam_size,)
            for s in top_k_index:
                s = s.item()
                ps = logp[s].item()
                for prefix, (pb, pnb, v_b_s, v_nb_s, cur_token_prob, times_s,
                             times_ns) in self.cur_hyps:
                    last = prefix[-1] if len(prefix) > 0 else None
                    if s == blank_id:  # blank
                        n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[
                            prefix]
                        n_pb = log_add([n_pb, pb + ps, pnb + ps])

                        pre_times = times_s if v_b_s > v_nb_s else times_ns
                        n_times_s = copy.deepcopy(pre_times)
                        viterbi_score = v_b_s if v_b_s > v_nb_s else v_nb_s
                        n_v_s = viterbi_score + ps
                        next_hyps[prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,
                                             n_cur_token_prob, n_times_s,
                                             n_times_ns)
                    elif s == last:
                        #  Update *ss -> *s;
                        # case1: *a + a => *a
                        n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[
                            prefix]
                        n_pnb = log_add([n_pnb, pnb + ps])
                        if n_v_ns < v_nb_s + ps:
                            n_v_ns = v_nb_s + ps
                            if n_cur_token_prob < ps:
                                n_cur_token_prob = ps
                                n_times_ns = copy.deepcopy(times_ns)
                                n_times_ns[
                                    -1] = self.abs_time_step  # 注意，这里要重新使用绝对时间
                        next_hyps[prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,
                                             n_cur_token_prob, n_times_s,
                                             n_times_ns)

                        # Update *s-s -> *ss, - is for blank
                        # Case 2: *aε + a => *aa
                        n_prefix = prefix + (s, )
                        n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[
                            n_prefix]
                        if n_v_ns < v_b_s + ps:
                            n_v_ns = v_b_s + ps
                            n_cur_token_prob = ps
                            n_times_ns = copy.deepcopy(times_s)
                            n_times_ns.append(self.abs_time_step)
                        n_pnb = log_add([n_pnb, pb + ps])
                        next_hyps[n_prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,
                                               n_cur_token_prob, n_times_s,
                                               n_times_ns)
                    else:
                        # Case 3: *a + b => *ab, *aε + b => *ab
                        n_prefix = prefix + (s, )
                        n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[
                            n_prefix]
                        viterbi_score = v_b_s if v_b_s > v_nb_s else v_nb_s
                        pre_times = times_s if v_b_s > v_nb_s else times_ns
                        if n_v_ns < viterbi_score + ps:
                            n_v_ns = viterbi_score + ps
                            n_cur_token_prob = ps
                            n_times_ns = copy.deepcopy(pre_times)
                            n_times_ns.append(self.abs_time_step)

                        n_pnb = log_add([n_pnb, pb + ps, pnb + ps])
                        next_hyps[n_prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,
                                               n_cur_token_prob, n_times_s,
                                               n_times_ns)

            # 2.2 Second beam prune
            next_hyps = sorted(
                next_hyps.items(),
                key=lambda x: log_add([x[1][0], x[1][1]]),
                reverse=True)
            self.cur_hyps = next_hyps[:beam_size]

            # 2.3 update the absolute time step
            self.abs_time_step += 1

        self.hyps = [(y[0], log_add([y[1][0], y[1][1]]), y[1][2], y[1][3],
                      y[1][4], y[1][5], y[1][6]) for y in self.cur_hyps]

        logger.info("ctc prefix search success")
        return self.hyps

    def get_one_best_hyps(self):
        """Return the one best result

        Returns:
            list: the one best result
        """
        return [self.hyps[0][0]]

    def get_hyps(self):
        """Return the search hyps

        Returns:
            list: return the search hyps
        """
        return self.hyps

    def reset(self):
        """Rest the search cache value
        """
        self.cur_hyps = None
        self.hyps = None
        self.abs_time_step = 0

    def finalize_search(self):
        """do nothing in ctc_prefix_beam_search
        """
        pass
update the attention_rescoring method, test=doc 2 years ago			`# 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.`
streaming asr server add time stamp, test=doc 2 years ago			`import copy`
update the attention_rescoring method, test=doc 2 years ago			`from collections import defaultdict`
format 2 years ago
fix the asr infernece model, paddle.no_grad, test=doc 2 years ago			`import paddle`
format 2 years ago
update the attention_rescoring method, test=doc 2 years ago			`from paddlespeech.cli.log import logger`
			`from paddlespeech.s2t.utils.utility import log_add`

			`__all__ = ['CTCPrefixBeamSearch']`


			`class CTCPrefixBeamSearch:`
			`def __init__(self, config):`
			`"""Implement the ctc prefix beam search`

			`Args:`
update the time stamp type, test=doc 2 years ago			`config (yacs.config.CfgNode): the ctc prefix beam search configuration`
update the attention_rescoring method, test=doc 2 years ago			`"""`
			`self.config = config`
			`self.reset()`

fix the asr infernece model, paddle.no_grad, test=doc 2 years ago			`@paddle.no_grad()`
fix the asr online client bug, return None, test=doc 2 years ago			`def search(self, ctc_probs, device, blank_id=0):`
update the attention_rescoring method, test=doc 2 years ago			`"""ctc prefix beam search method decode a chunk feature`

			`Args:`
			`xs (paddle.Tensor): feature data`
			`ctc_probs (paddle.Tensor): the ctc probability of all the tokens`
fix the asr online client bug, return None, test=doc 2 years ago			`device (paddle.fluid.core_avx.Place): the feature host device, such as CUDAPlace(0).`
update the attention_rescoring method, test=doc 2 years ago			`blank_id (int, optional): the blank id in the vocab. Defaults to 0.`

			`Returns:`
			`list: the search result`
			`"""`
			`# decode`
			`logger.info("start to ctc prefix search")`

add multi session result, test=doc 2 years ago			`batch_size = 1`
update the attention_rescoring method, test=doc 2 years ago			`beam_size = self.config.beam_size`
			`maxlen = ctc_probs.shape[0]`

			`assert len(ctc_probs.shape) == 2`

			`# cur_hyps: (prefix, (blank_ending_score, none_blank_ending_score))`
streaming asr server add time stamp, test=doc 2 years ago			`# 0. blank_ending_score,`
			`# 1. none_blank_ending_score,`
			`# 2. viterbi_blank ending,`
			`# 3. viterbi_non_blank,`
			`# 4. current_token_prob,`
			`# 5. times_viterbi_blank,`
			`# 6. times_titerbi_non_blank`
update the attention_rescoring method, test=doc 2 years ago			`if self.cur_hyps is None:`
streaming asr server add time stamp, test=doc 2 years ago			`self.cur_hyps = [(tuple(), (0.0, -float('inf'), 0.0, 0.0,`
			`-float('inf'), [], []))]`
			`# self.cur_hyps = [(tuple(), (0.0, -float('inf')))]`
update the attention_rescoring method, test=doc 2 years ago			`# 2. CTC beam search step by step`
			`for t in range(0, maxlen):`
			`logp = ctc_probs[t] # (vocab_size,)`
streaming asr server add time stamp, test=doc 2 years ago			`# next_hyps = defaultdict(lambda: (-float('inf'), -float('inf')))`
			`next_hyps = defaultdict(`
			`lambda: (-float('inf'), -float('inf'), -float('inf'), -float('inf'), -float('inf'), [], []))`
update the attention_rescoring method, test=doc 2 years ago
			`# 2.1 First beam prune: select topk best`
			`# do token passing process`
			`top_k_logp, top_k_index = logp.topk(beam_size) # (beam_size,)`
			`for s in top_k_index:`
			`s = s.item()`
			`ps = logp[s].item()`
update the time stamp type, test=doc 2 years ago			`for prefix, (pb, pnb, v_b_s, v_nb_s, cur_token_prob, times_s,`
streaming asr server add time stamp, test=doc 2 years ago			`times_ns) in self.cur_hyps:`
update the attention_rescoring method, test=doc 2 years ago			`last = prefix[-1] if len(prefix) > 0 else None`
			`if s == blank_id: # blank`
streaming asr server add time stamp, test=doc 2 years ago			`n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[`
			`prefix]`
update the attention_rescoring method, test=doc 2 years ago			`n_pb = log_add([n_pb, pb + ps, pnb + ps])`
streaming asr server add time stamp, test=doc 2 years ago
update the time stamp type, test=doc 2 years ago			`pre_times = times_s if v_b_s > v_nb_s else times_ns`
streaming asr server add time stamp, test=doc 2 years ago			`n_times_s = copy.deepcopy(pre_times)`
update the time stamp type, test=doc 2 years ago			`viterbi_score = v_b_s if v_b_s > v_nb_s else v_nb_s`
streaming asr server add time stamp, test=doc 2 years ago			`n_v_s = viterbi_score + ps`
			`next_hyps[prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,`
			`n_cur_token_prob, n_times_s,`
			`n_times_ns)`
update the attention_rescoring method, test=doc 2 years ago			`elif s == last:`
			`# Update ss -> s;`
streaming asr server add time stamp, test=doc 2 years ago			`# case1: a + a => a`
			`n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[`
			`prefix]`
update the attention_rescoring method, test=doc 2 years ago			`n_pnb = log_add([n_pnb, pnb + ps])`
update the time stamp type, test=doc 2 years ago			`if n_v_ns < v_nb_s + ps:`
			`n_v_ns = v_nb_s + ps`
streaming asr server add time stamp, test=doc 2 years ago			`if n_cur_token_prob < ps:`
			`n_cur_token_prob = ps`
			`n_times_ns = copy.deepcopy(times_ns)`
			`n_times_ns[`
			`-1] = self.abs_time_step # 注意，这里要重新使用绝对时间`
			`next_hyps[prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,`
			`n_cur_token_prob, n_times_s,`
			`n_times_ns)`

update the attention_rescoring method, test=doc 2 years ago			`# Update s-s -> ss, - is for blank`
streaming asr server add time stamp, test=doc 2 years ago			`# Case 2: aε + a => aa`
update the attention_rescoring method, test=doc 2 years ago			`n_prefix = prefix + (s, )`
streaming asr server add time stamp, test=doc 2 years ago			`n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[`
			`n_prefix]`
update the time stamp type, test=doc 2 years ago			`if n_v_ns < v_b_s + ps:`
			`n_v_ns = v_b_s + ps`
streaming asr server add time stamp, test=doc 2 years ago			`n_cur_token_prob = ps`
			`n_times_ns = copy.deepcopy(times_s)`
			`n_times_ns.append(self.abs_time_step)`
update the attention_rescoring method, test=doc 2 years ago			`n_pnb = log_add([n_pnb, pb + ps])`
streaming asr server add time stamp, test=doc 2 years ago			`next_hyps[n_prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,`
			`n_cur_token_prob, n_times_s,`
			`n_times_ns)`
update the attention_rescoring method, test=doc 2 years ago			`else:`
streaming asr server add time stamp, test=doc 2 years ago			`# Case 3: a + b => ab, aε + b => ab`
update the attention_rescoring method, test=doc 2 years ago			`n_prefix = prefix + (s, )`
update the time stamp type, test=doc 2 years ago			`n_pb, n_pnb, n_v_s, n_v_ns, n_cur_token_prob, n_times_s, n_times_ns = next_hyps[`
streaming asr server add time stamp, test=doc 2 years ago			`n_prefix]`
update the time stamp type, test=doc 2 years ago			`viterbi_score = v_b_s if v_b_s > v_nb_s else v_nb_s`
			`pre_times = times_s if v_b_s > v_nb_s else times_ns`
streaming asr server add time stamp, test=doc 2 years ago			`if n_v_ns < viterbi_score + ps:`
			`n_v_ns = viterbi_score + ps`
			`n_cur_token_prob = ps`
			`n_times_ns = copy.deepcopy(pre_times)`
			`n_times_ns.append(self.abs_time_step)`

update the attention_rescoring method, test=doc 2 years ago			`n_pnb = log_add([n_pnb, pb + ps, pnb + ps])`
streaming asr server add time stamp, test=doc 2 years ago			`next_hyps[n_prefix] = (n_pb, n_pnb, n_v_s, n_v_ns,`
			`n_cur_token_prob, n_times_s,`
			`n_times_ns)`
update the attention_rescoring method, test=doc 2 years ago
			`# 2.2 Second beam prune`
			`next_hyps = sorted(`
			`next_hyps.items(),`
streaming asr server add time stamp, test=doc 2 years ago			`key=lambda x: log_add([x[1][0], x[1][1]]),`
update the attention_rescoring method, test=doc 2 years ago			`reverse=True)`
			`self.cur_hyps = next_hyps[:beam_size]`

streaming asr server add time stamp, test=doc 2 years ago			`# 2.3 update the absolute time step`
			`self.abs_time_step += 1`
update the time stamp type, test=doc 2 years ago
streaming asr server add time stamp, test=doc 2 years ago			`self.hyps = [(y[0], log_add([y[1][0], y[1][1]]), y[1][2], y[1][3],`
			`y[1][4], y[1][5], y[1][6]) for y in self.cur_hyps]`

update the attention_rescoring method, test=doc 2 years ago			`logger.info("ctc prefix search success")`
			`return self.hyps`

			`def get_one_best_hyps(self):`
			`"""Return the one best result`

			`Returns:`
			`list: the one best result`
			`"""`
			`return [self.hyps[0][0]]`

			`def get_hyps(self):`
add connection stability, test=doc 2 years ago			`"""Return the search hyps`

			`Returns:`
			`list: return the search hyps`
			`"""`
update the attention_rescoring method, test=doc 2 years ago			`return self.hyps`

			`def reset(self):`
			`"""Rest the search cache value`
			`"""`
			`self.cur_hyps = None`
			`self.hyps = None`
streaming asr server add time stamp, test=doc 2 years ago			`self.abs_time_step = 0`
add connection stability, test=doc 2 years ago
			`def finalize_search(self):`
			`"""do nothing in ctc_prefix_beam_search`
			`"""`
			`pass`