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decode_stream.py
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decode_stream.py
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# Copyright 2022 Xiaomi Corp. (authors: Wei Kang)
#
# See ../../../../LICENSE for clarification regarding multiple authors
#
# 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
from typing import List, Optional, Tuple
import k2
import torch
from beam_search import Hypothesis, HypothesisList
from icefall.utils import AttributeDict
class DecodeStream(object):
def __init__(
self,
params: AttributeDict,
cut_id: str,
initial_states: List[torch.Tensor],
decoding_graph: Optional[k2.Fsa] = None,
device: torch.device = torch.device("cpu"),
) -> None:
"""
Args:
initial_states:
Initial decode states of the model, e.g. the return value of
`get_init_state` in conformer.py
decoding_graph:
Decoding graph used for decoding, may be a TrivialGraph or a HLG.
Used only when decoding_method is fast_beam_search.
device:
The device to run this stream.
"""
if params.decoding_method == "fast_beam_search":
assert decoding_graph is not None
assert device == decoding_graph.device
self.params = params
self.cut_id = cut_id
self.LOG_EPS = math.log(1e-10)
self.states = initial_states
# It contains a 2-D tensors representing the feature frames.
self.features: torch.Tensor = None
self.num_frames: int = 0
# how many frames have been processed. (before subsampling).
# we only modify this value in `func:get_feature_frames`.
self.num_processed_frames: int = 0
self._done: bool = False
# The transcript of current utterance.
self.ground_truth: str = ""
# The decoding result (partial or final) of current utterance.
self.hyp: List = []
# how many frames have been processed, after subsampling (i.e. a
# cumulative sum of the second return value of
# encoder.streaming_forward
self.done_frames: int = 0
self.pad_length = (params.right_context + 2) * params.subsampling_factor + 3
if params.decoding_method == "greedy_search":
self.hyp = [params.blank_id] * params.context_size
elif params.decoding_method == "modified_beam_search":
self.hyps = HypothesisList()
self.hyps.add(
Hypothesis(
ys=[params.blank_id] * params.context_size,
log_prob=torch.zeros(1, dtype=torch.float32, device=device),
)
)
elif params.decoding_method == "fast_beam_search":
# The rnnt_decoding_stream for fast_beam_search.
self.rnnt_decoding_stream: k2.RnntDecodingStream = k2.RnntDecodingStream(
decoding_graph
)
else:
raise ValueError(f"Unsupported decoding method: {params.decoding_method}")
@property
def done(self) -> bool:
"""Return True if all the features are processed."""
return self._done
@property
def id(self) -> str:
return self.cut_id
def set_features(
self,
features: torch.Tensor,
) -> None:
"""Set features tensor of current utterance."""
assert features.dim() == 2, features.dim()
self.features = torch.nn.functional.pad(
features,
(0, 0, 0, self.pad_length),
mode="constant",
value=self.LOG_EPS,
)
self.num_frames = self.features.size(0)
def get_feature_frames(self, chunk_size: int) -> Tuple[torch.Tensor, int]:
"""Consume chunk_size frames of features"""
chunk_length = chunk_size + self.pad_length
ret_length = min(self.num_frames - self.num_processed_frames, chunk_length)
ret_features = self.features[
self.num_processed_frames : self.num_processed_frames + ret_length # noqa
]
self.num_processed_frames += chunk_size
if self.num_processed_frames >= self.num_frames:
self._done = True
return ret_features, ret_length
def decoding_result(self) -> List[int]:
"""Obtain current decoding result."""
if self.params.decoding_method == "greedy_search":
return self.hyp[self.params.context_size :] # noqa
elif self.params.decoding_method == "modified_beam_search":
best_hyp = self.hyps.get_most_probable(length_norm=True)
return best_hyp.ys[self.params.context_size :] # noqa
else:
assert self.params.decoding_method == "fast_beam_search"
return self.hyp