Example CTC Decoder in Python

ctc_decoder.py

"""
Author: Awni Hannun

This is an example CTC decoder written in Python. The code is
intended to be a simple example and is not designed to be
especially efficient.

The algorithm is a prefix beam search for a model trained
with the CTC loss function.

For more details checkout either of these references:
  https://distill.pub/2017/ctc/#inference
  https://arxiv.org/abs/1408.2873

"""

import numpy as np
import math
import collections

NEG_INF = -float("inf")

def make_new_beam():
  fn = lambda : (NEG_INF, NEG_INF)
  return collections.defaultdict(fn)

def logsumexp(*args):
  """
  Stable log sum exp.
  """
  if all(a == NEG_INF for a in args):
      return NEG_INF
  a_max = max(args)
  lsp = math.log(sum(math.exp(a - a_max)
                      for a in args))
  return a_max + lsp

def decode(probs, beam_size=100, blank=0):
  """
  Performs inference for the given output probabilities.

  Arguments:
      probs: The output probabilities (e.g. post-softmax) for each
        time step. Should be an array of shape (time x output dim).
      beam_size (int): Size of the beam to use during inference.
      blank (int): Index of the CTC blank label.

  Returns the output label sequence and the corresponding negative
  log-likelihood estimated by the decoder.
  """
  T, S = probs.shape
  probs = np.log(probs)

  # Elements in the beam are (prefix, (p_blank, p_no_blank))
  # Initialize the beam with the empty sequence, a probability of
  # 1 for ending in blank and zero for ending in non-blank
  # (in log space).
  beam = [(tuple(), (0.0, NEG_INF))]

  for t in range(T): # Loop over time

    # A default dictionary to store the next step candidates.
    next_beam = make_new_beam()

    for s in range(S): # Loop over vocab
      p = probs[t, s]

      # The variables p_b and p_nb are respectively the
      # probabilities for the prefix given that it ends in a
      # blank and does not end in a blank at this time step.
      for prefix, (p_b, p_nb) in beam: # Loop over beam

        # If we propose a blank the prefix doesn't change.
        # Only the probability of ending in blank gets updated.
        if s == blank:
          n_p_b, n_p_nb = next_beam[prefix]
          n_p_b = logsumexp(n_p_b, p_b + p, p_nb + p)
          next_beam[prefix] = (n_p_b, n_p_nb)
          continue

        # Extend the prefix by the new character s and add it to
        # the beam. Only the probability of not ending in blank
        # gets updated.
        end_t = prefix[-1] if prefix else None
        n_prefix = prefix + (s,)
        n_p_b, n_p_nb = next_beam[n_prefix]
        if s != end_t:
          n_p_nb = logsumexp(n_p_nb, p_b + p, p_nb + p)
        else:
          # We don't include the previous probability of not ending
          # in blank (p_nb) if s is repeated at the end. The CTC
          # algorithm merges characters not separated by a blank.
          n_p_nb = logsumexp(n_p_nb, p_b + p)
          
        # *NB* this would be a good place to include an LM score.
        next_beam[n_prefix] = (n_p_b, n_p_nb)

        # If s is repeated at the end we also update the unchanged
        # prefix. This is the merging case.
        if s == end_t:
          n_p_b, n_p_nb = next_beam[prefix]
          n_p_nb = logsumexp(n_p_nb, p_nb + p)
          next_beam[prefix] = (n_p_b, n_p_nb)

    # Sort and trim the beam before moving on to the
    # next time-step.
    beam = sorted(next_beam.items(),
            key=lambda x : logsumexp(*x[1]),
            reverse=True)
    beam = beam[:beam_size]

  best = beam[0]
  return best[0], -logsumexp(*best[1])

if __name__ == "__main__":
  np.random.seed(3)

  time = 50
  output_dim = 20

  probs = np.random.rand(time, output_dim)
  probs = probs / np.sum(probs, axis=1, keepdims=True)

  labels, score = decode(probs)
  print("Score {:.3f}".format(score))

I also agree @sigpro. You can also see it reflected in line 102 of this implementation of the algorithm (p_nb rather than p_b):

n_p_nb = logsumexp(n_p_nb, p_nb + p)

agree @sigpro

Thank you for your sharing. But I didn't find any place where the score are combined after I check out the code carefully. Anyone can point that out? @sigpro, @edchengg, @mrfox321

@YuanEric88, that is handled at the implementation level - beam and next_beam are dictionaries with keys as prefix strings.

Thanks for your work. I recently read your paper (1408.2873) and had two Qs in it.

1. Same as what @sigpro mentioned above

Wondering if the counter part to the below section from paper is considered in the logic?
if ℓ + not in Aprev then
....
end if

by counterpart I mean :
if ℓ - not in Aprev then
pnb(ℓ ; x1:t) = p( ℓ _lastElement ; xt) * (pb( ℓ - ; x1:t−1) + pnb( ℓ - ; x1:t−1))
end if
Where,
l_lastElement refer to the last alphabet of l
ℓ - refer to one alphabet less in " ℓ "
for ex:
ℓ : "BAG"
ℓ - : "BA"
ℓ _lastElement : "G"

License for this code in case anyone needs it.

MIT License

Copyright (c) 2022 Awni Hannun

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