You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
PaddleSpeech/utils/error_rate.py

197 lines
6.4 KiB

8 years ago
# -*- coding: utf-8 -*-
8 years ago
"""This module provides functions to calculate error rate in different level.
e.g. wer for word-level, cer for char-level.
8 years ago
"""
8 years ago
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
8 years ago
import numpy as np
8 years ago
def _levenshtein_distance(ref, hyp):
"""Levenshtein distance is a string metric for measuring the difference
between two sequences. Informally, the levenshtein disctance is defined as
the minimum number of single-character edits (substitutions, insertions or
deletions) required to change one word into the other. We can naturally
extend the edits to word level when calculate levenshtein disctance for
two sentences.
8 years ago
"""
m = len(ref)
n = len(hyp)
# special case
if ref == hyp:
return 0
if m == 0:
return n
if n == 0:
return m
if m < n:
ref, hyp = hyp, ref
m, n = n, m
# use O(min(m, n)) space
distance = np.zeros((2, n + 1), dtype=np.int32)
8 years ago
# initialize distance matrix
for j in xrange(n + 1):
distance[0][j] = j
# calculate levenshtein distance
for i in xrange(1, m + 1):
prev_row_idx = (i - 1) % 2
cur_row_idx = i % 2
distance[cur_row_idx][0] = i
for j in xrange(1, n + 1):
if ref[i - 1] == hyp[j - 1]:
distance[cur_row_idx][j] = distance[prev_row_idx][j - 1]
else:
s_num = distance[prev_row_idx][j - 1] + 1
i_num = distance[cur_row_idx][j - 1] + 1
d_num = distance[prev_row_idx][j] + 1
distance[cur_row_idx][j] = min(s_num, i_num, d_num)
return distance[m % 2][n]
def word_errors(reference, hypothesis, ignore_case=False, delimiter=' '):
"""Compute the levenshtein distance between reference sequence and
hypothesis sequence in word-level.
:param reference: The reference sentence.
:type reference: basestring
:param hypothesis: The hypothesis sentence.
:type hypothesis: basestring
:param ignore_case: Whether case-sensitive or not.
:type ignore_case: bool
:param delimiter: Delimiter of input sentences.
:type delimiter: char
:return: Levenshtein distance and word number of reference sentence.
:rtype: list
"""
if ignore_case == True:
reference = reference.lower()
hypothesis = hypothesis.lower()
ref_words = filter(None, reference.split(delimiter))
hyp_words = filter(None, hypothesis.split(delimiter))
edit_distance = _levenshtein_distance(ref_words, hyp_words)
return float(edit_distance), len(ref_words)
def char_errors(reference, hypothesis, ignore_case=False, remove_space=False):
"""Compute the levenshtein distance between reference sequence and
hypothesis sequence in char-level.
:param reference: The reference sentence.
:type reference: basestring
:param hypothesis: The hypothesis sentence.
:type hypothesis: basestring
:param ignore_case: Whether case-sensitive or not.
:type ignore_case: bool
:param remove_space: Whether remove internal space characters
:type remove_space: bool
:return: Levenshtein distance and length of reference sentence.
:rtype: list
"""
if ignore_case == True:
reference = reference.lower()
hypothesis = hypothesis.lower()
join_char = ' '
if remove_space == True:
join_char = ''
reference = join_char.join(filter(None, reference.split(' ')))
hypothesis = join_char.join(filter(None, hypothesis.split(' ')))
edit_distance = _levenshtein_distance(reference, hypothesis)
return float(edit_distance), len(reference)
8 years ago
def wer(reference, hypothesis, ignore_case=False, delimiter=' '):
"""Calculate word error rate (WER). WER compares reference text and
8 years ago
hypothesis text in word-level. WER is defined as:
.. math::
WER = (Sw + Dw + Iw) / Nw
where
.. code-block:: text
Sw is the number of words subsituted,
Dw is the number of words deleted,
Iw is the number of words inserted,
Nw is the number of words in the reference
We can use levenshtein distance to calculate WER. Please draw an attention
that empty items will be removed when splitting sentences by delimiter.
:param reference: The reference sentence.
8 years ago
:type reference: basestring
:param hypothesis: The hypothesis sentence.
:type hypothesis: basestring
:param ignore_case: Whether case-sensitive or not.
:type ignore_case: bool
:param delimiter: Delimiter of input sentences.
:type delimiter: char
8 years ago
:return: Word error rate.
:rtype: float
:raises ValueError: If word number of reference is zero.
"""
edit_distance, ref_len = word_errors(reference, hypothesis, ignore_case,
delimiter)
if ref_len == 0:
raise ValueError("Reference's word number should be greater than 0.")
wer = float(edit_distance) / ref_len
return wer
def cer(reference, hypothesis, ignore_case=False, remove_space=False):
8 years ago
"""Calculate charactor error rate (CER). CER compares reference text and
8 years ago
hypothesis text in char-level. CER is defined as:
.. math::
CER = (Sc + Dc + Ic) / Nc
where
.. code-block:: text
8 years ago
Sc is the number of characters substituted,
Dc is the number of characters deleted,
Ic is the number of characters inserted
Nc is the number of characters in the reference
We can use levenshtein distance to calculate CER. Chinese input should be
encoded to unicode. Please draw an attention that the leading and tailing
space characters will be truncated and multiple consecutive space
characters in a sentence will be replaced by one space character.
:param reference: The reference sentence.
8 years ago
:type reference: basestring
:param hypothesis: The hypothesis sentence.
:type hypothesis: basestring
:param ignore_case: Whether case-sensitive or not.
:type ignore_case: bool
:param remove_space: Whether remove internal space characters
:type remove_space: bool
8 years ago
:return: Character error rate.
:rtype: float
8 years ago
:raises ValueError: If the reference length is zero.
"""
edit_distance, ref_len = char_errors(reference, hypothesis, ignore_case,
remove_space)
if ref_len == 0:
raise ValueError("Length of reference should be greater than 0.")
cer = float(edit_distance) / ref_len
return cer