# Copyright 2021 The HuggingFace Evaluate 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 unittest from cer import CER cer = CER() class TestCER(unittest.TestCase): def test_cer_case_sensitive(self): refs = ["White House"] preds = ["white house"] # S = 2, D = 0, I = 0, N = 11, CER = 2 / 11 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.1818181818) < 1e-6) def test_cer_whitespace(self): refs = ["were wolf"] preds = ["werewolf"] # S = 0, D = 0, I = 1, N = 9, CER = 1 / 9 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.1111111) < 1e-6) refs = ["werewolf"] preds = ["weae wolf"] # S = 1, D = 1, I = 0, N = 8, CER = 0.25 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.25) < 1e-6) # consecutive whitespaces case 1 refs = ["were wolf"] preds = ["were wolf"] # S = 0, D = 0, I = 0, N = 9, CER = 0 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.0) < 1e-6) # consecutive whitespaces case 2 refs = ["were wolf"] preds = ["were wolf"] # S = 0, D = 0, I = 0, N = 9, CER = 0 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.0) < 1e-6) def test_cer_sub(self): refs = ["werewolf"] preds = ["weaewolf"] # S = 1, D = 0, I = 0, N = 8, CER = 0.125 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.125) < 1e-6) def test_cer_del(self): refs = ["werewolf"] preds = ["wereawolf"] # S = 0, D = 1, I = 0, N = 8, CER = 0.125 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.125) < 1e-6) def test_cer_insert(self): refs = ["werewolf"] preds = ["wereolf"] # S = 0, D = 0, I = 1, N = 8, CER = 0.125 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.125) < 1e-6) def test_cer_equal(self): refs = ["werewolf"] char_error_rate = cer.compute(predictions=refs, references=refs) self.assertEqual(char_error_rate, 0.0) def test_cer_list_of_seqs(self): refs = ["werewolf", "I am your father"] char_error_rate = cer.compute(predictions=refs, references=refs) self.assertEqual(char_error_rate, 0.0) refs = ["werewolf", "I am your father", "doge"] preds = ["werxwolf", "I am your father", "doge"] # S = 1, D = 0, I = 0, N = 28, CER = 1 / 28 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.03571428) < 1e-6) def test_correlated_sentences(self): refs = ["My hovercraft", "is full of eels"] preds = ["My hovercraft is full", " of eels"] # S = 0, D = 0, I = 2, N = 28, CER = 2 / 28 # whitespace at the front of " of eels" will be strip during preporcessing # so need to insert 2 whitespaces char_error_rate = cer.compute(predictions=preds, references=refs, concatenate_texts=True) self.assertTrue(abs(char_error_rate - 0.071428) < 1e-6) def test_cer_unicode(self): refs = ["我能吞下玻璃而不伤身体"] preds = [" 能吞虾玻璃而 不霜身体啦"] # S = 3, D = 2, I = 0, N = 11, CER = 5 / 11 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.4545454545) < 1e-6) refs = ["我能吞下玻璃", "而不伤身体"] preds = ["我 能 吞 下 玻 璃", "而不伤身体"] # S = 0, D = 5, I = 0, N = 11, CER = 5 / 11 char_error_rate = cer.compute(predictions=preds, references=refs) self.assertTrue(abs(char_error_rate - 0.454545454545) < 1e-6) refs = ["我能吞下玻璃而不伤身体"] char_error_rate = cer.compute(predictions=refs, references=refs) self.assertFalse(char_error_rate, 0.0) def test_cer_empty(self): refs = [""] preds = ["Hypothesis"] with self.assertRaises(ValueError): cer.compute(predictions=preds, references=refs) if __name__ == "__main__": unittest.main()