PCQRSCANER/venv/Lib/site-packages/nltk/test/unit/translate/test_ibm3.py

# -*- coding: utf-8 -*-
"""
Tests for IBM Model 3 training methods
"""

import unittest

from collections import defaultdict
from nltk.translate import AlignedSent
from nltk.translate import IBMModel
from nltk.translate import IBMModel3
from nltk.translate.ibm_model import AlignmentInfo


class TestIBMModel3(unittest.TestCase):
    def test_set_uniform_distortion_probabilities(self):
        # arrange
        corpus = [
            AlignedSent(['ham', 'eggs'], ['schinken', 'schinken', 'eier']),
            AlignedSent(['spam', 'spam', 'spam', 'spam'], ['spam', 'spam']),
        ]
        model3 = IBMModel3(corpus, 0)

        # act
        model3.set_uniform_probabilities(corpus)

        # assert
        # expected_prob = 1.0 / length of target sentence
        self.assertEqual(model3.distortion_table[1][0][3][2], 1.0 / 2)
        self.assertEqual(model3.distortion_table[4][2][2][4], 1.0 / 4)

    def test_set_uniform_distortion_probabilities_of_non_domain_values(self):
        # arrange
        corpus = [
            AlignedSent(['ham', 'eggs'], ['schinken', 'schinken', 'eier']),
            AlignedSent(['spam', 'spam', 'spam', 'spam'], ['spam', 'spam']),
        ]
        model3 = IBMModel3(corpus, 0)

        # act
        model3.set_uniform_probabilities(corpus)

        # assert
        # examine i and j values that are not in the training data domain
        self.assertEqual(model3.distortion_table[0][0][3][2], IBMModel.MIN_PROB)
        self.assertEqual(model3.distortion_table[9][2][2][4], IBMModel.MIN_PROB)
        self.assertEqual(model3.distortion_table[2][9][2][4], IBMModel.MIN_PROB)

    def test_prob_t_a_given_s(self):
        # arrange
        src_sentence = ["ich", 'esse', 'ja', 'gern', 'räucherschinken']
        trg_sentence = ['i', 'love', 'to', 'eat', 'smoked', 'ham']
        corpus = [AlignedSent(trg_sentence, src_sentence)]
        alignment_info = AlignmentInfo(
            (0, 1, 4, 0, 2, 5, 5),
            [None] + src_sentence,
            ['UNUSED'] + trg_sentence,
            [[3], [1], [4], [], [2], [5, 6]],
        )

        distortion_table = defaultdict(
            lambda: defaultdict(lambda: defaultdict(lambda: defaultdict(float)))
        )
        distortion_table[1][1][5][6] = 0.97  # i -> ich
        distortion_table[2][4][5][6] = 0.97  # love -> gern
        distortion_table[3][0][5][6] = 0.97  # to -> NULL
        distortion_table[4][2][5][6] = 0.97  # eat -> esse
        distortion_table[5][5][5][6] = 0.97  # smoked -> räucherschinken
        distortion_table[6][5][5][6] = 0.97  # ham -> räucherschinken

        translation_table = defaultdict(lambda: defaultdict(float))
        translation_table['i']['ich'] = 0.98
        translation_table['love']['gern'] = 0.98
        translation_table['to'][None] = 0.98
        translation_table['eat']['esse'] = 0.98
        translation_table['smoked']['räucherschinken'] = 0.98
        translation_table['ham']['räucherschinken'] = 0.98

        fertility_table = defaultdict(lambda: defaultdict(float))
        fertility_table[1]['ich'] = 0.99
        fertility_table[1]['esse'] = 0.99
        fertility_table[0]['ja'] = 0.99
        fertility_table[1]['gern'] = 0.99
        fertility_table[2]['räucherschinken'] = 0.999
        fertility_table[1][None] = 0.99

        probabilities = {
            'p1': 0.167,
            'translation_table': translation_table,
            'distortion_table': distortion_table,
            'fertility_table': fertility_table,
            'alignment_table': None,
        }

        model3 = IBMModel3(corpus, 0, probabilities)

        # act
        probability = model3.prob_t_a_given_s(alignment_info)

        # assert
        null_generation = 5 * pow(0.167, 1) * pow(0.833, 4)
        fertility = 1 * 0.99 * 1 * 0.99 * 1 * 0.99 * 1 * 0.99 * 2 * 0.999
        lexical_translation = 0.98 * 0.98 * 0.98 * 0.98 * 0.98 * 0.98
        distortion = 0.97 * 0.97 * 0.97 * 0.97 * 0.97 * 0.97
        expected_probability = (
            null_generation * fertility * lexical_translation * distortion
        )
        self.assertEqual(round(probability, 4), round(expected_probability, 4))
3 2019-12-22 21:51:47 +01:00			`# -- coding: utf-8 --`
			`"""`
			`Tests for IBM Model 3 training methods`
			`"""`

			`import unittest`

			`from collections import defaultdict`
			`from nltk.translate import AlignedSent`
			`from nltk.translate import IBMModel`
			`from nltk.translate import IBMModel3`
			`from nltk.translate.ibm_model import AlignmentInfo`


			`class TestIBMModel3(unittest.TestCase):`
			`def test_set_uniform_distortion_probabilities(self):`
			`# arrange`
			`corpus = [`
			`AlignedSent(['ham', 'eggs'], ['schinken', 'schinken', 'eier']),`
			`AlignedSent(['spam', 'spam', 'spam', 'spam'], ['spam', 'spam']),`
			`]`
			`model3 = IBMModel3(corpus, 0)`

			`# act`
			`model3.set_uniform_probabilities(corpus)`

			`# assert`
			`# expected_prob = 1.0 / length of target sentence`
			`self.assertEqual(model3.distortion_table[1][0][3][2], 1.0 / 2)`
			`self.assertEqual(model3.distortion_table[4][2][2][4], 1.0 / 4)`

			`def test_set_uniform_distortion_probabilities_of_non_domain_values(self):`
			`# arrange`
			`corpus = [`
			`AlignedSent(['ham', 'eggs'], ['schinken', 'schinken', 'eier']),`
			`AlignedSent(['spam', 'spam', 'spam', 'spam'], ['spam', 'spam']),`
			`]`
			`model3 = IBMModel3(corpus, 0)`

			`# act`
			`model3.set_uniform_probabilities(corpus)`

			`# assert`
			`# examine i and j values that are not in the training data domain`
			`self.assertEqual(model3.distortion_table[0][0][3][2], IBMModel.MIN_PROB)`
			`self.assertEqual(model3.distortion_table[9][2][2][4], IBMModel.MIN_PROB)`
			`self.assertEqual(model3.distortion_table[2][9][2][4], IBMModel.MIN_PROB)`

			`def test_prob_t_a_given_s(self):`
			`# arrange`
			`src_sentence = ["ich", 'esse', 'ja', 'gern', 'räucherschinken']`
			`trg_sentence = ['i', 'love', 'to', 'eat', 'smoked', 'ham']`
			`corpus = [AlignedSent(trg_sentence, src_sentence)]`
			`alignment_info = AlignmentInfo(`
			`(0, 1, 4, 0, 2, 5, 5),`
			`[None] + src_sentence,`
			`['UNUSED'] + trg_sentence,`
			`[[3], [1], [4], [], [2], [5, 6]],`
			`)`

			`distortion_table = defaultdict(`
			`lambda: defaultdict(lambda: defaultdict(lambda: defaultdict(float)))`
			`)`
			`distortion_table[1][1][5][6] = 0.97 # i -> ich`
			`distortion_table[2][4][5][6] = 0.97 # love -> gern`
			`distortion_table[3][0][5][6] = 0.97 # to -> NULL`
			`distortion_table[4][2][5][6] = 0.97 # eat -> esse`
			`distortion_table[5][5][5][6] = 0.97 # smoked -> räucherschinken`
			`distortion_table[6][5][5][6] = 0.97 # ham -> räucherschinken`

			`translation_table = defaultdict(lambda: defaultdict(float))`
			`translation_table['i']['ich'] = 0.98`
			`translation_table['love']['gern'] = 0.98`
			`translation_table['to'][None] = 0.98`
			`translation_table['eat']['esse'] = 0.98`
			`translation_table['smoked']['räucherschinken'] = 0.98`
			`translation_table['ham']['räucherschinken'] = 0.98`

			`fertility_table = defaultdict(lambda: defaultdict(float))`
			`fertility_table[1]['ich'] = 0.99`
			`fertility_table[1]['esse'] = 0.99`
			`fertility_table[0]['ja'] = 0.99`
			`fertility_table[1]['gern'] = 0.99`
			`fertility_table[2]['räucherschinken'] = 0.999`
			`fertility_table[1][None] = 0.99`

			`probabilities = {`
			`'p1': 0.167,`
			`'translation_table': translation_table,`
			`'distortion_table': distortion_table,`
			`'fertility_table': fertility_table,`
			`'alignment_table': None,`
			`}`

			`model3 = IBMModel3(corpus, 0, probabilities)`

			`# act`
			`probability = model3.prob_t_a_given_s(alignment_info)`

			`# assert`
			`null_generation = 5 * pow(0.167, 1) * pow(0.833, 4)`
			`fertility = 1 * 0.99 * 1 * 0.99 * 1 * 0.99 * 1 * 0.99 * 2 * 0.999`
			`lexical_translation = 0.98 * 0.98 * 0.98 * 0.98 * 0.98 * 0.98`
			`distortion = 0.97 * 0.97 * 0.97 * 0.97 * 0.97 * 0.97`
			`expected_probability = (`
			`null_generation * fertility * lexical_translation * distortion`
			`)`
			`self.assertEqual(round(probability, 4), round(expected_probability, 4))`