# -*- coding: utf-8 -*-
"""
Unit tests for nltk.corpus.wordnet
See also nltk/test/wordnet.doctest
"""

from __future__ import unicode_literals

import collections
import os
import unittest

from nose import SkipTest

from nltk.corpus.reader.wordnet import WordNetCorpusReader
from nltk.corpus import wordnet as wn
from nltk.corpus import wordnet_ic as wnic
from nltk.data import find as find_data


wn.ensure_loaded()
S = wn.synset
L = wn.lemma


class WordnNetDemo(unittest.TestCase):
    def test_retrieve_synset(self):
        move_synset = S('go.v.21')
        self.assertEqual(move_synset.name(), "move.v.15")
        self.assertEqual(move_synset.lemma_names(), ['move', 'go'])
        self.assertEqual(
            move_synset.definition(), "have a turn; make one's move in a game"
        )
        self.assertEqual(move_synset.examples(), ['Can I go now?'])

    def test_retrieve_synsets(self):
        self.assertEqual(sorted(wn.synsets('zap', pos='n')), [S('zap.n.01')])
        self.assertEqual(
            sorted(wn.synsets('zap', pos='v')),
            [S('microwave.v.01'), S('nuke.v.01'), S('zap.v.01'), S('zap.v.02')],
        )

    def test_hyperhyponyms(self):
        # Not every synset as hypernyms()
        self.assertEqual(S('travel.v.01').hypernyms(), [])
        self.assertEqual(S('travel.v.02').hypernyms(), [S('travel.v.03')])
        self.assertEqual(S('travel.v.03').hypernyms(), [])

        # Test hyper-/hyponyms.
        self.assertEqual(S('breakfast.n.1').hypernyms(), [S('meal.n.01')])
        first_five_meal_hypo = [
            S('banquet.n.02'),
            S('bite.n.04'),
            S('breakfast.n.01'),
            S('brunch.n.01'),
            S('buffet.n.02'),
        ]
        self.assertEqual(sorted(S('meal.n.1').hyponyms()[:5]), first_five_meal_hypo)
        self.assertEqual(S('Austen.n.1').instance_hypernyms(), [S('writer.n.01')])
        first_five_composer_hypo = [
            S('ambrose.n.01'),
            S('bach.n.01'),
            S('barber.n.01'),
            S('bartok.n.01'),
            S('beethoven.n.01'),
        ]
        self.assertEqual(
            S('composer.n.1').instance_hyponyms()[:5], first_five_composer_hypo
        )

        # Test root hyper-/hyponyms
        self.assertEqual(S('person.n.01').root_hypernyms(), [S('entity.n.01')])
        self.assertEqual(S('sail.v.01').root_hypernyms(), [S('travel.v.01')])
        self.assertEqual(
            S('fall.v.12').root_hypernyms(), [S('act.v.01'), S('fall.v.17')]
        )

    def test_derivationally_related_forms(self):
        # Test `derivationally_related_forms()`
        self.assertEqual(
            L('zap.v.03.nuke').derivationally_related_forms(),
            [L('atomic_warhead.n.01.nuke')],
        )
        self.assertEqual(
            L('zap.v.03.atomize').derivationally_related_forms(),
            [L('atomization.n.02.atomization')],
        )
        self.assertEqual(
            L('zap.v.03.atomise').derivationally_related_forms(),
            [L('atomization.n.02.atomisation')],
        )
        self.assertEqual(L('zap.v.03.zap').derivationally_related_forms(), [])

    def test_meronyms_holonyms(self):
        # Test meronyms, holonyms.
        self.assertEqual(
            S('dog.n.01').member_holonyms(), [S('canis.n.01'), S('pack.n.06')]
        )
        self.assertEqual(S('dog.n.01').part_meronyms(), [S('flag.n.07')])

        self.assertEqual(S('faculty.n.2').member_meronyms(), [S('professor.n.01')])
        self.assertEqual(S('copilot.n.1').member_holonyms(), [S('crew.n.01')])

        self.assertEqual(
            S('table.n.2').part_meronyms(),
            [S('leg.n.03'), S('tabletop.n.01'), S('tableware.n.01')],
        )
        self.assertEqual(S('course.n.7').part_holonyms(), [S('meal.n.01')])

        self.assertEqual(
            S('water.n.1').substance_meronyms(), [S('hydrogen.n.01'), S('oxygen.n.01')]
        )
        self.assertEqual(
            S('gin.n.1').substance_holonyms(),
            [
                S('gin_and_it.n.01'),
                S('gin_and_tonic.n.01'),
                S('martini.n.01'),
                S('pink_lady.n.01'),
            ],
        )

    def test_antonyms(self):
        # Test antonyms.
        self.assertEqual(
            L('leader.n.1.leader').antonyms(), [L('follower.n.01.follower')]
        )
        self.assertEqual(
            L('increase.v.1.increase').antonyms(), [L('decrease.v.01.decrease')]
        )

    def test_misc_relations(self):
        # Test misc relations.
        self.assertEqual(S('snore.v.1').entailments(), [S('sleep.v.01')])
        self.assertEqual(
            S('heavy.a.1').similar_tos(),
            [
                S('dense.s.03'),
                S('doughy.s.01'),
                S('heavier-than-air.s.01'),
                S('hefty.s.02'),
                S('massive.s.04'),
                S('non-buoyant.s.01'),
                S('ponderous.s.02'),
            ],
        )
        self.assertEqual(S('light.a.1').attributes(), [S('weight.n.01')])
        self.assertEqual(S('heavy.a.1').attributes(), [S('weight.n.01')])

        # Test pertainyms.
        self.assertEqual(
            L('English.a.1.English').pertainyms(), [L('england.n.01.England')]
        )

    def test_lch(self):
        # Test LCH.
        self.assertEqual(
            S('person.n.01').lowest_common_hypernyms(S('dog.n.01')),
            [S('organism.n.01')],
        )
        self.assertEqual(
            S('woman.n.01').lowest_common_hypernyms(S('girlfriend.n.02')),
            [S('woman.n.01')],
        )

    def test_domains(self):
        # Test domains.
        self.assertEqual(S('code.n.03').topic_domains(), [S('computer_science.n.01')])
        self.assertEqual(S('pukka.a.01').region_domains(), [S('india.n.01')])
        self.assertEqual(S('freaky.a.01').usage_domains(), [S('slang.n.02')])

    def test_in_topic_domains(self):
        # Test in domains.
        self.assertEqual(
            S('computer_science.n.01').in_topic_domains()[0], S('access.n.05')
        )
        self.assertEqual(S('germany.n.01').in_region_domains()[23], S('trillion.n.02'))
        self.assertEqual(S('slang.n.02').in_usage_domains()[1], S('airhead.n.01'))

    def test_wordnet_similarities(self):
        # Path based similarities.
        self.assertAlmostEqual(S('cat.n.01').path_similarity(S('cat.n.01')), 1.0)
        self.assertAlmostEqual(S('dog.n.01').path_similarity(S('cat.n.01')), 0.2)
        self.assertAlmostEqual(
            S('dog.n.01').lch_similarity(S('cat.n.01')), 2.028, places=3
        )
        self.assertAlmostEqual(
            S('dog.n.01').wup_similarity(S('cat.n.01')), 0.8571, places=3
        )
        # Information Content similarities.
        brown_ic = wnic.ic('ic-brown.dat')
        self.assertAlmostEqual(
            S('dog.n.01').jcn_similarity(S('cat.n.01'), brown_ic), 0.4497, places=3
        )
        semcor_ic = wnic.ic('ic-semcor.dat')
        self.assertAlmostEqual(
            S('dog.n.01').lin_similarity(S('cat.n.01'), semcor_ic), 0.8863, places=3
        )

    def test_omw_lemma_no_trailing_underscore(self):
        expected = [
            u'popolna_sprememba_v_mišljenju',
            u'popoln_obrat',
            u'preobrat',
            u'preobrat_v_mišljenju'
            ]
        self.assertEqual(S('about-face.n.02').lemma_names(lang='slv'), expected)

    def test_iterable_type_for_all_lemma_names(self):
        # Duck-test for iterables.
        # See https://stackoverflow.com/a/36230057/610569
        cat_lemmas = wn.all_lemma_names(lang='cat')
        eng_lemmas = wn.all_lemma_names(lang='eng')

        self.assertTrue(hasattr(eng_lemmas, '__iter__'))
        self.assertTrue(hasattr(eng_lemmas, '__next__') or hasattr(eng_lemmas, 'next'))
        self.assertTrue(eng_lemmas.__iter__() is eng_lemmas)

        self.assertTrue(hasattr(cat_lemmas, '__iter__'))
        self.assertTrue(hasattr(cat_lemmas, '__next__') or hasattr(eng_lemmas, 'next'))
        self.assertTrue(cat_lemmas.__iter__() is cat_lemmas)