2014-11-10 05:29:19 +00:00
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from __future__ import unicode_literals
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from spacy.ner.pystate import PyState
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import pytest
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@pytest.fixture
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def labels():
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2014-11-11 10:10:04 +00:00
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ent_types = ['LOC', 'MISC', 'ORG', 'PER']
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moves = ['B', 'I', 'L', 'U']
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labels = ['NULL', 'EOL', 'O']
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for move in moves:
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for ent_type in ent_types:
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labels.append('%s-%s' % (move, ent_type))
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return labels
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2014-11-10 05:29:19 +00:00
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@pytest.fixture
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def sentence():
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return "Ms. Haag plays Elianti .".split()
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@pytest.fixture
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def state(labels, sentence):
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return PyState(labels, len(sentence))
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def test_begin(state, sentence):
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assert state.n_ents == 0
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assert state.i == 0
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state.transition('B-PER')
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2014-11-10 11:13:46 +00:00
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assert state.n_ents == 0
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2014-11-10 05:29:19 +00:00
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assert state.i == 1
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assert state.open_entity
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2014-11-11 10:10:04 +00:00
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assert state.ent == {'start': 0, 'label': 4, 'end': 0}
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2014-11-10 11:13:46 +00:00
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assert state.is_valid('I-PER')
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assert not state.is_valid('I-LOC')
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assert state.is_valid('L-PER')
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assert not state.is_valid('L-LOC')
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assert not state.is_valid('O')
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assert not state.is_valid('U-PER')
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def test_in(state, sentence):
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state.transition('B-PER')
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assert state.n_ents == 0
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state.transition('I-PER')
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assert state.n_ents == 0
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assert state.i == 2
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assert state.is_valid('I-PER')
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assert state.is_valid('L-PER')
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assert not state.is_valid('B-PER')
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assert not state.is_valid('I-LOC')
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assert not state.is_valid('L-LOC')
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assert not state.is_valid('U-PER')
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assert not state.is_valid('O')
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def test_last(state, sentence):
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state.transition('B-PER')
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assert state.n_ents == 0
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state.transition('L-PER')
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assert state.n_ents == 1
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assert state.i == 2
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assert not state.open_entity
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assert state.is_valid('B-PER')
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assert state.is_valid('B-LOC')
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assert state.is_valid('U-PER')
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assert state.is_valid('U-LOC')
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assert state.is_valid('O')
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assert not state.is_valid('L-PER')
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assert not state.is_valid('I-PER')
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def test_unit(state, sentence):
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assert state.n_ents == 0
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state.transition('U-PER')
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assert state.n_ents == 1
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assert state.i == 1
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assert not state.open_entity
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assert state.is_valid('B-PER')
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assert state.is_valid('B-LOC')
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assert state.is_valid('U-PER')
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assert state.is_valid('U-LOC')
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assert state.is_valid('O')
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assert not state.is_valid('I-PER')
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assert not state.is_valid('L-PER')
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def test_out(state, sentence):
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assert state.n_ents == 0
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state.transition('U-PER')
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assert state.n_ents == 1
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assert state.i == 1
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state.transition('O')
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assert state.i == 2
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assert not state.open_entity
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assert state.is_valid('B-PER')
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assert state.is_valid('B-LOC')
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assert state.is_valid('U-PER')
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assert state.is_valid('U-LOC')
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assert state.is_valid('O')
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assert not state.is_valid('I-PER')
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assert not state.is_valid('L-PER')
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@pytest.fixture
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def golds(sentence):
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g = ['B-PER', 'L-PER', 'O', 'U-PER', 'O']
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assert len(g) == len(sentence)
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return g
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def test_oracle_gold(state, sentence, golds):
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state.set_golds(golds)
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assert state.is_gold('B-PER')
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assert not state.is_gold('B-LOC')
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assert not state.is_gold('I-PER')
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assert not state.is_gold('L-PER')
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assert not state.is_gold('U-PER')
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assert not state.is_gold('O')
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state.transition('B-PER')
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assert state.is_gold('L-PER')
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state.transition('L-PER')
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assert state.is_gold('O')
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assert not state.is_gold('B-PER')
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state.transition('O')
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assert not state.is_gold('B-PER')
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assert not state.is_gold('O')
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assert state.is_gold('U-PER')
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state.transition('U-PER')
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assert state.is_gold('O')
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state.transition('O')
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assert state.i == len(sentence)
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def test_oracle_miss_entity(state, sentence, golds):
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state.set_golds(golds)
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state.transition('O')
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assert not state.is_gold('L-PER')
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assert not state.is_gold('U-PER')
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assert not state.is_gold('I-PER')
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assert not state.is_gold('B-PER')
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assert state.is_gold('O')
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state.transition('O')
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state.transition('O')
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assert state.is_gold('U-PER')
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def test_oracle_extend_entity(state, sentence, golds):
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state.set_golds(golds)
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state.transition('B-PER')
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assert not state.is_gold('I-PER')
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state.transition('I-PER')
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assert state.is_gold('L-PER')
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assert not state.is_gold('I-PER')
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