# coding: utf-8
from __future__ import unicode_literals

import numpy
import pytest


@pytest.fixture
def example(EN):
    """
    This is to make sure the model works as expected. The tests make sure that
    values are properly set. Tests are not meant to evaluate the content of the
    output, only make sure the output is formally okay.
    """
    assert EN.entity != None
    return EN('There was a stranger standing at the big street talking to herself.')


@pytest.mark.models('en')
def test_en_models_tokenization(example):
    # tokenization should split the document into tokens
    assert len(example) > 1


@pytest.mark.models('en')
def test_en_models_tagging(example):
    # if tagging was done properly, pos tags shouldn't be empty
    assert example.is_tagged
    assert all(t.pos != 0 for t in example)
    assert all(t.tag != 0 for t in example)


@pytest.mark.models('en')
def test_en_models_parsing(example):
    # if parsing was done properly
    # - dependency labels shouldn't be empty
    # - the head of some tokens should not be root
    assert example.is_parsed
    assert all(t.dep != 0 for t in example)
    assert any(t.dep != i for i,t in enumerate(example))


@pytest.mark.models('en')
def test_en_models_ner(example):
    # if ner was done properly, ent_iob shouldn't be empty
    assert all([t.ent_iob != 0 for t in example])


@pytest.mark.models('en')
def test_en_models_vectors(example):
    # if vectors are available, they should differ on different words
    # this isn't a perfect test since this could in principle fail
    # in a sane model as well,
    # but that's very unlikely and a good indicator if something is wrong
    if example.vocab.vectors_length:
        vector0 = example[0].vector
        vector1 = example[1].vector
        vector2 = example[2].vector
        assert not numpy.array_equal(vector0,vector1)
        assert not numpy.array_equal(vector0,vector2)
        assert not numpy.array_equal(vector1,vector2)


@pytest.mark.xfail
@pytest.mark.models('en')
def test_en_models_probs(example):
    # if frequencies/probabilities are okay, they should differ for
    # different words
    # this isn't a perfect test since this could in principle fail
    # in a sane model as well,
    # but that's very unlikely and a good indicator if something is wrong
    prob0 = example[0].prob
    prob1 = example[1].prob
    prob2 = example[2].prob
    assert not prob0 == prob1
    assert not prob0 == prob2
    assert not prob1 == prob2


@pytest.mark.models('en')
def test_no_vectors_similarity(EN):
    doc1 = EN(u'hallo')
    doc2 = EN(u'hi')
    assert doc1.similarity(doc2) > 0