Sheerka-Old/tests/parsers/test_BnfNodeParser.py

import pytest
from core.builtin_concepts import BuiltinConcepts
from core.concept import Concept, ConceptParts, DoNotResolve, DEFINITION_TYPE_DEF, CC
from parsers.BaseNodeParser import CNC, UTN, CN
from parsers.BnfNodeParser import BnfNodeParser, StrMatch, TerminalNode, NonTerminalNode, Sequence, OrderedChoice, \
    Optional, ZeroOrMore, OneOrMore, ConceptExpression

import tests.parsers.parsers_utils
from tests.TestUsingMemoryBasedSheerka import TestUsingMemoryBasedSheerka

cmap = {
    "one": Concept("one"),
    "two": Concept("two"),
    "three": Concept("three"),
    "plus": Concept(name="a plus b").def_var("a").def_var("b"),
    "bnf one": Concept("bnf_one", definition="'one'"),
    'one and two': Concept("one and two", definition="one two"),
    'one or more three': Concept("one or more three", definition="three+"),
    'two or four': Concept("two or four", definition="two | 'four'"),
    "twenties": Concept("twenties", definition="'twenty' c:two or four:=unit"),
    "one or more plus": Concept("one or more plus", definition="c:a plus b:+"),  # TODO

    # testing keywords
    "def_only": Concept("def"),
    "def number": Concept("def number", definition="def (one|two)=number"),
    # sequence of keywords using bnf definition
    # "def_concept_bnf": Concept("def_concept_bnf", definition="'def' 'concept'"),
    # "def concept_bnf number": Concept("def number", definition="def_concept_bnf (one|two)=number"),
    # sequence of keywords using def definition
    # "def_concept_def": Concept("def_concept_def", definition="def concept", definition_type=DEFINITION_TYPE_DEF),
    # "def concept_def number": Concept("def number", definition="def_concept_def (one|two|three)=number"),
}


def u(parsing_expression, start, end, children=None):
    """
    u stands for underlying
    :param parsing_expression:
    :param start:
    :param end:
    :param children:
    :return:
    """
    if isinstance(parsing_expression, str):
        parsing_expression = StrMatch(parsing_expression)

    if isinstance(parsing_expression, StrMatch):
        return TerminalNode(parsing_expression, start, end, parsing_expression.to_match)

    return NonTerminalNode(parsing_expression, start, end, [], children)


def compute_expected_array(my_concepts_map, expression, expected, exclude_body=False):
    return tests.parsers.parsers_utils.compute_expected_array(
        my_concepts_map,
        expression,
        expected,
        init_empty_body=True,
        exclude_body=exclude_body)


class TestBnfNodeParser(TestUsingMemoryBasedSheerka):
    sheerka = None

    @classmethod
    def setup_class(cls):
        t = TestBnfNodeParser()
        TestBnfNodeParser.sheerka, context, _ = t.init_parser(
            cmap,
            singleton=False,
            create_new=True,
            init_from_sheerka=True)

    def init_parser(self, my_concepts_map=None, init_from_sheerka=False, **kwargs):
        if my_concepts_map is not None:
            sheerka, context, *updated = self.init_concepts(*my_concepts_map.values(), **kwargs)
            for i, pair in enumerate(my_concepts_map):
                my_concepts_map[pair] = updated[i]
        else:
            sheerka = TestBnfNodeParser.sheerka
            context = self.get_context(sheerka)

        parser = BnfNodeParser(sheerka=sheerka) if init_from_sheerka else BnfNodeParser()
        return sheerka, context, parser

    def exec_get_concepts_sequences(self, my_map, text, expected, multiple_result=False, post_init_concepts=None):
        sheerka, context, *updated = self.init_concepts(*my_map.values(), create_new=False, singleton=True)
        if not multiple_result:
            expected_array = [compute_expected_array(my_map, text, expected)]
        else:
            expected_array = [compute_expected_array(my_map, text, e) for e in expected]

        if post_init_concepts:
            post_init_concepts(sheerka, context)

        parser = BnfNodeParser()
        parser.init_from_concepts(context, updated)
        parser.reset_parser(context, text)

        bnf_parsers_helpers = parser.get_concepts_sequences()

        assert len(bnf_parsers_helpers) == len(expected_array)
        for parser_helper, expected_sequence in zip(bnf_parsers_helpers, expected_array):
            assert parser_helper.sequence == expected_sequence

        if len(bnf_parsers_helpers) == 1:
            return sheerka, context, bnf_parsers_helpers[0].sequence
        else:
            return sheerka, context, [pe.sequence for pe in bnf_parsers_helpers]

    def validate_get_concepts_sequences(self, my_map, text, expected, multiple_result=False, post_init_concepts=None):
        sheerka, context, sequences = self.exec_get_concepts_sequences(
            my_map, text, expected, multiple_result, post_init_concepts
        )
        return sequences
        # sheerka, context, *updated = self.init_concepts(*my_map.values(), create_new=False, singleton=True)
        # if not multiple_result:
        #     expected_array = [compute_expected_array(my_map, text, expected)]
        # else:
        #     expected_array = [compute_expected_array(my_map, text, e) for e in expected]
        #
        # if post_init_concepts:
        #     post_init_concepts(sheerka, context)
        #
        # parser = BnfNodeParser()
        # parser.init_from_concepts(context, updated)
        # parser.reset_parser(context, text)
        #
        # bnf_parsers_helpers = parser.get_concepts_sequences()
        #
        # assert len(bnf_parsers_helpers) == len(expected_array)
        # for parser_helper, expected_sequence in zip(bnf_parsers_helpers, expected_array):
        #     assert parser_helper.sequence == expected_sequence
        #
        # if len(bnf_parsers_helpers) == 1:
        #     return bnf_parsers_helpers[0].sequence
        # else:
        #     return [pe.sequence for pe in bnf_parsers_helpers]

    def test_i_cannot_parse_empty_strings(self):
        sheerka, context, parser = self.init_parser({}, singleton=True)

        res = parser.parse(context, "")

        assert not res.status
        assert sheerka.isinstance(res.body, BuiltinConcepts.NOT_FOR_ME)
        assert res.body.reason == BuiltinConcepts.IS_EMPTY

    @pytest.mark.parametrize("expr, text", [
        # (StrMatch("foo"), "foo"),
        (StrMatch("'foo'"), "'foo'"),
        (StrMatch("1"), "1"),
        (StrMatch("3.14"), "3.14"),
        (StrMatch("+"), "+"),
    ])
    def test_i_can_match_simple_bnf(self, expr, text):
        my_map = {
            text: self.bnf_concept("foo", expr)
        }

        sequence = self.validate_get_concepts_sequences(my_map, text, [text])
        assert sequence[0].underlying == u(expr, 0, 0)

    def test_i_can_match_multiple_concepts_in_one_input(self):
        my_map = {
            "one": self.bnf_concept("one"),
            "two": self.bnf_concept("two"),
        }

        text = "one two one"
        expected = ["one", "two", ("one", 1)]
        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one two three", [CNC("foo", source="one two three")]),
        ("one two", []),
        ("one two four", []),
    ])
    def test_i_can_match_sequence(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", Sequence("one", "two", "three")),
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    def test_i_always_choose_the_longest_match(self):
        my_map = {
            "foo": self.bnf_concept("foo", Sequence("one", "two", "three")),
            "bar": self.bnf_concept("bar", Sequence("one", "two")),
        }

        text = "one two three"
        expected = [CNC("foo", source=text)]
        self.validate_get_concepts_sequences(my_map, text, expected)

    def test_i_can_match_multiple_sequences(self):
        my_map = {
            "foo": self.bnf_concept("foo", Sequence(StrMatch("one"), StrMatch("two"), StrMatch("three"))),
            "bar": self.bnf_concept("bar", Sequence(StrMatch("one"), StrMatch("two"))),
        }

        text = "one two three one two"
        expected = [
            CNC("foo", source="one two three"),
            CNC("bar", source="one two", start=6, end=8)]

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one", [CNC("foo", source="one")]),
        ("two", [CNC("foo", source="two")]),
        ("three", []),

    ])
    def test_i_can_match_ordered_choice(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", OrderedChoice(StrMatch("one"), StrMatch("two")))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    def test_i_do_not_match_ordered_choice_with_empty_alternative(self):
        my_map = {
            "foo": self.bnf_concept("foo", OrderedChoice(StrMatch("one"), StrMatch("")))
        }

        text = ""
        expected = []

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("thirty one ok", [CNC("foo", source="thirty one ok")]),
        ("twenty one ok", [CNC("foo", source="twenty one ok")]),
    ])
    def test_i_can_mix_sequence_and_ordered(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo",
                                    Sequence(
                                        OrderedChoice(StrMatch("twenty"), StrMatch("thirty")),
                                        StrMatch("one"),
                                        StrMatch("ok"))
                                    )}
        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("twenty thirty", [CNC("foo", source="twenty thirty")]),
        ("one", [CNC("foo", source="one")]),
    ])
    def test_i_can_mix_ordered_choices_and_sequences(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo",
                                    OrderedChoice(
                                        Sequence(StrMatch("twenty"), StrMatch("thirty")),
                                        StrMatch("one")))}

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one", [CNC("foo", source="one")]),
        ("", []),
        ("two", []),
    ])
    def test_i_can_parse_optional(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", Optional(StrMatch("one")))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("twenty one", [CNC("foo", source="twenty one")]),
        ("one", [CNC("foo", source="one")]),
    ])
    def test_i_can_parse_sequence_starting_with_optional(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo",
                                    Sequence(
                                        Optional(StrMatch("twenty")),
                                        StrMatch("one")))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one two three", [CNC("foo", source="one two three")]),
        ("one two", [CNC("foo", source="one two")]),
    ])
    def test_i_can_parse_sequence_ending_with_optional(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo",
                                    Sequence(
                                        StrMatch("one"),
                                        StrMatch("two"),
                                        Optional(StrMatch("three"))))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one two three", [CNC("foo", source="one two three")]),
        ("one three", [CNC("foo", source="one three")]),
    ])
    def test_i_can_parse_sequence_with_optional_in_between(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo",
                                    Sequence(
                                        StrMatch("one"),
                                        Optional(StrMatch("two")),
                                        StrMatch("three")))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("", []),
        ("two", []),
        ("one", [CNC("foo", source="one")]),
        ("one one", [CNC("foo", source="one one")]),
    ])
    def test_i_can_parse_zero_or_more(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", ZeroOrMore(StrMatch("one")))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("two", [CNC("foo", source="two")]),
        ("one two", [CNC("foo", source="one two")]),
        ("one one two", [CNC("foo", source="one one two")]),
    ])
    def test_i_can_parse_sequence_and_zero_or_more(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo",
                                    Sequence(
                                        ZeroOrMore(StrMatch("one")),
                                        StrMatch("two")
                                    ))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one, one , one", [CNC("foo", source="one, one , one")]),
    ])
    def test_i_can_parse_zero_or_more_with_separator(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", ZeroOrMore(StrMatch("one"), sep=","))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    def test_that_zero_or_more_is_greedy(self):
        my_map = {
            "foo": self.bnf_concept("foo", ZeroOrMore(StrMatch("one"))),
            "bar": self.bnf_concept("foo", StrMatch("one"))
        }

        text = "one one one"
        expected = [CNC("foo", source=text)]
        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("", []),
        ("two", []),
        ("one", [CNC("foo", source="one")]),
        ("one one one", [CNC("foo", source="one one one")]),
    ])
    def test_i_can_parse_one_or_more(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", OneOrMore(StrMatch("one"))),
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("two", []),
        ("one two", [CNC("foo", source="one two")]),
        ("one one two", [CNC("foo", source="one one two")]),
    ])
    def test_i_can_parse_sequence_one_and_or_more(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo",
                                    Sequence(
                                        OneOrMore(StrMatch("one")),
                                        StrMatch("two")
                                    ))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one, one , one", [CNC("foo", source="one, one , one")]),
    ])
    def test_i_can_parse_one_or_more_with_separator(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", OneOrMore(StrMatch("one"), sep=","))
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    def test_that_one_or_more_is_greedy(self):
        my_map = {
            "foo": self.bnf_concept("foo", OneOrMore(StrMatch("one"))),
            "bar": self.bnf_concept("foo", StrMatch("one"))
        }

        text = "one one one"
        expected = [CNC("foo", source=text)]
        self.validate_get_concepts_sequences(my_map, text, expected)

    @pytest.mark.parametrize("text, expected", [
        ("one two", [
            [CNC("foo", source="one two")],
            [CNC("bar", source="one two")]]),
        ("one two one two", [
            [CNC("bar", source="one two"), CNC("bar", source="one two")],
            [CNC("foo", source="one two"), CNC("bar", source="one two")],
            [CNC("bar", source="one two"), CNC("foo", source="one two")],
            [CNC("foo", source="one two"), CNC("foo", source="one two")]]),
    ])
    def test_i_can_have_multiple_results(self, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", Sequence(StrMatch("one"), StrMatch("two"))),
            "bar": self.bnf_concept("bar", Sequence(
                StrMatch("one"),
                OrderedChoice(StrMatch("two"), StrMatch("three")))),
        }

        text = "one two"
        expected = [[CNC("foo", source=text)], [CNC("bar", source=text)]]
        self.validate_get_concepts_sequences(my_map, text, expected, multiple_result=True)

    def test_i_can_refer_to_other_concepts(self):
        my_map = {
            "foo": self.bnf_concept("foo", Sequence(StrMatch("one"), StrMatch("two"))),
            "bar": self.bnf_concept("bar", ConceptExpression("foo"))
        }

        text = "one two"
        expected = [
            [CNC("foo", source=text)],
            [CN("bar", source=text)]  # Do not check the compiled part
        ]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected, multiple_result=True)

        # explicit validations of the compiled
        concept_foo = sequences[0][0].concept
        assert concept_foo.body is None
        assert concept_foo.compiled == {ConceptParts.BODY: DoNotResolve("one two")}

        concept_bar = sequences[1][0].concept
        assert concept_bar.body is None
        assert concept_bar.compiled == {
            ConceptParts.BODY: concept_foo,
            "foo": concept_foo
        }
        assert id(concept_bar.compiled[ConceptParts.BODY]) == id(concept_bar.compiled["foo"])

    def test_i_can_refer_to_other_concepts_with_body(self):
        my_map = {
            "foo": self.bnf_concept(Concept("foo", body="'foo'"), Sequence(StrMatch("one"), StrMatch("two"))),
            "bar": self.bnf_concept("bar", ConceptExpression("foo"))
        }

        text = "one two"
        expected = [
            [CNC("foo", source=text)],
            [CN("bar", source=text)]  # Do not check the compiled part
        ]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected, multiple_result=True)

        # explicit validations of the compiled
        concept_foo = sequences[0][0].concept
        assert concept_foo.body is None
        assert len(concept_foo.compiled) == 0  # because there is a body defined in the metadata

        concept_bar = sequences[1][0].concept
        assert concept_bar.body is None
        assert concept_bar.compiled == {
            ConceptParts.BODY: concept_foo,
            "foo": concept_foo
        }

    def test_i_can_use_context_reference_with_multiple_levels(self):
        my_map = {
            "foo": self.bnf_concept("foo", Sequence(StrMatch("one"), StrMatch("two"))),
            "bar": self.bnf_concept("bar", ConceptExpression("foo")),
            "baz": self.bnf_concept("baz", ConceptExpression("bar")),
        }

        text = "one two"
        expected = [
            [CNC("foo", source=text)],
            [CN("bar", source=text)],  # Do not check the compiled part
            [CN("baz", source=text)],  # Do not check the compiled part
        ]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected, multiple_result=True)

        # explicit validations of the compiled
        concept_foo = sequences[0][0].concept
        assert concept_foo.body is None
        assert concept_foo.compiled == {ConceptParts.BODY: DoNotResolve("one two")}

        concept_bar = sequences[1][0].concept
        assert concept_bar.body is None
        assert concept_bar.compiled == {
            ConceptParts.BODY: concept_foo,
            "foo": concept_foo
        }

        concept_baz = sequences[2][0].concept
        assert concept_baz.body is None
        assert concept_baz.compiled == {
            ConceptParts.BODY: concept_bar,
            "bar": concept_bar,
            "foo": concept_foo,
        }

    def test_i_can_mix_reference_to_other_concepts(self):
        my_map = {
            "foo": self.bnf_concept("foo", OrderedChoice(StrMatch("twenty"), StrMatch("thirty"))),
            "bar": self.bnf_concept("bar", Sequence(
                ConceptExpression("foo"),
                OrderedChoice(StrMatch("one"), StrMatch("two")))),
        }

        text = "twenty two"
        expected = [CN("bar", source="twenty two")]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected)
        concept_bar = sequences[0].concept
        assert concept_bar.compiled == {
            ConceptParts.BODY: DoNotResolve("twenty two"),
            "foo": my_map["foo"],
        }
        assert concept_bar.compiled["foo"].compiled == {ConceptParts.BODY: DoNotResolve("twenty")}

        text = "thirty one"
        expected = [CN("bar", source="thirty one")]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected)
        concept_bar = sequences[0].concept
        assert concept_bar.compiled == {
            ConceptParts.BODY: DoNotResolve("thirty one"),
            "foo": my_map["foo"],
        }
        assert concept_bar.compiled["foo"].compiled == {ConceptParts.BODY: DoNotResolve("thirty")}

    def test_i_can_mix_reference_to_other_concepts_when_body(self):
        my_map = {
            "foo": self.bnf_concept(Concept("foo", body="'foo'"),
                                    OrderedChoice(StrMatch("twenty"), StrMatch("thirty"))),
            "bar": self.bnf_concept("bar", Sequence(
                ConceptExpression("foo"),
                OrderedChoice(StrMatch("one"), StrMatch("two")))),
        }

        text = "twenty two"
        expected = [CN("bar", source="twenty two")]
        sheerka, context, sequences = self.exec_get_concepts_sequences(my_map, text, expected)

        concept_bar = sequences[0].concept
        assert concept_bar.compiled == {
            ConceptParts.BODY: DoNotResolve("twenty two"),
            "foo": sheerka.new("foo"),
        }
        assert concept_bar.compiled["foo"].compiled == {}  # as foo as a body

        text = "thirty one"
        expected = [CN("bar", source="thirty one")]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected)
        concept_bar = sequences[0].concept
        assert concept_bar.compiled == {
            ConceptParts.BODY: DoNotResolve("thirty one"),
            "foo": sheerka.new("foo"),
        }
        assert concept_bar.compiled["foo"].compiled == {}

    def test_i_can_mix_zero_and_more_and_reference_to_other_concepts(self):
        my_map = {
            "foo": self.bnf_concept("foo", OrderedChoice(StrMatch("one"), StrMatch("two"), StrMatch("three"))),
            "bar": self.bnf_concept("bar", ZeroOrMore(ConceptExpression("foo"))),
        }

        text = "one two three"
        expected = [CN("bar", source="one two three")]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected)
        concept_bar = sequences[0].concept
        assert concept_bar.compiled == {
            ConceptParts.BODY: DoNotResolve("one two three"),
            "foo": [my_map["foo"], my_map["foo"], my_map["foo"]]
        }
        assert concept_bar.compiled["foo"][0].compiled == {ConceptParts.BODY: DoNotResolve("one")}
        assert concept_bar.compiled["foo"][1].compiled == {ConceptParts.BODY: DoNotResolve("two")}
        assert concept_bar.compiled["foo"][2].compiled == {ConceptParts.BODY: DoNotResolve("three")}

    def test_i_can_parse_concept_reference_that_is_not_in_grammar(self):
        my_map = {
            "one": Concept("one"),
            "two": Concept("two"),
            "foo": self.bnf_concept("foo",
                                    Sequence(
                                        StrMatch("twenty"),
                                        OrderedChoice(ConceptExpression("one"), ConceptExpression("two")))),
        }

        text = "twenty one"
        expected = [CN("foo", source="twenty one")]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected)
        concept_foo = sequences[0].concept
        assert concept_foo.compiled == {
            ConceptParts.BODY: DoNotResolve("twenty one"),
            "one": my_map["one"],
        }

    def test_i_can_refer_to_group_concepts(self):
        my_map = {
            "one": Concept("one"),
            "two": Concept("two"),
            "number": Concept("number"),
            "foo": self.bnf_concept("foo", Sequence("twenty", ConceptExpression("number")))
        }

        def pic(s, c):
            s.add_concept_to_set(c, my_map["one"], my_map["number"])
            s.add_concept_to_set(c, my_map["two"], my_map["number"])

        text = "twenty two"
        expected = [CN("foo", source="twenty two")]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected, post_init_concepts=pic)

        # explicit validations of the compiled
        concept_foo = sequences[0].concept
        assert concept_foo.body is None
        assert concept_foo.compiled == {'number': my_map["number"],
                                        'two': my_map["two"],
                                        ConceptParts.BODY: DoNotResolve(value='twenty two')}

        text = "twenty one"
        expected = [CN("foo", source="twenty one")]
        sequences = self.validate_get_concepts_sequences(my_map, text, expected, post_init_concepts=pic)

        # explicit validations of the compiled
        concept_foo = sequences[0].concept
        assert concept_foo.body is None
        assert concept_foo.compiled == {'number': my_map["number"],
                                        'one': my_map["one"],
                                        ConceptParts.BODY: DoNotResolve(value='twenty one')}

    @pytest.mark.parametrize("bar_expr", [
        ConceptExpression("foo"),
        OrderedChoice(ConceptExpression("foo"), StrMatch("one")),
        Sequence(StrMatch("one"), ConceptExpression("foo"), StrMatch("two"))
    ])
    def test_i_can_detect_infinite_recursion(self, bar_expr):
        my_map = {
            "foo": self.bnf_concept("foo", ConceptExpression("bar")),
            "bar": self.bnf_concept("bar", bar_expr),
        }

        sheerka, context, parser = self.init_parser(my_map, singleton=True)
        parser.context = context
        parser.sheerka = sheerka

        parsing_expression = parser.get_parsing_expression(my_map["foo"])
        assert sheerka.isinstance(parsing_expression, BuiltinConcepts.CHICKEN_AND_EGG)
        assert sheerka.isinstance(parser.concepts_grammars.get(my_map["foo"].id), BuiltinConcepts.CHICKEN_AND_EGG)

        parsing_expression = parser.get_parsing_expression(my_map["bar"])
        assert sheerka.isinstance(parsing_expression, BuiltinConcepts.CHICKEN_AND_EGG)
        assert sheerka.isinstance(parser.concepts_grammars.get(my_map["bar"].id), BuiltinConcepts.CHICKEN_AND_EGG)

    def test_i_can_get_parsing_expression_when_concept_isa(self):
        my_map = {
            "one": Concept("one"),
            "twenty": Concept("twenty"),
            "number": Concept("number"),
            "twenties": self.bnf_concept("twenties", Sequence(ConceptExpression("twenty"), ConceptExpression("number")))
        }
        sheerka, context, parser = self.init_parser(my_map, singleton=True)
        parser.context = context
        parser.sheerka = sheerka
        sheerka.set_isa(context, sheerka.new("one"), my_map["number"])
        sheerka.set_isa(context, sheerka.new("twenty"), my_map["number"])

        parsing_expression = parser.get_parsing_expression(my_map["twenties"])
        assert parsing_expression == Sequence(
            ConceptExpression(my_map["twenty"], rule_name="twenty"),
            ConceptExpression(my_map["number"], rule_name="number"))

        assert parsing_expression.nodes[0].nodes == [StrMatch("twenty")]
        assert isinstance(parsing_expression.nodes[1].nodes[0], OrderedChoice)
        assert ConceptExpression(my_map["one"], rule_name="one") in parsing_expression.nodes[1].nodes[0].elements
        assert ConceptExpression(my_map["twenty"], rule_name="twenty") in parsing_expression.nodes[1].nodes[0].elements

    def test_i_can_get_parsing_expression_when_sequence_of_concept(self):
        my_map = {
            "one": Concept("one"),
            "two_ones": self.bnf_concept("two_ones", Sequence(ConceptExpression("one"), ConceptExpression("one")))
        }
        sheerka, context, parser = self.init_parser(my_map, singleton=True)
        parser.context = context
        parser.sheerka = sheerka

        parsing_expression = parser.get_parsing_expression(my_map["two_ones"])
        assert parsing_expression == Sequence(
            ConceptExpression(my_map["one"], rule_name="one"),
            ConceptExpression(my_map["one"], rule_name="one"))

    @pytest.mark.parametrize("expr, text, expected", [
        (ZeroOrMore(StrMatch("one"), sep=","), "one,", [CNC("foo", source="one"), UTN(",")]),
        (StrMatch("one"), "one two", [CNC("foo", source="one"), UTN(" two")]),
        (StrMatch("one"), "two one", [UTN("two "), CNC("foo", source="one")]),
    ])
    def test_i_can_recognize_unknown_concepts(self, expr, text, expected):
        my_map = {
            "foo": self.bnf_concept("foo", expr)
        }

        self.validate_get_concepts_sequences(my_map, text, expected)

    def test_i_can_recognize_unknown_then_they_look_like_known(self):
        my_map = {
            "one two": self.bnf_concept("one two", Sequence("one", "two")),
            "three": self.bnf_concept("three")
        }

        text = "one three"
        expected = [UTN("one "), CNC("three", source="three")]
        self.validate_get_concepts_sequences(my_map, text, expected)

    def test_i_can_remove_duplicates(self):
        my_map = {
            "one two": self.bnf_concept("one two", Sequence("one", "two")),
            "one four": self.bnf_concept("one four", Sequence("one", "four")),
            "three": self.bnf_concept("three")
        }
        sheerka, context, parser = self.init_parser(my_map, singleton=True)
        parser.init_from_concepts(context, my_map.values())

        parser.reset_parser(context, "one three")
        sequences = parser.get_concepts_sequences()
        sequence = parser.get_valid(sequences)

        assert len(sequence) == 1

    @pytest.mark.parametrize("parser_input, expected_status, expected", [
        ("one", True, [CNC("bnf one", source="one")]),  # the bnf one is chosen
        ("one two", True, [CN("one and two", source="one two")]),
        ("three three three", True, [CN("one or more three", source="three three three")]),
        ("twenty two", True, [CN("twenties", source="twenty two")]),
        ("twenty four", True, [CN("twenties", source="twenty four")]),
        ("twenty one", False, [UTN("twenty "), CN("bnf one", source="one")]),
        ("twenty two + 1", True, [CN("twenties", source="twenty two"), " + 1"]),
    ])
    def test_i_can_parse(self, parser_input, expected_status, expected):
        sheerka, context, parser = self.init_parser(init_from_sheerka=True)

        res = parser.parse(context, parser_input)
        expected_array = compute_expected_array(cmap, parser_input, expected)
        parser_result = res.value
        concepts_nodes = res.value.value

        assert res.status == expected_status
        assert sheerka.isinstance(parser_result, BuiltinConcepts.PARSER_RESULT)
        assert concepts_nodes == expected_array

    def test_i_can_parse_when_keyword(self):
        sheerka, context, parser = self.init_parser(init_from_sheerka=True)

        parser_input = "def one"
        expected = [CNC("def number", source="def one", number="one", one="one")]

        res = parser.parse(context, parser_input)
        expected_array = compute_expected_array(cmap, parser_input, expected)
        expected_array[0].compiled["def"] = cmap["def_only"]

        parser_result = res.value
        concepts_nodes = res.value.value

        assert res.status
        assert sheerka.isinstance(parser_result, BuiltinConcepts.PARSER_RESULT)
        assert concepts_nodes == expected_array


    # @pytest.mark.parametrize("parser_input, expected", [
    #     ("one", [
    #         (True, [CNC("bnf_one", source="one", one="one", body="one")]),
    #         (True, [CNC("one_or_two", source="one", one="one", body="one")]),
    #     ]),
    #     ("two plus two", [
    #         (False, [CN("bnf_one"), UTN(" plus "), CN("one_or_two")]),
    #         (False, [CN("one_or_two"), UTN(" plus "), CN("one_or_two")]),
    #     ])
    # ])
    # def test_i_can_parse_when_multiple_results(self, parser_input, expected):
    #     sheerka, context, parser = self.init_parser(init_from_sheerka=True)
    #
    #     res = parser.parse(context, parser_input)
    #     assert len(res) == len(expected)
    #
    #     for res_i, expected_i in zip(res, expected):
    #         assert res_i.status == expected_i[0]
    #         expected_array = compute_expected_array(cmap, parser_input, expected_i[1])
    #         assert res_i.value.value == expected_array