# SPDX-License-Identifier: GPL-3.0-or-later
#
# This file is part of Nominatim. (https://nominatim.org)
#
# Copyright (C) 2025 by the Nominatim developer community.
# For a full list of authors see the git log.
"""
Tests for tokenized query data structures.
"""
import pytest

from nominatim_api.search import query


class MyToken(query.Token):

    def get_category(self):
        return 'this', 'that'


def mktoken(tid: int):
    return MyToken(penalty=3.0, token=tid, count=1, addr_count=1,
                   lookup_word='foo')


@pytest.fixture
def qnode():
    return query.QueryNode(query.BREAK_PHRASE, query.PHRASE_ANY, 0.0, '', '')


@pytest.mark.parametrize('ptype,ttype', [(query.PHRASE_ANY, 'W'),
                                         (query.PHRASE_AMENITY, 'Q'),
                                         (query.PHRASE_STREET, 'w'),
                                         (query.PHRASE_CITY, 'W'),
                                         (query.PHRASE_COUNTRY, 'C'),
                                         (query.PHRASE_POSTCODE, 'P')])
def test_phrase_compatible(ptype, ttype):
    assert query._phrase_compatible_with(ptype, ttype, False)


@pytest.mark.parametrize('ptype', [query.PHRASE_COUNTRY, query.PHRASE_POSTCODE])
def test_phrase_incompatible(ptype):
    assert not query._phrase_compatible_with(ptype, query.TOKEN_PARTIAL, True)


def test_query_node_empty(qnode):
    assert qnode.get_tokens(3, query.TOKEN_WORD) is None


def test_query_node_with_content(qnode):
    qnode.starting.append(query.TokenList(2, query.TOKEN_PARTIAL, [mktoken(100), mktoken(101)]))
    qnode.starting.append(query.TokenList(2, query.TOKEN_WORD, [mktoken(1000)]))

    assert not qnode.has_tokens(3, query.TOKEN_PARTIAL)
    assert not qnode.has_tokens(2, query.TOKEN_COUNTRY)
    assert qnode.has_tokens(2, query.TOKEN_PARTIAL)
    assert qnode.has_tokens(2, query.TOKEN_WORD)

    assert qnode.get_tokens(2, query.TOKEN_COUNTRY) is None
    assert len(qnode.get_tokens(2, query.TOKEN_PARTIAL)) == 2
    assert len(qnode.get_tokens(2, query.TOKEN_WORD)) == 1


def test_query_struct_empty():
    q = query.QueryStruct([])

    assert q.num_token_slots() == 0


def test_query_struct_with_tokens():
    q = query.QueryStruct([query.Phrase(query.PHRASE_ANY, 'foo bar')])
    q.add_node(query.BREAK_WORD, query.PHRASE_ANY)
    q.add_node(query.BREAK_END, query.PHRASE_ANY)

    assert q.num_token_slots() == 2

    q.add_token(query.TokenRange(0, 1), query.TOKEN_PARTIAL, mktoken(1))
    q.add_token(query.TokenRange(1, 2), query.TOKEN_PARTIAL, mktoken(2))
    q.add_token(query.TokenRange(1, 2), query.TOKEN_WORD, mktoken(99))
    q.add_token(query.TokenRange(1, 2), query.TOKEN_WORD, mktoken(98))

    assert q.get_tokens(query.TokenRange(0, 2), query.TOKEN_WORD) == []
    assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_WORD)) == 2

    partials = list(q.iter_partials(query.TokenRange(0, 2)))

    assert len(partials) == 2
    assert [t.token for t in partials] == [1, 2]

    assert q.find_lookup_word_by_id(4) == 'None'
    assert q.find_lookup_word_by_id(99) == '[W]foo'


def test_query_struct_incompatible_token():
    q = query.QueryStruct([query.Phrase(query.PHRASE_COUNTRY, 'foo bar')])
    q.add_node(query.BREAK_WORD, query.PHRASE_COUNTRY)
    q.add_node(query.BREAK_END, query.PHRASE_ANY)

    q.add_token(query.TokenRange(0, 1), query.TOKEN_PARTIAL, mktoken(1))
    q.add_token(query.TokenRange(1, 2), query.TOKEN_COUNTRY, mktoken(100))

    assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_COUNTRY)) == 1


def test_query_struct_amenity_single_word():
    q = query.QueryStruct([query.Phrase(query.PHRASE_AMENITY, 'bar')])
    q.add_node(query.BREAK_END, query.PHRASE_ANY)

    q.add_token(query.TokenRange(0, 1), query.TOKEN_PARTIAL, mktoken(1))
    q.add_token(query.TokenRange(0, 1), query.TOKEN_NEAR_ITEM, mktoken(2))
    q.add_token(query.TokenRange(0, 1), query.TOKEN_QUALIFIER, mktoken(3))

    assert q.nodes[0].partial.token == 1
    assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_NEAR_ITEM)) == 1
    assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_QUALIFIER)) == 0


def test_query_struct_amenity_two_words():
    q = query.QueryStruct([query.Phrase(query.PHRASE_AMENITY, 'foo bar')])
    q.add_node(query.BREAK_WORD, query.PHRASE_AMENITY)
    q.add_node(query.BREAK_END, query.PHRASE_ANY)

    for trange in [(0, 1), (1, 2)]:
        q.add_token(query.TokenRange(*trange), query.TOKEN_PARTIAL, mktoken(1))
        q.add_token(query.TokenRange(*trange), query.TOKEN_NEAR_ITEM, mktoken(2))
        q.add_token(query.TokenRange(*trange), query.TOKEN_QUALIFIER, mktoken(3))

    assert q.nodes[0].partial.token == 1
    assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_NEAR_ITEM)) == 0
    assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_QUALIFIER)) == 1

    assert q.nodes[1].partial.token == 1
    assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_NEAR_ITEM)) == 0
    assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_QUALIFIER)) == 1