from django.db import transaction from django.db.models import ( CharField, F, Func, IntegerField, JSONField, OuterRef, Q, Subquery, Value, Window, ) from django.db.models.fields.json import KeyTextTransform, KeyTransform from django.db.models.functions import Cast, Concat, LPad, Substr from django.test.utils import Approximate from django.utils import timezone from . import PostgreSQLTestCase from .models import AggregateTestModel, HotelReservation, Room, StatTestModel try: from django.contrib.postgres.aggregates import ( ArrayAgg, BitAnd, BitOr, BitXor, BoolAnd, BoolOr, Corr, CovarPop, JSONBAgg, RegrAvgX, RegrAvgY, RegrCount, RegrIntercept, RegrR2, RegrSlope, RegrSXX, RegrSXY, RegrSYY, StatAggregate, StringAgg, ) from django.contrib.postgres.fields import ArrayField except ImportError: pass # psycopg2 is not installed class TestGeneralAggregate(PostgreSQLTestCase): @classmethod def setUpTestData(cls): cls.aggs = AggregateTestModel.objects.bulk_create( [ AggregateTestModel( boolean_field=True, char_field="Foo1", text_field="Text1", integer_field=0, ), AggregateTestModel( boolean_field=False, char_field="Foo2", text_field="Text2", integer_field=1, json_field={"lang": "pl"}, ), AggregateTestModel( boolean_field=False, char_field="Foo4", text_field="Text4", integer_field=2, json_field={"lang": "en"}, ), AggregateTestModel( boolean_field=True, char_field="Foo3", text_field="Text3", integer_field=0, json_field={"breed": "collie"}, ), ] ) def test_empty_result_set(self): AggregateTestModel.objects.all().delete() tests = [ ArrayAgg("char_field"), ArrayAgg("integer_field"), ArrayAgg("boolean_field"), BitAnd("integer_field"), BitOr("integer_field"), BoolAnd("boolean_field"), BoolOr("boolean_field"), JSONBAgg("integer_field"), StringAgg("char_field", delimiter=";"), BitXor("integer_field"), ] for aggregation in tests: with self.subTest(aggregation=aggregation): # Empty result with non-execution optimization. with self.assertNumQueries(0): values = AggregateTestModel.objects.none().aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": None}) # Empty result when query must be executed. with self.assertNumQueries(1): values = AggregateTestModel.objects.aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": None}) def test_default_argument(self): AggregateTestModel.objects.all().delete() tests = [ (ArrayAgg("char_field", default=[""]), [""]), (ArrayAgg("integer_field", default=[0]), [0]), (ArrayAgg("boolean_field", default=[False]), [False]), (BitAnd("integer_field", default=0), 0), (BitOr("integer_field", default=0), 0), (BoolAnd("boolean_field", default=False), False), (BoolOr("boolean_field", default=False), False), (JSONBAgg("integer_field", default=[""]), [""]), ( JSONBAgg("integer_field", default=Value([""], JSONField())), [""], ), (StringAgg("char_field", delimiter=";", default=""), ""), ( StringAgg("char_field", delimiter=";", default=Value("")), "", ), (BitXor("integer_field", default=0), 0), ] for aggregation, expected_result in tests: with self.subTest(aggregation=aggregation): # Empty result with non-execution optimization. with self.assertNumQueries(0): values = AggregateTestModel.objects.none().aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": expected_result}) # Empty result when query must be executed. with transaction.atomic(), self.assertNumQueries(1): values = AggregateTestModel.objects.aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": expected_result}) def test_array_agg_charfield(self): values = AggregateTestModel.objects.aggregate(arrayagg=ArrayAgg("char_field")) self.assertEqual(values, {"arrayagg": ["Foo1", "Foo2", "Foo4", "Foo3"]}) def test_array_agg_charfield_ordering(self): ordering_test_cases = ( (F("char_field").desc(), ["Foo4", "Foo3", "Foo2", "Foo1"]), (F("char_field").asc(), ["Foo1", "Foo2", "Foo3", "Foo4"]), (F("char_field"), ["Foo1", "Foo2", "Foo3", "Foo4"]), ( [F("boolean_field"), F("char_field").desc()], ["Foo4", "Foo2", "Foo3", "Foo1"], ), ( (F("boolean_field"), F("char_field").desc()), ["Foo4", "Foo2", "Foo3", "Foo1"], ), ("char_field", ["Foo1", "Foo2", "Foo3", "Foo4"]), ("-char_field", ["Foo4", "Foo3", "Foo2", "Foo1"]), (Concat("char_field", Value("@")), ["Foo1", "Foo2", "Foo3", "Foo4"]), (Concat("char_field", Value("@")).desc(), ["Foo4", "Foo3", "Foo2", "Foo1"]), ( ( Substr("char_field", 1, 1), F("integer_field"), Substr("char_field", 4, 1).desc(), ), ["Foo3", "Foo1", "Foo2", "Foo4"], ), ) for ordering, expected_output in ordering_test_cases: with self.subTest(ordering=ordering, expected_output=expected_output): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("char_field", ordering=ordering) ) self.assertEqual(values, {"arrayagg": expected_output}) def test_array_agg_integerfield(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("integer_field") ) self.assertEqual(values, {"arrayagg": [0, 1, 2, 0]}) def test_array_agg_integerfield_ordering(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("integer_field", ordering=F("integer_field").desc()) ) self.assertEqual(values, {"arrayagg": [2, 1, 0, 0]}) def test_array_agg_booleanfield(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("boolean_field") ) self.assertEqual(values, {"arrayagg": [True, False, False, True]}) def test_array_agg_booleanfield_ordering(self): ordering_test_cases = ( (F("boolean_field").asc(), [False, False, True, True]), (F("boolean_field").desc(), [True, True, False, False]), (F("boolean_field"), [False, False, True, True]), ) for ordering, expected_output in ordering_test_cases: with self.subTest(ordering=ordering, expected_output=expected_output): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("boolean_field", ordering=ordering) ) self.assertEqual(values, {"arrayagg": expected_output}) def test_array_agg_jsonfield(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg( KeyTransform("lang", "json_field"), filter=Q(json_field__lang__isnull=False), ), ) self.assertEqual(values, {"arrayagg": ["pl", "en"]}) def test_array_agg_jsonfield_ordering(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg( KeyTransform("lang", "json_field"), filter=Q(json_field__lang__isnull=False), ordering=KeyTransform("lang", "json_field"), ), ) self.assertEqual(values, {"arrayagg": ["en", "pl"]}) def test_array_agg_filter_and_ordering_params(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg( "char_field", filter=Q(json_field__has_key="lang"), ordering=LPad(Cast("integer_field", CharField()), 2, Value("0")), ) ) self.assertEqual(values, {"arrayagg": ["Foo2", "Foo4"]}) def test_array_agg_filter(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("integer_field", filter=Q(integer_field__gt=0)), ) self.assertEqual(values, {"arrayagg": [1, 2]}) def test_array_agg_lookups(self): aggr1 = AggregateTestModel.objects.create() aggr2 = AggregateTestModel.objects.create() StatTestModel.objects.create(related_field=aggr1, int1=1, int2=0) StatTestModel.objects.create(related_field=aggr1, int1=2, int2=0) StatTestModel.objects.create(related_field=aggr2, int1=3, int2=0) StatTestModel.objects.create(related_field=aggr2, int1=4, int2=0) qs = ( StatTestModel.objects.values("related_field") .annotate(array=ArrayAgg("int1")) .filter(array__overlap=[2]) .values_list("array", flat=True) ) self.assertCountEqual(qs.get(), [1, 2]) def test_array_agg_filter_index(self): aggr1 = AggregateTestModel.objects.create(integer_field=1) aggr2 = AggregateTestModel.objects.create(integer_field=2) StatTestModel.objects.bulk_create( [ StatTestModel(related_field=aggr1, int1=1, int2=0), StatTestModel(related_field=aggr1, int1=2, int2=1), StatTestModel(related_field=aggr2, int1=3, int2=0), StatTestModel(related_field=aggr2, int1=4, int2=1), ] ) qs = ( AggregateTestModel.objects.filter(pk__in=[aggr1.pk, aggr2.pk]) .annotate( array=ArrayAgg("stattestmodel__int1", filter=Q(stattestmodel__int2=0)) ) .annotate(array_value=F("array__0")) .values_list("array_value", flat=True) ) self.assertCountEqual(qs, [1, 3]) def test_array_agg_filter_slice(self): aggr1 = AggregateTestModel.objects.create(integer_field=1) aggr2 = AggregateTestModel.objects.create(integer_field=2) StatTestModel.objects.bulk_create( [ StatTestModel(related_field=aggr1, int1=1, int2=0), StatTestModel(related_field=aggr1, int1=2, int2=1), StatTestModel(related_field=aggr2, int1=3, int2=0), StatTestModel(related_field=aggr2, int1=4, int2=1), StatTestModel(related_field=aggr2, int1=5, int2=0), ] ) qs = ( AggregateTestModel.objects.filter(pk__in=[aggr1.pk, aggr2.pk]) .annotate( array=ArrayAgg("stattestmodel__int1", filter=Q(stattestmodel__int2=0)) ) .annotate(array_value=F("array__1_2")) .values_list("array_value", flat=True) ) self.assertCountEqual(qs, [[], [5]]) def test_bit_and_general(self): values = AggregateTestModel.objects.filter(integer_field__in=[0, 1]).aggregate( bitand=BitAnd("integer_field") ) self.assertEqual(values, {"bitand": 0}) def test_bit_and_on_only_true_values(self): values = AggregateTestModel.objects.filter(integer_field=1).aggregate( bitand=BitAnd("integer_field") ) self.assertEqual(values, {"bitand": 1}) def test_bit_and_on_only_false_values(self): values = AggregateTestModel.objects.filter(integer_field=0).aggregate( bitand=BitAnd("integer_field") ) self.assertEqual(values, {"bitand": 0}) def test_bit_or_general(self): values = AggregateTestModel.objects.filter(integer_field__in=[0, 1]).aggregate( bitor=BitOr("integer_field") ) self.assertEqual(values, {"bitor": 1}) def test_bit_or_on_only_true_values(self): values = AggregateTestModel.objects.filter(integer_field=1).aggregate( bitor=BitOr("integer_field") ) self.assertEqual(values, {"bitor": 1}) def test_bit_or_on_only_false_values(self): values = AggregateTestModel.objects.filter(integer_field=0).aggregate( bitor=BitOr("integer_field") ) self.assertEqual(values, {"bitor": 0}) def test_bit_xor_general(self): AggregateTestModel.objects.create(integer_field=3) values = AggregateTestModel.objects.filter( integer_field__in=[1, 3], ).aggregate(bitxor=BitXor("integer_field")) self.assertEqual(values, {"bitxor": 2}) def test_bit_xor_on_only_true_values(self): values = AggregateTestModel.objects.filter( integer_field=1, ).aggregate(bitxor=BitXor("integer_field")) self.assertEqual(values, {"bitxor": 1}) def test_bit_xor_on_only_false_values(self): values = AggregateTestModel.objects.filter( integer_field=0, ).aggregate(bitxor=BitXor("integer_field")) self.assertEqual(values, {"bitxor": 0}) def test_bool_and_general(self): values = AggregateTestModel.objects.aggregate(booland=BoolAnd("boolean_field")) self.assertEqual(values, {"booland": False}) def test_bool_and_q_object(self): values = AggregateTestModel.objects.aggregate( booland=BoolAnd(Q(integer_field__gt=2)), ) self.assertEqual(values, {"booland": False}) def test_bool_or_general(self): values = AggregateTestModel.objects.aggregate(boolor=BoolOr("boolean_field")) self.assertEqual(values, {"boolor": True}) def test_bool_or_q_object(self): values = AggregateTestModel.objects.aggregate( boolor=BoolOr(Q(integer_field__gt=2)), ) self.assertEqual(values, {"boolor": False}) def test_string_agg_requires_delimiter(self): with self.assertRaises(TypeError): AggregateTestModel.objects.aggregate(stringagg=StringAgg("char_field")) def test_string_agg_delimiter_escaping(self): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg("char_field", delimiter="'") ) self.assertEqual(values, {"stringagg": "Foo1'Foo2'Foo4'Foo3"}) def test_string_agg_charfield(self): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg("char_field", delimiter=";") ) self.assertEqual(values, {"stringagg": "Foo1;Foo2;Foo4;Foo3"}) def test_string_agg_default_output_field(self): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg("text_field", delimiter=";"), ) self.assertEqual(values, {"stringagg": "Text1;Text2;Text4;Text3"}) def test_string_agg_charfield_ordering(self): ordering_test_cases = ( (F("char_field").desc(), "Foo4;Foo3;Foo2;Foo1"), (F("char_field").asc(), "Foo1;Foo2;Foo3;Foo4"), (F("char_field"), "Foo1;Foo2;Foo3;Foo4"), ("char_field", "Foo1;Foo2;Foo3;Foo4"), ("-char_field", "Foo4;Foo3;Foo2;Foo1"), (Concat("char_field", Value("@")), "Foo1;Foo2;Foo3;Foo4"), (Concat("char_field", Value("@")).desc(), "Foo4;Foo3;Foo2;Foo1"), ) for ordering, expected_output in ordering_test_cases: with self.subTest(ordering=ordering, expected_output=expected_output): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg("char_field", delimiter=";", ordering=ordering) ) self.assertEqual(values, {"stringagg": expected_output}) def test_string_agg_jsonfield_ordering(self): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg( KeyTextTransform("lang", "json_field"), delimiter=";", ordering=KeyTextTransform("lang", "json_field"), output_field=CharField(), ), ) self.assertEqual(values, {"stringagg": "en;pl"}) def test_string_agg_filter(self): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg( "char_field", delimiter=";", filter=Q(char_field__endswith="3") | Q(char_field__endswith="1"), ) ) self.assertEqual(values, {"stringagg": "Foo1;Foo3"}) def test_orderable_agg_alternative_fields(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("integer_field", ordering=F("char_field").asc()) ) self.assertEqual(values, {"arrayagg": [0, 1, 0, 2]}) def test_jsonb_agg(self): values = AggregateTestModel.objects.aggregate(jsonbagg=JSONBAgg("char_field")) self.assertEqual(values, {"jsonbagg": ["Foo1", "Foo2", "Foo4", "Foo3"]}) def test_jsonb_agg_charfield_ordering(self): ordering_test_cases = ( (F("char_field").desc(), ["Foo4", "Foo3", "Foo2", "Foo1"]), (F("char_field").asc(), ["Foo1", "Foo2", "Foo3", "Foo4"]), (F("char_field"), ["Foo1", "Foo2", "Foo3", "Foo4"]), ("char_field", ["Foo1", "Foo2", "Foo3", "Foo4"]), ("-char_field", ["Foo4", "Foo3", "Foo2", "Foo1"]), (Concat("char_field", Value("@")), ["Foo1", "Foo2", "Foo3", "Foo4"]), (Concat("char_field", Value("@")).desc(), ["Foo4", "Foo3", "Foo2", "Foo1"]), ) for ordering, expected_output in ordering_test_cases: with self.subTest(ordering=ordering, expected_output=expected_output): values = AggregateTestModel.objects.aggregate( jsonbagg=JSONBAgg("char_field", ordering=ordering), ) self.assertEqual(values, {"jsonbagg": expected_output}) def test_jsonb_agg_integerfield_ordering(self): values = AggregateTestModel.objects.aggregate( jsonbagg=JSONBAgg("integer_field", ordering=F("integer_field").desc()), ) self.assertEqual(values, {"jsonbagg": [2, 1, 0, 0]}) def test_jsonb_agg_booleanfield_ordering(self): ordering_test_cases = ( (F("boolean_field").asc(), [False, False, True, True]), (F("boolean_field").desc(), [True, True, False, False]), (F("boolean_field"), [False, False, True, True]), ) for ordering, expected_output in ordering_test_cases: with self.subTest(ordering=ordering, expected_output=expected_output): values = AggregateTestModel.objects.aggregate( jsonbagg=JSONBAgg("boolean_field", ordering=ordering), ) self.assertEqual(values, {"jsonbagg": expected_output}) def test_jsonb_agg_jsonfield_ordering(self): values = AggregateTestModel.objects.aggregate( jsonbagg=JSONBAgg( KeyTransform("lang", "json_field"), filter=Q(json_field__lang__isnull=False), ordering=KeyTransform("lang", "json_field"), ), ) self.assertEqual(values, {"jsonbagg": ["en", "pl"]}) def test_jsonb_agg_key_index_transforms(self): room101 = Room.objects.create(number=101) room102 = Room.objects.create(number=102) datetimes = [ timezone.datetime(2018, 6, 20), timezone.datetime(2018, 6, 24), timezone.datetime(2018, 6, 28), ] HotelReservation.objects.create( datespan=(datetimes[0].date(), datetimes[1].date()), start=datetimes[0], end=datetimes[1], room=room102, requirements={"double_bed": True, "parking": True}, ) HotelReservation.objects.create( datespan=(datetimes[1].date(), datetimes[2].date()), start=datetimes[1], end=datetimes[2], room=room102, requirements={"double_bed": False, "sea_view": True, "parking": False}, ) HotelReservation.objects.create( datespan=(datetimes[0].date(), datetimes[2].date()), start=datetimes[0], end=datetimes[2], room=room101, requirements={"sea_view": False}, ) values = ( Room.objects.annotate( requirements=JSONBAgg( "hotelreservation__requirements", ordering="-hotelreservation__start", ) ) .filter(requirements__0__sea_view=True) .values("number", "requirements") ) self.assertSequenceEqual( values, [ { "number": 102, "requirements": [ {"double_bed": False, "sea_view": True, "parking": False}, {"double_bed": True, "parking": True}, ], }, ], ) def test_string_agg_array_agg_ordering_in_subquery(self): stats = [] for i, agg in enumerate(AggregateTestModel.objects.order_by("char_field")): stats.append(StatTestModel(related_field=agg, int1=i, int2=i + 1)) stats.append(StatTestModel(related_field=agg, int1=i + 1, int2=i)) StatTestModel.objects.bulk_create(stats) for aggregate, expected_result in ( ( ArrayAgg("stattestmodel__int1", ordering="-stattestmodel__int2"), [ ("Foo1", [0, 1]), ("Foo2", [1, 2]), ("Foo3", [2, 3]), ("Foo4", [3, 4]), ], ), ( StringAgg( Cast("stattestmodel__int1", CharField()), delimiter=";", ordering="-stattestmodel__int2", ), [("Foo1", "0;1"), ("Foo2", "1;2"), ("Foo3", "2;3"), ("Foo4", "3;4")], ), ): with self.subTest(aggregate=aggregate.__class__.__name__): subquery = ( AggregateTestModel.objects.filter( pk=OuterRef("pk"), ) .annotate(agg=aggregate) .values("agg") ) values = ( AggregateTestModel.objects.annotate( agg=Subquery(subquery), ) .order_by("char_field") .values_list("char_field", "agg") ) self.assertEqual(list(values), expected_result) def test_string_agg_array_agg_filter_in_subquery(self): StatTestModel.objects.bulk_create( [ StatTestModel(related_field=self.aggs[0], int1=0, int2=5), StatTestModel(related_field=self.aggs[0], int1=1, int2=4), StatTestModel(related_field=self.aggs[0], int1=2, int2=3), ] ) for aggregate, expected_result in ( ( ArrayAgg("stattestmodel__int1", filter=Q(stattestmodel__int2__gt=3)), [("Foo1", [0, 1]), ("Foo2", None)], ), ( StringAgg( Cast("stattestmodel__int2", CharField()), delimiter=";", filter=Q(stattestmodel__int1__lt=2), ), [("Foo1", "5;4"), ("Foo2", None)], ), ): with self.subTest(aggregate=aggregate.__class__.__name__): subquery = ( AggregateTestModel.objects.filter( pk=OuterRef("pk"), ) .annotate(agg=aggregate) .values("agg") ) values = ( AggregateTestModel.objects.annotate( agg=Subquery(subquery), ) .filter( char_field__in=["Foo1", "Foo2"], ) .order_by("char_field") .values_list("char_field", "agg") ) self.assertEqual(list(values), expected_result) def test_string_agg_filter_in_subquery_with_exclude(self): subquery = ( AggregateTestModel.objects.annotate( stringagg=StringAgg( "char_field", delimiter=";", filter=Q(char_field__endswith="1"), ) ) .exclude(stringagg="") .values("id") ) self.assertSequenceEqual( AggregateTestModel.objects.filter(id__in=Subquery(subquery)), [self.aggs[0]], ) def test_ordering_isnt_cleared_for_array_subquery(self): inner_qs = AggregateTestModel.objects.order_by("-integer_field") qs = AggregateTestModel.objects.annotate( integers=Func( Subquery(inner_qs.values("integer_field")), function="ARRAY", output_field=ArrayField(base_field=IntegerField()), ), ) self.assertSequenceEqual( qs.first().integers, inner_qs.values_list("integer_field", flat=True), ) def test_window(self): self.assertCountEqual( AggregateTestModel.objects.annotate( integers=Window( expression=ArrayAgg("char_field"), partition_by=F("integer_field"), ) ).values("integers", "char_field"), [ {"integers": ["Foo1", "Foo3"], "char_field": "Foo1"}, {"integers": ["Foo1", "Foo3"], "char_field": "Foo3"}, {"integers": ["Foo2"], "char_field": "Foo2"}, {"integers": ["Foo4"], "char_field": "Foo4"}, ], ) def test_values_list(self): tests = [ArrayAgg("integer_field"), JSONBAgg("integer_field")] for aggregation in tests: with self.subTest(aggregation=aggregation): self.assertCountEqual( AggregateTestModel.objects.values_list(aggregation), [([0],), ([1],), ([2],), ([0],)], ) class TestAggregateDistinct(PostgreSQLTestCase): @classmethod def setUpTestData(cls): AggregateTestModel.objects.create(char_field="Foo") AggregateTestModel.objects.create(char_field="Foo") AggregateTestModel.objects.create(char_field="Bar") def test_string_agg_distinct_false(self): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg("char_field", delimiter=" ", distinct=False) ) self.assertEqual(values["stringagg"].count("Foo"), 2) self.assertEqual(values["stringagg"].count("Bar"), 1) def test_string_agg_distinct_true(self): values = AggregateTestModel.objects.aggregate( stringagg=StringAgg("char_field", delimiter=" ", distinct=True) ) self.assertEqual(values["stringagg"].count("Foo"), 1) self.assertEqual(values["stringagg"].count("Bar"), 1) def test_array_agg_distinct_false(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("char_field", distinct=False) ) self.assertEqual(sorted(values["arrayagg"]), ["Bar", "Foo", "Foo"]) def test_array_agg_distinct_true(self): values = AggregateTestModel.objects.aggregate( arrayagg=ArrayAgg("char_field", distinct=True) ) self.assertEqual(sorted(values["arrayagg"]), ["Bar", "Foo"]) def test_jsonb_agg_distinct_false(self): values = AggregateTestModel.objects.aggregate( jsonbagg=JSONBAgg("char_field", distinct=False), ) self.assertEqual(sorted(values["jsonbagg"]), ["Bar", "Foo", "Foo"]) def test_jsonb_agg_distinct_true(self): values = AggregateTestModel.objects.aggregate( jsonbagg=JSONBAgg("char_field", distinct=True), ) self.assertEqual(sorted(values["jsonbagg"]), ["Bar", "Foo"]) class TestStatisticsAggregate(PostgreSQLTestCase): @classmethod def setUpTestData(cls): StatTestModel.objects.create( int1=1, int2=3, related_field=AggregateTestModel.objects.create(integer_field=0), ) StatTestModel.objects.create( int1=2, int2=2, related_field=AggregateTestModel.objects.create(integer_field=1), ) StatTestModel.objects.create( int1=3, int2=1, related_field=AggregateTestModel.objects.create(integer_field=2), ) # Tests for base class (StatAggregate) def test_missing_arguments_raises_exception(self): with self.assertRaisesMessage(ValueError, "Both y and x must be provided."): StatAggregate(x=None, y=None) def test_correct_source_expressions(self): func = StatAggregate(x="test", y=13) self.assertIsInstance(func.source_expressions[0], Value) self.assertIsInstance(func.source_expressions[1], F) def test_alias_is_required(self): class SomeFunc(StatAggregate): function = "TEST" with self.assertRaisesMessage(TypeError, "Complex aggregates require an alias"): StatTestModel.objects.aggregate(SomeFunc(y="int2", x="int1")) # Test aggregates def test_empty_result_set(self): StatTestModel.objects.all().delete() tests = [ (Corr(y="int2", x="int1"), None), (CovarPop(y="int2", x="int1"), None), (CovarPop(y="int2", x="int1", sample=True), None), (RegrAvgX(y="int2", x="int1"), None), (RegrAvgY(y="int2", x="int1"), None), (RegrCount(y="int2", x="int1"), 0), (RegrIntercept(y="int2", x="int1"), None), (RegrR2(y="int2", x="int1"), None), (RegrSlope(y="int2", x="int1"), None), (RegrSXX(y="int2", x="int1"), None), (RegrSXY(y="int2", x="int1"), None), (RegrSYY(y="int2", x="int1"), None), ] for aggregation, expected_result in tests: with self.subTest(aggregation=aggregation): # Empty result with non-execution optimization. with self.assertNumQueries(0): values = StatTestModel.objects.none().aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": expected_result}) # Empty result when query must be executed. with self.assertNumQueries(1): values = StatTestModel.objects.aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": expected_result}) def test_default_argument(self): StatTestModel.objects.all().delete() tests = [ (Corr(y="int2", x="int1", default=0), 0), (CovarPop(y="int2", x="int1", default=0), 0), (CovarPop(y="int2", x="int1", sample=True, default=0), 0), (RegrAvgX(y="int2", x="int1", default=0), 0), (RegrAvgY(y="int2", x="int1", default=0), 0), # RegrCount() doesn't support the default argument. (RegrIntercept(y="int2", x="int1", default=0), 0), (RegrR2(y="int2", x="int1", default=0), 0), (RegrSlope(y="int2", x="int1", default=0), 0), (RegrSXX(y="int2", x="int1", default=0), 0), (RegrSXY(y="int2", x="int1", default=0), 0), (RegrSYY(y="int2", x="int1", default=0), 0), ] for aggregation, expected_result in tests: with self.subTest(aggregation=aggregation): # Empty result with non-execution optimization. with self.assertNumQueries(0): values = StatTestModel.objects.none().aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": expected_result}) # Empty result when query must be executed. with self.assertNumQueries(1): values = StatTestModel.objects.aggregate( aggregation=aggregation, ) self.assertEqual(values, {"aggregation": expected_result}) def test_corr_general(self): values = StatTestModel.objects.aggregate(corr=Corr(y="int2", x="int1")) self.assertEqual(values, {"corr": -1.0}) def test_covar_pop_general(self): values = StatTestModel.objects.aggregate(covarpop=CovarPop(y="int2", x="int1")) self.assertEqual(values, {"covarpop": Approximate(-0.66, places=1)}) def test_covar_pop_sample(self): values = StatTestModel.objects.aggregate( covarpop=CovarPop(y="int2", x="int1", sample=True) ) self.assertEqual(values, {"covarpop": -1.0}) def test_regr_avgx_general(self): values = StatTestModel.objects.aggregate(regravgx=RegrAvgX(y="int2", x="int1")) self.assertEqual(values, {"regravgx": 2.0}) def test_regr_avgy_general(self): values = StatTestModel.objects.aggregate(regravgy=RegrAvgY(y="int2", x="int1")) self.assertEqual(values, {"regravgy": 2.0}) def test_regr_count_general(self): values = StatTestModel.objects.aggregate( regrcount=RegrCount(y="int2", x="int1") ) self.assertEqual(values, {"regrcount": 3}) def test_regr_count_default(self): msg = "RegrCount does not allow default." with self.assertRaisesMessage(TypeError, msg): RegrCount(y="int2", x="int1", default=0) def test_regr_intercept_general(self): values = StatTestModel.objects.aggregate( regrintercept=RegrIntercept(y="int2", x="int1") ) self.assertEqual(values, {"regrintercept": 4}) def test_regr_r2_general(self): values = StatTestModel.objects.aggregate(regrr2=RegrR2(y="int2", x="int1")) self.assertEqual(values, {"regrr2": 1}) def test_regr_slope_general(self): values = StatTestModel.objects.aggregate( regrslope=RegrSlope(y="int2", x="int1") ) self.assertEqual(values, {"regrslope": -1}) def test_regr_sxx_general(self): values = StatTestModel.objects.aggregate(regrsxx=RegrSXX(y="int2", x="int1")) self.assertEqual(values, {"regrsxx": 2.0}) def test_regr_sxy_general(self): values = StatTestModel.objects.aggregate(regrsxy=RegrSXY(y="int2", x="int1")) self.assertEqual(values, {"regrsxy": -2.0}) def test_regr_syy_general(self): values = StatTestModel.objects.aggregate(regrsyy=RegrSYY(y="int2", x="int1")) self.assertEqual(values, {"regrsyy": 2.0}) def test_regr_avgx_with_related_obj_and_number_as_argument(self): """ This is more complex test to check if JOIN on field and number as argument works as expected. """ values = StatTestModel.objects.aggregate( complex_regravgx=RegrAvgX(y=5, x="related_field__integer_field") ) self.assertEqual(values, {"complex_regravgx": 1.0})