from django.contrib.postgres.aggregates import ( ArrayAgg, BitAnd, BitOr, BoolAnd, BoolOr, Corr, CovarPop, RegrAvgX, RegrAvgY, RegrCount, RegrIntercept, RegrR2, RegrSlope, RegrSXX, RegrSXY, RegrSYY, StatAggregate, StringAgg, ) from django.db.models.expressions import F, Value from django.test.utils import Approximate from . import PostgresSQLTestCase from .models import AggregateTestModel, StatTestModel class TestGeneralAggregate(PostgresSQLTestCase): @classmethod def setUpTestData(cls): AggregateTestModel.objects.create(boolean_field=True, char_field='Foo1', integer_field=0) AggregateTestModel.objects.create(boolean_field=False, char_field='Foo2', integer_field=1) AggregateTestModel.objects.create(boolean_field=False, char_field='Foo3', integer_field=2) AggregateTestModel.objects.create(boolean_field=True, char_field='Foo4', integer_field=0) def test_array_agg_charfield(self): values = AggregateTestModel.objects.aggregate(arrayagg=ArrayAgg('char_field')) self.assertEqual(values, {'arrayagg': ['Foo1', 'Foo2', 'Foo3', 'Foo4']}) 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_booleanfield(self): values = AggregateTestModel.objects.aggregate(arrayagg=ArrayAgg('boolean_field')) self.assertEqual(values, {'arrayagg': [True, False, False, True]}) def test_array_agg_empty_result(self): AggregateTestModel.objects.all().delete() values = AggregateTestModel.objects.aggregate(arrayagg=ArrayAgg('char_field')) self.assertEqual(values, {'arrayagg': []}) values = AggregateTestModel.objects.aggregate(arrayagg=ArrayAgg('integer_field')) self.assertEqual(values, {'arrayagg': []}) values = AggregateTestModel.objects.aggregate(arrayagg=ArrayAgg('boolean_field')) self.assertEqual(values, {'arrayagg': []}) 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_and_empty_result(self): AggregateTestModel.objects.all().delete() values = AggregateTestModel.objects.aggregate(bitand=BitAnd('integer_field')) self.assertEqual(values, {'bitand': None}) 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_or_empty_result(self): AggregateTestModel.objects.all().delete() values = AggregateTestModel.objects.aggregate(bitor=BitOr('integer_field')) self.assertEqual(values, {'bitor': None}) def test_bool_and_general(self): values = AggregateTestModel.objects.aggregate(booland=BoolAnd('boolean_field')) self.assertEqual(values, {'booland': False}) def test_bool_and_empty_result(self): AggregateTestModel.objects.all().delete() values = AggregateTestModel.objects.aggregate(booland=BoolAnd('boolean_field')) self.assertEqual(values, {'booland': None}) def test_bool_or_general(self): values = AggregateTestModel.objects.aggregate(boolor=BoolOr('boolean_field')) self.assertEqual(values, {'boolor': True}) def test_bool_or_empty_result(self): AggregateTestModel.objects.all().delete() values = AggregateTestModel.objects.aggregate(boolor=BoolOr('boolean_field')) self.assertEqual(values, {'boolor': None}) def test_string_agg_requires_delimiter(self): with self.assertRaises(TypeError): AggregateTestModel.objects.aggregate(stringagg=StringAgg('char_field')) def test_string_agg_charfield(self): values = AggregateTestModel.objects.aggregate(stringagg=StringAgg('char_field', delimiter=';')) self.assertEqual(values, {'stringagg': 'Foo1;Foo2;Foo3;Foo4'}) def test_string_agg_empty_result(self): AggregateTestModel.objects.all().delete() values = AggregateTestModel.objects.aggregate(stringagg=StringAgg('char_field', delimiter=';')) self.assertEqual(values, {'stringagg': ''}) class TestStatisticsAggregate(PostgresSQLTestCase): @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_corr_general(self): values = StatTestModel.objects.aggregate(corr=Corr(y='int2', x='int1')) self.assertEqual(values, {'corr': -1.0}) def test_corr_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(corr=Corr(y='int2', x='int1')) self.assertEqual(values, {'corr': None}) 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_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(covarpop=CovarPop(y='int2', x='int1')) self.assertEqual(values, {'covarpop': None}) 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_covar_pop_sample_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(covarpop=CovarPop(y='int2', x='int1', sample=True)) self.assertEqual(values, {'covarpop': None}) 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_avgx_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regravgx=RegrAvgX(y='int2', x='int1')) self.assertEqual(values, {'regravgx': None}) 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_avgy_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regravgy=RegrAvgY(y='int2', x='int1')) self.assertEqual(values, {'regravgy': None}) 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_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regrcount=RegrCount(y='int2', x='int1')) self.assertEqual(values, {'regrcount': 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_intercept_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regrintercept=RegrIntercept(y='int2', x='int1')) self.assertEqual(values, {'regrintercept': None}) def test_regr_r2_general(self): values = StatTestModel.objects.aggregate(regrr2=RegrR2(y='int2', x='int1')) self.assertEqual(values, {'regrr2': 1}) def test_regr_r2_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regrr2=RegrR2(y='int2', x='int1')) self.assertEqual(values, {'regrr2': None}) def test_regr_slope_general(self): values = StatTestModel.objects.aggregate(regrslope=RegrSlope(y='int2', x='int1')) self.assertEqual(values, {'regrslope': -1}) def test_regr_slope_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regrslope=RegrSlope(y='int2', x='int1')) self.assertEqual(values, {'regrslope': None}) 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_sxx_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regrsxx=RegrSXX(y='int2', x='int1')) self.assertEqual(values, {'regrsxx': None}) 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_sxy_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regrsxy=RegrSXY(y='int2', x='int1')) self.assertEqual(values, {'regrsxy': None}) 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_syy_empty_result(self): StatTestModel.objects.all().delete() values = StatTestModel.objects.aggregate(regrsyy=RegrSYY(y='int2', x='int1')) self.assertEqual(values, {'regrsyy': None}) 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})