예제 #1
0
def parse_slice(d):
    kwargs = {"step": 1}
    if "start" in d:
        kwargs["start"] = d["start"]
    if "stop" in d:
        kwargs["stop"] = d["stop"]
    return Slice(**kwargs)
예제 #2
0
def parse_slice(d):
    kwargs = {'step': 1}
    if 'start' in d:
        kwargs['start'] = d['start']
    if 'stop' in d:
        kwargs['stop'] = d['stop']
    return Slice(**kwargs)
예제 #3
0
class CoreFixtures(object):
    # lambdas which return a tuple of ColumnElement objects.
    # must return at least two objects that should compare differently.
    # to test more varieties of "difference" additional objects can be added.
    fixtures = [
        lambda: (
            column("q"),
            column("x"),
            column("q", Integer),
            column("q", String),
        ),
        lambda: (~column("q", Boolean), ~column("p", Boolean)),
        lambda: (
            table_a.c.a.label("foo"),
            table_a.c.a.label("bar"),
            table_a.c.b.label("foo"),
        ),
        lambda: (
            _label_reference(table_a.c.a.desc()),
            _label_reference(table_a.c.a.asc()),
        ),
        lambda: (_textual_label_reference("a"), _textual_label_reference("b")),
        lambda: (
            text("select a, b from table").columns(a=Integer, b=String),
            text("select a, b, c from table").columns(
                a=Integer, b=String, c=Integer),
            text("select a, b, c from table where foo=:bar").bindparams(
                bindparam("bar", type_=Integer)),
            text("select a, b, c from table where foo=:foo").bindparams(
                bindparam("foo", type_=Integer)),
            text("select a, b, c from table where foo=:bar").bindparams(
                bindparam("bar", type_=String)),
        ),
        lambda: (
            column("q") == column("x"),
            column("q") == column("y"),
            column("z") == column("x"),
            column("z") + column("x"),
            column("z") - column("x"),
            column("x") - column("z"),
            column("z") > column("x"),
            column("x").in_([5, 7]),
            column("x").in_([10, 7, 8]),
            # note these two are mathematically equivalent but for now they
            # are considered to be different
            column("z") >= column("x"),
            column("x") <= column("z"),
            column("q").between(5, 6),
            column("q").between(5, 6, symmetric=True),
            column("q").like("somstr"),
            column("q").like("somstr", escape="\\"),
            column("q").like("somstr", escape="X"),
        ),
        lambda: (
            table_a.c.a,
            table_a.c.a._annotate({"orm": True}),
            table_a.c.a._annotate({
                "orm": True
            })._annotate({"bar": False}),
            table_a.c.a._annotate({
                "orm": True,
                "parententity": MyEntity("a", table_a)
            }),
            table_a.c.a._annotate({
                "orm": True,
                "parententity": MyEntity("b", table_a)
            }),
            table_a.c.a._annotate(
                {
                    "orm": True,
                    "parententity": MyEntity("b", select([table_a]))
                }),
            table_a.c.a._annotate({
                "orm":
                True,
                "parententity":
                MyEntity("b",
                         select([table_a]).where(table_a.c.a == 5)),
            }),
        ),
        lambda: (
            table_a,
            table_a._annotate({"orm": True}),
            table_a._annotate({
                "orm": True
            })._annotate({"bar": False}),
            table_a._annotate({
                "orm": True,
                "parententity": MyEntity("a", table_a)
            }),
            table_a._annotate({
                "orm": True,
                "parententity": MyEntity("b", table_a)
            }),
            table_a._annotate({
                "orm": True,
                "parententity": MyEntity("b", select([table_a]))
            }),
        ),
        lambda: (
            table("a", column("x"), column("y")),
            table("a", column("x"), column("y"))._annotate({"orm": True}),
            table("b", column("x"), column("y"))._annotate({"orm": True}),
        ),
        lambda: (
            cast(column("q"), Integer),
            cast(column("q"), Float),
            cast(column("p"), Integer),
        ),
        lambda: (
            bindparam("x"),
            bindparam("y"),
            bindparam("x", type_=Integer),
            bindparam("x", type_=String),
            bindparam(None),
        ),
        lambda: (_OffsetLimitParam("x"), _OffsetLimitParam("y")),
        lambda: (func.foo(), func.foo(5), func.bar()),
        lambda: (func.current_date(), func.current_time()),
        lambda: (
            func.next_value(Sequence("q")),
            func.next_value(Sequence("p")),
        ),
        lambda: (True_(), False_()),
        lambda: (Null(), ),
        lambda: (ReturnTypeFromArgs("foo"), ReturnTypeFromArgs(5)),
        lambda: (FunctionElement(5), FunctionElement(5, 6)),
        lambda: (func.count(), func.not_count()),
        lambda: (func.char_length("abc"), func.char_length("def")),
        lambda: (GenericFunction("a", "b"), GenericFunction("a")),
        lambda: (CollationClause("foobar"), CollationClause("batbar")),
        lambda: (
            type_coerce(column("q", Integer), String),
            type_coerce(column("q", Integer), Float),
            type_coerce(column("z", Integer), Float),
        ),
        lambda: (table_a.c.a, table_b.c.a),
        lambda: (tuple_(1, 2), tuple_(3, 4)),
        lambda: (func.array_agg([1, 2]), func.array_agg([3, 4])),
        lambda: (
            func.percentile_cont(0.5).within_group(table_a.c.a),
            func.percentile_cont(0.5).within_group(table_a.c.b),
            func.percentile_cont(0.5).within_group(table_a.c.a, table_a.c.b),
            func.percentile_cont(0.5).within_group(table_a.c.a, table_a.c.b,
                                                   column("q")),
        ),
        lambda: (
            func.is_equal("a", "b").as_comparison(1, 2),
            func.is_equal("a", "c").as_comparison(1, 2),
            func.is_equal("a", "b").as_comparison(2, 1),
            func.is_equal("a", "b", "c").as_comparison(1, 2),
            func.foobar("a", "b").as_comparison(1, 2),
        ),
        lambda: (
            func.row_number().over(order_by=table_a.c.a),
            func.row_number().over(order_by=table_a.c.a, range_=(0, 10)),
            func.row_number().over(order_by=table_a.c.a, range_=(None, 10)),
            func.row_number().over(order_by=table_a.c.a, rows=(None, 20)),
            func.row_number().over(order_by=table_a.c.b),
            func.row_number().over(order_by=table_a.c.a,
                                   partition_by=table_a.c.b),
        ),
        lambda: (
            func.count(1).filter(table_a.c.a == 5),
            func.count(1).filter(table_a.c.a == 10),
            func.foob(1).filter(table_a.c.a == 10),
        ),
        lambda: (
            and_(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            and_(table_a.c.a == 5, table_a.c.a == table_b.c.a),
            or_(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            ClauseList(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            ClauseList(table_a.c.a == 5, table_a.c.b == table_a.c.a),
        ),
        lambda: (
            case(whens=[(table_a.c.a == 5, 10), (table_a.c.a == 10, 20)]),
            case(whens=[(table_a.c.a == 18, 10), (table_a.c.a == 10, 20)]),
            case(whens=[(table_a.c.a == 5, 10), (table_a.c.b == 10, 20)]),
            case(whens=[
                (table_a.c.a == 5, 10),
                (table_a.c.b == 10, 20),
                (table_a.c.a == 9, 12),
            ]),
            case(
                whens=[(table_a.c.a == 5, 10), (table_a.c.a == 10, 20)],
                else_=30,
            ),
            case({
                "wendy": "W",
                "jack": "J"
            }, value=table_a.c.a, else_="E"),
            case({
                "wendy": "W",
                "jack": "J"
            }, value=table_a.c.b, else_="E"),
            case({
                "wendy_w": "W",
                "jack": "J"
            }, value=table_a.c.a, else_="E"),
        ),
        lambda: (
            extract("foo", table_a.c.a),
            extract("foo", table_a.c.b),
            extract("bar", table_a.c.a),
        ),
        lambda: (
            Slice(1, 2, 5),
            Slice(1, 5, 5),
            Slice(1, 5, 10),
            Slice(2, 10, 15),
        ),
        lambda: (
            select([table_a.c.a]),
            select([table_a.c.a, table_a.c.b]),
            select([table_a.c.b, table_a.c.a]),
            select([table_a.c.b, table_a.c.a]).apply_labels(),
            select([table_a.c.a]).where(table_a.c.b == 5),
            select([table_a.c.a]).where(table_a.c.b == 5).where(table_a.c.a ==
                                                                10),
            select([table_a.c.a]).where(table_a.c.b == 5).with_for_update(),
            select([table_a.c.a]).where(table_a.c.b == 5).with_for_update(
                nowait=True),
            select([table_a.c.a]).where(table_a.c.b == 5).correlate(table_b),
            select([table_a.c.a]).where(table_a.c.b == 5).correlate_except(
                table_b),
        ),
        lambda: (
            future_select(table_a.c.a),
            future_select(table_a.c.a).join(table_b, table_a.c.a == table_b.c.a
                                            ),
            future_select(table_a.c.a).join_from(table_a, table_b, table_a.c.a
                                                 == table_b.c.a),
            future_select(table_a.c.a).join_from(table_a, table_b),
            future_select(table_a.c.a).join_from(table_c, table_b),
            future_select(table_a.c.a).join(
                table_b, table_a.c.a == table_b.c.a).join(
                    table_c, table_b.c.b == table_c.c.x),
            future_select(table_a.c.a).join(table_b),
            future_select(table_a.c.a).join(table_c),
            future_select(table_a.c.a).join(table_b, table_a.c.a == table_b.c.b
                                            ),
            future_select(table_a.c.a).join(table_c, table_a.c.a == table_c.c.x
                                            ),
        ),
        lambda: (
            select([table_a.c.a]).cte(),
            select([table_a.c.a]).cte(recursive=True),
            select([table_a.c.a]).cte(name="some_cte", recursive=True),
            select([table_a.c.a]).cte(name="some_cte"),
            select([table_a.c.a]).cte(name="some_cte").alias("other_cte"),
            select([table_a.c.a]).cte(name="some_cte").union_all(
                select([table_a.c.a])),
            select([table_a.c.a]).cte(name="some_cte").union_all(
                select([table_a.c.b])),
            select([table_a.c.a]).lateral(),
            select([table_a.c.a]).lateral(name="bar"),
            table_a.tablesample(func.bernoulli(1)),
            table_a.tablesample(func.bernoulli(1), seed=func.random()),
            table_a.tablesample(func.bernoulli(1), seed=func.other_random()),
            table_a.tablesample(func.hoho(1)),
            table_a.tablesample(func.bernoulli(1), name="bar"),
            table_a.tablesample(
                func.bernoulli(1), name="bar", seed=func.random()),
        ),
        lambda: (
            table_a.insert(),
            table_a.insert().values({})._annotate({"nocache": True}),
            table_b.insert(),
            table_b.insert().with_dialect_options(sqlite_foo="some value"),
            table_b.insert().from_select(["a", "b"], select([table_a])),
            table_b.insert().from_select(["a", "b"],
                                         select([table_a]).where(table_a.c.a >
                                                                 5)),
            table_b.insert().from_select(["a", "b"], select([table_b])),
            table_b.insert().from_select(["c", "d"], select([table_a])),
            table_b.insert().returning(table_b.c.a),
            table_b.insert().returning(table_b.c.a, table_b.c.b),
            table_b.insert().inline(),
            table_b.insert().prefix_with("foo"),
            table_b.insert().with_hint("RUNFAST"),
            table_b.insert().values(a=5, b=10),
            table_b.insert().values(a=5),
            table_b.insert().values({
                table_b.c.a: 5,
                "b": 10
            })._annotate({"nocache": True}),
            table_b.insert().values(a=7, b=10),
            table_b.insert().values(a=5, b=10).inline(),
            table_b.insert().values([{
                "a": 5,
                "b": 10
            }, {
                "a": 8,
                "b": 12
            }])._annotate({"nocache": True}),
            table_b.insert().values([{
                "a": 9,
                "b": 10
            }, {
                "a": 8,
                "b": 7
            }])._annotate({"nocache": True}),
            table_b.insert().values([(5, 10),
                                     (8, 12)])._annotate({"nocache": True}),
            table_b.insert().values([(5, 9),
                                     (5, 12)])._annotate({"nocache": True}),
        ),
        lambda: (
            table_b.update(),
            table_b.update().where(table_b.c.a == 5),
            table_b.update().where(table_b.c.b == 5),
            table_b.update().where(table_b.c.b == 5).with_dialect_options(
                mysql_limit=10),
            table_b.update().where(table_b.c.b == 5).with_dialect_options(
                mysql_limit=10, sqlite_foo="some value"),
            table_b.update().where(table_b.c.a == 5).values(a=5, b=10),
            table_b.update().where(table_b.c.a == 5).values(a=5, b=10, c=12),
            table_b.update().where(table_b.c.b == 5).values(a=5, b=10).
            _annotate({"nocache": True}),
            table_b.update().values(a=5, b=10),
            table_b.update().values({
                "a": 5,
                table_b.c.b: 10
            })._annotate({"nocache": True}),
            table_b.update().values(a=7, b=10),
            table_b.update().ordered_values(("a", 5), ("b", 10)),
            table_b.update().ordered_values(("b", 10), ("a", 5)),
            table_b.update().ordered_values((table_b.c.a, 5), ("b", 10)),
        ),
        lambda: (
            table_b.delete(),
            table_b.delete().with_dialect_options(sqlite_foo="some value"),
            table_b.delete().where(table_b.c.a == 5),
            table_b.delete().where(table_b.c.b == 5),
        ),
        lambda: (
            values(
                column("mykey", Integer),
                column("mytext", String),
                column("myint", Integer),
                name="myvalues",
            ).data([(1, "textA", 99),
                    (2, "textB", 88)])._annotate({"nocache": True}),
            values(
                column("mykey", Integer),
                column("mytext", String),
                column("myint", Integer),
                name="myothervalues",
            ).data([(1, "textA", 99),
                    (2, "textB", 88)])._annotate({"nocache": True}),
            values(
                column("mykey", Integer),
                column("mytext", String),
                column("myint", Integer),
                name="myvalues",
            ).data([(1, "textA", 89),
                    (2, "textG", 88)])._annotate({"nocache": True}),
            values(
                column("mykey", Integer),
                column("mynottext", String),
                column("myint", Integer),
                name="myvalues",
            ).data([(1, "textA", 99),
                    (2, "textB", 88)])._annotate({"nocache": True}),
            # TODO: difference in type
            # values(
            #    [
            #        column("mykey", Integer),
            #        column("mytext", Text),
            #        column("myint", Integer),
            #    ],
            #    (1, "textA", 99),
            #    (2, "textB", 88),
            #    alias_name="myvalues",
            # ),
        ),
        lambda: (
            select([table_a.c.a]),
            select([table_a.c.a]).prefix_with("foo"),
            select([table_a.c.a]).prefix_with("foo", dialect="mysql"),
            select([table_a.c.a]).prefix_with("foo", dialect="postgresql"),
            select([table_a.c.a]).prefix_with("bar"),
            select([table_a.c.a]).suffix_with("bar"),
        ),
        lambda: (
            select([table_a_2.c.a]),
            select([table_a_2_fs.c.a]),
            select([table_a_2_bs.c.a]),
        ),
        lambda: (
            select([table_a.c.a]),
            select([table_a.c.a]).with_hint(None, "some hint"),
            select([table_a.c.a]).with_hint(None, "some other hint"),
            select([table_a.c.a]).with_hint(table_a, "some hint"),
            select([table_a.c.a]).with_hint(table_a, "some hint").with_hint(
                None, "some other hint"),
            select([table_a.c.a]).with_hint(table_a, "some other hint"),
            select([table_a.c.a]).with_hint(
                table_a, "some hint", dialect_name="mysql"),
            select([table_a.c.a]).with_hint(
                table_a, "some hint", dialect_name="postgresql"),
        ),
        lambda: (
            table_a.join(table_b, table_a.c.a == table_b.c.a),
            table_a.join(table_b,
                         and_(table_a.c.a == table_b.c.a, table_a.c.b == 1)),
            table_a.outerjoin(table_b, table_a.c.a == table_b.c.a),
        ),
        lambda: (
            table_a.alias("a"),
            table_a.alias("b"),
            table_a.alias(),
            table_b.alias("a"),
            select([table_a.c.a]).alias("a"),
        ),
        lambda: (
            FromGrouping(table_a.alias("a")),
            FromGrouping(table_a.alias("b")),
        ),
        lambda: (
            SelectStatementGrouping(select([table_a])),
            SelectStatementGrouping(select([table_b])),
        ),
        lambda: (
            select([table_a.c.a]).scalar_subquery(),
            select([table_a.c.a]).where(table_a.c.b == 5).scalar_subquery(),
        ),
        lambda: (
            exists().where(table_a.c.a == 5),
            exists().where(table_a.c.b == 5),
        ),
        lambda: (
            union(select([table_a.c.a]), select([table_a.c.b])),
            union(select([table_a.c.a]), select([table_a.c.b])).order_by("a"),
            union_all(select([table_a.c.a]), select([table_a.c.b])),
            union(select([table_a.c.a])),
            union(
                select([table_a.c.a]),
                select([table_a.c.b]).where(table_a.c.b > 5),
            ),
        ),
        lambda: (
            table("a", column("x"), column("y")),
            table("a", column("y"), column("x")),
            table("b", column("x"), column("y")),
            table("a", column("x"), column("y"), column("z")),
            table("a", column("x"), column("y", Integer)),
            table("a", column("q"), column("y", Integer)),
        ),
        lambda: (table_a, table_b),
    ]

    dont_compare_values_fixtures = [
        lambda: (
            # note the in_(...) all have different column names becuase
            # otherwise all IN expressions would compare as equivalent
            column("x").in_(random_choices(range(10), k=3)),
            column("y").in_(
                bindparam(
                    "q",
                    random_choices(range(10), k=random.randint(0, 7)),
                    expanding=True,
                )),
            column("z").in_(random_choices(range(10), k=random.randint(0, 7))),
            column("x") == random.randint(1, 10),
        )
    ]

    def _complex_fixtures():
        def one():
            a1 = table_a.alias()
            a2 = table_b_like_a.alias()

            stmt = (select([table_a.c.a, a1.c.b,
                            a2.c.b]).where(table_a.c.b == a1.c.b).where(
                                a1.c.b == a2.c.b).where(a1.c.a == 5))

            return stmt

        def one_diff():
            a1 = table_b_like_a.alias()
            a2 = table_a.alias()

            stmt = (select([table_a.c.a, a1.c.b,
                            a2.c.b]).where(table_a.c.b == a1.c.b).where(
                                a1.c.b == a2.c.b).where(a1.c.a == 5))

            return stmt

        def two():
            inner = one().subquery()

            stmt = select([table_b.c.a, inner.c.a, inner.c.b]).select_from(
                table_b.join(inner, table_b.c.b == inner.c.b))

            return stmt

        def three():

            a1 = table_a.alias()
            a2 = table_a.alias()
            ex = exists().where(table_b.c.b == a1.c.a)

            stmt = (select([a1.c.a, a2.c.a]).select_from(
                a1.join(a2, a1.c.b == a2.c.b)).where(ex))
            return stmt

        return [one(), one_diff(), two(), three()]

    fixtures.append(_complex_fixtures)

    def _statements_w_context_options_fixtures():

        return [
            select([table_a])._add_context_option(opt1, True),
            select([table_a])._add_context_option(opt1, 5),
            select([table_a])._add_context_option(opt1,
                                                  True)._add_context_option(
                                                      opt2, True),
            select([table_a
                    ])._add_context_option(opt1,
                                           True)._add_context_option(opt2, 5),
            select([table_a])._add_context_option(opt3, True),
        ]

    fixtures.append(_statements_w_context_options_fixtures)

    def _statements_w_anonymous_col_names():
        def one():
            c = column("q")

            l = c.label(None)

            # new case as of Id810f485c5f7ed971529489b84694e02a3356d6d
            subq = select([l]).subquery()

            # this creates a ColumnClause as a proxy to the Label() that has
            # an anoymous name, so the column has one too.
            anon_col = subq.c[0]

            # then when BindParameter is created, it checks the label
            # and doesn't double up on the anonymous name which is uncachable
            return anon_col > 5

        def two():
            c = column("p")

            l = c.label(None)

            # new case as of Id810f485c5f7ed971529489b84694e02a3356d6d
            subq = select([l]).subquery()

            # this creates a ColumnClause as a proxy to the Label() that has
            # an anoymous name, so the column has one too.
            anon_col = subq.c[0]

            # then when BindParameter is created, it checks the label
            # and doesn't double up on the anonymous name which is uncachable
            return anon_col > 5

        def three():

            l1, l2 = table_a.c.a.label(None), table_a.c.b.label(None)

            stmt = select([table_a.c.a, table_a.c.b, l1, l2])

            subq = stmt.subquery()
            return select([subq]).where(subq.c[2] == 10)

        return (
            one(),
            two(),
            three(),
        )

    fixtures.append(_statements_w_anonymous_col_names)
예제 #4
0
class CoreFixtures(object):
    # lambdas which return a tuple of ColumnElement objects.
    # must return at least two objects that should compare differently.
    # to test more varieties of "difference" additional objects can be added.
    fixtures = [
        lambda: (
            column("q"),
            column("x"),
            column("q", Integer),
            column("q", String),
        ),
        lambda: (~column("q", Boolean), ~column("p", Boolean)),
        lambda: (
            table_a.c.a.label("foo"),
            table_a.c.a.label("bar"),
            table_a.c.b.label("foo"),
        ),
        lambda: (
            _label_reference(table_a.c.a.desc()),
            _label_reference(table_a.c.a.asc()),
        ),
        lambda: (_textual_label_reference("a"), _textual_label_reference("b")),
        lambda: (
            text("select a, b from table").columns(a=Integer, b=String),
            text("select a, b, c from table").columns(
                a=Integer, b=String, c=Integer
            ),
            text("select a, b, c from table where foo=:bar").bindparams(
                bindparam("bar", type_=Integer)
            ),
            text("select a, b, c from table where foo=:foo").bindparams(
                bindparam("foo", type_=Integer)
            ),
            text("select a, b, c from table where foo=:bar").bindparams(
                bindparam("bar", type_=String)
            ),
        ),
        lambda: (
            column("q") == column("x"),
            column("q") == column("y"),
            column("z") == column("x"),
            column("z") + column("x"),
            column("z") - column("x"),
            column("x") - column("z"),
            column("z") > column("x"),
            column("x").in_([5, 7]),
            column("x").in_([10, 7, 8]),
            # note these two are mathematically equivalent but for now they
            # are considered to be different
            column("z") >= column("x"),
            column("x") <= column("z"),
            column("q").between(5, 6),
            column("q").between(5, 6, symmetric=True),
            column("q").like("somstr"),
            column("q").like("somstr", escape="\\"),
            column("q").like("somstr", escape="X"),
        ),
        lambda: (
            table_a.c.a,
            table_a.c.a._annotate({"orm": True}),
            table_a.c.a._annotate({"orm": True})._annotate({"bar": False}),
            table_a.c.a._annotate(
                {"orm": True, "parententity": MyEntity("a", table_a)}
            ),
            table_a.c.a._annotate(
                {"orm": True, "parententity": MyEntity("b", table_a)}
            ),
            table_a.c.a._annotate(
                {"orm": True, "parententity": MyEntity("b", select([table_a]))}
            ),
        ),
        lambda: (
            cast(column("q"), Integer),
            cast(column("q"), Float),
            cast(column("p"), Integer),
        ),
        lambda: (
            bindparam("x"),
            bindparam("y"),
            bindparam("x", type_=Integer),
            bindparam("x", type_=String),
            bindparam(None),
        ),
        lambda: (_OffsetLimitParam("x"), _OffsetLimitParam("y")),
        lambda: (func.foo(), func.foo(5), func.bar()),
        lambda: (func.current_date(), func.current_time()),
        lambda: (
            func.next_value(Sequence("q")),
            func.next_value(Sequence("p")),
        ),
        lambda: (True_(), False_()),
        lambda: (Null(),),
        lambda: (ReturnTypeFromArgs("foo"), ReturnTypeFromArgs(5)),
        lambda: (FunctionElement(5), FunctionElement(5, 6)),
        lambda: (func.count(), func.not_count()),
        lambda: (func.char_length("abc"), func.char_length("def")),
        lambda: (GenericFunction("a", "b"), GenericFunction("a")),
        lambda: (CollationClause("foobar"), CollationClause("batbar")),
        lambda: (
            type_coerce(column("q", Integer), String),
            type_coerce(column("q", Integer), Float),
            type_coerce(column("z", Integer), Float),
        ),
        lambda: (table_a.c.a, table_b.c.a),
        lambda: (tuple_(1, 2), tuple_(3, 4)),
        lambda: (func.array_agg([1, 2]), func.array_agg([3, 4])),
        lambda: (
            func.percentile_cont(0.5).within_group(table_a.c.a),
            func.percentile_cont(0.5).within_group(table_a.c.b),
            func.percentile_cont(0.5).within_group(table_a.c.a, table_a.c.b),
            func.percentile_cont(0.5).within_group(
                table_a.c.a, table_a.c.b, column("q")
            ),
        ),
        lambda: (
            func.is_equal("a", "b").as_comparison(1, 2),
            func.is_equal("a", "c").as_comparison(1, 2),
            func.is_equal("a", "b").as_comparison(2, 1),
            func.is_equal("a", "b", "c").as_comparison(1, 2),
            func.foobar("a", "b").as_comparison(1, 2),
        ),
        lambda: (
            func.row_number().over(order_by=table_a.c.a),
            func.row_number().over(order_by=table_a.c.a, range_=(0, 10)),
            func.row_number().over(order_by=table_a.c.a, range_=(None, 10)),
            func.row_number().over(order_by=table_a.c.a, rows=(None, 20)),
            func.row_number().over(order_by=table_a.c.b),
            func.row_number().over(
                order_by=table_a.c.a, partition_by=table_a.c.b
            ),
        ),
        lambda: (
            func.count(1).filter(table_a.c.a == 5),
            func.count(1).filter(table_a.c.a == 10),
            func.foob(1).filter(table_a.c.a == 10),
        ),
        lambda: (
            and_(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            and_(table_a.c.a == 5, table_a.c.a == table_b.c.a),
            or_(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            ClauseList(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            ClauseList(table_a.c.a == 5, table_a.c.b == table_a.c.a),
        ),
        lambda: (
            case(whens=[(table_a.c.a == 5, 10), (table_a.c.a == 10, 20)]),
            case(whens=[(table_a.c.a == 18, 10), (table_a.c.a == 10, 20)]),
            case(whens=[(table_a.c.a == 5, 10), (table_a.c.b == 10, 20)]),
            case(
                whens=[
                    (table_a.c.a == 5, 10),
                    (table_a.c.b == 10, 20),
                    (table_a.c.a == 9, 12),
                ]
            ),
            case(
                whens=[(table_a.c.a == 5, 10), (table_a.c.a == 10, 20)],
                else_=30,
            ),
            case({"wendy": "W", "jack": "J"}, value=table_a.c.a, else_="E"),
            case({"wendy": "W", "jack": "J"}, value=table_a.c.b, else_="E"),
            case({"wendy_w": "W", "jack": "J"}, value=table_a.c.a, else_="E"),
        ),
        lambda: (
            extract("foo", table_a.c.a),
            extract("foo", table_a.c.b),
            extract("bar", table_a.c.a),
        ),
        lambda: (
            Slice(1, 2, 5),
            Slice(1, 5, 5),
            Slice(1, 5, 10),
            Slice(2, 10, 15),
        ),
        lambda: (
            select([table_a.c.a]),
            select([table_a.c.a, table_a.c.b]),
            select([table_a.c.b, table_a.c.a]),
            select([table_a.c.a]).where(table_a.c.b == 5),
            select([table_a.c.a])
            .where(table_a.c.b == 5)
            .where(table_a.c.a == 10),
            select([table_a.c.a]).where(table_a.c.b == 5).with_for_update(),
            select([table_a.c.a])
            .where(table_a.c.b == 5)
            .with_for_update(nowait=True),
            select([table_a.c.a]).where(table_a.c.b == 5).correlate(table_b),
            select([table_a.c.a])
            .where(table_a.c.b == 5)
            .correlate_except(table_b),
        ),
        lambda: (
            select([table_a.c.a]).cte(),
            select([table_a.c.a]).cte(recursive=True),
            select([table_a.c.a]).cte(name="some_cte", recursive=True),
            select([table_a.c.a]).cte(name="some_cte"),
            select([table_a.c.a]).cte(name="some_cte").alias("other_cte"),
            select([table_a.c.a])
            .cte(name="some_cte")
            .union_all(select([table_a.c.a])),
            select([table_a.c.a])
            .cte(name="some_cte")
            .union_all(select([table_a.c.b])),
            select([table_a.c.a]).lateral(),
            select([table_a.c.a]).lateral(name="bar"),
            table_a.tablesample(func.bernoulli(1)),
            table_a.tablesample(func.bernoulli(1), seed=func.random()),
            table_a.tablesample(func.bernoulli(1), seed=func.other_random()),
            table_a.tablesample(func.hoho(1)),
            table_a.tablesample(func.bernoulli(1), name="bar"),
            table_a.tablesample(
                func.bernoulli(1), name="bar", seed=func.random()
            ),
        ),
        lambda: (
            select([table_a.c.a]),
            select([table_a.c.a]).prefix_with("foo"),
            select([table_a.c.a]).prefix_with("foo", dialect="mysql"),
            select([table_a.c.a]).prefix_with("foo", dialect="postgresql"),
            select([table_a.c.a]).prefix_with("bar"),
            select([table_a.c.a]).suffix_with("bar"),
        ),
        lambda: (
            select([table_a_2.c.a]),
            select([table_a_2_fs.c.a]),
            select([table_a_2_bs.c.a]),
        ),
        lambda: (
            select([table_a.c.a]),
            select([table_a.c.a]).with_hint(None, "some hint"),
            select([table_a.c.a]).with_hint(None, "some other hint"),
            select([table_a.c.a]).with_hint(table_a, "some hint"),
            select([table_a.c.a])
            .with_hint(table_a, "some hint")
            .with_hint(None, "some other hint"),
            select([table_a.c.a]).with_hint(table_a, "some other hint"),
            select([table_a.c.a]).with_hint(
                table_a, "some hint", dialect_name="mysql"
            ),
            select([table_a.c.a]).with_hint(
                table_a, "some hint", dialect_name="postgresql"
            ),
        ),
        lambda: (
            table_a.join(table_b, table_a.c.a == table_b.c.a),
            table_a.join(
                table_b, and_(table_a.c.a == table_b.c.a, table_a.c.b == 1)
            ),
            table_a.outerjoin(table_b, table_a.c.a == table_b.c.a),
        ),
        lambda: (
            table_a.alias("a"),
            table_a.alias("b"),
            table_a.alias(),
            table_b.alias("a"),
            select([table_a.c.a]).alias("a"),
        ),
        lambda: (
            FromGrouping(table_a.alias("a")),
            FromGrouping(table_a.alias("b")),
        ),
        lambda: (
            SelectStatementGrouping(select([table_a])),
            SelectStatementGrouping(select([table_b])),
        ),
        lambda: (
            select([table_a.c.a]).scalar_subquery(),
            select([table_a.c.a]).where(table_a.c.b == 5).scalar_subquery(),
        ),
        lambda: (
            exists().where(table_a.c.a == 5),
            exists().where(table_a.c.b == 5),
        ),
        lambda: (
            union(select([table_a.c.a]), select([table_a.c.b])),
            union(select([table_a.c.a]), select([table_a.c.b])).order_by("a"),
            union_all(select([table_a.c.a]), select([table_a.c.b])),
            union(select([table_a.c.a])),
            union(
                select([table_a.c.a]),
                select([table_a.c.b]).where(table_a.c.b > 5),
            ),
        ),
        lambda: (
            table("a", column("x"), column("y")),
            table("a", column("y"), column("x")),
            table("b", column("x"), column("y")),
            table("a", column("x"), column("y"), column("z")),
            table("a", column("x"), column("y", Integer)),
            table("a", column("q"), column("y", Integer)),
        ),
        lambda: (table_a, table_b),
    ]

    dont_compare_values_fixtures = [
        lambda: (
            # note the in_(...) all have different column names becuase
            # otherwise all IN expressions would compare as equivalent
            column("x").in_(random_choices(range(10), k=3)),
            column("y").in_(
                bindparam(
                    "q",
                    random_choices(range(10), k=random.randint(0, 7)),
                    expanding=True,
                )
            ),
            column("z").in_(random_choices(range(10), k=random.randint(0, 7))),
            column("x") == random.randint(1, 10),
        )
    ]

    def _complex_fixtures():
        def one():
            a1 = table_a.alias()
            a2 = table_b_like_a.alias()

            stmt = (
                select([table_a.c.a, a1.c.b, a2.c.b])
                .where(table_a.c.b == a1.c.b)
                .where(a1.c.b == a2.c.b)
                .where(a1.c.a == 5)
            )

            return stmt

        def one_diff():
            a1 = table_b_like_a.alias()
            a2 = table_a.alias()

            stmt = (
                select([table_a.c.a, a1.c.b, a2.c.b])
                .where(table_a.c.b == a1.c.b)
                .where(a1.c.b == a2.c.b)
                .where(a1.c.a == 5)
            )

            return stmt

        def two():
            inner = one().subquery()

            stmt = select([table_b.c.a, inner.c.a, inner.c.b]).select_from(
                table_b.join(inner, table_b.c.b == inner.c.b)
            )

            return stmt

        def three():

            a1 = table_a.alias()
            a2 = table_a.alias()
            ex = exists().where(table_b.c.b == a1.c.a)

            stmt = (
                select([a1.c.a, a2.c.a])
                .select_from(a1.join(a2, a1.c.b == a2.c.b))
                .where(ex)
            )
            return stmt

        return [one(), one_diff(), two(), three()]

    fixtures.append(_complex_fixtures)
예제 #5
0
class CompareAndCopyTest(fixtures.TestBase):

    # lambdas which return a tuple of ColumnElement objects.
    # must return at least two objects that should compare differently.
    # to test more varieties of "difference" additional objects can be added.
    fixtures = [
        lambda: (
            column("q"),
            column("x"),
            column("q", Integer),
            column("q", String),
        ),
        lambda: (~column("q", Boolean), ~column("p", Boolean)),
        lambda: (
            table_a.c.a.label("foo"),
            table_a.c.a.label("bar"),
            table_a.c.b.label("foo"),
        ),
        lambda: (
            _label_reference(table_a.c.a.desc()),
            _label_reference(table_a.c.a.asc()),
        ),
        lambda: (_textual_label_reference("a"), _textual_label_reference("b")),
        lambda: (
            text("select a, b from table").columns(a=Integer, b=String),
            text("select a, b, c from table").columns(
                a=Integer, b=String, c=Integer),
        ),
        lambda: (
            column("q") == column("x"),
            column("q") == column("y"),
            column("z") == column("x"),
        ),
        lambda: (
            cast(column("q"), Integer),
            cast(column("q"), Float),
            cast(column("p"), Integer),
        ),
        lambda: (
            bindparam("x"),
            bindparam("y"),
            bindparam("x", type_=Integer),
            bindparam("x", type_=String),
            bindparam(None),
        ),
        lambda: (_OffsetLimitParam("x"), _OffsetLimitParam("y")),
        lambda: (func.foo(), func.foo(5), func.bar()),
        lambda: (func.current_date(), func.current_time()),
        lambda: (
            func.next_value(Sequence("q")),
            func.next_value(Sequence("p")),
        ),
        lambda: (True_(), False_()),
        lambda: (Null(), ),
        lambda: (ReturnTypeFromArgs("foo"), ReturnTypeFromArgs(5)),
        lambda: (FunctionElement(5), FunctionElement(5, 6)),
        lambda: (func.count(), func.not_count()),
        lambda: (func.char_length("abc"), func.char_length("def")),
        lambda: (GenericFunction("a", "b"), GenericFunction("a")),
        lambda: (CollationClause("foobar"), CollationClause("batbar")),
        lambda: (
            type_coerce(column("q", Integer), String),
            type_coerce(column("q", Integer), Float),
            type_coerce(column("z", Integer), Float),
        ),
        lambda: (table_a.c.a, table_b.c.a),
        lambda: (tuple_([1, 2]), tuple_([3, 4])),
        lambda: (func.array_agg([1, 2]), func.array_agg([3, 4])),
        lambda: (
            func.percentile_cont(0.5).within_group(table_a.c.a),
            func.percentile_cont(0.5).within_group(table_a.c.b),
            func.percentile_cont(0.5).within_group(table_a.c.a, table_a.c.b),
            func.percentile_cont(0.5).within_group(table_a.c.a, table_a.c.b,
                                                   column("q")),
        ),
        lambda: (
            func.is_equal("a", "b").as_comparison(1, 2),
            func.is_equal("a", "c").as_comparison(1, 2),
            func.is_equal("a", "b").as_comparison(2, 1),
            func.is_equal("a", "b", "c").as_comparison(1, 2),
            func.foobar("a", "b").as_comparison(1, 2),
        ),
        lambda: (
            func.row_number().over(order_by=table_a.c.a),
            func.row_number().over(order_by=table_a.c.a, range_=(0, 10)),
            func.row_number().over(order_by=table_a.c.a, range_=(None, 10)),
            func.row_number().over(order_by=table_a.c.a, rows=(None, 20)),
            func.row_number().over(order_by=table_a.c.b),
            func.row_number().over(order_by=table_a.c.a,
                                   partition_by=table_a.c.b),
        ),
        lambda: (
            func.count(1).filter(table_a.c.a == 5),
            func.count(1).filter(table_a.c.a == 10),
            func.foob(1).filter(table_a.c.a == 10),
        ),
        lambda: (
            and_(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            and_(table_a.c.a == 5, table_a.c.a == table_b.c.a),
            or_(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            ClauseList(table_a.c.a == 5, table_a.c.b == table_b.c.a),
            ClauseList(table_a.c.a == 5, table_a.c.b == table_a.c.a),
        ),
        lambda: (
            case(whens=[(table_a.c.a == 5, 10), (table_a.c.a == 10, 20)]),
            case(whens=[(table_a.c.a == 18, 10), (table_a.c.a == 10, 20)]),
            case(whens=[(table_a.c.a == 5, 10), (table_a.c.b == 10, 20)]),
            case(whens=[
                (table_a.c.a == 5, 10),
                (table_a.c.b == 10, 20),
                (table_a.c.a == 9, 12),
            ]),
            case(
                whens=[(table_a.c.a == 5, 10), (table_a.c.a == 10, 20)],
                else_=30,
            ),
            case({
                "wendy": "W",
                "jack": "J"
            }, value=table_a.c.a, else_="E"),
            case({
                "wendy": "W",
                "jack": "J"
            }, value=table_a.c.b, else_="E"),
            case({
                "wendy_w": "W",
                "jack": "J"
            }, value=table_a.c.a, else_="E"),
        ),
        lambda: (
            extract("foo", table_a.c.a),
            extract("foo", table_a.c.b),
            extract("bar", table_a.c.a),
        ),
        lambda: (
            Slice(1, 2, 5),
            Slice(1, 5, 5),
            Slice(1, 5, 10),
            Slice(2, 10, 15),
        ),
        lambda: (
            select([table_a.c.a]),
            select([table_a.c.a, table_a.c.b]),
            select([table_a.c.b, table_a.c.a]),
            select([table_a.c.a]).where(table_a.c.b == 5),
            select([table_a.c.a]).where(table_a.c.b == 5).where(table_a.c.a ==
                                                                10),
            select([table_a.c.a]).where(table_a.c.b == 5).with_for_update(),
            select([table_a.c.a]).where(table_a.c.b == 5).with_for_update(
                nowait=True),
            select([table_a.c.a]).where(table_a.c.b == 5).correlate(table_b),
            select([table_a.c.a]).where(table_a.c.b == 5).correlate_except(
                table_b),
        ),
        lambda: (
            table_a.join(table_b, table_a.c.a == table_b.c.a),
            table_a.join(table_b,
                         and_(table_a.c.a == table_b.c.a, table_a.c.b == 1)),
            table_a.outerjoin(table_b, table_a.c.a == table_b.c.a),
        ),
        lambda: (
            table_a.alias("a"),
            table_a.alias("b"),
            table_a.alias(),
            table_b.alias("a"),
            select([table_a.c.a]).alias("a"),
        ),
        lambda: (
            FromGrouping(table_a.alias("a")),
            FromGrouping(table_a.alias("b")),
        ),
        lambda: (
            select([table_a.c.a]).as_scalar(),
            select([table_a.c.a]).where(table_a.c.b == 5).as_scalar(),
        ),
        lambda: (
            exists().where(table_a.c.a == 5),
            exists().where(table_a.c.b == 5),
        ),
        lambda: (
            union(select([table_a.c.a]), select([table_a.c.b])),
            union(select([table_a.c.a]), select([table_a.c.b])).order_by("a"),
            union_all(select([table_a.c.a]), select([table_a.c.b])),
            union(select([table_a.c.a])),
            union(
                select([table_a.c.a]),
                select([table_a.c.b]).where(table_a.c.b > 5),
            ),
        ),
        lambda: (
            table("a", column("x"), column("y")),
            table("a", column("y"), column("x")),
            table("b", column("x"), column("y")),
            table("a", column("x"), column("y"), column("z")),
            table("a", column("x"), column("y", Integer)),
            table("a", column("q"), column("y", Integer)),
        ),
        lambda: (
            Table("a", MetaData(), Column("q", Integer), Column("b", String)),
            Table("b", MetaData(), Column("q", Integer), Column("b", String)),
        ),
    ]

    @classmethod
    def setup_class(cls):
        # TODO: we need to get dialects here somehow, perhaps in test_suite?
        [
            importlib.import_module("sqlalchemy.dialects.%s" % d)
            for d in dialects.__all__ if not d.startswith("_")
        ]

    def test_all_present(self):
        need = set(
            cls for cls in class_hierarchy(ClauseElement)
            if issubclass(cls, (ColumnElement, Selectable)) and "__init__" in
            cls.__dict__ and not issubclass(cls, (Annotated))
            and "orm" not in cls.__module__ and "crud" not in cls.__module__
            and "dialects" not in cls.__module__  # TODO: dialects?
        ).difference({ColumnElement, UnaryExpression})
        for fixture in self.fixtures:
            case_a = fixture()
            for elem in case_a:
                for mro in type(elem).__mro__:
                    need.discard(mro)

        is_false(bool(need), "%d Remaining classes: %r" % (len(need), need))

    def test_compare(self):
        for fixture in self.fixtures:
            case_a = fixture()
            case_b = fixture()

            for a, b in itertools.combinations_with_replacement(
                    range(len(case_a)), 2):
                if a == b:
                    is_true(
                        case_a[a].compare(case_b[b],
                                          arbitrary_expression=True),
                        "%r != %r" % (case_a[a], case_b[b]),
                    )

                else:
                    is_false(
                        case_a[a].compare(case_b[b],
                                          arbitrary_expression=True),
                        "%r == %r" % (case_a[a], case_b[b]),
                    )

    def test_cache_key(self):
        def assert_params_append(assert_params):
            def append(param):
                if param._value_required_for_cache:
                    assert_params.append(param)
                else:
                    is_(param.value, None)

            return append

        for fixture in self.fixtures:
            case_a = fixture()
            case_b = fixture()

            for a, b in itertools.combinations_with_replacement(
                    range(len(case_a)), 2):

                assert_a_params = []
                assert_b_params = []

                visitors.traverse_depthfirst(
                    case_a[a],
                    {},
                    {"bindparam": assert_params_append(assert_a_params)},
                )
                visitors.traverse_depthfirst(
                    case_b[b],
                    {},
                    {"bindparam": assert_params_append(assert_b_params)},
                )
                if assert_a_params:
                    assert_raises_message(
                        NotImplementedError,
                        "bindparams collection argument required ",
                        case_a[a]._cache_key,
                    )
                if assert_b_params:
                    assert_raises_message(
                        NotImplementedError,
                        "bindparams collection argument required ",
                        case_b[b]._cache_key,
                    )

                if not assert_a_params and not assert_b_params:
                    if a == b:
                        eq_(case_a[a]._cache_key(), case_b[b]._cache_key())
                    else:
                        ne_(case_a[a]._cache_key(), case_b[b]._cache_key())

    def test_cache_key_gather_bindparams(self):
        for fixture in self.fixtures:
            case_a = fixture()
            case_b = fixture()

            # in the "bindparams" case, the cache keys for bound parameters
            # with only different values will be the same, but the params
            # themselves are gathered into a collection.
            for a, b in itertools.combinations_with_replacement(
                    range(len(case_a)), 2):
                a_params = {"bindparams": []}
                b_params = {"bindparams": []}
                if a == b:
                    a_key = case_a[a]._cache_key(**a_params)
                    b_key = case_b[b]._cache_key(**b_params)
                    eq_(a_key, b_key)

                    if a_params["bindparams"]:
                        for a_param, b_param in zip(a_params["bindparams"],
                                                    b_params["bindparams"]):
                            assert a_param.compare(b_param)
                else:
                    a_key = case_a[a]._cache_key(**a_params)
                    b_key = case_b[b]._cache_key(**b_params)

                    if a_key == b_key:
                        for a_param, b_param in zip(a_params["bindparams"],
                                                    b_params["bindparams"]):
                            if not a_param.compare(b_param):
                                break
                        else:
                            assert False, "Bound parameters are all the same"
                    else:
                        ne_(a_key, b_key)

                assert_a_params = []
                assert_b_params = []
                visitors.traverse_depthfirst(
                    case_a[a], {}, {"bindparam": assert_a_params.append})
                visitors.traverse_depthfirst(
                    case_b[b], {}, {"bindparam": assert_b_params.append})

                # note we're asserting the order of the params as well as
                # if there are dupes or not.  ordering has to be deterministic
                # and matches what a traversal would provide.
                eq_(a_params["bindparams"], assert_a_params)
                eq_(b_params["bindparams"], assert_b_params)

    def test_compare_col_identity(self):
        stmt1 = (select([table_a.c.a, table_b.c.b
                         ]).where(table_a.c.a == table_b.c.b).alias())
        stmt1_c = (select([table_a.c.a, table_b.c.b
                           ]).where(table_a.c.a == table_b.c.b).alias())

        stmt2 = union(select([table_a]), select([table_b]))

        stmt3 = select([table_b])

        equivalents = {table_a.c.a: [table_b.c.a]}

        is_false(
            stmt1.compare(stmt2, use_proxies=True, equivalents=equivalents))

        is_true(
            stmt1.compare(stmt1_c, use_proxies=True, equivalents=equivalents))
        is_true((table_a.c.a == table_b.c.b).compare(
            stmt1.c.a == stmt1.c.b,
            use_proxies=True,
            equivalents=equivalents,
        ))

    def test_copy_internals(self):
        for fixture in self.fixtures:
            case_a = fixture()
            case_b = fixture()

            assert case_a[0].compare(case_b[0])

            clone = case_a[0]._clone()
            clone._copy_internals()

            assert clone.compare(case_b[0])

            stack = [clone]
            seen = {clone}
            found_elements = False
            while stack:
                obj = stack.pop(0)

                items = [
                    subelem for key, elem in clone.__dict__.items()
                    if key != "_is_clone_of" and elem is not None
                    for subelem in util.to_list(elem)
                    if (isinstance(subelem, (ColumnElement, ClauseList))
                        and subelem not in seen and not isinstance(
                            subelem, Immutable) and subelem is not case_a[0])
                ]
                stack.extend(items)
                seen.update(items)

                if obj is not clone:
                    found_elements = True
                    # ensure the element will not compare as true
                    obj.compare = lambda other, **kw: False
                    obj.__visit_name__ = "dont_match"

            if found_elements:
                assert not clone.compare(case_b[0])
            assert case_a[0].compare(case_b[0])