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sqlalchemy/test/sql/test_case_statement.py
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Mike Bayer f07e050c9c Implement new ClauseElement role and coercion system 
A major refactoring of all the functions handle all detection of
Core argument types as well as perform coercions into a new class hierarchy
based on "roles", each of which identify a syntactical location within a
SQL statement.  In contrast to the ClauseElement hierarchy that identifies
"what" each object is syntactically, the SQLRole hierarchy identifies
the "where does it go" of each object syntactically.   From this we define
a consistent type checking and coercion system that establishes well
defined behviors.

This is a breakout of the patch that is reorganizing select()
constructs to no longer be in the FromClause hierarchy.

Also includes a rename of as_scalar() into scalar_subquery(); deprecates
automatic coercion to scalar_subquery().

Partially-fixes: #4617
Change-Id: I26f1e78898693c6b99ef7ea2f4e7dfd0e8e1a1bd
2019-05-18 17:46:10 -04:00

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from sqlalchemy import and_
from sqlalchemy import case
from sqlalchemy import cast
from sqlalchemy import Column
from sqlalchemy import exc
from sqlalchemy import Integer
from sqlalchemy import literal_column
from sqlalchemy import MetaData
from sqlalchemy import select
from sqlalchemy import String
from sqlalchemy import Table
from sqlalchemy import testing
from sqlalchemy import text
from sqlalchemy.sql import column
from sqlalchemy.sql import table
from sqlalchemy.testing import assert_raises_message
from sqlalchemy.testing import AssertsCompiledSQL
from sqlalchemy.testing import eq_
from sqlalchemy.testing import fixtures
info_table = None
class CaseTest(fixtures.TestBase, AssertsCompiledSQL):
__dialect__ = "default"
@classmethod
def setup_class(cls):
metadata = MetaData(testing.db)
global info_table
info_table = Table(
"infos",
metadata,
Column("pk", Integer, primary_key=True),
Column("info", String(30)),
)
info_table.create()
info_table.insert().execute(
{"pk": 1, "info": "pk_1_data"},
{"pk": 2, "info": "pk_2_data"},
{"pk": 3, "info": "pk_3_data"},
{"pk": 4, "info": "pk_4_data"},
{"pk": 5, "info": "pk_5_data"},
{"pk": 6, "info": "pk_6_data"},
)
@classmethod
def teardown_class(cls):
info_table.drop()
@testing.fails_on("firebird", "FIXME: unknown")
@testing.requires.subqueries
def test_case(self):
inner = select(
[
case(
[
[info_table.c.pk < 3, "lessthan3"],
[
and_(info_table.c.pk >= 3, info_table.c.pk < 7),
"gt3",
],
]
).label("x"),
info_table.c.pk,
info_table.c.info,
],
from_obj=[info_table],
)
inner_result = inner.execute().fetchall()
# Outputs:
# lessthan3 1 pk_1_data
# lessthan3 2 pk_2_data
# gt3 3 pk_3_data
# gt3 4 pk_4_data
# gt3 5 pk_5_data
# gt3 6 pk_6_data
assert inner_result == [
("lessthan3", 1, "pk_1_data"),
("lessthan3", 2, "pk_2_data"),
("gt3", 3, "pk_3_data"),
("gt3", 4, "pk_4_data"),
("gt3", 5, "pk_5_data"),
("gt3", 6, "pk_6_data"),
]
outer = select([inner.alias("q_inner")])
outer_result = outer.execute().fetchall()
assert outer_result == [
("lessthan3", 1, "pk_1_data"),
("lessthan3", 2, "pk_2_data"),
("gt3", 3, "pk_3_data"),
("gt3", 4, "pk_4_data"),
("gt3", 5, "pk_5_data"),
("gt3", 6, "pk_6_data"),
]
w_else = select(
[
case(
[
[info_table.c.pk < 3, cast(3, Integer)],
[and_(info_table.c.pk >= 3, info_table.c.pk < 6), 6],
],
else_=0,
).label("x"),
info_table.c.pk,
info_table.c.info,
],
from_obj=[info_table],
)
else_result = w_else.execute().fetchall()
assert else_result == [
(3, 1, "pk_1_data"),
(3, 2, "pk_2_data"),
(6, 3, "pk_3_data"),
(6, 4, "pk_4_data"),
(6, 5, "pk_5_data"),
(0, 6, "pk_6_data"),
]
def test_literal_interpretation_ambiguous(self):
assert_raises_message(
exc.ArgumentError,
r"Column expression expected, got 'x'",
case,
[("x", "y")],
)
def test_literal_interpretation_ambiguous_tuple(self):
assert_raises_message(
exc.ArgumentError,
r"Column expression expected, got \('x', 'y'\)",
case,
[(("x", "y"), "z")],
)
def test_literal_interpretation(self):
t = table("test", column("col1"))
self.assert_compile(
case([("x", "y")], value=t.c.col1),
"CASE test.col1 WHEN :param_1 THEN :param_2 END",
)
self.assert_compile(
case([(t.c.col1 == 7, "y")], else_="z"),
"CASE WHEN (test.col1 = :col1_1) THEN :param_1 ELSE :param_2 END",
)
def test_text_doesnt_explode(self):
for s in [
select(
[
case(
[(info_table.c.info == "pk_4_data", text("'yes'"))],
else_=text("'no'"),
)
]
).order_by(info_table.c.info),
select(
[
case(
[
(
info_table.c.info == "pk_4_data",
literal_column("'yes'"),
)
],
else_=literal_column("'no'"),
)
]
).order_by(info_table.c.info),
]:
if testing.against("firebird"):
eq_(
s.execute().fetchall(),
[
("no ",),
("no ",),
("no ",),
("yes",),
("no ",),
("no ",),
],
)
else:
eq_(
s.execute().fetchall(),
[("no",), ("no",), ("no",), ("yes",), ("no",), ("no",)],
)
@testing.fails_on("firebird", "FIXME: unknown")
def testcase_with_dict(self):
query = select(
[
case(
{
info_table.c.pk < 3: "lessthan3",
info_table.c.pk >= 3: "gt3",
},
else_="other",
),
info_table.c.pk,
info_table.c.info,
],
from_obj=[info_table],
)
assert query.execute().fetchall() == [
("lessthan3", 1, "pk_1_data"),
("lessthan3", 2, "pk_2_data"),
("gt3", 3, "pk_3_data"),
("gt3", 4, "pk_4_data"),
("gt3", 5, "pk_5_data"),
("gt3", 6, "pk_6_data"),
]
simple_query = select(
[
case(
{1: "one", 2: "two"}, value=info_table.c.pk, else_="other"
),
info_table.c.pk,
],
whereclause=info_table.c.pk < 4,
from_obj=[info_table],
)
assert simple_query.execute().fetchall() == [
("one", 1),
("two", 2),
("other", 3),
]
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