/usr/lib/python2.7/dist-packages/twext/enterprise/dal/test/test_sqlsyntax.py is in calendarserver 5.2+dfsg-1.
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# Copyright (c) 2010-2014 Apple Inc. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
##
"""
Tests for L{twext.enterprise.dal.syntax}
"""
from twext.enterprise.dal import syntax
from twext.enterprise.dal.parseschema import addSQLToSchema
from twext.enterprise.dal.syntax import (
Select, Insert, Update, Delete, Lock, SQLFragment,
TableMismatch, Parameter, Max, Len, NotEnoughValues,
Savepoint, RollbackToSavepoint, ReleaseSavepoint, SavepointAction,
Union, Intersect, Except, SetExpression, DALError,
ResultAliasSyntax, Count, QueryGenerator, ALL_COLUMNS,
DatabaseLock, DatabaseUnlock)
from twext.enterprise.dal.syntax import FixedPlaceholder, NumericPlaceholder
from twext.enterprise.dal.syntax import Function
from twext.enterprise.dal.syntax import SchemaSyntax
from twext.enterprise.dal.test.test_parseschema import SchemaTestHelper
from twext.enterprise.ienterprise import (POSTGRES_DIALECT, ORACLE_DIALECT,
SQLITE_DIALECT)
from twext.enterprise.test.test_adbapi2 import ConnectionPoolHelper
from twext.enterprise.test.test_adbapi2 import NetworkedPoolHelper
from twext.enterprise.test.test_adbapi2 import resultOf, AssertResultHelper
from twisted.internet.defer import succeed
from twisted.trial.unittest import TestCase
from twext.enterprise.dal.syntax import Tuple
from twext.enterprise.dal.syntax import Constant
class _FakeTransaction(object):
"""
An L{IAsyncTransaction} that provides the relevant metadata for SQL
generation.
"""
def __init__(self, paramstyle):
self.paramstyle = 'qmark'
class FakeCXOracleModule(object):
NUMBER = 'the NUMBER type'
STRING = 'a string type (for varchars)'
NCLOB = 'the NCLOB type. (for text)'
TIMESTAMP = 'for timestamps!'
class CatchSQL(object):
"""
L{IAsyncTransaction} emulator that records the SQL executed on it.
"""
counter = 0
def __init__(self, dialect=SQLITE_DIALECT, paramstyle='numeric'):
self.execed = []
self.pendingResults = []
self.dialect = SQLITE_DIALECT
self.paramstyle = 'numeric'
def nextResult(self, result):
"""
Make it so that the next result from L{execSQL} will be the argument.
"""
self.pendingResults.append(result)
def execSQL(self, sql, args, rozrc):
"""
Implement L{IAsyncTransaction} by recording C{sql} and C{args} in
C{self.execed}, and return a L{Deferred} firing either an integer or a
value pre-supplied by L{CatchSQL.nextResult}.
"""
self.execed.append([sql, args])
self.counter += 1
if self.pendingResults:
result = self.pendingResults.pop(0)
else:
result = self.counter
return succeed(result)
class NullTestingOracleTxn(object):
"""
Fake transaction for testing oracle NULL behavior.
"""
dialect = ORACLE_DIALECT
paramstyle = 'numeric'
def execSQL(self, text, params, exc):
return succeed([[None, None]])
EXAMPLE_SCHEMA = """
create sequence A_SEQ;
create table FOO (BAR integer, BAZ varchar(255));
create table BOZ (QUX integer, QUUX integer);
create table OTHER (BAR integer,
FOO_BAR integer not null);
create table TEXTUAL (MYTEXT varchar(255));
create table LEVELS (ACCESS integer,
USERNAME varchar(255));
create table NULLCHECK (ASTRING varchar(255) not null,
ANUMBER integer);
"""
class ExampleSchemaHelper(SchemaTestHelper):
"""
setUp implementor.
"""
def setUp(self):
self.schema = SchemaSyntax(self.schemaFromString(EXAMPLE_SCHEMA))
class GenerationTests(ExampleSchemaHelper, TestCase, AssertResultHelper):
"""
Tests for syntactic helpers to generate SQL queries.
"""
def test_simplestSelect(self):
"""
L{Select} generates a 'select' statement, by default, asking for all
rows in a table.
"""
self.assertEquals(Select(From=self.schema.FOO).toSQL(),
SQLFragment("select * from FOO", []))
def test_tableSyntaxFromSchemaSyntaxCompare(self):
"""
One L{TableSyntax} is equivalent to another wrapping the same table;
one wrapping a different table is different.
"""
self.assertEquals(self.schema.FOO, self.schema.FOO)
self.assertNotEquals(self.schema.FOO, self.schema.BOZ)
def test_simpleWhereClause(self):
"""
L{Select} generates a 'select' statement with a 'where' clause
containing an expression.
"""
self.assertEquals(Select(From=self.schema.FOO,
Where=self.schema.FOO.BAR == 1).toSQL(),
SQLFragment("select * from FOO where BAR = ?", [1]))
def test_alternateMetadata(self):
"""
L{Select} generates a 'select' statement with the specified placeholder
syntax when explicitly given L{ConnectionMetadata} which specifies a
placeholder.
"""
self.assertEquals(Select(From=self.schema.FOO,
Where=self.schema.FOO.BAR == 1).toSQL(
QueryGenerator(POSTGRES_DIALECT, FixedPlaceholder("$$"))),
SQLFragment("select * from FOO where BAR = $$", [1]))
def test_columnComparison(self):
"""
L{Select} generates a 'select' statement which compares columns.
"""
self.assertEquals(Select(From=self.schema.FOO,
Where=self.schema.FOO.BAR ==
self.schema.FOO.BAZ).toSQL(),
SQLFragment("select * from FOO where BAR = BAZ", []))
def test_comparisonTestErrorPrevention(self):
"""
The comparison object between SQL expressions raises an exception when
compared for a truth value, so that code will not accidentally operate
on SQL objects and get a truth value.
(Note that this has a caveat, in test_columnsAsDictKeys and
test_columnEqualityTruth.)
"""
def sampleComparison():
if self.schema.FOO.BAR > self.schema.FOO.BAZ:
return 'comparison should not succeed'
self.assertRaises(DALError, sampleComparison)
def test_compareWithNULL(self):
"""
Comparing a column with None results in the generation of an 'is null'
or 'is not null' SQL statement.
"""
self.assertEquals(Select(From=self.schema.FOO,
Where=self.schema.FOO.BAR ==
None).toSQL(),
SQLFragment(
"select * from FOO where BAR is null", []))
self.assertEquals(Select(From=self.schema.FOO,
Where=self.schema.FOO.BAR !=
None).toSQL(),
SQLFragment(
"select * from FOO where BAR is not null", []))
def test_compareWithEmptyStringOracleSpecialCase(self):
"""
Oracle considers the empty string to be a NULL value, so comparisons
with the empty string should be 'is NULL' comparisons.
"""
# Sanity check: let's make sure that the non-oracle case looks normal.
self.assertEquals(Select(
From=self.schema.FOO,
Where=self.schema.FOO.BAR == '').toSQL(),
SQLFragment(
"select * from FOO where BAR = ?", [""]))
self.assertEquals(Select(
From=self.schema.FOO,
Where=self.schema.FOO.BAR != '').toSQL(),
SQLFragment(
"select * from FOO where BAR != ?", [""]))
self.assertEquals(Select(
From=self.schema.FOO,
Where=self.schema.FOO.BAR == ''
).toSQL(QueryGenerator(ORACLE_DIALECT, NumericPlaceholder())),
SQLFragment(
"select * from FOO where BAR is null", []))
self.assertEquals(Select(
From=self.schema.FOO,
Where=self.schema.FOO.BAR != ''
).toSQL(QueryGenerator(ORACLE_DIALECT, NumericPlaceholder())),
SQLFragment(
"select * from FOO where BAR is not null", []))
def test_compoundWhere(self):
"""
L{Select.And} and L{Select.Or} will return compound columns.
"""
self.assertEquals(
Select(From=self.schema.FOO,
Where=(self.schema.FOO.BAR < 2).Or(
self.schema.FOO.BAR > 5)).toSQL(),
SQLFragment("select * from FOO where BAR < ? or BAR > ?", [2, 5]))
def test_orderBy(self):
"""
L{Select}'s L{OrderBy} parameter generates an 'order by' clause for a
'select' statement.
"""
self.assertEquals(
Select(From=self.schema.FOO,
OrderBy=self.schema.FOO.BAR).toSQL(),
SQLFragment("select * from FOO order by BAR")
)
def test_orderByOrder(self):
"""
L{Select}'s L{Ascending} parameter specifies an ascending/descending
order for query results with an OrderBy clause.
"""
self.assertEquals(
Select(From=self.schema.FOO,
OrderBy=self.schema.FOO.BAR,
Ascending=False).toSQL(),
SQLFragment("select * from FOO order by BAR desc")
)
self.assertEquals(
Select(From=self.schema.FOO,
OrderBy=self.schema.FOO.BAR,
Ascending=True).toSQL(),
SQLFragment("select * from FOO order by BAR asc")
)
self.assertEquals(
Select(From=self.schema.FOO,
OrderBy=[self.schema.FOO.BAR, self.schema.FOO.BAZ],
Ascending=True).toSQL(),
SQLFragment("select * from FOO order by BAR, BAZ asc")
)
def test_orderByParens(self):
"""
L{Select}'s L{OrderBy} paraneter, if specified as a L{Tuple}, generates
an SQL expression I{without} parentheses, since the standard format
does not allow an arbitrary sort expression but rather a list of
columns.
"""
self.assertEquals(
Select(From=self.schema.FOO,
OrderBy=Tuple([self.schema.FOO.BAR,
self.schema.FOO.BAZ])).toSQL(),
SQLFragment("select * from FOO order by BAR, BAZ")
)
def test_forUpdate(self):
"""
L{Select}'s L{ForUpdate} parameter generates a 'for update' clause at
the end of the query.
"""
self.assertEquals(
Select(From=self.schema.FOO, ForUpdate=True).toSQL(),
SQLFragment("select * from FOO for update")
)
def test_groupBy(self):
"""
L{Select}'s L{GroupBy} parameter generates a 'group by' clause for a
'select' statement.
"""
self.assertEquals(
Select(From=self.schema.FOO,
GroupBy=self.schema.FOO.BAR).toSQL(),
SQLFragment("select * from FOO group by BAR")
)
def test_groupByMulti(self):
"""
L{Select}'s L{GroupBy} parameter can accept multiple columns in a list.
"""
self.assertEquals(
Select(From=self.schema.FOO,
GroupBy=[self.schema.FOO.BAR,
self.schema.FOO.BAZ]).toSQL(),
SQLFragment("select * from FOO group by BAR, BAZ")
)
def test_joinClause(self):
"""
A table's .join() method returns a join statement in a SELECT.
"""
self.assertEquals(
Select(From=self.schema.FOO.join(
self.schema.BOZ, self.schema.FOO.BAR ==
self.schema.BOZ.QUX)).toSQL(),
SQLFragment("select * from FOO join BOZ on BAR = QUX", [])
)
def test_crossJoin(self):
"""
A join with no clause specified will generate a cross join. (This is an
explicit synonym for an implicit join: i.e. 'select * from FOO, BAR'.)
"""
self.assertEquals(
Select(From=self.schema.FOO.join(self.schema.BOZ)).toSQL(),
SQLFragment("select * from FOO cross join BOZ")
)
def test_joinJoin(self):
"""
L{Join.join} will result in a multi-table join.
"""
self.assertEquals(
Select([self.schema.FOO.BAR,
self.schema.BOZ.QUX],
From=self.schema.FOO
.join(self.schema.BOZ).join(self.schema.OTHER)).toSQL(),
SQLFragment(
"select FOO.BAR, QUX from FOO "
"cross join BOZ cross join OTHER")
)
def test_multiJoin(self):
"""
L{Join.join} has the same signature as L{TableSyntax.join} and supports
the same 'on' and 'type' arguments.
"""
self.assertEquals(
Select([self.schema.FOO.BAR],
From=self.schema.FOO.join(
self.schema.BOZ).join(
self.schema.OTHER,
self.schema.OTHER.BAR == self.schema.FOO.BAR,
'left outer')).toSQL(),
SQLFragment(
"select FOO.BAR from FOO cross join BOZ left outer join OTHER "
"on OTHER.BAR = FOO.BAR")
)
def test_tableAliasing(self):
"""
Tables may be given aliases, in order to facilitate self-joins.
"""
sfoo = self.schema.FOO
sfoo2 = sfoo.alias()
self.assertEqual(
Select(From=self.schema.FOO.join(sfoo2)).toSQL(),
SQLFragment("select * from FOO cross join FOO alias1")
)
def test_columnsOfAliasedTable(self):
"""
The columns of aliased tables will always be prefixed with their alias
in the generated SQL.
"""
sfoo = self.schema.FOO
sfoo2 = sfoo.alias()
self.assertEquals(
Select([sfoo2.BAR], From=sfoo2).toSQL(),
SQLFragment("select alias1.BAR from FOO alias1")
)
def test_multipleTableAliases(self):
"""
When multiple aliases are used for the same table, they will be unique
within the query.
"""
foo = self.schema.FOO
fooPrime = foo.alias()
fooPrimePrime = foo.alias()
self.assertEquals(
Select([fooPrime.BAR, fooPrimePrime.BAR],
From=fooPrime.join(fooPrimePrime)).toSQL(),
SQLFragment("select alias1.BAR, alias2.BAR "
"from FOO alias1 cross join FOO alias2")
)
def test_columnSelection(self):
"""
If a column is specified by the argument to L{Select}, those will be
output by the SQL statement rather than the all-columns wildcard.
"""
self.assertEquals(
Select([self.schema.FOO.BAR],
From=self.schema.FOO).toSQL(),
SQLFragment("select BAR from FOO")
)
def test_tableIteration(self):
"""
Iterating a L{TableSyntax} iterates its columns, in the order that they
are defined.
"""
self.assertEquals(list(self.schema.FOO),
[self.schema.FOO.BAR, self.schema.FOO.BAZ])
def test_noColumn(self):
"""
Accessing an attribute that is not a defined column on a L{TableSyntax}
raises an L{AttributeError}.
"""
self.assertRaises(AttributeError,
lambda : self.schema.FOO.NOT_A_COLUMN)
def test_columnAliases(self):
"""
When attributes are set on a L{TableSyntax}, they will be remembered as
column aliases, and their alias names may be retrieved via the
L{TableSyntax.columnAliases} method.
"""
self.assertEquals(self.schema.FOO.columnAliases(), {})
self.schema.FOO.ALIAS = self.schema.FOO.BAR
# you comparing ColumnSyntax object results in a ColumnComparison, which
# you can't test for truth.
fixedForEquality = dict([(k, v.model) for k, v in
self.schema.FOO.columnAliases().items()])
self.assertEquals(fixedForEquality,
{'ALIAS': self.schema.FOO.BAR.model})
self.assertIdentical(self.schema.FOO.ALIAS.model,
self.schema.FOO.BAR.model)
def test_multiColumnSelection(self):
"""
If multiple columns are specified by the argument to L{Select}, those
will be output by the SQL statement rather than the all-columns
wildcard.
"""
self.assertEquals(
Select([self.schema.FOO.BAZ,
self.schema.FOO.BAR],
From=self.schema.FOO).toSQL(),
SQLFragment("select BAZ, BAR from FOO")
)
def test_joinColumnSelection(self):
"""
If multiple columns are specified by the argument to L{Select} that uses
a L{TableSyntax.join}, those will be output by the SQL statement.
"""
self.assertEquals(
Select([self.schema.FOO.BAZ,
self.schema.BOZ.QUX],
From=self.schema.FOO.join(self.schema.BOZ,
self.schema.FOO.BAR ==
self.schema.BOZ.QUX)).toSQL(),
SQLFragment("select BAZ, QUX from FOO join BOZ on BAR = QUX")
)
def test_tableMismatch(self):
"""
When a column in the 'columns' argument does not match the table from
the 'From' argument, L{Select} raises a L{TableMismatch}.
"""
self.assertRaises(TableMismatch, Select, [self.schema.BOZ.QUX],
From=self.schema.FOO)
def test_qualifyNames(self):
"""
When two columns in the FROM clause requested from different tables have
the same name, the emitted SQL should explicitly disambiguate them.
"""
self.assertEquals(
Select([self.schema.FOO.BAR,
self.schema.OTHER.BAR],
From=self.schema.FOO.join(self.schema.OTHER,
self.schema.OTHER.FOO_BAR ==
self.schema.FOO.BAR)).toSQL(),
SQLFragment(
"select FOO.BAR, OTHER.BAR from FOO "
"join OTHER on FOO_BAR = FOO.BAR"))
def test_bindParameters(self):
"""
L{SQLFragment.bind} returns a copy of that L{SQLFragment} with the
L{Parameter} objects in its parameter list replaced with the keyword
arguments to C{bind}.
"""
self.assertEquals(
Select(From=self.schema.FOO,
Where=(self.schema.FOO.BAR > Parameter("testing")).And(
self.schema.FOO.BAZ < 7)).toSQL().bind(testing=173),
SQLFragment("select * from FOO where BAR > ? and BAZ < ?",
[173, 7]))
def test_rightHandSideExpression(self):
"""
Arbitrary expressions may be used as the right-hand side of a
comparison operation.
"""
self.assertEquals(
Select(From=self.schema.FOO,
Where=self.schema.FOO.BAR >
(self.schema.FOO.BAZ + 3)).toSQL(),
SQLFragment("select * from FOO where BAR > (BAZ + ?)", [3])
)
def test_setSelects(self):
"""
L{SetExpression} produces set operation on selects.
"""
# Simple UNION
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 1),
SetExpression=Union(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 2),
),
),
).toSQL(QueryGenerator(POSTGRES_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
"(select * from FOO where BAR = ?) UNION (select * from FOO where BAR = ?)", [1, 2]))
# Simple INTERSECT ALL
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 1),
SetExpression=Intersect(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 2),
),
optype=SetExpression.OPTYPE_ALL
),
).toSQL(QueryGenerator(POSTGRES_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
"(select * from FOO where BAR = ?) INTERSECT ALL (select * from FOO where BAR = ?)", [1, 2]))
# Multiple EXCEPTs, not nested, Postgres dialect
self.assertEquals(
Select(
From=self.schema.FOO,
SetExpression=Except(
(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 2),
),
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 3),
),
),
optype=SetExpression.OPTYPE_DISTINCT,
),
).toSQL(QueryGenerator(POSTGRES_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
"(select * from FOO) EXCEPT DISTINCT (select * from FOO where BAR = ?) EXCEPT DISTINCT (select * from FOO where BAR = ?)", [2, 3]))
# Nested EXCEPTs, Oracle dialect
self.assertEquals(
Select(
From=self.schema.FOO,
SetExpression=Except(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 2),
SetExpression=Except(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 3),
),
),
),
),
).toSQL(QueryGenerator(ORACLE_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
"(select * from FOO) MINUS ((select * from FOO where BAR = ?) MINUS (select * from FOO where BAR = ?))", [2, 3]))
# UNION with order by
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 1),
SetExpression=Union(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 2),
),
),
OrderBy=self.schema.FOO.BAR,
).toSQL(QueryGenerator(POSTGRES_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
"(select * from FOO where BAR = ?) UNION (select * from FOO where BAR = ?) order by BAR", [1, 2]))
def test_simpleSubSelects(self):
"""
L{Max}C{(column)} produces an object in the 'columns' clause that
renders the 'max' aggregate in SQL.
"""
self.assertEquals(
Select(
[Max(self.schema.BOZ.QUX)],
From=(Select([self.schema.BOZ.QUX], From=self.schema.BOZ))
).toSQL(),
SQLFragment(
"select max(QUX) from (select QUX from BOZ) genid_1"))
self.assertEquals(
Select(
[Count(self.schema.BOZ.QUX)],
From=(Select([self.schema.BOZ.QUX], From=self.schema.BOZ))
).toSQL(),
SQLFragment(
"select count(QUX) from (select QUX from BOZ) genid_1"))
self.assertEquals(
Select(
[Max(self.schema.BOZ.QUX)],
From=(Select([self.schema.BOZ.QUX], From=self.schema.BOZ, As="alias_BAR")),
).toSQL(),
SQLFragment(
"select max(QUX) from (select QUX from BOZ) alias_BAR"))
def test_setSubSelects(self):
"""
L{SetExpression} in a From sub-select.
"""
# Simple UNION
self.assertEquals(
Select(
[Max(self.schema.FOO.BAR)],
From=Select(
[self.schema.FOO.BAR],
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 1),
SetExpression=Union(
Select(
[self.schema.FOO.BAR],
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 2),
),
),
)
).toSQL(),
SQLFragment(
"select max(BAR) from ((select BAR from FOO where BAR = ?) UNION (select BAR from FOO where BAR = ?)) genid_1", [1, 2]))
def test_selectColumnAliases(self):
"""
L{Select} works with aliased columns.
"""
self.assertEquals(
Select(
[ResultAliasSyntax(self.schema.BOZ.QUX, "BOZ_QUX")],
From=self.schema.BOZ
).toSQL(),
SQLFragment("select QUX BOZ_QUX from BOZ"))
self.assertEquals(
Select(
[ResultAliasSyntax(Max(self.schema.BOZ.QUX))],
From=self.schema.BOZ
).toSQL(),
SQLFragment("select max(QUX) genid_1 from BOZ"))
alias = ResultAliasSyntax(Max(self.schema.BOZ.QUX))
self.assertEquals(
Select([alias.columnReference()],
From=Select(
[alias],
From=self.schema.BOZ)
).toSQL(),
SQLFragment("select genid_1 from (select max(QUX) genid_1 from BOZ) genid_2"))
alias = ResultAliasSyntax(Len(self.schema.BOZ.QUX))
self.assertEquals(
Select([alias.columnReference()],
From=Select(
[alias],
From=self.schema.BOZ)
).toSQL(),
SQLFragment("select genid_1 from (select character_length(QUX) genid_1 from BOZ) genid_2"))
def test_inSubSelect(self):
"""
L{ColumnSyntax.In} returns a sub-expression using the SQL 'in' syntax
with a sub-select.
"""
wherein = (self.schema.FOO.BAR.In(
Select([self.schema.BOZ.QUX], From=self.schema.BOZ)))
self.assertEquals(
Select(From=self.schema.FOO, Where=wherein).toSQL(),
SQLFragment(
"select * from FOO where BAR in (select QUX from BOZ)"))
def test_inParameter(self):
"""
L{ColumnSyntax.In} returns a sub-expression using the SQL 'in' syntax
with parameter list.
"""
# One item with IN only
items = set(('A',))
self.assertEquals(
Select(From=self.schema.FOO, Where=self.schema.FOO.BAR.In(Parameter("names", len(items)))).toSQL().bind(names=items),
SQLFragment(
"select * from FOO where BAR in (?)", ['A']))
# Two items with IN only
items = set(('A', 'B'))
self.assertEquals(
Select(From=self.schema.FOO, Where=self.schema.FOO.BAR.In(Parameter("names", len(items)))).toSQL().bind(names=items),
SQLFragment(
"select * from FOO where BAR in (?, ?)", ['A', 'B']))
# Two items with preceding AND
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAZ == Parameter('P1')).And(
self.schema.FOO.BAR.In(Parameter("names", len(items))
))
).toSQL().bind(P1="P1", names=items),
SQLFragment(
"select * from FOO where BAZ = ? and BAR in (?, ?)", ['P1', 'A', 'B']),
)
# Two items with following AND
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR.In(Parameter("names", len(items))).And(
self.schema.FOO.BAZ == Parameter('P2')
))
).toSQL().bind(P2="P2", names=items),
SQLFragment(
"select * from FOO where BAR in (?, ?) and BAZ = ?", ['A', 'B', 'P2']),
)
# Two items with preceding OR and following AND
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAZ == Parameter('P1')).Or(
self.schema.FOO.BAR.In(Parameter("names", len(items))).And(
self.schema.FOO.BAZ == Parameter('P2')
))
).toSQL().bind(P1="P1", P2="P2", names=items),
SQLFragment(
"select * from FOO where BAZ = ? or BAR in (?, ?) and BAZ = ?", ['P1', 'A', 'B', 'P2']),
)
# Check various error situations
# No count not allowed
self.assertRaises(DALError, self.schema.FOO.BAR.In, Parameter("names"))
# count=0 not allowed
self.assertRaises(DALError, Parameter, "names", 0)
# Mismatched count and len(items)
self.assertRaises(
DALError,
Select(From=self.schema.FOO, Where=self.schema.FOO.BAR.In(Parameter("names", len(items)))).toSQL().bind,
names=["a", "b", "c", ]
)
def test_max(self):
"""
L{Max}C{(column)} produces an object in the 'columns' clause that
renders the 'max' aggregate in SQL.
"""
self.assertEquals(
Select([Max(self.schema.BOZ.QUX)], From=self.schema.BOZ).toSQL(),
SQLFragment(
"select max(QUX) from BOZ"))
def test_countAllCoumns(self):
"""
L{Count}C{(ALL_COLUMNS)} produces an object in the 'columns' clause that
renders the 'count' in SQL.
"""
self.assertEquals(
Select([Count(ALL_COLUMNS)], From=self.schema.BOZ).toSQL(),
SQLFragment(
"select count(*) from BOZ"))
def test_aggregateComparison(self):
"""
L{Max}C{(column) > constant} produces an object in the 'columns' clause
that renders a comparison to the 'max' aggregate in SQL.
"""
self.assertEquals(Select([Max(self.schema.BOZ.QUX) + 12],
From=self.schema.BOZ).toSQL(),
SQLFragment("select max(QUX) + ? from BOZ", [12]))
def test_multiColumnExpression(self):
"""
Multiple columns may be provided in an expression in the 'columns'
portion of a Select() statement. All arithmetic operators are
supported.
"""
self.assertEquals(
Select([((self.schema.FOO.BAR + self.schema.FOO.BAZ) / 3) * 7],
From=self.schema.FOO).toSQL(),
SQLFragment("select ((BAR + BAZ) / ?) * ? from FOO", [3, 7])
)
def test_len(self):
"""
Test for the 'Len' function for determining character length of a
column. (Note that this should be updated to use different techniques
as necessary in different databases.)
"""
self.assertEquals(
Select([Len(self.schema.TEXTUAL.MYTEXT)],
From=self.schema.TEXTUAL).toSQL(),
SQLFragment(
"select character_length(MYTEXT) from TEXTUAL"))
def test_startswith(self):
"""
Test for the string starts with comparison.
(Note that this should be updated to use different techniques
as necessary in different databases.)
"""
self.assertEquals(
Select([
self.schema.TEXTUAL.MYTEXT],
From=self.schema.TEXTUAL,
Where=self.schema.TEXTUAL.MYTEXT.StartsWith("test"),
).toSQL(),
SQLFragment(
"select MYTEXT from TEXTUAL where MYTEXT like (? || ?)",
["test", "%"]
)
)
def test_endswith(self):
"""
Test for the string starts with comparison.
(Note that this should be updated to use different techniques
as necessary in different databases.)
"""
self.assertEquals(
Select([
self.schema.TEXTUAL.MYTEXT],
From=self.schema.TEXTUAL,
Where=self.schema.TEXTUAL.MYTEXT.EndsWith("test"),
).toSQL(),
SQLFragment(
"select MYTEXT from TEXTUAL where MYTEXT like (? || ?)",
["%", "test"]
)
)
def test_contains(self):
"""
Test for the string starts with comparison.
(Note that this should be updated to use different techniques
as necessary in different databases.)
"""
self.assertEquals(
Select([
self.schema.TEXTUAL.MYTEXT],
From=self.schema.TEXTUAL,
Where=self.schema.TEXTUAL.MYTEXT.Contains("test"),
).toSQL(),
SQLFragment(
"select MYTEXT from TEXTUAL where MYTEXT like (? || (? || ?))",
["%", "test", "%"]
)
)
def test_insert(self):
"""
L{Insert.toSQL} generates an 'insert' statement with all the relevant
columns.
"""
self.assertEquals(
Insert({self.schema.FOO.BAR: 23,
self.schema.FOO.BAZ: 9}).toSQL(),
SQLFragment("insert into FOO (BAR, BAZ) values (?, ?)", [23, 9]))
def test_insertNotEnough(self):
"""
L{Insert}'s constructor will raise L{NotEnoughValues} if columns have
not been specified.
"""
notEnough = self.assertRaises(
NotEnoughValues, Insert, {self.schema.OTHER.BAR: 9}
)
self.assertEquals(str(notEnough), "Columns [FOO_BAR] required.")
def test_insertReturning(self):
"""
L{Insert}'s C{Return} argument will insert an SQL 'returning' clause.
"""
self.assertEquals(
Insert({self.schema.FOO.BAR: 23,
self.schema.FOO.BAZ: 9},
Return=self.schema.FOO.BAR).toSQL(),
SQLFragment(
"insert into FOO (BAR, BAZ) values (?, ?) returning BAR",
[23, 9])
)
def test_insertMultiReturn(self):
"""
L{Insert}'s C{Return} argument can also be a C{tuple}, which will insert
an SQL 'returning' clause with multiple columns.
"""
self.assertEquals(
Insert({self.schema.FOO.BAR: 23,
self.schema.FOO.BAZ: 9},
Return=(self.schema.FOO.BAR, self.schema.FOO.BAZ)).toSQL(),
SQLFragment(
"insert into FOO (BAR, BAZ) values (?, ?) returning BAR, BAZ",
[23, 9])
)
def test_insertMultiReturnOracle(self):
"""
In Oracle's SQL dialect, the 'returning' clause requires an 'into'
clause indicating where to put the results, as they can't be simply
relayed to the cursor. Further, additional bound variables are required
to capture the output parameters.
"""
self.assertEquals(
Insert({self.schema.FOO.BAR: 40,
self.schema.FOO.BAZ: 50},
Return=(self.schema.FOO.BAR, self.schema.FOO.BAZ)).toSQL(
QueryGenerator(ORACLE_DIALECT, NumericPlaceholder())
),
SQLFragment(
"insert into FOO (BAR, BAZ) values (:1, :2) returning BAR, BAZ"
" into :3, :4",
[40, 50, Parameter("oracle_out_0"), Parameter("oracle_out_1")]
)
)
def test_insertMultiReturnSQLite(self):
"""
In SQLite's SQL dialect, there is no 'returning' clause, but given that
SQLite serializes all SQL transactions, you can rely upon 'select'
after a write operation to reliably give you exactly what was just
modified. Therefore, although 'toSQL' won't include any indication of
the return value, the 'on' method will execute a 'select' statement
following the insert to retrieve the value.
"""
insertStatement = Insert({self.schema.FOO.BAR: 39,
self.schema.FOO.BAZ: 82},
Return=(self.schema.FOO.BAR, self.schema.FOO.BAZ)
)
qg = lambda : QueryGenerator(SQLITE_DIALECT, NumericPlaceholder())
self.assertEquals(insertStatement.toSQL(qg()),
SQLFragment("insert into FOO (BAR, BAZ) values (:1, :2)",
[39, 82])
)
result = []
csql = CatchSQL()
insertStatement.on(csql).addCallback(result.append)
self.assertEqual(result, [2])
self.assertEqual(
csql.execed,
[["insert into FOO (BAR, BAZ) values (:1, :2)", [39, 82]],
["select BAR, BAZ from FOO where rowid = last_insert_rowid()", []]]
)
def test_insertNoReturnSQLite(self):
"""
Insert a row I{without} a C{Return=} parameter should also work as
normal in sqlite.
"""
statement = Insert({self.schema.FOO.BAR: 12,
self.schema.FOO.BAZ: 48})
csql = CatchSQL()
statement.on(csql)
self.assertEqual(
csql.execed,
[["insert into FOO (BAR, BAZ) values (:1, :2)", [12, 48]]]
)
def test_updateReturningSQLite(self):
"""
Since SQLite does not support the SQL 'returning' syntax extension, in
order to preserve the rows that will be modified during an UPDATE
statement, we must first find the rows that will be affected, then
update them, then return the rows that were affected. Since we might
be changing even part of the primary key, we use the internal 'rowid'
column to uniquely and reliably identify rows in the sqlite database
that have been modified.
"""
csql = CatchSQL()
stmt = Update({self.schema.FOO.BAR: 4321},
Where=self.schema.FOO.BAZ == 1234,
Return=self.schema.FOO.BAR)
csql.nextResult([["sample row id"]])
result = resultOf(stmt.on(csql))
# Three statements were executed; make sure that the result returned was
# the result of executing the 3rd (and final) one.
self.assertResultList(result, 3)
# Check that they were the right statements.
self.assertEqual(len(csql.execed), 3)
self.assertEqual(
csql.execed[0],
["select rowid from FOO where BAZ = :1", [1234]]
)
self.assertEqual(
csql.execed[1],
["update FOO set BAR = :1 where BAZ = :2", [4321, 1234]]
)
self.assertEqual(
csql.execed[2],
["select BAR from FOO where rowid = :1", ["sample row id"]]
)
def test_updateReturningMultipleValuesSQLite(self):
"""
When SQLite updates multiple values, it must embed the row ID of each
subsequent value into its second 'where' clause, as there is no way to
pass a list of values to a single statement..
"""
csql = CatchSQL()
stmt = Update({self.schema.FOO.BAR: 4321},
Where=self.schema.FOO.BAZ == 1234,
Return=self.schema.FOO.BAR)
csql.nextResult([["one row id"], ["and another"], ["and one more"]])
result = resultOf(stmt.on(csql))
# Three statements were executed; make sure that the result returned was
# the result of executing the 3rd (and final) one.
self.assertResultList(result, 3)
# Check that they were the right statements.
self.assertEqual(len(csql.execed), 3)
self.assertEqual(
csql.execed[0],
["select rowid from FOO where BAZ = :1", [1234]]
)
self.assertEqual(
csql.execed[1],
["update FOO set BAR = :1 where BAZ = :2", [4321, 1234]]
)
self.assertEqual(
csql.execed[2],
["select BAR from FOO where rowid = :1 or rowid = :2 or rowid = :3",
["one row id", "and another", "and one more"]]
)
def test_deleteReturningSQLite(self):
"""
When SQLite deletes a value, ...
"""
csql = CatchSQL()
stmt = Delete(From=self.schema.FOO, Where=self.schema.FOO.BAZ == 1234,
Return=self.schema.FOO.BAR)
result = resultOf(stmt.on(csql))
self.assertResultList(result, 1)
self.assertEqual(len(csql.execed), 2)
self.assertEqual(
csql.execed[0],
["select BAR from FOO where BAZ = :1", [1234]]
)
self.assertEqual(
csql.execed[1],
["delete from FOO where BAZ = :1", [1234]]
)
def test_insertMismatch(self):
"""
L{Insert} raises L{TableMismatch} if the columns specified aren't all
from the same table.
"""
self.assertRaises(
TableMismatch,
Insert, {self.schema.FOO.BAR: 23,
self.schema.FOO.BAZ: 9,
self.schema.TEXTUAL.MYTEXT: 'hello'}
)
def test_quotingOnKeywordConflict(self):
"""
'access' is a keyword, so although our schema parser will leniently
accept it, it must be quoted in any outgoing SQL. (This is only done in
the Oracle dialect, because it isn't necessary in postgres, and
idiosyncratic case-folding rules make it challenging to do it in both.)
"""
self.assertEquals(
Insert({self.schema.LEVELS.ACCESS: 1,
self.schema.LEVELS.USERNAME:
"hi"}).toSQL(QueryGenerator(ORACLE_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
'insert into LEVELS ("ACCESS", USERNAME) values (?, ?)',
[1, "hi"])
)
self.assertEquals(
Insert({self.schema.LEVELS.ACCESS: 1,
self.schema.LEVELS.USERNAME:
"hi"}).toSQL(QueryGenerator(POSTGRES_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
'insert into LEVELS (ACCESS, USERNAME) values (?, ?)',
[1, "hi"])
)
def test_updateReturning(self):
"""
L{update}'s C{Return} argument will update an SQL 'returning' clause.
"""
self.assertEquals(
Update({self.schema.FOO.BAR: 23},
self.schema.FOO.BAZ == 43,
Return=self.schema.FOO.BAR).toSQL(),
SQLFragment(
"update FOO set BAR = ? where BAZ = ? returning BAR",
[23, 43])
)
def test_updateMismatch(self):
"""
L{Update} raises L{TableMismatch} if the columns specified aren't all
from the same table.
"""
self.assertRaises(
TableMismatch,
Update, {self.schema.FOO.BAR: 23,
self.schema.FOO.BAZ: 9,
self.schema.TEXTUAL.MYTEXT: 'hello'},
Where=self.schema.FOO.BAZ == 9
)
def test_updateFunction(self):
"""
L{Update} values may be L{FunctionInvocation}s, to update to computed
values in the database.
"""
sqlfunc = Function("hello")
self.assertEquals(
Update(
{self.schema.FOO.BAR: 23,
self.schema.FOO.BAZ: sqlfunc()},
Where=self.schema.FOO.BAZ == 9
).toSQL(),
SQLFragment("update FOO set BAR = ?, BAZ = hello() "
"where BAZ = ?", [23, 9])
)
def test_insertFunction(self):
"""
L{Update} values may be L{FunctionInvocation}s, to update to computed
values in the database.
"""
sqlfunc = Function("hello")
self.assertEquals(
Insert(
{self.schema.FOO.BAR: 23,
self.schema.FOO.BAZ: sqlfunc()},
).toSQL(),
SQLFragment("insert into FOO (BAR, BAZ) "
"values (?, hello())", [23])
)
def test_deleteReturning(self):
"""
L{Delete}'s C{Return} argument will delete an SQL 'returning' clause.
"""
self.assertEquals(
Delete(self.schema.FOO,
Where=self.schema.FOO.BAR == 7,
Return=self.schema.FOO.BAZ).toSQL(),
SQLFragment(
"delete from FOO where BAR = ? returning BAZ", [7])
)
def test_update(self):
"""
L{Update.toSQL} generates an 'update' statement.
"""
self.assertEquals(
Update({self.schema.FOO.BAR: 4321},
self.schema.FOO.BAZ == 1234).toSQL(),
SQLFragment("update FOO set BAR = ? where BAZ = ?", [4321, 1234]))
def test_delete(self):
"""
L{Delete} generates an SQL 'delete' statement.
"""
self.assertEquals(
Delete(self.schema.FOO,
Where=self.schema.FOO.BAR == 12).toSQL(),
SQLFragment(
"delete from FOO where BAR = ?", [12])
)
self.assertEquals(
Delete(self.schema.FOO,
Where=None).toSQL(),
SQLFragment("delete from FOO")
)
def test_lock(self):
"""
L{Lock.exclusive} generates a ('lock table') statement, locking the
table in the specified mode.
"""
self.assertEquals(Lock.exclusive(self.schema.FOO).toSQL(),
SQLFragment("lock table FOO in exclusive mode"))
def test_databaseLock(self):
"""
L{DatabaseLock} generates a ('pg_advisory_lock') statement
"""
self.assertEquals(DatabaseLock().toSQL(),
SQLFragment("select pg_advisory_lock(1)"))
def test_databaseUnlock(self):
"""
L{DatabaseUnlock} generates a ('pg_advisory_unlock') statement
"""
self.assertEquals(DatabaseUnlock().toSQL(),
SQLFragment("select pg_advisory_unlock(1)"))
def test_savepoint(self):
"""
L{Savepoint} generates a ('savepoint') statement.
"""
self.assertEquals(Savepoint("test").toSQL(),
SQLFragment("savepoint test"))
def test_rollbacktosavepoint(self):
"""
L{RollbackToSavepoint} generates a ('rollback to savepoint') statement.
"""
self.assertEquals(RollbackToSavepoint("test").toSQL(),
SQLFragment("rollback to savepoint test"))
def test_releasesavepoint(self):
"""
L{ReleaseSavepoint} generates a ('release savepoint') statement.
"""
self.assertEquals(ReleaseSavepoint("test").toSQL(),
SQLFragment("release savepoint test"))
def test_savepointaction(self):
"""
L{SavepointAction} generates a ('savepoint') statement.
"""
self.assertEquals(SavepointAction("test")._name, "test")
def test_limit(self):
"""
A L{Select} object with a 'Limit' keyword parameter will generate
a SQL statement with a 'limit' clause.
"""
self.assertEquals(
Select([self.schema.FOO.BAR],
From=self.schema.FOO,
Limit=123).toSQL(),
SQLFragment(
"select BAR from FOO limit ?", [123]))
def test_limitOracle(self):
"""
A L{Select} object with a 'Limit' keyword parameter will generate a SQL
statement using a ROWNUM subquery for Oracle.
See U{this "ask tom" article from 2006 for more
information
<http://www.oracle.com/technetwork/issue-archive/2006/06-sep/o56asktom-086197.html>}.
"""
self.assertEquals(
Select([self.schema.FOO.BAR],
From=self.schema.FOO,
Limit=123).toSQL(QueryGenerator(ORACLE_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
"select * from (select BAR from FOO) "
"where ROWNUM <= ?", [123])
)
def test_having(self):
"""
A L{Select} object with a 'Having' keyword parameter will generate
a SQL statement with a 'having' expression.
"""
self.assertEquals(
Select([self.schema.FOO.BAR],
From=self.schema.FOO,
Having=Max(self.schema.FOO.BAZ) < 7).toSQL(),
SQLFragment("select BAR from FOO having max(BAZ) < ?", [7])
)
def test_distinct(self):
"""
A L{Select} object with a 'Disinct' keyword parameter with a value of
C{True} will generate a SQL statement with a 'distinct' keyword
preceding its list of columns.
"""
self.assertEquals(
Select([self.schema.FOO.BAR], From=self.schema.FOO,
Distinct=True).toSQL(),
SQLFragment("select distinct BAR from FOO")
)
def test_nextSequenceValue(self):
"""
When a sequence is used as a value in an expression, it renders as the
call to 'nextval' that will produce its next value.
"""
self.assertEquals(
Insert({self.schema.BOZ.QUX:
self.schema.A_SEQ}).toSQL(),
SQLFragment("insert into BOZ (QUX) values (nextval('A_SEQ'))", []))
def test_nextSequenceValueOracle(self):
"""
When a sequence is used as a value in an expression in the Oracle
dialect, it renders as the 'nextval' attribute of the appropriate
sequence.
"""
self.assertEquals(
Insert({self.schema.BOZ.QUX:
self.schema.A_SEQ}).toSQL(
QueryGenerator(ORACLE_DIALECT, FixedPlaceholder("?"))),
SQLFragment("insert into BOZ (QUX) values (A_SEQ.nextval)", []))
def test_nextSequenceDefaultImplicitExplicitOracle(self):
"""
In Oracle's dialect, sequence defaults can't be implemented without
using triggers, so instead we just explicitly always include the
sequence default value.
"""
addSQLToSchema(
schema=self.schema.model,
schemaData="create table DFLTR (a varchar(255), "
"b integer default nextval('A_SEQ'));"
)
self.assertEquals(
Insert({self.schema.DFLTR.a: 'hello'}).toSQL(
QueryGenerator(ORACLE_DIALECT, FixedPlaceholder("?"))
),
SQLFragment("insert into DFLTR (a, b) values "
"(?, A_SEQ.nextval)", ['hello']),
)
# Should be the same if it's explicitly specified.
self.assertEquals(
Insert({self.schema.DFLTR.a: 'hello',
self.schema.DFLTR.b: self.schema.A_SEQ}).toSQL(
QueryGenerator(ORACLE_DIALECT, FixedPlaceholder("?"))
),
SQLFragment("insert into DFLTR (a, b) values "
"(?, A_SEQ.nextval)", ['hello']),
)
def test_numericParams(self):
"""
An L{IAsyncTransaction} with the 'numeric' paramstyle attribute will
cause statements to be generated with parameters in the style of :1 :2
:3, as per the DB-API.
"""
stmts = []
class FakeOracleTxn(object):
def execSQL(self, text, params, exc):
stmts.append((text, params))
dialect = ORACLE_DIALECT
paramstyle = 'numeric'
Select([self.schema.FOO.BAR],
From=self.schema.FOO,
Where=(self.schema.FOO.BAR == 7).And(
self.schema.FOO.BAZ == 9)
).on(FakeOracleTxn())
self.assertEquals(
stmts, [("select BAR from FOO where BAR = :1 and BAZ = :2",
[7, 9])]
)
def test_rewriteOracleNULLs_Select(self):
"""
Oracle databases cannot distinguish between the empty string and
C{NULL}. When you insert an empty string, C{cx_Oracle} therefore treats
it as a C{None} and will return that when you select it back again. We
address this in the schema by dropping 'not null' constraints.
Therefore, when executing a statement which includes a string column,
'on' should rewrite None return values from C{cx_Oracle} to be empty
bytestrings, but only for string columns.
"""
rows = resultOf(
Select([self.schema.NULLCHECK.ASTRING,
self.schema.NULLCHECK.ANUMBER],
From=self.schema.NULLCHECK).on(NullTestingOracleTxn()))[0]
self.assertEquals(rows, [['', None]])
def test_rewriteOracleNULLs_SelectAllColumns(self):
"""
Same as L{test_rewriteOracleNULLs_Select}, but with the L{ALL_COLUMNS}
shortcut.
"""
rows = resultOf(
Select(From=self.schema.NULLCHECK).on(NullTestingOracleTxn())
)[0]
self.assertEquals(rows, [['', None]])
def test_nestedLogicalExpressions(self):
"""
Make sure that logical operator precedence inserts proper parenthesis
when needed. e.g. 'a.And(b.Or(c))' needs to be 'a and (b or c)' not 'a
and b or c'.
"""
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR != 7).
And(self.schema.FOO.BAZ != 8).
And((self.schema.FOO.BAR == 8).Or(self.schema.FOO.BAZ == 0))
).toSQL(),
SQLFragment("select * from FOO where BAR != ? and BAZ != ? and "
"(BAR = ? or BAZ = ?)", [7, 8, 8, 0]))
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR != 7).
Or(self.schema.FOO.BAZ != 8).
Or((self.schema.FOO.BAR == 8).And(self.schema.FOO.BAZ == 0))
).toSQL(),
SQLFragment("select * from FOO where BAR != ? or BAZ != ? or "
"BAR = ? and BAZ = ?", [7, 8, 8, 0]))
self.assertEquals(
Select(
From=self.schema.FOO,
Where=(self.schema.FOO.BAR != 7).
Or(self.schema.FOO.BAZ != 8).
And((self.schema.FOO.BAR == 8).Or(self.schema.FOO.BAZ == 0))
).toSQL(),
SQLFragment("select * from FOO where (BAR != ? or BAZ != ?) and "
"(BAR = ? or BAZ = ?)", [7, 8, 8, 0]))
def test_updateWithNULL(self):
"""
As per the DB-API specification, "SQL NULL values are represented by the
Python None singleton on input and output." When a C{None} is provided
as a value to an L{Update}, it will be relayed to the database as a
parameter.
"""
self.assertEquals(
Update({self.schema.BOZ.QUX: None},
Where=self.schema.BOZ.QUX == 7).toSQL(),
SQLFragment("update BOZ set QUX = ? where QUX = ?", [None, 7])
)
def test_subSelectComparison(self):
"""
A comparison of a column to a sub-select in a where clause will result
in a parenthetical 'Where' clause.
"""
self.assertEquals(
Update(
{self.schema.BOZ.QUX: 9},
Where=self.schema.BOZ.QUX ==
Select([self.schema.FOO.BAR], From=self.schema.FOO,
Where=self.schema.FOO.BAZ == 12)).toSQL(),
SQLFragment(
# NOTE: it's very important that the comparison _always_ go in
# this order (column from the UPDATE first, inner SELECT second)
# as the other order will be considered a syntax error.
"update BOZ set QUX = ? where QUX = ("
"select BAR from FOO where BAZ = ?)", [9, 12]
)
)
def test_tupleComparison(self):
"""
A L{Tuple} allows for simultaneous comparison of multiple values in a
C{Where} clause. This feature is particularly useful when issuing an
L{Update} or L{Delete}, where the comparison is with values from a
subselect. (A L{Tuple} will be automatically generated upon comparison
to a C{tuple} or C{list}.)
"""
self.assertEquals(
Update(
{self.schema.BOZ.QUX: 1},
Where=(self.schema.BOZ.QUX, self.schema.BOZ.QUUX) ==
Select([self.schema.FOO.BAR, self.schema.FOO.BAZ],
From=self.schema.FOO,
Where=self.schema.FOO.BAZ == 2)).toSQL(),
SQLFragment(
# NOTE: it's very important that the comparison _always_ go in
# this order (tuple of columns from the UPDATE first, inner
# SELECT second) as the other order will be considered a syntax
# error.
"update BOZ set QUX = ? where (QUX, QUUX) = ("
"select BAR, BAZ from FOO where BAZ = ?)", [1, 2]
)
)
def test_tupleOfConstantsComparison(self):
"""
For some reason Oracle requires multiple parentheses for comparisons.
"""
self.assertEquals(
Select(
[self.schema.FOO.BAR],
From=self.schema.FOO,
Where=(Tuple([self.schema.FOO.BAR, self.schema.FOO.BAZ]) ==
Tuple([Constant(7), Constant(9)]))
).toSQL(),
SQLFragment(
"select BAR from FOO where (BAR, BAZ) = ((?, ?))", [7, 9]
)
)
def test_oracleTableTruncation(self):
"""
L{Table}'s SQL generation logic will truncate table names if the dialect
(i.e. Oracle) demands it. (See txdav.common.datastore.sql_tables for
the schema translator and enforcement of name uniqueness in the derived
schema.)
"""
addSQLToSchema(
self.schema.model,
"create table veryveryveryveryveryveryveryverylong "
"(foo integer);"
)
vvl = self.schema.veryveryveryveryveryveryveryverylong
self.assertEquals(
Insert({vvl.foo: 1}).toSQL(QueryGenerator(ORACLE_DIALECT, FixedPlaceholder("?"))),
SQLFragment(
"insert into veryveryveryveryveryveryveryve (foo) values "
"(?)", [1]
)
)
def test_columnEqualityTruth(self):
"""
Mostly in support of test_columnsAsDictKeys, the 'same' column should
compare True to itself and False to other values.
"""
s = self.schema
self.assertEquals(bool(s.FOO.BAR == s.FOO.BAR), True)
self.assertEquals(bool(s.FOO.BAR != s.FOO.BAR), False)
self.assertEquals(bool(s.FOO.BAZ != s.FOO.BAR), True)
def test_columnsAsDictKeys(self):
"""
An odd corner of the syntactic sugar provided by the DAL is that the
column objects have to participate both in augmented equality comparison
("==" returns an expression object) as well as dictionary keys (for
Insert and Update statement objects). Therefore it should be possible
to I{manipulate} dictionaries of keys as well.
"""
values = {self.schema.FOO.BAR: 1}
self.assertEquals(values, {self.schema.FOO.BAR: 1})
values.pop(self.schema.FOO.BAR)
self.assertEquals(values, {})
class OracleConnectionMethods(object):
def test_rewriteOracleNULLs_Insert(self):
"""
The behavior described in L{test_rewriteOracleNULLs_Select} applies to
other statement types as well, specifically those with 'returning'
clauses.
"""
# Add 2 cursor variable values so that these will be used by
# FakeVariable.getvalue.
self.factory.varvals.extend([None, None])
rows = self.resultOf(
Insert({self.schema.NULLCHECK.ASTRING: '',
self.schema.NULLCHECK.ANUMBER: None},
Return=[self.schema.NULLCHECK.ASTRING,
self.schema.NULLCHECK.ANUMBER]
).on(self.createTransaction()))[0]
self.assertEquals(rows, [['', None]])
def test_insertMultiReturnOnOracleTxn(self):
"""
As described in L{test_insertMultiReturnOracle}, Oracle deals with
'returning' clauses by using out parameters. However, this is not quite
enough, as the code needs to actually retrieve the values from the out
parameters.
"""
i = Insert({self.schema.FOO.BAR: 40,
self.schema.FOO.BAZ: 50},
Return=(self.schema.FOO.BAR, self.schema.FOO.BAZ))
self.factory.varvals.extend(["first val!", "second val!"])
result = self.resultOf(i.on(self.createTransaction()))
self.assertEquals(result, [[["first val!", "second val!"]]])
curvars = self.factory.connections[0].cursors[0].variables
self.assertEquals(len(curvars), 2)
self.assertEquals(curvars[0].type, FakeCXOracleModule.NUMBER)
self.assertEquals(curvars[1].type, FakeCXOracleModule.STRING)
def test_insertNoReturnOracle(self):
"""
In addition to being able to execute insert statements with a Return
attribute, oracle also ought to be able to execute insert statements
with no Return at all.
"""
# This statement should return nothing from .fetchall(), so...
self.factory.hasResults = False
i = Insert({self.schema.FOO.BAR: 40,
self.schema.FOO.BAZ: 50})
result = self.resultOf(i.on(self.createTransaction()))
self.assertEquals(result, [None])
class OracleConnectionTests(ConnectionPoolHelper, ExampleSchemaHelper,
OracleConnectionMethods, TestCase):
"""
Tests which use an oracle connection.
"""
dialect = ORACLE_DIALECT
def setUp(self):
"""
Create a fake oracle-ish connection pool without using real threads or a
real database.
"""
self.patch(syntax, 'cx_Oracle', FakeCXOracleModule)
super(OracleConnectionTests, self).setUp()
ExampleSchemaHelper.setUp(self)
class OracleNetConnectionTests(NetworkedPoolHelper, ExampleSchemaHelper,
OracleConnectionMethods, TestCase):
dialect = ORACLE_DIALECT
def setUp(self):
self.patch(syntax, 'cx_Oracle', FakeCXOracleModule)
super(OracleNetConnectionTests, self).setUp()
ExampleSchemaHelper.setUp(self)
self.pump.client.dialect = ORACLE_DIALECT
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