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qt-creator/tests/unit/unittest/createtablesqlstatementbuilder-test.cpp
Marco Bubke cf441e8198 Sqlite: Add primary key table constraint to table builder 
Change-Id: I60c158eb76db2217a2d045053bb8e47eef75ff7a
Reviewed-by: Tim Jenssen <tim.jenssen@qt.io>
2020-06-05 09:57:47 +00:00

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/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of Qt Creator.
**
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3 as published by the Free Software
** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-3.0.html.
**
****************************************************************************/
#include "googletest.h"
#include <createtablesqlstatementbuilder.h>
#include <sqlstatementbuilderexception.h>
namespace {
using Sqlite::Column;
using Sqlite::ColumnType;
using Sqlite::ConstraintType;
using Sqlite::Enforment;
using Sqlite::ForeignKey;
using Sqlite::ForeignKeyAction;
using Sqlite::JournalMode;
using Sqlite::OpenMode;
using Sqlite::PrimaryKey;
using Sqlite::SqliteColumns;
using Sqlite::SqlStatementBuilderException;
using Sqlite::Unique;
class CreateTableSqlStatementBuilder : public ::testing::Test
{
protected:
void bindValues()
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {PrimaryKey{}});
builder.addColumn("name", ColumnType::Text);
builder.addColumn("number", ColumnType::Numeric);
}
static SqliteColumns createColumns()
{
SqliteColumns columns;
columns.emplace_back("", "id", ColumnType::Integer, Sqlite::Constraints{PrimaryKey{}});
columns.emplace_back("", "name", ColumnType::Text);
columns.emplace_back("", "number", ColumnType::Numeric);
return columns;
}
protected:
Sqlite::CreateTableSqlStatementBuilder builder;
};
TEST_F(CreateTableSqlStatementBuilder, IsNotValidAfterCreation)
{
ASSERT_FALSE(builder.isValid());
}
TEST_F(CreateTableSqlStatementBuilder, IsValidAfterBinding)
{
bindValues();
ASSERT_TRUE(builder.isValid());
}
TEST_F(CreateTableSqlStatementBuilder, InvalidAfterClear)
{
bindValues();
builder.clear();
ASSERT_TRUE(!builder.isValid());
}
TEST_F(CreateTableSqlStatementBuilder, NoSqlStatementAfterClear)
{
bindValues();
builder.sqlStatement();
builder.clear();
ASSERT_THROW(builder.sqlStatement(), SqlStatementBuilderException);
}
TEST_F(CreateTableSqlStatementBuilder, SqlStatement)
{
bindValues();
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER PRIMARY KEY, name TEXT, number NUMERIC)");
}
TEST_F(CreateTableSqlStatementBuilder, AddColumnToExistingColumns)
{
bindValues();
builder.addColumn("number2", ColumnType::Real);
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER PRIMARY KEY, name TEXT, number NUMERIC, number2 REAL)");
}
TEST_F(CreateTableSqlStatementBuilder, ChangeTable)
{
bindValues();
builder.setTableName("test2");
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test2(id INTEGER PRIMARY KEY, name TEXT, number NUMERIC)"
);
}
TEST_F(CreateTableSqlStatementBuilder, IsInvalidAfterClearColumsOnly)
{
bindValues();
builder.sqlStatement();
builder.clearColumns();
ASSERT_THROW(builder.sqlStatement(), SqlStatementBuilderException);
}
TEST_F(CreateTableSqlStatementBuilder, ClearColumnsAndAddColumnNewColumns)
{
bindValues();
builder.clearColumns();
builder.addColumn("name3", ColumnType::Text);
builder.addColumn("number3", ColumnType::Real);
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(name3 TEXT, number3 REAL)");
}
TEST_F(CreateTableSqlStatementBuilder, SetWitoutRowId)
{
bindValues();
builder.setUseWithoutRowId(true);
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER PRIMARY KEY, name TEXT, number NUMERIC) WITHOUT ROWID");
}
TEST_F(CreateTableSqlStatementBuilder, SetColumnDefinitions)
{
builder.clear();
builder.setTableName("test");
builder.setColumns(createColumns());
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER PRIMARY KEY, name TEXT, number NUMERIC)");
}
TEST_F(CreateTableSqlStatementBuilder, UniqueContraint)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {Unique{}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER UNIQUE)");
}
TEST_F(CreateTableSqlStatementBuilder, IfNotExitsModifier)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {});
builder.setUseIfNotExists(true);
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE IF NOT EXISTS test(id INTEGER)");
}
TEST_F(CreateTableSqlStatementBuilder, TemporaryTable)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {});
builder.setUseTemporaryTable(true);
ASSERT_THAT(builder.sqlStatement(),
"CREATE TEMPORARY TABLE test(id INTEGER)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyWithoutColumn)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {ForeignKey{"otherTable", ""}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id INTEGER REFERENCES otherTable)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyWithColumn)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {ForeignKey{"otherTable", "otherColumn"}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn))");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyUpdateNoAction)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {ForeignKey{"otherTable", "otherColumn"}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn))");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyUpdateRestrict)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", ForeignKeyAction::Restrict}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON UPDATE RESTRICT)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyUpdateSetNull)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", ForeignKeyAction::SetNull}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON UPDATE SET NULL)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyUpdateSetDefault)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", ForeignKeyAction::SetDefault}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON UPDATE SET DEFAULT)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyUpdateCascade)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", ForeignKeyAction::Cascade}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON UPDATE CASCADE)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyDeleteNoAction)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {ForeignKey{"otherTable", "otherColumn"}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn))");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyDeleteRestrict)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", {}, ForeignKeyAction::Restrict}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON DELETE RESTRICT)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyDeleteSetNull)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", {}, ForeignKeyAction::SetNull}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON DELETE SET NULL)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyDeleteSetDefault)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", {}, ForeignKeyAction::SetDefault}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON DELETE SET DEFAULT)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyDeleteCascade)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable", "otherColumn", {}, ForeignKeyAction::Cascade}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON DELETE CASCADE)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyDeleteAndUpdateAction)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable",
"otherColumn",
ForeignKeyAction::SetDefault,
ForeignKeyAction::Cascade}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON UPDATE SET "
"DEFAULT ON DELETE CASCADE)");
}
TEST_F(CreateTableSqlStatementBuilder, ForeignKeyDeferred)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{ForeignKey{"otherTable",
"otherColumn",
ForeignKeyAction::SetDefault,
ForeignKeyAction::Cascade,
Enforment::Deferred}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER REFERENCES otherTable(otherColumn) ON UPDATE SET "
"DEFAULT ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED)");
}
TEST_F(CreateTableSqlStatementBuilder, NotNullConstraint)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {Sqlite::NotNull{}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id INTEGER NOT NULL)");
}
TEST_F(CreateTableSqlStatementBuilder, NotNullAndUniqueConstraint)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {Sqlite::Unique{}, Sqlite::NotNull{}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id INTEGER UNIQUE NOT NULL)");
}
TEST_F(CreateTableSqlStatementBuilder, Check)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Text, {Sqlite::Check{"id != ''"}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id TEXT CHECK (id != ''))");
}
TEST_F(CreateTableSqlStatementBuilder, DefaultValueInt)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {Sqlite::DefaultValue{1LL}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id INTEGER DEFAULT 1)");
}
TEST_F(CreateTableSqlStatementBuilder, DefaultValueFloat)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Real, {Sqlite::DefaultValue{1.1}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id REAL DEFAULT 1.100000)");
}
TEST_F(CreateTableSqlStatementBuilder, DefaultValueString)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Text, {Sqlite::DefaultValue{"foo"}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id TEXT DEFAULT 'foo')");
}
TEST_F(CreateTableSqlStatementBuilder, DefaultExpression)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Integer,
{Sqlite::DefaultExpression{"SELECT name FROM foo WHERE id=?"}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id INTEGER DEFAULT (SELECT name FROM foo WHERE id=?))");
}
TEST_F(CreateTableSqlStatementBuilder, Collation)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Text, {Sqlite::Collate{"unicode"}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id TEXT COLLATE unicode)");
}
TEST_F(CreateTableSqlStatementBuilder, GeneratedAlwaysStored)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Text,
{Sqlite::GeneratedAlways{"SELECT name FROM foo WHERE id=?",
Sqlite::GeneratedAlwaysStorage::Stored}});
ASSERT_THAT(
builder.sqlStatement(),
"CREATE TABLE test(id TEXT GENERATED ALWAYS AS (SELECT name FROM foo WHERE id=?) STORED)");
}
TEST_F(CreateTableSqlStatementBuilder, GeneratedAlwaysVirtual)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id",
ColumnType::Text,
{Sqlite::GeneratedAlways{"SELECT name FROM foo WHERE id=?",
Sqlite::GeneratedAlwaysStorage::Virtual}});
ASSERT_THAT(builder.sqlStatement(),
"CREATE TABLE test(id TEXT GENERATED ALWAYS AS (SELECT name FROM foo WHERE id=?) "
"VIRTUAL)");
}
TEST_F(CreateTableSqlStatementBuilder, PrimaryKeyAutoincrement)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer, {Sqlite::PrimaryKey{Sqlite::AutoIncrement::Yes}});
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(id INTEGER PRIMARY KEY AUTOINCREMENT)");
}
TEST_F(CreateTableSqlStatementBuilder, BlobType)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("data", ColumnType::Blob);
ASSERT_THAT(builder.sqlStatement(), "CREATE TABLE test(data BLOB)");
}
TEST_F(CreateTableSqlStatementBuilder, TablePrimaryKeyConstaint)
{
builder.clear();
builder.setTableName("test");
builder.addColumn("id", ColumnType::Integer);
builder.addColumn("text", ColumnType::Text);
builder.addConstraint(Sqlite::TablePrimaryKey{{"id, text"}});
auto statement = builder.sqlStatement();
ASSERT_THAT(statement, "CREATE TABLE test(id INTEGER, text TEXT, PRIMARY KEY(id, text))");
}
} // namespace
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