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qt-creator/tests/unit/unittest/sqlitestatement-test.cpp
Marco Bubke d2e15e5f1e Clang: Add file cache 
The database is using file path integer ids to handle file paths because
otherwise we would save many redundant data. This patch is improving it
further with the introduction of a database based file path cache. The
entries are now divided in a directory path and file name. This is quite
handy for directory based file watching.

Change-Id: I03f2e388e43f3d521d6bf8e39dfb95eb2309dc73
Reviewed-by: Tim Jenssen <tim.jenssen@qt.io>
2017-10-05 17:36:37 +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 "mocksqlitestatement.h"
#include "sqliteteststatement.h"
#include <sqlitedatabase.h>
#include <sqlitereadstatement.h>
#include <sqlitereadwritestatement.h>
#include <sqlitewritestatement.h>
#include <utils/smallstringio.h>
#include <QDir>
#include <vector>
namespace {
using Sqlite::JournalMode;
using Sqlite::Exception;
using Sqlite::Database;
using Sqlite::ReadStatement;
using Sqlite::ReadWriteStatement;
using Sqlite::WriteStatement;
MATCHER_P3(HasValues, value1, value2, rowid,
std::string(negation ? "isn't" : "is")
+ PrintToString(value1)
+ ", " + PrintToString(value2)
+ " and " + PrintToString(rowid)
)
{
Database &database = arg.database();
SqliteTestStatement statement("SELECT name, number FROM test WHERE rowid=?", database);
statement.bind(1, rowid);
statement.next();
return statement.fetchPathStringValue(0) == value1 && statement.fetchPathStringValue(1) == value2;
}
class SqliteStatement : public ::testing::Test
{
protected:
void SetUp() override;
void TearDown() override;
protected:
Database database;
};
struct Output
{
Output(Utils::SmallString name, Utils::SmallString number, long long value)
: name(name), number(number), value(value)
{}
Utils::SmallString name;
Utils::SmallString number;
long long value;
friend bool operator==(const Output &f, const Output &s)
{
return f.name == s.name && f.number == s.number && f.value == s.value;
}
friend std::ostream &operator<<(std::ostream &out, const Output &o)
{
return out << "(" << o.name << ", " << ", " << o.number<< ", " << o.value<< ")";
}
};
TEST_F(SqliteStatement, ThrowsStatementHasErrorForWrongSqlStatement)
{
ASSERT_THROW(ReadStatement("blah blah blah", database), Sqlite::StatementHasError);
}
TEST_F(SqliteStatement, ThrowsNotReadOnlySqlStatementForWritableSqlStatementInReadStatement)
{
ASSERT_THROW(ReadStatement("INSERT INTO test(name, number) VALUES (?, ?)", database),
Sqlite::NotReadOnlySqlStatement);
}
TEST_F(SqliteStatement, ThrowsNotReadonlySqlStatementForWritableSqlStatementInReadStatement)
{
ASSERT_THROW(WriteStatement("SELECT name, number FROM test", database),
Sqlite::NotWriteSqlStatement);
}
TEST_F(SqliteStatement, CountRows)
{
SqliteTestStatement statement("SELECT * FROM test", database);
int nextCount = 0;
while (statement.next())
++nextCount;
int sqlCount = ReadStatement::toValue<int>("SELECT count(*) FROM test", database);
ASSERT_THAT(nextCount, sqlCount);
}
TEST_F(SqliteStatement, Value)
{
SqliteTestStatement statement("SELECT name, number FROM test ORDER BY name", database);
statement.next();
statement.next();
ASSERT_THAT(statement.fetchValue<int>(0), 0);
ASSERT_THAT(statement.fetchValue<int64_t>(0), 0);
ASSERT_THAT(statement.fetchValue<double>(0), 0.0);
ASSERT_THAT(statement.fetchSmallStringValue(0), "foo");
ASSERT_THAT(statement.fetchPathStringValue(0), "foo");
ASSERT_THAT(statement.fetchValue<int>(1), 23);
ASSERT_THAT(statement.fetchValue<int64_t>(1), 23);
ASSERT_THAT(statement.fetchValue<double>(1), 23.3);
ASSERT_THAT(statement.fetchSmallStringValue(1), "23.3");
ASSERT_THAT(statement.fetchPathStringValue(1), "23.3");
}
TEST_F(SqliteStatement, ThrowNoValuesToFetchForNotSteppedStatement)
{
SqliteTestStatement statement("SELECT name, number FROM test", database);
ASSERT_THROW(statement.fetchValue<int>(0), Sqlite::NoValuesToFetch);
}
TEST_F(SqliteStatement, ThrowNoValuesToFetchForDoneStatement)
{
SqliteTestStatement statement("SELECT name, number FROM test", database);
while (statement.next()) {}
ASSERT_THROW(statement.fetchValue<int>(0), Sqlite::NoValuesToFetch);
}
TEST_F(SqliteStatement, ThrowInvalidColumnFetchedForNegativeColumn)
{
SqliteTestStatement statement("SELECT name, number FROM test", database);
statement.next();
ASSERT_THROW(statement.fetchValue<int>(-1), Sqlite::InvalidColumnFetched);
}
TEST_F(SqliteStatement, ThrowInvalidColumnFetchedForNotExistingColumn)
{
SqliteTestStatement statement("SELECT name, number FROM test", database);
statement.next();
ASSERT_THROW(statement.fetchValue<int>(2), Sqlite::InvalidColumnFetched);
}
TEST_F(SqliteStatement, ToIntergerValue)
{
auto value = ReadStatement::toValue<int>("SELECT number FROM test WHERE name='foo'", database);
ASSERT_THAT(value, 23);
}
TEST_F(SqliteStatement, ToLongIntergerValue)
{
ASSERT_THAT(ReadStatement::toValue<qint64>("SELECT number FROM test WHERE name='foo'", database), Eq(23));
}
TEST_F(SqliteStatement, ToDoubleValue)
{
ASSERT_THAT(ReadStatement::toValue<double>("SELECT number FROM test WHERE name='foo'", database), 23.3);
}
TEST_F(SqliteStatement, ToStringValue)
{
ASSERT_THAT(ReadStatement::toValue<Utils::SmallString>("SELECT name FROM test WHERE name='foo'", database), "foo");
}
TEST_F(SqliteStatement, ColumnNames)
{
SqliteTestStatement statement("SELECT name, number FROM test", database);
auto columnNames = statement.columnNames();
ASSERT_THAT(columnNames, ElementsAre("name", "number"));
}
TEST_F(SqliteStatement, BindString)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE name=?", database);
statement.bind(1, "foo");
statement.next();
ASSERT_THAT(statement.fetchSmallStringValue(0), "foo");
ASSERT_THAT(statement.fetchValue<double>(1), 23.3);
}
TEST_F(SqliteStatement, BindInteger)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=?", database);
statement.bind(1, 40);
statement.next();
ASSERT_THAT(statement.fetchSmallStringValue(0),"poo");
}
TEST_F(SqliteStatement, BindLongInteger)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=?", database);
statement.bind(1, int64_t(40));
statement.next();
ASSERT_THAT(statement.fetchSmallStringValue(0), "poo");
}
TEST_F(SqliteStatement, BindDouble)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=?", database);
statement.bind(1, 23.3);
statement.next();
ASSERT_THAT(statement.fetchSmallStringValue(0), "foo");
}
TEST_F(SqliteStatement, BindIntegerByParameter)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=@number", database);
statement.bind("@number", 40);
statement.next();
ASSERT_THAT(statement.fetchSmallStringValue(0), "poo");
}
TEST_F(SqliteStatement, BindLongIntegerByParameter)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=@number", database);
statement.bind("@number", int64_t(40));
statement.next();
ASSERT_THAT(statement.fetchSmallStringValue(0), "poo");
}
TEST_F(SqliteStatement, BindDoubleByIndex)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=@number", database);
statement.bind(statement.bindingIndexForName("@number"), 23.3);
statement.next();
ASSERT_THAT(statement.fetchSmallStringValue(0), "foo");
}
TEST_F(SqliteStatement, BindIndexIsZeroIsThrowingBindingIndexIsOutOfBound)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=$1", database);
ASSERT_THROW(statement.bind(0, 40), Sqlite::BindingIndexIsOutOfRange);
}
TEST_F(SqliteStatement, BindIndexIsTpLargeIsThrowingBindingIndexIsOutOfBound)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=$1", database);
ASSERT_THROW(statement.bind(2, 40), Sqlite::BindingIndexIsOutOfRange);
}
TEST_F(SqliteStatement, WrongBindingNameThrowingBindingIndexIsOutOfBound)
{
SqliteTestStatement statement("SELECT name, number FROM test WHERE number=@name", database);
ASSERT_THROW(statement.bind("@name2", 40), Sqlite::WrongBindingName);
}
TEST_F(SqliteStatement, BindValues)
{
SqliteTestStatement statement("UPDATE test SET name=?, number=? WHERE rowid=?", database);
statement.bindValues("see", 7.23, 1);
statement.execute();
ASSERT_THAT(statement, HasValues("see", "7.23", 1));
}
TEST_F(SqliteStatement, WriteValues)
{
WriteStatement statement("UPDATE test SET name=?, number=? WHERE rowid=?", database);
statement.write("see", 7.23, 1);
ASSERT_THAT(statement, HasValues("see", "7.23", 1));
}
TEST_F(SqliteStatement, BindNamedValues)
{
SqliteTestStatement statement("UPDATE test SET name=@name, number=@number WHERE rowid=@id", database);
statement.bindNameValues("@name", "see", "@number", 7.23, "@id", 1);
statement.execute();
ASSERT_THAT(statement, HasValues("see", "7.23", 1));
}
TEST_F(SqliteStatement, WriteNamedValues)
{
WriteStatement statement("UPDATE test SET name=@name, number=@number WHERE rowid=@id", database);
statement.writeNamed("@name", "see", "@number", 7.23, "@id", 1);
ASSERT_THAT(statement, HasValues("see", "7.23", 1));
}
TEST_F(SqliteStatement, CannotWriteToClosedDatabase)
{
database.close();
ASSERT_THROW(WriteStatement("INSERT INTO test(name, number) VALUES (?, ?)", database),
Sqlite::DatabaseIsNotOpen);
}
TEST_F(SqliteStatement, CannotReadFromClosedDatabase)
{
database.close();
ASSERT_THROW(ReadStatement("SELECT * FROM test", database),
Sqlite::DatabaseIsNotOpen);
}
TEST_F(SqliteStatement, GetTupleValuesWithoutArguments)
{
using Tuple = std::tuple<Utils::SmallString, double, int>;
ReadStatement statement("SELECT name, number, value FROM test", database);
auto values = statement.values<Tuple, 3>(3);
ASSERT_THAT(values, ElementsAre(Tuple{"bar", 0, 1},
Tuple{"foo", 23.3, 2},
Tuple{"poo", 40.0, 3}));
}
TEST_F(SqliteStatement, GetSingleValuesWithoutArguments)
{
ReadStatement statement("SELECT name FROM test", database);
std::vector<Utils::SmallString> values = statement.values<Utils::SmallString>(3);
ASSERT_THAT(values, ElementsAre("bar", "foo", "poo"));
}
TEST_F(SqliteStatement, GetStructValuesWithoutArguments)
{
ReadStatement statement("SELECT name, number, value FROM test", database);
auto values = statement.values<Output, 3>(3);
ASSERT_THAT(values, ElementsAre(Output{"bar", "blah", 1},
Output{"foo", "23.3", 2},
Output{"poo", "40", 3}));
}
TEST_F(SqliteStatement, GetValuesForSingleOutputWithBindingMultipleTimes)
{
ReadStatement statement("SELECT name FROM test WHERE number=?", database);
statement.values<Utils::SmallString>(3, 40);
std::vector<Utils::SmallString> values = statement.values<Utils::SmallString>(3, 40);
ASSERT_THAT(values, ElementsAre("poo"));
}
TEST_F(SqliteStatement, GetValuesForMultipleOutputValuesAndContainerQueryValues)
{
using Tuple = std::tuple<Utils::SmallString, double, double>;
std::vector<double> queryValues = {40, 23.3};
ReadStatement statement("SELECT name, number, value FROM test WHERE number=?", database);
auto values = statement.values<Tuple, 3>(3, queryValues);
ASSERT_THAT(values, ElementsAre(Tuple{"poo", 40, 3.},
Tuple{"foo", 23.3, 2.}));
}
TEST_F(SqliteStatement, GetValuesForSingleOutputValuesAndContainerQueryValues)
{
std::vector<double> queryValues = {40, 23.3};
ReadStatement statement("SELECT name, number FROM test WHERE number=?", database);
std::vector<Utils::SmallString> values = statement.values<Utils::SmallString>(3, queryValues);
ASSERT_THAT(values, ElementsAre("poo", "foo"));
}
TEST_F(SqliteStatement, GetValuesForMultipleOutputValuesAndContainerQueryTupleValues)
{
using Tuple = std::tuple<Utils::SmallString, Utils::SmallString, int>;
using ResultTuple = std::tuple<Utils::SmallString, double, int>;
std::vector<Tuple> queryValues = {{"poo", "40", 3}, {"bar", "blah", 1}};
ReadStatement statement("SELECT name, number, value FROM test WHERE name= ? AND number=? AND value=?", database);
auto values = statement.values<ResultTuple, 3>(3, queryValues);
ASSERT_THAT(values, ElementsAre(ResultTuple{"poo", 40, 3},
ResultTuple{"bar", 0, 1}));
}
TEST_F(SqliteStatement, GetValuesForSingleOutputValuesAndContainerQueryTupleValues)
{
using Tuple = std::tuple<Utils::SmallString, Utils::SmallString>;
std::vector<Tuple> queryValues = {{"poo", "40"}, {"bar", "blah"}};
ReadStatement statement("SELECT name, number FROM test WHERE name= ? AND number=?", database);
std::vector<Utils::SmallString> values = statement.values<Utils::SmallString>(3, queryValues);
ASSERT_THAT(values, ElementsAre("poo", "bar"));
}
TEST_F(SqliteStatement, GetValuesForMultipleOutputValuesAndMultipleQueryValue)
{
using Tuple = std::tuple<Utils::SmallString, Utils::SmallString, long long>;
ReadStatement statement("SELECT name, number, value FROM test WHERE name=? AND number=? AND value=?", database);
auto values = statement.values<Tuple, 3>(3, "bar", "blah", 1);
ASSERT_THAT(values, ElementsAre(Tuple{"bar", "blah", 1}));
}
TEST_F(SqliteStatement, CallGetValuesForMultipleOutputValuesAndMultipleQueryValueMultipleTimes)
{
using Tuple = std::tuple<Utils::SmallString, Utils::SmallString, long long>;
ReadStatement statement("SELECT name, number, value FROM test WHERE name=? AND number=?", database);
statement.values<Tuple, 3>(3, "bar", "blah");
auto values = statement.values<Tuple, 3>(3, "bar", "blah");
ASSERT_THAT(values, ElementsAre(Tuple{"bar", "blah", 1}));
}
TEST_F(SqliteStatement, GetStructOutputValuesAndMultipleQueryValue)
{
ReadStatement statement("SELECT name, number, value FROM test WHERE name=? AND number=? AND value=?", database);
auto values = statement.values<Output, 3>(3, "bar", "blah", 1);
ASSERT_THAT(values, ElementsAre(Output{"bar", "blah", 1}));
}
TEST_F(SqliteStatement, GetStructOutputValuesAndContainerQueryValues)
{
std::vector<double> queryValues = {40, 23.3};
ReadStatement statement("SELECT name, number, value FROM test WHERE number=?", database);
auto values = statement.values<Output, 3>(3, queryValues);
ASSERT_THAT(values, ElementsAre(Output{"poo", "40", 3},
Output{"foo", "23.3", 2}));
}
TEST_F(SqliteStatement, GetStructOutputValuesAndContainerQueryTupleValues)
{
using Tuple = std::tuple<Utils::SmallString, Utils::SmallString, int>;
std::vector<Tuple> queryValues = {{"poo", "40", 3}, {"bar", "blah", 1}};
ReadStatement statement("SELECT name, number, value FROM test WHERE name= ? AND number=? AND value=?", database);
auto values = statement.values<Output, 3>(3, queryValues);
ASSERT_THAT(values, ElementsAre(Output{"poo", "40", 3},
Output{"bar", "blah", 1}));
}
TEST_F(SqliteStatement, GetOptionalSingleValueAndMultipleQueryValue)
{
ReadStatement statement("SELECT name FROM test WHERE name=? AND number=? AND value=?", database);
auto value = statement.value<Utils::SmallString>("bar", "blah", 1);
ASSERT_THAT(value.value(), Eq("bar"));
}
TEST_F(SqliteStatement, GetOptionalOutputValueAndMultipleQueryValue)
{
ReadStatement statement("SELECT name, number, value FROM test WHERE name=? AND number=? AND value=?", database);
auto value = statement.value<Output, 3>("bar", "blah", 1);
ASSERT_THAT(value.value(), Eq(Output{"bar", "blah", 1}));
}
TEST_F(SqliteStatement, GetOptionalTupleValueAndMultipleQueryValue)
{
using Tuple = std::tuple<Utils::SmallString, Utils::SmallString, long long>;
ReadStatement statement("SELECT name, number, value FROM test WHERE name=? AND number=? AND value=?", database);
auto value = statement.value<Tuple, 3>("bar", "blah", 1);
ASSERT_THAT(value.value(), Eq(Tuple{"bar", "blah", 1}));
}
TEST_F(SqliteStatement, GetOptionalValueCallsReset)
{
MockSqliteStatement mockStatement;
EXPECT_CALL(mockStatement, reset());
mockStatement.value<int>("bar");
}
TEST_F(SqliteStatement, GetOptionalValueCallsResetIfExceptionIsThrown)
{
MockSqliteStatement mockStatement;
ON_CALL(mockStatement, next()).WillByDefault(Throw(Sqlite::StatementHasError("")));
EXPECT_CALL(mockStatement, reset());
EXPECT_THROW(mockStatement.value<int>("bar"), Sqlite::StatementHasError);
}
TEST_F(SqliteStatement, GetValuesWithoutArgumentsCallsReset)
{
MockSqliteStatement mockStatement;
EXPECT_CALL(mockStatement, reset());
mockStatement.values<int>(3);
}
TEST_F(SqliteStatement, GetValuesWithoutArgumentsCallsResetIfExceptionIsThrown)
{
MockSqliteStatement mockStatement;
ON_CALL(mockStatement, next()).WillByDefault(Throw(Sqlite::StatementHasError("")));
EXPECT_CALL(mockStatement, reset());
EXPECT_THROW(mockStatement.values<int>(3), Sqlite::StatementHasError);
}
TEST_F(SqliteStatement, GetValuesWithSimpleArgumentsCallsReset)
{
MockSqliteStatement mockStatement;
EXPECT_CALL(mockStatement, reset());
mockStatement.values<int>(3, "foo", "bar");
}
TEST_F(SqliteStatement, GetValuesWithSimpleArgumentsCallsResetIfExceptionIsThrown)
{
MockSqliteStatement mockStatement;
ON_CALL(mockStatement, next()).WillByDefault(Throw(Sqlite::StatementHasError("")));
EXPECT_CALL(mockStatement, reset());
EXPECT_THROW(mockStatement.values<int>(3, "foo", "bar"), Sqlite::StatementHasError);
}
TEST_F(SqliteStatement, GetValuesWithVectorArgumentsCallsReset)
{
MockSqliteStatement mockStatement;
EXPECT_CALL(mockStatement, reset()).Times(2);
mockStatement.values<int>(3, std::vector<Utils::SmallString>{"bar", "foo"});
}
TEST_F(SqliteStatement, GetValuesWithVectorArgumentCallsResetIfExceptionIsThrown)
{
MockSqliteStatement mockStatement;
ON_CALL(mockStatement, next()).WillByDefault(Throw(Sqlite::StatementHasError("")));
EXPECT_CALL(mockStatement, reset());
EXPECT_THROW(mockStatement.values<int>(3, std::vector<Utils::SmallString>{"bar", "foo"}),
Sqlite::StatementHasError);
}
TEST_F(SqliteStatement, GetValuesWithTupleArgumentsCallsReset)
{
MockSqliteStatement mockStatement;
EXPECT_CALL(mockStatement, reset()).Times(2);
mockStatement.values<int>(3, std::vector<std::tuple<int>>{{1}, {2}});
}
TEST_F(SqliteStatement, GetValuesWithTupleArgumentsCallsResetIfExceptionIsThrown)
{
MockSqliteStatement mockStatement;
ON_CALL(mockStatement, next()).WillByDefault(Throw(Sqlite::StatementHasError("")));
EXPECT_CALL(mockStatement, reset());
EXPECT_THROW(mockStatement.values<int>(3, std::vector<std::tuple<int>>{{1}, {2}}),
Sqlite::StatementHasError);
}
void SqliteStatement::SetUp()
{
database.setJournalMode(JournalMode::Memory);
database.open(":memory:");
database.execute("CREATE TABLE test(name TEXT UNIQUE, number NUMERIC, value NUMERIC)");
database.execute("INSERT INTO test VALUES ('bar', 'blah', 1)");
database.execute("INSERT INTO test VALUES ('foo', 23.3, 2)");
database.execute("INSERT INTO test VALUES ('poo', 40, 3)");
}
void SqliteStatement::TearDown()
{
if (database.isOpen())
database.close();
}
}
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