forked from qt-creator/qt-creator
0e1870368c
It adds a layer if you don't know if the type is integer, float or string. It does not handle bytearrays here because so far there is no need. There are two classes, Sqlite::Value and Sqlite::ValueView. Value owns the string, ValueView holds only a view the string. So there is no allocation. It is designed to hold Utf-8 string like Sqlite but it can be easily converted in and from QString or QVariant but mind about that this is not free. ValueView has no constructors on perpose because it would be ambiguous if there would be constructors for the other primitives of the Sqlite layer like "int64", "double" and "string view". Change-Id: Ia39364eb2fc1998e5c59fdb4316add22c748507d Reviewed-by: Tim Jenssen <tim.jenssen@qt.io>
349 lines
7.0 KiB
C++
349 lines
7.0 KiB
C++
/****************************************************************************
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**
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** Copyright (C) 2020 The Qt Company Ltd.
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** Contact: https://www.qt.io/licensing/
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**
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** This file is part of Qt Creator.
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**
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** Commercial License Usage
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** Licensees holding valid commercial Qt licenses may use this file in
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** accordance with the commercial license agreement provided with the
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** Software or, alternatively, in accordance with the terms contained in
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** a written agreement between you and The Qt Company. For licensing terms
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** and conditions see https://www.qt.io/terms-conditions. For further
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** information use the contact form at https://www.qt.io/contact-us.
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**
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** GNU General Public License Usage
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** Alternatively, this file may be used under the terms of the GNU
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** General Public License version 3 as published by the Free Software
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** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
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** included in the packaging of this file. Please review the following
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** information to ensure the GNU General Public License requirements will
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** be met: https://www.gnu.org/licenses/gpl-3.0.html.
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**
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****************************************************************************/
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#include "googletest.h"
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#include <sqlitevalue.h>
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namespace {
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TEST(SqliteValue, ConstructLongLong)
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{
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Sqlite::Value value{1LL};
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ASSERT_THAT(value.toInteger(), Eq(1LL));
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}
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TEST(SqliteValue, Construct)
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{
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Sqlite::Value value{1};
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ASSERT_THAT(value.toInteger(), Eq(1LL));
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}
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TEST(SqliteValue, ConstructFloatingPoint)
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{
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Sqlite::Value value{1.1};
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ASSERT_THAT(value.toFloat(), Eq(1.1));
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}
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TEST(SqliteValue, ConstructStringFromCString)
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{
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Sqlite::Value value{"foo"};
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ASSERT_THAT(value.toStringView(), Eq("foo"));
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}
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TEST(SqliteValue, ConstructStringFromUtilsString)
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{
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Sqlite::Value value{Utils::SmallString{"foo"}};
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ASSERT_THAT(value.toStringView(), Eq("foo"));
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}
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TEST(SqliteValue, ConstructStringFromQString)
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{
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Sqlite::Value value{QString{"foo"}};
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ASSERT_THAT(value.toStringView(), Eq("foo"));
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}
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TEST(SqliteValue, ConstructStringFromIntQVariant)
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{
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QVariant variant{1};
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Sqlite::Value value{variant};
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ASSERT_THAT(value.toInteger(), Eq(1));
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}
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TEST(SqliteValue, ConstructStringFromLongLongQVariant)
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{
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QVariant variant{1LL};
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Sqlite::Value value{variant};
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ASSERT_THAT(value.toInteger(), Eq(1));
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}
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TEST(SqliteValue, ConstructStringFromUintQVariant)
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{
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QVariant variant{1u};
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Sqlite::Value value{variant};
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ASSERT_THAT(value.toInteger(), Eq(1));
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}
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TEST(SqliteValue, ConstructStringFromFloatQVariant)
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{
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QVariant variant{1.};
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Sqlite::Value value{variant};
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ASSERT_THAT(value.toFloat(), Eq(1));
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}
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TEST(SqliteValue, ConstructStringFromStringQVariant)
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{
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QVariant variant{QString{"foo"}};
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Sqlite::Value value{variant};
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ASSERT_THAT(value.toStringView(), Eq("foo"));
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}
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TEST(SqliteValue, ConvertToStringQVariant)
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{
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Sqlite::Value value{"foo"};
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auto variant = QVariant{value};
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ASSERT_THAT(variant, Eq("foo"));
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}
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TEST(SqliteValue, ConvertToIntegerQVariant)
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{
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Sqlite::Value value{1};
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auto variant = QVariant{value};
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ASSERT_THAT(variant, Eq(1));
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}
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TEST(SqliteValue, ConvertToFloatQVariant)
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{
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Sqlite::Value value{1.1};
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auto variant = QVariant{value};
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ASSERT_THAT(variant, Eq(1.1));
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}
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TEST(SqliteValue, IntegerEquals)
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{
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bool isEqual = Sqlite::Value{1} == 1LL;
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, IntegerEqualsInverse)
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{
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bool isEqual = 1LL == Sqlite::Value{1};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, FloatEquals)
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{
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bool isEqual = Sqlite::Value{1.0} == 1.;
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, FloatEqualsInverse)
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{
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bool isEqual = 1. == Sqlite::Value{1.0};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, StringEquals)
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{
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bool isEqual = Sqlite::Value{"foo"} == "foo";
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, StringEqualsInverse)
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{
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bool isEqual = "foo" == Sqlite::Value{"foo"};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, IntegerAndFloatAreNotEquals)
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{
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bool isEqual = Sqlite::Value{1} == 1.;
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ASSERT_FALSE(isEqual);
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}
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TEST(SqliteValue, IntegerValuesAreEquals)
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{
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bool isEqual = Sqlite::Value{1} == Sqlite::Value{1};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, IntegerAndFloatValuesAreNotEquals)
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{
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bool isEqual = Sqlite::Value{1} == Sqlite::Value{1.};
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ASSERT_FALSE(isEqual);
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}
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TEST(SqliteValue, StringAndQStringAreEquals)
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{
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bool isEqual = Sqlite::Value{"foo"} == QString{"foo"};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, IntegerAndFloatValuesAreUnequal)
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{
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bool isUnequal = Sqlite::Value{1} != Sqlite::Value{1.0};
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ASSERT_TRUE(isUnequal);
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}
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TEST(SqliteValue, IntegerAndFloatAreUnequal)
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{
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bool isUnequal = Sqlite::Value{1} != 1.0;
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ASSERT_TRUE(isUnequal);
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}
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TEST(SqliteValue, IntegerAndFloatAreUnequalInverse)
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{
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bool isUnequal = 1.0 != Sqlite::Value{1};
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ASSERT_TRUE(isUnequal);
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}
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TEST(SqliteValue, IntegersAreUnequal)
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{
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bool isUnequal = Sqlite::Value{1} != 2;
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ASSERT_TRUE(isUnequal);
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}
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TEST(SqliteValue, IntegersAreUnequalInverse)
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{
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bool isUnequal = 2 != Sqlite::Value{1};
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ASSERT_TRUE(isUnequal);
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}
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TEST(SqliteValue, IntegerType)
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{
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auto type = Sqlite::Value{1}.type();
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ASSERT_THAT(type, Sqlite::ValueType::Integer);
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}
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TEST(SqliteValue, FloatType)
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{
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auto type = Sqlite::Value{1.}.type();
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ASSERT_THAT(type, Sqlite::ValueType::Float);
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}
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TEST(SqliteValue, StringType)
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{
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auto type = Sqlite::Value{"foo"}.type();
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ASSERT_THAT(type, Sqlite::ValueType::String);
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}
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TEST(SqliteValue, StringValueAndValueViewEquals)
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{
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bool isEqual = Sqlite::ValueView::create("foo") == Sqlite::Value{"foo"};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, StringValueAndValueViewEqualsInverse)
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{
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bool isEqual = Sqlite::Value{"foo"} == Sqlite::ValueView::create("foo");
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, IntegerValueAndValueViewEquals)
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{
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bool isEqual = Sqlite::ValueView::create(1) == Sqlite::Value{1};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, IntegerValueAndValueViewEqualsInverse)
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{
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bool isEqual = Sqlite::Value{2} == Sqlite::ValueView::create(2);
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, FloatValueAndValueViewEquals)
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{
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bool isEqual = Sqlite::ValueView::create(1.1) == Sqlite::Value{1.1};
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, FloatValueAndValueViewEqualsInverse)
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{
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bool isEqual = Sqlite::Value{1.1} == Sqlite::ValueView::create(1.1);
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ASSERT_TRUE(isEqual);
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}
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TEST(SqliteValue, StringValueAndIntergerValueViewAreNotEqual)
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{
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bool isEqual = Sqlite::Value{"foo"} == Sqlite::ValueView::create(1);
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ASSERT_FALSE(isEqual);
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}
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TEST(SqliteValue, ConvertStringValueViewIntoValue)
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{
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auto view = Sqlite::ValueView::create("foo");
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Sqlite::Value value{view};
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ASSERT_THAT(value, Eq("foo"));
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}
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TEST(SqliteValue, ConvertIntegerValueViewIntoValue)
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{
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auto view = Sqlite::ValueView::create(1);
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Sqlite::Value value{view};
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ASSERT_THAT(value, Eq(1));
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}
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TEST(SqliteValue, ConvertFloatValueViewIntoValue)
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{
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auto view = Sqlite::ValueView::create(1.4);
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Sqlite::Value value{view};
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ASSERT_THAT(value, Eq(1.4));
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}
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} // namespace
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