feedc0de/qt-creator
1
0
Fork 0
forked from qt-creator/qt-creator
Code Pull Requests Activity
Files
dc18d4b9ee88178241df9b51fbba2c4a3216cd12
qt-creator/tests/unit/unittest/sqlitevalue-test.cpp
Kai Köhne 56baf8c058 Remove GPL-3.0+ from license identifiers 
Since we also license under GPL-3.0 WITH Qt-GPL-exception-1.0,
this applies only to a hypothetical newer version of GPL, that doesn't
exist yet. If such a version emerges, we can still decide to relicense...

While at it, replace (deprecated) GPL-3.0 with more explicit GPL-3.0-only

Change was done by running

  find . -type f -exec perl -pi -e "s/LicenseRef-Qt-Commercial OR GPL-3.0\+ OR GPL-3.0 WITH Qt-GPL-exception-1.0/LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0/g" {} \;

Change-Id: I5097e6ce8d10233993ee30d7e25120e2659eb10b
Reviewed-by: Eike Ziller <eike.ziller@qt.io>
2023-01-06 11:15:13 +00:00

478 lines
9.4 KiB
C++
Raw Blame History

// Copyright (C) 2020 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
#include "googletest.h"
#include <sqlitevalue.h>
#include <utils/span.h>
namespace {
TEST(SqliteValue, ConstructDefault)
{
Sqlite::Value value{};
ASSERT_TRUE(value.isNull());
}
TEST(SqliteValue, ConstructNullValue)
{
Sqlite::Value value{Sqlite::NullValue{}};
ASSERT_TRUE(value.isNull());
}
TEST(SqliteValue, ConstructLongLong)
{
Sqlite::Value value{1LL};
ASSERT_THAT(value.toInteger(), Eq(1LL));
}
TEST(SqliteValue, ConstructInteger)
{
Sqlite::Value value{1};
ASSERT_THAT(value.toInteger(), Eq(1LL));
}
TEST(SqliteValue, ConstructFloatingPoint)
{
Sqlite::Value value{1.1};
ASSERT_THAT(value.toFloat(), Eq(1.1));
}
TEST(SqliteValue, ConstructStringFromCString)
{
Sqlite::Value value{"foo"};
ASSERT_THAT(value.toStringView(), Eq("foo"));
}
TEST(SqliteValue, ConstructStringFromUtilsString)
{
Sqlite::Value value{Utils::SmallString{"foo"}};
ASSERT_THAT(value.toStringView(), Eq("foo"));
}
TEST(SqliteValue, ConstructStringFromQString)
{
Sqlite::Value value{QString{"foo"}};
ASSERT_THAT(value.toStringView(), Eq("foo"));
}
TEST(SqliteValue, ConstructBlobFromSpan)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
Sqlite::Value value{Sqlite::BlobView{bytes}};
ASSERT_THAT(value.toBlobView(), Eq(bytes));
}
TEST(SqliteValue, ConstructBlobFromBlob)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
Sqlite::Value value{Sqlite::Blob{bytes}};
ASSERT_THAT(value.toBlobView(), Eq(bytes));
}
TEST(SqliteValue, ConstructNullFromNullQVariant)
{
QVariant variant{};
Sqlite::Value value{variant};
ASSERT_TRUE(value.isNull());
}
TEST(SqliteValue, ConstructStringFromIntQVariant)
{
QVariant variant{1};
Sqlite::Value value{variant};
ASSERT_THAT(value.toInteger(), Eq(1));
}
TEST(SqliteValue, ConstructStringFromLongLongQVariant)
{
QVariant variant{1LL};
Sqlite::Value value{variant};
ASSERT_THAT(value.toInteger(), Eq(1));
}
TEST(SqliteValue, ConstructStringFromUintQVariant)
{
QVariant variant{1u};
Sqlite::Value value{variant};
ASSERT_THAT(value.toInteger(), Eq(1));
}
TEST(SqliteValue, ConstructStringFromFloatQVariant)
{
QVariant variant{1.};
Sqlite::Value value{variant};
ASSERT_THAT(value.toFloat(), Eq(1));
}
TEST(SqliteValue, ConstructStringFromStringQVariant)
{
QVariant variant{QString{"foo"}};
Sqlite::Value value{variant};
ASSERT_THAT(value.toStringView(), Eq("foo"));
}
TEST(SqliteValue, ConstructBlobFromByteArrayQVariant)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
QVariant variant{QByteArray{"abcd"}};
Sqlite::Value value{variant};
ASSERT_THAT(value.toBlobView(), Eq(bytes));
}
TEST(SqliteValue, ConvertToNullQVariant)
{
Sqlite::Value value{};
auto variant = QVariant{value};
ASSERT_TRUE(variant.isNull());
}
TEST(SqliteValue, ConvertToStringQVariant)
{
Sqlite::Value value{"foo"};
auto variant = QVariant{value};
ASSERT_THAT(variant, Eq("foo"));
}
TEST(SqliteValue, ConvertToIntegerQVariant)
{
Sqlite::Value value{1};
auto variant = QVariant{value};
ASSERT_THAT(variant, Eq(1));
}
TEST(SqliteValue, ConvertToFloatQVariant)
{
Sqlite::Value value{1.1};
auto variant = QVariant{value};
ASSERT_THAT(variant, Eq(1.1));
}
TEST(SqliteValue, ConvertToByteArrayQVariant)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
Sqlite::Value value{bytes};
auto variant = QVariant{value};
ASSERT_THAT(variant, Eq(QByteArray{"abcd"}));
}
TEST(SqliteValue, IntegerEquals)
{
bool isEqual = Sqlite::Value{1} == 1LL;
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, IntegerEqualsInverse)
{
bool isEqual = 1LL == Sqlite::Value{1};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, FloatEquals)
{
bool isEqual = Sqlite::Value{1.0} == 1.;
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, FloatEqualsInverse)
{
bool isEqual = 1. == Sqlite::Value{1.0};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, StringEquals)
{
bool isEqual = Sqlite::Value{"foo"} == "foo";
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, StringEqualsInverse)
{
bool isEqual = "foo" == Sqlite::Value{"foo"};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, BlobEquals)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
bool isEqual = Sqlite::Value{bytes} == bytes;
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, BlobInverseEquals)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
bool isEqual = bytes == Sqlite::Value{bytes};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, IntegerAndFloatAreNotEquals)
{
bool isEqual = Sqlite::Value{1} == 1.;
ASSERT_FALSE(isEqual);
}
TEST(SqliteValue, NullValuesNeverEqual)
{
bool isEqual = Sqlite::Value{} == Sqlite::Value{};
ASSERT_FALSE(isEqual);
}
TEST(SqliteValue, IntegerValuesAreEquals)
{
bool isEqual = Sqlite::Value{1} == Sqlite::Value{1};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, IntegerAndFloatValuesAreNotEquals)
{
bool isEqual = Sqlite::Value{1} == Sqlite::Value{1.};
ASSERT_FALSE(isEqual);
}
TEST(SqliteValue, StringAndQStringAreEquals)
{
bool isEqual = Sqlite::Value{"foo"} == QString{"foo"};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, IntegerAndFloatValuesAreUnequal)
{
bool isUnequal = Sqlite::Value{1} != Sqlite::Value{1.0};
ASSERT_TRUE(isUnequal);
}
TEST(SqliteValue, IntegerAndFloatAreUnequal)
{
bool isUnequal = Sqlite::Value{1} != 1.0;
ASSERT_TRUE(isUnequal);
}
TEST(SqliteValue, IntegerAndFloatAreUnequalInverse)
{
bool isUnequal = 1.0 != Sqlite::Value{1};
ASSERT_TRUE(isUnequal);
}
TEST(SqliteValue, IntegersAreUnequal)
{
bool isUnequal = Sqlite::Value{1} != 2;
ASSERT_TRUE(isUnequal);
}
TEST(SqliteValue, IntegersAreUnequalInverse)
{
bool isUnequal = 2 != Sqlite::Value{1};
ASSERT_TRUE(isUnequal);
}
TEST(SqliteValue, NullType)
{
auto type = Sqlite::Value{}.type();
ASSERT_THAT(type, Sqlite::ValueType::Null);
}
TEST(SqliteValue, IntegerType)
{
auto type = Sqlite::Value{1}.type();
ASSERT_THAT(type, Sqlite::ValueType::Integer);
}
TEST(SqliteValue, FloatType)
{
auto type = Sqlite::Value{1.}.type();
ASSERT_THAT(type, Sqlite::ValueType::Float);
}
TEST(SqliteValue, StringType)
{
auto type = Sqlite::Value{"foo"}.type();
ASSERT_THAT(type, Sqlite::ValueType::String);
}
TEST(SqliteValue, BlobType)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
auto type = Sqlite::Value{bytes}.type();
ASSERT_THAT(type, Sqlite::ValueType::Blob);
}
TEST(SqliteValue, NullValueAndValueViewAreNotEqual)
{
bool isEqual = Sqlite::ValueView::create(Sqlite::NullValue{}) == Sqlite::Value{};
ASSERT_FALSE(isEqual);
}
TEST(SqliteValue, NullValueViewAndValueAreNotEqual)
{
bool isEqual = Sqlite::Value{} == Sqlite::ValueView::create(Sqlite::NullValue{});
ASSERT_FALSE(isEqual);
}
TEST(SqliteValue, StringValueAndValueViewEquals)
{
bool isEqual = Sqlite::ValueView::create("foo") == Sqlite::Value{"foo"};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, StringValueAndValueViewEqualsInverse)
{
bool isEqual = Sqlite::Value{"foo"} == Sqlite::ValueView::create("foo");
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, IntegerValueAndValueViewEquals)
{
bool isEqual = Sqlite::ValueView::create(1) == Sqlite::Value{1};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, IntegerValueAndValueViewEqualsInverse)
{
bool isEqual = Sqlite::Value{2} == Sqlite::ValueView::create(2);
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, FloatValueAndValueViewEquals)
{
bool isEqual = Sqlite::ValueView::create(1.1) == Sqlite::Value{1.1};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, FloatValueAndValueViewEqualsInverse)
{
bool isEqual = Sqlite::Value{1.1} == Sqlite::ValueView::create(1.1);
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, StringValueAndIntergerValueViewAreNotEqual)
{
bool isEqual = Sqlite::Value{"foo"} == Sqlite::ValueView::create(1);
ASSERT_FALSE(isEqual);
}
TEST(SqliteValue, BlobValueAndValueViewEquals)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
bool isEqual = Sqlite::ValueView::create(Sqlite::BlobView{bytes}) == Sqlite::Value{bytes};
ASSERT_TRUE(isEqual);
}
TEST(SqliteValue, ConvertNullValueViewIntoValue)
{
auto view = Sqlite::ValueView::create(Sqlite::NullValue{});
Sqlite::Value value{view};
ASSERT_TRUE(value.isNull());
}
TEST(SqliteValue, ConvertStringValueViewIntoValue)
{
auto view = Sqlite::ValueView::create("foo");
Sqlite::Value value{view};
ASSERT_THAT(value, Eq("foo"));
}
TEST(SqliteValue, ConvertIntegerValueViewIntoValue)
{
auto view = Sqlite::ValueView::create(1);
Sqlite::Value value{view};
ASSERT_THAT(value, Eq(1));
}
TEST(SqliteValue, ConvertFloatValueViewIntoValue)
{
auto view = Sqlite::ValueView::create(1.4);
Sqlite::Value value{view};
ASSERT_THAT(value, Eq(1.4));
}
TEST(SqliteValue, ConvertBlobValueViewIntoValue)
{
Utils::span<const std::byte> bytes{reinterpret_cast<const std::byte *>("abcd"), 4};
auto view = Sqlite::ValueView::create(Sqlite::BlobView{bytes});
Sqlite::Value value{view};
ASSERT_THAT(value, Eq(Sqlite::BlobView{bytes}));
}
} // namespace
View Git Blame Copy Permalink