The QVariant class acts like a union for the most common Qt data types. More...
Header: | #include <QVariant> |
qmake: | QT += core |
QVariant(QVariant &&other) | |
QVariant(const QPersistentModelIndex &val) | |
QVariant(const QModelIndex &val) | |
QVariant(const QJsonDocument &val) | |
QVariant(const QJsonArray &val) | |
QVariant(const QJsonObject &val) | |
QVariant(const QJsonValue &val) | |
QVariant(const QUrl &val) | |
QVariant(const QUuid &val) | |
QVariant(const QEasingCurve &val) | |
QVariant(const QRegularExpression &re) | |
QVariant(const QRegExp ®Exp) | |
QVariant(const QLocale &l) | |
QVariant(const QRectF &val) | |
QVariant(const QRect &val) | |
QVariant(const QLineF &val) | |
QVariant(const QLine &val) | |
QVariant(const QPointF &val) | |
QVariant(const QPoint &val) | |
QVariant(const QSizeF &val) | |
QVariant(const QSize &val) | |
QVariant(const QHash<QString, QVariant> &val) | |
QVariant(const QMap<QString, QVariant> &val) | |
QVariant(const QList<QVariant> &val) | |
QVariant(const QDateTime &val) | |
QVariant(const QTime &val) | |
QVariant(const QDate &val) | |
QVariant(QChar c) | |
QVariant(const QStringList &val) | |
QVariant(QLatin1String val) | |
QVariant(const QString &val) | |
QVariant(const QBitArray &val) | |
QVariant(const QByteArray &val) | |
QVariant(const char *val) | |
QVariant(float val) | |
QVariant(double val) | |
QVariant(bool val) | |
QVariant(qulonglong val) | |
QVariant(qlonglong val) | |
QVariant(uint val) | |
QVariant(int val) | |
QVariant(QDataStream &s) | |
QVariant(const QVariant &p) | |
QVariant(int typeId, const void *copy) | |
QVariant(QVariant::Type type) | |
QVariant() | |
QVariant & | operator=(QVariant &&other) |
QVariant & | operator=(const QVariant &variant) |
~QVariant() | |
bool | canConvert(int targetTypeId) const |
bool | canConvert() const |
void | clear() |
bool | convert(int targetTypeId) |
bool | isNull() const |
bool | isValid() const |
void | setValue(const T &value) |
void | swap(QVariant &other) |
QBitArray | toBitArray() const |
bool | toBool() const |
QByteArray | toByteArray() const |
QChar | toChar() const |
QDate | toDate() const |
QDateTime | toDateTime() const |
double | toDouble(bool *ok = nullptr) const |
QEasingCurve | toEasingCurve() const |
float | toFloat(bool *ok = nullptr) const |
QHash<QString, QVariant> | toHash() const |
int | toInt(bool *ok = nullptr) const |
QJsonArray | toJsonArray() const |
QJsonDocument | toJsonDocument() const |
QJsonObject | toJsonObject() const |
QJsonValue | toJsonValue() const |
QLine | toLine() const |
QLineF | toLineF() const |
QList<QVariant> | toList() const |
QLocale | toLocale() const |
qlonglong | toLongLong(bool *ok = nullptr) const |
QMap<QString, QVariant> | toMap() const |
QModelIndex | toModelIndex() const |
QPersistentModelIndex | toPersistentModelIndex() const |
QPoint | toPoint() const |
QPointF | toPointF() const |
qreal | toReal(bool *ok = nullptr) const |
QRect | toRect() const |
QRectF | toRectF() const |
QRegExp | toRegExp() const |
QRegularExpression | toRegularExpression() const |
QSize | toSize() const |
QSizeF | toSizeF() const |
QString | toString() const |
QStringList | toStringList() const |
QTime | toTime() const |
uint | toUInt(bool *ok = nullptr) const |
qulonglong | toULongLong(bool *ok = nullptr) const |
QUrl | toUrl() const |
QUuid | toUuid() const |
QVariant::Type | type() const |
const char * | typeName() const |
int | userType() const |
T | value() const |
bool | operator!=(const QVariant &v) const |
bool | operator==(const QVariant &v) const |
QVariant | fromStdVariant(const std::variant<Types...> &value) |
QVariant | fromValue(const T &value) |
QVariant::Type | nameToType(const char *name) |
const char * | typeToName(int typeId) |
typedef | QVariantHash |
typedef | QVariantList |
typedef | QVariantMap |
T | qvariant_cast(const QVariant &value) |
bool | operator!=(const QVariant &v1, const QVariant &v2) |
bool | operator==(const QVariant &v1, const QVariant &v2) |
Because C++ forbids unions from including types that have non-default constructors or destructors, most interesting Qt classes cannot be used in unions. Without QVariant, this would be a problem for QObject::property() and for database work, etc.
A QVariant object holds a single value of a single type() at a time. (Some type()s are multi-valued, for example a string list.) You can find out what type, T, the variant holds, convert it to a different type using convert(), get its value using one of the toT() functions (e.g., toSize()) and check whether the type can be converted to a particular type using canConvert().
The methods named toT() (e.g., toInt(), toString()) are const. If you ask for the stored type, they return a copy of the stored object. If you ask for a type that can be generated from the stored type, toT() copies and converts and leaves the object itself unchanged. If you ask for a type that cannot be generated from the stored type, the result depends on the type; see the function documentation for details.
Here is some example code to demonstrate the use of QVariant:
QDataStream out(...); QVariant v(123); // The variant now contains an int int x = v.toInt(); // x = 123 out << v; // Writes a type tag and an int to out v = QVariant("hello"); // The variant now contains a QByteArray v = QVariant(tr("hello")); // The variant now contains a QString int y = v.toInt(); // y = 0 since v cannot be converted to an int QString s = v.toString(); // s = tr("hello") (see QObject::tr()) out << v; // Writes a type tag and a QString to out ... QDataStream in(...); // (opening the previously written stream) in >> v; // Reads an Int variant int z = v.toInt(); // z = 123 qDebug("Type is %s", // prints "Type is int" v.typeName()); v = v.toInt() + 100; // The variant now hold the value 223 v = QVariant(QStringList());
You can even store QList<QVariant> and QMap<QString, QVariant> values in a variant, so you can easily construct arbitrarily complex data structures of arbitrary types. This is very powerful and versatile, but may prove less memory and speed efficient than storing specific types in standard data structures.
QVariant also supports the notion of null values, where you can have a defined type with no value set. However, note that QVariant types can only be cast when they have had a value set.
QVariant x, y(QString()), z(QString("")); x.convert(QVariant::Int); // x.isNull() == true // y.isNull() == true, z.isNull() == false
QVariant can be extended to support other types than those mentioned in the Type enum. See Creating Custom Qt Types for details.
Because QVariant is part of the Qt Core module, it cannot provide conversion functions to data types defined in Qt GUI, such as QColor, QImage, and QPixmap. In other words, there is no toColor()
function. Instead, you can use the QVariant::value() or the qvariant_cast() template function. For example:
QVariant variant; ... QColor color = variant.value<QColor>();
The inverse conversion (e.g., from QColor to QVariant) is automatic for all data types supported by QVariant, including GUI-related types:
QColor color = palette().background().color(); QVariant variant = color;
When using canConvert() and convert() consecutively, it is possible for canConvert() to return true, but convert() to return false. This is typically because canConvert() only reports the general ability of QVariant to convert between types given suitable data; it is still possible to supply data which cannot actually be converted.
For example, canConvert(Int) would return true when called on a variant containing a string because, in principle, QVariant is able to convert strings of numbers to integers. However, if the string contains non-numeric characters, it cannot be converted to an integer, and any attempt to convert it will fail. Hence, it is important to have both functions return true for a successful conversion.
See also QMetaType.
Move-constructs a QVariant instance, making it point at the same object that other was pointing to.
This function was introduced in Qt 5.2.
Constructs a new variant with a QPersistentModelIndex value, val.
This function was introduced in Qt 5.5.
Constructs a new variant with a QModelIndex value, val.
This function was introduced in Qt 5.0.
Constructs a new variant with a json document value, val.
This function was introduced in Qt 5.0.
Constructs a new variant with a json array value, val.
This function was introduced in Qt 5.0.
Constructs a new variant with a json object value, val.
This function was introduced in Qt 5.0.
Constructs a new variant with a json value, val.
This function was introduced in Qt 5.0.
Constructs a new variant with a url value of val.
Constructs a new variant with an uuid value, val.
This function was introduced in Qt 5.0.
Constructs a new variant with an easing curve value, val.
This function was introduced in Qt 4.7.
Constructs a new variant with the regular expression value re.
This function was introduced in Qt 5.0.
Constructs a new variant with the regexp value regExp.
Constructs a new variant with a locale value, l.
Constructs a new variant with a rect value of val.
Constructs a new variant with a rect value of val.
Constructs a new variant with a line value of val.
Constructs a new variant with a line value of val.
Constructs a new variant with a point value of val.
Constructs a new variant with a point value of val.
Constructs a new variant with a size value of val.
Constructs a new variant with a size value of val.
Constructs a new variant with a hash of QVariants, val.
Constructs a new variant with a map of QVariants, val.
Constructs a new variant with a list value, val.
Constructs a new variant with a date/time value, val.
Constructs a new variant with a time value, val.
Constructs a new variant with a date value, val.
Constructs a new variant with a char value, c.
Constructs a new variant with a string list value, val.
Constructs a new variant with a string value, val.
Constructs a new variant with a string value, val.
Constructs a new variant with a bitarray value, val.
Constructs a new variant with a bytearray value, val.
Constructs a new variant with a string value of val. The variant creates a deep copy of val into a QString assuming UTF-8 encoding on the input val.
Note that val is converted to a QString for storing in the variant and QVariant::userType() will return QMetaType::QString for the variant.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII
when you compile your applications.
Constructs a new variant with a floating point value, val.
This function was introduced in Qt 4.6.
Constructs a new variant with a floating point value, val.
Constructs a new variant with a boolean value, val.
Constructs a new variant with an unsigned long long integer value, val.
Constructs a new variant with a long long integer value, val.
Constructs a new variant with an unsigned integer value, val.
Constructs a new variant with an integer value, val.
Reads the variant from the data stream, s.
Constructs a copy of the variant, p, passed as the argument to this constructor.
Constructs variant of type typeId, and initializes with copy if copy is not nullptr
.
Note that you have to pass the address of the variable you want stored.
Usually, you never have to use this constructor, use QVariant::fromValue() instead to construct variants from the pointer types represented by QMetaType::VoidStar
, and QMetaType::QObjectStar
.
See also QVariant::fromValue() and QMetaType::Type.
Constructs an uninitialized variant of type type. This will create a variant in a special null state that if accessed will return a default constructed value of the type.
See also isNull().
Constructs an invalid variant.
Move-assigns other to this QVariant instance.
This function was introduced in Qt 5.2.
Assigns the value of the variant variant to this variant.
Destroys the QVariant and the contained object.
Note that subclasses that reimplement clear() should reimplement the destructor to call clear(). This destructor calls clear(), but because it is the destructor, QVariant::clear() is called rather than a subclass's clear().
Returns true
if the variant's type can be cast to the requested type, targetTypeId. Such casting is done automatically when calling the toInt(), toBool(), ... methods.
The following casts are done automatically:
A QVariant containing a pointer to a type derived from QObject will also return true for this function if a qobject_cast to the type described by targetTypeId would succeed. Note that this only works for QObject subclasses which use the Q_OBJECT macro.
A QVariant containing a sequential container will also return true for this function if the targetTypeId is QVariantList. It is possible to iterate over the contents of the container without extracting it as a (copied) QVariantList:
QList<int> intList = {7, 11, 42}; QVariant variant = QVariant::fromValue(intList); if (variant.canConvert<QVariantList>()) { QSequentialIterable iterable = variant.value<QSequentialIterable>(); // Can use foreach: foreach (const QVariant &v, iterable) { qDebug() << v; } // Can use C++11 range-for: for (const QVariant &v : iterable) { qDebug() << v; } // Can use iterators: QSequentialIterable::const_iterator it = iterable.begin(); const QSequentialIterable::const_iterator end = iterable.end(); for ( ; it != end; ++it) { qDebug() << *it; } }
This requires that the value_type of the container is itself a metatype.
Similarly, a QVariant containing a sequential container will also return true for this function the targetTypeId is QVariantHash or QVariantMap. It is possible to iterate over the contents of the container without extracting it as a (copied) QVariantHash or QVariantMap:
QHash<int, QString> mapping; mapping.insert(7, "Seven"); mapping.insert(11, "Eleven"); mapping.insert(42, "Forty-two"); QVariant variant = QVariant::fromValue(mapping); if (variant.canConvert<QVariantHash>()) { QAssociativeIterable iterable = variant.value<QAssociativeIterable>(); // Can use foreach over the values: foreach (const QVariant &v, iterable) { qDebug() << v; } // Can use C++11 range-for over the values: for (const QVariant &v : iterable) { qDebug() << v; } // Can use iterators: QAssociativeIterable::const_iterator it = iterable.begin(); const QAssociativeIterable::const_iterator end = iterable.end(); for ( ; it != end; ++it) { qDebug() << *it; // The current value qDebug() << it.key(); qDebug() << it.value(); } }
See also convert(), QSequentialIterable, Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE(), QAssociativeIterable, and Q_DECLARE_ASSOCIATIVE_CONTAINER_METATYPE().
Returns true
if the variant can be converted to the template type T
, otherwise false.
Example:
QVariant v = 42; v.canConvert<int>(); // returns true v.canConvert<QString>(); // returns true MyCustomStruct s; v.setValue(s); v.canConvert<int>(); // returns false v.canConvert<MyCustomStruct>(); // returns true
A QVariant containing a pointer to a type derived from QObject will also return true for this function if a qobject_cast to the template type T
would succeed. Note that this only works for QObject subclasses which use the Q_OBJECT macro.
See also convert().
Convert this variant to type QMetaType::UnknownType and free up any resources used.
Casts the variant to the requested type, targetTypeId. If the cast cannot be done, the variant is still changed to the requested type, but is left in a cleared null state similar to that constructed by QVariant(Type).
Returns true
if the current type of the variant was successfully cast; otherwise returns false
.
A QVariant containing a pointer to a type derived from QObject will also convert and return true for this function if a qobject_cast to the type described by targetTypeId would succeed. Note that this only works for QObject subclasses which use the Q_OBJECT macro.
Note: converting QVariants that are null due to not being initialized or having failed a previous conversion will always fail, changing the type, remaining null, and returning false
.
See also canConvert(int targetTypeId) and clear().
[static]
template <typename Types> QVariant QVariant::fromStdVariant(const std::variant<Types...> &value)
Returns a QVariant with the type and value of the active variant of value. If the active type is std::monostate a default QVariant is returned.
Note: With this method you do not need to register the variant as a Qt metatype, since the std::variant is resolved before being stored. The component types should be registered however.
This function was introduced in Qt 5.11.
See also fromValue().
[static]
template <typename T> QVariant QVariant::fromValue(const T &value)
Returns a QVariant containing a copy of value. Behaves exactly like setValue() otherwise.
Example:
MyCustomStruct s; return QVariant::fromValue(s);
Note: If you are working with custom types, you should use the Q_DECLARE_METATYPE() macro to register your custom type.
See also setValue() and value().
Returns true
if this is a null variant, false otherwise. A variant is considered null if it contains no initialized value, or the contained value is nullptr
or is an instance of a built-in type that has an isNull method, in which case the result would be the same as calling isNull on the wrapped object.
Warning: Null variants is not a single state and two null variants may easily return false
on the == operator if they do not contain similar null values.
See also convert(int).
Returns true
if the storage type of this variant is not QMetaType::UnknownType; otherwise returns false
.
[static]
QVariant::Type QVariant::nameToType(const char *name)
Converts the string representation of the storage type given in name, to its enum representation.
If the string representation cannot be converted to any enum representation, the variant is set to Invalid
.
Stores a copy of value. If T
is a type that QVariant doesn't support, QMetaType is used to store the value. A compile error will occur if QMetaType doesn't handle the type.
Example:
QVariant v; v.setValue(5); int i = v.toInt(); // i is now 5 QString s = v.toString() // s is now "5" MyCustomStruct c; v.setValue(c); ... MyCustomStruct c2 = v.value<MyCustomStruct>();
See also value(), fromValue(), and canConvert().
Swaps variant other with this variant. This operation is very fast and never fails.
This function was introduced in Qt 4.8.
Returns the variant as a QBitArray if the variant has userType() QMetaType::QBitArray; otherwise returns an empty bit array.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a bool if the variant has userType() Bool.
Returns true
if the variant has userType() QMetaType::Bool, QMetaType::QChar, QMetaType::Double, QMetaType::Int, QMetaType::LongLong, QMetaType::UInt, or QMetaType::ULongLong and the value is non-zero, or if the variant has type QMetaType::QString or QMetaType::QByteArray and its lower-case content is not one of the following: empty, "0" or "false"; otherwise returns false
.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QByteArray if the variant has userType() QMetaType::QByteArray or QMetaType::QString (converted using QString::fromUtf8()); otherwise returns an empty byte array.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QChar if the variant has userType() QMetaType::QChar, QMetaType::Int, or QMetaType::UInt; otherwise returns an invalid QChar.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QDate if the variant has userType() QMetaType::QDate, QMetaType::QDateTime, or QMetaType::QString; otherwise returns an invalid date.
If the type() is QMetaType::QString, an invalid date will be returned if the string cannot be parsed as a Qt::ISODate format date.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QDateTime if the variant has userType() QMetaType::QDateTime, QMetaType::QDate, or QMetaType::QString; otherwise returns an invalid date/time.
If the type() is QMetaType::QString, an invalid date/time will be returned if the string cannot be parsed as a Qt::ISODate format date/time.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a double if the variant has userType() QMetaType::Double, QMetaType::Float, QMetaType::Bool, QMetaType::QByteArray, QMetaType::Int, QMetaType::LongLong, QMetaType::QString, QMetaType::UInt, or QMetaType::ULongLong; otherwise returns 0.0.
If ok is non-null: *
ok is set to true if the value could be converted to a double; otherwise *
ok is set to false.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QEasingCurve if the variant has userType() QMetaType::QEasingCurve; otherwise returns a default easing curve.
This function was introduced in Qt 4.7.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a float if the variant has userType() QMetaType::Double, QMetaType::Float, QMetaType::Bool, QMetaType::QByteArray, QMetaType::Int, QMetaType::LongLong, QMetaType::QString, QMetaType::UInt, or QMetaType::ULongLong; otherwise returns 0.0.
If ok is non-null: *
ok is set to true if the value could be converted to a double; otherwise *
ok is set to false.
This function was introduced in Qt 4.6.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QHash<QString, QVariant> if the variant has type() QMetaType::QVariantHash; otherwise returns an empty map.
See also canConvert(int targetTypeId) and convert().
Returns the variant as an int if the variant has userType() QMetaType::Int, QMetaType::Bool, QMetaType::QByteArray, QMetaType::QChar, QMetaType::Double, QMetaType::LongLong, QMetaType::QString, QMetaType::UInt, or QMetaType::ULongLong; otherwise returns 0.
If ok is non-null: *
ok is set to true if the value could be converted to an int; otherwise *
ok is set to false.
Warning: If the value is convertible to a QMetaType::LongLong but is too large to be represented in an int, the resulting arithmetic overflow will not be reflected in ok. A simple workaround is to use QString::toInt().
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QJsonArray if the variant has userType() QJsonArray; otherwise returns a default constructed QJsonArray.
This function was introduced in Qt 5.0.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QJsonDocument if the variant has userType() QJsonDocument; otherwise returns a default constructed QJsonDocument.
This function was introduced in Qt 5.0.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QJsonObject if the variant has userType() QJsonObject; otherwise returns a default constructed QJsonObject.
This function was introduced in Qt 5.0.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QJsonValue if the variant has userType() QJsonValue; otherwise returns a default constructed QJsonValue.
This function was introduced in Qt 5.0.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QLine if the variant has userType() QMetaType::QLine; otherwise returns an invalid QLine.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QLineF if the variant has userType() QMetaType::QLineF; otherwise returns an invalid QLineF.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QVariantList if the variant has userType() QMetaType::QVariantList or QMetaType::QStringList; otherwise returns an empty list.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QLocale if the variant has userType() QMetaType::QLocale; otherwise returns an invalid QLocale.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a long long int if the variant has userType() QMetaType::LongLong, QMetaType::Bool, QMetaType::QByteArray, QMetaType::QChar, QMetaType::Double, QMetaType::Int, QMetaType::QString, QMetaType::UInt, or QMetaType::ULongLong; otherwise returns 0.
If ok is non-null: *
ok
is set to true if the value could be converted to an int; otherwise *
ok
is set to false.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QMap<QString, QVariant> if the variant has type() QMetaType::QVariantMap; otherwise returns an empty map.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QModelIndex if the variant has userType() QModelIndex; otherwise returns a default constructed QModelIndex.
This function was introduced in Qt 5.0.
See also canConvert(int targetTypeId), convert(), and toPersistentModelIndex().
Returns the variant as a QPersistentModelIndex if the variant has userType() QPersistentModelIndex; otherwise returns a default constructed QPersistentModelIndex.
This function was introduced in Qt 5.5.
See also canConvert(int targetTypeId), convert(), and toModelIndex().
Returns the variant as a QPoint if the variant has userType() QMetaType::QPoint or QMetaType::QPointF; otherwise returns a null QPoint.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QPointF if the variant has userType() QMetaType::QPoint or QMetaType::QPointF; otherwise returns a null QPointF.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a qreal if the variant has userType() QMetaType::Double, QMetaType::Float, QMetaType::Bool, QMetaType::QByteArray, QMetaType::Int, QMetaType::LongLong, QMetaType::QString, QMetaType::UInt, or QMetaType::ULongLong; otherwise returns 0.0.
If ok is non-null: *
ok is set to true if the value could be converted to a double; otherwise *
ok is set to false.
This function was introduced in Qt 4.6.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QRect if the variant has userType() QMetaType::QRect; otherwise returns an invalid QRect.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QRectF if the variant has userType() QMetaType::QRect or QMetaType::QRectF; otherwise returns an invalid QRectF.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QRegExp if the variant has userType() QMetaType::QRegExp; otherwise returns an empty QRegExp.
This function was introduced in Qt 4.1.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QRegularExpression if the variant has userType() QRegularExpression; otherwise returns an empty QRegularExpression.
This function was introduced in Qt 5.0.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QSize if the variant has userType() QMetaType::QSize; otherwise returns an invalid QSize.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QSizeF if the variant has userType() QMetaType::QSizeF; otherwise returns an invalid QSizeF.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QString if the variant has a userType() including, but not limited to:
QMetaType::QString, QMetaType::Bool, QMetaType::QByteArray, QMetaType::QChar, QMetaType::QDate, QMetaType::QDateTime, QMetaType::Double, QMetaType::Int, QMetaType::LongLong, QMetaType::QStringList, QMetaType::QTime, QMetaType::UInt, or QMetaType::ULongLong.
Calling QVariant::toString() on an unsupported variant returns an empty string.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QStringList if the variant has userType() QMetaType::QStringList, QMetaType::QString, or QMetaType::QVariantList of a type that can be converted to QString; otherwise returns an empty list.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QTime if the variant has userType() QMetaType::QTime, QMetaType::QDateTime, or QMetaType::QString; otherwise returns an invalid time.
If the type() is QMetaType::QString, an invalid time will be returned if the string cannot be parsed as a Qt::ISODate format time.
See also canConvert(int targetTypeId) and convert().
Returns the variant as an unsigned int if the variant has userType() QMetaType::UInt, QMetaType::Bool, QMetaType::QByteArray, QMetaType::QChar, QMetaType::Double, QMetaType::Int, QMetaType::LongLong, QMetaType::QString, or QMetaType::ULongLong; otherwise returns 0.
If ok is non-null: *
ok is set to true if the value could be converted to an unsigned int; otherwise *
ok is set to false.
Warning: If the value is convertible to a QMetaType::ULongLong but is too large to be represented in an unsigned int, the resulting arithmetic overflow will not be reflected in ok. A simple workaround is to use QString::toUInt().
See also canConvert(int targetTypeId) and convert().
Returns the variant as an unsigned long long int if the variant has type() QMetaType::ULongLong, QMetaType::Bool, QMetaType::QByteArray, QMetaType::QChar, QMetaType::Double, QMetaType::Int, QMetaType::LongLong, QMetaType::QString, or QMetaType::UInt; otherwise returns 0.
If ok is non-null: *
ok is set to true if the value could be converted to an int; otherwise *
ok is set to false.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QUrl if the variant has userType() QMetaType::QUrl; otherwise returns an invalid QUrl.
See also canConvert(int targetTypeId) and convert().
Returns the variant as a QUuid if the variant has type() QMetaType::QUuid, QMetaType::QByteArray or QMetaType::QString; otherwise returns a default-constructed QUuid.
This function was introduced in Qt 5.0.
See also canConvert(int targetTypeId) and convert().
Returns the storage type of the value stored in the variant. Although this function is declared as returning QVariant::Type, the return value should be interpreted as QMetaType::Type. In particular, QVariant::UserType is returned here only if the value is equal or greater than QMetaType::User.
Note that return values in the ranges QVariant::Char through QVariant::RegExp and QVariant::Font through QVariant::Transform correspond to the values in the ranges QMetaType::QChar through QMetaType::QRegExp and QMetaType::QFont through QMetaType::QQuaternion.
Pay particular attention when working with char and QChar variants. Note that there is no QVariant constructor specifically for type char, but there is one for QChar. For a variant of type QChar, this function returns QVariant::Char, which is the same as QMetaType::QChar, but for a variant of type char
, this function returns QMetaType::Char, which is not the same as QVariant::Char.
Also note that the types void*
, long
, short
, unsigned
long
, unsigned
short
, unsigned
char
, float
, QObject*
, and QWidget*
are represented in QMetaType::Type but not in QVariant::Type, and they can be returned by this function. However, they are considered to be user defined types when tested against QVariant::Type.
To test whether an instance of QVariant contains a data type that is compatible with the data type you are interested in, use canConvert().
Returns the name of the type stored in the variant. The returned strings describe the C++ datatype used to store the data: for example, "QFont", "QString", or "QVariantList". An Invalid variant returns 0.
[static]
const char *QVariant::typeToName(int typeId)
Converts the int representation of the storage type, typeId, to its string representation.
Returns nullptr
if the type is QMetaType::UnknownType or doesn't exist.
Returns the storage type of the value stored in the variant. For non-user types, this is the same as type().
See also type().
Returns the stored value converted to the template type T
. Call canConvert() to find out whether a type can be converted. If the value cannot be converted, a default-constructed value will be returned.
If the type T
is supported by QVariant, this function behaves exactly as toString(), toInt() etc.
Example:
QVariant v; MyCustomStruct c; if (v.canConvert<MyCustomStruct>()) c = v.value<MyCustomStruct>(); v = 7; int i = v.value<int>(); // same as v.toInt() QString s = v.value<QString>(); // same as v.toString(), s is now "7" MyCustomStruct c2 = v.value<MyCustomStruct>(); // conversion failed, c2 is empty
If the QVariant contains a pointer to a type derived from QObject then T
may be any QObject type. If the pointer stored in the QVariant can be qobject_cast to T, then that result is returned. Otherwise nullptr
is returned. Note that this only works for QObject subclasses which use the Q_OBJECT macro.
If the QVariant contains a sequential container and T
is QVariantList, the elements of the container will be converted into QVariants and returned as a QVariantList.
QList<int> intList = {7, 11, 42}; QVariant variant = QVariant::fromValue(intList); if (variant.canConvert<QVariantList>()) { QSequentialIterable iterable = variant.value<QSequentialIterable>(); // Can use foreach: foreach (const QVariant &v, iterable) { qDebug() << v; } // Can use C++11 range-for: for (const QVariant &v : iterable) { qDebug() << v; } // Can use iterators: QSequentialIterable::const_iterator it = iterable.begin(); const QSequentialIterable::const_iterator end = iterable.end(); for ( ; it != end; ++it) { qDebug() << *it; } }
See also setValue(), fromValue(), canConvert(), and Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE().
Compares this QVariant with v and returns true
if they are not equal; otherwise returns false
.
Warning: To make this function work with a custom type registered with qRegisterMetaType(), its comparison operator must be registered using QMetaType::registerComparators().
Compares this QVariant with v and returns true
if they are equal; otherwise returns false
.
QVariant uses the equality operator of the type() it contains to check for equality. QVariant will try to convert() v if its type is not the same as this variant's type. See canConvert() for a list of possible conversions.
Warning: To make this function work with a custom type registered with qRegisterMetaType(), its comparison operator must be registered using QMetaType::registerComparators().
Synonym for QHash<QString, QVariant>.
This typedef was introduced in Qt 4.5.
Synonym for QMap<QString, QVariant>.
Returns the given value converted to the template type T
.
This function is equivalent to QVariant::value().
See also QVariant::value().
Returns false
if v1 and v2 are equal; otherwise returns true
.
Warning: To make this function work with a custom type registered with qRegisterMetaType(), its comparison operator must be registered using QMetaType::registerComparators().
Returns true
if v1 and v2 are equal; otherwise returns false
.
If v1 and v2 have the same type(), the type's equality operator is used for comparison. If not, it is attempted to convert() v2 to the same type as v1. See canConvert() for a list of possible conversions.
The result of the function is not affected by the result of QVariant::isNull, which means that two values can be equal even if one of them is null and another is not.
Warning: To make this function work with a custom type registered with qRegisterMetaType(), its comparison operator must be registered using QMetaType::registerComparators().
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Licensed under the GNU Free Documentation License, Version 1.3.
https://doc.qt.io/qt-5.15/qvariant.html