[−][src]Struct qt_gui::QPairOfDoubleQColor
The QPair class is a template class that stores a pair of items.
C++ class: QPair<double, QColor>
.
The QPair class is a template class that stores a pair of items.
QPair<T1, T2> can be used in your application if the STL pair
type is not available. It stores one value of type T1 and one value of type T2. It can be used as a return value for a function that needs to return two values, or as the value type of a generic container.
Here's an example of a QPair that stores one QString and one double
value:
The components are accessible as public data members called first and second. For example:
pair.first = "pi"; pair.second = 3.14159265358979323846;
Note, however, that it is almost always preferable to define a small struct to hold the result of a function with multiple return values. A struct trivially generalizes to more than two values, and allows more descriptive member names than first
and second
:
struct Variable { QString name; double value; }; Variable v; v.name = "pi"; v.value = 3.14159265358979323846;
The advent of C++11 automatic variable type deduction (auto
) shifts the emphasis from the type name to the name of functions and members. Thus, QPair, like std::pair
and std::tuple
, is mostly useful in generic (template) code, where defining a dedicated type is not possible.
QPair's template data types (T1 and T2) must be assignable data types. You cannot, for example, store a QWidget as a value; instead, store a QWidget *. A few functions have additional requirements; these requirements are documented on a per-function basis.
Methods
impl QPairOfDoubleQColor
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pub unsafe fn copy_from(
&mut self,
other: impl CastInto<Ref<QPairOfDoubleQColor>>
) -> MutRef<QPairOfDoubleQColor>
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&mut self,
other: impl CastInto<Ref<QPairOfDoubleQColor>>
) -> MutRef<QPairOfDoubleQColor>
The QPair class is a template class that stores a pair of items.
Calls C++ function: QPair<double, QColor>& QPair<double, QColor>::operator=(const QPair<double, QColor>& other)
.
The QPair class is a template class that stores a pair of items.
QPair<T1, T2> can be used in your application if the STL pair
type is not available. It stores one value of type T1 and one value of type T2. It can be used as a return value for a function that needs to return two values, or as the value type of a generic container.
Here's an example of a QPair that stores one QString and one double
value:
The components are accessible as public data members called first and second. For example:
pair.first = "pi"; pair.second = 3.14159265358979323846;
Note, however, that it is almost always preferable to define a small struct to hold the result of a function with multiple return values. A struct trivially generalizes to more than two values, and allows more descriptive member names than first
and second
:
struct Variable { QString name; double value; }; Variable v; v.name = "pi"; v.value = 3.14159265358979323846;
The advent of C++11 automatic variable type deduction (auto
) shifts the emphasis from the type name to the name of functions and members. Thus, QPair, like std::pair
and std::tuple
, is mostly useful in generic (template) code, where defining a dedicated type is not possible.
QPair's template data types (T1 and T2) must be assignable data types. You cannot, for example, store a QWidget as a value; instead, store a QWidget *. A few functions have additional requirements; these requirements are documented on a per-function basis.
pub unsafe fn new_0a() -> CppBox<QPairOfDoubleQColor>
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Constructs an empty pair. The first
and second
elements are initialized with default-constructed values.
Calls C++ function: [constructor] void QPair<double, QColor>::QPair()
.
Constructs an empty pair. The first
and second
elements are initialized with default-constructed values.
pub unsafe fn new_2a(
t1: impl CastInto<Ref<c_double>>,
t2: impl CastInto<Ref<QColor>>
) -> CppBox<QPairOfDoubleQColor>
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t1: impl CastInto<Ref<c_double>>,
t2: impl CastInto<Ref<QColor>>
) -> CppBox<QPairOfDoubleQColor>
Constructs a pair and initializes the first
element with value1 and the second
element with value2.
Calls C++ function: [constructor] void QPair<double, QColor>::QPair(const double& t1, const QColor& t2)
.
Constructs a pair and initializes the first
element with value1 and the second
element with value2.
See also qMakePair().
pub unsafe fn new_copy(
other: impl CastInto<Ref<QPairOfDoubleQColor>>
) -> CppBox<QPairOfDoubleQColor>
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other: impl CastInto<Ref<QPairOfDoubleQColor>>
) -> CppBox<QPairOfDoubleQColor>
The QPair class is a template class that stores a pair of items.
Calls C++ function: [constructor] void QPair<double, QColor>::QPair(const QPair<double, QColor>& other)
.
The QPair class is a template class that stores a pair of items.
QPair<T1, T2> can be used in your application if the STL pair
type is not available. It stores one value of type T1 and one value of type T2. It can be used as a return value for a function that needs to return two values, or as the value type of a generic container.
Here's an example of a QPair that stores one QString and one double
value:
The components are accessible as public data members called first and second. For example:
pair.first = "pi"; pair.second = 3.14159265358979323846;
Note, however, that it is almost always preferable to define a small struct to hold the result of a function with multiple return values. A struct trivially generalizes to more than two values, and allows more descriptive member names than first
and second
:
struct Variable { QString name; double value; }; Variable v; v.name = "pi"; v.value = 3.14159265358979323846;
The advent of C++11 automatic variable type deduction (auto
) shifts the emphasis from the type name to the name of functions and members. Thus, QPair, like std::pair
and std::tuple
, is mostly useful in generic (template) code, where defining a dedicated type is not possible.
QPair's template data types (T1 and T2) must be assignable data types. You cannot, for example, store a QWidget as a value; instead, store a QWidget *. A few functions have additional requirements; these requirements are documented on a per-function basis.
pub unsafe fn swap(&mut self, other: impl CastInto<MutRef<QPairOfDoubleQColor>>)
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Swaps this pair with other.
Calls C++ function: void QPair<double, QColor>::swap(QPair<double, QColor>& other)
.
Trait Implementations
impl CppDeletable for QPairOfDoubleQColor
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unsafe fn delete(&mut self)
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The QPair class is a template class that stores a pair of items.
Calls C++ function: [destructor] void QPair<double, QColor>::~QPair()
.
The QPair class is a template class that stores a pair of items.
QPair<T1, T2> can be used in your application if the STL pair
type is not available. It stores one value of type T1 and one value of type T2. It can be used as a return value for a function that needs to return two values, or as the value type of a generic container.
Here's an example of a QPair that stores one QString and one double
value:
The components are accessible as public data members called first and second. For example:
pair.first = "pi"; pair.second = 3.14159265358979323846;
Note, however, that it is almost always preferable to define a small struct to hold the result of a function with multiple return values. A struct trivially generalizes to more than two values, and allows more descriptive member names than first
and second
:
struct Variable { QString name; double value; }; Variable v; v.name = "pi"; v.value = 3.14159265358979323846;
The advent of C++11 automatic variable type deduction (auto
) shifts the emphasis from the type name to the name of functions and members. Thus, QPair, like std::pair
and std::tuple
, is mostly useful in generic (template) code, where defining a dedicated type is not possible.
QPair's template data types (T1 and T2) must be assignable data types. You cannot, for example, store a QWidget as a value; instead, store a QWidget *. A few functions have additional requirements; these requirements are documented on a per-function basis.
impl PartialEq<Ref<QPairOfDoubleQColor>> for QPairOfDoubleQColor
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fn eq(&self, p2: &Ref<QPairOfDoubleQColor>) -> bool
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Returns true
if c1 and c2 are the same Unicode character; otherwise returns false
.
Calls C++ function: bool operator==(const QPair<double, QColor>& p1, const QPair<double, QColor>& p2)
.
Warning: no exact match found in C++ documentation. Below is the C++ documentation for bool operator==(QChar c1, QChar c2)
:
Returns true
if c1 and c2 are the same Unicode character; otherwise returns false
.
#[must_use]
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]
Auto Trait Implementations
impl RefUnwindSafe for QPairOfDoubleQColor
impl Send for QPairOfDoubleQColor
impl Sync for QPairOfDoubleQColor
impl Unpin for QPairOfDoubleQColor
impl UnwindSafe for QPairOfDoubleQColor
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T, U> CastInto<U> for T where
U: CastFrom<T>,
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U: CastFrom<T>,
impl<T> From<T> for T
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T> StaticUpcast<T> for T
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unsafe fn static_upcast(ptr: Ptr<T>) -> Ptr<T>
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unsafe fn static_upcast_mut(ptr: MutPtr<T>) -> MutPtr<T>
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impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,