pub trait Cast: ObjectType {
fn upcast<T: ObjectType>(self) -> T
where
Self: IsA<T>,
{ ... }
fn upcast_ref<T: ObjectType>(&self) -> &T
where
Self: IsA<T>,
{ ... }
fn downcast<T: ObjectType>(self) -> Result<T, Self>
where
Self: CanDowncast<T>,
{ ... }
fn downcast_ref<T: ObjectType>(&self) -> Option<&T>
where
Self: CanDowncast<T>,
{ ... }
fn dynamic_cast<T: ObjectType>(self) -> Result<T, Self> { ... }
fn dynamic_cast_ref<T: ObjectType>(&self) -> Option<&T> { ... }
unsafe fn unsafe_cast<T: ObjectType>(self) -> T { ... }
unsafe fn unsafe_cast_ref<T: ObjectType>(&self) -> &T { ... }
}Expand description
Upcasting and downcasting support.
Provides conversions up and down the class hierarchy tree.
Provided Methods
fn upcast<T: ObjectType>(self) -> T where
Self: IsA<T>,
fn upcast<T: ObjectType>(self) -> T where
Self: IsA<T>,
Upcasts an object to a superclass or interface T.
NOTE: This statically checks at compile-time if casting is possible. It is not always
known at compile-time, whether a specific object implements an interface or not, in which case
upcast would fail to compile. dynamic_cast can be used in these circumstances, which
is checking the types at runtime.
Example
let button = gtk::Button::new();
let widget = button.upcast::<gtk::Widget>();fn upcast_ref<T: ObjectType>(&self) -> &T where
Self: IsA<T>,
fn upcast_ref<T: ObjectType>(&self) -> &T where
Self: IsA<T>,
Upcasts an object to a reference of its superclass or interface T.
NOTE: This statically checks at compile-time if casting is possible. It is not always
known at compile-time, whether a specific object implements an interface or not, in which case
upcast would fail to compile. dynamic_cast can be used in these circumstances, which
is checking the types at runtime.
Example
let button = gtk::Button::new();
let widget = button.upcast_ref::<gtk::Widget>();fn downcast<T: ObjectType>(self) -> Result<T, Self> where
Self: CanDowncast<T>,
fn downcast<T: ObjectType>(self) -> Result<T, Self> where
Self: CanDowncast<T>,
Tries to downcast to a subclass or interface implementor T.
Returns Ok(T) if the object is an instance of T and Err(self)
otherwise.
NOTE: This statically checks at compile-time if casting is possible. It is not always
known at compile-time, whether a specific object implements an interface or not, in which case
upcast would fail to compile. dynamic_cast can be used in these circumstances, which
is checking the types at runtime.
Example
let button = gtk::Button::new();
let widget = button.upcast::<gtk::Widget>();
assert!(widget.downcast::<gtk::Button>().is_ok());fn downcast_ref<T: ObjectType>(&self) -> Option<&T> where
Self: CanDowncast<T>,
fn downcast_ref<T: ObjectType>(&self) -> Option<&T> where
Self: CanDowncast<T>,
Tries to downcast to a reference of its subclass or interface implementor T.
Returns Some(T) if the object is an instance of T and None
otherwise.
NOTE: This statically checks at compile-time if casting is possible. It is not always
known at compile-time, whether a specific object implements an interface or not, in which case
upcast would fail to compile. dynamic_cast can be used in these circumstances, which
is checking the types at runtime.
Example
let button = gtk::Button::new();
let widget = button.upcast::<gtk::Widget>();
assert!(widget.downcast_ref::<gtk::Button>().is_some());fn dynamic_cast<T: ObjectType>(self) -> Result<T, Self>
fn dynamic_cast<T: ObjectType>(self) -> Result<T, Self>
Tries to cast to an object of type T. This handles upcasting, downcasting
and casting between interface and interface implementors. All checks are performed at
runtime, while downcast and upcast will do many checks at compile-time already.
It is not always known at compile-time, whether a specific object implements an interface or not, and checking has to be performed at runtime.
Returns Ok(T) if the object is an instance of T and Err(self)
otherwise.
Example
let button = gtk::Button::new();
let widget = button.dynamic_cast::<gtk::Widget>();
assert!(widget.is_ok());
let widget = widget.unwrap();
assert!(widget.dynamic_cast::<gtk::Button>().is_ok());fn dynamic_cast_ref<T: ObjectType>(&self) -> Option<&T>
fn dynamic_cast_ref<T: ObjectType>(&self) -> Option<&T>
Tries to cast to reference to an object of type T. This handles upcasting, downcasting
and casting between interface and interface implementors. All checks are performed at
runtime, while downcast and upcast will do many checks at compile-time already.
It is not always known at compile-time, whether a specific object implements an interface or not, and checking has to be performed at runtime.
Returns Some(T) if the object is an instance of T and None
otherwise.
Example
let button = gtk::Button::new();
let widget = button.dynamic_cast_ref::<gtk::Widget>();
assert!(widget.is_some());
let widget = widget.unwrap();
assert!(widget.dynamic_cast_ref::<gtk::Button>().is_some());