pub struct ClosureExpression { /* private fields */ }
Expand description
An expression using a custom GClosure
to compute the value from
its parameters.
GLib type: Shared boxed type with reference counted clone semantics.
Implementations§
Source§impl ClosureExpression
impl ClosureExpression
Sourcepub fn as_ptr(&self) -> *mut GtkClosureExpression
pub fn as_ptr(&self) -> *mut GtkClosureExpression
Return the inner pointer to the underlying C value.
Sourcepub unsafe fn from_glib_ptr_borrow(ptr: &*mut GtkClosureExpression) -> &Self
pub unsafe fn from_glib_ptr_borrow(ptr: &*mut GtkClosureExpression) -> &Self
Borrows the underlying C value.
Source§impl ClosureExpression
impl ClosureExpression
pub fn upcast(self) -> Expression
pub fn upcast_ref(&self) -> &Expression
Source§impl ClosureExpression
impl ClosureExpression
Sourcepub fn new<R>(
params: impl IntoIterator<Item = impl AsRef<Expression>>,
closure: RustClosure,
) -> Selfwhere
R: ValueType,
pub fn new<R>(
params: impl IntoIterator<Item = impl AsRef<Expression>>,
closure: RustClosure,
) -> Selfwhere
R: ValueType,
Creates a Expression
that calls closure
when it is evaluated.
closure
is called with the this
object and the results of evaluating
the params
expressions.
§value_type
the type of the value that this expression evaluates to
§closure
closure to call when evaluating this expression. If closure is floating, it is adopted
§params
expressions for each parameter
§Returns
a new Expression
pub fn with_callback<R, F>( params: impl IntoIterator<Item = impl AsRef<Expression>>, callback: F, ) -> Self
Methods from Deref<Target = Expression>§
Sourcepub fn as_ptr(&self) -> *mut GtkExpression
pub fn as_ptr(&self) -> *mut GtkExpression
Return the inner pointer to the underlying C value.
pub const NONE: Option<&'static Expression> = None
Sourcepub fn bind(
&self,
target: &impl IsA<Object>,
property: &str,
this_: Option<&impl IsA<Object>>,
) -> ExpressionWatch
pub fn bind( &self, target: &impl IsA<Object>, property: &str, this_: Option<&impl IsA<Object>>, ) -> ExpressionWatch
Bind target
’s property named property
to self
.
The value that self
evaluates to is set via g_object_set()
on
target
. This is repeated whenever self
changes to ensure that
the object’s property stays synchronized with self
.
If self
’s evaluation fails, target
’s property
is not updated.
You can ensure that this doesn’t happen by using a fallback
expression.
Note that this function takes ownership of self
. If you want
to keep it around, you should Gtk::Expression::ref()
it beforehand.
§target
the target object to bind to
§property
name of the property on target
to bind to
§this_
the this argument for
the evaluation of self
§Returns
Sourcepub fn value_type(&self) -> Type
pub fn value_type(&self) -> Type
Gets the GType
that this expression evaluates to.
This type is constant and will not change over the lifetime of this expression.
§Returns
The type returned from evaluate()
Sourcepub fn is_static(&self) -> bool
pub fn is_static(&self) -> bool
Checks if the expression is static.
A static expression will never change its result when
evaluate()
is called on it with the same arguments.
That means a call to watch()
is not necessary because
it will never trigger a notify.
§Returns
TRUE
if the expression is static
Sourcepub fn watch<P: Fn() + 'static>(
&self,
this_: Option<&impl IsA<Object>>,
notify: P,
) -> ExpressionWatch
pub fn watch<P: Fn() + 'static>( &self, this_: Option<&impl IsA<Object>>, notify: P, ) -> ExpressionWatch
Watch the given expression
for changes.
The @notify function will be called whenever the evaluation of self
may have changed.
GTK cannot guarantee that the evaluation did indeed change when the @notify gets invoked, but it guarantees the opposite: When it did in fact change, the @notify will be invoked.
§this_
the this
argument to
watch
§notify
callback to invoke when the expression changes
§Returns
The newly installed watch. Note that the only
reference held to the watch will be released when the watch is unwatched
which can happen automatically, and not just via
ExpressionWatch::unwatch()
. You should call Gtk::ExpressionWatch::ref()
if you want to keep the watch around.
pub fn upcast_ref(&self) -> &Self
pub fn is<E: IsExpression>(&self) -> bool
pub fn downcast_ref<E: IsExpression>(&self) -> Option<&E>
pub fn type_(&self) -> Type
pub fn evaluate(&self, this: Option<&impl IsA<Object>>) -> Option<Value>
Sourcepub fn evaluate_as<V: for<'b> FromValue<'b> + 'static, T: IsA<Object>>(
&self,
this: Option<&T>,
) -> Option<V>
pub fn evaluate_as<V: for<'b> FromValue<'b> + 'static, T: IsA<Object>>( &self, this: Option<&T>, ) -> Option<V>
Similar to Self::evaluate
but panics if the value is of a different
type.
Sourcepub fn chain_property<T: IsA<Object>>(
&self,
property_name: &str,
) -> PropertyExpression
pub fn chain_property<T: IsA<Object>>( &self, property_name: &str, ) -> PropertyExpression
Create a PropertyExpression
that looks up
for property_name
with self as parameter. This is useful in long
chains of Expression
s.
Sourcepub fn chain_closure<R>(&self, closure: RustClosure) -> ClosureExpressionwhere
R: ValueType,
pub fn chain_closure<R>(&self, closure: RustClosure) -> ClosureExpressionwhere
R: ValueType,
Create a ClosureExpression
from a
glib::Closure
with self as the second parameter and R
as the
return type. The return type is checked at run-time and must always
be specified. This is useful in long chains of
Expression
s when using the [glib::closure!
]
macro.
Note that the first parameter will always be the this
object bound to
the expression. If None
is passed as this
then the type of the
first parameter must be Option<glib::Object>
otherwise type
checking will panic.
use glib::{closure, Object};
use gtk::{glib, prelude::*};
let button = gtk::Button::new();
button.set_label("Hello");
let label = button
.property_expression("label")
.chain_closure::<String>(closure!(|_: Option<Object>, label: &str| {
format!("{} World", label)
}))
.evaluate_as::<String, _>(gtk::Widget::NONE);
assert_eq!(label.unwrap(), "Hello World");
Sourcepub fn chain_closure_with_callback<F, R>(&self, f: F) -> ClosureExpression
pub fn chain_closure_with_callback<F, R>(&self, f: F) -> ClosureExpression
Create a ClosureExpression
with self as
the second parameter. This is useful in long chains of
Expression
s.
Trait Implementations§
Source§impl AsRef<Expression> for ClosureExpression
impl AsRef<Expression> for ClosureExpression
Source§fn as_ref(&self) -> &Expression
fn as_ref(&self) -> &Expression
Source§impl Clone for ClosureExpression
impl Clone for ClosureExpression
Source§impl Deref for ClosureExpression
impl Deref for ClosureExpression
Source§impl From<ClosureExpression> for Value
impl From<ClosureExpression> for Value
Source§fn from(e: ClosureExpression) -> Self
fn from(e: ClosureExpression) -> Self
Source§impl<'a> FromValue<'a> for ClosureExpression
impl<'a> FromValue<'a> for ClosureExpression
Source§type Checker = GenericValueTypeOrNoneChecker<ClosureExpression>
type Checker = GenericValueTypeOrNoneChecker<ClosureExpression>
Source§unsafe fn from_value(value: &'a Value) -> Self
unsafe fn from_value(value: &'a Value) -> Self
Value
. Read moreSource§impl HasParamSpec for ClosureExpression
impl HasParamSpec for ClosureExpression
type ParamSpec = ParamSpecExpression
Source§type SetValue = ClosureExpression
type SetValue = ClosureExpression
type BuilderFn = for<'a> fn(_: &'a str) -> ParamSpecExpressionBuilder<'a>
fn param_spec_builder() -> Self::BuilderFn
Source§impl StaticType for ClosureExpression
impl StaticType for ClosureExpression
Source§fn static_type() -> Type
fn static_type() -> Type
Self
.Source§impl ToValue for ClosureExpression
impl ToValue for ClosureExpression
Source§impl ToValueOptional for ClosureExpression
impl ToValueOptional for ClosureExpression
Source§fn to_value_optional(s: Option<&Self>) -> Value
fn to_value_optional(s: Option<&Self>) -> Value
Option
to a Value
.Source§impl ValueType for ClosureExpression
impl ValueType for ClosureExpression
Source§type Type = ClosureExpression
type Type = ClosureExpression
Type
from. Read more