#[repr(transparent)]pub struct Demand<'a>(dyn Erased<'a>);
provide_any
#96024)Expand description
A helper object for providing data by type.
A data provider provides values by calling this type’s provide methods.
Tuple Fields§
§0: dyn Erased<'a>
provide_any
#96024)Implementations§
source§impl<'a> Demand<'a>
impl<'a> Demand<'a>
sourcepub fn provide_value<T>(&mut self, value: T) -> &mut Demand<'a>where
T: 'static,
🔬This is a nightly-only experimental API. (provide_any
#96024)
pub fn provide_value<T>(&mut self, value: T) -> &mut Demand<'a>where T: 'static,
provide_any
#96024)sourcepub fn provide_value_with<T>(
&mut self,
fulfil: impl FnOnce() -> T
) -> &mut Demand<'a>where
T: 'static,
🔬This is a nightly-only experimental API. (provide_any
#96024)
pub fn provide_value_with<T>( &mut self, fulfil: impl FnOnce() -> T ) -> &mut Demand<'a>where T: 'static,
provide_any
#96024)Provide a value or other type with only static lifetimes computed using a closure.
Examples
Provides a String
by cloning.
#![feature(provide_any)]
use std::any::{Provider, Demand};
impl Provider for SomeConcreteType {
fn provide<'a>(&'a self, demand: &mut Demand<'a>) {
demand.provide_value_with::<String>(|| self.field.clone());
}
}
Runsourcepub fn provide_ref<T>(&mut self, value: &'a T) -> &mut Demand<'a>where
T: 'static + ?Sized,
🔬This is a nightly-only experimental API. (provide_any
#96024)
pub fn provide_ref<T>(&mut self, value: &'a T) -> &mut Demand<'a>where T: 'static + ?Sized,
provide_any
#96024)Provide a reference. The referee type must be bounded by 'static
,
but may be unsized.
Examples
Provides a reference to a field as a &str
.
#![feature(provide_any)]
use std::any::{Provider, Demand};
impl Provider for SomeConcreteType {
fn provide<'a>(&'a self, demand: &mut Demand<'a>) {
demand.provide_ref::<str>(&self.field);
}
}
Runsourcepub fn provide_ref_with<T>(
&mut self,
fulfil: impl FnOnce() -> &'a T
) -> &mut Demand<'a>where
T: 'static + ?Sized,
🔬This is a nightly-only experimental API. (provide_any
#96024)
pub fn provide_ref_with<T>( &mut self, fulfil: impl FnOnce() -> &'a T ) -> &mut Demand<'a>where T: 'static + ?Sized,
provide_any
#96024)Provide a reference computed using a closure. The referee type
must be bounded by 'static
, but may be unsized.
Examples
Provides a reference to a field as a &str
.
#![feature(provide_any)]
use std::any::{Provider, Demand};
impl Provider for SomeConcreteType {
fn provide<'a>(&'a self, demand: &mut Demand<'a>) {
demand.provide_ref_with::<str>(|| {
if today_is_a_weekday() {
&self.business
} else {
&self.party
}
});
}
}
Runsourcepub fn would_be_satisfied_by_value_of<T>(&self) -> boolwhere
T: 'static,
🔬This is a nightly-only experimental API. (provide_any
#96024)
pub fn would_be_satisfied_by_value_of<T>(&self) -> boolwhere T: 'static,
provide_any
#96024)Check if the Demand
would be satisfied if provided with a
value of the specified type. If the type does not match or has
already been provided, returns false.
Examples
Check if an u8
still needs to be provided and then provides
it.
#![feature(provide_any)]
use std::any::{Provider, Demand};
struct Parent(Option<u8>);
impl Provider for Parent {
fn provide<'a>(&'a self, demand: &mut Demand<'a>) {
if let Some(v) = self.0 {
demand.provide_value::<u8>(v);
}
}
}
struct Child {
parent: Parent,
}
impl Child {
// Pretend that this takes a lot of resources to evaluate.
fn an_expensive_computation(&self) -> Option<u8> {
Some(99)
}
}
impl Provider for Child {
fn provide<'a>(&'a self, demand: &mut Demand<'a>) {
// In general, we don't know if this call will provide
// an `u8` value or not...
self.parent.provide(demand);
// ...so we check to see if the `u8` is needed before
// we run our expensive computation.
if demand.would_be_satisfied_by_value_of::<u8>() {
if let Some(v) = self.an_expensive_computation() {
demand.provide_value::<u8>(v);
}
}
// The demand will be satisfied now, regardless of if
// the parent provided the value or we did.
assert!(!demand.would_be_satisfied_by_value_of::<u8>());
}
}
let parent = Parent(Some(42));
let child = Child { parent };
assert_eq!(Some(42), std::any::request_value::<u8>(&child));
let parent = Parent(None);
let child = Child { parent };
assert_eq!(Some(99), std::any::request_value::<u8>(&child));
Runsourcepub fn would_be_satisfied_by_ref_of<T>(&self) -> boolwhere
T: 'static + ?Sized,
🔬This is a nightly-only experimental API. (provide_any
#96024)
pub fn would_be_satisfied_by_ref_of<T>(&self) -> boolwhere T: 'static + ?Sized,
provide_any
#96024)Check if the Demand
would be satisfied if provided with a
reference to a value of the specified type. If the type does
not match or has already been provided, returns false.
Examples
Check if a &str
still needs to be provided and then provides
it.
#![feature(provide_any)]
use std::any::{Provider, Demand};
struct Parent(Option<String>);
impl Provider for Parent {
fn provide<'a>(&'a self, demand: &mut Demand<'a>) {
if let Some(v) = &self.0 {
demand.provide_ref::<str>(v);
}
}
}
struct Child {
parent: Parent,
name: String,
}
impl Child {
// Pretend that this takes a lot of resources to evaluate.
fn an_expensive_computation(&self) -> Option<&str> {
Some(&self.name)
}
}
impl Provider for Child {
fn provide<'a>(&'a self, demand: &mut Demand<'a>) {
// In general, we don't know if this call will provide
// a `str` reference or not...
self.parent.provide(demand);
// ...so we check to see if the `&str` is needed before
// we run our expensive computation.
if demand.would_be_satisfied_by_ref_of::<str>() {
if let Some(v) = self.an_expensive_computation() {
demand.provide_ref::<str>(v);
}
}
// The demand will be satisfied now, regardless of if
// the parent provided the reference or we did.
assert!(!demand.would_be_satisfied_by_ref_of::<str>());
}
}
let parent = Parent(Some("parent".into()));
let child = Child { parent, name: "child".into() };
assert_eq!(Some("parent"), std::any::request_ref::<str>(&child));
let parent = Parent(None);
let child = Child { parent, name: "child".into() };
assert_eq!(Some("child"), std::any::request_ref::<str>(&child));
Run