#! [cfg_attr(not(feature = "std" ), no_std)]
#! [allow(dead_code, unused_imports)]
#[ cfg(not(feature = "std" ))]
extern crate alloc;
#[ cfg(not(feature = "std" ))]
use ::alloc::{boxed::Box , vec::Vec};
use derive_more::Deref;
#[ derive(Deref)]
#[ deref(forward)]
struct MyBoxedInt(Box <i32>);
#[ derive(Deref)]
#[ deref(forward)]
struct NumRef<'a> {
num: &'a i32,
}
#[ derive(Deref)]
struct NumRef2<'a> {
#[ deref(forward)]
num: &'a i32,
useless: bool,
}
#[ derive(Deref)]
#[ deref(forward)]
struct NumRef3<'a> {
num: &'a i32,
#[ deref(ignore)]
useless: bool,
}
#[ derive(Deref)]
struct MyInt(i32);
#[ derive(Deref)]
struct Point1D {
x: i32,
}
#[ derive(Deref)]
struct Point1D2 {
x: i32,
#[ deref(ignore)]
useless: bool,
}
#[ derive(Deref)]
struct CoolVec {
cool: bool,
#[ deref]
vec: Vec<i32>,
}
#[ derive(Deref)]
struct GenericVec<T>(Vec<T>);
#[ test]
fn deref_generic() {
let gv = GenericVec(Vec::<i32>::new());
assert!(gv.is_empty())
}
#[ derive(Deref)]
struct GenericBox<T>(#[ deref(forward)] Box <T>);
#[ test]
fn deref_generic_forward() {
let boxed = GenericBox(Box ::new(1 i32));
assert_eq!(*boxed, 1 i32);
}
Messung V0.5 in Prozent C=82 H=93 G=87
¤ Dauer der Verarbeitung: 0.10 Sekunden
(vorverarbeitet am 2026-06-19)
¤
*© Formatika GbR, Deutschland