[−][src]Crate mopa
MOPA: My Own Personal Any. A macro to implement all the Any
methods on your own trait.
You like Any
—its ability to store any 'static
type as a trait object and then downcast it
back to the original type is very convenient, and in fact you need it for whatever misguided
reason. But it’s not enough. What you really want is your own trait object type with Any
’s
functionality glued onto it. Maybe you have a Person
trait and you want your people to be
able to do various things, but you also want to be able to conveniently downcast the person to
its original type, right? Alas, you can’t write a type like Box<Person + Any>
(at present,
anyway). So what do you do instead? Do you give up? No, no! No, no! Enter MOPA.
There once was a quite friendly trait
CalledPerson
, with much on its plate.
“I need to beAny
To downcast toBenny
—
But I’m not, so I guess I’ll just wait.”
A pitiful tale, isn’t it? Especially given that there was a bear chasing it with intent to eat
it. Fortunately now you can mopafy Person
in three simple steps:
-
Add the
mopa
crate to yourCargo.toml
as usual and your crate root like so:ⓘThis example is not tested#[macro_use] extern crate mopa;
-
Make
Any
(mopa::Any
, notstd::any::Any
) a supertrait ofPerson
; -
mopafy!(Person);
.
And lo, you can now write person.is::<Benny>()
and person.downcast_ref::<Benny>()
and so on
to your heart’s content. Simple, huh?
Oh, by the way, it was actually the person on the bear’s plate. There wasn’t really anything on
Person
’s plate after all.
#[macro_use] extern crate mopa; struct Bear { // This might be a pretty fat bear. fatness: u16, } impl Bear { fn eat(&mut self, person: Box<Person>) { self.fatness = (self.fatness as i16 + person.weight()) as u16; } } trait Person: mopa::Any { fn panic(&self); fn yell(&self) { println!("Argh!"); } fn sleep(&self); fn weight(&self) -> i16; } mopafy!(Person); struct Benny { // (Benny is not a superhero. He can’t carry more than 256kg of food at once.) kilograms_of_food: u8, } impl Person for Benny { fn panic(&self) { self.yell() } fn sleep(&self) { /* ... */ } fn weight(&self) -> i16 { // Who’s trying to find out? I’m scared! self.yell(); self.kilograms_of_food as i16 + 60 } } struct Chris; impl Chris { // Normal people wouldn’t be brave enough to hit a bear but Chris might. fn hit(&self, bear: &mut Bear) { println!("Chris hits the bear! How brave! (Or maybe stupid?)"); // Meh, boundary conditions, what use are they in examples? // Chris clearly hits quite hard. Poor bear. bear.fatness -= 1; } } impl Person for Chris { fn panic(&self) { /* ... */ } fn sleep(&self) { /* ... */ } fn weight(&self) -> i16 { -5 /* antigravity device! cool! */ } } fn simulate_simulation(person: Box<Person>, bear: &mut Bear) { if person.is::<Benny>() { // None of the others do, but Benny knows this particular // bear by reputation and he’s *really* going to be worried. person.yell() } // If it happens to be Chris, he’ll hit the bear. person.downcast_ref::<Chris>().map(|chris| chris.hit(bear)); bear.eat(person); } fn main() { let mut bear = Bear { fatness: 10 }; simulate_simulation(Box::new(Benny { kilograms_of_food: 5 }), &mut bear); simulate_simulation(Box::new(Chris), &mut bear); }
Now should you do something like this? Probably not. Enums are probably a better solution for
this particular case as written; frankly I believe that almost the only time you should
downcast an Any trait object (or a mopafied trait object) is with a generic parameter, when
producing something like AnyMap
, for example. If you control all the code, Any
trait
objects are probably not the right solution; they’re good for cases with user-defined
types across a variety of libraries. But the question of purpose and suitability is open, and I
don’t have a really good example of such a use case here at present. TODO.
Macros
mopafy | The macro for implementing all the |
Traits
Any | A type to emulate dynamic typing. |