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Higher-kinded type trait
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| use std::rc::Rc; | |
| trait HKT<U> { | |
| type C; // Current type | |
| type T; // Type with C swapped with U | |
| } | |
| macro_rules! derive_hkt { | |
| ($t:ident) => { | |
| impl<T, U> HKT<U> for $t<T> { | |
| type C = T; | |
| type T = $t<U>; | |
| } | |
| } | |
| } | |
| derive_hkt!(Vec); | |
| derive_hkt!(Option); | |
| derive_hkt!(Box); | |
| derive_hkt!(Rc); | |
| trait Functor<U>: HKT<U> { | |
| fn map<F>(&self, f: F) -> Self::T where F: Fn(&Self::C) -> U; | |
| } | |
| impl<T, U> Functor<U> for Vec<T> { | |
| fn map<F>(&self, f: F) -> Vec<U> where F: Fn(&T) -> U { | |
| let mut result = Vec::with_capacity(self.len()); | |
| for value in self { | |
| result.push( f(value) ); | |
| } | |
| result | |
| } | |
| } | |
| impl<T, U> Functor<U> for Option<T> { | |
| fn map<F>(&self, f: F) -> Option<U> where F: Fn(&T) -> U { | |
| match *self { | |
| Some(ref value) => Some( f(value) ), | |
| None => None, | |
| } | |
| } | |
| } | |
| impl<T, U> Functor<U> for Rc<T> { | |
| fn map<F>(&self, f: F) -> Rc<U> where F: Fn(&T) -> U { | |
| let v = f(self); | |
| Rc::new(v) | |
| } | |
| } | |
| impl<T, U> Functor<U> for Box<T> { | |
| fn map<F>(&self, f: F) -> Box<U> where F: Fn(&T) -> U { | |
| let v = f(self); | |
| Box::new(v) | |
| } | |
| } | |
| trait Applicative<U>: Functor<U> { | |
| fn pure_(value: U) -> Self::T where Self: HKT<U, C=U>; | |
| fn seq<F>(&self, <Self as HKT<F>>::T) -> Self::T where F: Fn(&Self::C) -> U; | |
| } | |
| impl<T, U> Applicative<U> for Option<T> { | |
| fn pure_(value: U) -> Option<U> { Some(value) } | |
| fn seq<F>(&self, fs: Option<F>) -> Option<U> where F: Fn(&T) -> U { | |
| match *self { | |
| Some(ref value) => match fs { | |
| Some(f) => Some( f(value) ), | |
| None => None, | |
| }, | |
| None => None, | |
| } | |
| } | |
| } | |
| impl<T, U> Applicative<U> for Vec<T> { | |
| fn pure_(value: U) -> Vec<U> { vec![value] } | |
| fn seq<F>(&self, fs: Vec<F>) -> Vec<U> where F: Fn(&T) -> U { | |
| let mut result = vec![]; | |
| for (i, f) in fs.into_iter().enumerate() { | |
| let v = (f)( &self[i] ); | |
| result.push(v) | |
| } | |
| return result; | |
| } | |
| } | |
| impl<T, U> Applicative<U> for Rc<T> { | |
| fn pure_(value: U) -> Rc<U> { Rc::new(value) } | |
| fn seq<F>(&self, fs: Rc<F>) -> Rc<U> where F: Fn(&T) -> U { | |
| let v = fs(self); | |
| Rc::new(v) | |
| } | |
| } | |
| impl<T, U> Applicative<U> for Box<T> { | |
| fn pure_(value: U) -> Box<U> { Box::new(value) } | |
| fn seq<F>(&self, fs: Box<F>) -> Box<U> where F: Fn(&T) -> U { | |
| let v = fs(self); | |
| Box::new(v) | |
| } | |
| } | |
| trait Monad<U>: Applicative<U> { | |
| fn bind<F>(&self, F) -> Self::T where F : FnMut(&Self::C) -> Self::T; | |
| fn return_(x: U) -> Self::T where Self: HKT<U, C=U> { | |
| Self::pure_(x) | |
| } | |
| fn join<T>(&self) -> T where Self: HKT<U, T=T, C=T>, T: Clone { | |
| self.bind(|x| x.clone()) | |
| } | |
| } | |
| impl<T, U> Monad<U> for Vec<T> { | |
| fn bind<F>(&self, mut f: F) -> Vec<U> where F : FnMut(&T) -> Vec<U> { | |
| let mut result = vec![]; | |
| for x in self { | |
| let v = f(x); | |
| result.extend(v); | |
| } | |
| result | |
| } | |
| } | |
| impl<T, U> Monad<U> for Option<T> { | |
| fn bind<F>(&self, mut f: F) -> Option<U> where F : FnMut(&T) -> Option<U> { | |
| match *self { | |
| Some(ref value) => f(value), | |
| None => None, | |
| } | |
| } | |
| } | |
| impl<T, U> Monad<U> for Rc<T> { | |
| fn bind<F>(&self, mut f: F) -> Rc<U> where F: FnMut(&T) -> Rc<U> { | |
| f(self) | |
| } | |
| } | |
| impl<T, U> Monad<U> for Box<T> { | |
| fn bind<F>(&self, mut f: F) -> Box<U> where F: FnMut(&T) -> Box<U> { | |
| f(self) | |
| } | |
| } | |
| trait New<T> { | |
| fn new(T) -> Self; | |
| } | |
| impl<T> New<T> for Box<T> { fn new(v: T) -> Box<T> { Box::new(v) } } | |
| impl<T> New<T> for Rc<T> { fn new(v: T) -> Rc<T> { Rc::new(v) } } | |
| struct Foo<T, P> where P: HKT<T> { | |
| ptr: P::T | |
| } | |
| impl<T, P> Foo<T, P> where P: HKT<T, C=()>, P::T: New<T> { | |
| fn new(v: T) -> Self { | |
| let p: P::T = P::T::new(v); | |
| Foo { ptr: p } | |
| } | |
| } | |
| fn main() { | |
| let v = Vec::return_(1); | |
| let v = v.bind(|x| vec![x.to_string(); 3]); | |
| println!("{:?}", v); | |
| let o = Option::return_(1); | |
| let o = o.bind(|&x| Some(x + 1)); | |
| println!("{:?}", o); | |
| let o = Option::pure_(1); | |
| let o = o.bind(|&x| Some(x + 1)); | |
| println!("{:?}", o); | |
| let rc = Rc::return_(7); | |
| let rc = rc.bind(|&x| Rc::new(x * 3)); | |
| println!("{:?}", rc); | |
| let b = Box::return_(7); | |
| let b = b.bind(|&x| Box::new(x * 4)); | |
| println!("{:?}", b); | |
| let o = Some(Some(true)); | |
| let o = o.join(); | |
| println!("{:?}", o); | |
| let v = vec![vec!(true), vec!(false)]; | |
| let v = v.join(); | |
| println!("{:?}", v); | |
| let f1: &Fn(&i32) -> i32 = &|x| x*3; | |
| let f = Some(f1); | |
| let o = Some(3); | |
| let o = o.seq(f); | |
| println!("{:?}", o); | |
| let f: Foo<_, Box<_>> = Foo::new(5); | |
| let p: Box<_> = f.ptr; | |
| println!("{:?}", p); | |
| let f: Foo<_, Rc<_>> = Foo::new("5".to_string()); | |
| let p: Rc<_> = f.ptr; | |
| println!("{:?}", p); | |
| } |
I made it compile with latest stable Rust: https://gist.github.com/badboy/6954cc6ce1c71b921094 (though I don't understand much of the code yet)
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Any plans to make this into a crate? The current hkt crate on crates.io relies on shoggoth.
Also, may I suggest renaming ::C and ::T into something easier to read at a glance? And perhaps type aliases, like
type Base<T> = <T as HKT<()>>::C?