How can I compose two kleisli arrows(functions) f:A -> Promise B
and g: B -> Promise C
into h:A -> Promise C
using fp-ts?
I’m familiar with Haskell so I would ask in this way: What’s the equivalent of >=>
(fish operator)?
How can I compose two kleisli arrows(functions) f:A -> Promise B
and g: B -> Promise C
into h:A -> Promise C
using fp-ts?
I’m familiar with Haskell so I would ask in this way: What’s the equivalent of >=>
(fish operator)?
Promises are represented by Task
or TaskEither
monads in fp-ts
, which are asynchronous computations. TaskEither
additionally models failure and is the same as Task<Either<...>>
.
Kleisli Arrows can be composed via chain
operation of monads and flow
(pipe operator). The result resembles the application of >=>
operator in Haskell.
TaskEither
:
const f = (a: A): Promise<B> => Promise.resolve(42);
const g = (b: B): Promise<C> => Promise.resolve(true);
Convert functions returning Promise
to ones returning TaskEither
using tryCatchK
^{1}:
import * as TE from "fp-ts/lib/TaskEither";
const fK = TE.tryCatchK(f, identity); // (a: A) => TE.TaskEither<unknown, B>
const gK = TE.tryCatchK(g, identity); // (b: B) => TE.TaskEither<unknown, C>
Compose both:
const piped = flow(fK, TE.chain(gK)); // (a: A) => TE.TaskEither<unknown, C>
Here is a copy paste block for Codesandbox:
// you could also write:
// import { taskEither as TE } from "fp-ts";
import * as TE from "fp-ts/lib/TaskEither";
// you could also write:
// import {pipeable as P} from "fp-ts"; P.pipe(...)
import { flow, identity, pipe } from "fp-ts/lib/function";
import * as T from "fp-ts/lib/Task";
type A = "A";
type B = "B";
type C = "C";
const f = (a: A): Promise<B> => Promise.resolve("B");
const g = (b: B): Promise<C> => Promise.resolve("C");
// Alternative to `identity`: use `toError` in fp-ts/lib/Either
const fK = TE.tryCatchK(f, identity);
const gK = TE.tryCatchK(g, identity);
const piped = flow(fK, TE.chain(gK));
const effect = pipe(
"A",
piped,
TE.fold(
(err) =>
T.fromIO(() => {
console.log(err);
}),
(c) =>
T.fromIO(() => {
console.log(c);
})
)
);
effect();
JavaScript Promises don't adhere to a monadic API, for example they are eagerly computed ^{2}. In functional programming side effects are delayed as long as possible, so we need to use a compatible wrapper in form of Task
or TaskEither
.
^{1} identity
just forwards the error in failure case. You could also use toError
.
^{2} Incorporate monads and category theory #94 is worth reading, if you are interested in historical reasons.
Task
sequences build huge deferred function call trees that may blow the stack when evaluation is triggered.
Oct 25, 2020 at 20:14
monad.chain(f(a), g);
this part was what I was looking for. Thank you. Also I figured that I could use Task rather than implementing a whole Monad for Promise.