Fmlib_std.Result
Result: Handling results of operations which can fail
Operations returning a result type can be used to have some functional exception handling.
Let's say that you have some operatios returning a result object.
let op1 ... : (int, error) result = ...
let op2 ... : (char, error) result = ...
let op3 ... : (string, error) result = ...
let op3 ... : (t, error) result = ...
You can chain these operations by concentrating on the success case only and handling the error case at the end of the chain.
match
let* i = op1 ... in
let* c = op2 ... i ... in
let* s = op3 ... i ... c ... in
op4 ... i ... c ... s
with
| Ok x ->
(* Handling of the success case *)
| Error e ->
(* Handling of the error case which might have
occurred in any of the steps *)
A simple example:
type 'a r = ('a, string) result
let add (a: int r) (b: int r): int r =
let* x = a in
let* y = b in
Ok (x + y)
let divide (a: int r) (b: int r): int r =
let* x = a in
let* y = b in
if y = 0 then
Error "Division by Zero"
else
Ok (x / y)
assert (
add (Ok 1) (divide (Ok 2) (Ok 0))
=
Error "Division by Zero"
)
assert (
add (Ok 1) (divide (Ok 10) (Ok 2))
=
Ok 6
)
'a
is the result type in case of success and 'e
is the result type in case of failure. It is implemented by the ocaml type result
from the ocaml standard library.
val return : 'a -> ('a, 'e) t
return a
Equivalent to Ok a
.
val fail : 'e -> ('a, 'e) t
fail e
Equivalent to Error e
.
val to_option : ('a, 'e) t -> 'a option
to_option r
Map r
to an optional element i.e. Some a
in case of Ok a
and None
in case of Error _
.
m >>= f
maps success result m
to f a
. In case of an error result f
is not called and the error remains.
map_error f m
Map the error in m
via the function f
.
module Monad (E : Interfaces.ANY) : sig ... end
The result type encapsulated in a module which satisfies the monadic interface.