val value_f : ('a, 'e)Stdlib.result->default:(unit ->'a)->'a
val bind :
('a, 'e)Stdlib.result->('a->('b, 'e)Stdlib.result)->('b, 'e)Stdlib.result
val bind_error :
('a, 'e)Stdlib.result->('e->('a, 'f)Stdlib.result)->('a, 'f)Stdlib.result
val map : ('a->'b)->('a, 'e)Stdlib.result->('b, 'e)Stdlib.result
val map_error : ('e->'f)->('a, 'e)Stdlib.result->('a, 'f)Stdlib.result
val bind_s :
('a, 'e)Stdlib.result->('a->('b, 'e)Stdlib.resultLwt.t)->('b, 'e)Stdlib.resultLwt.t
val bind_error_s :
('a, 'e)Stdlib.result->('e->('a, 'f)Stdlib.resultLwt.t)->('a, 'f)Stdlib.resultLwt.t
val join : (('a, 'e)Stdlib.result, 'e)Stdlib.result->('a, 'e)Stdlib.result
val map_e :
('a->('b, 'e)Stdlib.result)->('a, 'e)Stdlib.result->('b, 'e)Stdlib.result
val map_s :
('a->'bLwt.t)->('a, 'e)Stdlib.result->('b, 'e)Stdlib.resultLwt.t
val map_es :
('a->('b, 'e)Stdlib.resultLwt.t)->('a, 'e)Stdlib.result->('b, 'e)Stdlib.resultLwt.t
val map_error_e :
('e->('a, 'f)Stdlib.result)->('a, 'e)Stdlib.result->('a, 'f)Stdlib.result
val map_error_s :
('e->'fLwt.t)->('a, 'e)Stdlib.result->('a, 'f)Stdlib.resultLwt.t
val map_error_es :
('e->('a, 'f)Stdlib.resultLwt.t)->('a, 'e)Stdlib.result->('a, 'f)Stdlib.resultLwt.t
val fold : ok:('a->'c)->error:('e->'c)->('a, 'e)Stdlib.result->'c
val iter : ('a-> unit)->('a, 'e)Stdlib.result-> unit
val iter_s : ('a->unit Lwt.t)->('a, 'e)Stdlib.result->unit Lwt.t
val iter_error : ('e-> unit)->('a, 'e)Stdlib.result-> unit
val iter_error_s : ('e->unit Lwt.t)->('a, 'e)Stdlib.result->unit Lwt.t
val is_ok : ('a, 'e)Stdlib.result-> bool
val is_error : ('a, 'e)Stdlib.result-> bool
val equal :
ok:('a->'a-> bool)->error:('e->'e-> bool)->('a, 'e)Stdlib.result->('a, 'e)Stdlib.result->
bool
val compare :
ok:('a->'a-> int)->error:('e->'e-> int)->('a, 'e)Stdlib.result->('a, 'e)Stdlib.result->
int
val to_option : ('a, 'e)Stdlib.result->'a option
val of_option : error:'e->'a option->('a, 'e)Stdlib.result
val to_list : ('a, 'e)Stdlib.result->'a list
val to_seq : ('a, 'e)Stdlib.result->'aStdlib.Seq.t
val catch :
?catch_only:(exn -> bool)->(unit ->'a)->('a, exn)Stdlib.result
catch f is try Ok (f ()) with e -> Error e: it is Ok x if f () evaluates to x, and it is Error e if f () raises e.
See WithExceptions.S.Result.to_exn for a converse function.
If catch_only is set, then only exceptions e such that catch_only e is true are caught.
Whether catch_only is set or not, this function never catches non-deterministic runtime exceptions of OCaml such as Stack_overflow and Out_of_memory.
val catch_f :
?catch_only:(exn -> bool)->(unit ->'a)->(exn ->'e)->('a, 'e)Stdlib.result
catch_f f handler is equivalent to map_error (catch f) handler. In other words, it catches exceptions in f () and either returns the value in an Ok or passes the exception to handler for the Error.
No attempt is made to catch the exceptions raised by handler.
catch_only has the same use as with catch. The same restriction on catching non-deterministic runtime exceptions applies.
val catch_ef :
?catch_only:(exn -> bool)->(unit ->('a, 'error)Stdlib.result)->(exn ->'error)->('a, 'error)Stdlib.result
catch_ef f handler is equivalent to join @@ map_error (catch f) handler. In other words, it catches exceptions in f () and either returns the value as is or passes the exception to handler for the Error. The handler must return an error of the same type as that carried by f ().
No attempt is made to catch the exceptions raised by handler.
catch_only has the same use as with catch. The same restriction on catching non-deterministic runtime exceptions applies.
val catch_s :
?catch_only:(exn -> bool)->(unit ->'aLwt.t)->('a, exn)Stdlib.resultLwt.t
catch_s is catch but for Lwt promises. Specifically, catch_s f returns a promise that resolves to Ok x if and when f () resolves to x, or to Error exc if and when f () is rejected with exc.
If catch_only is set, then only exceptions e such that catch_only e is true are caught.
Whether catch_only is set or not, this function never catches non-deterministic runtime exceptions of OCaml such as Stack_overflow and Out_of_memory.
We do not provide catch_s_f because (a) the suffix becomes confusing, (b) it's not used, (c) it is not obvious whether we want the handler to be within Lwt (gives more flexibility) or not (gives more guarantee about the timeliness of learning about rejections). We will revisit this if a needs for it arises.