module Deferred : sig ... endtype 'a t = 'a Async_kernel.Tail.Stream.tsexp_of_t t f returns a sexp of all of the elements currently available in the stream. It is just for display purposes. There is no t_of_sexp.
val sexp_of_t : ('a -> Ppx_sexp_conv_lib.Sexp.t) -> 'a t -> Ppx_sexp_conv_lib.Sexp.tval create : ('a Async_kernel.Tail.t -> unit) -> 'a tcreate f returns a stream t and calls f tail, where the elements of the stream are determined as the tail is extended, and the end of the stream is reached when the tail is closed.
next t returns a deferred that will become determined when the next part of the stream is determined. This is Cons (v, t'), where v is the next element of the stream and t' is the rest of the stream, or with Nil at the end of the stream.
val next : 'a t -> 'a next Deferred.tval first_exn : 'a t -> 'a Deferred.tfirst_exn t returns a deferred that becomes determined with the first element of t.
val of_list : 'a list -> 'a tof_list l returns a stream with the elements of list l.
val to_list : 'a t -> 'a list Deferred.tto_list t returns a deferred that will become determined with the list of elements in t, if the end of t is reached.
val of_fun : (unit -> 'a Deferred.t) -> 'a tof_fun f returns a stream whose elements are determined by calling f forever.
val copy_to_tail : 'a t -> 'a Async_kernel.Tail.t -> unit Deferred.tcopy_to_tail t tail reads elements from t and puts them in tail, until the end of t is reached.
append t1 t2 returns a stream with all the values of t1, in order, and if t1 ends, these values are followed by all the values of t2.
concat t takes a stream of streams and produces a stream that is the concatenation of each stream in order (you see all of stream 1, then all of stream 2... etc.)
available_now t returns t prefix of t that is available now, along with the rest of the stream.
filter_deprecated s ~f returns a stream with one element, v, for each v in s such with f v = true.
Using filter_deprecated can easily lead to space leaks. It is better to use Async.Pipe than Async.Stream.
filter_map_deprecated s ~f returns a stream with one element, v', for each v in s such with f v = Some v'.
Using filter_map_deprecated can easily lead to space leaks. It is better to use Async.Pipe than Async.Stream.
val fold' : 'a t -> init:'b -> f:('b -> 'a -> 'b Deferred.t) -> 'b Deferred.tfold' t ~init ~f is like list fold, walking over the elements of the stream in order, as they become available. fold' returns a deferred that will yield the final value of the accumulator, if the end of the stream is reached.
val fold : 'a t -> init:'b -> f:('b -> 'a -> 'b) -> 'b Deferred.tfold t ~init ~f is a variant of fold' in which f does not return a deferred.
val iter' : 'a t -> f:('a -> unit Deferred.t) -> unit Deferred.titer' t ~f applies f to each element of the stream in turn, as they become available. It continues onto the next element only after the deferred returned by f becomes determined.
val closed : _ t -> unit Deferred.tclosed t returns a deferred that becomes determined when the end of t is reached.
val iter : 'a t -> f:('a -> unit) -> unititer t ~f = don't_wait_for (iter' t ~f:(fun a -> f a; return ()))
val take_until : 'a t -> unit Deferred.t -> 'a ttake_until t d returns a stream t' that has the same elements as t up until d becomes determined.
val iter_durably' : 'a t -> f:('a -> unit Deferred.t) -> unit Deferred.titer_durably' t ~f is like iter' t ~f, except if f raises an exception it continues with the next element of the stream *and* reraises the exception (to the monitor in scope when iter_durably was called).
iter_durably t ~f is like iter t ~f, except if f raises an exception it continues with the next element of the stream *and* reraises the exception (to the monitor in scope when iter_durably was called).
iter_durably_report_end t ~f is equivalent to iter_durably' t ~f:(fun x -> return
(f x)) but it is more efficient
val iter_durably : 'a t -> f:('a -> unit) -> unitval iter_durably_report_end : 'a t -> f:('a -> unit) -> unit Deferred.tval length : 'a t -> int Deferred.tlength s returns a deferred that is determined when the end of s is reached, taking the value of the number of elements in s
val map' : 'a t -> f:('a -> 'b Deferred.t) -> 'b tmap' t f creates a new stream that with one element, (f v), for each element v of t.
map t ~f creates a new stream that with one element, (f v), for each element v of t. map t f = map' t ~f:(fun a -> return (f a)).
first_n t n returns a stream with the first n elements of t, if t has n or more elements, or it returns t.
val unfold : 'b -> f:('b -> ('a * 'b) option Deferred.t) -> 'a tunfold b f returns a stream a1; a2; ...; an whose elements are determined by the equations:
b0 = b
Some (a1, b1) = f b0
Some (a2, b2) = f b1
...
None = f bnval split : ?stop:unit Deferred.t -> ?f:('a -> [ `Continue | `Found of 'b ]) -> 'a t -> 'a t * [ `End_of_stream | `Stopped of 'a t | `Found of 'b * 'a t ] Deferred.tsplit ~stop ~f t returns a pair (p, d), where p is a prefix of t that ends for one of three reasons:
1. [t] ends
2. stop becomes determined
3. f returns `FoundThe deferred d describes why the prefix ended, and returns the suffix of the stream in case (2) or (3).
val find : 'a t -> f:('a -> bool) -> [ `End_of_stream | `Found of 'a * 'a t ] Deferred.tfind ~f t returns a deferred that becomes determined when f x is true for some element of t, or if the end of the stream is reached
ungroup t takes a stream of lists and unpacks the items from each list into a single stream