module Async_stream:sig
..end
Pipe
instead of Stream.
A stream is an immutable sequence of values, with a possibly incomplete tail that may be extended asynchronously.
The basic primitive operation for getting the next element out of stream is
Stream.next, which (asynchronously) returns the element and the rest of the stream.
type'a
t ='a Tail.Stream.t
sexp_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 create : ('a Tail.t -> unit) -> 'a t
type 'a
next =
| |
Nil |
| |
Cons of |
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.t
val first_exn : 'a t -> 'a Deferred.t
first_exn t
returns a deferred that becomes determined with the first element of
t
.val of_list : 'a list -> 'a t
of_list l
returns a stream with the elements of list l.val to_list : 'a t -> 'a list Deferred.t
to_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 t
of_fun f
returns a stream whose elements are determined by calling f
forever.val copy_to_tail : 'a t -> 'a Tail.t -> unit Deferred.t
copy_to_tail t tail
reads elements from t
and puts them in tail
, until
the end of t
is reached.
append, fold, iter, map, filter_map, take
There are also deferred variants:
iter', map', filter_map'
These take anonymous functions that return deferreds generalizing the usual sequence
operation and allowing the client to control the rate at which the sequence is
processed.
val append : 'a t -> 'a t -> 'a t
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.val concat : 'a t t -> 'a t
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.)val available_now : 'a t -> 'a list * 'a t
available_now t
returns t prefix of t that is available now, along with the rest of
the stream.val filter_deprecated : 'a t -> f:('a -> bool) -> 'a t
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
.
val filter_map_deprecated : 'a t -> f:('a -> 'b option) -> 'b t
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.t
fold' 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.t
fold 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.t
iter' 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 : 'a t -> unit Deferred.t
closed t
returns a deferred that becomes determined when the end of t
is
reached.val iter : 'a t -> f:('a -> unit) -> unit
iter t ~f
= don't_wait_for (iter' t ~f:(fun a -> f a; Deferred.unit))
val take_until : 'a t -> unit Deferred.t -> 'a t
take_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.t
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 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) -> unit
val iter_durably_report_end : 'a t -> f:('a -> unit) -> unit Deferred.t
val length : 'a t -> int Deferred.t
length s
returns a deferred that is determined when the end of s is reached, taking
the value of the number of elements in sval map' : 'a t -> f:('a -> 'b Deferred.t) -> 'b t
map' t f
creates a new stream that with one element, (f v), for each element v of
t.val map : 'a t -> f:('a -> 'b) -> 'b 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))
.val first_n : 'a t -> int -> 'a t
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 t
unfold 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 bn
val split : ?stop:unit Deferred.t ->
?f:('a -> [ `Continue | `Found of 'b ]) ->
'a t ->
'a t *
[ `End_of_stream
| `Found of 'b * 'a t
| `Stopped of 'a t ] Deferred.t
split ~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.t
find ~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 reachedval ungroup : 'a list t -> 'a t
ungroup t
takes a stream of lists and unpacks the items from each list into a single
streamval interleave : 'a t t -> 'a t
interleave list
takes a stream of streams and returns a stream of their items
interleaved as they become determined. The interleaved stream will be closed when the
outer stream and all of the inner streams have been closed.val sexp_of_t : ('a -> Sexplib.Sexp.t) -> 'a t -> Sexplib.Sexp.t
sexp_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
.create 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.first_exn t
returns a deferred that becomes determined with the first element of
t
.of_list l
returns a stream with the elements of list l.to_list t
returns a deferred that will become determined with the list
of elements in t, if the end of t is reached.of_fun f
returns a stream whose elements are determined by calling f
forever.copy_to_tail t tail
reads elements from t
and puts them in tail
, until
the end of t
is reached.
append, fold, iter, map, filter_map, take
There are also deferred variants:
iter', map', filter_map'
These take anonymous functions that return deferreds generalizing the usual sequence
operation and allowing the client to control the rate at which the sequence is
processed.
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
.
fold' 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.
fold t ~init ~f
is a variant of fold'
in which f
does not return a deferred.
iter' 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.
closed t
returns a deferred that becomes determined when the end of t
is
reached.
iter t ~f
= don't_wait_for (iter' t ~f:(fun a -> f a; Deferred.unit))
take_until t d
returns a stream t'
that has the same elements as t
up until d
becomes determined.
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 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
length s
returns a deferred that is determined when the end of s is reached, taking
the value of the number of elements in s
map' 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.
Stream generation
----------------------------------------------------------------------
unfold 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 bn
split ~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).find ~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 reachedungroup t
takes a stream of lists and unpacks the items from each list into a single
streaminterleave list
takes a stream of streams and returns a stream of their items
interleaved as they become determined. The interleaved stream will be closed when the
outer stream and all of the inner streams have been closed.