Library
Module
Module type
Parameter
Class
Class type
include module type of React.E
Event combinators.
Consult their semantics.
type 'a t = 'a React.event
The type for events with occurrences of type 'a
.
val never : 'a React.event
A never occuring event. For all t, [never
]t = None
.
val create : unit -> 'a React.event * (?step:React.step -> 'a -> unit)
create ()
is a primitive event e
and a send
function. The function send
is such that:
send v
generates an occurrence v
of e
at the time it is called and triggers an update step.send ~step v
generates an occurence v
of e
on the step step
when step
is executed.send ~step v
raises Invalid_argument
if it was previously called with a step and this step has not executed yet or if the given step
was already executed.Warning. send
must not be executed inside an update step.
val retain : 'a React.event -> (unit -> unit) -> [ `R of unit -> unit ]
retain e c
keeps a reference to the closure c
in e
and returns the previously retained value. c
will never be invoked.
Raises. Invalid_argument
on E.never
.
val stop : ?strong:bool -> 'a React.event -> unit
stop e
stops e
from occuring. It conceptually becomes never
and cannot be restarted. Allows to disable effectful events.
The strong
argument should only be used on platforms where weak arrays have a strong semantics (i.e. JavaScript). See details.
Note. If executed in an update step the event may still occur in the step.
val equal : 'a React.event -> 'a React.event -> bool
equal e e'
is true
iff e
and e'
are equal. If both events are different from never
, physical equality is used.
val trace :
?iff:bool React.signal ->
('a -> unit) ->
'a React.event ->
'a React.event
trace iff tr e
is e
except tr
is invoked with e's occurence when iff
is true
(defaults to S.const true
). For all t where [e
]t = Some v
and [iff
]t = true
, tr
is invoked with v
.
val once : 'a React.event -> 'a React.event
once e
is e
with only its next occurence.
once e
]t = Some v
if [e
]t = Some v
and [e
]<t = None
.once e
]t = None
otherwise.val drop_once : 'a React.event -> 'a React.event
drop_once e
is e
without its next occurrence.
drop_once e
]t = Some v
if [e
]t = Some v
and [e
]<t = Some _
.drop_once e
]t = None
otherwise.val app : ('a -> 'b) React.event -> 'a React.event -> 'b React.event
app ef e
occurs when both ef
and e
occur simultaneously. The value is ef
's occurence applied to e
's one.
app ef e
]t = Some v'
if [ef
]t = Some f
and [e
]t = Some v
and f v = v'
.app ef e
]t = None
otherwise.val map : ('a -> 'b) -> 'a React.event -> 'b React.event
map f e
applies f
to e
's occurrences.
map f e
]t = Some (f v)
if [e
]t = Some v
.map f e
]t = None
otherwise.val stamp : 'b React.event -> 'a -> 'a React.event
stamp e v
is map (fun _ -> v) e
.
val filter : ('a -> bool) -> 'a React.event -> 'a React.event
filter p e
are e
's occurrences that satisfy p
.
filter p e
]t = Some v
if [e
]t = Some v
and p v = true
filter p e
]t = None
otherwise.val fmap : ('a -> 'b option) -> 'a React.event -> 'b React.event
fmap fm e
are e
's occurrences filtered and mapped by fm
.
fmap fm e
]t = Some v
if fm
[e
]t = Some v
fmap fm e
]t = None
otherwise.val diff : ('a -> 'a -> 'b) -> 'a React.event -> 'b React.event
diff f e
occurs whenever e
occurs except on the next occurence. Occurences are f v v'
where v
is e
's current occurrence and v'
the previous one.
diff f e
]t = Some r
if [e
]t = Some v
, [e
]<t = Some v'
and f v v' = r
.diff f e
]t = None
otherwise.val changes : ?eq:('a -> 'a -> bool) -> 'a React.event -> 'a React.event
changes eq e
is e
's occurrences with occurences equal to the previous one dropped. Equality is tested with eq
(defaults to structural equality).
changes eq e
]t = Some v
if [e
]t = Some v
and either [e
]<t = None
or [e
]<t = Some v'
and eq v v' = false
.changes eq e
]t = None
otherwise.val on : bool React.signal -> 'a React.event -> 'a React.event
on c e
is the occurrences of e
when c
is true
.
on c e
]t = Some v
if [c
]t = true
and [e
]t = Some v
.on c e
]t = None
otherwise.val when_ : bool React.signal -> 'a React.event -> 'a React.event
val dismiss : 'b React.event -> 'a React.event -> 'a React.event
dismiss c e
is the occurences of e
except the ones when c
occurs.
dimiss c e
]t = Some v
if [c
]t = None
and [e
]t = Some v
.dimiss c e
]t = None
otherwise.val until : 'a React.event -> 'b React.event -> 'b React.event
until c e
is e
's occurences until c
occurs.
until c e
]t = Some v
if [e
]t = Some v
and [c
]<=t = None
until c e
]t = None
otherwise.val accum : ('a -> 'a) React.event -> 'a -> 'a React.event
accum ef i
accumulates a value, starting with i
, using e
's functional occurrences.
accum ef i
]t = Some (f i)
if [ef
]t = Some f
and [ef
]<t = None
.accum ef i
]t = Some (f acc)
if [ef
]t = Some f
and [accum ef i
]<t = Some acc
.accum ef i
] = None
otherwise.val fold : ('a -> 'b -> 'a) -> 'a -> 'b React.event -> 'a React.event
fold f i e
accumulates e
's occurrences with f
starting with i
.
fold f i e
]t = Some (f i v)
if [e
]t = Some v
and [e
]<t = None
.fold f i e
]t = Some (f acc v)
if [e
]t = Some v
and [fold f i e
]<t = Some acc
.fold f i e
]t = None
otherwise.val select : 'a React.event list -> 'a React.event
select el
is the occurrences of every event in el
. If more than one event occurs simultaneously the leftmost is taken and the others are lost.
select el
]t =
[List.find (fun e ->
[e
]t <> None) el
]t.select el
]t = None
otherwise.val merge : ('a -> 'b -> 'a) -> 'a -> 'b React.event list -> 'a React.event
merge f a el
merges the simultaneous occurrences of every event in el
using f
and the accumulator a
.
[merge f a el
]t = List.fold_left f a (List.filter (fun o -> o <> None)
(List.map
[]t el))
.
val switch : 'a React.event -> 'a React.event React.event -> 'a React.event
switch e ee
is e
's occurrences until there is an occurrence e'
on ee
, the occurrences of e'
are then used until there is a new occurrence on ee
, etc..
switch e ee
]t =
[e
]t if [ee
]<=t = None
.switch e ee
]t =
[e'
]t if [ee
]<=t = Some e'
.val fix : ('a React.event -> 'a React.event * 'b) -> 'b
fix ef
allows to refer to the value an event had an infinitesimal amount of time before.
In fix ef
, ef
is called with an event e
that represents the event returned by ef
delayed by an infinitesimal amount of time. If e', r = ef e
then r
is returned by fix
and e
is such that :
e
]t =
None
if t = 0e
]t =
[e'
]t-dt otherwiseRaises. Invalid_argument
if e'
is directly a delayed event (i.e. an event given to a fixing function).
Lifting combinators. For a given n
the semantics is:
ln f e1 ... en
]t = Some (f v1 ... vn)
if for all i : [ei
]t = Some vi
.ln f e1 ... en
]t = None
otherwise.val l1 : ('a -> 'b) -> 'a React.event -> 'b React.event
val l2 : ('a -> 'b -> 'c) -> 'a React.event -> 'b React.event -> 'c React.event
val l3 :
('a -> 'b -> 'c -> 'd) ->
'a React.event ->
'b React.event ->
'c React.event ->
'd React.event
val l4 :
('a -> 'b -> 'c -> 'd -> 'e) ->
'a React.event ->
'b React.event ->
'c React.event ->
'd React.event ->
'e React.event
val l5 :
('a -> 'b -> 'c -> 'd -> 'e -> 'f) ->
'a React.event ->
'b React.event ->
'c React.event ->
'd React.event ->
'e React.event ->
'f React.event
val l6 :
('a -> 'b -> 'c -> 'd -> 'e -> 'f -> 'g) ->
'a React.event ->
'b React.event ->
'c React.event ->
'd React.event ->
'e React.event ->
'f React.event ->
'g React.event
module Option : sig ... end
Events with option occurences.
with_finaliser f e
returns an event e'
which behave as e
, except that f
is called when e'
is garbage collected.
limit f e
limits the rate of e
with f
.
For example, to limit the rate of an event to 1 per second you can use: limit (fun () -> Lwt_unix.sleep 1.0) event
.
from f
creates an event which occurs each time f ()
returns a value. If f
raises an exception, the event is just stopped.
val to_stream : 'a event -> 'a Lwt_stream.t
Creates a stream holding all values occurring on the given event
val of_stream : 'a Lwt_stream.t -> 'a event
of_stream stream
creates an event which occurs each time a value is available on the stream.
delay promise
is an event which does not occur until promise
resolves. Then it behaves as the event returned by promise
.
val keep : 'a event -> unit
keep e
keeps a reference to e
so it will never be garbage collected.
The following functions behave as their React
counterpart, except that they take functions that may yield.
As usual the _s
suffix is used when calls are serialized, and the _p
suffix is used when they are not.
Note that *_p
functions may not preserve event order.