BatStream
Streams and stream parsers
Streams are a read-and-forget data structure, comparable to enumerations. In Batteries Included, streams are deprecated in favor of enumerations, defined in module BatEnum
.
Note This module is provided essentially for backwards-compatibility. If you feel like using Stream.t
, please take a look at BatEnum
or LazyList
.
This module is based on Zheng Li's SDFlow
This module replaces Stdlib's Stream module.
@documents Stream
type 'a t = 'a Stream.t
include BatEnum.Enumerable with type 'a enumerable = 'a t
type 'a enumerable = 'a t
The data structure, e.g. 'a List.t
include BatInterfaces.Mappable with type 'a mappable = 'a t
type 'a mappable = 'a t
The data structure, e.g. 'a List.t
The type of streams holding values of type 'a
.
Raised by parsers when none of the first components of the stream patterns is accepted.
Raised by parsers when the first component of a stream pattern is accepted, but one of the following components is rejected.
val from : (int -> 'a option) -> 'a t
Stream.from f
returns a stream built from the function f
. To create a new stream element, the function f
is called with the current stream count. The user function f
must return either Some <value>
for a value or None
to specify the end of the stream.
val of_list : 'a list -> 'a t
Return the stream holding the elements of the list in the same order.
val of_string : string -> char t
Return the stream of the characters of the string parameter.
val of_channel : in_channel -> char t
Return the stream of the characters read from the input channel.
Warning: these functions create streams with fast access; it is illegal to mix them with streams built with [< >]
; would raise Failure
when accessing such mixed streams.
val of_fun : (unit -> 'a) -> 'a t
Stream.of_fun f
returns a stream built from the function f
. To create a new stream element, the function f
is called with the current stream count. The user function f
must return either Some <value>
for a value or None
to specify the end of the stream.
val iter : ('a -> unit) -> 'a t -> unit
Stream.iter f s
scans the whole stream s, applying function f
in turn to each stream element encountered.
val foldl : ('a -> 'b -> 'a * bool option) -> 'a -> 'b t -> 'a
foldl f init stream
is a lazy fold_left. f accu elt
should return (new_accu, state)
where new_accu
is normal accumulation result, and state
is a flag representing whether the computation should continue and whether the last operation is valid: None
means continue, Some b
means stop where b = true
means the last addition is still valid and b
= false
means the last addition is invalid and should be revert.
val foldr : ('a -> 'b lazy_t -> 'b) -> 'b -> 'a t -> 'b
foldr f init stream
is a lazy fold_right. Unlike the normal fold_right, the accumulation parameter of f elt accu
is lazy, hence it can decide not to force the evaluation of accu
if the current element elt
can determine the result by itself.
val fold : ('a -> 'a -> 'a * bool option) -> 'a t -> 'a
fold
is foldl
without initialization value, where the first element of stream is taken as init
. It raises End_of_stream
exception when the input stream is empty.
filter test stream
picks all the elements satisfying test
from stream
and return the results in the same order as a stream.
val empty : 'a t -> unit
Return ()
if the stream is empty, else raise Stream.Failure
.
val peek : 'a t -> 'a option
Return Some
of "the first element" of the stream, or None
if the stream is empty.
val junk : 'a t -> unit
Remove the first element of the stream, possibly unfreezing it before.
val count : 'a t -> int
Return the current count of the stream elements, i.e. the number of the stream elements discarded.
val npeek : int -> 'a t -> 'a list
npeek n
returns the list of the n
first elements of the stream, or all its remaining elements if less than n
elements are available.
Convert a stream to an enumeration. Reading the resulting enumeration will consume elements from the stream. This is the preferred manner of converting from a stream to any other data structure.
Convert an enumeration to a stream. Reading the resulting stream will consume elements from the enumeration. This is the preferred manner of creating a stream.
val of_input : BatIO.input -> char t
Convert an input
to a stream.
val to_list : 'a t -> 'a list
Convert a stream to a list
val to_string : char t -> string
convert stream of chars to string, using buffer
convert stream to string, using Printf with given format
val to_string_fun : ('a -> string) -> 'a t -> string
convert stream to string, using given conversion function
val on_output : 'a BatIO.output -> char t -> unit
Convert an output
to a stream.
All the functions in this part are lazy.
map f stream
applies f
in turn to elements from stream
and return the results as a stream in the same order.
map2 f streama streamb
applies f
in turn to elements of corresponding positions from streama
and streamb
. The results are constructed in the same order as a stream. If one stream is short, excess elements of the longer stream are ignored.
scanl f init stream
returns a stream of successive reduced values from the left: scanl f init [< 'e0; 'e1; ... >]
is equivalent to [< 'init; '(f init e0); '(f (f init e0) e1); ... >]
scan
is similar to scanl
but without the init
value: scanl f init [< 'e0; 'e1; 'e2; ... >]
is equivalent to [< 'e0; '(f e0 e1); '(f (f e0 e1) e2); ... >]
take n stream
returns the prefix of stream
of length n
, or stream
itself if n
is greater than the length of stream
drop n stream
returns the suffix of stream
after the first n
elements, or a empty stream if n
is greater than the length of stream
take_while test stream
returns the longest (possibly empty) prefix of stream
of elements that satisfy test
.
drop_while test stream
returns the remaining suffix of take_while test
stream
.
All the functions in this part are lazy.
dup stream
returns a pair of streams which are identical to stream
. Note that stream is a destructive data structure, the point of dup
is to return two streams can be used independently.
NOT IMPLEMENTED CORRECTLY - WILL RAISE Failure UNTIL CORRECT IMPLEMENTATION FOUND
comb
transform a pair of stream into a stream of pairs of corresponding elements. If one stream is short, excess elements of the longer stream are ignored.
merge test (streama, streamb)
merge the elements from streama
and streamb
into a single stream. The bool
type here represents the id of the two input streams where true
is the first and false
represents the second. The test
function is applied to each element of the output stream together with the id of the input stream from which it was extracted, to decide which stream should the next element come from. The first element is always taken from streama
. When a stream runs out of elements, the merge process will continue to take elements from the other stream until both streams reach their ends.
switch test stream
split stream
into two streams, where the first stream have all the elements satisfying test
, the second stream is opposite. The order of elements in the source stream is preserved.
All the functions in this part are lazy.
val is_empty : 'a t -> bool
is_empty stream
tests whether stream
is empty. But note that it forces the evaluation of the head element if any.
val next : 'a t -> 'a
Return the first element of the stream and remove it from the stream.
module StreamLabels : sig ... end
Note This module is provided essentially for backwards-compatibility. If you feel like using Stream.t
, please take a look at BatEnum
or LazyList
and GenParser
.