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package sequence
Simple and Efficient Iterators
Version of Sequence with labels
A sequence of values of type 'a. If you give it a function 'a -> unit it will be applied to every element of the sequence successively.
type +'a sequence = 'a tNOTE Type ('a, 'b) t2 = ('a -> 'b -> unit) -> unit has been removed and subsumed by ('a * 'b) t
Build a sequence
val from_iter : (('a -> unit) -> unit) -> 'a tBuild a sequence from a iter function
val from_fun : (unit -> 'a option) -> 'a tCall the function repeatedly until it returns None. This sequence is transient, use persistent if needed!
val empty : 'a tEmpty sequence. It contains no element.
val singleton : 'a -> 'a tSingleton sequence, with exactly one element.
val doubleton : 'a -> 'a -> 'a tSequence with exactly two elements
val init : f:(int -> 'a) -> 'a tinit f is the infinite sequence f 0; f 1; f 2; ….
val repeat : 'a -> 'a tInfinite sequence of the same element. You may want to look at take and the likes if you iterate on it.
val iterate : ('a -> 'a) -> 'a -> 'a titerate f x is the infinite sequence x, f(x), f(f(x)), ...
val forever : (unit -> 'b) -> 'b tSequence that calls the given function to produce elements. The sequence may be transient (depending on the function), and definitely is infinite. You may want to use take and persistent.
Cycle forever through the given sequence. Assume the given sequence can be traversed any amount of times (not transient). This yields an infinite sequence, you should use something like take not to loop forever.
Consume a sequence
val iter : f:('a -> unit) -> 'a t -> unitConsume the sequence, passing all its arguments to the function. Basically iter f seq is just seq f.
val iteri : f:(int -> 'a -> unit) -> 'a t -> unitIterate on elements and their index in the sequence
val fold : f:('a -> 'b -> 'a) -> init:'a -> 'b t -> 'aFold over elements of the sequence, consuming it
val foldi : f:('a -> int -> 'b -> 'a) -> init:'a -> 'b t -> 'aFold over elements of the sequence and their index, consuming it
fold_filter_map f acc l is a fold_map-like function, but the function can choose to skip an element by retuning None.
Map objects two by two. lazily. The last element is kept in the sequence if the count is odd.
val for_all : f:('a -> bool) -> 'a t -> boolDo all elements satisfy the predicate?
val exists : f:('a -> bool) -> 'a t -> boolExists there some element satisfying the predicate?
val mem : ?eq:('a -> 'a -> bool) -> x:'a -> 'a t -> boolIs the value a member of the sequence?
val find : ('a -> 'b option) -> 'a t -> 'b optionFind the first element on which the function doesn't return None
val find_pred : f:('a -> bool) -> 'a t -> 'a optionfind_pred p l finds the first element of l that satisfies p, or returns None if no element satisfies p
val length : 'a t -> intHow long is the sequence? Forces the sequence.
val is_empty : 'a t -> boolIs the sequence empty? Forces the sequence.
Transform a sequence
Append two sequences. Iterating on the result is like iterating on the first, then on the second.
Append sequences. Iterating on the result is like iterating on the each sequence of the list in order.
Map with indices, and only keep non-None elements
seq_list l returns all the ways to pick one element in each sub-sequence in l. Assumes the sub-sequences can be iterated on several times.
seq_list_map f l maps f over every element of l, then calls seq_list
val filter_count : f:('a -> bool) -> 'a t -> intCount how many elements satisfy the given predicate
Insert the single element between every element of the sequence
filter_some l retains only elements of the form Some x. Same as filter_map (fun x->x)
val keep_ok : ('a, _) Result.result t -> 'a tkeep_ok l retains only elements of the form Ok x.
val keep_error : (_, 'e) Result.result t -> 'e tkeep_error l retains only elements of the form Error x.
Caching
Iterate on the sequence, storing elements in an efficient internal structure.. The resulting sequence can be iterated on as many times as needed. Note: calling persistent on an already persistent sequence will still make a new copy of the sequence!
Lazy version of persistent. When calling persistent_lazy s, a new sequence s' is immediately returned (without actually consuming s) in constant time; the first time s' is iterated on, it also consumes s and caches its content into a inner data structure that will back s' for future iterations.
warning: on the first traversal of s', if the traversal is interrupted prematurely (take, etc.) then s' will not be memorized, and the next call to s' will traverse s again.
Misc
Sort the sequence. Eager, O(n) ram and O(n ln(n)) time. It iterates on elements of the argument sequence immediately, before it sorts them.
Sort the sequence and remove duplicates. Eager, same as sort
val sorted : ?cmp:('a -> 'a -> int) -> 'a t -> boolChecks whether the sequence is sorted. Eager, same as sort.
Group equal consecutive elements. Formerly synonym to group.
Group equal elements, disregarding their order of appearance. The result sequence is traversable as many times as required. precondition: for any x and y, if eq x y then hash x=hash y must hold.
Map each distinct element to its number of occurrences in the whole seq. Similar to group_by seq |> map (fun l->List.hd l, List.length l)
Remove consecutive duplicate elements. Basically this is like fun seq -> map List.hd (group seq).
Cartesian product of the sequences. When calling product a b, the caller MUST ensure that b can be traversed as many times as required (several times), possibly by calling persistent on it beforehand.
val diagonal_l : 'a list -> ('a * 'a) tAll pairs of distinct positions of the list. diagonal l will return the sequence of all List.nth i l, List.nth j l if i < j.
All pairs of distinct positions of the sequence. Iterates only once on the sequence, which must be finite.
join ~join_row a b combines every element of a with every element of b using join_row. If join_row returns None, then the two elements do not combine. Assume that b allows for multiple iterations.
val join_by :
?eq:'key equal ->
?hash:'key hash ->
('a -> 'key) ->
('b -> 'key) ->
merge:('key -> 'a -> 'b -> 'c option) ->
'a t ->
'b t ->
'c tjoin key1 key2 ~merge is a binary operation that takes two sequences a and b, projects their elements resp. with key1 and key2, and combine values (x,y) from (a,b) with the same key using merge. If merge returns None, the combination of values is discarded. precondition: for any x and y, if eq x y then hash x=hash y must hold.
val join_all_by :
?eq:'key equal ->
?hash:'key hash ->
('a -> 'key) ->
('b -> 'key) ->
merge:('key -> 'a list -> 'b list -> 'c option) ->
'a t ->
'b t ->
'c tjoin_all_by key1 key2 ~merge is a binary operation that takes two sequences a and b, projects their elements resp. with key1 and key2, and, for each key k occurring in at least one of them:
- compute the list
l1of elements ofathat map tok - compute the list
l2of elements ofbthat map tok - call
merge k l1 l2. IfmergereturnsNone, the combination of values is discarded, otherwise it returnsSome candcis inserted in the result.
group_join_by key2 associates to every element x of the first sequence, all the elements y of the second sequence such that eq x (key y). Elements of the first sequences without corresponding values in the second one are mapped to [] precondition: for any x and y, if eq x y then hash x=hash y must hold.
Intersection of two collections. Each element will occur at most once in the result. Eager. precondition: for any x and y, if eq x y then hash x=hash y must hold.
Union of two collections. Each element will occur at most once in the result. Eager. precondition: for any x and y, if eq x y then hash x=hash y must hold.
subset a b returns true if all elements of a belong to b. Eager. precondition: for any x and y, if eq x y then hash x=hash y must hold.
val unfoldr : ('b -> ('a * 'b) option) -> 'b -> 'a tunfoldr f b will apply f to b. If it yields Some (x,b') then x is returned and unfoldr recurses with b'.
val max : ?lt:('a -> 'a -> bool) -> 'a t -> 'a optionMax element of the sequence, using the given comparison function.
val min : ?lt:('a -> 'a -> bool) -> 'a t -> 'a optionMin element of the sequence, using the given comparison function. see max for more details.
val sum : int t -> intSum of elements
val sumf : float t -> floatSum of elements, using Kahan summation
val head : 'a t -> 'a optionFirst element, if any, otherwise None
val head_exn : 'a t -> 'aFirst element, if any, fails
Take at most n elements from the sequence. Works on infinite sequences.
Take elements while they satisfy the predicate, then stops iterating. Will work on an infinite sequence s if the predicate is false for at least one element of s.
val fold_while :
f:('a -> 'b -> 'a * [ `Stop | `Continue ]) ->
init:'a ->
'b t ->
'aFolds over elements of the sequence, stopping early if the accumulator returns ('a, `Stop)
Reverse the sequence. O(n) memory and time, needs the sequence to be finite. The result is persistent and does not depend on the input being repeatable.
Zip elements of the sequence with their index in the sequence. Changed type
val fold2 : f:('c -> 'a -> 'b -> 'c) -> init:'c -> ('a * 'b) t -> 'cval iter2 : f:('a -> 'b -> unit) -> ('a * 'b) t -> unitmap2_2 f g seq2 maps each x, y of seq2 into f x y, g x y
Basic data structures converters
val to_list : 'a t -> 'a listConvert the sequence into a list. Preserves order of elements. This function is tail-recursive, but consumes 2*n memory. If order doesn't matter to you, consider to_rev_list.
val to_rev_list : 'a t -> 'a listGet the list of the reversed sequence (more efficient than to_list)
val of_list : 'a list -> 'a ton_list f l is equivalent to to_list @@ f @@ of_list l.
val to_array : 'a t -> 'a arrayConvert to an array. Currently not very efficient because an intermediate list is used.
val of_array : 'a array -> 'a tval of_array_i : 'a array -> (int * 'a) tElements of the array, with their index
val array_slice : 'a array -> int -> int -> 'a tarray_slice a i j Sequence of elements whose indexes range from i to j
val of_opt : 'a option -> 'a tIterate on 0 or 1 values.
Convert to a stream. linear in memory and time (a copy is made in memory)
Add elements of the sequence to the hashtable, with Hashtbl.add
Add elements of the sequence to the hashtable, with Hashtbl.replace (erases conflicting bindings)
Build a hashtable from a sequence of key/value pairs
val of_str : string -> char tval to_str : char t -> stringval concat_str : string t -> stringConcatenate strings together, eagerly. Also see intersperse to add a separator.
Raised when the user tries to iterate several times on a transient iterator
val of_in_channel : in_channel -> char tIterates on characters of the input (can block when one iterates over the sequence). If you need to iterate several times on this sequence, use persistent.
val int_range : start:int -> stop:int -> int tIterator on integers in start...stop by steps 1. Also see (--) for an infix version.
val int_range_dec : start:int -> stop:int -> int tIterator on decreasing integers in stop...start by steps -1. See (--^) for an infix version
val int_range_by : step:int -> start:int -> stop:int -> int tint_range_by ~step ~start:i ~stop:j is the range starting at i, including j, where the difference between successive elements is step. use a negative step for a decreasing sequence.
val bools : bool tIterates on true and false
Convert the given set to a sequence. The set module must be provided.
Convert the sequence to a set, given the proper set module
type 'a klist = unit -> [ `Nil | `Cons of 'a * 'a klist ]Functorial conversions between sets and sequences
module Set : sig ... endConversion between maps and sequences.
module Map : sig ... endInfinite sequences of random values
val random_int : int -> int tInfinite sequence of random integers between 0 and the given higher bound (see Random.int)
val random_bool : bool tInfinite sequence of random bool values
val random_float : float -> float tval random_array : 'a array -> 'a tSequence of choices of an element in the array
val random_list : 'a list -> 'a tInfinite sequence of random elements of the list. Basically the same as random_array.
shuffle seq returns a perfect shuffle of seq. Uses O(length seq) memory and time. Eager.
shuffle_buffer n seq returns a sequence of element of seq in random order. The shuffling is not uniform. Uses O(n) memory.
The first n elements of the sequence are consumed immediately. The rest is consumed lazily.
Sampling
val sample : n:int -> 'a t -> 'a arraysample n seq returns k samples of seq, with uniform probability. It will consume the sequence and use O(n) memory.
It returns an array of size min (length seq) n.
Infix functions
module Infix : sig ... endinclude module type of Infix
val (--) : int -> int -> int ta -- b is the range of integers from a to b, both included, in increasing order. It will therefore be empty if a > b.
val (--^) : int -> int -> int ta --^ b is the range of integers from b to a, both included, in decreasing order (starts from a). It will therefore be empty if a < b.
Pretty printing of sequences
val pp_seq :
?sep:string ->
(Format.formatter -> 'a -> unit) ->
Format.formatter ->
'a t ->
unitPretty print a sequence of 'a, using the given pretty printer to print each elements. An optional separator string can be provided.
val to_string : ?sep:string -> ('a -> string) -> 'a t -> stringPrint into a string
Basic IO
Very basic interface to manipulate files as sequence of chunks/lines. The sequences take care of opening and closing files properly; every time one iterates over a sequence, the file is opened/closed again.
Example: copy a file "a" into file "b", removing blank lines:
Sequence.(IO.lines_of "a" |> filter (fun l-> l<> "") |> IO.write_lines "b");;By chunks of 4096 bytes:
Sequence.IO.(chunks_of ~size:4096 "a" |> write_to "b");;Read the lines of a file into a list:
Sequence.IO.lines "a" |> Sequence.to_listmodule IO : sig ... endOn This Page