package biocaml

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Module type
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Class type
module Elt : sig ... end
module Tree : sig ... end
include Core_kernel.Set_intf.S_plain with module Elt := Elt and module Tree := Tree
include sig ... end
val compare : t -> t -> Base.Int.t
include Core_kernel.Set_intf.Creators_and_accessors0 with type ('a, 'b) set := ('a, 'b) Base.Set.t with type t := t with type tree := Tree.t with type elt := Elt.t with type comparator_witness := Elt.comparator_witness
include Core_kernel.Set_intf.Accessors0 with type t := t with type tree := Tree.t with type elt := Elt.t with type comparator_witness := Elt.comparator_witness
include Base.Set_intf.Accessors0 with type t := t with type tree := Tree.t with type elt := Elt.t with type comparator_witness := Elt.comparator_witness
include Base.Container.S0 with type t := t with type elt := Elt.t
val length : t -> int
val is_empty : t -> bool
val iter : t -> f:(Elt.t -> unit) -> unit

iter must allow exceptions raised in f to escape, terminating the iteration cleanly. The same holds for all functions below taking an f.

val fold : t -> init:'accum -> f:('accum -> Elt.t -> 'accum) -> 'accum

fold t ~init ~f returns f (... f (f (f init e1) e2) e3 ...) en, where e1..en are the elements of t.

val fold_result : t -> init:'accum -> f:('accum -> Elt.t -> ('accum, 'e) Base.Result.t) -> ('accum, 'e) Base.Result.t

fold_result t ~init ~f is a short-circuiting version of fold that runs in the Result monad. If f returns an Error _, that value is returned without any additional invocations of f.

val exists : t -> f:(Elt.t -> bool) -> bool

Returns true if and only if there exists an element for which the provided function evaluates to true. This is a short-circuiting operation.

val for_all : t -> f:(Elt.t -> bool) -> bool

Returns true if and only if the provided function evaluates to true for all elements. This is a short-circuiting operation.

val count : t -> f:(Elt.t -> bool) -> int

Returns the number of elements for which the provided function evaluates to true.

val sum : (module Base.Commutative_group.S with type t = 'sum) -> t -> f:(Elt.t -> 'sum) -> 'sum

Returns the sum of f i for all i in the container.

val find : t -> f:(Elt.t -> bool) -> Elt.t option

Returns as an option the first element for which f evaluates to true.

val find_map : t -> f:(Elt.t -> 'a option) -> 'a option

Returns the first evaluation of f that returns Some, and returns None if there is no such element.

val to_list : t -> Elt.t list
val to_array : t -> Elt.t array
val invariants : t -> bool
val mem : t -> Elt.t -> bool
val add : t -> Elt.t -> t
val remove : t -> Elt.t -> t
val union : t -> t -> t
val inter : t -> t -> t
val diff : t -> t -> t
val symmetric_diff : t -> t -> (Elt.t, Elt.t) Base.Either.t Base.Sequence.t
val compare_direct : t -> t -> int
val equal : t -> t -> bool
val is_subset : t -> of_:t -> bool
val subset : t -> t -> bool
  • deprecated [since 2016-09] Replace [Set.subset t1 t2] with [Set.is_subset t1 ~of_:t2]
val fold_until : t -> init:'b -> f:('b -> Elt.t -> ('b, 'stop) Base.Container_intf.Export.Continue_or_stop.t) -> ('b, 'stop) Base.Container_intf.Export.Finished_or_stopped_early.t
val fold_right : t -> init:'b -> f:(Elt.t -> 'b -> 'b) -> 'b
val iter2 : t -> t -> f:([ `Left of Elt.t | `Right of Elt.t | `Both of Elt.t * Elt.t ] -> unit) -> unit
val filter : t -> f:(Elt.t -> bool) -> t
val partition_tf : t -> f:(Elt.t -> bool) -> t * t
val elements : t -> Elt.t list
val min_elt : t -> Elt.t option
val min_elt_exn : t -> Elt.t
val max_elt : t -> Elt.t option
val max_elt_exn : t -> Elt.t
val choose : t -> Elt.t option
val choose_exn : t -> Elt.t
val split : t -> Elt.t -> t * Elt.t option * t
val group_by : t -> equiv:(Elt.t -> Elt.t -> bool) -> t list
val find_exn : t -> f:(Elt.t -> bool) -> Elt.t
val find_index : t -> int -> Elt.t option
  • deprecated [since 2016-10] Use [nth]
val nth : t -> int -> Elt.t option
val remove_index : t -> int -> t
val to_tree : t -> Tree.t
val to_sequence : ?order:[ `Increasing | `Decreasing ] -> ?greater_or_equal_to:Elt.t -> ?less_or_equal_to:Elt.t -> t -> Elt.t Base.Sequence.t
val merge_to_sequence : ?order:[ `Increasing | `Decreasing ] -> ?greater_or_equal_to:Elt.t -> ?less_or_equal_to:Elt.t -> t -> t -> (Elt.t, Elt.t) Base.Sequence.Merge_with_duplicates_element.t Base.Sequence.t
val to_map : t -> f:(Elt.t -> 'data) -> (Elt.t, 'data, Elt.comparator_witness) Core_kernel.Map.t
include Core_kernel.Set_intf.Creators0 with type t := t with type tree := Tree.t with type elt := Elt.t with type comparator_witness := Elt.comparator_witness with type ('a, 'b) set := ('a, 'b) Base.Set.t
include Base.Set_intf.Creators0 with type t := t with type tree := Tree.t with type elt := Elt.t with type comparator_witness := Elt.comparator_witness with type ('a, 'b) set := ('a, 'b) Base.Set.t
val empty : t
val singleton : Elt.t -> t
val union_list : t list -> t
val of_list : Elt.t list -> t
val of_array : Elt.t array -> t
val of_sorted_array : Elt.t array -> t Base.Or_error.t
val of_sorted_array_unchecked : Elt.t array -> t
val of_increasing_iterator_unchecked : len:int -> f:(int -> Elt.t) -> t
val stable_dedup_list : Elt.t list -> Elt.t list
val map : ('a, _) Base.Set.t -> f:('a -> Elt.t) -> t
val filter_map : ('a, _) Base.Set.t -> f:('a -> Elt.t option) -> t
val of_tree : Tree.t -> t
val of_hash_set : Elt.t Core_kernel.Hash_set.t -> t
val of_hashtbl_keys : (Elt.t, _) Core_kernel.Hashtbl.t -> t
val of_map_keys : (Elt.t, _, Elt.comparator_witness) Core_kernel.Map.t -> t
module Provide_of_sexp (Elt : sig ... end) : sig ... end
module Provide_bin_io (Elt : sig ... end) : Core_kernel.Set_intf.Binable.S with type t := t
module Provide_hash (Elt : Base.Hasher.S with type t := Elt.t) : sig ... end
include Core_kernel.Sexpable.S with type t := t
include sig ... end
val t_of_sexp : Base.Sexp.t -> t
val sexp_of_t : t -> Base.Sexp.t
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