package biocaml

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DIET : Discrete Interval Encoding Trees

Sets of integers represented as ranges

This data structure is efficient for large sets of integers where many adjacent integers are all part of the set. This will have higher overhead for sets with lots of point elements, but will be much more efficient for sets containing mostly ranges.

type t
val empty : t

The empty set

val is_empty : t -> bool

Test whether a set is empty, returns true if the set is empty.

val mem : t -> int -> bool

test whether a given int is a member of the set

val add : t -> int -> t

Add the given int to the set, returning a new set

val add_range : t -> int -> int -> t

add_range t lo hi adds the range of integers lo, hi (including both endpoints) to the given set, returning a new set

val intersects_range : t -> int -> int -> bool
val singleton : int -> t

Return the singleton set containing only the given element

val remove : t -> int -> t

Remove an element from the given set, returning a new set

val remove_range : t -> int -> int -> t

remove_range lo hi t removes a range of elements from the given set, returning a new set

val union : t -> t -> t

Compute the union of two sets. This is the set whose elements are those elements in either input set.

val inter : t -> t -> t

Compute the intersection of two sets. This is the set whose elements are those in *both* of the input sets.

val diff : t -> t -> t

Compute the difference between two sets. This is the set of elements that are in the first but not in the second. Unlike union and inter, order matters here.

val compl : t -> t

Create the complement of the given set - i.e. the set of all values not in the input set.

val compare : t -> t -> int

Compare two sets. It is not safe to use the polymorphic (<) and related functions to compare these sets, as the tree representation used can balance in multiple ways.

val equal : t -> t -> bool

Test whether two sets are equal. It is not safe to use the polymorphic (=) on these sets, as the same set can have multiple representations depending on how it was built.

val subset : t -> t -> bool

subset t u returns true if t is a subset of u

val from : t -> n:int -> t

from ~n t returns the portion of t in the range n, max_int

val after : t -> n:int -> t

after ~n t returns the portion of t in the range n+1, max_int

val until : t -> n:int -> t

until ~n t returns the portion of t in the range min_int, n

val before : t -> n:int -> t

before x t returns the portion of t in the range min_int, n-1

val iter : t -> f:(int -> unit) -> unit

iter f t calls f once for each element of t

val iter_range : t -> f:(int -> int -> unit) -> unit

iter_range ~f t calls f once for each contiguous range of t. The contiguous ranges of a set are sequences of adjacent integers all part of the set.

val fold : t -> init:'a -> f:(int -> 'a -> 'a) -> 'a

fold f t x0 returns the final result of merging each element of t into x0 using merge function f

val fold_range : t -> init:'a -> f:(int -> int -> 'a -> 'a) -> 'a

As fold, but operates on contiguous ranges

val for_all : t -> f:(int -> bool) -> bool

Tests whether a predicate applies to all elements of the set

val exists : t -> f:(int -> bool) -> bool

Test whether some element of a set satisfies a predicate

val filter : t -> f:(int -> bool) -> t

Builds the subset of those elements that satisfy the predicate

val partition : t -> f:(int -> bool) -> t * t

partitions the input set into two sets with elements that satisfy the predicate and those that don't

val cardinal : t -> int

Returns the number of elements in the set

val elements : t -> int list

Returns a list of all elements in the set

val ranges : t -> (int * int) list

Returns a list of all contiguous ranges in the set

val min_elt : t -> int

Returns the minimum element in the set

val max_elt : t -> int

Returns the maximum element in the set

val choose : t -> int

Returns some element in the set

val to_stream : t -> (int * int) Stream.t

Enumerates all contiguous ranges in the set

val of_stream : (int * int) Stream.t -> t
val of_list : (int * int) list -> t

Build a ISet.t out of a list or enum of ranges

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