Input signature of the functor Set.Make.

Output signature of the functor Set.Make.

Functor building an implementation of the set structure given a totally ordered type.

The type of sets.

The empty set, using compare as comparison function

Test whether a set is empty or not.

Test if the set is a singleton.

Creates a new set with the single given element in it.

mem x s tests whether x belongs to the set s.

find x s returns the set element that compares equal to x.

• raises Not_found

  if no such element exists

• since 2.1

find_opt x s returns Some k for the element k in s that tests equal to x under its comparison function. If no element is equal, return None

• since 3.3.0

find_first f m returns the first element e for which f e is true or raises Not_found if there is no such element. f must be monotonically increasing, i.e. if k1 < k2 && f k1 is true then f k2 must also be true.

• since 3.3.0

find_first_opt f m returns Some e for the first element e for which f e is true or returns None if there is no such element. f must be monotonically increasing, i.e. if k1 < k2 && f k1 is true then f k2 must also be true.

• since 3.3.0

find_last f m returns the last element e for which f e is true or raises Not_found if there is no such element. f must be monotonically decreasing, i.e. if k1 < k2 && f k2 is true then f k1 must also be true.

• since 3.3.0

find_last_opt f m returns Some e for the last element e for which f e is true or returns None if there is no such element. f must be monotonically decreasing, i.e. if k1 < k2 && f k2 is true then f k1 must also be true.

• since 3.3.0

add x s returns a set containing all elements of s, plus x. If x was already in s, s is returned unchanged.

• before 3.3.0

  Physical equality was not ensured.

remove x s returns a set containing all elements of s, except x. If x was not in s, s is returned unchanged.

• before 3.3.0

  Physical equality was not ensured.

remove_exn x s behaves like remove x s except that it raises an exception if x is not in s.

• raises Not_found

  if x is not in s.

• since 3.2.0

update x y s replace x by y in s. update is faster when x compares equal to y according to the comparison function used by your set. When x and y are physically equal, m is returned unchanged.

• raises Not_found

  if x is not in s.

• since 2.4

• before 3.3.0

  Physical equality was not ensured.

union s t returns the union of s and t - the set containing all elements in either s and t. The returned set uses t's comparison function. The current implementation works better for small s.

intersect s t returns a new set of those elements that are in both s and t. The returned set uses s's comparison function.

diff s t returns the set of all elements in s but not in t. The returned set uses s's comparison function.

sym_diff s t returns the set of all elements in s or t but not both, also known as the symmetric difference. This is the same as diff (union s t) (inter s t). The returned set uses s's comparison function.

Total ordering between sets. Can be used as the ordering function for doing sets of sets.

equal s1 s2 tests whether the sets s1 and s2 are equal, that is, contain equal elements.

subset a b returns true if a is a subset of b. O(|a|).

disjoint s1 s2 tests whether the sets s1 and s2 contain no shared elements. (i.e. inter s1 s2 is empty.)

iter f s applies f in turn to all elements of s. The elements of s are presented to f in increasing order with respect to the ordering over the type of the elements.

at_rank_exn i s returns element at rank i in s, that is the i-th element in increasing order (the 0-th element being the smallest element of s).

• raises Not_found

  if s = empty.

• raises Invalid_argument

  error_message if i < 0 || i >= cardinal s

• since 2.4

map f x creates a new set with elements f a0, f a1... f aN, where a0, a1, ..., aN are the elements of x.

This function places no restriction on f; it can map multiple input values to the same output value, in which case the resulting set will have smaller cardinality than the input. f does not need to be order preserving, although if it is, then Incubator.op_map may be more efficient.

map_endo f x creates a new set with elements f a0, f a1... f aN, where a0, a1, ..., aN are the elements of x.

This function places no restriction on f (beyond the type signature being more restricted than for map above); it can map multiple input values to the same output value, in which case the resulting set will have smaller cardinality than the input. f does not need to be order preserving, although if it is, then Incubator.op_map may be more efficient.

This version of map will result in a physically equal map if f returns physically equal keys.

filter p s returns the set of all elements in s that satisfy predicate p.

if p returns true for all elements then s is returned unmodified.

• before 3.3.0

  Physical equality was not ensured.

filter_map f m combines the features of filter and map. It calls calls f a0, f a1, f aN where a0,a1..an are the elements of m and returns the set of pairs bi such as f ai = Some bi (when f returns None, the corresponding element of m is discarded).

The resulting map uses the polymorphic compare function to order elements.

filter_map_endo f m combines the features of filter and map. It calls calls f a0, f a1, f aN where a0,a1..an are the elements of m and returns the set of pairs bi such as f ai = Some bi (when f returns None, the corresponding element of m is discarded).

The resulting map uses the polymorphic compare function to order elements.

If the filter function f returns true for all elements in m, the resulting map is physically equal to m.

fold f s a computes (f xN ... (f x1 (f x0 a))...), where x0,x1..xN are the elements of s, in increasing order.

exists p s checks if at least one element of the set satisfies the predicate p.

Returns whether the given predicate applies to all elements in the set

returns two disjoint subsets, those that satisfy the given predicate and those that don't

split x s returns a triple (l, present, r), where l is the set of elements of s that are strictly less than x; r is the set of elements of s that are strictly greater than x; present is false if s contains no element equal to x, or true if s contains an element equal to x.

split_opt x s returns a triple (l, maybe_v, r), where l is the set of elements of s that are strictly less than x; r is the set of elements of s that are strictly greater than x; maybe_v is None if s contains no element equal to x, or Some v if s contains an element v that compares equal to x.

• since 2.2.0

split_lt x s returns a pair of sets (l, r), such that l is the subset of s with elements < x; r is the subset of s with elements >= x.

• since 2.2.0

split_le x s returns a pair of sets (l, r), such that l is the subset of s with elements <= x; r is the subset of s with elements > x.

• since 2.2.0

Return the number of elements of a set.

Return the list of all elements of the given set. The returned list is sorted in increasing order with respect to the ordering of the given set.

Alias for elements.

• since 2.2.0

Same as to_list but with an array instead of a list.

• since 2.4

returns the smallest element of the set.

• raises Not_found

  if given an empty set.

Return Some e for the smallest element e of the given set (with respect to the Ord.compare ordering). Return None if the set is empty.

• since 3.3.0

Returns the smallest element of the given set along with the rest of the set. Semantically equivalent and faster than

let mini = min_elt s in (mini, remove mini s)

• raises Not_found

  if the set is empty.

• since 2.4

Returns the biggest element of the given set along with the rest of the set. Semantically equivalent and faster than

let maxi = max_elt s in (maxi, remove maxi s)

• raises Not_found

  if the set is empty.

• since 2.4

returns the largest element of the set.

• raises Not_found

  if given an empty set.

Same as Set.S.min_elt_opt, but for the largest element of the given set.

• since 3.3.0

returns an arbitrary (but deterministic) element of the given set.

• raises Not_found

  if given an empty set.

Return Some e for one element e of the given set. Which element is chosen is unspecified, but equal elements will be chosen for equal sets. Return None if the set is empty.

• since 3.3.0

Return one element of the given set. The difference with choose is that there is no guarantee that equals elements will be picked for equal sets. This merely returns the quickest element to get (O(1)).

• raises Not_found

  if the set is empty.

returns one element of the set and the set without that element.

• raises Not_found

  if given an empty set

cartesian product of the two sets

• since 2.2.0

Return an enumeration of all elements of the given set. The returned enumeration is sorted in increasing order with respect to the ordering of this set.

Return an enumeration of all elements of the given set. The returned enumeration is sorted in decreasing order with respect to the ordering Pervasives.compare.

builds a set from the given list, using the default comparison function

builds a set from the given array, using the default comparison function

Iterate on the whole set, in ascending order.

• since 3.3.0

Iterate on the whole set, in descending order.

• since 3.3.0

to_seq_from x s iterates on a subset of the elements in s, namely those greater or equal to x, in ascending order.

• since 3.3.0

add the given elements to the set, in order.

• since 3.3.0

build a set from the given elements

• since 3.3.0