Library

Module

Module type

Parameter

Class

Class type

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Library

Module

Module type

Parameter

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Library

Module

Module type

Parameter

Class

Class type

String sets.

`include Set.S with type elt := string and type t := set`

`val empty : set`

The empty set.

`add x s`

returns a set containing all elements of `s`

, plus `x`

. If `x`

was already in `s`

, `s`

is returned unchanged (the result of the function is then physically equal to `s`

).

`val singleton : string -> set`

`singleton x`

returns the one-element set containing only `x`

.

`remove x s`

returns a set containing all elements of `s`

, except `x`

. If `x`

was not in `s`

, `s`

is returned unchanged (the result of the function is then physically equal to `s`

).

Set difference: `diff s1 s2`

contains the elements of `s1`

that are not in `s2`

.

`val cardinal : set -> int`

Return the number of elements of a set.

`val elements : set -> string list`

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

, where `Ord`

is the argument given to `Set.Make`

.

`val min_elt_opt : set -> string option`

Return the smallest element of the given set (with respect to the `Ord.compare`

ordering), or `None`

if the set is empty.

`val max_elt_opt : set -> string option`

Same as `min_elt_opt`

, but returns the largest element of the given set.

`val choose_opt : set -> string option`

Return one element of the given set, or `None`

if the set is empty. Which element is chosen is unspecified, but equal elements will be chosen for equal sets.

`val find_opt : string -> set -> string option`

`find_opt x s`

returns the element of `s`

equal to `x`

(according to `Ord.compare`

), or `None`

if no such element exists.

`val find_first : (string -> bool) -> set -> string`

`find_first f s`

, where `f`

is a monotonically increasing function, returns the lowest element `e`

of `s`

such that `f e`

, or raises `Not_found`

if no such element exists.

For example, `find_first (fun e -> Ord.compare e x >= 0) s`

will return the first element `e`

of `s`

where `Ord.compare e x >= 0`

(intuitively: `e >= x`

), or raise `Not_found`

if `x`

is greater than any element of `s`

.

`val find_first_opt : (string -> bool) -> set -> string option`

`find_first_opt f s`

, where `f`

is a monotonically increasing function, returns an option containing the lowest element `e`

of `s`

such that `f e`

, or `None`

if no such element exists.

`val find_last : (string -> bool) -> set -> string`

`find_last f s`

, where `f`

is a monotonically decreasing function, returns the highest element `e`

of `s`

such that `f e`

, or raises `Not_found`

if no such element exists.

`val find_last_opt : (string -> bool) -> set -> string option`

`find_last_opt f s`

, where `f`

is a monotonically decreasing function, returns an option containing the highest element `e`

of `s`

such that `f e`

, or `None`

if no such element exists.

`val iter : (string -> unit) -> set -> unit`

`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.

`val fold : (string -> 'acc -> 'acc) -> set -> 'acc -> 'acc`

`fold f s init`

computes `(f xN ... (f x2 (f x1 init))...)`

, where `x1 ... xN`

are the elements of `s`

, in increasing order.

`map f s`

is the set whose elements are `f a0`

,`f a1`

... ```
f
aN
```

, where `a0`

,`a1`

...`aN`

are the elements of `s`

.

The elements are passed to `f`

in increasing order with respect to the ordering over the type of the elements.

If no element of `s`

is changed by `f`

, `s`

is returned unchanged. (If each output of `f`

is physically equal to its input, the returned set is physically equal to `s`

.)

`filter f s`

returns the set of all elements in `s`

that satisfy predicate `f`

. If `f`

satisfies every element in `s`

, `s`

is returned unchanged (the result of the function is then physically equal to `s`

).

`filter_map f s`

returns the set of all `v`

such that `f x = Some v`

for some element `x`

of `s`

.

For example,

`filter_map (fun n -> if n mod 2 = 0 then Some (n / 2) else None) s`

is the set of halves of the even elements of `s`

.

If no element of `s`

is changed or dropped by `f`

(if `f x = Some x`

for each element `x`

), then `s`

is returned unchanged: the result of the function is then physically equal to `s`

.

`partition f s`

returns a pair of sets `(s1, s2)`

, where `s1`

is the set of all the elements of `s`

that satisfy the predicate `f`

, and `s2`

is the set of all the elements of `s`

that do not satisfy `f`

.

`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`

.

`val is_empty : set -> bool`

Test whether a set is empty or not.

`val mem : string -> set -> bool`

`mem x s`

tests whether `x`

belongs to the set `s`

.

`equal s1 s2`

tests whether the sets `s1`

and `s2`

are equal, that is, contain equal elements.

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

`val for_all : (string -> bool) -> set -> bool`

`for_all f s`

checks if all elements of the set satisfy the predicate `f`

.

`val exists : (string -> bool) -> set -> bool`

`exists f s`

checks if at least one element of the set satisfies the predicate `f`

.

`to_seq_from x s`

iterates on a subset of the elements of `s`

in ascending order, from `x`

or above.

`type t = set`

`val min_elt : set -> string option`

Exception safe `Set.S.min_elt`

.

`val max_elt : set -> string option`

Exception safe `Set.S.max_elt`

.

`val choose : set -> string option`

Exception safe `Set.S.choose`

.

`val find : string -> set -> string option`

Exception safe `Set.S.find`

.

`val get : string -> set -> string`

`get`

is like `Set.S.find`

but

`val of_list : string list -> set`

`of_list ss`

is a set from the list `ss`

.

`val of_stdlib_set : Set.Make(String).t -> set`

`of_stdlib_set s`

is a set from the stdlib-compatible set `s`

.

`val to_stdlib_set : set -> Set.Make(String).t`

`to_stdlib_set s`

is the stdlib-compatible set equivalent to `s`

.

```
val pp :
?sep:(Format.formatter -> unit -> unit) ->
(Format.formatter -> string -> unit) ->
Format.formatter ->
set ->
unit
```

`pp ~sep pp_elt ppf ss`

formats the elements of `ss`

on `ppf`

. Each element is formatted with `pp_elt`

and elements are separated by `~sep`

(defaults to `Format.pp_print_cut`

. If the set is empty leaves `ppf`

untouched.

`val dump : Format.formatter -> set -> unit`

`dump ppf ss`

prints an unspecified representation of `ss`

on `ppf`

.

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