Module type Rangemap.S

module type S = sig .. end

type key 
The type of the map keys.
type value 
type rangemap 
The type of maps from type key to type value.
include Datatype.S
val create : t -> key -> value -> t -> t
val empty : t
The empty map.
val is_empty : t -> bool
Test whether a map is empty or not.
val add : key -> value -> t -> t
add x y m returns a map containing the same bindings as m, plus a binding of x to y. If x was already bound in m, its previous binding disappears.
val singleton : key -> value -> t
singleton x y returns the one-element map that contains a binding y for x.
val find : key -> t -> value
find x m returns the current binding of x in m, or raises Not_found if no such binding exists.
val remove : key -> t -> t
remove x m returns a map containing the same bindings as m, except for x which is unbound in the returned map.
val mem : key -> t -> bool
mem x m returns true if m contains a binding for x, and false otherwise.
val iter : (key -> value -> unit) -> t -> unit
iter f m applies f to all bindings in map m. f receives the key as first argument, and the associated value as second argument. The bindings are passed to f in increasing order with respect to the ordering over the type of the keys. Only current bindings are presented to f: bindings hidden by more recent bindings are not passed to f.
val map : (value -> value) -> t -> t
map f m returns a map with same domain as m, where the associated value a of all bindings of m has been replaced by the result of the application of f to a. The bindings are passed to f in increasing order with respect to the ordering over the type of the keys.
val mapi : (key -> value -> value) -> t -> t
Same as Map.S.map, but the function receives as arguments both the key and the associated value for each binding of the map.
val mapii : (key -> value -> key * value) ->
t -> t
Same as Map.S.mapi, but the function also returns a new key. the modification applied on the keys must be compatible with the order on the keys.
val fold : (key -> value -> 'a -> 'a) -> t -> 'a -> 'a
fold f m a computes (f kN dN ... (f k1 d1 a)...), where k1 ... kN are the keys of all bindings in m (in increasing order), and d1 ... dN are the associated data.
val for_all : (key -> value -> bool) -> t -> bool
for_all p m checks if all the bindings of the map satisfy the predicate p.
val exists : (key -> value -> bool) -> t -> bool
exists p m checks if at least one binding of the map satisfy the predicate p.
val filter : (key -> value -> bool) -> t -> t
filter p m returns the map with all the bindings in m that satisfy predicate p.
val partition : (key -> value -> bool) -> t -> t * t
partition p m returns a pair of maps (m1, m2), where m1 contains all the bindings of s that satisfy the predicate p, and m2 is the map with all the bindings of s that do not satisfy p.
val cardinal : t -> int
Return the number of bindings of a map.
val bindings : t -> (key * value) list
Return the list of all bindings of the given map. The returned list is sorted in increasing order with respect to the ordering on keys
val min_binding : t -> key * value
Return the smallest binding of the given map (with respect to the Ord.compare ordering), or raise Not_found if the map is empty.
val max_binding : t -> key * value
Same as Map.S.min_binding, but returns the largest binding of the given map.
val choose : t -> key * value
Return one binding of the given map, or raise Not_found if the map is empty. Which binding is chosen is unspecified, but equal bindings will be chosen for equal maps.
val merge : (key ->
value option ->
value option -> value option) ->
t -> t -> t
merge f m1 m2 computes a map whose keys is a subset of keys of m1 and of m2. The presence of each such binding, and the corresponding value, is determined with the function f.
val for_all2 : (key -> value option -> value option -> bool) ->
t -> t -> bool
for_all2 f m1 m2 returns true if and only if f k v1 v2 holds for each k present in either m1 and m2, v_i being Some (find k m_i) if k is in m_i, and None otherwise (for i=1 or i=2)
val exists2 : (key -> value option -> value option -> bool) ->
t -> t -> bool
exists2 f m1 m2 returns true if and only there exists k present in m1 or m2 such that f k v1 v2 holds, v_i being Some (find k m_i) if k is in m_i, and None otherwise (for i=1 or i=2)
val iter2 : (key -> value option -> value option -> unit) ->
t -> t -> unit
iter2 f m1 m2 computes f k v1 v2 for each k present in either m1 or m2 (the k being presented in ascending order), v_i being Some (find k m_i) if k is in m_i, and None otherwise (for i=1 or i=2)
val fold2 : (key ->
value option -> value option -> 'a -> 'a) ->
t -> t -> 'a -> 'a
fold2 f m1 m2 v computes (f k_N v1_N v2_N... (f k_1 v1_1 v2_1 a)...) where k_1 ... k_N are all the keys of all the bindings in either m1 or m2 (in increasing order), vi_j being Some (find k_j m_i) if k_j is in m_i, and None otherwise (for i=1 or i=2)