BatMap.Int
val empty : 'a t
The empty map.
val is_empty : 'a t -> bool
Test whether a map is empty or not.
val cardinal : 'a t -> int
Return the number of bindings of a map.
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. If x
was already bound to some z
that is physically equal to y
, then the returned map is physically equal to m
.
update_stdlib k f m
returns a map containing the same bindings as m
, except k
has a new binding as determined by f
: First, calculate y
as f (find_opt k m)
. If y = Some v
then k
will be bound to v
in the resulting map. Else k
will not be bound in the resulting map. If v
is physically equal to the value of the previous binding of k
in m
, then the returned map will be physically equal to m
.
This function does the same thing as update
in the stdlib, but has a different name for backwards compatibility reasons.
update k1 k2 v2 m
replace the previous binding of k1
in m
by k2
associated to v2
. This is equivalent to add k2 v2 (remove k1) m
, but more efficient in the case where k1
and k2
have the same key ordering. If k1
and k2
have the same key ordering and v2
is physically equal to the value k1
is bound to in m
then the returned map will be physically equal to m
find x m
returns the current binding of x
in m
, or raises Not_found
if no such binding exists.
find_opt x m
returns Some b where b is the current binding * of x
in m
, or None if no such binding exists.
find_default d x m
returns the current binding of x
in m
, or the default value d
if no such binding exists.
find_first f m
returns the first binding (k, v)
for which f k
is true or raises Not_found
if there is no such binding. f
must be monotonically increasing, i.e. if k1 < k2 && f k1
is true then f k2
must also be true.
find_first_opt f m
returns Some (k, v)
for the first binding (k, v)
for which f k
is true or returns None
if there is no such binding. f
must be monotonically increasing, i.e. if k1 < k2 && f k1
is true then f k2
must also be true.
find_last f m
returns the last binding (k, v)
for which f k
is true or raises Not_found
if there is no such binding. f
must be monotonically decreasing, i.e. if k1 < k2 && f k2
is true then f k1
must also be true.
find_last_opt f m
returns Some (k, v)
for the last binding (k, v)
for which f k
is true or returns None
if there is no such binding. f
must be monotonically decreasing, i.e. if k1 < k2 && f k2
is true then f k1
must also be true.
remove x m
returns a map containing the same bindings as m
, except for x
which is unbound in the returned map. The returned map is physically equal to the passed one if x
was already unbound.
remove_exn x m
behaves like remove x m
except that it raises an exception if x
is unbound in m
.
modify k f m
replaces the previous binding for k
with f
applied to that value. If k
is unbound in m
or Not_found
is raised during the search, Not_found
is raised.
modify_def v0 k f m
replaces the previous binding for k
with f
applied to that value. If k
is unbound in m
or Not_found
is raised during the search, f v0
is inserted (as if the value found were v0
).
modify_opt k f m
allows to modify the binding for k
in m
or absence thereof.
extract k m
removes the current binding of k
from m
, returning the value k
was bound to and the updated m
.
mem x m
returns true
if m
contains a binding for x
, and false
otherwise.
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
.
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.
Same as Map
.S.map, but the function receives as arguments both the key and the associated value for each binding of the map.
fold f m a
computes (f kN dN ... (f k1 d1 (f k0 d0 a))...)
, where k0,k1..kN
are the keys of all bindings in m
(in increasing order), and d1 ... dN
are the associated data.
filterv f m
returns a map where only the values a
of m
such that f a = true
remain. The bindings are passed to f
in increasing order with respect to the ordering over the type of the keys.
filter f m
returns a map where only the (key, value)
pairs of m
such that f key value = true
remain. The bindings are passed to f
in increasing order with respect to the ordering over the type of the keys. If f
returns true
for all bindings of m
the returned map is physically equal to m
.
filter_map f m
combines the features of filter
and map
. It calls calls f key0 a0
, f key1 a1
, f keyn an
where a0,a1..an
are the elements of m
and key0..keyn
the respective corresponding keys. It returns the map of pairs (keyi, bi)
such as f keyi ai = Some bi
(when f
returns None
, the corresponding element of m
is discarded).
Total ordering between maps. The first argument is a total ordering used to compare data associated with equal keys in the two maps.
equal cmp m1 m2
tests whether the maps m1
and m2
are equal, that is, contain equal keys and associate them with equal data. cmp
is the equality predicate used to compare the data associated with the keys.
Return an enumeration of all the keys of a map. The returned enumeration is sorted in increasing key order.
Return an enumeration of all the values of a map. The returned enumeration is sorted in increasing key order.
Return Some (key, value)
for the key, value
pair with the smallest key, or None
if the map is empty.
Return the (key, value)
pair with the smallest key along with the rest of the map.
Return the (key, value)
pair with the largest key. Raises Not_found if the map is empty.
Return Some (key, value)
for the key, value
pair with the largest key, or None
if the map is empty.
Return the (key, value
) pair with the largest key along with the rest of the map.
Return one binding of the given map. Which binding is chosen is unspecified, but equal bindings will be chosen for equal maps.
Return Some (k, v)
for one binding (k, v)
of the given map, if the map is not empty. Else, return None. Which binding is chosen is unspecified, but equal bindings will be chosen for equal maps.
Return one binding of the given map. The difference with choose is that there is no guarantee that equals elements will be picked for equal sets. This merely returns the quickest binding to get (O(1)).
split x m
returns a triple (l, data, r)
, where l
is the map with all the bindings of m
whose key is strictly less than x
; r
is the map with all the bindings of m
whose key is strictly greater than x
; data
is None
if m
contains no binding for x
, or Some v
if m
binds v
to x
.
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
.
singleton x y
returns the one-element map that contains a binding y
for x
.
Return the list of all bindings of the given map. The returned list is sorted in increasing key order.
Added for compatibility with stdlib 3.12
Return an enumeration of (key, value)
pairs of a map. The returned enumeration is sorted in increasing order with respect to the ordering Ord.compare
, where Ord
is the argument given to Map
.Make.
Return an enumeration of (key, value)
pairs of a map. The returned enumeration is sorted in decreasing order with respect to the ordering Ord.compare
, where Ord
is the argument given to Map
.Make.
for_all p m
checks if all the bindings of the map satisfy the predicate p
.
exists p m
checks if at least one binding of the map satisfy the predicate p
.
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
.
union f m1 m2
computes a map whose keys are a subset of the keys of m1
and of m2
. When the same binding is defined in both arguments, the function f is used to combine them. This function is similar to merge
, except f
is only called if a key is present in both m1
and m2
. If a key is present in either m1
or m2
but not in both, it (and the corresponding value) will be present in the resulting map.
to_seq_from k m
iterates on a subset of the bindings in m
, namely those bindings greater or equal to k
, in ascending order.
val print : ?first:string -> ?last:string -> ?sep:string -> ?kvsep:string ->
('a BatInnerIO.output -> key -> unit) -> ('a BatInnerIO.output -> 'c -> unit) -> 'a BatInnerIO.output -> 'c t -> unit
Output signature of the functor Map
.Make.
The following modules replace functions defined in Map
with functions behaving slightly differently but having the same name. This is by design: the functions meant to override the corresponding functions of Map
.
module Exceptionless : sig ... end
Operations on Map
without exceptions.
module Labels : sig ... end
Operations on Map
with labels.