API / Belt / MutableMapInt

MutableMapInt

key

RES
type key = int

t

RES
type t<'a>

make

let make: unit => t<'a>

clear

let clear: t<'a> => unit

isEmpty

let isEmpty: t<'a> => bool

has

let has: (t<'a>, key) => bool

cmpU

let cmpU: (t<'a>, t<'a>, (. 'a, 'a) => int) => int

cmp

let cmp: (t<'a>, t<'a>, ('a, 'a) => int) => int

cmp(m1, m2, cmp) First compare by size, if size is the same, compare by key, value pair.

eqU

let eqU: (t<'a>, t<'a>, (. 'a, 'a) => bool) => bool

eq

let eq: (t<'a>, t<'a>, ('a, 'a) => bool) => bool

eq(m1, m2, cmp)

forEachU

let forEachU: (t<'a>, (. key, 'a) => unit) => unit

forEach

let forEach: (t<'a>, (key, 'a) => unit) => unit

forEach(m, f) applies f to all bindings in map m. f receives the key as first argument, and the associated value as second argument. The application order of f is in increasing order.

reduceU

let reduceU: (t<'a>, 'b, (. 'b, key, 'a) => 'b) => 'b

reduce

let reduce: (t<'a>, 'b, ('b, key, 'a) => 'b) => 'b

reduce(m, a, f), computes(f(kN, dN) ... (f(k1, d1, a))...), wherek1 ... kNare the keys of all bindings inm(in increasing order), andd1 ... dN` are the associated data.

everyU

let everyU: (t<'a>, (. key, 'a) => bool) => bool

every

let every: (t<'a>, (key, 'a) => bool) => bool

every(m, p) checks if all the bindings of the map satisfy the predicate p. The application order of p is unspecified.

someU

let someU: (t<'a>, (. key, 'a) => bool) => bool

some

let some: (t<'a>, (key, 'a) => bool) => bool

some(m, p) checks if at least one binding of the map satisfy the predicate p. The application order of p is unspecified.

size

let size: t<'a> => int

toList

let toList: t<'a> => list<(key, 'a)>

In increasing order

toArray

let toArray: t<'a> => array<(key, 'a)>

fromArray

let fromArray: array<(key, 'a)> => t<'a>

keysToArray

let keysToArray: t<'a> => array<key>

valuesToArray

let valuesToArray: t<'a> => array<'a>

minKey

let minKey: t<'a> => option<key>

minKeyUndefined

let minKeyUndefined: t<'a> => Js.undefined<key>

maxKey

let maxKey: t<'a> => option<key>

maxKeyUndefined

let maxKeyUndefined: t<'a> => Js.undefined<key>

minimum

let minimum: t<'a> => option<(key, 'a)>

minUndefined

let minUndefined: t<'a> => Js.undefined<(key, 'a)>

maximum

let maximum: t<'a> => option<(key, 'a)>

maxUndefined

let maxUndefined: t<'a> => Js.undefined<(key, 'a)>

get

let get: (t<'a>, key) => option<'a>

getUndefined

let getUndefined: (t<'a>, key) => Js.undefined<'a>

getWithDefault

let getWithDefault: (t<'a>, key, 'a) => 'a

getExn

let getExn: (t<'a>, key) => 'a

checkInvariantInternal

let checkInvariantInternal: t<'a> => unit

Raise when invariant is not held.

remove

let remove: (t<'a>, key) => unit

remove(m, x) do the in-place modification.

removeMany

let removeMany: (t<'a>, array<key>) => unit

set

let set: (t<'a>, key, 'a) => unit

set(m, x, y) do the in-place modification, return m for chaining. If x was already bound in m, its previous binding disappears.

updateU

let updateU: (t<'a>, key, (. option<'a>) => option<'a>) => unit

update

let update: (t<'a>, key, option<'a> => option<'a>) => unit

mapU

let mapU: (t<'a>, (. 'a) => 'b) => t<'b>

map

let map: (t<'a>, 'a => 'b) => t<'b>

map(m, f) 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.

mapWithKeyU

let mapWithKeyU: (t<'a>, (. key, 'a) => 'b) => t<'b>

mapWithKey

let mapWithKey: (t<'a>, (key, 'a) => 'b) => t<'b>