HashMap
The top level provides generic mutable hash map operations.
t
REStype t<'key, 'value, 'id>
The type of hash tables from type 'key to type 'value.
id
REStype id<'a, 'id> = Belt.Id.hashable<'a, 'id>
The identity needed for making an empty hash map.
make
let make: (~hintSize: int, ~id: id<'key, 'id>) => t<'key, 'value, 'id>
make(~hintSize=10, ~id) creates a new map by taking in the comparator and hintSize.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let hMap = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(hMap, 0, "a")
clear
let clear: t<'key, 'value, 'id> => unit
Clears a hash table.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let hMap = Belt.HashMap.fromArray([(1, "1")], ~id=module(IntHash))
Belt.HashMap.clear(hMap)
Belt.HashMap.isEmpty(hMap) == true
isEmpty
let isEmpty: t<'a, 'b, 'c> => bool
isEmpty(m) checks whether a hash map is empty.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
Belt.HashMap.isEmpty(Belt.HashMap.fromArray([(1, "1")], ~id=module(IntHash))) == false
set
let set: (t<'key, 'value, 'id>, 'key, 'value) => unit
set(hMap, k, v) if k does not exist, add the binding k,v, otherwise, update the old value with the new v.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.fromArray([(2, "2"), (1, "1"), (3, "3")], ~id=module(IntHash))
Belt.HashMap.set(s0, 2, "3")
Belt.HashMap.valuesToArray(s0) == ["1", "3", "3"]
copy
let copy: t<'key, 'value, 'id> => t<'key, 'value, 'id>
Creates copy of a hash map.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.fromArray([(2, "2"), (1, "1"), (3, "3")], ~id=module(IntHash))
let s1 = Belt.HashMap.copy(s0)
Belt.HashMap.set(s0, 2, "3")
Belt.HashMap.get(s0, 2) != Belt.HashMap.get(s1, 2)
get
let get: (t<'key, 'value, 'id>, 'key) => option<'value>
Returns value bound under specific key. If values not exist returns None.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.get(s0, 1) == Some("value1")
Belt.HashMap.get(s0, 2) == None
has
let has: (t<'key, 'value, 'id>, 'key) => bool
Checks if x is bound in tbl.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.has(s0, 1) == true
Belt.HashMap.has(s0, 2) == false
remove
let remove: (t<'key, 'value, 'id>, 'key) => unit
If bound exists, removes it from the hash map.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.remove(s0, 1)
Belt.HashMap.has(s0, 1) == false
forEachU
let forEachU: (t<'key, 'value, 'id>, (. 'key, 'value) => unit) => unit
Same as forEach but takes uncurried functon.
forEach
let forEach: (t<'key, 'value, 'id>, ('key, 'value) => unit) => unit
forEach(tbl, f) applies f to all bindings in table tbl. f receives the key as first argument, and the associated value as second argument. Each binding is presented exactly once to f.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.forEach(s0, (key, value) => Js.log2(key, value))
// prints (1, "value1")
reduceU
let reduceU: (t<'key, 'value, 'id>, 'c, (. 'c, 'key, 'value) => 'c) => 'c
Same as reduce but takes uncurried functon.
reduce
let reduce: (t<'key, 'value, 'id>, 'c, ('c, 'key, 'value) => 'c) => 'c
reduce(tbl, init, f) computes (f(kN, dN) ... (f(k1, d1, init))...), where k1 ... kN are the keys of all bindings in tbl, and d1 ... dN are the associated values. Each binding is presented exactly once to f.
The order in which the bindings are passed to f is unspecified. However, if the table contains several bindings for the same key, they are passed to f in reverse order of introduction, that is, the most recent binding is passed first.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.set(s0, 2, "value2")
Belt.HashMap.reduce(s0, "", (acc, key, value) => acc ++ (", " ++ value)) == "value1, value2"
keepMapInPlaceU
let keepMapInPlaceU: (t<'key, 'value, 'id>, (. 'key, 'value) => option<'value>) => unit
Same as keepMapInPlace but takes uncurried functon.
keepMapInPlace
let keepMapInPlace: (t<'key, 'value, 'id>, ('key, 'value) => option<'value>) => unit
Filters out values for which function f returned None.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.set(s0, 2, "value2")
Belt.HashMap.keepMapInPlace(s0, (key, value) => key == 1 ? None : Some(value))
size
let size: t<'a, 'b, 'c> => int
size(tbl) returns the number of bindings in tbl. It takes constant time.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.set(s0, 2, "value2")
Belt.HashMap.size(s0) == 2
toArray
let toArray: t<'key, 'value, 'id> => array<('key, 'value)>
Returns array of key value pairs.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.set(s0, 2, "value2")
Belt.HashMap.toArray(s0) == [(1, "value1"), (2, "value2")]
keysToArray
let keysToArray: t<'key, 'a, 'b> => array<'key>
Returns array of keys.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.set(s0, 2, "value2")
Belt.HashMap.keysToArray(s0) == [1, 2]
valuesToArray
let valuesToArray: t<'a, 'value, 'b> => array<'value>
Returns array of values.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(s0, 1, "value1")
Belt.HashMap.set(s0, 2, "value2")
Belt.HashMap.valuesToArray(s0) == ["value1", "value2"]
fromArray
let fromArray: (array<('key, 'value)>, ~id: id<'key, 'id>) => t<'key, 'value, 'id>
Creates new hash map from array of pairs.
Returns array of values.
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let s0 = Belt.HashMap.fromArray([(1, "value1"), (2, "value2")], ~id=module(IntHash))
Belt.HashMap.toArray(s0) == [(1, "value1"), (2, "value2")]
mergeMany
let mergeMany: (t<'key, 'value, 'id>, array<('key, 'value)>) => unit
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let hMap = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.mergeMany(hMap, [(1, "1"), (2, "2")])
getBucketHistogram
let getBucketHistogram: t<'a, 'b, 'c> => array<int>
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let hMap = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(hMap, 1, "1")
Belt.HashMap.getBucketHistogram(hMap)
logStats
let logStats: t<'a, 'b, 'c> => unit
RESmodule IntHash = Belt.Id.MakeHashable({
type t = int
let hash = a => a
let eq = (a, b) => a == b
})
let hMap = Belt.HashMap.make(~hintSize=10, ~id=module(IntHash))
Belt.HashMap.set(hMap, 1, "1")
Belt.HashMap.logStats(hMap)
