key-set
TypeDoc generated docs in here
Github repo here
KeySet with 4 classes to represent concepts of All, None, Some, and AllExceptSome, the last 2 with a sorted uniq list of keys, and all with intersection calculations.
(TypeScript port of https://github.com/eturino/ruby_key_set)
Library bootstrapped using typescript-starter.
Installation
yarn add @eturino/key-set
or npm install @eturino/key-set
.
Usage
We have 4 classes:
KeySetAll
: represents the entirety of possible keys (𝕌
)KeySetNone
: represents an empty set (∅
)KeySetSome
: represents a concrete set (A ⊂ 𝕌
)KeySetAllExceptSome
: represents the complementary of a set, all the elements except the given ones (A' = {x ∈ 𝕌 | x ∉ A}
) _(see Complement in Wikipedia)*
We can have a KeySet of:
string
snumber
s- objects with
key
(string
or number
) and label
(string
)
All elements have to have be of the same type.
Creation: all()
, none()
, some([...])
, allExceptSome([...])
, someForced([...])
, allExceptSomeForced([...])
Build your KeySets using the build functions
import { all, none, some, allExceptSome, someForced, allExceptSomeForced } from "@eturino/key-set";
all();
none();
some([1, 3, 2, 3]);
some([]);
allExceptSome([1, 3, 2, 3]);
allExceptSome([]);
someForced([1, 3, 2, 3]);
someForced([]);
allExceptSomeForced([1, 3, 2, 3]);
allExceptSomeForced([]);
.elements
(aliased with .keys
)
Both getters return a copy of the internal list of elements.
some([1, 3, 2, 3]).elements; // => [1, 2, 3]
some([1, 3, 2, 3]).keys; // => [1, 2, 3]
allExceptSome([1, 3, 2, 3]).elements; // => [1, 2, 3]
allExceptSome([1, 3, 2, 3]).keys; // => [1, 2, 3]
type
All KeySet expose a type
property that will return a member of the KeySetTypes
enum.
KeySetAll
returns ALL
KeySetAllExceptSome
returns ALL_EXCEPT_SOME
KeySetNone
returns NONE
KeySetSome
returns SOME
The types are also exposed as a union of strings TypeScript type KeySetTypesEnumValues
.
type
in v1.x vs v2.x
v2.0
changed the values returned by type
, make them SCREAMING_SNAKE_CASE, which allows for easier integration with GraphQL enums.
In v1.x, the values were all
, allExceptSome
, none
and some
.
representsXXX()
All KeySet expose 4 methods representXXX()
. Each class return false for all except their own.
representsAll()
: KeySetAll
returns true
representsNone()
: KeySetNone
returns true
representsSome()
: KeySetSome
returns true
representsAllExceptSome()
: KeySetAllExceptSome
returns true
clone()
All KeySet has a clone()
method, which will return a new instance of the same class that represents the same KeySet.
If the KeySet is KeySetSome
or KeySetAllExceptSome
, they will have an array with the same keys.
const newKeySet = keySet.clone();
isEqual(other)
All KeySet has an isEqual(other)
method that returns true if the other
keySet is of the same class and represents the same KeySet.
If the KeySet is KeySetSome
or KeySetAllExceptSome
, they will have to have an array with the same keys.
if (keySet.isEqual(otherKeySet))
invert()
All KeySet has an invert()
method that returns an instance of the opposite class, which represents the complementary KeySet. _(see Complement in Wikipedia)*
KeySetAll
⟷ KeySetNone
KeySetSome
⟷ KeySetAllExceptSome
const complementaryKeySet = keySet.invert();
remove(other)
Returns a new KeySet with the difference between ThisSet - OtherSet (A - B)
const diffKeySet = keySet.remove(other);
intersect(other)
Returns a new KeySet with the intersection of both Sets (A ∩ B)
, representing the elements present in both sets
const diffKeySet = keySet.intersect(other);
union(other)
Returns a new KeySet with the union of both Sets (A U B)
, representing the elements present in either A or B
const diffKeySet = keySet.intersect(other);
includes(element)
alias contains(element)
.
Returns a boolean defining if the KeySet includes the given element. a new KeySet with the intersection of both Sets (A ∩ B)
, representing the elements present in both sets
const element = "A";
const ksAll: KeySetAll<string> = all<string>();
ksAll.includes(element);
ksAll.contains(element);
const ksNone: KeySetNone<string> = none<string>();
ksNone.includes(element);
ksNone.contains(element);
const ksSome: KeySetSome<string> = some(["A", "B", "C"]);
ksSome.includes(element);
ksSome.contains(element);
const ksSome2: KeySetSome<string> = some(["X", "Y", "Z"]);
ksSome2.includes(element);
ksSome2.contains(element);
const ksAllExceptSome: KeySetAllExceptSome<string> = allExceptSome(["A", "B", "C"]);
ksAllExceptSome.includes(element);
ksAllExceptSome.contains(element);
const ksAllExceptSome2: KeySetAllExceptSome<string> = allExceptSome(["X", "Y", "Z"]);
ksAllExceptSome2.includes(element);
ksAllExceptSome2.contains(element);
Serialization
The Serialized representation of the KeySet (KeySetSerialized
) is a plain object with type
and optionally elements
.
{ type: "ALL" }
{ type: "NONE" }
{ type: "SOME", elements: [1, 2, 3] }
{ type: "ALL_EXCEPT_SOME", elements: [1, 2, 3] }
There are 2 ways of getting the serialized representation of the keySet
keySet.serialized()
serializeKeySet(keySet)
Parsing
We can create a KeySet from the serialized representation
we can also pass the actual KeySet to the parseKeySet
, which will return the given KeySet without touching it.
Type Predicates
There are type predicates exposed, one for each KeySet type and the other for each KeySetSerialized.
isKeySet(x): x is KeySet
isKeySetAll(x): x is KeySetAll
isKeySetAllExceptSome(x): x is KeySetAllExceptSome
isKeySetNone(x): x is KeySetNone
isKeySetSome(x): x is KeySetSome
isKeySetSerialized(x): x is KeySetSerialized
isKeySetAllSerialized(x): x is KeySetAllSerialized
isKeySetAllExceptSomeSerialized(x): x is KeySetAllExceptSomeSerialized
isKeySetNoneSerialized(x): x is KeySetNoneSerialized
isKeySetSomeSerialized(x): x is KeySetSomeSerialized
We also have type predicates based on the type of the elements, for serialized and KeySet.
isKeySetOfNumbers
isKeySetOfStrings
isKeySetOfNumberKeyLabels
isKeySetOfStringKeyLabels
isKeySetSerializedOfNumbers
isKeySetSerializedOfStrings
isKeySetSerializedOfNumberKeyLabels
isKeySetSerializedOfStringKeyLabels
Util functions
The lib also exports the 2 util functions used in the code
uniqueArray(list)
: returns another array with unique items
arraysEqual(a, b)
: returns true if the 2 arrays have the same keys
Util array types
The lib also exports 2 util array types EmptyArray<T>
and NonEmptyArray<T>
, with their corresponding type predicates isEmptyArray()
, and isNonEmptyArray()
.
const lists: Array<NonEmptyArray<any>> = [
[1],
[],
];
const lists2: Array<EmptyArray<any>> = [
[],
[1],
];
const a: string[] = [];
isEmptyArray(a);
isNonEmptyArray(a);
const b: string[] = ["something"];
isEmptyArray(b);
isNonEmptyArray(b);