info.md

type-plus

Advance type utilities for TypeScript.

Legend

Each type and function has an icon associated with it. They indicate what kind of feature they offer:

• 🚦 assertion (:vertical_traffic_light:): assertion function
• 💀 deprecated (:skull:): deprecated and will be removed soon
• 🛡️ guard (:shield:): type guard function
• 💥 immediate (:boom:): The effect of the type can be observed immediately during development.
• 🌪️ filter (:tornado:): a.k.a. parse These types perform some kind of test. If the input passes the test, the input is returned. Otherwise, it returns never (other icons considered: ↪️👉🚋⏩🐾🔑🚪💂🧲🙅‍♂️🪚).
• 🏃 runtime (:runner:): The function has runtime effect
• 🩳 shortcut (:shorts:): Shortcut or convenient types
• 🧪 testing (:test_tube:): The type or function are designed for test.
• ⚗️ transform (:alembic:): These types transforms the input to another category.
• 🦴 utilities (:bone:): provide various functionalities (other icons considered: 🔧🔨).
• 🎭 predicate (:performing_arts:): a.k.a. validate or logical. These types perform some kind of test. If the input passes the test, it returns true or false (other icons considered: ⭕).

Feature Highlights

• Type assertions
• Type Guard
• Type Checking
• Type Utilities
• Nominal Types
• Functional Types

Installation

npm install type-plus

yarn add type-plus

pnpm add type-plus

Type Assertions

Type assertion is one of the main features of type-plus.

Type assertions can be immediate compile time check, or they can have runtime behavior.

There are 4 kinds of type assertions:

• logical: functions or generic types that returns true or false type to be used in type level programming.
• filter: generic type that returns never if the test fails.

Equal<A, B>: IsEqual<A, B>:

✔️ logical

Check if A and B are the same.

NotEqual<A, B>: IsNotEqual<A, B>:

✔️ logical

Check if A and B are not the same.

IsExtend<A, B>: IsNotExtend<A, B>:

✔️ logical

Check if A extends or not extends B.

Extendable<A, B>: NotExtendable<A, B>:

✔️ filter

Check if A extends or not extends B.

IsAssign<A, B>: CanAssign<A, B>:

✔️ logical

Check if A can be assigned to B. A typical usage is using it with assertType:

assertType.isFalse(false as CanAssign<boolean, { a: string }>)
assertType.isTrue(true as CanAssign<{ a:string, b:number }, { a: string }>)

canAssign<T>(): (subject) => true:

✔️ immediate, logical

Returns a compile-time validating function to ensure subject is assignable to T.

const isConfig = canAssign<{ a: string }>()
assertType.isTrue(isConfig({ a: 'a' }))

canAssign<T>(false): (subject) => false:

✔️ immediate, logical

Returns a compile-time validating function to ensure subject is not assignable to T.

const notA = canAssign<{ a: string }>(false)
assertType.isTrue(notA({ a: 1 }))

notA({ a: '' }) // TypeScript complains

IsNever<T>:

✔️ logical

Check if A is never.

IsNever<never> // true
IsNever<1>     // false

Type Checking

type-plus privides type checking utilities for every type.

Each type has at least 4 type checks. Using string as an example, there are StringType<T>, IsString<T>, NotStringType<T>, and IsNotString<T>.

Some types will have more checks, such as boolean has StrictBooleanType<T>, TrueType<T>, FalseType<T>.

You can learn more in their respective sections:

• any
• array
• bigint
• boolean
• function
• never
• null
• number
• object
• string
• symbol
• tuple
• undefined
• unknown
• void

Type Utilities

type-plus also provides additional type utilities. These utilities include utility types and type-adjusted functions.

Note that most predicate types (such as IsAny<>) have a Then and Else that you can override.

e.g.:

type Yes = IsAny<any, 'yes', 'no'> // 'yes'
type No = IsAny<1, 'yes', 'no'> // 'no'

Any

• AnyType<T, Then = T, Else = never>: T === any.
• IsAny<T, Then = true, Else = false>: T === any (origin: ts-essentials).

Array

• At<A, N, Fail = never>: gets the element type at index N in the array A.
• CommonPropKeys<A>: gets common keys inside the records in the array A (deprecate CommonKeys).
• Concat<A, B>: [...A, ...B].
• CreateTuple<L, T>: Creates Tuple<T> with L number of elements.
• drop(array, value): drop a particular value from an array.
• DropFirst<A>: drops the first value type of A.
• DropLast<A>: drops the last value type of A.
• DropMatch<A, Criteria>: drops entries matching Criteria in array or tuple A.
• DropUndefined<A>: drop undefined entries from array of tuple A.
• Filter<A, Criteria>: filter the array or tuple A, keeping entries satisfying Criteria. Deprecated. Renaming to KeepMatch
• FindFirst<A, Criteria>: gets the first type satisfying Criteria.
• FindLast<A, Criteria>: gets the last type satisfying Criteria.
• Head<A>: gets the first entry in the array.
• IntersectOfProps<A, K>: gets the intersect of A[K] types (deprecate MapToProp)
• IsArray<T>: logical predicate for Array.
• KeepMatch<A, Criteria>: keeps entries satisfying Criteria in array or tuple A.
• Last<A>: gets the last type of array or tuple.
• literalArray(...entries): return an array whose items are restricted to the provided literals.
• PadLeft<A, Total, PadWith>: pads A with PadWith if the length of A is less than L.
• reduceWhile(): reduce() with predicate for early termination.
  A simple version of the same function in the ramda package.
• Reverse<A>: reverses the order of A.
• Some<A, Criteria>: true if some elements in A matches Criteria.
• Tail<A>: Gets the types of a tuple except the first entry.
• UnionOfProps<A, K>: gets the union of A[K] types (deprecate PropUnion).
• UnionOfValues<A>: gets the union of value types in A (deprecate ArrayValue).
• ArrayPlus.IndexAt<A, N, Fail = never>: gets the normalized index for A.
• ArrayPlus.IsIndexOutOfBound<A, N, Then = true, Else = false>: Is N an out of bound index of A. Supports negative numbers.
• ArrayType<T, Then = N, Else = never>: Is the type T exactly an array and not a tuple.

Constant Types

• KeyTypes: type of all keys.
• PrimitiveTypes: all primitive types, including Function, symbol, and bigint.
• ComposableTypes: Types that can contain custom properties. i.e. object, array, function.
• NonComposableTypes: Types that cannot contain custom properties. i.e. not composable.

JSON Support

• JSONPrimitive: primitive types valid in JSON
• JSONObject: JSON object
• JSONArray: JSON array
• JSONTypes: all JSON compatible types.
• JSONTypes.get<T>(obj, ...props): get a cast value in JSON

import { JSONTypes } from 'type-plus'

const someJson: JSONTypes = { a: { b: ['z', { c: 'miku' }]}}

JSONTypes.get<string>(someJson, 'a', 'b', 1, 'c') // miku

Object utilities

• filterKey(): type adjusted filter by key.
• findKey(): type adjusted find by key.
• forEachKey(): type adjusted for each by key.
• HasKey<T, K>: predicate type checking T has key K.
• hasKey(): function of HasKey.
• IsRecord<T>: logical predicate for Record.
• KeysWithDiffTypes<A, B>: gets the keys common in A and B but with different value type.
• mapKey(): type adjusted map by key.
• RecordValue<R>: gets the value type Tfrom Record<any, T> video.
• reduceByKey(): type adjusted reduce by key.
• someKey(): type adjusted some by key.
• SpreadRecord<A, B>: type for {...a, ...b} when both a and b are Record
  for array, just do [...A, ...B].

Promise utilities

• AwaitedProp<T, V>: Awaited on specified props P in T.
• isPromise<R>(subject: any): isPromise() type guard.
• MaybePromise<T>: Alias of T | Promise<T>.
• PromiseValue<P>: Gets the type within the Promise.
• PromiseValueMerge<P1, P2, ...P9>: Merge the values of multiple promises.
• mapSeries(): Similar to bluebird.mapSeries() but works with async/await.
• transformMaybePromise(value, transformer): Apply the transformer to the value.
  It is also exported under MaybePromise.transform().

Type manipulation

• ANotB<A, B>: get object with properties in A and not in B, including properties with a different value type.
• BNotA<A, B>: flip of ANotB
• as<T>(subject): assert subject as T. Avoid ASI issues such as ;(x as T).abc
• asAny(subject): assert subject as any. Avoid ASI issue such as ;(x as any).abc
• EitherAnd<A, B, [C, D]>: combines 2 to 4 types as A | B | (A & B). This is useful for combining options. Deprecated. Renamed to EitherOrBoth.
• EitherOrBoth<A, B, [C, D]>: combines 2 to 4 types as A | B | (A & B). This is useful for combining options video.
• Except<T, K>: Deprecated. Same as Omit<T, K>.
• ExcludePropType<T, U>: excludes type U from properties in T.
• KeyofOptional<T>: keyof that works with Record<any, any> | undefined.
• KnownKeys<T>: extract known (defined) keys from type T.
• LeftJoin<A, B>: left join A with B
• NonNull<T>: remove null
• NonUndefined<T>: remove undefined
• Omit<T, K>: From T, pick a set of properties whose keys are not in the union K. This is the opposite of Pick<T, K>.
• OptionalKeys<T>: gets keys of optional properties in T.
• PartialExcept<T, U>: Deprecated. Same as PartialOmit<T, U>.
• PartialOmit<T, U>: makes the properties not specified in U becomes optional.
• PartialPick<T, U>: makes the properties specified in U becomes optional.
• Pick<T, K>: pick properties K from T. Works with unions.
• RecursivePartial<T>: make type T optional recursively.
• RecursiveRequired<T>: make type T required recursively.
• ReplaceProperty<T, K, V>: replace property K in T with V.
• RequiredKeys<T>: gets keys of required properties in T.
• RequiredPick<T, U>: makes the properties specified in U become required.
• RequiredExcept<T, U>: makes the properties not specified in U become required.
• RecursiveIntersect<T, U>: intersect type U onto T recursively.
• ValueOf<T>: type of the value of the properties of T.
• Widen<T>: widen literal types.
• PropType: ...no helper type for this. Just do YourType['propName'].

Type Predicates

Type predicates are type alias that returns true or false. They can be used to compose complex types.

• HasKey<T, K>: predicate type checking T has key K.
• IsAny<T>: T === any (updated to impl: expect-type).
• IsBoolean<T>: check for boolean, but not for true nor false.
• IsDisjoint<A, B>: is A and B is a disjoint set.
• IsEmptyObject<T>: is T === {}.
• IsLiteral<T>: is T a literal type (literal string or number).

Logical

• If<Condition, Then = true, Else = false>: if statement.
• And<A, B, Then = true, Else = false>: logical AND.
• Or<A, B, Then = true, Else = false>: logical OR.
• Xor<A, B, Then = true, Else = false>: logical XOR.
• Not<X, Then = true, Else = false>: logical NOT.

Note that these types work correctly with the boolean type. e.g.:

• And<boolean, true> -> boolean
• Not<boolean> -> boolean

There is a problem with generic distribution: microsoft/TypeScript#41053 So you may encounter some weird behavior if your logic is complex.

Number

• Numeric: either number or bigint (origin: type-fest).
• Zero: 0 in number or bigint (origin: type-fest).
• Integer<N, Then = N, Else = never>: is integer (origin: type-fest).
• IsInteger<N, Then = true, Else = false>: is integer.
• IsWhole<N, Then = true, Else = false>: is integer.
• Negative<N, Then = N, Else = never>: is negative (origin: type-fest).
• NonNegative<N, Then = N, Else = never>: is non-negative (origin: type-fest)
• NumberType<T, Then = N, Else = never>: Is the type T exactly number.
• Positive<N, Then = N, Else = never>: is positive.
• IsPositive<N, Then = N, Else = never>: is positive.

Math

• Abs<N, Fail=never>: Abs(N), Abs<number> returns Fail.
• Max<A, B, Fail=never>: max(A, B), for whole number, Fail otherwise.
• GreaterThan<A, B, Fail=never>: A > B for whole numbers, Fail otherwise.

Arithmetic

• Add<A, B, Fail=never>: A + B for positive and whole numbers, Fail otherwise.
• Subtract<A, B, Fail=never>: A - B for positive and whole numbers, Fail otherwise.
• Increment<A, Fail=never>: alias of Add<A, 1, Fail>.
• Decrement<A, Fail=never>: alias of Subtract<A, 1, Fail>.

Tuple

• TupleType

Utility Functions

• amend(subject)...: amend subject as union or intersect of T.
• facade(subject, ...props): create a facade of subject.
• getField(subject, key, defaultValue): get a field from a subject. Works against nullable and optional subject.
• hasKey(): function of HasKey.
• hasProperty(value, prop): assert value has property prop. This will pick the correct union type.
• isConstructor(subject): type guard subject is a constructor.
• isSystemError(code, err): type guard err with NodeJS error code.
• omit(obj, ...props): omit properties from obj.
• pick(obj, ...props): pick properties from obj.
• record<K, V>(value?): create a Record<K, V> without extra object prototype.
• record<R>(value?): create a record R (e.g. { a: number }) without extra object prototype.
• required(...): merge options and remove Partial<T>. From unpartial
• requiredDeep(...): merge options deeply and remove Partial<T>. From unpartial
• split(target, ...splitters): split one object into multiple objects.
• stub<T>(value): stub a particular type T.
• stub.build<T>(init?): build a stub for particular type T.
• typeOverrideIncompatible<T>(): override only the incompatible portion between two types.
• unpartial(): merge options and remove Partial<T> values. From unpartial

type A =  {
  foo: boolean,
  bar: string,
  baz: string
}

const overrider = typeOverrideIncompatible<A>()
const source = {
  foo: 1,
  bar: 'bar',
  baz: 'baz'
}

// only the `foo` property is available to override.
overrider(source, { foo: !!source.foo })

Nominal Types

The TypeScript type system is structural.

In some cases, we want to express a type with nominal behavior. type-plus provides two kinds of nominal types: Brand and Flavor.

Brand<B, T>:

brand(type, subject?):

Branded nominal type is the stronger nominal type of the two. It disallows unbranded type assigned to it:

const a = brand('a', { a: 1 })
const b = { a: 1 }
a = b // error

subject can be any type, from primitive to strings to objects.

brand(type):

If you do not provide subject, brand(type) will return a brand creator, so that you can use it to create multiple branded values:

const nike = brand('nike')
const shirt = nike('shirt')
const socks = nike('socks')

Flavor<F, T>:

flavor(type, subject?):

The key difference between Flavor and Brand is that unflavored type can be assigned to Flavor:

let f = flavor('orange', 'soda')
f = 'mist' // ok

Also, Brand of the same name can be assigned to Flavor, but Flavor of the same name cannot be assigned to Brand.

nominalMatch(a, b):

nominalMatch() can be used to compare Brand or Flavor.

const b1 = brand('x', 1)
const b2 = brand('y', 1)

nominalMatch(b1, b2) // false

Function Utilties

• AnyFunction<P, R>: a generic type for any function
• ExtractFunction<F>: extract the function signature from a type F.
• extractFunction(fn: F): adjust type of fn to its function signature only.
• inspect<T>(value: T, inspector?: (v: T) => void): inspect a value and return it.
  Inspector defaults to console.dir()

Functional Types

• ChainFn<T>: T: chain function that returns the input type.
• compose(...fns): F: compose functions

Context Builder

• context(): a context builder. This is useful to build context for functional programming.
  It is a sync version of the AsyncContext from async-fp.

import { context } from 'type-plus'

// { a: 1, b: 2 }
const ctx = context({ a: 1 })
  .extend(c => ({ b: c.a + 1 }))
  .build()

Attribution

Some code in this library is created by other people in the TypeScript community. I'm merely adding them in and maybe making some adjustments. Whenever possible, I add attribution to the person who created those codes in the file.

Useful Tips

• https://github.com/microsoft/TypeScript/wiki/Performance

Similar projects

• expect-type: Compile-time tests for types
• hotscript: Higher-order TypeScript
• spec.ts: write tests for your types!
• ts-essentials: all essential TypeScript types in one place.
• ts-expect: Checks values in TypeScript match expectations.
• ts-toolbelt: TypeScript's largest utility library.
• type-fest: a collection of essential TypeScript types.
• type-zoo: a modest type lib usable today.
• typepark: a new type collection offering tuple manipulation and Pipe.
• typelevel-ts: a type lib by @gcanti, author of several FP libraries in TS.
• typical: a playground of type-level operations for TypeScript.
• utility-types: collection of utility types, complementing TypeScript build-in mapped types ans aliases.

Contribute

# after fork and clone
npm install

# begin making changes
git checkout -b <branch>
npm run watch

# after making change(s)
git commit -m "<commit message>"
git push

# create PR

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