AlgusDark/types.ts

## types.ts

// when T is any|unknown, Y is returned, otherwise N
type IsAnyUnknown<T, Y, N> = unknown extends T ? Y : N;

// when T is never, Y is returned, otherwise N
type IsNever<T, Y = true, N = false> = [T] extends [never] ? Y : N;

// when T is a tuple, Y is returned, otherwise N
// valid tuples = [string], [string, boolean],
// invalid tuples = [], string[], (string | number)[]
type IsTuple<T, Y = true, N = false> = T extends [any, ...any[]] ? Y : N;

// empty object
type EmptyObject = { [key: string]: never };

// is a type an empty object?
type IsEmpty<T, Y = true, N = false> = T extends EmptyObject ? Y : N;

// returns the value type for T[K] without having to do "K extends keyof T ? T[K] : never"
type Lookup<T, K, N = never> = T extends any ? K extends keyof T ? T[K] : N : N;

// sometimes you have a type with never values, this removes those keys from T
type StripNever<T> = Pick<T, { [K in keyof T]: IsNever<T[K], never, K> }[keyof T]>;

// sometimes something is an expected type, but TypeScript has problem recognizing it.
// This can ensure the expected type is being used.
type Cast<T, AS> = T extends AS ? T : never;

// Returns the result of { ...A, ...B }
type MergeObjects<A, B> = {
  [K in keyof B]: undefined extends B[K]
    ? K extends keyof A
      ? Exclude<B[K], undefined> | A[K]
      : B[K]
    : B[K]
} & {
  [K in keyof A]: K extends keyof B
    ? undefined extends B[K]
      ? Exclude<B[K], undefined> | A[K]
      : B[K]
    : A[K]
};

// Which keys in T are undefined
type UndefinedKeys<T> = {
  [P in keyof T]-?: undefined extends T[P] ? P : never
}[keyof T];

// When a type is really deep and has retained an unnessecary amount of type information,
// this flattens it to a single array/object/value.
type Simplify<T> =
  T extends (object | any[])
    ? { [K in keyof T]: T[K] }
    : T;

// Converts { x: string | undefined } to { x?: string | undefined }
type UndefinedToOptional<T> = Simplify<
  Pick<T, Exclude<keyof T, UndefinedKeys<T>>> &
  Partial<Pick<T, UndefinedKeys<T>>>
>;

// Converts { x: string } | { y: number } to { x: string, y: number }
type UnionToIntersection<T> =
  (T extends any ? (x: T) => any : never) extends
  (x: infer R) => any ? R : never;

// Converts string | number | boolean to [string, number, boolean]
type UnionToTuple<T> = (
(
  (
    T extends any
      ? (t: T) => T
      : never
  ) extends infer U
    ? (U extends any
      ? (u: U) => any
      : never
    ) extends (v: infer V) => any
      ? V
      : never
    : never
) extends (_: any) => infer W
  ? [...UnionToTuple<Exclude<T, W>>, W]
  : []
);

// Converts (string | number)[] to [string, number]
type ArrayToTuple<T> =
  T extends Array<infer E>
    ? UnionToTuple<E>
    : T
;

// Merges objects and changes undefined to optional if any exist.
type AppendObjects<A, B> =
  UndefinedToOptional<MergeObjects<A, B>>
;

// AppendTuples<[string, boolean], [string, number]> = [string, boolean, string, number]
type AppendTuples<A extends any[], B extends any[]> =
  Simplify<[...A, ...B]>
;

// JSON
type JsonScalar = number | string | boolean | null;
type JsonObject = { [key: string]: JsonScalar | JsonObject | JsonArray; };
type JsonArray = Array<JsonScalar | JsonObject | JsonArray>;
type Json = JsonScalar | JsonObject | JsonArray;

// ObjectKeys<{ x: string, y: number }> = ["x", "y"]
type ObjectKeys<T> =
  UnionToTuple<keyof T> extends Array<keyof T>
    ? UnionToTuple<keyof T>
    : never;

// The properties of T should be Partialed
type PartialChildren<T> = {
  [K in keyof T]: Partial<T[K]>
};

// JoinTuples<[[string], [], [boolean, number], [string, Date]]> = [string, boolean, number, string, Date]
type JoinTuples<T extends any[]> =
  T extends [infer A]
    ? ToTuple<A>
    : T extends [infer B, ...infer C]
      ? [...ToTuple<B>, ...JoinTuples<C>]
      : [];

// Converts anything to a tuple or array, unless it aleady is.
type ToTuple<T extends any> = T extends any[] ? T : [T];

// A extends B is not good enough sometimes, especially when never is involved.
// Also order matters when doing extends, so this does both directions.
type Extends<A, B, T = true, F = false> = [A] extends [B] ? [B] extends [A] ? T : F : F;

/**
 * forbids manipulation for the wrapped type (recursive)
 * but i guess its not hard enough against typecasting
 *
 *
 * credits and thanks to https://templecoding.com/blog/real-immutable-types-with-typescript
 * --> original
 * fails to be compatible to "Date"-Objects
 *
 * const immDate: Immutable<Date> = new Date(1);
 * const date: Date = immDate; // Error
 *
 * --> workaround
 * adding "T &" {...
 */
export type Immutable<T> = T & { readonly [K in keyof T]: Immutable<T[K]> };

// Testing return types.
// If the input doesn't match T there will be a TS error.
//
//  expectType<string>('hello')
function expectType<Expected>(type: Expected) {}

// Testing types against each other (used to unit test the above types)
// If the types don't match there will be a TS error.
//
//  expectTypeMatch<["x", "y"], ObjectKeys<{ x: string, y: number }>>(true);
//
// If you want to test they are NOT equivalent, pass false to function.
function expectTypeMatch<A, B>(truthy: Extends<A, B>) {}

	// when T is any\|unknown, Y is returned, otherwise N
	type IsAnyUnknown<T, Y, N> = unknown extends T ? Y : N;

	// when T is never, Y is returned, otherwise N
	type IsNever<T, Y = true, N = false> = [T] extends [never] ? Y : N;

	// when T is a tuple, Y is returned, otherwise N
	// valid tuples = [string], [string, boolean],
	// invalid tuples = [], string[], (string \| number)[]
	type IsTuple<T, Y = true, N = false> = T extends [any, ...any[]] ? Y : N;

	// empty object
	type EmptyObject = { [key: string]: never };

	// is a type an empty object?
	type IsEmpty<T, Y = true, N = false> = T extends EmptyObject ? Y : N;

	// returns the value type for T[K] without having to do "K extends keyof T ? T[K] : never"
	type Lookup<T, K, N = never> = T extends any ? K extends keyof T ? T[K] : N : N;

	// sometimes you have a type with never values, this removes those keys from T
	type StripNever<T> = Pick<T, { [K in keyof T]: IsNever<T[K], never, K> }[keyof T]>;

	// sometimes something is an expected type, but TypeScript has problem recognizing it.
	// This can ensure the expected type is being used.
	type Cast<T, AS> = T extends AS ? T : never;

	// Returns the result of { ...A, ...B }
	type MergeObjects<A, B> = {
	[K in keyof B]: undefined extends B[K]
	? K extends keyof A
	? Exclude<B[K], undefined> \| A[K]
	: B[K]
	: B[K]
	} & {
	[K in keyof A]: K extends keyof B
	? undefined extends B[K]
	? Exclude<B[K], undefined> \| A[K]
	: B[K]
	: A[K]
	};

	// Which keys in T are undefined
	type UndefinedKeys<T> = {
	[P in keyof T]-?: undefined extends T[P] ? P : never
	}[keyof T];

	// When a type is really deep and has retained an unnessecary amount of type information,
	// this flattens it to a single array/object/value.
	type Simplify<T> =
	T extends (object \| any[])
	? { [K in keyof T]: T[K] }
	: T;

	// Converts { x: string \| undefined } to { x?: string \| undefined }
	type UndefinedToOptional<T> = Simplify<
	Pick<T, Exclude<keyof T, UndefinedKeys<T>>> &
	Partial<Pick<T, UndefinedKeys<T>>>
	>;

	// Converts { x: string } \| { y: number } to { x: string, y: number }
	type UnionToIntersection<T> =
	(T extends any ? (x: T) => any : never) extends
	(x: infer R) => any ? R : never;

	// Converts string \| number \| boolean to [string, number, boolean]
	type UnionToTuple<T> = (
	(
	(
	T extends any
	? (t: T) => T
	: never
	) extends infer U
	? (U extends any
	? (u: U) => any
	: never
	) extends (v: infer V) => any
	? V
	: never
	: never
	) extends (_: any) => infer W
	? [...UnionToTuple<Exclude<T, W>>, W]
	: []
	);

	// Converts (string \| number)[] to [string, number]
	type ArrayToTuple<T> =
	T extends Array<infer E>
	? UnionToTuple<E>
	: T
	;

	// Merges objects and changes undefined to optional if any exist.
	type AppendObjects<A, B> =
	UndefinedToOptional<MergeObjects<A, B>>
	;

	// AppendTuples<[string, boolean], [string, number]> = [string, boolean, string, number]
	type AppendTuples<A extends any[], B extends any[]> =
	Simplify<[...A, ...B]>
	;

	// JSON
	type JsonScalar = number \| string \| boolean \| null;
	type JsonObject = { [key: string]: JsonScalar \| JsonObject \| JsonArray; };
	type JsonArray = Array<JsonScalar \| JsonObject \| JsonArray>;
	type Json = JsonScalar \| JsonObject \| JsonArray;

	// ObjectKeys<{ x: string, y: number }> = ["x", "y"]
	type ObjectKeys<T> =
	UnionToTuple<keyof T> extends Array<keyof T>
	? UnionToTuple<keyof T>
	: never;

	// The properties of T should be Partialed
	type PartialChildren<T> = {
	[K in keyof T]: Partial<T[K]>
	};

	// JoinTuples<[[string], [], [boolean, number], [string, Date]]> = [string, boolean, number, string, Date]
	type JoinTuples<T extends any[]> =
	T extends [infer A]
	? ToTuple<A>
	: T extends [infer B, ...infer C]
	? [...ToTuple<B>, ...JoinTuples<C>]
	: [];

	// Converts anything to a tuple or array, unless it aleady is.
	type ToTuple<T extends any> = T extends any[] ? T : [T];

	// A extends B is not good enough sometimes, especially when never is involved.
	// Also order matters when doing extends, so this does both directions.
	type Extends<A, B, T = true, F = false> = [A] extends [B] ? [B] extends [A] ? T : F : F;

	/**
	* forbids manipulation for the wrapped type (recursive)
	* but i guess its not hard enough against typecasting
	*
	*
	* credits and thanks to https://templecoding.com/blog/real-immutable-types-with-typescript
	* --> original
	* fails to be compatible to "Date"-Objects
	*
	* const immDate: Immutable<Date> = new Date(1);
	* const date: Date = immDate; // Error
	*
	* --> workaround
	* adding "T &" {...
	*/
	export type Immutable<T> = T & { readonly [K in keyof T]: Immutable<T[K]> };

	// Testing return types.
	// If the input doesn't match T there will be a TS error.
	//
	// expectType<string>('hello')
	function expectType<Expected>(type: Expected) {}

	// Testing types against each other (used to unit test the above types)
	// If the types don't match there will be a TS error.
	//
	// expectTypeMatch<["x", "y"], ObjectKeys<{ x: string, y: number }>>(true);
	//
	// If you want to test they are NOT equivalent, pass false to function.
	function expectTypeMatch<A, B>(truthy: Extends<A, B>) {}