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Typescript mapped types

Typescript
type OptionsFlags<Type> = {
  [Property in keyof Type]: boolean;
};

In this example, OptionsFlags will take all the properties from the type Type and change their values to be a boolean.

type FeatureFlags = {
  darkMode: () => void;
  newUserProfile: () => void;
};

type FeatureOptions = OptionsFlags<FeatureFlags>;
// type FeatureOptions = {
//   darkMode: boolean;
//   newUserProfile: boolean;
// };

Mapping an interface to Reactive FormGroup:

export type Form<T> = {
  [P in keyof T]: FormControl<T[P]>;
};

Mapping Modifiers

There are two additional modifiers which can be applied during mapping: readonly and ? which affect mutability and optionality respectively.

You can remove or add these modifiers by prefixing with - or +. If you don’t add a prefix, then + is assumed.

// Removes 'readonly' attributes from a type's properties
type CreateMutable<Type> = {
  -readonly [Property in keyof Type]: Type[Property];
};

type LockedAccount = {
  readonly id: string;
  readonly name: string;
};

type UnlockedAccount = CreateMutable<LockedAccount>;
// type UnlockedAccount = {
//     id: string;
//     name: string;
// }

// Removes 'optional' attributes from a type's properties
type Concrete<Type> = {
  [Property in keyof Type]-?: Type[Property];
};

type MaybeUser = {
  id: string;
  name?: string;
  age?: number;
};

type User = Concrete<MaybeUser>;
// type User = {
//   id: string;
//   name: string;
//   age: number;
// };

Key Remapping via as

In TypeScript 4.1 and onwards, you can re-map keys in mapped types with an as clause in a mapped type:

type MappedTypeWithNewProperties<Type> = {
  [Properties in keyof Type as NewKeyType]: Type[Properties];
};

You can leverage features like template literal types to create new property names from prior ones:

type Getters<Type> = {
  [Property in keyof Type as `get${Capitalize<string & Property>}`]: () => Type[Property];
};

interface Person {
  name: string;
  age: number;
  location: string;
}

type LazyPerson = Getters<Person>;
// type LazyPerson = {
//     getName: () => string;
//     getAge: () => number;
//     getLocation: () => string;
// }

You can filter out keys by producing never via a conditional type:

// Remove the 'kind' property
type RemoveKindField<Type> = {
  [Property in keyof Type as Exclude<Property, 'kind'>]: Type[Property];
};

interface Circle {
  kind: 'circle';
  radius: number;
}

type KindlessCircle = RemoveKindField<Circle>;
// type KindlessCircle = {
//   radius: number;
// };

You can map over arbitrary unions, not just unions of string | number | symbol, but unions of any type:

type EventConfig<Events extends {kind: string}> = {
  [E in Events as E['kind']]: (event: E) => void; // in: loop union types
};

type SquareEvent = {kind: 'square'; x: number; y: number};
type CircleEvent = {kind: 'circle'; radius: number};

type Config = EventConfig<SquareEvent | CircleEvent>;
// type Config = {
//     square: (event: SquareEvent) => void;
//     circle: (event: CircleEvent) => void;
// }

Further Exploration

Mapped types work well with other features in this type manipulation section, for example here is a mapped type using a conditional type which returns either a true or false depending on whether an object has the property pii set to the literal true:

type ExtractPII<Type> = {
  [Property in keyof Type]: Type[Property] extends {pii: true} ? true : false;
};

type DBFields = {
  id: {format: 'incrementing'};
  name: {type: string; pii: true};
};

type ObjectsNeedingGDPRDeletion = ExtractPII<DBFields>;
// type ObjectsNeedingGDPRDeletion = {
//     id: false;
//     name: true;
// }