1. Generics
1- Generic Classes and The Keyof Operator :
class KeyValuePair<K, V> {
constructor(public key: K, public value: V) {}
}
let kvp = new KeyValuePair<string, number>("name", 10);
/*
you can also use this syntax :
let kvp = new KeyValuePair('name', 10);
the compiler will refer the type of the key and value for us
*/
2- Generic Functions :
class ArrayUtils {
static wrapInArray<T>(value: T) {
return Array.isArray(value) ? value : [value];
}
}
let numbers = ArrayUtils.wrapInArray(1);
let strings = ArrayUtils.wrapInArray("hello");
console.log(numbers); // [1]
console.log(strings); // ["hello"]
3- Generic Interfaces :
interface Result<T> {
data: T | null;
error: string | null;
}
interface User {
userName: string;
}
interface Product {
productName: string;
}
function fetch<T>(url: string): Result<T> {
return {
data: null,
error: null,
};
}
fetch<User>("url").data?.userName;
fetch<Product>("url").data?.productName;
4- Generic Constraints :
class Person {
constructor(public name: string) {}
}
class Student extends Person {}
function echo<T extends Person>(arg: T): T {
return arg;
}
echo(new Person("John"));
echo(new Student("Zineddine"));
echo(10); // Argument of type 'number' is not assignable to parameter of type 'Person'
5- Extending Generic Classes :
class Product {
constructor(public name: string, public price: number) {}
}
class Store<T> {
protected _objects: T[] = [];
addObject(object: T) {
this._objects.push(object);
}
find(property: keyof T, value: unknown): T[] {
return this._objects.filter((o) => o[property] === value);
}
}
// pass on the generic type parameter
class CompressibleStore<T> extends Store<T> {
compress() {
this._objects.forEach((object) => {
console.log(object);
});
}
}
let compressibleStore = new CompressibleStore<Product>();
compressibleStore.addObject(new Product("Product 1", 100));
compressibleStore.compress(); // Product { name: 'Product 1', price: 100 }
// Restrictions the generic type parameter
class SearchableStore<T extends { name: string }> extends Store<T> {
search(searchTerm: string) {
this._objects.find((object) => {
return object.name === searchTerm;
});
}
}
// Fix the generic type parameter
class ProductStore extends Store<Product> {}
let store = new Store<Product>();
store.addObject(new Product("Product 1", 100));
store.addObject(new Product("Product 2", 200));
store.find("name", "Product 1"); // [Product { name: 'Product 1', price: 100 }]
store.find("name", "Product 3"); // []
store.find("nonExistingProperty", "Product 3"); // Argument of type '"nonExistingProperty"' is not assignable to parameter of type 'keyof Product'
" 6- Type mapping :
interface Product {
name: string;
price: number;
}
type ReadOnly<T> = {
readonly [K in keyof T]: T[K];
};
type Optional<T> = {
[K in keyof T]?: T[K];
};
type Nullable<T> = {
[K in keyof T]: T[K] | null;
};
That’s it for the this chapter !
Github link : TypeScript-Fundamentals-in-One-Place
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