178

How to init a new class in TS in such a way (example in C# to show what I want):

// ... some code before
return new MyClass { Field1 = "ASD", Field2 = "QWE" };
// ...  some code after

SOLUTION:
Classic JavaScript syntax:

return { Field1: "ASD", Field2: "QWE" };
  • 9
    The "solution" you just appended to your question is not valid TypeScript or JavaScript. But it is valuable to point out that it is the most intuitive thing to try. – Jacob Foshee Aug 12 '15 at 22:43
  • 1
    @JacobFoshee not valid JavaScript? See my Chrome Dev Tools: i.imgur.com/vpathu6.png (but Visual Studio Code or any other TypeScript linted would inevitably complain) – Mars Robertson Jun 30 '16 at 9:46
  • 4
    @MichalStefanow the OP edited the question after I posted that comment. He did have return new MyClass { Field1: "ASD", Field2: "QWE" }; – Jacob Foshee Jun 30 '16 at 20:28

10 Answers 10

74

Update

Since writing this answer, better ways have come up. Please see the other answers below that have more votes and a better answer. I cannot remove this answer since it's marked as accepted.


Old answer

There is an issue on the TypeScript codeplex that describes this: Support for object initializers.

As stated, you can already do this by using interfaces in TypeScript instead of classes:

interface Name {
    first: string;
    last: string;
}
class Person {
    name: Name;
    age: number;
}

var bob: Person = {
    name: {
        first: "Bob",
        last: "Smith",
    },
    age: 35,
};
  • 71
    In your example, bob is not an instance of class Person. I don't see how this is equivalent to the C# example. – Jack Wester Feb 23 '13 at 17:27
  • 3
    interface names are better to be started with capital "I" – Kiarash Oct 4 '15 at 9:36
  • 16
    1. Person is not a class and 2. @JackWester is right, bob is not an instanceof Person. Try alert(bob instanceof Person); In this code example Person is there for Type Assertion purposes only. – Jacques Oct 13 '15 at 10:42
  • 14
    I agree with Jack and Jaques, and I think its worth repeating. Your bob is of the type Person, but it is not at all an instance of Person. Imagine that Person actually would be a class with a complex constructor and a bunch of methods, this approach would fall flat on its face. It's good that a bunch of people found your approach useful, but it's not a solution to the question as it's stated and you could just as well use a class Person in your example instead of an interface, it would be the same type. – Alex Aug 4 '16 at 17:21
  • 22
    Why is this an accepted answer when it is clearly wrong? – Hendrik Wiese Oct 7 '17 at 20:14
350

Updated 07/12/2016: Typescript 2.1 introduces Mapped Types and provides Partial<T>, which allows you to do this....

class Person {
    public name: string = "default"
    public address: string = "default"
    public age: number = 0;

    public constructor(init?:Partial<Person>) {
        Object.assign(this, init);
    }
}

let persons = [
    new Person(),
    new Person({}),
    new Person({name:"John"}),
    new Person({address:"Earth"}),    
    new Person({age:20, address:"Earth", name:"John"}),
];

Original Answer:

My approach is to define a separate fields variable that you pass to the constructor. The trick is to redefine all the class fields for this initialiser as optional. When the object is created (with its defaults) you simply assign the initialiser object onto this;

export class Person {
    public name: string = "default"
    public address: string = "default"
    public age: number = 0;

    public constructor(
        fields?: {
            name?: string,
            address?: string,
            age?: number
        }) {
        if (fields) Object.assign(this, fields);
    }
}

or do it manually (bit more safe):

if (fields) {
    this.name = fields.name || this.name;       
    this.address = fields.address || this.address;        
    this.age = fields.age || this.age;        
}

usage:

let persons = [
    new Person(),
    new Person({name:"Joe"}),
    new Person({
        name:"Joe",
        address:"planet Earth"
    }),
    new Person({
        age:5,               
        address:"planet Earth",
        name:"Joe"
    }),
    new Person(new Person({name:"Joe"})) //shallow clone
]; 

and console output:

Person { name: 'default', address: 'default', age: 0 }
Person { name: 'Joe', address: 'default', age: 0 }
Person { name: 'Joe', address: 'planet Earth', age: 0 }
Person { name: 'Joe', address: 'planet Earth', age: 5 }
Person { name: 'Joe', address: 'default', age: 0 }   

This gives you basic safety and property initialization, but its all optional and can be out-of-order. You get the class's defaults left alone if you don't pass a field.

You can also mix it with required constructor parameters too -- stick fields on the end.

About as close to C# style as you're going to get I think (actual field-init syntax was rejected). I'd much prefer proper field initialiser, but doesn't look like it will happen yet.

For comparison, If you use the casting approach, your initialiser object must have ALL the fields for the type you are casting to, plus don't get any class specific functions (or derivations) created by the class itself.

  • 1
    +1. This actually creates an instance of a class (which most of these solutions don't), keeps all the functionality inside the constructor (no Object.create or other cruft outside), and explicitly states the property name instead of relying on param ordering (my personal preference here). It does lose type/compile safety between the params and properties, though. – Fiddles Aug 16 '16 at 1:36
  • 1
    @user1817787 you'd probably be better off defining anything that has a default as optional in the class itself, but assign a default. Then don't use Partial<>, just Person - that will require you to pass an object that has the required fields. that said, see here for ideas (See Pick) that limit Type Mapping to certain fields. – Meirion Hughes Dec 13 '16 at 18:08
  • 2
    This really should be the answer. Its the best solution to this issue. – Ascherer Feb 10 '17 at 5:41
  • 5
    that is GOLDEN piece of code public constructor(init?:Partial<Person>) { Object.assign(this, init); } – Kuncevič Jul 25 '17 at 4:29
  • 1
    If Object.assign is showing an error like it was for me, please see this SO answer: stackoverflow.com/a/38860354/2621693 – Jim Yarbro Nov 11 '18 at 10:12
20

Below is a solution that combines a shorter application of Object.assign to more closely model the original C# pattern.

But first, lets review the techniques offered so far, which include:

  1. Copy constructors that accept an object and apply that to Object.assign
  2. A clever Partial<T> trick within the copy constructor
  3. Use of "casting" against a POJO
  4. Leveraging Object.create instead of Object.assign

Of course, each have their pros/cons. Modifying a target class to create a copy constructor may not always be an option. And "casting" loses any functions associated with the target type. Object.create seems less appealing since it requires a rather verbose property descriptor map.

Shortest, General-Purpose Answer

So, here's yet another approach that is somewhat simpler, maintains the type definition and associated function prototypes, and more closely models the intended C# pattern:

const john = Object.assign( new Person(), {
    name: "John",
    age: 29,
    address: "Earth"
});

That's it. The only addition over the C# pattern is Object.assign along with 2 parenthesis and a comma. Check out the working example below to confirm it maintains the type's function prototypes. No constructors required, and no clever tricks.

Working Example

This example shows how to initialize an object using an approximation of a C# field initializer:

class Person {
    name: string = '';
    address: string = '';
    age: number = 0;

    aboutMe() {
        return `Hi, I'm ${this.name}, aged ${this.age} and from ${this.address}`;
    }
}

// typescript field initializer (maintains "type" definition)
const john = Object.assign( new Person(), {
    name: "John",
    age: 29,
    address: "Earth"
});

// initialized object maintains aboutMe() function prototype
console.log( john.aboutMe() );

  • I really like this one. Nice, thanks. – PRMan Apr 13 at 0:01
  • Like this one too, can create a user object from a javascript object – Dave Keane Apr 30 at 16:48
17

You can affect an anonymous object casted in your class type. Bonus: In visual studio, you benefit of intellisense this way :)

var anInstance: AClass = <AClass> {
    Property1: "Value",
    Property2: "Value",
    PropertyBoolean: true,
    PropertyNumber: 1
};

Edit:

WARNING If the class has methods, the instance of your class will not get them. If AClass has a constructor, it will not be executed. If you use instanceof AClass, you will get false.

In conclusion, you should used interface and not class. The most common use is for the domain model declared as Plain Old Objects. Indeed, for domain model you should better use interface instead of class. Interfaces are use at compilation time for type checking and unlike classes, interfaces are completely removed during compilation.

interface IModel {
   Property1: string;
   Property2: string;
   PropertyBoolean: boolean;
   PropertyNumber: number;
}

var anObject: IModel = {
     Property1: "Value",
     Property2: "Value",
     PropertyBoolean: true,
     PropertyNumber: 1
 };
  • 19
    If AClass contained methods, anInstance wouldn't get them. – Monsignor Apr 25 '16 at 9:20
  • 2
    Also if AClass has a constructor, it will not be executed. – Michael Erickson Aug 14 '16 at 19:31
  • Also if you do anInstance instanceof AClass you'll get false at runtime. – Lucero Nov 27 '18 at 7:21
12

I suggest an approach that does not require Typescript 2.1:

class Person {
    public name: string;
    public address?: string;
    public age: number;

    public constructor(init:Person) {
        Object.assign(this, init);
    }

    public someFunc() {
        // todo
    }
}

let person = new Person(<Person>{ age:20, name:"John" });
person.someFunc();

key points:

  • Typescript 2.1 not required, Partial<T> not required
  • It supports functions (in comparison with simple type assertion which does not support functions)
  • 1
    It doesn't respect mandatory fields: new Person(<Person>{}); (because casting) and to be clear too; using Partial<T> supports functions. Ultimately, if you have required fields (plus prototype functions) you'll need to do: init: { name: string, address?: string, age: number } and drop the cast. – Meirion Hughes Mar 6 '17 at 21:44
  • Thank you Meirion. I corrected the answer. – VeganHunter Mar 7 '17 at 4:56
  • Also when we get conditional type mapping you'll be able to map just the functions to partials, and keep the properties as is. :) – Meirion Hughes Mar 7 '17 at 7:24
  • Instead of the sophisticated class then var, if I do var dog: {name: string} = {name: 'will be assigned later'};, it compiles and works. Any deficiency or issue? Oh, dog has very small scope and specific, meaning only one instance. – Jeb50 Aug 4 at 23:59
11

In some scenarios it may be acceptable to use Object.create. The Mozilla reference includes a polyfill if you need back-compatibility or want to roll your own initializer function.

Applied to your example:

Object.create(Person.prototype, {
    'Field1': { value: 'ASD' },
    'Field2': { value: 'QWE' }
});

Useful Scenarios

  • Unit Tests
  • Inline declaration

In my case I found this useful in unit tests for two reasons:

  1. When testing expectations I often want to create a slim object as an expectation
  2. Unit test frameworks (like Jasmine) may compare the object prototype (__proto__) and fail the test. For example:
var actual = new MyClass();
actual.field1 = "ASD";
expect({ field1: "ASD" }).toEqual(actual); // fails

The output of the unit test failure will not yield a clue about what is mismatched.

  1. In unit tests I can be selective about what browsers I support

Finally, the solution proposed at http://typescript.codeplex.com/workitem/334 does not support inline json-style declaration. For example, the following does not compile:

var o = { 
  m: MyClass: { Field1:"ASD" }
};
10

I'd be more inclined to do it this way, using (optionally) automatic properties and defaults. You haven't suggested that the two fields are part of a data structure, so that's why I chose this way.

You could have the properties on the class and then assign them the usual way. And obviously they may or may not be required, so that's something else too. It's just that this is such nice syntactic sugar.

class MyClass{
    constructor(public Field1:string = "", public Field2:string = "")
    {
        // other constructor stuff
    }
}

var myClass = new MyClass("ASD", "QWE");
alert(myClass.Field1); // voila! statement completion on these properties
  • 3
    I asked about field initializers... You describe constructors... – Nickon Jan 9 '13 at 10:26
  • 6
    My deepest apologies. But you didn't actually "ask about field initializers", so it's natural to assume that you might be interested in alternative ways of newing up a class in TS. You might give a tiny bit more information in your question if you are so ready to downvote. – Ralph Lavelle Jan 9 '13 at 22:56
  • +1 constructor is the way to go where possible; but in cases where you have a lot of fields and want to only initialise some of them, I think my answer makes things easier. – Meirion Hughes Jun 8 '16 at 8:27
  • 1
    If you have many fields, initializing an object like this would be pretty unwieldy as you would be passing the constructor a wall of nameless values. That isn't to say this method has no merit; it would be best used for simple objects with few fields. Most publications say that around four or five parameters in a member's signature is the upper limit. Just pointing this out because I found a link to this solution on someone's blog while searching for TS initializers. I have objects with 20+ fields that need to be initialized for unit tests. – Dustin Cleveland Oct 8 '17 at 2:35
2

I wanted a solution that would have the following:

  • All the data objects are required and must be filled by the constructor.
  • No need to provide defaults.
  • Can use functions inside the class.

Here is the way that I do it:

export class Person {
  id!: number;
  firstName!: string;
  lastName!: string;

  getFullName() {
    return `${this.firstName} ${this.lastName}`;
  }

  constructor(data: OnlyData<Person>) {
    Object.assign(this, data);
  }
}

const person = new Person({ id: 5, firstName: "John", lastName: "Doe" });
person.getFullName();

All the properties in the constructor are mandatory and may not be omitted without a compiler error.

It is dependant on the OnlyData that filters out getFullName() out of the required properties and it is defined like so:

// based on : https://medium.com/dailyjs/typescript-create-a-condition-based-subset-types-9d902cea5b8c
type FilterFlags<Base, Condition> = { [Key in keyof Base]: Base[Key] extends Condition ? never : Key };
type AllowedNames<Base, Condition> = FilterFlags<Base, Condition>[keyof Base];
type SubType<Base, Condition> = Pick<Base, AllowedNames<Base, Condition>>;
type OnlyData<T> = SubType<T, (_: any) => any>;

Current limitations of this way:

  • Requires TypeScript 2.8
  • Classes with getters/setters
0

The easiest way to do this is with type casting.

return <MyClass>{ Field1: "ASD", Field2: "QWE" };
  • 7
    Unfortunately, (1) this is not type-casting, but a compile-time type-assertion, (2) the question asked "how to init a new class" (emphasis mine), and this approach will fail to accomplish that. It would be certainly nice if TypeScript had this feature, but unfortunately, that's not the case. – John Weisz Jan 16 '17 at 17:04
  • where is the definition of MyClass? – Jeb50 Aug 5 at 0:01
-1

If you're using an old version of typescript < 2.1 then you can use similar to the following which is basically casting of any to typed object:

const typedProduct = <Product>{
                    code: <string>product.sku
                };

NOTE: Using this method is only good for data models as it will remove all the methods in the object. It's basically casting any object to a typed object

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