168

Is there such a thing as public static constants in TypeScript? I have a class that looks like:

export class Library {
  public static BOOK_SHELF_NONE: string = "None";
  public static BOOK_SHELF_FULL: string = "Full";
}

In that class, I can do Library.BOOK_SHELF_NONE and the tsc doesn't complain. But if I try to use the class Library elsewhere, and try to do the same thing, it doesn't recognize it.

  • 1
    Can you show an example of using that class elsewhere? – raina77ow Apr 10 '14 at 15:12
  • @raina77ow As I started adding in the code for how I use it, I realized that it's because of namespacing that the tsc complained. If you want to put that in as an answer I can mark it as complete since you helped me find it. I don't really like answering my own questions. – Crystal Apr 10 '14 at 15:19
  • Ah, that was the cause. ) Glad I helped; I'll add the answer showing the results of compilation. – raina77ow Apr 10 '14 at 15:20
  • I'd also add readonly to make sure TypeScript will warn you if you ever tried to reassign those fields: public static readonly BOOK_SHELF_FULL – Jan Molak Feb 18 at 12:40
24

Here's what's this TS snippet compiled into (via TS Playground):

define(["require", "exports"], function(require, exports) {
    var Library = (function () {
        function Library() {
        }
        Library.BOOK_SHELF_NONE = "None";
        Library.BOOK_SHELF_FULL = "Full";
        return Library;
    })();
    exports.Library = Library;
});

As you see, both properties defined as public static are simply attached to the exported function (as its properties); therefore they should be accessible as long as you properly access the function itself.

391

If you did want something that behaved more like a static constant value in modern browsers (in that it can't be changed by other code), you could add a get only accessor to the Library class (this will only work for ES5+ browsers and NodeJS):

export class Library {
    public static get BOOK_SHELF_NONE():string { return "None"; }
    public static get BOOK_SHELF_FULL():string { return "Full"; }   
}

var x = Library.BOOK_SHELF_NONE;
console.log(x);
Library.BOOK_SHELF_NONE = "Not Full";
x = Library.BOOK_SHELF_NONE;
console.log(x);

If you run it, you'll see how the attempt to set the BOOK_SHELF_NONE property to a new value doesn't work.

2.0

In TypeScript 2.0, you can use readonly to achieve very similar results:

export class Library {
    public static readonly BOOK_SHELF_NONE = "None";
    public static readonly BOOK_SHELF_FULL = "Full";
}

The syntax is a bit simpler and more obvious. However, the compiler prevents changes rather than the run time (unlike in the first example, where the change would not be allowed at all as demonstrated).

  • 22
    this is such a good answer. my coding is now happier because of it. – gonzofish Jul 6 '15 at 20:43
  • 6
    This solution has a drawback though - you cannot use these dynamic values as type constraint, for instance: type MyType: Library.BOOK_SHELF_NONE | Library.BOOK_SHELF_FULL; – Kostiantyn Kolesnichenko Aug 15 '16 at 16:44
  • 2
    @AdrianMoisa - please ask a new question. – WiredPrairie Sep 6 '16 at 17:06
  • 2
    @hex-please ask a new question. – WiredPrairie Oct 3 '16 at 10:32
  • 1
    What about enums ? – curious95 Apr 7 '18 at 0:01
40

You can do it using namespaces, like this:

export namespace Library {
    export const BOOK_SHELF_NONE: string = 'NONE';
}

Then you can import it from anywhere else:

import {Library} from './Library';
console.log(Library.BOOK_SHELF_NONE);

If you need a class there as well include it inside the namespace: export class Book {...}

  • 2
    If i'm using the constants in the initialization of an object, they don't seem to be recognized. For example: { type: Library.BOOK_SHELF_NONE } seems to think that the namespace has no export called BOOK_SHELF_NONE. However, if I just set a local variable with the reference, it resolves it fine. TS 2.2 – crush Apr 12 '17 at 20:00
13

Meanwhile this can be solved through a decorator in combination with Object.freeze or Object.defineProperty, I'm using this, it's a little bit prettier than using tons of getters. You can copy/paste this directly TS Playground to see it in action. - There are two options


Make individual fields "final"

The following decorator converts both, annotated static and non-static fields to "getter-only-properties".

Note: If an instance-variable with no initial value is annotated @final, then the first assigned value (no matter when) will be the final one.

// example
class MyClass {
    @final
    public finalProp: string = "You shall not change me!";

    @final
    public static FINAL_FIELD: number = 75;

    public static NON_FINAL: string = "I am not final."
}

var myInstance: MyClass = new MyClass();
myInstance.finalProp = "Was I changed?";
MyClass.FINAL_FIELD = 123;
MyClass.NON_FINAL = "I was changed.";

console.log(myInstance.finalProp);  // => You shall not change me!
console.log(MyClass.FINAL_FIELD);   // => 75
console.log(MyClass.NON_FINAL);     // => I was changed.

The Decorator: Make sure you include this in your code!

/**
* Turns static and non-static fields into getter-only, and therefor renders them "final".
* To use simply annotate the static or non-static field with: @final
*/
function final(target: any, propertyKey: string) {
    const value: any = target[propertyKey];
    // if it currently has no value, then wait for the first setter-call
    // usually the case with non-static fields
    if (!value) {
        Object.defineProperty(target, propertyKey, {
            set: function (value: any) {
                Object.defineProperty(this, propertyKey, {
                    get: function () {
                        return value;
                    },
                    enumerable: true,
                    configurable: false
                });
            },
            enumerable: true,
            configurable: true
        });
    } else { // else, set it immediatly
        Object.defineProperty(target, propertyKey, {
            get: function () {
                return value;
            },
            enumerable: true
        });
    }
}

As an alternative to the decorator above, there would also be a strict version of this, which would even throw an Error when someone tried to assign some value to the field with "use strict"; being set. (This is only the static part though)

/**
 * Turns static fields into getter-only, and therefor renders them "final".
 * Also throws an error in strict mode if the value is tried to be touched.
 * To use simply annotate the static field with: @strictFinal
 */
function strictFinal(target: any, propertyKey: string) {
    Object.defineProperty(target, propertyKey, {
        value: target[propertyKey],
        writable: false,
        enumerable: true
    });
}

Make every static field "final"

Possible Downside: This will only work for ALL statics of that class or for none, but cannot be applied to specific statics.

/**
* Freezes the annotated class, making every static 'final'.
* Usage:
* @StaticsFinal
* class MyClass {
*      public static SOME_STATIC: string = "SOME_STATIC";
*      //...
* }
*/
function StaticsFinal(target: any) {
    Object.freeze(target);
}
// Usage here
@StaticsFinal
class FreezeMe {
    public static FROZEN_STATIC: string = "I am frozen";
}

class EditMyStuff {
    public static NON_FROZEN_STATIC: string = "I am frozen";
}

// Test here
FreezeMe.FROZEN_STATIC = "I am not frozen.";
EditMyStuff.NON_FROZEN_STATIC = "I am not frozen.";

console.log(FreezeMe.FROZEN_STATIC); // => "I am frozen."
console.log(EditMyStuff.NON_FROZEN_STATIC); // => "I am not frozen."
  • I think this is the cleanest approach. Thanks! – Thibs Jun 16 '16 at 19:27
  • One small addition: if (!value) should be if (value === undefined) to let static values be "" or 0. – Leon Adler Apr 27 '17 at 14:15
6

Thank you WiredPrairie!

Just to expand on your answer a bit, here is a complete example of defining a constants class.

// CYConstants.ts

class CYConstants {
    public static get NOT_FOUND(): number    { return -1; }
    public static get EMPTY_STRING(): string { return ""; }
}

export = CYConstants;

To use

// main.ts

import CYConstants = require("./CYConstants");

console.log(CYConstants.NOT_FOUND);    // Prints -1
console.log(CYConstants.EMPTY_STRING); // Prints "" (Nothing!)
2

The following solution also works as of TS 1.7.5.

// Constancts.ts    
export const kNotFoundInArray = -1;
export const AppConnectionError = new Error("The application was unable to connect!");
export const ReallySafeExtensions = ["exe", "virus", "1337h4x"];

To use:

// Main.ts    
import {ReallySafeExtensions, kNotFoundInArray} from "./Constants";

if (ReallySafeExtensions.indexOf("png") === kNotFoundInArray) {
    console.log("PNG's are really unsafe!!!");
}
  • This is really cool, but if you are using it to define more than a couple values (like you might in an Enum in other languages), then you are stuck importing all of the values individually. This could get cumbersome really quick! – Corey Larson May 26 '16 at 21:59
  • 100% agreed. Might be able to namespace them but i haven't looked into it. Maybe you could import {ArrayConstants} from "./Constants.ts" and then do something like ArrayConstants.NotFound. Have to play with it more when i get time. – Andrew May 30 '16 at 13:29
  • Yeah, you can use namespaces to avoid using values individually, read my own answer here. – Ivan Castellanos Aug 27 '16 at 2:28
0

Just simply 'export' variable and 'import' in your class

export var GOOGLE_API_URL = 'https://www.googleapis.com/admin/directory/v1';

// default err string message
export var errStringMsg = 'Something went wrong';

Now use it as,

import appConstants = require('../core/AppSettings');
console.log(appConstants.errStringMsg);
console.log(appConstants.GOOGLE_API_URL);
0

You can use a getter, so that your property is going to be reading only. Example:

export class MyClass {
    private _LEVELS = {
        level1: "level1",
        level2: "level2",
        level2: "level2"
    };

    public get STATUSES() {
        return this._LEVELS;
    }
}

Used in another class:

import { MyClass } from "myclasspath";
class AnotherClass {
    private myClass = new MyClass();

    tryLevel() {
       console.log(this.myClass.STATUSES.level1);
    }
}
  • This makes what is expected to be a constant writable: let a = new MyClass(); a.STATUSES.level1 = 'not level1'; let plainWrong = new MyClass().STATUSES.level1; // 'not level1' – Leon Adler Apr 27 '17 at 14:21

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