Is there a way in TypeScript to allow one file to access methods in another file, but not make them globally accessible?

The use case for this is having a large class with some private methods that are dangerous and shouldn't be publicly exposed to be potentially used anywhere in the codebase. I want to be able to write the methods that access them in another file to allow logically grouping them without them all being in a single giant class.

Ideally, something like Java's package scope would let me declare that the two files can access each others' dangerous methods but not anyone else. Is there any TypeScript language feature that allows this?


Class A has methods d1 through d100 that are all dangerous and shouldn't be globally accessible.

Class B has methods s1 through s100 that are safe for public consumption within the project. Each s method calls through to a d method after doing some safety checking. Class B needs to have access to all of the d methods.

Class C wants to call any of the s methods and should be able to, but shouldn't be able to call any of the d methods.

However, as I understand Typescript, if I export any of the d methods so that B can call them, they are then accessible to C as well. If this were Java, I would put A and B in the same package and make the d methods package scope.

There doesn't seem to be any parallel to this in TypeScript, but is there anything that simulates the goals of 1) being able to break the functionality in to separate files but 2) limiting who can call the methods?

(Yes, I know once it's compiled down to Javascript all bets are off. The goal is to just use TypeScript as a static checker to verify the contracts at compile time.)

  • Why not put class A inside the same file as class B, and don't export A?
    – Rob
    May 15, 2017 at 5:24
  • 2
    @Rob That's the way it is right now. Both classes are becoming large the simplest refactor would be to just separate them in to two files.
    – bsberry
    May 15, 2017 at 9:45
  • Ugly partial workaround, use /** @internal **/ to hide things in .d.ts files. It seems like there isn't any good way to do this yet, though there is an open proposal
    – Gerrit0
    May 17, 2017 at 15:09
  • One style I've seen in other languages is to put the private stuff in an "internal" module with a name like mypkg/internal or mypkg/private. While the internal module remains technically public, it's a pretty clear "don't import this!" signal for library clients May 18, 2017 at 0:09
  • if you dont mark a class with export, and declare it inside the module, within the same file as the class that uses it, tsc compiles. place the class in another file and it cant find it.
    – JonathanC
    Jan 1, 2021 at 15:09

4 Answers 4


There are no direct ways to enforce this in Typescript. In my experience, the best way to solve this sort of problem is through clear documentation and clear naming patterns.

If there is a unskilled or malicious dev, they will have any number of ways to create havoc and compiler limitations will do little to stop them. However, all reasonably skilled and ethical developers should be able to avoid calling internal, dangerous methods.

My recommendation would be to generate some sort of naming convention. All non-API methods/properties/fields that are public due to language limitations should have the same prefix or suffix.

For example, the way that our team works is the following:

  1. All non-API public methods/properties/fields are prefixed with _.
  2. All non-API public classes are suffixed with Internal.
  3. All non-API modules are in an internal folder. Eg- src/models has the models modules that are API. src/models/internal has the models modules that are not API.
  4. All non-API classes have a comment that documents them as non-API.

Also, we have not done this yet, but are considering creating tslint rules to help enforce these rules. We haven't gone too far down this path yet since we haven't had any devs accidentally using non-API, but this is still a possibility.

In my opinion, proper naming convention, proper document, and proper mentorship is enough to solve this problem, which I agree is a limitation of the Typescript language.

  • 2
    I think the main issue is with devs not realizing that they're reaching into places they shouldn't. Perhaps the minimal solution is simply to prefix _ before each externally-accessible identifier that should have restricted scope. That prefix tells devs that they need to double check the intended scope before use.
    – Joe Lapp
    Sep 29, 2017 at 17:04

Using a namespace split across files seems like it would accomplish this nicely:

As with this in MyNamespace.ts file:

namespace MyNamespace {
    export interface Foo {}

And the same namespace plus a reference tag in another file:

/// <reference path="MyNamespace.ts" />
namespace MyNamespace {
    export class Bar implements Foo {}

I would hide the dangerous methods using the approach proposed by Rob: put class A in the same file as class B. Export class B, but don't export class A. This way, class A is only visible for class B. Of course, as an alternative, you could create a giant class instead, but you are right to hesitate about that path...

You should take care though: TypeScript compiles to JavaScript, therefore every bit of unsafe code is available for unwanted usage from a JavaScript perspective.

  • This seems like a straightforward solution, but sometimes code grows out of allowing this to really be a great solution. In my codebase, I had started out like this, but now the file is 2000+ likes long, with two mega classes inside. I'm deciding to split them off into separate files to have better separation. Ideally, I would be able to package scope them, but as discussed, there isn't a great way to do that. Feb 20 at 15:40

There is no Java package scope equivalent in TypeScript, but sometimes it is really needed. This is my solution:

export class Foo {

    private doSomething(): void {
    //do something

interface FooUnlocker {

   doSomething(): void;

const foo: Foo = new Foo();

Advantages - there is need in extra convention, like _doSomething() etc, code is clean and we have compilation check.

Disadvantages - we need to sync Foo and FooUnlocker.

Node, that FooUnlocker is not exported, so it is visible only within module (if ES6 modules are used).

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