I am thinking if it's possible to create a type in TypeScript which allows to safely map the configuration with allowed values.

Given I have following interface which acts as a definition of some configuration node:

interface CategoryDefinition {
    property1: string,
    actions: { [key: string]: string }

And the actual configuration that that implements that interface (which normally could be JSON loaded from file, the example is just to better illustrate the problem):

const definitions: { [key: string]: CategoryDefinition } = {
    key1: {
        property1: "PROPERTY_NAME_1",
        actions: {
            action1: "ACTION_1",
            action2: "ACTION_2"
    key2: {
        property1: "PROPERTY_NAME_2",
        actions: {
            action3: "ACTION_3",
            action4: "ACTION_4"
    // etc...

The configuration is being mapped to objects having additional methods inside, so each action from CategoryDefinition has a property1 from parent, like so:

class ConfigValue {
    private propertyName: string;
    private action: string;

    constructor(category: string, action: string) {
        this.category = category;
        this.action = action;

    methondOne(): void { /* doesn't really matter what's inside */}


I want to keep such mapped objects in the config object / hashmap which has keys of definitions from previous example, and each object has keys from Category.action object nested inside.

export const configMapped /*: TypeImLookingFor */ = {
    key1: {
        action1: ConfigValue("PROPERTY_NAME_1", "ACTION_1"),
        action2: ConfigValue("PROPERTY_NAME_1", "ACTION_2"),
    key2: {
        action3: ConfigValue("PROPERTY_NAME_2", "ACTION_3"),
        action4: ConfigValue("PROPERTY_NAME_2", "ACTION_4"),

What type should I use to be sure that those actions belong to a finite valid set of keys that were defined in previous step? My goal is to use this config in following way:

// valid call, `action1` is valid key for `key1`

// invalid call

Is it even possible in TypeScript? It doesn't have to be complex type, it can be set of different types related to each other.

Thanks for your help and opinion in advantage!

  • If it's JSON from a file you'll have a hard time because the literal string property values will be widened to string which is useless for you; see microsoft/TypeScript#32063. Can you demonstrate how you will load the JSON? I can probably make it work with const definitions = { /*ur config here*/ } as const; but there's no as const for importing JSON modules yet. – jcalz Aug 28 at 14:58
  • It really doesn't matter if it's JSON loaded from file, fetch from URL or an object as I wrote as an example - I can annotate it with proper type right after loading. And this isn't the real problem of the question I posted :) – Kuba T Aug 28 at 15:23

You should be able to use a mapped type to get the behavior you want. Here's how I'd write the mapping:

type MapConfig<T extends Record<keyof T, CategoryDefinition>> =
  { [K in keyof T]: { [P in keyof T[K]['actions']]: ConfigValue } };

And then, for a sufficiently specific definitions, you can write

type MappedDefinitions = MapConfig<typeof definitions>.

That could be the end of the answer, but there's a problem I was alluding to in the comments. You can't do what you were doing here:

const badDefinitions:  { [key: string]: CategoryDefinition } = { /* config */ }

If you explicitly annotate the definitions variable as type { [key: string]: CategoryDefinition }, then you have effectively thrown away any information the compiler could have about the specific keys and subkeys assigned to it. The compiler says "okay, all I know about badDefinitions is that all its properties are CategoryDefinitions."

If you try to apply MapConfig to that, the lost information is still lost, and you get the most general type possible: an unspecified dictionary of unspecified dictionaries of ConfigValues:

type BadMappedDefinitions = MapConfig<typeof badDefinitions>;
/* type BadMappedDefinitions = { [x: string]: { [x: string]: ConfigValue; }; } */

So you need to back up and have the compiler infer the type of definitions. If you are doing it with the toy example in your question, this is no problem, just leave of the annotation:

const definitions = { /* same as yours */ }

or possibly use a const assertion if you end up caring about the exact string values of the properties, (which you don't in this question but might in your real code):

const definitions = { /* same as yours */ } as const;

If you're importing from a static JSON file, you can do that with --resolveJsonModule, but not with as const (see microsoft/TypeScript#32063 for the feature request for that).

If you're loading it via fetch after the code has been compiled, there's nothing you can do; the compiler is long gone by the time your JS runs and unless you know in advance the exact keys and properties that will come in you can't use a type annotation. And if you do know that you might as well be using a static resource instead of fetching anything.

Assuming that this is just inline code and we let the compiler infer the type for definitions, then you can verify that MappedDefinitions evaluates to the desired type:

type MappedDefinitions = {
    key1: {
        action1: ConfigValue;
        action2: ConfigValue;
    key2: {
        action3: ConfigValue;
        action4: ConfigValue;

and use it,

const configMapped: MappedDefinitions = { /* same as yours */ };

giving you the type information needed to allow/disallow property accesses based on key name:

configMapped.key1.action1.methodOne(); // okay
configMapped.key1.action4; // error! action4 does not exist

Okay, hope that helps; good luck!

Playground link

| improve this answer | |
  • Wow, what an awesome answer! I'm extremely impressed :) And thanks for the addition, I knew I was doing something wrong before, that's why I put the "background" part with code examples to make the whole think more simple. I will try to remap that to my project and will let you know if it does the job :) Thanks a lot for your help! – Kuba T Aug 28 at 20:29
  • And sorry I misunderstood you in the comments before, I thought you were talking about totally different thing :) – Kuba T Aug 28 at 20:32

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