Here's what I have in fruit.ts

export type Fruit = "Orange" | "Apple" | "Banana"

Now I'm importing fruit.ts in another typescript file. Here's what I have

myString:string = "Banana";

myFruit:Fruit = myString;

When I do

myFruit = myString;

I get an error:

Type 'string' is not assignable to type '"Orange" | "Apple" | "Banana"'

How can I assign a string to a variable of custom type Fruit?

  • 1
    Are you quite sure about the use of single and double quotes in export type Fruit? – Weather Vane Jun 22 '16 at 21:32
  • 1
    @WeatherVane Just checked my Fruit.ts. I have single quotes in there for export type Fruit = 'Orange' || 'Apple" || 'Banana". Thank you – user6123723 Jun 22 '16 at 21:34
  • Still looks like some double quotes to me... – Weather Vane Jun 22 '16 at 21:35

You'll need to cast it:

export type Fruit = "Orange" | "Apple" | "Banana";
let myString: string = "Banana";

let myFruit: Fruit = myString as Fruit;

Also notice that when using string literals you need to use only one |


As mentioned in the other answer by @Simon_Weaver, it's now possible to assert it to const:

let fruit = "Banana" as const;
  • 6
    nice one :) in most cases const myFruit: Fruit = "Banana" would do. – Jacka Aug 4 '17 at 8:16
  • Can I do its reverse? I mean something like this let myFruit:Fruit = "Apple" let something:string = myFruit as string It is giving me error: Conversion of type 'Fruit' to type 'string' may be a mistake. – Siraj Alam Dec 17 '18 at 10:19
  • @Siraj It should work just fine, you don't even need the as string part. I've tried your code in playground and there are no errors. – Nitzan Tomer Dec 17 '18 at 10:25
  • @NitzanTomer stackoverflow.com/questions/53813188/… Please look at my detailed question – Siraj Alam Dec 17 '18 at 10:26
  • But now if I typo const myString: string = 'Bananaaa'; I do not get compilation errors because of the casting... is there no way to do this while type checking the string? – usagidon Sep 25 at 13:34

Typescript 3.4 introduces the new 'const' assertion

You can now prevent literal types (eg. 'orange' or 'red') being 'widened' to type string with a so-called const assertion.

You will be able to do:

let fruit = 'orange' as const;

And then it won't turn itself into a string anymore - which is the root of the error in the question.

  • For people who, like me, aren't on 3.4 yet. <const> can be replaced by any, but is of course not as clean as this solution. – Pieter De Bie May 15 at 7:46
  • 1
    Prefered syntax would be let fruit = 'orange' as const; when following no-angle-bracket-type-assertion rule – ThunderDev Jun 12 at 9:55
  • This is the correct answer for modern Typescript. It prevents unneeded import of types and lets structural typing do its thing correctly. – James McMahon Sep 19 at 16:59

When you do this:

export type Fruit = "Orange" | "Apple" | "Banana"

...you are creating a type called Fruit that can only contain the literals "Orange", "Apple" and "Banana". This type extends String, hence it can be assigned to String. However, String does NOT extend "Orange" | "Apple" | "Banana", so it cannot be assigned to it. String is less specific. It can be any string.

When you do this:

export type Fruit = "Orange" | "Apple" | "Banana"

const myString = "Banana";

const myFruit: Fruit = myString;

...it works. Why? Because the actual type of myString in this example is "Banana". Yes, "Banana" is the type. It is extends String so it's assignable to String. Additionally, a type extends a Union Type when it extends any of its components. In this case, "Banana", the type, extends "Orange" | "Apple" | "Banana" because it extends one of its components. Hence, "Banana" is assignable to "Orange" | "Apple" | "Banana" or Fruit.

  • 2
    It's funny you can actually put <'Banana'> 'Banana' and that will 'cast' a "Banana" string to "Banana" the type !!! – Simon_Weaver Dec 15 '18 at 1:56
  • But now you can do <const> 'Banana' which is better :-) – Simon_Weaver Jul 18 at 7:57

I see this is a little old, but there might be a better solution here.

When you want a string, but you want the string to only match certain values, you can use enums.

For example:

enum Fruit {
    Orange = "Orange",
    Apple  = "Apple",
    Banana = "Banana"

let myFruit: Fruit = Fruit.Banana;

Now you'll know that no matter what, myFruit will always be the string "Banana" (Or whatever other enumerable value you choose). This is useful for many things, whether it be grouping similar values like this, or mapping user-friendly values to machine-friendly values, all while enforcing and restricting the values the compiler will allow.

  • 1
    It's funny because I get this issue when trying to get away from doing this. It's increasingly driving me nuts. I'm trying to be 'javascripty' and use magic strings constrained to a type (instead of an enumeration) and it seems to backfire more and more and ripple through my whole application with this error :-/ – Simon_Weaver Dec 15 '18 at 1:54

There are several situations that will give you this particular error. In the case of the OP there was a value defined explicitly as a string. So I have to assume that maybe this came from a dropdown, or web service or raw JSON string.

In that case a simple cast <Fruit> fruitString or fruitString as Fruit is the only solution (see other answers). You wouldn't ever be able to improve on this at compile time. [Edit: See my other answer about <const>] !

However it's very easy to run into this same error when using constants in your code that aren't ever intended to be of type string. My answer focuses on that second scenario:

First of all: Why are 'magic' string constants often better than an enum?

  • I like the way a string constant looks vs. an enum - it's compact and 'javascripty'
  • Makes more sense if the component you're using already uses string constants.
  • Having to import an 'enum type' just to get an enumeration value can be troublesome in itself
  • Whatever I do I want it to be compile safe so if I add remove a valid value from the union type, or mistype it then it MUST give a compile error.

Fortunately when you define:

export type FieldErrorType = 'none' | 'missing' | 'invalid'

...you're actually defining a union of types where 'missing' is actually a type!

I often run into the 'not assignable' error if I have a string like 'banana' in my typescript and the compiler thinks I meant it as a string, whereas I really wanted it to be of type banana. How smart the compiler is able to be will depend on the structure of your code.

Here's an example of when I got this error today:

// this gives me the error 'string is not assignable to type FieldErrorType'
fieldErrors: [ { fieldName: 'number', error: 'invalid' } ]

As soon as I found out that 'invalid' or 'banana' could be either a type or a string I realized I could just assert a string into that type. Essentially cast it to itself, and tell the compiler no I don't want this to be a string!

// so this gives no error, and I don't need to import the union type too
fieldErrors: [ { fieldName: 'number', error: <'invalid'> 'invalid' } ]

So what's wrong with just 'casting' to FieldErrorType (or Fruit)

// why not do this?
fieldErrors: [ { fieldName: 'number', error: <FieldErrorType> 'invalid' } ]

It's not compile time safe:

 <FieldErrorType> 'invalidddd';  // COMPILER ALLOWS THIS - NOT GOOD!
 <FieldErrorType> 'dog';         // COMPILER ALLOWS THIS - NOT GOOD!
 'dog' as FieldErrorType;        // COMPILER ALLOWS THIS - NOT GOOD!

Why? This is typescript so <FieldErrorType> is an assertion and you are telling the compiler a dog is a FieldErrorType! And the compiler will allow it!

BUT if you do the following, then the compiler will convert the string to a type

 <'invalid'> 'invalid';     // THIS IS OK  - GOOD
 <'banana'> 'banana';       // THIS IS OK  - GOOD
 <'invalid'> 'invalidddd';  // ERROR       - GOOD
 <'dog'> 'dog';             // ERROR       - GOOD

Just watch out for stupid typos like this:


Another way to solve the problem is by casting the parent object:

My definitions were as follows:

export type FieldName = 'number' | 'expirationDate' | 'cvv'; export type FieldError = 'none' | 'missing' | 'invalid'; export type FieldErrorType = { field: FieldName, error: FieldError };

Let's say we get an error with this (the string not assignable error):

  fieldErrors: [ { field: 'number', error: 'invalid' } ]

We can 'assert' the whole object as a FieldErrorType like this:

  fieldErrors: [ <FieldErrorType> { field: 'number', error: 'invalid' } ]

Then we avoid having to do <'invalid'> 'invalid'.

But what about typos? Doesn't <FieldErrorType> just assert whatever is on the right to be of that type. Not in this case - fortunately the compiler WILL complain if you do this, because it's clever enough to know it's impossible:

  fieldErrors: [ <FieldErrorType> { field: 'number', error: 'dog' } ]
  • There may be subtleties with strict mode. Will update answer after confirming. – Simon_Weaver Jan 25 at 18:10

If you're casting to a dropdownvalue[] when mocking data for example, compose it as an array of objects with value and display properties.


[{'value': 'test1', 'display1': 'test display'},{'value': 'test2', 'display': 'test display2'},]

I was facing the same issue, I made below changes and the issue got resolved.

Open watchQueryOptions.d.ts file


Change the query type any instead of DocumentNode, Same for mutation


export interface QueryBaseOptions<TVariables = OperationVariables> {
    query: **DocumentNode**;


export interface QueryBaseOptions<TVariables = OperationVariables> {
    query: **any**;

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