As I understand it, --strictFunctionTypes compiler option in Typescript prevents a very common use case of polymorphism from working:

type Handler = (request: Request) => Response

const myHandler: Handler = (request: Request & { extraArg: boolean }) => {
  return !!request.extraArg

Generally, I assume that all compiler options in the strict family have some great benefits, but in this case, all I see is that it prevents a very logical behavior from working.

So what are the cases where this option actually gives some benefits? Which harmful scenarios does it prevent?


2 Answers 2


It's actually very easy to cause a runtime error without strictFunctionTypes.

Let's consider the following example:

type Handler = (request: Request) => Response

const myHandler: Handler = (request: Request & { extraArg: string }) => {
    // extraArg is required so need to check for null
    return null as any;

declare let r: Request; // comes from sowhere 
myHandler(r); // no need to pass in the extraArg not required by the signature

So in the above example, the function signature requires a Request so that is all we have to pass in a Request. But the implementation expects to receive Request & { extraArg: string } in which extraArg is required, and access it without having to do a check (after all if it's required the called should have passed it in).

This is the kind of errors strictFunctionTypes prevents. If an argument in the signature is of a base type, while the implementation expects a derived type, there is no guarantee that the implementation will receive the derived type, as the signature only requires the base type to be passed in


This option fixes what is, in my opinion, a bug in the TypeScript compiler. If it’s not a bug, then it was just a bad design decision and the appearance of a new compiler option proves my point. Let’s start with an example, by default, the next code will be compiled without any problem:

// Focus all your attention on callback signature
// It has date parameter which is a union type
function getCurrentYear(callback: (date: string | number) => void) {
   callback((Math.random() > 0.5) ? '2020' : 2020);

// note that we ignored the fact that in 50% cases our callback returns string type instead of number.
getCurrentYear((date: string) => {
    console.log(date.charAt(0)); // in 50% it is RUNTIME ERROR

So that arrow function passed to getCurrentYear narrows down the type of “date” parameter and TypeScript doesn’t care about it. However, the same trick in a different context with variables even without any strict rule would produce an error:

let x: string | number = (Math.random() > 0.5) ? '2020' : 2020;
const y: number = x; // COMPILE TIME ERROR

This makes much more sense and enabling --strictFunctionTypes will ask a compiler to follow the same behavior in callback functions. That definitely will help you to prevent some bugs in a big project.



  • I'm confused by the example code here given that getCurrentYear doesn't actually use the callback. It looks to me like this was not intended for the purposes of your demonstration.
    – g.delgado
    May 21, 2020 at 14:01
  • @g.delgado You are right. there was a typo. Updated code May 27, 2020 at 3:06

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