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According to Typescript void is a supertype of the null and undefined types. So, a function with void type could return null or undefined.

Just the problem is when I try to compile using the typeof val !== 'undefined' and val !== undefined. The second is failing but the first one is working.

According to the documentation typeof null should be object and typeof undefined is undefined (see here)

So, which is the reason because the first method is compiling and the second one is failing? It doesn't have a sense for me.

interface IFace {
  data: string;
}

function sample(): void | IFace { // void could be null or undefined
  return null;
}

let value = sample();

if( value !== undefined )
    console.log(value.data); // It fails because value could be null

if( typeof value !== 'undefined' )
    console.log(value.data); // Why is it working? typeof value could be object (because null)

See DEMO

It seems typeof value !== 'undefined' is interpreted as an object (because typeof null and typeof IFace are objects). But null objects don't have data field there, so should it be failing?

UPDATED According to TypeScript documentation with strictNullChecks option to true could be solved this problem:

In strict null checking mode, the null and undefined values are not in the domain of every type and are only assignable to themselves and any (the one exception being that undefined is also assignable to void). So, whereas T and T | undefined are considered synonymous in regular type checking mode (because undefined is considered a subtype of any T), they are different types in strict type checking mode, and only T | undefined permits undefined values. The same is true for the relationship of T to T | null.

But I don't know why typeof is working with strictNullChecks to false. According to this TypeScript issue the reason because typeof is working it seems to be that the compiler doesn't special-case typeof in an expression for the purpose of type checking.

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  • I'm not sure I get your question but note that x == null is true when x is either null or undefined – Pointy Mar 26 '19 at 15:19
  • @Pointy Yes, x is either null or undefined so if I check with typeof a variable as undefined, that variable could be null and maybe it is not an object. – SnakeDrak Mar 26 '19 at 15:29
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    @Pointy the question is why does TS now show an error about the second check. For the first one it correctly says that value could be null ( when !== undefined), and thus accessing the data field will lead to an error. The second check, however, succeeds, and TS is apparently not concerned that typeof value !== 'undefined' still doesn't cover the value null. Even more amusingly, if you change that check to typeof value !== 'object' TS correctly tells you that value would be a void type and still doesn't have data. – VLAZ Mar 26 '19 at 15:29
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    It seems typeof value !== 'undefined' is interpreted as object (because typeof null and typeof IFace are objects). But null objects don't have data field :s – SnakeDrak Mar 26 '19 at 15:33
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    Huh, being explicit about null seems to be completely ignored by TS value -> null | IFace is allowed to be dereferenced freely. – VLAZ Mar 26 '19 at 15:50
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As mentioned in the documentation.

Union types can be a bit tricky here, but it just takes a bit of intuition to get used to. If a value has the type A | B, we only know for certain that it has members that both A and B have. In this example, Bird has a member named fly. We can’t be sure whether a variable typed as Bird | Fish has a fly method. If the variable is really a Fish at runtime, then calling pet.fly() will fail.

In your example void does not have property 'data'. So it is not recognized in the following:

if( value !== undefined ) 
    console.log(value.data);

You can also update it as follows to make it work:

if( (<IFace>value).data !== undefined )
    console.log((<IFace>value).data);

Then there is something called as Type Guards that come into the picture. And typescript recognizes typeof as one of the type guards.

These typeof type guards are recognized in two different forms: typeof v === "typename" and typeof v !== "typename", where "typename" must be "number", "string", "boolean", or "symbol". While TypeScript won’t stop you from comparing to other strings, the language won’t recognize those expressions as type guards.

Here is link for more information.

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  • I know the Type Guards. If you just check the data property, value could be undefined and you will have problems. Type Guards are useful on some occasions but in the end, you need to think that you are forcing the type for the variable. – SnakeDrak Mar 27 '19 at 11:56

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