I have read this, but it is unclear what would be the difference between 'never' and 'void' type?


In imperative languages, void can be thought of as a type containing a single value. Such languages do not provide a means to construct or consume this value, but a void function can be thought of as returning this trivial value.

In contrast never is a type containing no values, which means that a function with this return type can never return normally at all. This means either throwing an exception or failing to terminate.

  • 7
    Incorrect for void in most imperative languages. In those languages, void is the bottom type, which has no value exactly (e.g. a function argument can't be of void type). The answer confuses bottom type with unit type. – FrankHB Apr 7 '18 at 2:46
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    @FrankHB - If that were true then functions with a void return type would never return at all, which is not necessarily the case. Calling a void function is a statement in these languages, and statements are mapped to expressions of type unit in expression-oriented languages like Rust, F# etc. – Lee Apr 7 '18 at 8:17
  • This is still false for those cases in C, C++, Java... Technically, statement is usually strictly distinct with expression (e.g. expression has no trailing ';' in those C-ish languages), and few languages allow expressions being reduced to statements. A statement formed by a function call expression is an "expression statement", which is forbidden to be a function argument syntactically. OTOH a function call expression can be syntactically correct argument, but disallowed by typechecking against void. It has nothing to do with termination property yet. – FrankHB Apr 10 '18 at 3:13
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    Well, I'd reconstruct my words. The objection is to your first statement. As you have said, "in imperative languages", where the imperative languages should be the object languages (like Typescript here). Your statement suggests the void type is allowed by rules of them as a real unit type, which is not the fact (e.g. in the case I gave). Moreover, treating void as a unit type does not make help at all (if not confusing), as long as you ignore how the implementations actually utilize the type. – FrankHB Apr 11 '18 at 2:29
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    Most of such languages (at least C-ish ones) has void as one of the static type, handled by the typechecker as mandatory. The violation shall be detected by typechecking on the ill-typed expressions. This has nothing to do with termination of called functions in object languages, even if it does make the translation (including typechecking) not terminate normally. The translation should terminate though, due to additional requirements of diagnostics rules. Replacing void with a unit type in the translation to make it always terminate is an implementation detail. – FrankHB Apr 11 '18 at 2:30

To augment Lee's very good answer, another way to think of it is that in a correctly-typed program, a never value cannot be observed.

In addition to functions which never return (or which always throw exceptions), you'll see the never type when a union type has been exhausted of all its possible constituents:

// Example assumes --strictNullChecks
function fn(x: number | string) {
  if (typeof x === 'number') {
    // x: number in this block
  } else if (typeof x === 'string') {
    // x: string in this block
  } else {
    // x: never in this block
    // this block does not run; the value of x cannot be observed
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    "never value cannot be observed": I thought it is the same for 'void' value, no? – ironic Apr 4 '18 at 18:58
  • @ironic In theory they are distinct things. void is unit type, it has only one (quite useless) value. On the other hand never is bottom type. It has no value. The usefulness of this distinction between two seemingly same things is not always obvious and indeed in many situations one is interchangeable with the other for all practical purposes but a very sharp theoretical distinction does exist. – Ashkan Kh. Nazary Feb 3 '19 at 23:56
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    @ironic I can think of a somewhat intuitive example : a function that is called purely for its side effects and is not supposed to return any value (print for example) is of type void. It returns with the only value the type void can hold. You can do absolutely nothing interesting with that value. On the other hand if there is a function that is supposed to never return at all, then the intent is much better reflected by marking it as never rather than void – Ashkan Kh. Nazary Feb 4 '19 at 0:03
  • void isn't a unit type. The return value of a function reference whose return type is void can be anything because it's legal for a non-void-returning function to be aliased by a void-returning type. – Ryan Cavanaugh Feb 4 '19 at 16:13

In short:

void returns void, never never returns.


As Marius Schulz discusses in this article,

  • A function that doesn't explicitly return a value implicitly returns the value undefined in JavaScript. Although we typically say that such a function "doesn't return anything", it returns. We usually ignore the return value in these cases. Such a function is inferred to have a void return type in TypeScript.
  • A function that has a never return type never returns. It doesn't return undefined, either. The function doesn't have a normal completion, which means it throws an error or never finishes running at all.
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    Thanks for this addition, this was the best answer for me – Adrien Lemaire Apr 10 '20 at 3:29

Also, for more a theorical reason, with --strictNullChecks new flag, TypeScript needed a new bottom type (since null and undefined are no more). The type never is such a bottom type and make TypeScript's type system more consistent.


Never is information that this particular part shouldn't be reachable. For example in this code,

function do(): never {
    while (true) {}

you have an infinite loop and we don't want to iterate infinite loop. Simply as that.

But a real question is how can it be useful for us? It might be helpful for instance while creating more advanced types to point what they are not

for example, let's declare our own NonNullable type:

type NonNullable<T> = T extends null | undefined ? never : T;

Here we are checking if T is null or undefined. If it is then we are pointing that it should never happen. Then while using this type:

let value: NonNullable<string>;
value = "Test";
value = null; // error

Void is information that functions with this type don't return any value, but they are reachable and they can be used.


The return type of Promise.reject() is Promise<never>, meaning "it is never resolved".

So if a function returns Promise<never>, I think it will return only errors. On the other hand, Promise<void> might be resolved without value.


The type never means that nothing occurs. It is used when a type guard cannot occur, or in a situation where an exception is always thrown. There is a difference between void and never. A function that has the explicit return type of never won’t allow returning undefined, which is different from a void function which allows returning undefined.

function functionThrow(): never {
throw new Error("This function return never");


For example, in the code below, there is an enum with two items. TypeScript knows that only two cases are possible and the default (else) case cannot occur. This insight of TypeScript is perfect since the function return type only accepts string, and does not accept never. If in the future you add a new item from enum, (for example, a ChoiceC without adding a new case in the switch statement), then the code can call the unhandledChoice function which returns never.

 enum EnumWithChoices {

function functionReturnStringFromEnum(c: EnumWithChoices): string {
    switch (c) {
        case EnumWithChoices.ChoiceA:
            return "A";
        case EnumWithChoices.ChoiceB:
            return "B";
            return unhandledChoiceFromEnum(c);

function unhandledChoiceFromEnum(x: never): never {
    throw new Error("Choice not defined");

In the end, never indicates a state not meant to be. An exception is not expected behavior. An infinite loop in a function is not meant to be sustainable in a system, a condition that is never visited should not exist.

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