An example:

type TA = {a:number,b:number}
type TB = {a:number,c:number,d:number}
const t1:Or<TA,TB> = {a:1,b:1} // want
const t2:Or<TA,TB> = {a:1,c:1,d:1} // want 
const t3:Or<TA,TB> = {a:1,b:1,c:1} // DON'T want 

The desired result is for t1 to be valid because it exactly fits TA, and t2 to be valid because it exactly fits TB, but for t3 to be invalid because it doesn't exactly fit either TA or TB.


type Or<T,U>=T|U

TypeScript actually considers t3 to be valid. TypeScript union type | is also allowing keys objects to be merged and sometimes partial objects.

Placing each type in a single element array as follows:

type T0 = {a:number,b:number}
type T1 = {a:number,c:number,d:number}
type Test=[T0]|[T1]
const t1:Test=[{a:1,b:1,}]  
const t2:Test=[{a:1,c:1,d:1}]  
const t3:Test=[{a:1,b:1,c:1}] // fails as desired

works, but the object under test also has to be placed in a single-element array.

Is there any way to get around that?

  • 2
    Note that the excess properties check only applies object literals, so this would be of some utility, but only some. For instance, although let x: TA = {a:1, b:2, c:3}; will flag up the extra c property, let y = {a:1, b:2, c:3}; let x: TA = y; will not. Feb 26 at 9:19
  • 1
    Excess property checks for unions seem to have been played with a couple of times (see this search), but not implemented. Feb 26 at 9:22
  • 1
    You could use tagged types, but I'm guessing you'd prefer not to. Feb 26 at 9:25
  • 2
    This stackoverflow.com/questions/65805600/… answer might be useful Feb 26 at 9:48
  • 3
    Please don't make more work for other people by vandalizing your posts. By posting on the Stack Exchange network, you've granted a non-revocable right, under the CC BY-SA 4.0 license, for Stack Exchange to distribute that content (i.e. regardless of your future choices). By Stack Exchange policy, the non-vandalized version of the post is the one which is distributed. Thus, any vandalism will be reverted. If you want to know more about deleting a post please see: How does deleting work? Feb 27 at 0:55

The Why

In TypeScript, | is not an operator*, it denotes that the type is a union of lefthand and righthand-side types. This is important to understand if you are to grasp why {a:number,b:number} | {a:number,c:number,d:number} allows {a:number,b:number,c:number}.

When you declare a union, you tell the compiler that a type assignable to the union should be assignable to at least one member of it. With this in mind, let's check the {a:number,b:number,c:number} type from this point of view.

The lefthand side member of the union is {a:number,b:number}, which means that types assignable to it must have at least 2 properties of type number: a and b (there is a notion of excess property checks for object literals, but, as already mentioned by T.J. Crowder, this is inapplicable for unions). From the handbook**:

the compiler only checks that at least the ones required are present and match the types required

Thus, since {a:number,b:number,c:number} is assignable to {a:number,b:number} no more checks are needed - the type satisfies at least one requirement of the union. Btw, this behavior is perfectly in line with the truth table of the logical OR, which is analogous to what a union is.

Your attempt to resolve this by wrapping the types into tuples relies on naked vs. wrapped type parameter behavior. Because you wrapped the types in tuples, the compiler compares tuples of one element to each other. Obviously, the third tuple is not the same as the first and the second one, which gives you the desired result.

The What

What you actually want is the behavior exhibited by logical XOR: one of, but not both. Apart from using tagged types (mentioned by T.J. Crowder), one can define a utility transforming a pair of types into a union of "all props from A that are present in both, but not in A alone" types:

type XOR<A,B> = ({ [ P in keyof A ] ?: P extends keyof B ? A[P] : never } & B) | ({ [ P in keyof B ] ?: P extends keyof A ? B[P] : never } & A);

And here is how it would work (the trade-off of the utility is that the excess property is leaked to intellisense, but one is immediately disallowed to specify it due to never):

const t0:XOR<TA,TB> = {a:1} //property 'b' is missing
const t1:XOR<TA,TB> = {a:1,b:1} // OK
const t2:XOR<TA,TB> = {a:1,c:1,d:1} // OK 
const t3:XOR<TA,TB> = {a:1,b:1,c:1} // types of property 'c' are incompatible


* The notion of | being an operator was present in the first revision and was later edited out

** It has to be noted that this does not mean all checks shortcircuit when a match is found. In this case, all members of the union are object literals themselves, so the constraint on known properties still applies to each, leading to the TS2322 error if an unknown property is present during assignment:

const t4:XOR<TA,TB> = {a:1,b:1,c:1, g:3} //Object literal may only specify known properties
  • 1
    Your quote: "the compiler only checks that at least the ones required are present and match the types required". That's for types being passed to a function, and in that case ANY extra properties are allowed. For literal assignments (further down on the same page in the handbook) NO extra properties are allowed. What the union permits is neither one nor the other of those definitions, but appears to be a hybrid: one of union operands must satisfied by a subset of the properties, and individual additional properties are allowed if they exist in any operand. (Not described in handbook). Feb 26 at 17:40
  • @CraigHicks - well, yes, you are correct, but I only wanted to emphasize that since at least one member matches, no excess property check is performed to ensure the type does not contain properties from other union members. At the same time, both members are object literals, so they cannot specify extra properties by themselves (not because they are part of the union). Does not mean it is a special case, though. Re: quote - I would say it is about interfaces, not function arguments. In any case, the statement does look like no other check is performed, so this part should be improved. Feb 26 at 18:47
  • I agree with everything you said, and it has been a modus operandi for me from the start - not sure why you though I needed a reminder on SO dupe system, to be frank. That said, I also feel that it may be beneficial to give an asker a thorough explanation of what their situation is all about (not necessarily referring to this Q) and then point to canonical/dupe Feb 27 at 10:41
  • 1
    @OlegValter - Well, the reason is self-evident -- you posted an answer here instead of there. But whatever, these things are open to interpretation, it's always good to help people, etc. (I have serious doubts about SO's system anyway. :-) ) Happy coding! Feb 27 at 10:52
  • @T.J.Crowder - would've posted there (or probably not - since it turns out that I reached the same technique as others several years before me) if I knew they are dupe targets in the first place when answering :) Q&A entropy rate on SO is horrifying. Was simply surprised to see the comment - thanks, happy coding to you too! Feb 27 at 11:05

Not the answer you're looking for? Browse other questions tagged or ask your own question.