So let's say you call your function as follows:
let node = createTreeItem<TreeItem>()
All good, right? The return type T is TreeItem, and the object your generic function is hardcoded to return does in fact have a type that qualifies it as a TreeItem:
{ id: string; children: never[]; }
But the point of giving your function a type parameter is to allow it to be called with other types of T, as long as they extend TreeItem. So the following should be a legal call:
export interface BidiTreeItem {
id: string;
children: this[];
parent: this;
collapsed?: boolean;
}
let node = createTreeItem<BidiTreeItem>()
The call is legal, since BidiTreeItem satisfies the constraint T extends TreeItem. The return type of this call, as declared in your function definition, is BidiTreeItem, but what your function returns is NOT a BidiTreeItem.
If you reread the error message again but with the above example in mind, it will now make sense to you. But just in case, below I will translate each piece of the error message. Note that the first sentence is the conclusion, so it will go last in this table:
| this part of the error message... |
means this (using above example)... |
'{ id: string; children: never[]; }' is assignable to the constraint of type 'T' |
'{ id: string; children: never[]; }' is consistent with the constraint T extends TreeItem |
but 'T' could be instantiated with a different subtype of constraint 'TreeItem'. |
but T could be instantiated with a different subtype of TreeItem, for example BidiTreeItem. |
|
|
TS2322: Type '{ id: string; children: never[]; }' is not assignable to type 'T'. |
The object your function is returning is not guaranteed to be assignable to type T, because T could be some other subtype such as BidiTreeItem . |
