Another reason why I don't like the forced dichotomy is that I'm often under the impression that for those languages which force you the value types (struct and the like) are implicitly assumed not to have invariants.
If you want you can make value types work as reference types (just write a Box<T> wrapper that is a reference type), but it's a lot harder to write a generic reference-to-value adapter.
You're forced a default ctor that initializes everything to null or 0 or whatever is appropriate (a bit annoying). Other than that and value semantics it's the same.
Of course there are types that are not supposed to have value semantics. That's why we have things like T(T const&) = delete; T& operator=(T const&) = delete;.
I don't mind that some things come with reference semantics and others with value semantics, I mind that the dichotomy is forced and that the difference between the two is too pronounced.
Instead of defining different functions to sort an existing Foo and to return a sorted copy of a Foo - as is done in C++ - just define the first one and rely on client code to make copies where it needs to.
@RMartinhoFernandes Since I'm claiming that algorithms should be independent of languages, I don't see how bringing up a particular language can run counter to my claim?
@Maxpm It could be more efficient to have the algorithm produce the copy on its own, rather than have the client make a copy and the algorithm work in-place on that copy.
import std.stdio;
class IntegerContainer
{
public int Integer = 1;
}
void DoubleInteger(IntegerContainer Container)
{
Container.Integer *= 2;
}
void main()
{
IntegerContainer Container = new IntegerContainer; // Internal integer defaults to one.
DoubleInteger(Container); // Int...