This feature was in Spec#. They defaulted to nullable references and used ! to indicate non-nullables. This was because they wanted backward compatibility.
In my dream language (of which I'd probably be the only user!) I'd make the same choice as you, non-nullable by default.
I would also make it illegal to use the . operator on a nullable reference (or anything else that would dereference it). How would you use them? You'd have to convert them to non-nullables first. How would you do this? By testing them for null.
In Java and C#, the
if statement can only accept a
bool test expression. I'd extend it to accept the name of a nullable reference variable:
// in this scope, myObj is non-nullable, so can be used
This special syntax would be unsurprising to C/C++ programmers. I'd prefer a special syntax like this to make it clear that we are doing a check that modifies the type of the name
myObj within the truth-branch.
I'd add a further bit of sugar:
if (SomeMethodReturningANullable() into anotherObj)
// anotherObj is non-nullable, so can be used
This just gives the name
anotherObj to the result of the expression on the left of the
into, so it can be used in the scope where it is valid.
I'd do the same kind of thing for the
string message = GetMessage() into m ? m : "No message available";
string message is non-nullable, but so are the two possible results of the test above, so the assignment is value.
And then maybe a bit of sugar for the presumably common case of substituting a value for null:
string message = GetMessage() or "No message available";
or would only be validly applied to a nullable type on the left side, and a non-nullable on the right side.
(I'd also have a built-in notion of ownership for instance fields; the compiler would generate the
IDisposable.Dispose method automatically, and the
~Destructor syntax would be used to augment
Dispose, exactly as in C++/CLI.)
Spec# had another syntactic extension related to non-nullables, due to the problem of ensuring that non-nullables had been initialized correctly during construction:
private string! _nonNullableExampleField;
public SpecSharpExampleClass(string s)
In other words, you have to initialize fields in the same way as you'd call other constructors with
this - unless of course you initialize them directly next to the field declaration.