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I know the language exists, but I can't put my finger on it.

dynamic scope and static typing?

share|improve this question
Doesn't Fortran have dynamic scoping? At least the older pre-1977 versions? – Jörg W Mittag Dec 5 '10 at 1:26
@JörgWMittag Yes. Actually F77 has shared memory areas which are just areas of memory that you can view as containing whatever types you like. – Marcin Mar 20 '12 at 14:09
It seems to me that you can’t implement (type-safe) dynamic scope without runtime type tagging of values, which is dynamic typing in essence. That’s just my first impression, though. – Jon Purdy Mar 20 '12 at 14:15
@JonPurdy That's not true, but it does mean that you need e.g. to carry the type information with the variable (as with fortran's naming rules), or re-declare your use first, and either trust programmers to declare correctly (as in C, where memory holds whatever the programmer says it does, as far as the compiler is concerned), or constrain each (dynamic) name to always have the same type in the programme. – Marcin Mar 20 '12 at 14:20
Adel, it might help to tell us why you thought of this question. – Marcin Mar 20 '12 at 14:20

We can try to reason about what such a language might look like. Obviously something like this (using a C-like syntax for demonstration purposes) cannot be allowed, or at least not with the obvious meaning:

int x_plus_(int y) {
    return x + y;        // requires that x have type int

int three_plus_(int y) {
    double x = 3.0;
    return x_plus_(y);   // calls x_plus_ when x has type double

So, how to avoid this?

I can think of a few approaches offhand:

  1. Commenters above mention that Fortran pre-'77 had this behavior. That worked because a variable's name determined its type; a function like x_plus_ above would be illegal, because x could never have an integer type. (And likewise one like three_plus_, for that matter, because y would have the same restriction.) Integer variables had to have names beginning with i, j, k, l, m, or n.

  2. Perl uses syntax to distinguish a few broad categories of variables, namely scalars vs. arrays (regular arrays) vs. hashes (associative arrays). Variables belonging to the different categories can have the exact same name, because the syntax distinguishes which one is meant. For example, the expression foo $foo, $foo[0], $foo{'foo'} involves the function foo, the scalar $foo, the array @foo ($foo[0] being the first element of @foo), and the hash %foo ($foo{'foo'} being the value in %foo corresponding to the key 'foo'). Now, to be quite clear, Perl is not statically typed, because there are many different scalar types, and these are types not distinguished syntactically. (In particular: all references are scalars, even references to functions or arrays or hashes. So if you use the syntax to dereference a reference to an array, Perl has to check at runtime to see if the value really is an array-reference.) But this same approach could be used for a bona fide type system, especially if the type system were a very simple one. With that approach, the x_plus_ method would be using an x of type int, and would completely ignore the x declared by three_plus_. (Instead, it would use an x of type int that had to be provided from whatever scope called three_plus_.) This could either require some type annotations not included above, or it could use some form of type inference.

  3. A function's signature could indicate the non-local variables it uses, and their expected types. In the above example, x_plus_ would have the signature "takes one argument of type int; uses a calling-scope x of type int; returns a value of type int". Then, just like how a function that calls x_plus_ would have to pass in an argument of type int, it would also have to provide a variable named x of type int — either by declaring it itself, or by inheriting that part of the type-signature (since calling x_plus_ is equivalent to using an x of type int) and propagating this requirement up to its callers. With this approach, the three_plus_ function above would be illegal, because it would violate the signature of the x_plus_ method it invokes — just the same as if it tried to pass a double as its argument.

  4. The above could just have "undefined behavior"; the compiler wouldn't have to explicitly detect and reject it, but the spec wouldn't impose any particular requirements on how it had to handle it. It would be the responsibility of programmers to ensure that they never invoke a function with incorrectly-typed non-local variables.

Your professor was presumably thinking of #1, since pre-'77 Fortran was an actual real-world language with this property. But the other approaches are interesting to think about. :-)

share|improve this answer
Approach 3 is essentially a pass-by-reference or pass-by-name calling discipline. – Marcin Jan 26 '15 at 17:29
@Marcin: Sorry, I don't see the similarity. Care to elaborate? – ruakh Jan 27 '15 at 2:30
Approach 3 defines the variables that the function must have in its scope, and those variables are stored in another stack frame (or, presumably, globally). That's the exact definition of those calling disciplines (which differ primarily in their implementation). – Marcin Jan 27 '15 at 9:47
@Marcin: Ah. I think I see what you're saying, but I disagree. Pass-by-reference and pass-by-name have to do with how arguments are passed, whereas dynamic scoping has to do with name-lookup for non-arguments. Since approach #3 requires the compiler to track all non-arguments that can be looked up within a given function call, it could be "translated" into a pass-by-X model where those non-arguments are converted into explicit arguments; but that's an implementation detail. A language that offers pass-by-reference or pass-by-name cannot really be said to offer dynamic local scope thereby. – ruakh Jan 27 '15 at 16:46
What's the difference between an argument, and a variable mentioned in the function's signature which is required for the function to be called? – Marcin Jan 27 '15 at 17:56

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