Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've read somewhere that D supports specialization of functions to calls where arguments are compile-time constants. Typical use of this is in matrix power functions (if exponent is 2 x*x is often faster than the general case).

I want this in my member function

   bool opIndexAssign(bool b, size_t i) @trusted pure nothrow in {
        assert(i < len);        // TODO: Add static assert(i < len) when i is constant
    } body {
        b ? bts(ptr, i) : btr(ptr, i);
        return b;
    }

of a statically sized BitSet struct I'm writing. This in order to, when possible, get compile-time bounds checking on the index variable i. I thought

bool opIndexAssign(bool b, const size_t i) @trusted pure nothrow in {
    static assert(i < len);
} body {
    b ? bts(ptr, i) : btr(ptr, i);
    return b;
}

would suffice but then DMD complains as follows

dmd -debug -gc -gs -unittest -D -Dd/home/per/.emacs.d/auto-builds/dmd/Debug-Boundscheck-Unittest/home/per/Work/justd/ -w -main  ~/Work/justd/bitset.d /home/per/Work/justd/assert_ex.d -of/home/per/.emacs.d/auto-builds/dmd/Debug-Boundscheck-Unittest/home/per/Work/justd/bitset
/home/per/Work/justd/bitset.d(58): Error: bitset.BitSet!2.BitSet.opIndexAssign called with argument types (bool, int) matches both:
    /home/per/Work/justd/bitset.d(49): opIndexAssign(bool b, ulong i)
and:
    /home/per/Work/justd/bitset.d(65): opIndexAssign(bool b, const(ulong) i)
/home/per/Work/justd/bitset.d(66): Error: variable i cannot be read at compile time
/home/per/Work/justd/bitset.d(66):        while evaluating: static assert(i < 2LU)
/home/per/Work/justd/bitset.d(58): Error: bitset.BitSet!2.BitSet.opIndexAssign called with argument types (bool, int) matches both:
    /home/per/Work/justd/bitset.d(49): opIndexAssign(bool b, ulong i)

Do I have to make parameter i a template parameter, say using type U, and then use static if someTypeTrait!U. I tried this but isMutable!Index always evaluates to true.

import std.traits: isIntegral;
bool opIndexAssign(Index)(bool b, Index i) @trusted pure nothrow if (isIntegral!Index) in {
    import std.traits: isMutable;
    // See also: http://stackoverflow.com/questions/19906516/static-parameter-function-specialization-in-d
    static if (isMutable!Index) {
        assert(i < len);
    } else {
        import std.conv: to;
        static assert(i < len,
                      "Index " ~ to!string(i) ~ " must be smaller than BitSet length " ~  to!string(len));
    }
} body {
    b ? bts(ptr, i) : btr(ptr, i);
    return b;
}
share|improve this question
add comment

1 Answer

What you're trying to do doesn't really work. You can do a template value parameter:

void foo(int i)() { /* use i at compile time */ }

but then you can't pass a runtime value to it, and it has different call syntax: foo!2 vs foo(2).

The closest you can get is is CTFE:

int foo(int i) { return i; }
enum something = foo(2); // works, evaluated at compile time
int s = foo(2); // also works, but runs at runtime.

Inside the function, there is a magic if(__ctfe) { running at compile time } else { at runtime}, but again, this isn't if there's a literal, it is if the function is run in a CT context, e.g., assigning the result to an enum constant.

But, otherwise, an int literal is still a mutable int as far as the function is concerned. So what you're specifically trying to do won't work in D as it is right now. (There's been some talk about wanting a way to tell if it is a literal, but as far as I know, there's no plan to actually do it.)

share|improve this answer
    
Ok. I can settle for indexing using for example bitset.at!3() for now. Thx. –  Nordlöw Nov 12 '13 at 10:04
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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