OK. Lesson one on Ada for expert Cish coders: Ada parameters are different than Cish parameters. In C, (pre-reference parameters) every single parameter is the equivalent of an Ada 'in' parameter, with an extra proviso that the C compiler must always stupidly pass the entire thing on the stack, no matter how huge it is. So you poor C coders get it nailed into your brains that you never pass large objects into subroutines directly, but always use pointers.
Ada is different. You tell the compiler how you want to access your parameters (read only - 'in', write only - 'out', or read write - 'in out'). However, that has nothing to do with how parameters are passed. The parameter passing mechanisim is up to the compiler, and the compiler will chose the most efficient way to do it. In practice, on nearly all platforms, that means than anything too big for a register will be passed by reference. But this is an implementation detail, and is the compiler's business, not yours. You shouldn't even have to think about it, except in really rare cases.
So grit your teeth and pass that array naked as an
in parameter. Trust me, you'll get to like it.
type vector is array (natural range <>) of integer;
my_vec : vector(1..3);
procedure test (subject : in out vector) is
Ada is designed to be quite usable in nearly all cases without needing pointers, and usable in all but a very few very rare cases without needing pointers to stack-allocated objects.
The former is fairly unsafe (dangers from unallocated pointers and memory leaks), and the latter is even more unsafe (stack objects may go out of scope before your pointer does, and even if they don't one little size error can corrupt your entire program). You can still do both in Ada, but unlike many languages it is designed to make unsafe things require a bit more work on your part to do, and make very unsafe things a major PITA to write.
For example, if you'd just dynamically allocate the entire array, you wouldn't have to fool with this
all business. Furthermore, if you just want to pass the array into a subroutine, you could simply pass it as a parameter and you don't even have to fool with the dynamic allocations and deallocations. Again, Ada compilers are smart enough to pass large objects by reference (yes, even if you specified
in). This takes an attitude adjustment from C/C++ coders, who are used to having to tell their dumbass compiler not to pass 10meg objects on the stack. You have to learn to let the Ada compiler worry about how to pass your parameters around efficiently, and you can just worry about how to write great code.