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I am writing a C program that will take a variable number of command line arguments. I need to then take these arguments and pass them into a function that takes a variable number of filenames as individual parameters (using va_arg to get the arguments inside the function), prototyped as:

void FindFile(char *filename1, ...);

My implementation of FindFile is fine. My question is, how do I take the variable number of arguments in the main method's 'char *argv[]' and use them as parameters when calling FindFile?

This is an assignment for a class, so the FindFile prototype can not be changed. I have searched for ways to make this work, only finding one answer, which said that it is impossible to do. Is this actually the case? It is the exact specification given by my professor so I assumed it would be possible somehow, but the exact method was not discussed in class.

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What it is not possible to do (at least in K&R, ansi-c and c99 and barring implementation dependent tricks) is to append selected command-line arguments to some kind of argument list at run time and pass that to your function. Too bad, as that's the first thing that comes to mind.

That makes your problem one of figuring out what you can do. You could for instance call (the given varidac function as) FindFile(fname, argc, argv); every single time. It would be silly (really, very, very silly) to write code like that instead of just giving FindFile a fixed signature, but the given varargs version of FindFile could be written to manage that just fine.

If you wanted to pass only some of the command-line arguments you would make a new char*[] containing just the ones you want and pass that in.

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I've done something like this in my postscript interpreter.

This is from my operator-handler function. It uses a switch statement to make the variadic call through the function pointer.

call: /* pass args bottom-up */
    tos = siq; /* pop the stack to the 'stack in question' */
    /* room for output? */
    if (tos-os + op.sig[i].out > OSSIZE) error(st,stackoverflow);
    switch (op.sig[i].n) {
        case 0: op.sig[i].fp(st); break;
        case 1: op.sig[i].fp(st, siq[0]); break;
        case 2: op.sig[i].fp(st, siq[0], siq[1]); break;
        case 3: op.sig[i].fp(st, siq[0], siq[1], siq[2]); break;
        case 4: op.sig[i].fp(st, siq[0], siq[1], siq[2], siq[3]); break;
        case 5: op.sig[i].fp(st, siq[0], siq[1], siq[2], siq[3], siq[4]); break;
        case 6: op.sig[i].fp(st, siq[0], siq[1], siq[2], siq[3], siq[4], siq[5]); break;
        default: error(st,unregistered);

I borrowed this technique from the Goswell interpreter (AKA Rutherford interpreter, AKA RALpage).

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Ye gads, but that is horrible. To spec, and requiring FindFiles to be variadac which makes it a better response to the spec than my suggestion, but yuck! – dmckee Feb 14 '13 at 14:12
There is a significant payoff in my program. The operator functions themselves are not variadic, and have meaningful parameter names. In previous versions, each op function was manipulating the stack directly (lots of tos[-1], tos[-3]). – luser droog Feb 19 '13 at 18:50

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