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I was working with some old code (a text game, as it happens) and wanted to replace the pattern

strcasecmp(variable, "something") == 0 || strcasecmp(variable, "something else") == 0

with something nicer, like

in_list(variable, "something", "something else")

I thought a variadic function would be appropriate. But when I looked at the manpage I saw that there's no way to tell when you've run out of arguments (calling va_arg when you have results in undefined behavior). So how can I handle this?

Maybe there's some way to get around this limitation. Maybe I can #define some kind of sentinel at the end of the list so I can check for that, though it seems inelegant. I suppose I could just replace it with a family of macros with 1, 2, ... arguments up to some reasonable limit, though this feels like a hack.

What's the right way to do this? Suppose I'm not willing to rewrite the program to use the string type and that I'm stuck with char*s.

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If you're "stuck" with char * then you have an obvious sentinel value - NULL. (Though the std::set solution is far cleaner and easier.) –  Chris Lutz May 11 '12 at 4:47
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1 Answer

up vote 6 down vote accepted

Assuming you can use C++11 features, I'd have the function take a collection type (e.g., std::set) that supports initializer lists, so you could use something like:

in_list(variable, {"something", "something else", "yet a third thing"});

Edit: Here's a quick demo:

#include <string>
#include <set>
#include <iostream>

bool in_list(std::string const &value, std::set<std::string> const &list) {
    return list.find(value) != list.end();
}

int main(){
    std::cout << std::boolalpha << in_list("true", {"this", "is", "a", "true", "statement"}) << "\n";

    std::cout << in_list("false", {"this", "is", "a", "true", "statement"});
    return 0;
}

This compiles cleanly with g++ 4.7.0, and produces the expected output:

true
false

And yes, absent a reason to do otherwise, std::set would be a reasonable choice for the job at hand. As far as your concern over char * vs. std::string goes: std::string supports implicit conversion from char *, so you can pass a char * to the function (as I've done above) and it'll be converted to std::string automatically. In other words, (most) other code can just pass char *, and not worry about the minor detail that this code views it as std::string.

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I can use C++0x features, or at least the subset supported by gcc. But I'm having a bit of trouble making this actually work. Is std::set actually the right tool for the job? I wrote three functions testing it out but couldn't quite get any of them to work as intended. –  Charles May 11 '12 at 4:15
    
@Charles: I've added a short bit of demo code to the answer. –  Jerry Coffin May 11 '12 at 4:22
    
Wow, that code is much cleaner and better than any of the versions I coded. Props! –  Charles May 11 '12 at 4:34
3  
@Charles: Just beware that while the code is simple, it may also be pretty slow because it constructs a set of the data when you call the function. Especially if you're calling it repeatedly with the same set of strings as the second parameter, it may be much faster to pre-build a set, and pass it every time instead. –  Jerry Coffin May 11 '12 at 4:44
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