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I want to write a C++11 function that will only accept string literals as a parameter:

 void f(const char* s) { static_assert(s is a string literal); ... }

That is:

 f("foo"); // OK

 char c = ...;
 f(&c); // ERROR: Doesn't compile

 string s = ...;
 f(s.c_str()); // ERROR: Doesn't compile


Is there anyway to implement this? The signature of the function is open to changes, as is adding the use of macros or any other language feature.

If this is not possible what is the closest approximation? (Can user-defined literals help in anyway?)

If not is there a platform specific way in GCC 4.7 / Linux ?

share|improve this question
This is not possible, as string literals are just char const[N] arrays, and as such are indistinguishable from them. – Xeo Dec 5 '12 at 13:35
@AndrewTomazos-Fathomling That isn't guaranteed even if you do pass a string literal. Example: #include <stdio.h> / void f(const char *s) { printf(s); } / int main() { f("Hello, world!\n"); } only causes "Hello, world!" (without the '\n') to appear in the executable in a quick test on my system. – hvd Dec 5 '12 at 13:47
@AndrewTomazos-Fathomling What appears in my executable isn't my string literal. It's some bits (in this case, most bits) of my string literal, but not all of them. And I can change f to do nothing, to ignore its argument, and then no bits will appear in the executable. – hvd Dec 5 '12 at 14:03
@AndrewTomazos-Fathomling: The warning about printf is implemented mostly inside the GCC compiler (and partly in Glibc headers thru appropriate __attribute__ annotations). So you need to extend GCC to make a similar check. See my answer. – Basile Starynkevitch Dec 5 '12 at 14:22
@AndrewTomazos-Fathomling So you don't actually care whether the string literal appears in the application image. My comments were based on that, my second comment was a reply to your "The goal is to enforce that the string is literally typed into the code at the point of call, and statically compiled into the application image." In that case, I will rephrase my first question: how about other situations, that don't pass a string literal directly, but don't calculate a string at runtime either? A pointer/reference to a string literal, a simple const char array[], etc.? – hvd Dec 5 '12 at 14:41
up vote 10 down vote accepted

I think the closest you are going to get is this

template<int N>
void f(const char (&str)[N]){

It will compile with literals and arrays but not pointers.

share|improve this answer
You might be able to further prevent it from working with most non-literal arrays with clever use of std::enable_if<>. See… for an example of what to put in the enable_if (although that question uses static_assert, it's the same concept). – wjl Feb 19 '14 at 21:49

An alternative might be to make a GCC extension to check at compile time that your particular function is only called with a literal string.

You could use MELT to extend GCC. MELT is a high-level domain specific language to extend the GCC compiler, and is very well suited for the kind of check you want.

Basically, you would add a new pass inside GCC and code that pass in MELT which would find every gimple which is a call to your function and check that the argument is indeed a literal string. The ex06 example on melt-examples should inspire you. Then subscribe to and ask your MELT specific questions there.

Of course, this is not a foolproof approach: the function could be called indirectly thru pointers, and it could e.g. have a partial literal string, e.g. f("hello world I am here"+(i%4)) is conceptually a call with some literal string (e.g. in .rodata segment), but not in the generated code nor in the gimple.

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