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Why can't you pass literal strings in here? I made it work with a very slight workaround.

template<const char* ptr> struct lols {
    lols() : i(ptr) {}
    std::string i;
class file {
    static const char arg[];
decltype(file::arg) file::arg = __FILE__;
// Getting the right type declaration for this was irritating, so I C++0xed it.

int main() {
    // lols<__FILE__> hi; 
    // Error: A template argument may not reference a non-external entity
    lols<file::arg> hi; // Perfectly legal
    std::cout << hi.i;
share|improve this question
const char file::arg[] = __FILE__; This should allow you drop back to C++03 :). – kennytm Sep 22 '10 at 20:40
@Kenny: I tried that. Compiler threw error. – Puppy Sep 22 '10 at 20:41
@Dead: Odd. g++ compiles fine (with -pedantic). – kennytm Sep 22 '10 at 20:46
@Kenny: Irritating, I always thought this was impossible. Now that I have it, I can't seem to make it do anything interesting or useful. – Puppy Sep 22 '10 at 20:52
Note that if at namespace scope you will need extern const char arg[] = __FILE__; to give the array external linkage (const objects have internal linkage by default). – Johannes Schaub - litb Sep 23 '10 at 4:51
up vote 13 down vote accepted

Because this would not be a useful utility. Since they are not of the allowed form of a template argument, it currently does not work.

Let's assume they work. Because they are not required to have the same address for the same value used, you will get different instantiations even though you have the same string literal value in your code.

lols<"A"> n;

// might fail because a different object address is passed as argument!
lols<"A"> n1 = n;

You could write a plugin for your text editor that replaces a string by a comma separated list of character literals and back. With variadic templates, you could "solve" that problem this way, in some way.

share|improve this answer
Just begs the question of why they don't just give them the same address. – Puppy Oct 5 '10 at 10:34
@DeadMG because string literal "A" might be an immediate in some contexts and not have an address at all? – SlashV Jan 22 '13 at 20:50
@SlashV I know it's been a while, but could you care to expand on that? I'm sort of also interested in the explanation. – Zadirion Apr 10 '13 at 11:40
@Zadirion ..and another while. Given that the template argument needs to have its address taken, the compiler would need to provide a unique address for string literal "A". It would be an unnecessary restriction for the compiler to have to do so. The literal "A" may be a constant in memory somewhere (and have an address), but the compiler may have multiple copies so the address would not be unique, or literal "A" might be the 'immediate' operand of a machine code instruction and therefore not be in data memory anywhere and thus not have an address at all. – SlashV May 6 '13 at 12:48
@SlashV got it, thanks, +1! – Zadirion May 6 '13 at 14:23

It is possible, but the the template argument must have external linkage, which precludes using literal strings and mitigates the utility of doing this.

An example I have is:

template<const char* name, const char* def_value=empty_>
struct env : public std::string
        const char* p = std::getenv(name);
        assign(p ? p : def_value);

extern const char empty_[] = "";

std::string test = env<empty_>();
share|improve this answer

This is how I do it. Makes a lot more sense to me:

struct MyString { static const std::string val; }
const std::string MyString::val = "this is your string";

template<typename T>
void func()
  std::cout << T::val << std::endl;

void main()
share|improve this answer

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