3

These preprocessor and template limitations of c++ are killing me. The goal is to convert string literals into integers.

template<const char* str>
inline int LiteralToInt(){
    return __COUNTER__;
}

using std::cout;

int main(){
    cout << LiteralToInt<"Hello">();
    cout << LiteralToInt<"No">();
    cout << LiteralToInt<"Hello">();
    return 0;
}

The output would be 010 if templates accepted string literals. Is there another way to get this output and convert string literals to integers at compile time?

  • If you use the address of the literal, it could just as well produce 012. Merging identical string literals is not required by the language. And if __COUNTER__ is the VC++ macro, it would likely be 111 becuse the macro is expanded only once. – Bo Persson Aug 3 '12 at 7:11
  • even if most compilers do merge identical literals, they don't do it for different translation units. Too much hassle and too little gain. – pqnet Sep 3 '14 at 14:45
0

Unfortunately, I know of no way to do exactly what you want.

Are there any restrictions you can put on the strings? Like number of characters? If you can limit it to 1-8 characters, you can do something like this:

template <char Ch1, char Ch2 = '\0', char Ch3 = '\0', char Ch4 = '\0', char Ch5 = '\0', char Ch6 = '\0', char Ch7 = '\0', char Ch8 = '\0'>
struct string_hash {
    static const uint64_t value = 
        (static_cast<uint64_t>(Ch1) << 56) | 
        (static_cast<uint64_t>(Ch2) << 48) | 
        (static_cast<uint64_t>(Ch3) << 40) | 
        (static_cast<uint64_t>(Ch4) << 32) | 
        (static_cast<uint64_t>(Ch5) << 24) | 
        (static_cast<uint64_t>(Ch6) << 16) | 
        (static_cast<uint64_t>(Ch7) << 8)  | 
        (Ch8);
};

which basically, at compile time stuff up to 8 characters into a uint64_t. Usage would look like this:

const uint64_t x = string_hash<'T', 'e', 's', 't'>::value

This will create a compile time numeric value (can be used in a switch and all that goodness) unique to each string 1-8 chars long. Unfortunately, the only big downside is that you can't write it as a string literal, you need to write it as a list of chars

  • The impetus behind this is to make my life easier. This is a valid way of doing it albeit unproductive. If it was really important i could do it like this. – user936509 Aug 3 '12 at 4:59
  • Accepted as a work around until constexpr gets widespread implementation. – user936509 Aug 4 '12 at 5:09
3

Yes, C++ 11's constexpr will do this for you:

 constexpr int LiteralToInt(const char * str) {
      return __COUNTER__; // or whatever.
 }
  • 1
    I looked into that but constexpr is not implemented in the majority of compilers. – user936509 Aug 3 '12 at 3:38
  • 1
    That wont give a different value to each string though. – Michael Anderson Aug 3 '12 at 3:52
1

Something like this would work

extern const char HELLO[] = "Hello";

and then

cout << LiteralToInt<HELLO>();

but not the literal itself. This is probably not what you want.

String literals themselves, as you already discovered, cannot be used as template arguments.

1

A little bit of thinking about Richard J Ross III's answer using constexpr gave me the right key to search with... What you're essentially doing is hashing a string at compile time. You can do this in C++11 (but not earlier versions) as shown here.

The basic idea is to use something like this:

unsigned int constexpr const_hash(char const *input) { 
    // really simple hash function...
    return static_cast<unsigned int>(*input) 
         && static_cast<unsigned int>(*input) + hash(input+1); 
}

But you probably want to use a hash function with more robust properties than this...

However if you're not using C++11 then my earlier statement holds:

No - there is no way to convert string literals to integers at compile time, in such a way that all of the same strings map to same values, (and different strings map to different values) across all compilation units, short of processing the code in some way.

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