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I know the only way to pass a string literal as template argument is to declare it before:

file a.h

#ifndef A_H
#define A_H

#include <string>

char EL[] = "el";

template<char* name>
struct myclass
  std::string get_name() { return name; }

typedef myclass<EL> myclass_el;


file a.cpp

#include "a.cpp"


#include "a.h"

g++ -c a.cpp
g++ -c main.cpp
g++ -o main main.o a.o

and I got:

a.o:(.data+0x0): multiple definition of `EL'
main.o:(.data+0x0): first defined here
collect2: ld returned 1 exit status

I can't declare EL as external and I want to keep the a.cpp. Solutions?

share|improve this question
Why would you want a char-pointer as a template parameter?? What's the real situation here? Template parameters must be compile-time constants of integral types. – Kerrek SB Jul 23 '11 at 23:50
@Marlon: because it solves the example problem. – Ruggero Turra Jul 24 '11 at 0:01
@Marlon: This is a new problem. OP: Maybe tell us what you want, not what you've tried. – Kerrek SB Jul 24 '11 at 0:02
See previous question, or say static const char EL[] = ..., then every TU will get its own, private copy. But it doesn't matter, because you cannot have char* as a template parameter! – Kerrek SB Jul 24 '11 at 0:16
Your header guards aren't failing. They make sure a header is included once per code file, not once for all code files. – ssube Jul 24 '11 at 0:47
up vote 3 down vote accepted

Let's start with what the Standard says for the benefit of all, from 14.3.2 Template non-type arguments [temp.arg.nontype] (C++03 Standard):

1 A template-argument for a non-type, non-template template-parameter shall be one of:

— an integral constant-expression of integral or enumeration type; or

— the name of a non-type template-parameter; or

the address of an object or function with external linkage, including function templates and function template-ids but excluding non-static class members, expressed as & id-expression where the & is optional if the name refers to a function or array, or if the corresponding template-parameter is a reference; or

— a pointer to member expressed as described in 5.3.1 .

Emphasis mine for the relevant parts.

Additionally, paragraph 5 lists the conversions that are allowed and one of them is array to pointer decay. Paragraph 2 is even a note that showcases a similar use of char* as that of the OP.

All that is left is how to have an object in a header with external linkage and no errors. The usual way is a declaration in the header, and one and only one definition in one TU.

// In header
extern char EL[]; // array of unspecified size, an incomplete type
                  // extern char EL[3] is acceptable, too.

// In source
char EL[] = "el";

Note that static is not a possibility because of the requirement that the object have external linkage. The unnamed namespace is to be preferred if the intent is to have a separate object per TU.

// In header
// NOT RECOMMENDED! Be wary of ODR-violations with such constructs
// or simply only use these in source files
namespace {

// Recommend using const here, which in turn means using extern
// change non-type template parameter accordingly
extern const char EL[] = "el";

} // namespace

For the curious, C++0x relaxed the requirement that an object have external linkage to be a valid parameter. (My copy of GCC doesn't support that yet.) String literals are inexplicably still forbidden to appear as template arguments.

share|improve this answer
Thanks for the quotes from the standard! Now, can you make an example of a template on char* that will except your EL as a parameter? – Kerrek SB Jul 24 '11 at 1:36

Revised Answer (The previous answer was nonsense. Sorry for that! Also, your previous question should have covered this problem already entirely.)


#ifndef H_ABC
#define H_ABC

extern char EL[];

template <const char * S>
struct Foo
  static inline const char * get_name() { return S; }
  static const char * name;
template <const char * S> const char * Foo<S>::name(S);

typedef Foo<EL> MyElClass;


You need one TU to define EL:

#include "header.h"
char EL[] = "EL";

You can use the template anywhere:

#include "header.h"

char A[] = "abc";
extern const char B[] = "xyz";  // must have extern linkage!

void f() {
  std::cout << MyElClass::name << std::endl;
  std::cout << MyElClass::get_name() << std::endl;
  std::cout << Foo<A>::name << std::endl;
  std::cout << Foo<B>::name << std::endl;
share|improve this answer

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