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edit This is not a duplicate of Undefined reference to static class member. That question explored the cause of the problem (which I explain below). Here, I'm looking for a different solution from those proposed in the answers to that questions (which implied changing the declaration/definition of the constexpr variable to be used -- essentially by adding a definition in a compilation unit).

I have created a little variadic template function make_string() to generate a std::string from any number of io-able arguments as follows.

using std::ostringstream; // just for this example

inline ostringstream&write(ostringstream&ostr, const char*x)
{ if(x) ostr<<x;  return ostr; }

template<class T>
inline ostringstream&write(ostringstream&ostr, T const&x)
{ ostr<<x;  return ostr; }

inline ostringstream&write(ostringstream&ostr) noexcept
{ return ostr; }

template<class T, class... R>
inline ostringstream&write(ostringstream&ostr, T const&x, R&&... r)
{ return write(write(ostr,x), std::forward<R>(r)...); }

inline std::string make_string(const char*text)
{ return {text?text:""}; }

inline std::string make_string(std::string const&text)
{ return {text}; }

template<typename T>
inline auto make_string(T var) -> decltype(std::to_string(var))
{ return std::to_string(var); }

template<class... Args>
inline std::string make_string(Args&&... args)
{
  ostringstream ostr;
  write(ostr,std::forward<Args>(args)...);
  return std::move(ostr.str());
}

Now, this works pretty well and can be used like this

throw std::runtime_error(make_string("offset=",offset," > max_offset =",
                                      max_offset"));

However, there is a problem when printing static constexpr class members, as in

class foo
{
   static constexpr int max_offset=some_value;
   // ...
   void bar(int offset)
   {
     if(offset > max_offset)
     throw std::runtime_error(make_string("offset=",offset," > max_offset=",
                                          max_offset"));
   }
};

This causes an error at link time. The reason is that make_string takes all its arguments by reference, including the static constexpr max_offset. As a result, a reference to foo::max_offset will be required at linking, see also.

How can I avoid this problem without abandoning the idea of make_string()? (Perhaps one could replace the variadic template with a variadic macro, but I would consider this as some sort of regression.) There must be a way for make_string to take its arguments by value or reference, depending on type (so that builtin types can be taken by value). How?

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possible duplicate of Undefined reference to static class member –  Mark Garcia Mar 14 at 9:35
    
@MarkGarcia Not so. I don't want to know the cause of the problem, but I ask whether the problem can be solved in a certain way not explored in the answers to that question. –  Walter Mar 14 at 9:42
    
What compiler are you using? Recent clang and gcc have no problem with this. –  jrok Mar 14 at 9:59
    
@jrok Yes, I'm using clang 3.4 and gcc 4.8.1, but with a more complex example than that above, spread over several compilation units. –  Walter Mar 14 at 10:25
    
Possible duplicate of passing a static constexpr variable by universal reference?. In particular, I think the entire make_string application is irrelevant, the problem can be exhibited with much simpler code. Note that the chosen answer is not my preferred solution, as discussed below it. There are other solutions, I can try an answer in a few hours along with suggestions for a better make_string (goto to go now). –  iavr Mar 14 at 10:38

2 Answers 2

up vote 2 down vote accepted

First, I am not sure why you need so much code for make_string. I'd simply define it as

template<class... Args>
inline std::string make_string(Args&&... args)
{
  ostringstream ostr;
  _do{ostr << std::forward<Args>(args)...};
  return std::move(ostr.str());
}

where

struct _do { template <typename... T> _do(T&&...) { } };

is a helper struct that lets you evaluate expressions in the right order (but watch out, GCC incorrectly evaluates right-to-left until 4.9 at least).


Now, to your question. As I said in my comment, I feel your problem is irrelevant to make_string. In Undefined reference to static class member, in my question passing a static constexpr variable by universal reference?, and in all relevant questions I've seen, the suggested answer is that one defines the variable somewhere out of class:

constexpr int foo::max_offset;

I'm not sure if this is a problem for you. It is a problem for me because in heavily templated code it implies too much duplication (see discussion below my question). Anyhow, if it is a problem, I see a few other simple solutions to ensure call-by-value:

  • use make_string(..., int(max_offset)) instead of make_string(..., max_offset)

  • as a shortcut, +max_offset does the same job (suggested here)

  • define static constexpr int max_offset() { return some_value; }, then use max_offset() instead of max_offset throughout

  • let some part of code (function or template) deduce max_offset as a non-type int template parameter, then use it directly

  • lastly, define make_string(Args... args) (this is the simplest but does not apply here as you don't want to copy all those strings)

I am not discussing use of make_string in throwing an exception; this is a different problem.

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Good. for the time being I'll use your +max_offset solution. I'm interested in your struct _do. Where does this type of magic come from? Is there some online discussion/docu for that? Could one not "repair" the bug with GCC (<4.9)? –  Walter Mar 17 at 13:11
    
@Walter To be fair, I saw unary + solution here (updated link in answer). Now, _do: I first saw it when familiarizing with variadic templates in Wikipedia (look for struct pass), then again in STL implementations, usually called swallow (as in the GCC bug report). It is based on the requirement that in list initialization, arguments are evaluated in order of appearance (left-to-right). The only document I know is this. –  iavr Mar 17 at 14:48
    
@Walter As for GCC bug, maybe I was not clear but I meant that (unfortunately) the bug still persists in 4.9. I don't know more and it's not easy to find (try searching). For many other reasons, I consider clang my primary compiler, so I only use GCC for cross-checking. I only hope it will be fixed eventually. –  iavr Mar 17 at 14:53
    
This is very odd. How come such a serious bug is persists over more than two years and over many compiler upgrades? –  Walter Mar 19 at 9:06
    
Why do you think left to right is mandated here? It is not an initializer list. –  Yakk Apr 4 at 20:34

I'm not sure whether the compiler is correct in getting it's knickers in a bunch jimmies rustled with a ref to constexpr here.

However, you could perhaps find your way out using boost's

  • call_traits<T>::param_type

    Defines a type that represents the "best" way to pass a parameter of type T to a function.

(see http://www.boost.org/doc/libs/1_55_0/libs/utility/call_traits.htm).

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I don't understand your last paragraph. In my code, only one (not many) ostringstream is instantiated in creating a std::string. My function write() does exactly what you said: returning a ostringstream. Moreover, when throwing an exception, you most likely won't reuse anything. –  Walter Mar 14 at 10:16
    
Sorry, I missed the distinction between make_string and write there. You're right. Conceptually, though, when an exception is in flight is exactly the time to avoid doing allocations (this is why std::exception::what() is no-throw and returns const char* –  sehe Mar 14 at 10:18
    
Yes, but how can one assemble a meaning full error message otherwise? One could use some threadlocal statically reserved memory and snprintf -- is that what you recommend? –  Walter Mar 14 at 10:27
    
Or have a threadlocal, statically initialized stringstream (properly reserving enough buffer space) :) I know, you'd have to lazily construct it (which is what I do in my code base). (Edit I actually removed that last paragraph, I forgot - kinda busy) –  sehe Mar 14 at 10:32
    
That sounds interesting. What I don't understand is how you lazily construct it. Do you mean that your (equivalent to) make_string instead of initiating a new ostringstream simply clear()s its thread local static object and then writes into that? –  Walter Mar 14 at 10:33

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