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    char foo()
    {
         std::cout<<"foo()"<<std::endl;
         return 'c';
    }              
    void foo(char &&i)
    {
         std::cout<<"foo(char &&i)"<<std::endl;
    }
    struct pipe {};
    template<class OP>
    struct Flow;
    template<>
    struct Flow<pipe> {
         template<class L,class R>
         static  auto apply(L&& l,R &&r)->decltype(r(std::forward<L>(l))) {
              return r(std::forward<L>(l));
         }
    };
    template<class L,class R,class E>
    struct Pipe;
    template<class F,class...ARGS>
    auto eval(F& f,ARGS&&... arg)->decltype(f(std::forward<ARGS>(arg)...))
    {
        return f(std::forward<ARGS>(arg)...);
    }
    template<class L,class R,class E,class...ARGS>
    auto eval(Pipe<L,R,E>&f,ARGS&&... arg)->decltype(Flow<E>::apply(eval(f.lhs,std::forward<ARGS>(arg)...),f.rhs))
    {
        return Flow<E>::apply(eval(f.lhs,std::forward<ARGS>(arg)...),f.rhs);
    }
    template<class L,class R,class E>
    struct Pipe {
         L lhs;
         R rhs;
         Pipe(L &l,R& r):lhs(l),rhs(r) {
         }
          template<class...ARGS>
           auto operator()(ARGS&&... arg)->decltype(eval<L,R,E >(*this,std::forward<ARGS>(arg)...)) {
                return eval<L,R,E >(*this,std::forward<ARGS>(arg)...);
           }
    };

     void streamtest()
    {

        void (*foo1)(char &&)=foo;
        void (*foo2)(int ,int ,short )=foo;
        char (*foo3)()=foo;

        Pipe<char(*)(),void(*)(char&&),pipe> pp(foo3,foo1);
        pp(1);

    }

I want write a pipe Library for function transfer. but error Let me confused:

 \FEstream.cpp: In function 'void streamtest()':
 \FEstream.cpp:117:9: error: no match for call to '(Pipe<char (*)(), void (*)(char&&), pipe>) (int)'
 \FEstream.cpp:98:8: note: candidate is:
 \FEstream.cpp:104:13: note: template<class ... ARGS> decltype (eval<L, R, E>((* this), (forward<ARGS>)(Pipe::operator()::arg)...)) Pipe::operator()(ARGS&& ...) [with ARGS = {ARGS ...}; L = char (*)(); R = void (*)(char&&); E = pipe]
 \FEstream.cpp:104:13: note:   template argument deduction/substitution failed:
 \FEstream.cpp: In substitution of 'template<class ... ARGS> decltype (eval<L, R, E>((* this), (forward<ARGS>)(Pipe::operator()::arg)...)) Pipe::operator()(ARGS&& ...) [with ARGS = {ARGS ...}; L = char (*)(); R = void (*)(char&&); E = pipe] [with ARGS = {int}]':
 \FEstream.cpp:117:9:   required from here
 \FEstream.cpp:104:13: error: no matching function for call to 'eval(Pipe<char (*)(), void (*)(char&&), pipe>&, int)'
 \FEstream.cpp:104:13: note: candidates are:
 \FEstream.cpp:88:6: note: template<class F, class ... ARGS> decltype (f((forward<ARGS>)(eval::arg)...)) eval(F&, ARGS&& ...)
 \FEstream.cpp:88:6: note:   template argument deduction/substitution failed:
 \FEstream.cpp:104:13: note:   cannot convert '*(Pipe<char (*)(), void (*)(char&&), pipe>*)this' (type 'Pipe<char (*)(), void (*)(char&&), pipe>') to type 'char (*&)()'
 \FEstream.cpp:93:6: note: template<class L, class R, class E, class ... ARGS> decltype (Flow<E>::apply(eval(f.lhs, (forward<ARGS>)(eval::arg)...), f.rhs)) eval(Pipe<L, R, E>&, ARGS&& ...)
 \FEstream.cpp:93:6: note:   template argument deduction/substitution failed:
 \FEstream.cpp: In substitution of 'template<class L, class R, class E, class ... ARGS> decltype (Flow<E>::apply(eval(f.lhs, (forward<ARGS>)(arg)...), f.rhs)) eval(Pipe<L, R, E>&, ARGS&& ...) [with L = char (*)(); R = void (*)(char&&); E = pipe; ARGS = {int}]':
 \FEstream.cpp:104:13:   required by substitution of 'template<class ... ARGS> decltype (eval<L, R, E>((* this), (forward<ARGS>)(Pipe::operator()::arg)...)) Pipe::operator()(ARGS&& ...) [with ARGS = {ARGS ...}; L = char (*)(); R = void (*)(char&&); E = pipe] [with ARGS = {int}]'
 \FEstream.cpp:117:9:   required from here
 \FEstream.cpp:93:6: error: no matching function for call to 'eval(char (*&)(), int)'
 \FEstream.cpp:93:6: note: candidate is:
 \FEstream.cpp:88:6: note: template<class F, class ... ARGS> decltype (f((forward<ARGS>)(eval::arg)...)) eval(F&, ARGS&& ...)
 \FEstream.cpp:88:6: note:   template argument deduction/substitution failed:
 \FEstream.cpp: In substitution of 'template<class F, class ... ARGS> decltype (f((forward<ARGS>)(arg)...)) eval(F&, ARGS&& ...) [with F = char (*)(); ARGS = {int}]':
 \FEstream.cpp:93:6:   required by substitution of 'template<class L, class R, class E, class ... ARGS> decltype (Flow<E>::apply(eval(f.lhs, (forward<ARGS>)(eval::arg)...), f.rhs)) eval(Pipe<L, R, E>&, ARGS&& ...) [with L = char (*)(); R = void (*)(char&&); E = pipe; ARGS = {int}]'
 \FEstream.cpp:104:13:   required by substitution of 'template<class ... ARGS> decltype (eval<L, R, E>((* this), (forward<ARGS>)(Pipe::operator()::arg)...)) Pipe::operator()(ARGS&& ...) [with ARGS = {ARGS ...}; L = char (*)(); R = void (*)(char&&); E = pipe] [with ARGS = {int}]'
 \FEstream.cpp:117:9:   required from here
 \FEstream.cpp:88:6: error: too many arguments to function
Process terminated with status 1 (0 minutes, 0 seconds)

what's happening?Is it my error,or gcc's not C++11 compliant?

////////////////////////////////////////////////////////////////////////////////////////////

thanks Dave S.but ,code is only simplification.In fact, I use templateEval::eval:

template<class L,class R,class E>
struct Pipe;

template<class F>
struct Eval {
     template<class...ARGS>
     static auto eval(F&f,ARGS&&... arg)->decltype(f(std::forward<ARGS>(arg)...)) {
          return f(std::forward<ARGS>(arg)...);
     }
};
template<class L,class R,class E>
struct Eval<Pipe<L,R,E> > {
     static auto eval(Pipe<L,R,E>&f)->decltype(Flow<E>::apply(f.lhs,f.rhs)) {
          return Flow<E>::apply(f.lhs,f.rhs);
     }
     template<class...ARGS>
     static void eval(Pipe<L,R,E>&f,ARGS&&...arg) {
          static_assert(!std::is_same<E,pipe>::value,
                        "multiple input for expression\nsample: auto expr=wrap(foo1)<var1|foo2 ;call expr(var2) instead of expr()");
     }
};
template<class L,class R>
struct Eval<Pipe<L,R,pipe> > {
     template<class...ARGS>
     static auto eval(Pipe<L,R,pipe>&f,ARGS&&... arg)->decltype(Flow<pipe>::apply(Eval<L>::eval(f.lhs,std::forward<ARGS>(arg)...),f.rhs)) {
          return Flow<pipe>::apply(Eval<L>::eval(f.lhs,std::forward<ARGS>(arg)...),f.rhs);
     }
};
template<class L,class R,class E>
struct Pipe {
     L lhs;
     R rhs;
     Pipe(L &l,R& r):lhs(l),rhs(r) {
     }
  template<class...ARGS>
   auto operator()(ARGS&&... arg)->decltype(Eval<Pipe>::eval(*this,std::forward<ARGS>(arg)...)) {
        return Eval<Pipe>::eval(*this,std::forward<ARGS>(arg)...);
   }
};



         void streamtest()
        {

            void (*foo1)(char &&)=foo;
            void (*foo2)(int ,int ,short )=foo;
            char (*foo3)()=foo;

            Pipe<char(*)(),void(*)(char&&),pipe> pp(foo3,foo1);
             //pp(); //no call!
        }

error is:

  • FEstream.cpp: In instantiation of 'struct Eval >':
  • FEstream.cpp:121:9: required from 'struct Pipe'
  • FEstream.cpp:134:45: required from here
  • FEstream.cpp:110:18: error: invalid use of incomplete type 'struct Pipe'

  • FEstream.cpp:115:8: error: declaration of 'struct Pipe void (*)(char&&), pipe>'

  • FEstream.cpp:110:18: error: invalid use of incomplete type 'struct Pipe'
  • FEstream.cpp:115:8: error: declaration of 'struct Pipe void (*)(char&&), pipe>'

Process terminated with status 1 (0 minutes, 0 seconds) 6 errors, 0 warnings

Pipe::operator()(ARGS&&... arg) is a template member function.why I declaring variable Pipe(pp) Cause an error? it Should not be instantiated because I have not used itenter code here


anybody? and I forget a status when eval function use by Pipe like

template<class...ARGS>
   auto operator()(ARGS&&... arg)->decltype(eval(*this,std::forward<ARGS>(arg)...)) {
        return eval(*this,std::forward<ARGS>(arg)...);
   }

not

 template<class...ARGS>
   auto operator()(ARGS&&... arg)->decltype(eval<L,R,E>(*this,std::forward<ARGS>(arg)...)) {
        return eval<L,R,E>(*this,std::forward<ARGS>(arg)...);
   }

will error like reece: template instantiation depth exceeds maximum of 900 .....

Seems to be select Eval(F&.... instead of eval(Pipe&f..... when not specify a template parameter

share|improve this question

It's having trouble due to an argument mismatch, somewhere in your call chain. So, we can do it manually to find the problem.

Pipe<char(*)(),void(*)(char&&),pipe> pp(foo3,foo1); is using foo3, which takes 0 arguments as its L, and foo1, which takes an char rvalue-reference as R. And E is your marker structure pipe

When invoked with the int 1.

pp(1) calls eval<L,R,E>(*this, 1), which in turn calls

Flow<E>::apply(eval(foo3,1),foo1).

First, the inner eval is called. This attempts to determine the declval of foo3(1), however, foo3 was declared to take 0 arguments. This causes a compilation failure, which results in the substitution failures you're getting.

Edit: With the changed question, your problem is now you're creating a specialization of Eval for Pipe, but Eval is attempting to use fields of Pipe in it's return declaration (via decltype), and Pipe is doing the same. You're going to have to break that cycle so something can be defined first, or at least set it up so that the cycle isn't introduced in the function declaration, so you can define the methods after you've fully defined both types.

I'm not sure what the Eval class is attempting to accomplish. One solution might be to remove that altogether and simply have Pipe::operator() invoke the method more directly.

share|improve this answer
    
+1; and I noted the helpful error message: error: no matching function for call to 'eval(char (*&)(), int)' – aschepler Aug 6 '12 at 13:38
    
@aschepler, Yeah, that was my first hint, but it does appear 3 times (each time saying no matching function call for.... So I wanted to trace it down. The repeated GCC error chain is because the first failure causes it's caller to not have a return type (as if enable_if had been used), causing it's caller to return an error, and so-on. – Dave S Aug 6 '12 at 13:42
    
thanks.but this is because Simplify the code bring a error.In fact I use template<class F> struct Eval::eval nor only global function eval – Ѫ 晏 Aug 6 '12 at 14:41

I'm building this on Ubuntu with gcc 4.6 (I don't have a version of gcc 4.7 to try) so YMMV.

gcc 4.6 : g++-4.6 -std=c++0x test.cpp

  1. void (*foo2)(int ,int ,short )=foo; -- there is no version of foo matching this signature, so I commented it out.

  2. error: expected a type, got ‘pipe’ -- pipe appears to be defined elsewhere, so renamed it to pipe_.

  3. error: invalid use of ‘this’ at top level -- gcc 4.6 does not like auto operator()->decltype(*this) syntax, so replaced *this with Pipe<L,R,E>(lhs,rhs).

  4. error: no match for call to ‘(Pipe<char (*)(), void (*)(char&&), pipe_>) (int)’ -- gcc 4.6 is failing to match the operator(). Here is where I am puzzled.

clang 3.1 : clang -std=c++11 test.cpp

  1. same mismatched foo declaration as gcc

  2. same "expected 'pipe' to be a type" error as gcc

  3. error: no matching function for call to object of type 'Pipe<char (*)(), void (*)(char &&), pipe_>' when calling operator()

Ok. Both gcc and clang indicate an issue with the operator() definition.

template<class...ARGS>
auto operator()(ARGS&&... arg)->decltype(eval<L,R,E >(*this,std::forward<ARGS>(arg)...));

Here you are calling eval with *this and the forwarded arguments. There are two versions of eval:

template<class F,class...ARGS>
auto eval(F& f,ARGS&&... arg)->decltype(f(std::forward<ARGS>(arg)...));

and:

template<class L,class R,class E,class...ARGS>
auto eval(Pipe<L,R,E>&f,ARGS&&... arg)->decltype(Flow<E>::apply(eval(f.lhs,std::forward<ARGS>(arg)...),f.rhs));

Now, because eval is a function and all arguments are specified in its arguments, you don't need to specify them explicitly. Doing so like:

eval<L,R,E >(*this,std::forward<ARGS>(arg)...)

is telling the compiler that the first argument is L which it is not, it is Pipe<L,R,E>.

Changing the operator() definition to:

template<class...ARGS>
auto operator()(ARGS&&... arg)->decltype(eval(*this,std::forward<ARGS>(arg)...));

now crashes clang and gcc!

EDIT: Ok, now trying the new version with gcc 4.7 I now get:

test.cpp:30:10: error: template instantiation depth exceeds maximum of 900 (use -ftemplate-depth= to increase the maximum) substituting ‘template<class _Tp> constexpr _Tp&& std::forward(typename std::remove_reference<_Tp>::type&&) [with _Tp = int]’
test.cpp:30:10:   required by substitution of ‘template<class L, class R, class E, class ... ARGS> decltype (Flow<E>::apply(eval(f.lhs, (forward<ARGS>)(arg)...), f.rhs)) eval(Pipe<L, R, E>&, ARGS&& ...) [with L = char (*)(); R = void (*)(char&&); E = pipe_; ARGS = int]’
test.cpp:41:17:   required by substitution of ‘template<class ... ARGS> decltype (eval(Pipe(((Pipe*)this)->Pipe<L, R, E>::lhs, ((Pipe*)this)->Pipe<L, R, E>::rhs), (forward<ARGS>)(Pipe::operator()::arg)...)) Pipe::operator()(ARGS&& ...) [with ARGS = {ARGS ...}; L = char (*)(); R = void (*)(char&&); E = pipe_] [with ARGS = {int}]’
test.cpp:25:10:   required by substitution of ‘template<class F, class ... ARGS> decltype (f((forward<ARGS>)(eval::arg)...)) eval(F&, ARGS&& ...) [with F = Pipe<char (*)(), void (*)(char&&), pipe_>; ARGS = {int}]’

with the recursion between 41:17 (Pipe<L,R,E>::operator()) and 25:10 (eval<F,ARGS>()), so it is not picking up the Pipe specialization of eval. Now I am stuck again.

share|improve this answer
    
Dave S is right. I use mingw gcc 4.7 change pp(1) to pp(); enable C++11 use -std=c++11 on gcc instead of -std=c++0x – Ѫ 晏 Aug 6 '12 at 14:46

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