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lumiera_/research/try.cpp
Ichthyostega dfea57fd02 Function-Tools: switch tail-call to variadic template 
..otherwise unchanged.

NOTE: we need two variants, since lambdas are always const functions,
      while a member pointer to (non)const function would not be captured
      by that overload and thus recurse into the main case and fail there
      with "has no operator()"
2017-03-19 00:27:59 +01:00

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/* try.cpp - for trying out some language features....
* scons will create the binary bin/try
*
*/
// 8/07 - how to control NOBUG??
// execute with NOBUG_LOG='ttt:TRACE' bin/try
// 1/08 - working out a static initialisation problem for Visitor (Tag creation)
// 1/08 - check 64bit longs
// 4/08 - comparison operators on shared_ptr<Asset>
// 4/08 - conversions on the value_type used for boost::any
// 5/08 - how to guard a downcasting access, so it is compiled in only if the involved types are convertible
// 7/08 - combining partial specialisation and subclasses
// 10/8 - abusing the STL containers to hold noncopyable values
// 6/09 - investigating how to build a mixin template providing an operator bool()
// 12/9 - tracking down a strange "warning: type qualifiers ignored on function return type"
// 1/10 - can we determine at compile time the presence of a certain function (for duck-typing)?
// 4/10 - pretty printing STL containers with python enabled GDB?
// 1/11 - exploring numeric limits
// 1/11 - integer floor and wrap operation(s)
// 1/11 - how to fetch the path of the own executable -- at least under Linux?
// 10/11 - simple demo using a pointer and a struct
// 11/11 - using the boost random number generator(s)
// 12/11 - how to detect if string conversion is possible?
// 1/12 - is partial application of member functions possible?
// 5/14 - c++11 transition: detect empty function object
// 7/14 - c++11 transition: std hash function vs. boost hash
// 9/14 - variadic templates and perfect forwarding
// 11/14 - pointer to member functions and name mangling
// 8/15 - Segfault when loading into GDB (on Debian/Jessie 64bit
// 8/15 - generalising the Variant::Visitor
// 1/16 - generic to-string conversion for ostream
// 1/16 - build tuple from runtime-typed variant container
// 3/17 - generic function signature traits, including support for Lambdas
/** @file try.cpp
** Metaprogramming: unified treatment of functors, function references and lambdas.
**
** This investigation is a partial step towards #994 and became necessary to support
** Command definition by Lambda
**
*/
typedef unsigned int uint;
#include "lib/format-cout.hpp"
#include "lib/format-util.hpp"
#include "lib/meta/function.hpp"
#include <functional>
#include <string>
using lib::meta::_Fun;
using std::function;
using std::placeholders::_1;
using std::bind;
using std::string;
using std::tuple;
////////////////############# Investigation of implementation variants
namespace lib {
namespace meta {
template< typename RET, class CLASS
, typename...ARGS
>
struct _Fun<RET (CLASS::*) (ARGS...) const>
{
typedef RET Ret;
typedef Types<CLASS* const, ARGS...> Args;
typedef RET Sig(CLASS* const, ARGS...);
};
template< typename RET, class CLASS
, typename...ARGS
>
struct _Fun<RET (CLASS::*) (ARGS...) >
{
typedef RET Ret;
typedef Types<CLASS* const, ARGS...> Args;
typedef RET Sig(CLASS* const, ARGS...);
};
}}//namespace lib::meta
////////////////############# Investigation of implementation variants
int
funny (uint i)
{
return -i+1;
}
struct Funky
{
int ii = 2;
int
fun (uint i2)
{
return ii + funny(i2);
}
int
operator() (uint i2)
{
return 2*ii - fun(i2);
}
static int
notfunny (uint i)
{
return 2*funny (i);
}
};
#define SHOW_TYPE(_TY_) \
cout << "typeof( " << STRINGIFY(_TY_) << " )= " << lib::meta::typeStr<_TY_>() <<endl;
#define EVAL_PREDICATE(_PRED_) \
cout << STRINGIFY(_PRED_) << "\t : " << _PRED_ <<endl;
template<typename F>
void
showType (F)
{
using Sig = typename _Fun<F>::Sig;
SHOW_TYPE (F);
SHOW_TYPE (Sig);
}
using Fun = function<int(uint)>;
using Fuk = function<int(Funky&, uint)>;
int
main (int, char**)
{
Fun f1{funny};
Fun f2{&funny};
Fun f3{Funky::notfunny};
Fun f4{&Funky::notfunny};
auto memfunP = &Funky::fun;
Fuk f5{memfunP};
Funky funk;
Fun f6{bind (f5, funk, _1)};
auto lambda = [&](uint ii) { return funk.fun(ii); };
Fun f7{lambda};
showType (funny);
showType (&funny);
showType (Funky::notfunny);
showType (memfunP);
showType (lambda);
showType (f7);
cout << "\n\n-------\n";
SHOW_TYPE (decltype(&Funky::operator()));
SHOW_TYPE (decltype(lambda));
cout << "\n.gulp.\n";
return 0;
}
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