cgal/Kernel_23/include/CGAL/Kernel_checker.h

// Copyright (c) 2001  Utrecht University (The Netherlands),
// ETH Zurich (Switzerland), Freie Universitaet Berlin (Germany),
// INRIA Sophia-Antipolis (France), Martin-Luther-University Halle-Wittenberg
// (Germany), Max-Planck-Institute Saarbruecken (Germany), RISC Linz (Austria),
// and Tel-Aviv University (Israel).  All rights reserved.
//
// This file is part of CGAL (www.cgal.org); you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; version 2.1 of the License.
// See the file LICENSE.LGPL distributed with CGAL.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
//
// $URL$
// $Id$
// 
//
// Author(s)     : Sylvain Pion

#ifndef CGAL_KERNEL_CHECKER_H
#define CGAL_KERNEL_CHECKER_H

// This file contains the definition of a kernel traits checker.
//
// TODO:
// - At the moment, only predicates are checked.  To handle constructions as
//   well, the best approach is probably to have objects be pairs, and do
//   everything in parallel (cf Curved_kernel's traits checker for an example).
//   So the template parameter will be a comparator, not a converter.

#include <CGAL/basic.h>
#include <utility>
#include <typeinfo>

CGAL_BEGIN_NAMESPACE

// Small utility to manipulate pairs for kernel objects, and
// simple things for bool, Sign...  Object is yet another case...
template < typename T1, typename T2 >
struct Pairify {
  typedef std::pair<T1, T2>  result_type;
  result_type operator()(const T1 &t1, const T2 &t2) const
  { return std::make_pair(t1, t2); }
};

template <>
struct Pairify <bool, bool> {
  typedef bool   result_type;
  result_type operator()(const bool &t1, const bool &t2) const
  { CGAL_kernel_assertion(t1 == t2); return t1; }
};

template <>
struct Pairify <Sign, Sign> {
  typedef Sign   result_type;
  result_type operator()(const Sign &t1, const Sign &t2) const
  { CGAL_kernel_assertion(t1 == t2); return t1; }
};

template <>
struct Pairify <Bounded_side, Bounded_side> {
  typedef Bounded_side   result_type;
  result_type operator()(const Bounded_side &t1, const Bounded_side &t2) const
  { CGAL_kernel_assertion(t1 == t2); return t1; }
};

template <>
struct Pairify <Angle, Angle> {
  typedef Angle   result_type;
  result_type operator()(const Angle &t1, const Angle &t2) const
  { CGAL_kernel_assertion(t1 == t2); return t1; }
};


// Class used by Kernel_checker.
template <class P1, class P2, class Cmp>
class Primitive_checker
{
    P1  p1;
    P2  p2;
    Cmp cmp;
    typedef Pairify<typename P1::result_type,
		    typename P2::result_type>  Pair_maker;
    Pair_maker  pair_maker;

public:

    typedef typename Pair_maker::result_type   result_type;
    typedef typename P1::Arity                 Arity;

    Primitive_checker(const P1 &pp1 = P1(), const P2 &pp2 = P2(),
                      const Cmp &c = Cmp())
	: p1(pp1), p2(pp2), cmp(c) {}

    template <class A1>
    result_type
    operator()(const A1 &a1) const
    {
	typename P1::result_type res1 = p1(a1.first);
	typename P2::result_type res2 = p2(a1.second);
	if (! cmp(res1, res2))
	{
	    std::cerr << "Kernel_checker error : " << res1 << " != " << res2
		      << " for the inputs : " << std::endl;
	    std::cerr << a1.first << std::endl;
	    std::cerr << a1.second << std::endl;
            std::cerr << "functor first kernel : "
		      << typeid(p1).name() << std::endl;
            std::cerr << "functor second kernel: "
		      << typeid(p2).name() << std::endl;
	    std::cerr << CGAL_PRETTY_FUNCTION << std::endl;
	    CGAL_kernel_assertion(false);
	}
	return pair_maker(res1, res2);
    }

    template <class A1, class A2>
    result_type
    operator()(const A1 &a1, const A2 &a2) const
    {
	typename P1::result_type res1 = p1(a1.first, a2.first);
	typename P2::result_type res2 = p2(a1.second, a2.second);
	if (! cmp(res1, res2))
	{
	    std::cerr << "Kernel_checker error : " << res1 << " != " << res2
		      << " for the inputs : " << std::endl;
	    std::cerr << a1.first << std::endl;
	    std::cerr << a1.second << std::endl;
	    std::cerr << a2.first << std::endl;
	    std::cerr << a2.second << std::endl;
            std::cerr << "functor first kernel : "
		      << typeid(p1).name() << std::endl;
            std::cerr << "functor second kernel: "
		      << typeid(p2).name() << std::endl;
	    std::cerr << CGAL_PRETTY_FUNCTION << std::endl;
	    CGAL_kernel_assertion(false);
	}
	return pair_maker(res1, res2);
    }

    template <class A1, class A2, class A3>
    result_type
    operator()(const A1 &a1, const A2 &a2, const A3 &a3) const
    {
	typename P1::result_type res1 = p1(a1.first, a2.first, a3.first);
	typename P2::result_type res2 = p2(a1.second, a2.second, a3.second);
	if (! cmp(res1, res2))
	{
	    std::cerr << "Kernel_checker error : " << res1 << " != " << res2
		      << " for the inputs : " << std::endl;
	    std::cerr << a1.first << std::endl;
	    std::cerr << a1.second << std::endl;
	    std::cerr << a2.first << std::endl;
	    std::cerr << a2.second << std::endl;
	    std::cerr << a3.first << std::endl;
	    std::cerr << a3.second << std::endl;
            std::cerr << "functor first kernel : "
		      << typeid(p1).name() << std::endl;
            std::cerr << "functor second kernel: "
		      << typeid(p2).name() << std::endl;
	    std::cerr << CGAL_PRETTY_FUNCTION << std::endl;
	    CGAL_kernel_assertion(false);
	}
	return pair_maker(res1, res2);
    }

    template <class A1, class A2, class A3, class A4>
    result_type
    operator()(const A1 &a1, const A2 &a2, const A3 &a3, const A4 &a4) const
    {
	typename P1::result_type res1 = p1(a1.first, a2.first,
                                           a3.first, a4.first);
	typename P2::result_type res2 = p2(a1.second, a2.second,
                                           a3.second, a4.second);
	if (! cmp(res1, res2))
	{
	    std::cerr << "Kernel_checker error : " << res1 << " != " << res2
		      << " for the inputs : " << std::endl;
	    std::cerr << a1.first << std::endl;
	    std::cerr << a1.second << std::endl;
	    std::cerr << a2.first << std::endl;
	    std::cerr << a2.second << std::endl;
	    std::cerr << a3.first << std::endl;
	    std::cerr << a3.second << std::endl;
	    std::cerr << a4.first << std::endl;
	    std::cerr << a4.second << std::endl;
            std::cerr << "functor first kernel : "
		      << typeid(p1).name() << std::endl;
            std::cerr << "functor second kernel: "
		      << typeid(p2).name() << std::endl;
	    std::cerr << CGAL_PRETTY_FUNCTION << std::endl;
	    CGAL_kernel_assertion(false);
	}
	return pair_maker(res1, res2);
    }

    template <class A1, class A2, class A3, class A4, class A5>
    result_type
    operator()(const A1 &a1, const A2 &a2, const A3 &a3, const A4 &a4,
               const A5 &a5) const
    {
	typename P1::result_type res1 = p1(a1.first, a2.first,
                                           a3.first, a4.first, a5.first);
	typename P2::result_type res2 = p2(a1.second, a2.second,
                                           a3.second, a4.second, a5.second);
	if (! cmp(res1, res2))
	{
	    std::cerr << "Kernel_checker error : " << res1 << " != " << res2
		      << " for the inputs : " << std::endl;
	    std::cerr << a1.first << std::endl;
	    std::cerr << a1.second << std::endl;
	    std::cerr << a2.first << std::endl;
	    std::cerr << a2.second << std::endl;
	    std::cerr << a3.first << std::endl;
	    std::cerr << a3.second << std::endl;
	    std::cerr << a4.first << std::endl;
	    std::cerr << a4.second << std::endl;
	    std::cerr << a5.first << std::endl;
	    std::cerr << a5.second << std::endl;
            std::cerr << "functor first kernel : "
		      << typeid(p1).name() << std::endl;
            std::cerr << "functor second kernel: "
		      << typeid(p2).name() << std::endl;
	    std::cerr << CGAL_PRETTY_FUNCTION << std::endl;
	    CGAL_kernel_assertion(false);
	}
	return pair_maker(res1, res2);
    }

    // Same thing with more arguments...
};

struct dont_check_equal {
  template < typename T1, typename T2 >
  bool operator()(const T1 &t1, const T2 &t2) const
  { return true; }
  template < typename T >
  bool operator()(const T &t1, const T &t2) const
  { return t1 == t2; }
};

template < class K1, class K2, class Cmp = dont_check_equal >
class Kernel_checker
{
    K1 k1;
    K2 k2;
    Cmp cmp;

public:

    typedef K1     Kernel1;
    typedef K2     Kernel2;
    typedef Cmp    Comparator;

    // Kernel objects are defined as pairs, with primitives run in parallel.
#define CGAL_kc_pair(X) typedef std::pair<typename K1::X, typename K2::X> X;

    CGAL_kc_pair(RT)
    CGAL_kc_pair(FT)

    // TODO : Object_[23] are subtil : should probably be Object(pair<...>).
    // Or should Assign_[23] be used, and that's it ?
    // In any case, Assign will have to be treated separately because it
    // takes its first argument by non-const reference.
    // Maybe Primitive_checker should provide a variant with non-const ref...

    CGAL_kc_pair(Object_2)
    CGAL_kc_pair(Object_3)

    CGAL_kc_pair(Point_2)
    CGAL_kc_pair(Vector_2)
    CGAL_kc_pair(Direction_2)
    CGAL_kc_pair(Line_2)
    CGAL_kc_pair(Ray_2)
    CGAL_kc_pair(Segment_2)
    CGAL_kc_pair(Triangle_2)
    CGAL_kc_pair(Iso_rectangle_2)
    CGAL_kc_pair(Circle_2)
    CGAL_kc_pair(Conic_2)
    CGAL_kc_pair(Aff_transformation_2)

    CGAL_kc_pair(Point_3)
    CGAL_kc_pair(Plane_3)
    CGAL_kc_pair(Vector_3)
    CGAL_kc_pair(Direction_3)
    CGAL_kc_pair(Line_3)
    CGAL_kc_pair(Ray_3)
    CGAL_kc_pair(Segment_3)
    CGAL_kc_pair(Triangle_3)
    CGAL_kc_pair(Tetrahedron_3)
    CGAL_kc_pair(Iso_cuboid_3)
    CGAL_kc_pair(Sphere_3)
    CGAL_kc_pair(Aff_transformation_3)

#undef CGAL_kc_pair

#define CGAL_Kernel_pred(X, Y) \
    typedef Primitive_checker<typename K1::X, typename K2::X, Cmp> X; \
    X Y() const { return X(k1.Y(), k2.Y(), cmp); }

#define CGAL_Kernel_cons(Y,Z) CGAL_Kernel_pred(Y,Z)

public:

#include <CGAL/Kernel/interface_macros.h>
};

CGAL_END_NAMESPACE

#endif // CGAL_KERNEL_CHECKER_H