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// Copyright (C) 2001, 2003, 2004, 2005, 2006 EPITA Research and
// Development Laboratory
//
// This file is part of the Olena Library.  This library is free
// software; you can redistribute it and/or modify it under the terms
// of the GNU General Public License version 2 as published by the
// Free Software Foundation.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
// General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
// 02110-1301 USA
//
// As a special exception, you may use this file as part of a free
// software library without restriction.  Specifically, if other files
// instantiate templates or use macros or inline functions from this
// file, or you compile this file and link it with other files to
// produce an executable, this file does not by itself cause the
// resulting executable to be covered by the GNU General Public
// License.  This exception does not however invalidate any other
// reasons why the executable file might be covered by the GNU General
// Public License.

#ifndef OLENA_CORE_ABSTRACT_IMAGE_HH
# define OLENA_CORE_ABSTRACT_IMAGE_HH

# include <mlc/cmp.hh>
# include <mlc/to_string.hh>
# include <oln/core/abstract/internal/image_impl.hh>


namespace oln {

  // fwd decl
  template <typename I>
  class value_box;

  // fwd decls
  namespace abstract
  {
    template <typename I> class image;
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//     template <typename I> class image_without_nbh;
//     template <typename I> class readonly_image;
//     template <typename I> class raw_image;
//     template <typename P> class point;
// --------------------------------------------------------------------
  }

  // Declare virtual types.
  mlc_decl_typedef(grid_type);

  /// Virtual types associated to oln::abstract::image.
  template <typename I>
  struct vtypes< category::image, abstract::image<I> >
  {
    typedef I exact_type;

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//     typedef mlc::undefined grid_type;
//     typedef mlc::undefined concrete_type;
//     typedef mlc::undefined value_type;
//     typedef mlc::undefined point_type;
//     typedef mlc::undefined size_type;

//     typedef mlc::undefined piter_type;
//     typedef mlc::undefined fwd_piter_type;
//     typedef mlc::undefined bkd_piter_type;

//     typedef mlc::none value_storage_type;
//     typedef mlc::none storage_type;
// --------------------------------------------------------------------
    typedef mlc::none delegated_type;
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//     typedef mlc::none neighb_type;

//     typedef is_a<abstract::image_without_nbh> image_neighbness_type;
//     typedef is_a<abstract::readonly_image> image_constness_type;
//     typedef mlc::undefined image_rawness_type;
// --------------------------------------------------------------------
    typedef mlc::undefined image_dimension_type;
  };

  // FIXME: This should be placed into stc/properties.hh.
  template <typename Category, typename T>
  struct packed_vtypes
  {
    // Empty.
  };

  /// Retrieval of any image type properties (FIXME: say 'packing').
  template <typename I>
  struct packed_vtypes < category::image, I >
  {
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//     typedef oln_type_of(I, grid) grid_type;

//     typedef oln_type_of(I, concrete) concrete_type;
//     typedef oln_type_of(I, value) value_type;
//     typedef oln_type_of(I, point) point_type;
//     typedef oln_type_of(I, size) size_type;

//     typedef oln_type_of(I, piter) piter_type;
//     typedef oln_type_of(I, fwd_piter) fwd_piter_type;
//     typedef oln_type_of(I, bkd_piter) bkd_piter_type;

//     typedef oln_type_of(I, value_storage) value_storage_type;
//     typedef oln_type_of(I, storage) storage_type;
// --------------------------------------------------------------------
    typedef oln_type_of(I, delegated) delegated_type;
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//     typedef oln_type_of(I, neighb) neighb_type;


//     typedef oln_type_of(I, image_neighbness) image_neighbness_type;
//     typedef oln_type_of(I, image_constness) image_constness_type;
//     typedef oln_type_of(I, image_rawness)   image_rawness_type;
// --------------------------------------------------------------------
    typedef oln_type_of(I, image_dimension) image_dimension_type;

    //...

    static void echo(std::ostream& ostr)
    {
      ostr
	<< "props_of( oln::category::image, " << mlc_to_string(I) << " ) ="
	<< std::endl
	<< "{" << std::endl
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
// 	<< "\t grid_type = " << mlc_to_string(grid_type) << std::endl

// 	<< "\t concrete_type = " << mlc_to_string(concrete_type) << std::endl
// 	<< "\t value_type = " << mlc_to_string(value_type) << std::endl
// 	<< "\t point_type = " << mlc_to_string(point_type) << std::endl
// 	<< "\t size_type = " << mlc_to_string(size_type) << std::endl

// 	<< "\t piter_type = " << mlc_to_string(piter_type) << std::endl
// 	<< "\t fwd_piter_type = " << mlc_to_string(fwd_piter_type) << std::endl
// 	<< "\t bkd_piter_type = " << mlc_to_string(bkd_piter_type) << std::endl

// 	<< "\t value_storage_type = " << mlc_to_string(value_storage_type) << std::endl
// 	<< "\t storage_type = " << mlc_to_string(storage_type) << std::endl
// ---------------------------------------------------------------------
	<< "\t delegated_type = " << mlc_to_string(delegated_type) << std::endl
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
// 	<< "\t neighb_type = " << mlc_to_string(neighb_type) << std::endl

// 	<< "\t image_neighbness_type = " << mlc_to_string(image_neighbness_type) << std::endl
// 	<< "\t image_constness_type = " << mlc_to_string(image_constness_type) << std::endl
// 	<< "\t image_rawness_type = " << mlc_to_string(image_rawness_type) << std::endl
// --------------------------------------------------------------------
	<< "\t image_dimension_type = " << mlc_to_string(image_dimension_type) << std::endl
	<< "}" << std::endl;
    }

    static void ensure()
    {
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       mlc::is_ok_< grid_type >::ensure();
//       mlc::is_ok_< concrete_type >::ensure();
//       mlc::is_ok_< value_type >::ensure();
//       mlc::is_ok_< point_type >::ensure();
//       mlc::is_ok_< size_type >::ensure();
//       mlc::is_ok_< piter_type >::ensure();
//       mlc::is_ok_< fwd_piter_type >::ensure();
//       mlc::is_ok_< bkd_piter_type >::ensure();

//       mlc::is_ok_< value_storage_type >::ensure();
//       mlc::is_ok_< storage_type >::ensure();x
// --------------------------------------------------------------------
      mlc::is_ok_< delegated_type >::ensure();
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       mlc::is_ok_< neighb_type >::ensure();

//       mlc::is_ok_< image_neighbness_type >::ensure();
//       mlc::is_ok_< image_constness_type >::ensure();
//       mlc::is_ok_< image_rawness_type >::ensure();
// --------------------------------------------------------------------
      mlc::is_ok_< image_dimension_type >::ensure();
    }
  };

} // end of namespace oln


// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
// # include <oln/core/gen/internal/value_box.hh>
// --------------------------------------------------------------------


namespace oln
{

  /*! \namespace oln::abstract
  ** \brief oln::abstract namespace.
  */
  namespace abstract {


    /*! \class abstract::image<E>
    **
    ** The abstract::image class is the base class from whom derives
    ** every concrete image class.  Basically, an image is a set of
    ** points and a set of values associated with those points.
    **
    ** Parameter E is the exact type of image.
    */


    template <typename E>
    struct image : public internal::get_image_impl < image<E>, E >
    {
// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       /// typedefs
//       typedef oln_type_of(E, size)  size_type;
//       typedef oln_type_of(E, value) value_type;
//       typedef oln_type_of(E, point) point_type;
// --------------------------------------------------------------------


      /*------------------*
       ! abstract methods !
       *------------------*/


      /*! \brief Return the size of the current image.  Nota bene:
      **  this method is abstract-like.it is a pseudo-abstract method.
      **
      ** \return An object deriving from abstract::size.  Ex: if the
      ** image is an image2d<something>, the returned object is a
      ** size2d.
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       const size_type& size() const
//       {
// 	return this->exact().impl_size();
//       }
// --------------------------------------------------------------------


      /*! \brief Return the number of points of the current image.
      **  Nota bene: this method is abstract-like.
      **
      ** FIXME: this method should be deferred in an abstract subclass
      ** since its complexity can vary from a concrete image to another...
      **
      ** \return A positive value.  It can be 0 when the image size is
      ** not yet defined; ex: image2d<int> ima; cout << ima.npoints();
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       unsigned long npoints() const
//       {
// 	return this->exact().impl_npoints();
//       }
// --------------------------------------------------------------------


      /*! \brief Test if the point \a p belongs to the current image.
      ** Please note that a point of the outer boundary of an image
      ** does NOT belong to the image.  Nota bene: this method is
      ** abstract-like.
      **
      ** \return True if p belongs to the current image, false otherwise.
      **
      ** \see hold_large
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       bool hold(const point_type& p) const;  // impl is in box.hh
// --------------------------------------------------------------------


      /*! \brief Test if \a p is a proper point to access a value of
      ** the current image.  When an image has an outer boundary, the
      ** points of this boundary have values and these values can be
      ** accessed.  Nota bene: this method is polymorphic so it can be
      ** overriden in derived classes; by default, hold_large behaves
      ** like hold.
      **
      ** FIXME: hold_large should come only for images WITH a border!
      **
      ** \return True if (*this)[p] is ok, false otherwise.
      **
      ** \see hold
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       bool hold_large(const point_type& p) const
//       {
// 	precondition(this->npoints() != 0);
// 	return this->exact().impl_hold_large(p);
//       }
// --------------------------------------------------------------------


      /*! \brief Default implementation for hold_large.  If not
      **  overriden in derived class, it just calls hold(p).
      **
      ** FIXME: hold_large should come only for images WITH a border!
      **
      ** \return True if (*this)[p] is ok, false otherwise.
      **
      ** \see hold_large
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       bool impl_hold_large(const point_type& p) const
//       {
// 	// it relies on 'impl_hold' to avoid counting one call to
// 	// 'hold' when the effective call is 'hold_large'
// 	return this->exact().impl_hold(p);
//       }
// --------------------------------------------------------------------



      /*------------------*
       ! concrete methods !
       *------------------*/

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       template <typename P>
//       void operator()(const oln::abstract::point<P>&) const
//       {
// 	// FIXME: provide an explicit err msg, e.g., "(p) should not be used on an ima"
//       }
// --------------------------------------------------------------------

      /*! \brief Give access to the value stored at \a p in the
      ** current image.  Precisely it returns a box that encloses this
      ** value.  FIXME: say more about that box!
      **
      ** \precondition this->hold_large(p)
      **
      ** \see value_box
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       value_box<const E> operator[](const point_type& p) const
//       {
// 	precondition(this->npoints() != 0);
// 	precondition(this->hold_large(p));
// 	value_box<const E> tmp(this->exact(), p);
// 	return tmp;
//       }
// --------------------------------------------------------------------


      /*! \brief Gives access to the value stored at \a p in the
      ** current image.  Precisely it returns a box that encloses this
      ** value.
      **
      ** \precondition this->hold_large(p)
      **
      ** \see value_box
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       value_box<E> operator[](const point_type& p)
//       {
// 	precondition(this->npoints() != 0);
// 	precondition(this->hold_large(p));
// 	value_box<E> tmp(this->exact(), p);
// 	return tmp;
//       }
// --------------------------------------------------------------------


      /*! \brief Destructor.
      */

      virtual ~image()
      {
	// FIXME: static check fails because "pointer to member conversion via virtual base"...
// 	mlc_check_method_impl(E, const size_type&, size,       ,                  const);
// 	mlc_check_method_impl(E, unsigned long,    npoints,    ,                  const);
// 	mlc_check_method_impl(E, bool,             hold,       const point_type&, const);
// 	mlc_check_method_impl(E, bool,             hold_large, const point_type&, const);
// 	mlc_check_method_impl(E, const value_type, get,        const point_type&, const);
// 	mlc_check_method_impl_2(E, void,           resize_border, size_t, bool,   const);
      }



      // explanation:
      // ------------
      // though it works (uncommented) with g++-3.3, it is commented
      // for bwd compatibility purpose because of g++-2.95 that does not accept
      // "partial specialization declared friend"...
      /*
      friend class oln::value_box<E>;
      friend class oln::value_box<const E>;
      private:
      */

      /*! \brief Read-only access to the value stored at \a p in the
      ** current image.  This method is used in value_box<I>.  Client
      ** should not use this method but
      ** abstract::image<I>::operator[](point) instead.
      **
      ** \return The value stored at \a p.
      **
      ** \see value_box, abstract::image<I>::operator[](point)
      */

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//       const value_type get(const point_type& p) const;  // impl is in box.hh
// --------------------------------------------------------------------

// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------

      // FIXME: patch!
//       void resize_border(size_t new_border, bool copy_border = false) const
//       {
// 	this->exact().impl_resize_border(new_border, copy_border);
//       }
// --------------------------------------------------------------------

    protected:

      /*! \brief Constructor (protected, empty).
      */
      image() {}

      /*! \brief Cpy constructor (protected, empty).
      */
      image(const image&) {}

      /*! \brief Op= (protected, empty).
      */
      void operator=(const image&) {}
    };



// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
//     /*! \namespace oln::abstract::internal
//     ** \brief oln::abstract::internal namespace.
//     */
//     namespace internal {

//       template <typename E>
//       struct set_image_impl < image<E>, E > : public virtual image_impl<E>
//       {

// 	/// typedefs

// 	typedef typename image_impl<E>::D D;

// 	typedef oln_type_of(D, size)  size_type;
// 	typedef oln_type_of(D, point) point_type;
// 	typedef oln_type_of(D, value) value_type;

// 	// delegations are "template methods" (Cf. the GOF's book)

// 	const size_type& impl_size() const
// 	{
// 	  const size_type& s = this->delegate().size();
// 	  this->exact().impl_size_extra(s);
// 	  return s;
// 	}

// 	unsigned long impl_npoints() const
// 	{
// 	  unsigned long n = this->delegate().npoints();
// 	  this->exact().impl_npoints_extra(n);
// 	  return n;
// 	}

// 	bool impl_hold(const point_type& p) const
// 	{
// 	  this->exact().impl_hold_extra(p);
// 	  return this->delegate().hold(p);
// 	}

// 	bool impl_hold_large(const point_type& p) const
// 	{
// 	  this->exact().impl_hold_large_extra(p);
// 	  return this->delegate().hold_large(p);
// 	}

// 	value_box<const D> operator[](const point_type& p) const
// 	{
// 	  precondition(this->hold_large(p));
// 	  return this->delegate().operator[](p);
// 	}

// 	value_box<D> operator[](const point_type& p)
// 	{
// 	  precondition(this->hold_large(p));
// 	  return this->delegate().operator[](p);
// 	}

// 	const value_type impl_get(const point_type& p) const
// 	{
// 	  this->exact().impl_get_extra(p);
// 	  return this->delegate().get(p);
// 	}

// 	// FIXME: patch

// 	void impl_resize_border(size_t new_border, bool copy_border) const
// 	{
// 	  this->delegate().impl_resize_border(new_border, copy_border);
// 	}

// 	// extra code; default is "do nothing"

// 	void impl_size_extra(const size_type& s) const {}
// 	void impl_npoints_extra(unsigned long n) const {}

// 	void impl_hold_extra(const point_type& p) const {}
// 	void impl_hold_large_extra(const point_type& p) const {}

// 	void impl_get_extra(const point_type&) const {}
//       };

//     } // end of namespace oln::abstract::internal
// --------------------------------------------------------------------

  } // end of namespace oln::abstract

} // end of namespace oln


// --------------------------------------------------------------------
// FIXME: To be enabled later.
// --------------------------------------------------------------------
// # include <oln/core/abstract/piter.hh>
// --------------------------------------------------------------------
// this allows for browsing points in file
// where oln/core/abstract/image.hh is included


#endif // ! OLENA_CORE_ABSTRACT_IMAGE_HH