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363 lines
20 KiB
C++
363 lines
20 KiB
C++
/*
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Copyright 2005-2007 Adobe Systems Incorporated
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Use, modification and distribution are subject to the Boost Software License,
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Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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http://www.boost.org/LICENSE_1_0.txt).
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See http://opensource.adobe.com/gil for most recent version including documentation.
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*/
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/*************************************************************************************************/
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#ifndef GIL_LOCATOR_H
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#define GIL_LOCATOR_H
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////////////////////////////////////////////////////////////////////////////////////////
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/// \file
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/// \brief pixel 2D locator
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/// \author Lubomir Bourdev and Hailin Jin \n
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/// Adobe Systems Incorporated
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/// \date 2005-2007 \n September 20, 2006
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///
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////////////////////////////////////////////////////////////////////////////////////////
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#include <cstddef>
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#include <cassert>
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#include "pixel_iterator.hpp"
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////////////////////////////////////////////////////////////////////////////////////////
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/// Pixel 2D LOCATOR
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////////////////////////////////////////////////////////////////////////////////////////
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namespace boost { namespace gil {
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//forward declarations
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template <typename P> ptrdiff_t memunit_step(const P*);
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template <typename P> P* memunit_advanced(const P* p, ptrdiff_t diff);
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template <typename P> P& memunit_advanced_ref(P* p, ptrdiff_t diff);
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template <typename Iterator, typename D> struct iterator_add_deref;
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template <typename T> class point2;
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namespace detail {
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// helper class specialized for each axis of pixel_2d_locator
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template <std::size_t D, typename Loc> class locator_axis;
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}
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template <typename T> struct dynamic_x_step_type;
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template <typename T> struct dynamic_y_step_type;
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template <typename T> struct channel_type;
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template <typename T> struct color_space_type;
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template <typename T> struct channel_mapping_type;
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template <typename T> struct is_planar;
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template <typename T> struct num_channels;
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// The type of a locator or a view that has X and Y swapped. By default it is the same
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template <typename T> struct transposed_type {
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typedef T type;
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};
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/// \class pixel_2d_locator_base
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/// \brief base class for models of PixelLocatorConcept
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/// \ingroup PixelLocatorModel PixelBasedModel
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///
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/// Pixel locator is similar to a pixel iterator, but allows for 2D navigation of pixels within an image view.
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/// It has a 2D difference_type and supports random access operations like:
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/// \code
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/// difference_type offset2(2,3);
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/// locator+=offset2;
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/// locator[offset2]=my_pixel;
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/// \endcode
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///
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/// In addition, each coordinate acts as a random-access iterator that can be modified separately:
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/// "++locator.x()" or "locator.y()+=10" thereby moving the locator horizontally or vertically.
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///
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/// It is called a locator because it doesn't implement the complete interface of a random access iterator.
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/// For example, increment and decrement operations don't make sense (no way to specify dimension).
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/// Also 2D difference between two locators cannot be computed without knowledge of the X position within the image.
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///
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/// This base class provides most of the methods and typedefs needed to create a model of a locator. GIL provides two
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/// locator models as subclasses of \p pixel_2d_locator_base. A memory-based locator, \p memory_based_2d_locator and a virtual
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/// locator, \p virtual_2d_locator.
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/// The minimum functionality a subclass must provide is this:
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/// \code
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/// class my_locator : public pixel_2d_locator_base<my_locator, ..., ...> { // supply the types for x-iterator and y-iterator
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/// typedef ... const_t; // read-only locator
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///
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/// template <typename Deref> struct add_deref {
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/// typedef ... type; // locator that invokes the Deref dereference object upon pixel access
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/// static type make(const my_locator& loc, const Deref& d);
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/// };
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///
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/// my_locator();
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/// my_locator(const my_locator& pl);
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///
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/// // constructors with dynamic step in y (and x). Only valid for locators with dynamic steps
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/// my_locator(const my_locator& loc, coord_t y_step);
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/// my_locator(const my_locator& loc, coord_t x_step, coord_t y_step, bool transpose);
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///
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/// bool operator==(const my_locator& p) const;
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///
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/// // return _references_ to horizontal/vertical iterators. Advancing them moves this locator
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/// x_iterator& x();
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/// y_iterator& y();
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/// x_iterator const& x() const;
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/// y_iterator const& y() const;
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///
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/// // return the vertical distance to another locator. Some models need the horizontal distance to compute it
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/// y_coord_t y_distance_to(const my_locator& loc2, x_coord_t xDiff) const;
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///
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/// // return true iff incrementing an x-iterator located at the last column will position it at the first
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/// // column of the next row. Some models need the image width to determine that.
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/// bool is_1d_traversable(x_coord_t width) const;
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/// };
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/// \endcode
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///
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/// Models may choose to override some of the functions in the base class with more efficient versions.
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///
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template <typename Loc, typename XIterator, typename YIterator> // The concrete subclass, the X-iterator and the Y-iterator
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class pixel_2d_locator_base {
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public:
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typedef XIterator x_iterator;
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typedef YIterator y_iterator;
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// typedefs required by ConstRandomAccessNDLocatorConcept
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static const std::size_t num_dimensions=2;
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typedef typename std::iterator_traits<x_iterator>::value_type value_type;
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typedef typename std::iterator_traits<x_iterator>::reference reference; // result of dereferencing
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typedef typename std::iterator_traits<x_iterator>::difference_type coord_t; // 1D difference type (same for all dimensions)
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typedef point2<coord_t> difference_type; // result of operator-(locator,locator)
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typedef difference_type point_t;
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template <std::size_t D> struct axis {
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typedef typename detail::locator_axis<D,Loc>::coord_t coord_t;
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typedef typename detail::locator_axis<D,Loc>::iterator iterator;
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};
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// typedefs required by ConstRandomAccess2DLocatorConcept
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typedef typename point_t::template axis<0>::coord_t x_coord_t;
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typedef typename point_t::template axis<1>::coord_t y_coord_t;
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bool operator!=(const Loc& p) const { return !(concrete()==p); }
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x_iterator x_at(x_coord_t dx, y_coord_t dy) const { Loc tmp=concrete(); tmp+=point_t(dx,dy); return tmp.x(); }
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x_iterator x_at(const difference_type& d) const { Loc tmp=concrete(); tmp+=d; return tmp.x(); }
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y_iterator y_at(x_coord_t dx, y_coord_t dy) const { Loc tmp=concrete(); tmp+=point_t(dx,dy); return tmp.y(); }
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y_iterator y_at(const difference_type& d) const { Loc tmp=concrete(); tmp+=d; return tmp.y(); }
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Loc xy_at(x_coord_t dx, y_coord_t dy) const { Loc tmp=concrete(); tmp+=point_t(dx,dy); return tmp; }
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Loc xy_at(const difference_type& d) const { Loc tmp=concrete(); tmp+=d; return tmp; }
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template <std::size_t D> typename axis<D>::iterator& axis_iterator() { return detail::locator_axis<D,Loc>()(concrete()); }
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template <std::size_t D> typename axis<D>::iterator const& axis_iterator() const { return detail::locator_axis<D,Loc>()(concrete()); }
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template <std::size_t D> typename axis<D>::iterator axis_iterator(const point_t& p) const { return detail::locator_axis<D,Loc>()(concrete(),p); }
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reference operator()(x_coord_t dx, y_coord_t dy) const { return *x_at(dx,dy); }
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reference operator[](const difference_type& d) const { return *x_at(d.x,d.y); }
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reference operator*() const { return *concrete().x(); }
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Loc& operator+=(const difference_type& d) { concrete().x()+=d.x; concrete().y()+=d.y; return concrete(); }
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Loc& operator-=(const difference_type& d) { concrete().x()-=d.x; concrete().y()-=d.y; return concrete(); }
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Loc operator+(const difference_type& d) const { return xy_at(d); }
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Loc operator-(const difference_type& d) const { return xy_at(-d); }
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// Some locators can cache 2D coordinates for faster subsequent access. By default there is no caching
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typedef difference_type cached_location_t;
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cached_location_t cache_location(const difference_type& d) const { return d; }
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cached_location_t cache_location(x_coord_t dx, y_coord_t dy)const { return difference_type(dx,dy); }
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private:
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Loc& concrete() { return (Loc&)*this; }
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const Loc& concrete() const { return (const Loc&)*this; }
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template <typename X> friend class pixel_2d_locator;
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};
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// helper classes for each axis of pixel_2d_locator_base
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namespace detail {
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template <typename Loc>
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class locator_axis<0,Loc> {
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typedef typename Loc::point_t point_t;
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public:
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typedef typename point_t::template axis<0>::coord_t coord_t;
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typedef typename Loc::x_iterator iterator;
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inline iterator& operator()( Loc& loc) const { return loc.x(); }
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inline iterator const& operator()(const Loc& loc) const { return loc.x(); }
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inline iterator operator()( Loc& loc, const point_t& d) const { return loc.x_at(d); }
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inline iterator operator()(const Loc& loc, const point_t& d) const { return loc.x_at(d); }
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};
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template <typename Loc>
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class locator_axis<1,Loc> {
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typedef typename Loc::point_t point_t;
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public:
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typedef typename point_t::template axis<1>::coord_t coord_t;
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typedef typename Loc::y_iterator iterator;
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inline iterator& operator()( Loc& loc) const { return loc.y(); }
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inline iterator const& operator()(const Loc& loc) const { return loc.y(); }
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inline iterator operator()( Loc& loc, const point_t& d) const { return loc.y_at(d); }
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inline iterator operator()(const Loc& loc, const point_t& d) const { return loc.y_at(d); }
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};
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}
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template <typename Loc, typename XIt, typename YIt>
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struct channel_type<pixel_2d_locator_base<Loc,XIt,YIt> > : public channel_type<XIt> {};
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template <typename Loc, typename XIt, typename YIt>
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struct color_space_type<pixel_2d_locator_base<Loc,XIt,YIt> > : public color_space_type<XIt> {};
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template <typename Loc, typename XIt, typename YIt>
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struct channel_mapping_type<pixel_2d_locator_base<Loc,XIt,YIt> > : public channel_mapping_type<XIt> {};
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template <typename Loc, typename XIt, typename YIt>
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struct is_planar<pixel_2d_locator_base<Loc,XIt,YIt> > : public is_planar<XIt> {};
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/// \class memory_based_2d_locator
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/// \brief Memory-based pixel locator. Models: PixelLocatorConcept,HasDynamicXStepTypeConcept,HasDynamicYStepTypeConcept,HasTransposedTypeConcept
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/// \ingroup PixelLocatorModel PixelBasedModel
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///
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/// The class takes a step iterator as a parameter. The step iterator provides navigation along the vertical axis
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/// while its base iterator provides horizontal navigation.
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///
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/// Each instantiation is optimal in terms of size and efficiency.
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/// For example, xy locator over interleaved rgb image results in a step iterator consisting of
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/// one std::ptrdiff_t for the row size and one native pointer (8 bytes total). ++locator.x() resolves to pointer
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/// increment. At the other extreme, a 2D navigation of the even pixels of a planar CMYK image results in a step
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/// iterator consisting of one std::ptrdiff_t for the doubled row size, and one step iterator consisting of
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/// one std::ptrdiff_t for the horizontal step of two and a CMYK planar_pixel_iterator consisting of 4 pointers (24 bytes).
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/// In this case ++locator.x() results in four native pointer additions.
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///
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/// Note also that \p memory_based_2d_locator does not require that its element type be a pixel. It could be
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/// instantiated with an iterator whose \p value_type models only \p Regular. In this case the locator
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/// models the weaker RandomAccess2DLocatorConcept, and does not model PixelBasedConcept.
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/// Many generic algorithms don't require the elements to be pixels.
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////////////////////////////////////////////////////////////////////////////////////////
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template <typename StepIterator>
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class memory_based_2d_locator : public pixel_2d_locator_base<memory_based_2d_locator<StepIterator>, typename iterator_adaptor_get_base<StepIterator>::type, StepIterator> {
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typedef memory_based_2d_locator<StepIterator> this_t;
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GIL_CLASS_REQUIRE(StepIterator, boost::gil, StepIteratorConcept)
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public:
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typedef pixel_2d_locator_base<memory_based_2d_locator<StepIterator>, typename iterator_adaptor_get_base<StepIterator>::type, StepIterator> parent_t;
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typedef memory_based_2d_locator<typename const_iterator_type<StepIterator>::type> const_t; // same as this type, but over const values
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typedef typename parent_t::coord_t coord_t;
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typedef typename parent_t::x_coord_t x_coord_t;
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typedef typename parent_t::y_coord_t y_coord_t;
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typedef typename parent_t::x_iterator x_iterator;
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typedef typename parent_t::y_iterator y_iterator;
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typedef typename parent_t::difference_type difference_type;
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typedef typename parent_t::reference reference;
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template <typename Deref> struct add_deref {
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typedef memory_based_2d_locator<typename iterator_add_deref<StepIterator,Deref>::type> type;
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static type make(const memory_based_2d_locator<StepIterator>& loc, const Deref& nderef) {
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return type(iterator_add_deref<StepIterator,Deref>::make(loc.y(),nderef));
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}
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};
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memory_based_2d_locator() {}
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memory_based_2d_locator(const StepIterator& yit) : _p(yit) {}
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template <typename SI> memory_based_2d_locator(const memory_based_2d_locator<SI>& loc, coord_t y_step) : _p(loc.x(), loc.row_size()*y_step) {}
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template <typename SI> memory_based_2d_locator(const memory_based_2d_locator<SI>& loc, coord_t x_step, coord_t y_step, bool transpose=false)
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: _p(make_step_iterator(loc.x(),(transpose ? loc.row_size() : loc.pixel_size())*x_step),
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(transpose ? loc.pixel_size() : loc.row_size())*y_step ) {}
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memory_based_2d_locator(x_iterator xit, std::ptrdiff_t row_bytes) : _p(xit,row_bytes) {}
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template <typename X> memory_based_2d_locator(const memory_based_2d_locator<X>& pl) : _p(pl._p) {}
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memory_based_2d_locator(const memory_based_2d_locator& pl) : _p(pl._p) {}
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bool operator==(const this_t& p) const { return _p==p._p; }
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x_iterator const& x() const { return _p.base(); }
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y_iterator const& y() const { return _p; }
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x_iterator& x() { return _p.base(); }
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y_iterator& y() { return _p; }
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// These are faster versions of functions already provided in the superclass
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x_iterator x_at (x_coord_t dx, y_coord_t dy) const { return memunit_advanced(x(), offset(dx,dy)); }
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x_iterator x_at (const difference_type& d) const { return memunit_advanced(x(), offset(d.x,d.y)); }
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this_t xy_at (x_coord_t dx, y_coord_t dy) const { return this_t(x_at( dx , dy ), row_size()); }
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this_t xy_at (const difference_type& d) const { return this_t(x_at( d.x, d.y), row_size()); }
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reference operator()(x_coord_t dx, y_coord_t dy) const { return memunit_advanced_ref(x(),offset(dx,dy)); }
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reference operator[](const difference_type& d) const { return memunit_advanced_ref(x(),offset(d.x,d.y)); }
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this_t& operator+=(const difference_type& d) { memunit_advance(x(),offset(d.x,d.y)); return *this; }
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this_t& operator-=(const difference_type& d) { memunit_advance(x(),offset(-d.x,-d.y)); return *this; }
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// Memory-based locators can have 1D caching of 2D relative coordinates
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typedef std::ptrdiff_t cached_location_t; // type used to store relative location (to allow for more efficient repeated access)
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cached_location_t cache_location(const difference_type& d) const { return offset(d.x,d.y); }
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cached_location_t cache_location(x_coord_t dx, y_coord_t dy)const { return offset(dx,dy); }
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reference operator[](const cached_location_t& loc) const { return memunit_advanced_ref(x(),loc); }
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// Only make sense for memory-based locators
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std::ptrdiff_t row_size() const { return memunit_step(y()); } // distance in mem units (bytes or bits) between adjacent rows
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std::ptrdiff_t pixel_size() const { return memunit_step(x()); } // distance in mem units (bytes or bits) between adjacent pixels on the same row
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bool is_1d_traversable(x_coord_t width) const { return row_size()-pixel_size()*width==0; } // is there no gap at the end of each row?
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// Returns the vertical distance (it2.y-it1.y) between two x_iterators given the difference of their x positions
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std::ptrdiff_t y_distance_to(const this_t& p2, x_coord_t xDiff) const {
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std::ptrdiff_t rowDiff=memunit_distance(x(),p2.x())-pixel_size()*xDiff;
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assert(( rowDiff % row_size())==0);
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return rowDiff / row_size();
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}
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private:
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template <typename X> friend class memory_based_2d_locator;
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std::ptrdiff_t offset(x_coord_t x, y_coord_t y) const { return y*row_size() + x*pixel_size(); }
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StepIterator _p;
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};
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/////////////////////////////
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// PixelBasedConcept
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/////////////////////////////
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template <typename SI>
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struct color_space_type<memory_based_2d_locator<SI> > : public color_space_type<typename memory_based_2d_locator<SI>::parent_t> {
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};
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template <typename SI>
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struct channel_mapping_type<memory_based_2d_locator<SI> > : public channel_mapping_type<typename memory_based_2d_locator<SI>::parent_t> {
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};
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template <typename SI>
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struct is_planar<memory_based_2d_locator<SI> > : public is_planar<typename memory_based_2d_locator<SI>::parent_t> {
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};
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template <typename SI>
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struct channel_type<memory_based_2d_locator<SI> > : public channel_type<typename memory_based_2d_locator<SI>::parent_t> {
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};
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/////////////////////////////
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// HasDynamicXStepTypeConcept
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/////////////////////////////
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// Take the base iterator of SI (which is typically a step iterator) and change it to have a step in x
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template <typename SI>
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struct dynamic_x_step_type<memory_based_2d_locator<SI> > {
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private:
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typedef typename iterator_adaptor_get_base<SI>::type base_iterator_t;
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typedef typename dynamic_x_step_type<base_iterator_t>::type base_iterator_step_t;
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typedef typename iterator_adaptor_rebind<SI, base_iterator_step_t>::type dynamic_step_base_t;
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public:
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typedef memory_based_2d_locator<dynamic_step_base_t> type;
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};
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/////////////////////////////
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// HasDynamicYStepTypeConcept
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/////////////////////////////
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template <typename SI>
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struct dynamic_y_step_type<memory_based_2d_locator<SI> > {
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typedef memory_based_2d_locator<SI> type;
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};
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} } // namespace boost::gil
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#endif
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