pixel_locator.hpp

//
// Copyright 2005-2007 Adobe Systems Incorporated
//
// Distributed under the Boost Software License, Version 1.0
// See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt
//
#ifndef BOOST_GIL_CONCEPTS_PIXEL_LOCATOR_HPP
#define BOOST_GIL_CONCEPTS_PIXEL_LOCATOR_HPP
 
#include <boost/gil/concepts/basic.hpp>
#include <boost/gil/concepts/concept_check.hpp>
#include <boost/gil/concepts/fwd.hpp>
#include <boost/gil/concepts/pixel.hpp>
#include <boost/gil/concepts/pixel_dereference.hpp>
#include <boost/gil/concepts/pixel_iterator.hpp>
#include <boost/gil/concepts/point.hpp>
#include <boost/gil/concepts/detail/utility.hpp>
 
#include <cstddef>
#include <iterator>
#include <type_traits>
 
#if defined(BOOST_CLANG)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wunknown-pragmas"
#pragma clang diagnostic ignored "-Wunused-local-typedefs"
#endif
 
#if defined(BOOST_GCC) && (BOOST_GCC >= 40900)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-local-typedefs"
#pragma GCC diagnostic ignored "-Wunused-but-set-variable"
#endif
 
namespace boost { namespace gil {
 
 
 
 
template <typename Loc>
struct RandomAccessNDLocatorConcept
{
    void constraints()
    {
        gil_function_requires<Regular<Loc>>();
 
        // TODO: Should these be concept-checked instead of ignored? --mloskot
 
        using value_type = typename Loc::value_type;
        ignore_unused_variable_warning(value_type{});
 
        // result of dereferencing
        using reference = typename Loc::reference;
        //ignore_unused_variable_warning(reference{});
 
        // result of operator-(pixel_locator, pixel_locator)
        using difference_type = typename Loc::difference_type;
        ignore_unused_variable_warning(difference_type{});
 
        // type used to store relative location (to allow for more efficient repeated access)
        using cached_location_t = typename Loc::cached_location_t;
        ignore_unused_variable_warning(cached_location_t{});
 
        // same as this type, but over const values
        using const_t = typename Loc::const_t;
        ignore_unused_variable_warning(const_t{});
 
        // same as difference_type
        using point_t = typename Loc::point_t;
        ignore_unused_variable_warning(point_t{});
 
        static std::size_t const N = Loc::num_dimensions; ignore_unused_variable_warning(N);
 
        using first_it_type = typename Loc::template axis<0>::iterator;
        using last_it_type = typename Loc::template axis<N-1>::iterator;
        gil_function_requires<boost_concepts::RandomAccessTraversalConcept<first_it_type>>();
        gil_function_requires<boost_concepts::RandomAccessTraversalConcept<last_it_type>>();
 
        // point_t must be an N-dimensional point, each dimension of which must
        // have the same type as difference_type of the corresponding iterator
        gil_function_requires<PointNDConcept<point_t>>();
        static_assert(point_t::num_dimensions == N, "");
        static_assert(std::is_same
            <
                typename std::iterator_traits<first_it_type>::difference_type,
                typename point_t::template axis<0>::coord_t
            >::value, "");
        static_assert(std::is_same
            <
                typename std::iterator_traits<last_it_type>::difference_type,
                typename point_t::template axis<N-1>::coord_t
            >::value, "");
 
        difference_type d;
        loc += d;
        loc -= d;
        loc = loc + d;
        loc = loc - d;
        reference r1 = loc[d];  ignore_unused_variable_warning(r1);
        reference r2 = *loc;  ignore_unused_variable_warning(r2);
        cached_location_t cl = loc.cache_location(d);  ignore_unused_variable_warning(cl);
        reference r3 = loc[d];  ignore_unused_variable_warning(r3);
 
        first_it_type fi = loc.template axis_iterator<0>();
        fi = loc.template axis_iterator<0>(d);
        last_it_type li = loc.template axis_iterator<N-1>();
        li = loc.template axis_iterator<N-1>(d);
 
        using deref_t = PixelDereferenceAdaptorArchetype<typename Loc::value_type>;
        using dtype = typename Loc::template add_deref<deref_t>::type;
        // TODO: infinite recursion - FIXME?
        //gil_function_requires<RandomAccessNDLocatorConcept<dtype>>();
    }
    Loc loc;
};
 
template <typename Loc>
struct RandomAccess2DLocatorConcept
{
    void constraints()
    {
        gil_function_requires<RandomAccessNDLocatorConcept<Loc>>();
        static_assert(Loc::num_dimensions == 2, "");
 
        using dynamic_x_step_t = typename dynamic_x_step_type<Loc>::type;
        using dynamic_y_step_t = typename dynamic_y_step_type<Loc>::type;
        using transposed_t = typename transposed_type<Loc>::type;
 
        using cached_location_t = typename Loc::cached_location_t;
        gil_function_requires<Point2DConcept<typename Loc::point_t>>();
 
        using x_iterator = typename Loc::x_iterator;
        using y_iterator = typename Loc::y_iterator;
        using x_coord_t = typename Loc::x_coord_t;
        using y_coord_t = typename Loc::y_coord_t;
 
        x_coord_t xd = 0; ignore_unused_variable_warning(xd);
        y_coord_t yd = 0; ignore_unused_variable_warning(yd);
 
        typename Loc::difference_type d;
        typename Loc::reference r=loc(xd,yd);  ignore_unused_variable_warning(r);
 
        dynamic_x_step_t loc2(dynamic_x_step_t(), yd);
        dynamic_x_step_t loc3(dynamic_x_step_t(), xd, yd);
 
        using dynamic_xy_step_transposed_t = typename dynamic_y_step_type
            <
                typename dynamic_x_step_type<transposed_t>::type
            >::type;
        dynamic_xy_step_transposed_t loc4(loc, xd,yd,true);
 
        bool is_contiguous = loc.is_1d_traversable(xd);
        ignore_unused_variable_warning(is_contiguous);
 
        loc.y_distance_to(loc, xd);
 
        loc = loc.xy_at(d);
        loc = loc.xy_at(xd, yd);
 
        x_iterator xit = loc.x_at(d);
        xit = loc.x_at(xd, yd);
        xit = loc.x();
 
        y_iterator yit = loc.y_at(d);
        yit = loc.y_at(xd, yd);
        yit = loc.y();
 
        cached_location_t cl = loc.cache_location(xd, yd);
        ignore_unused_variable_warning(cl);
    }
    Loc loc;
};
 
template <typename Loc>
struct PixelLocatorConcept
{
    void constraints()
    {
        gil_function_requires<RandomAccess2DLocatorConcept<Loc>>();
        gil_function_requires<PixelIteratorConcept<typename Loc::x_iterator>>();
        gil_function_requires<PixelIteratorConcept<typename Loc::y_iterator>>();
        using coord_t = typename Loc::coord_t;
        static_assert(std::is_same<typename Loc::x_coord_t, typename Loc::y_coord_t>::value, "");
    }
    Loc loc;
};
 
namespace detail {
 
template <typename Loc>
struct RandomAccessNDLocatorIsMutableConcept
{
    void constraints()
    {
        gil_function_requires<detail::RandomAccessIteratorIsMutableConcept
            <
                typename Loc::template axis<0>::iterator
            >>();
        gil_function_requires<detail::RandomAccessIteratorIsMutableConcept
            <
                typename Loc::template axis<Loc::num_dimensions-1>::iterator
            >>();
 
        typename Loc::difference_type d; initialize_it(d);
        typename Loc::value_type v; initialize_it(v);
        typename Loc::cached_location_t cl = loc.cache_location(d);
        *loc = v;
        loc[d] = v;
        loc[cl] = v;
    }
    Loc loc;
};
 
// \tparam Loc Models RandomAccess2DLocatorConcept
template <typename Loc>
struct RandomAccess2DLocatorIsMutableConcept
{
    void constraints()
    {
        gil_function_requires<detail::RandomAccessNDLocatorIsMutableConcept<Loc>>();
        typename Loc::x_coord_t xd = 0; ignore_unused_variable_warning(xd);
        typename Loc::y_coord_t yd = 0; ignore_unused_variable_warning(yd);
        typename Loc::value_type v; initialize_it(v);
        loc(xd, yd) = v;
    }
    Loc loc;
};
 
} // namespace detail
 
template <typename Loc>
struct MutableRandomAccessNDLocatorConcept
{
    void constraints()
    {
        gil_function_requires<RandomAccessNDLocatorConcept<Loc>>();
        gil_function_requires<detail::RandomAccessNDLocatorIsMutableConcept<Loc>>();
    }
};
 
template <typename Loc>
struct MutableRandomAccess2DLocatorConcept
{
    void constraints()
    {
        gil_function_requires<RandomAccess2DLocatorConcept<Loc>>();
        gil_function_requires<detail::RandomAccess2DLocatorIsMutableConcept<Loc>>();
    }
};
 
template <typename Loc>
struct MutablePixelLocatorConcept
{
    void constraints()
    {
        gil_function_requires<PixelLocatorConcept<Loc>>();
        gil_function_requires<detail::RandomAccess2DLocatorIsMutableConcept<Loc>>();
    }
};
 
}} // namespace boost::gil
 
#if defined(BOOST_CLANG)
#pragma clang diagnostic pop
#endif
 
#if defined(BOOST_GCC) && (BOOST_GCC >= 40900)
#pragma GCC diagnostic pop
#endif
 
#endif