303 lines
14 KiB
C++
303 lines
14 KiB
C++
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/*
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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://stlab.adobe.com/gil for most recent version including documentation.
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*/
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/*************************************************************************************************/
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#ifndef GIL_BIT_ALIGNED_PIXEL_REFERENCE_HPP
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#define GIL_BIT_ALIGNED_PIXEL_REFERENCE_HPP
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////////////////////////////////////////////////////////////////////////////////////////
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/// \file
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/// \brief A model of a heterogeneous pixel that is not byte aligned. Examples are bitmap (1-bit pixels) or 6-bit RGB (222)
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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 Last updated on September 28, 2006
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///
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////////////////////////////////////////////////////////////////////////////////////////
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#include <functional>
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#include <boost/mpl/accumulate.hpp>
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#include <boost/mpl/at.hpp>
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#include <boost/mpl/bool.hpp>
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#include <boost/mpl/if.hpp>
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#include <boost/mpl/plus.hpp>
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#include <boost/mpl/push_back.hpp>
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#include <boost/mpl/vector.hpp>
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#include "gil_config.hpp"
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#include "pixel.hpp"
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#include "channel.hpp"
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namespace boost { namespace gil {
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/////////////////////////////
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// bit_range
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//
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// Represents a range of bits that can span multiple consecutive bytes. The range has a size fixed at compile time, but the offset is specified at run time.
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/////////////////////////////
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template <int RangeSize, bool Mutable>
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class bit_range {
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public:
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typedef typename mpl::if_c<Mutable,unsigned char,const unsigned char>::type byte_t;
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typedef std::ptrdiff_t difference_type;
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template <int RS, bool M> friend class bit_range;
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private:
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byte_t* _current_byte; // the starting byte of the bit range
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int _bit_offset; // offset from the beginning of the current byte. 0<=_bit_offset<=7
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public:
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bit_range() : _current_byte(NULL), _bit_offset(0) {}
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bit_range(byte_t* current_byte, int bit_offset) : _current_byte(current_byte), _bit_offset(bit_offset) { assert(bit_offset>=0 && bit_offset<8); }
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bit_range(const bit_range& br) : _current_byte(br._current_byte), _bit_offset(br._bit_offset) {}
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template <bool M> bit_range(const bit_range<RangeSize,M>& br) : _current_byte(br._current_byte), _bit_offset(br._bit_offset) {}
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bit_range& operator=(const bit_range& br) { _current_byte = br._current_byte; _bit_offset=br._bit_offset; return *this; }
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bool operator==(const bit_range& br) const { return _current_byte==br._current_byte && _bit_offset==br._bit_offset; }
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bit_range& operator++() {
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_current_byte += (_bit_offset+RangeSize) / 8;
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_bit_offset = (_bit_offset+RangeSize) % 8;
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return *this;
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}
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bit_range& operator--() { bit_advance(-RangeSize); return *this; }
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void bit_advance(difference_type num_bits) {
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int new_offset = int(_bit_offset+num_bits);
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_current_byte += new_offset / 8;
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_bit_offset = new_offset % 8;
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if (_bit_offset<0) {
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_bit_offset+=8;
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--_current_byte;
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}
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}
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difference_type bit_distance_to(const bit_range& b) const {
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return (b.current_byte() - current_byte())*8 + b.bit_offset()-bit_offset();
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}
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byte_t* current_byte() const { return _current_byte; }
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int bit_offset() const { return _bit_offset; }
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};
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/// \defgroup ColorBaseModelNonAlignedPixel bit_aligned_pixel_reference
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/// \ingroup ColorBaseModel
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/// \brief A heterogeneous color base representing pixel that may not be byte aligned, i.e. it may correspond to a bit range that does not start/end at a byte boundary. Models ColorBaseConcept.
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/**
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\defgroup PixelModelNonAlignedPixel bit_aligned_pixel_reference
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\ingroup PixelModel
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\brief A heterogeneous pixel reference used to represent non-byte-aligned pixels. Models PixelConcept
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Example:
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\code
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unsigned char data=0;
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// A mutable reference to a 6-bit BGR pixel in "123" format (1 bit for red, 2 bits for green, 3 bits for blue)
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typedef const bit_aligned_pixel_reference<unsigned char, mpl::vector3_c<int,1,2,3>, rgb_layout_t, true> rgb123_ref_t;
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// create the pixel reference at bit offset 2
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// (i.e. red = [2], green = [3,4], blue = [5,6,7] bits)
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rgb123_ref_t ref(&data, 2);
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get_color(ref, red_t()) = 1;
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assert(data == 0x04);
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get_color(ref, green_t()) = 3;
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assert(data == 0x1C);
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get_color(ref, blue_t()) = 7;
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assert(data == 0xFC);
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\endcode
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*/
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/// \ingroup ColorBaseModelNonAlignedPixel PixelModelNonAlignedPixel PixelBasedModel
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/// \brief Heterogeneous pixel reference corresponding to non-byte-aligned bit range. Models ColorBaseConcept, PixelConcept, PixelBasedConcept
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template <typename BitField,
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typename ChannelBitSizes, // MPL integral vector defining the number of bits for each channel. For example, for 565RGB, vector_c<int,5,6,5>
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typename Layout,
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bool IsMutable>
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struct bit_aligned_pixel_reference {
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BOOST_STATIC_CONSTANT(int, bit_size = (mpl::accumulate<ChannelBitSizes, mpl::int_<0>, mpl::plus<mpl::_1, mpl::_2> >::type::value));
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typedef boost::gil::bit_range<bit_size,IsMutable> bit_range_t;
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typedef BitField bitfield_t;
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typedef typename mpl::if_c<IsMutable,unsigned char*,const unsigned char*>::type data_ptr_t;
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typedef Layout layout_t;
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typedef typename packed_pixel_type<bitfield_t,ChannelBitSizes,Layout>::type value_type;
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typedef const bit_aligned_pixel_reference reference;
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typedef const bit_aligned_pixel_reference<BitField,ChannelBitSizes,Layout,false> const_reference;
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BOOST_STATIC_CONSTANT(bool, is_mutable = IsMutable);
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bit_aligned_pixel_reference(){}
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bit_aligned_pixel_reference(data_ptr_t data_ptr, int bit_offset) : _bit_range(data_ptr, bit_offset) {}
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explicit bit_aligned_pixel_reference(const bit_range_t& bit_range) : _bit_range(bit_range) {}
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template <bool IsMutable2> bit_aligned_pixel_reference(const bit_aligned_pixel_reference<BitField,ChannelBitSizes,Layout,IsMutable2>& p) : _bit_range(p._bit_range) {}
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// Grayscale references can be constructed from the channel reference
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explicit bit_aligned_pixel_reference(const typename kth_element_type<bit_aligned_pixel_reference,0>::type channel0) : _bit_range(static_cast<data_ptr_t>(&channel0), channel0.first_bit()) {
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BOOST_STATIC_ASSERT((num_channels<bit_aligned_pixel_reference>::value==1));
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}
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// Construct from another compatible pixel type
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bit_aligned_pixel_reference(const bit_aligned_pixel_reference& p) : _bit_range(p._bit_range) {}
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template <typename BF, typename CR> bit_aligned_pixel_reference(packed_pixel<BF,CR,Layout>& p) : _bit_range(static_cast<data_ptr_t>(&gil::at_c<0>(p)), gil::at_c<0>(p).first_bit()) {
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check_compatible<packed_pixel<BF,CR,Layout> >();
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}
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const bit_aligned_pixel_reference& operator=(const bit_aligned_pixel_reference& p) const { static_copy(p,*this); return *this; }
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template <typename P> const bit_aligned_pixel_reference& operator=(const P& p) const { assign(p, mpl::bool_<is_pixel<P>::value>()); return *this; }
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template <typename P> bool operator==(const P& p) const { return equal(p, mpl::bool_<is_pixel<P>::value>()); }
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template <typename P> bool operator!=(const P& p) const { return !(*this==p); }
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const bit_aligned_pixel_reference* operator->() const { return this; }
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const bit_range_t& bit_range() const { return _bit_range; }
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private:
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mutable bit_range_t _bit_range;
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template <typename B, typename C, typename L, bool M> friend struct bit_aligned_pixel_reference;
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template <typename Pixel> static void check_compatible() { gil_function_requires<PixelsCompatibleConcept<Pixel,bit_aligned_pixel_reference> >(); }
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template <typename Pixel> void assign(const Pixel& p, mpl::true_) const { check_compatible<Pixel>(); static_copy(p,*this); }
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template <typename Pixel> bool equal(const Pixel& p, mpl::true_) const { check_compatible<Pixel>(); return static_equal(*this,p); }
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private:
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static void check_gray() { BOOST_STATIC_ASSERT((is_same<typename Layout::color_space_t, gray_t>::value)); }
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template <typename Channel> void assign(const Channel& chan, mpl::false_) const { check_gray(); gil::at_c<0>(*this)=chan; }
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template <typename Channel> bool equal (const Channel& chan, mpl::false_) const { check_gray(); return gil::at_c<0>(*this)==chan; }
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};
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/////////////////////////////
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// ColorBasedConcept
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/////////////////////////////
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template <typename BitField, typename ChannelBitSizes, typename L, bool IsMutable, int K>
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struct kth_element_type<bit_aligned_pixel_reference<BitField,ChannelBitSizes,L,IsMutable>, K> {
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public:
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typedef const packed_dynamic_channel_reference<BitField, mpl::at_c<ChannelBitSizes,K>::type::value, IsMutable> type;
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};
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template <typename B, typename C, typename L, bool M, int K>
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struct kth_element_reference_type<bit_aligned_pixel_reference<B,C,L,M>, K>
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: public kth_element_type<bit_aligned_pixel_reference<B,C,L,M>, K> {};
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template <typename B, typename C, typename L, bool M, int K>
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struct kth_element_const_reference_type<bit_aligned_pixel_reference<B,C,L,M>, K>
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: public kth_element_type<bit_aligned_pixel_reference<B,C,L,M>, K> {};
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namespace detail {
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// returns sum of IntegralVector[0] ... IntegralVector[K-1]
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template <typename IntegralVector, int K>
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struct sum_k : public mpl::plus<sum_k<IntegralVector,K-1>, typename mpl::at_c<IntegralVector,K-1>::type > {};
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template <typename IntegralVector> struct sum_k<IntegralVector,0> : public mpl::int_<0> {};
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}
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// at_c required by MutableColorBaseConcept
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template <int K, typename BitField, typename ChannelBitSizes, typename L, bool Mutable> inline
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typename kth_element_reference_type<bit_aligned_pixel_reference<BitField,ChannelBitSizes,L,Mutable>,K>::type
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at_c(const bit_aligned_pixel_reference<BitField,ChannelBitSizes,L,Mutable>& p) {
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typedef bit_aligned_pixel_reference<BitField,ChannelBitSizes,L,Mutable> pixel_t;
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typedef typename kth_element_reference_type<pixel_t,K>::type channel_t;
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typedef typename pixel_t::bit_range_t bit_range_t;
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bit_range_t bit_range(p.bit_range());
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bit_range.bit_advance(detail::sum_k<ChannelBitSizes,K>::value);
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return channel_t(bit_range.current_byte(), bit_range.bit_offset());
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}
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/////////////////////////////
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// PixelConcept
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/////////////////////////////
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/// Metafunction predicate that flags bit_aligned_pixel_reference as a model of PixelConcept. Required by PixelConcept
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template <typename B, typename C, typename L, bool M>
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struct is_pixel<bit_aligned_pixel_reference<B,C,L,M> > : public mpl::true_{};
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/////////////////////////////
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// PixelBasedConcept
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/////////////////////////////
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template <typename B, typename C, typename L, bool M>
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struct color_space_type<bit_aligned_pixel_reference<B,C,L,M> > {
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typedef typename L::color_space_t type;
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};
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template <typename B, typename C, typename L, bool M>
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struct channel_mapping_type<bit_aligned_pixel_reference<B,C,L,M> > {
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typedef typename L::channel_mapping_t type;
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};
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template <typename B, typename C, typename L, bool M>
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struct is_planar<bit_aligned_pixel_reference<B,C,L,M> > : mpl::false_ {};
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/////////////////////////////
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// pixel_reference_type
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/////////////////////////////
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namespace detail {
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// returns a vector containing K copies of the type T
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template <unsigned K, typename T> struct k_copies;
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template <typename T> struct k_copies<0,T> {
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typedef mpl::vector0<> type;
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};
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template <unsigned K, typename T> struct k_copies : public mpl::push_back<typename k_copies<K-1,T>::type, T> {};
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}
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// Constructs a homogeneous bit_aligned_pixel_reference given a channel reference
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template <typename BitField, int NumBits, typename Layout>
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struct pixel_reference_type<const packed_dynamic_channel_reference<BitField,NumBits,false>, Layout, false, false> {
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private:
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typedef typename mpl::size<typename Layout::color_space_t>::type size_t;
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typedef typename detail::k_copies<size_t::value,mpl::integral_c<unsigned,NumBits> >::type channel_bit_sizes_t;
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public:
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typedef bit_aligned_pixel_reference<BitField, channel_bit_sizes_t, Layout, false> type;
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};
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// Same but for the mutable case. We cannot combine the mutable and read-only cases because this triggers ambiguity
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template <typename BitField, int NumBits, typename Layout>
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struct pixel_reference_type<const packed_dynamic_channel_reference<BitField,NumBits,true>, Layout, false, true> {
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private:
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typedef typename mpl::size<typename Layout::color_space_t>::type size_t;
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typedef typename detail::k_copies<size_t::value,mpl::integral_c<unsigned,NumBits> >::type channel_bit_sizes_t;
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public:
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typedef bit_aligned_pixel_reference<BitField, channel_bit_sizes_t, Layout, true> type;
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};
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} } // namespace boost::gil
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namespace std {
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// We are forced to define swap inside std namespace because on some platforms (Visual Studio 8) STL calls swap qualified.
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// swap with 'left bias':
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// - swap between proxy and anything
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// - swap between value type and proxy
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// - swap between proxy and proxy
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// Having three overloads allows us to swap between different (but compatible) models of PixelConcept
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template <typename B, typename C, typename L, typename R> inline
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void swap(const boost::gil::bit_aligned_pixel_reference<B,C,L,true> x, R& y) {
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boost::gil::swap_proxy<typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type>(x,y);
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}
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template <typename B, typename C, typename L> inline
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void swap(typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type& x, const boost::gil::bit_aligned_pixel_reference<B,C,L,true> y) {
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boost::gil::swap_proxy<typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type>(x,y);
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}
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template <typename B, typename C, typename L> inline
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void swap(const boost::gil::bit_aligned_pixel_reference<B,C,L,true> x, const boost::gil::bit_aligned_pixel_reference<B,C,L,true> y) {
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boost::gil::swap_proxy<typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type>(x,y);
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}
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} // namespace std
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#endif
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