252 lines
6.2 KiB
C++
252 lines
6.2 KiB
C++
// Copyright 2004 Christian Henning.
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// Distributed under the Boost Software License, Version 1.0. (See
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// 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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/*************************************************************************************************/
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#ifndef GIL_HSV_H
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#define GIL_HSV_H
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////////////////////////////////////////////////////////////////////////////////////////
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/// \file
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/// \brief Support for HSV color space
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/// \author Christian Henning \n
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////////////////////////////////////////////////////////////////////////////////////////
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#pragma GCC diagnostic push
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#include <mapnik/warning_ignore.hpp>
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#if BOOST_VERSION >= 106900
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#include <boost/gil.hpp>
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#else
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#include <boost/gil/gil_all.hpp>
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#endif
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#pragma GCC diagnostic pop
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namespace boost { namespace gil {
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/// \addtogroup ColorNameModel
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/// \{
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namespace hsv_color_space
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{
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/// \brief Hue
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struct hue_t {};
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/// \brief Saturation
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struct saturation_t{};
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/// \brief Value
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struct value_t {};
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}
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/// \}
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/// \ingroup ColorSpaceModel
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typedef mpl::vector3< hsv_color_space::hue_t
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, hsv_color_space::saturation_t
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, hsv_color_space::value_t
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> hsv_t;
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/// \ingroup LayoutModel
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typedef layout<hsv_t> hsv_layout_t;
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GIL_DEFINE_ALL_TYPEDEFS( 32f, hsv )
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/// \ingroup ColorConvert
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/// \brief RGB to HSV
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template <>
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struct default_color_converter_impl< rgb_t, hsv_t >
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{
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template <typename P1, typename P2>
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void operator()( const P1& src, P2& dst ) const
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{
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using namespace hsv_color_space;
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// only bits32f for hsv is supported
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bits32f temp_red = channel_convert<bits32f>( get_color( src, red_t() ));
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bits32f temp_green = channel_convert<bits32f>( get_color( src, green_t() ));
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bits32f temp_blue = channel_convert<bits32f>( get_color( src, blue_t() ));
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bits32f hue, saturation, value;
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bits32f min_color, max_color;
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if( temp_red < temp_green )
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{
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min_color = std::min( temp_blue, temp_red );
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max_color = std::max( temp_blue, temp_green );
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}
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else
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{
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min_color = std::min( temp_blue, temp_green );
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max_color = std::max( temp_blue, temp_red );
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}
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value = max_color;
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bits32f diff = max_color - min_color;
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if( max_color < 0.0001f )
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{
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saturation = 0.f;
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}
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else
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{
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saturation = diff / max_color;
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}
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if( saturation < 0.0001f )
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{
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//it doesn't matter what value it has
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hue = 0.f;
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}
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else
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{
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if( temp_red == max_color )
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{
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hue = ( temp_green - temp_blue )
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/ diff;
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}
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else if( temp_green == max_color )
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{
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hue = 2.f + ( temp_blue - temp_red )
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/ diff;
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}
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else
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{
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hue = 4.f + ( temp_red - temp_green )
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/ diff;
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}
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//to bring it to a number between 0 and 1
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hue /= 6.f;
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if( hue < 0.f )
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{
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hue++;
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}
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}
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get_color( dst, hue_t() ) = hue;
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get_color( dst, saturation_t() ) = saturation;
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get_color( dst, value_t() ) = value;
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}
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};
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/// \ingroup ColorConvert
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/// \brief HSV to RGB
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template <>
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struct default_color_converter_impl<hsv_t,rgb_t>
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{
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template <typename P1, typename P2>
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void operator()( const P1& src, P2& dst) const
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{
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using namespace hsv_color_space;
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bits32f red, green, blue;
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//If saturation is 0, the color is a shade of gray
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if( std::abs( get_color( src, saturation_t() )) < 0.0001f )
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{
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// If saturation is 0, the color is a shade of gray
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red = get_color( src, value_t() );
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green = get_color( src, value_t() );
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blue = get_color( src, value_t() );
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}
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else
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{
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bits32f frac, p, q, t, h;
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bits32 i;
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//to bring hue to a number between 0 and 6, better for the calculations
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h = get_color( src, hue_t() );
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h *= 6.f;
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i = static_cast<bits32>( floor( h ));
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frac = h - i;
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// p = value * (1 - saturation)
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p = get_color( src, value_t() )
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* ( 1.f - get_color( src, saturation_t() ));
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// q = value * (1 - saturation * hue_frac)
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// it drops with increasing distance from floor(hue)
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q = get_color( src, value_t() )
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* ( 1.f - ( get_color( src, saturation_t() ) * frac ));
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// t = value * (1 - (saturation * (1 - hue_frac))
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// it grows with increasing distance from floor(hue)
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t = get_color( src, value_t() )
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* ( 1.f - ( get_color( src, saturation_t() ) * ( 1.f - frac )));
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switch( i % 6 )
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{
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case 0: // red to yellow
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{
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red = get_color( src, value_t() );
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green = t;
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blue = p;
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break;
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}
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case 1: // yellow to green
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{
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red = q;
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green = get_color( src, value_t() );
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blue = p;
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break;
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}
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case 2: // green to cyan
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{
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red = p;
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green = get_color( src, value_t() );
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blue = t;
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break;
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}
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case 3: // cyan to blue
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{
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red = p;
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green = q;
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blue = get_color( src, value_t() );
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break;
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}
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case 4: // blue to magenta
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{
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red = t;
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green = p;
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blue = get_color( src, value_t() );
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break;
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}
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case 5: // magenta to red
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{
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red = get_color( src, value_t() );
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green = p;
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blue = q;
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break;
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}
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}
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}
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get_color(dst,red_t()) =
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channel_convert<typename color_element_type< P2, red_t >::type>( red );
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get_color(dst,green_t())=
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channel_convert<typename color_element_type< P2, green_t >::type>( green );
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get_color(dst,blue_t()) =
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channel_convert<typename color_element_type< P2, blue_t >::type>( blue );
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}
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};
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} } // namespace boost::gil
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#endif // GIL_HSV_H
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