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mapnik/deps/boost/gil/extension/toolbox/hsl.hpp
Tomek Dubrownik a1543b359f Compatibility patch for Boost GIL v1.68 
A number of basic typedef were removed in the Boost GIL 1.68 release,
notably `bits32` and `bits32f`. Additionally the
`GIL_DEFINE_ALL_TYPEDEFS` macro signature changed.

This commit introduces compatibility type aliases and conditionally
calls the new macro if `BOOST_VERSION` is high enough.
2019-01-22 10:50:23 +00:00

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// Copyright 2007 Christian Henning.
// 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 GIL_HSL_H
#define GIL_HSL_H
////////////////////////////////////////////////////////////////////////////////////////
/// \file
/// \brief Support for HSL color space
/// \author Christian Henning \n
////////////////////////////////////////////////////////////////////////////////////////
#pragma GCC diagnostic push
#include <mapnik/warning_ignore.hpp>
#if BOOST_VERSION >= 106900
#include <boost/gil.hpp>
#else
#include <boost/gil/gil_all.hpp>
#endif
#pragma GCC diagnostic pop
namespace boost { namespace gil {
/// \addtogroup ColorNameModel
/// \{
namespace hsl_color_space
{
/// \brief Hue
struct hue_t {};
/// \brief Saturation
struct saturation_t {};
/// \brief Lightness
struct lightness_t {};
}
/// \}
/// \ingroup ColorSpaceModel
typedef mpl::vector3< hsl_color_space::hue_t
, hsl_color_space::saturation_t
, hsl_color_space::lightness_t
> hsl_t;
/// \ingroup LayoutModel
typedef layout<hsl_t> hsl_layout_t;
#if BOOST_VERSION >= 106800
using bits32f = boost::gil::float32_t;
GIL_DEFINE_ALL_TYPEDEFS( 32f, float32_t, hsl );
#else
GIL_DEFINE_ALL_TYPEDEFS( 32f, hsl );
#endif
/// \ingroup ColorConvert
/// \brief RGB to HSL
template <>
struct default_color_converter_impl< rgb_t, hsl_t >
{
template <typename P1, typename P2>
void operator()( const P1& src, P2& dst ) const
{
using namespace hsl_color_space;
// only bits32f for hsl is supported
bits32f temp_red = channel_convert<bits32f>( get_color( src, red_t() ));
bits32f temp_green = channel_convert<bits32f>( get_color( src, green_t() ));
bits32f temp_blue = channel_convert<bits32f>( get_color( src, blue_t() ));
bits32f hue, saturation, lightness;
bits32f min_color, max_color;
if( temp_red < temp_green )
{
min_color = std::min( temp_blue, temp_red );
max_color = std::max( temp_blue, temp_green );
}
else
{
min_color = std::min( temp_blue, temp_green );
max_color = std::max( temp_blue, temp_red );
}
if ( max_color - min_color < 0.001 )
{
// rgb color is gray
hue = 0.f;
saturation = 0.f;
// doesn't matter which rgb channel we use.
lightness = temp_red;
}
else
{
bits32f diff = max_color - min_color;
// lightness calculation
lightness = ( min_color + max_color ) / 2.f;
// saturation calculation
if( lightness < 0.5f )
{
saturation = diff
/ ( min_color + max_color );
}
else
{
saturation = ( max_color - min_color )
/ ( 2.f - diff );
}
// hue calculation
if( std::abs( max_color - temp_red ) < 0.0001f )
{
// max_color is red
hue = ( temp_green - temp_blue )
/ diff;
}
else if( std::abs( max_color - temp_green) < 0.0001f )
{
// max_color is green
// 2.0 + (b - r) / (maxColor - minColor)
hue = 2.f
+ ( temp_blue - temp_red )
/ diff;
}
else
{
// max_color is blue
// 4.0 + (r - g) / (maxColor - minColor)
hue = 4.f
+ ( temp_red - temp_green )
/ diff;
}
hue /= 6.f;
if( hue < 0.f )
{
hue += 1.f;
}
}
get_color( dst,hue_t() ) = hue;
get_color( dst,saturation_t() ) = saturation;
get_color( dst,lightness_t() ) = lightness;
}
};
/// \ingroup ColorConvert
/// \brief HSL to RGB
template <>
struct default_color_converter_impl<hsl_t,rgb_t>
{
template <typename P1, typename P2>
void operator()( const P1& src, P2& dst) const
{
using namespace hsl_color_space;
bits32f red, green, blue;
if( std::abs( get_color( src, saturation_t() )) < 0.0001 )
{
// If saturation is 0, the color is a shade of gray
red = get_color( src, lightness_t() );
green = get_color( src, lightness_t() );
blue = get_color( src, lightness_t() );
}
else
{
float temp1, temp2;
float tempr, tempg, tempb;
//Set the temporary values
if( get_color( src, lightness_t() ) < 0.5 )
{
temp2 = get_color( src, lightness_t() )
* ( 1.f + get_color( src, saturation_t() ) );
}
else
{
temp2 = ( get_color( src, lightness_t() ) + get_color( src, saturation_t() ))
- ( get_color( src, lightness_t() ) * get_color( src, saturation_t() ));
}
temp1 = 2.f
* get_color( src, lightness_t() )
- temp2;
tempr = get_color( src, hue_t() ) + 1.f / 3.f;
if( tempr > 1.f )
{
tempr--;
}
tempg = get_color( src, hue_t() );
tempb = get_color( src, hue_t() ) - 1.f / 3.f;
if( tempb < 0.f )
{
tempb++;
}
//Red
if( tempr < 1.f / 6.f )
{
red = temp1 + ( temp2 - temp1 ) * 6.f * tempr;
}
else if( tempr < 0.5f )
{
red = temp2;
}
else if( tempr < 2.f / 3.f )
{
red = temp1 + (temp2 - temp1)
* (( 2.f / 3.f ) - tempr) * 6.f;
}
else
{
red = temp1;
}
//Green
if( tempg < 1.f / 6.f )
{
green = temp1 + ( temp2 - temp1 ) * 6.f * tempg;
}
else if( tempg < 0.5f )
{
green = temp2;
}
else if( tempg < 2.f / 3.f )
{
green = temp1 + ( temp2 - temp1 )
* (( 2.f / 3.f ) - tempg) * 6.f;
}
else
{
green = temp1;
}
//Blue
if( tempb < 1.f / 6.f )
{
blue = temp1 + (temp2 - temp1) * 6.f * tempb;
}
else if( tempb < 0.5f )
{
blue = temp2;
}
else if( tempb < 2.f / 3.f )
{
blue = temp1 + (temp2 - temp1)
* (( 2.f / 3.f ) - tempb) * 6.f;
}
else
{
blue = temp1;
}
}
get_color(dst,red_t()) =
channel_convert<typename color_element_type< P2, red_t >::type>( red );
get_color(dst,green_t())=
channel_convert<typename color_element_type< P2, green_t >::type>( green );
get_color(dst,blue_t()) =
channel_convert<typename color_element_type< P2, blue_t >::type>( blue );
}
};
} } // namespace boost::gil
#endif // GIL_HSL_H
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