/usr/include/mapnik/grid/grid_pixel.hpp is in libmapnik-dev 2.2.0+ds1-6build2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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*
* This file is part of Mapnik (c++ mapping toolkit)
*
* Copyright (C) 2011 Artem Pavlenko
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*****************************************************************************/
#ifndef MAPNIK_GRID_PIXEL_HPP
#define MAPNIK_GRID_PIXEL_HPP
#include "agg_basics.h"
namespace mapnik
{
//==================================================================gray16
struct gray16
{
typedef agg::int16u value_type;
typedef agg::int32u calc_type;
typedef agg::int64 long_type;
enum base_scale_e
{
base_shift = 16,
base_scale = 1 << base_shift,
base_mask = base_scale - 1
};
typedef gray16 self_type;
value_type v;
value_type a;
//--------------------------------------------------------------------
gray16() {}
//--------------------------------------------------------------------
gray16(unsigned v_, unsigned a_=base_mask) :
v(agg::int16u(v_)), a(agg::int16u(a_)) {}
//--------------------------------------------------------------------
gray16(const self_type& c, unsigned a_) :
v(c.v), a(value_type(a_)) {}
//--------------------------------------------------------------------
void clear()
{
v = a = 0;
}
//--------------------------------------------------------------------
const self_type& transparent()
{
a = 0;
return *this;
}
//--------------------------------------------------------------------
void opacity(double a_)
{
if(a_ < 0.0) a_ = 0.0;
if(a_ > 1.0) a_ = 1.0;
a = (value_type)agg::uround(a_ * double(base_mask));
}
//--------------------------------------------------------------------
double opacity() const
{
return double(a) / double(base_mask);
}
//--------------------------------------------------------------------
const self_type& premultiply()
{
if(a == base_mask) return *this;
if(a == 0)
{
v = 0;
return *this;
}
v = value_type((calc_type(v) * a) >> base_shift);
return *this;
}
//--------------------------------------------------------------------
const self_type& premultiply(unsigned a_)
{
if(a == base_mask && a_ >= base_mask) return *this;
if(a == 0 || a_ == 0)
{
v = a = 0;
return *this;
}
calc_type v_ = (calc_type(v) * a_) / a;
v = value_type((v_ > a_) ? a_ : v_);
a = value_type(a_);
return *this;
}
//--------------------------------------------------------------------
const self_type& demultiply()
{
if(a == base_mask) return *this;
if(a == 0)
{
v = 0;
return *this;
}
calc_type v_ = (calc_type(v) * base_mask) / a;
v = value_type((v_ > base_mask) ? base_mask : v_);
return *this;
}
//--------------------------------------------------------------------
self_type gradient(self_type c, double k) const
{
self_type ret;
calc_type ik = agg::uround(k * base_scale);
ret.v = value_type(calc_type(v) + (((calc_type(c.v) - v) * ik) >> base_shift));
ret.a = value_type(calc_type(a) + (((calc_type(c.a) - a) * ik) >> base_shift));
return ret;
}
//--------------------------------------------------------------------
AGG_INLINE void add(const self_type& c, unsigned cover)
{
calc_type cv, ca;
if(cover == agg::cover_mask)
{
if(c.a == base_mask)
{
*this = c;
}
else
{
cv = v + c.v; v = (cv > calc_type(base_mask)) ? calc_type(base_mask) : cv;
ca = a + c.a; a = (ca > calc_type(base_mask)) ? calc_type(base_mask) : ca;
}
}
else
{
cv = v + ((c.v * cover + agg::cover_mask/2) >> agg::cover_shift);
ca = a + ((c.a * cover + agg::cover_mask/2) >> agg::cover_shift);
v = (cv > calc_type(base_mask)) ? calc_type(base_mask) : cv;
a = (ca > calc_type(base_mask)) ? calc_type(base_mask) : ca;
}
}
//--------------------------------------------------------------------
static self_type no_color() { return self_type(0,0); }
};
//==================================================================gray32
struct gray32
{
typedef agg::int32 value_type;
typedef agg::int64u calc_type;
typedef agg::int64 long_type;
// NOTE: don't touch this enum since enums cannot be
// 64 bit and we need to ensure that alpha = base_mask
// in grid_pixfmt.hpp#blend_hiline#l256
// otherwise code will get invoked that breaks
// with 32 bit or 64 bit ints (blender_gray::blend_pix)
enum base_scale_e
{
base_shift = 16,
base_scale = 1 << base_shift,
base_mask = base_scale - 1
};
typedef gray32 self_type;
value_type v;
value_type a;
//--------------------------------------------------------------------
gray32() {}
//--------------------------------------------------------------------
gray32(value_type v_, unsigned a_=base_mask) :
v(v_), a(value_type(a_)) {}
//--------------------------------------------------------------------
gray32(const self_type& c, unsigned a_) :
v(c.v), a(value_type(a_)) {}
//--------------------------------------------------------------------
void clear()
{
v = a = 0;
}
//--------------------------------------------------------------------
const self_type& transparent()
{
a = 0;
return *this;
}
//--------------------------------------------------------------------
void opacity(double a_)
{
if(a_ < 0.0) a_ = 0.0;
if(a_ > 1.0) a_ = 1.0;
a = (value_type)agg::uround(a_ * double(base_mask));
}
//--------------------------------------------------------------------
double opacity() const
{
return double(a) / double(base_mask);
}
//--------------------------------------------------------------------
const self_type& premultiply()
{
if(a == base_mask) return *this;
if(a == 0)
{
v = 0;
return *this;
}
v = value_type((calc_type(v) * a) >> base_shift);
return *this;
}
//--------------------------------------------------------------------
const self_type& premultiply(unsigned a_)
{
if(a == base_mask && a_ >= base_mask) return *this;
if(a == 0 || a_ == 0)
{
v = a = 0;
return *this;
}
calc_type v_ = (calc_type(v) * a_) / a;
v = value_type((v_ > a_) ? a_ : v_);
a = value_type(a_);
return *this;
}
//--------------------------------------------------------------------
const self_type& demultiply()
{
if(a == base_mask) return *this;
if(a == 0)
{
v = 0;
return *this;
}
calc_type v_ = (calc_type(v) * base_mask) / a;
v = value_type((v_ > base_mask) ? base_mask : v_);
return *this;
}
//--------------------------------------------------------------------
self_type gradient(self_type c, double k) const
{
self_type ret;
calc_type ik = agg::uround(k * base_scale);
ret.v = value_type(calc_type(v) + (((calc_type(c.v) - v) * ik) >> base_shift));
ret.a = value_type(calc_type(a) + (((calc_type(c.a) - a) * ik) >> base_shift));
return ret;
}
//--------------------------------------------------------------------
AGG_INLINE void add(const self_type& c, unsigned cover)
{
calc_type cv, ca;
if(cover == agg::cover_mask)
{
if(c.a == base_mask)
{
*this = c;
}
else
{
cv = v + c.v; v = (cv > calc_type(base_mask)) ? calc_type(base_mask) : cv;
ca = a + c.a; a = (ca > calc_type(base_mask)) ? calc_type(base_mask) : ca;
}
}
else
{
cv = v + ((c.v * cover + agg::cover_mask/2) >> agg::cover_shift);
ca = a + ((c.a * cover + agg::cover_mask/2) >> agg::cover_shift);
v = (cv > calc_type(base_mask)) ? calc_type(base_mask) : cv;
a = (ca > calc_type(base_mask)) ? calc_type(base_mask) : ca;
}
}
//--------------------------------------------------------------------
static self_type no_color() { return self_type(0,0); }
};
//==================================================================gray64
struct gray64
{
typedef agg::int64 value_type;
typedef agg::int64u calc_type;
typedef agg::int64 long_type;
// NOTE: don't touch this enum since enums cannot be
// 64 bit and we need to ensure that alpha = base_mask
// in grid_pixfmt.hpp#blend_hiline#l256
// otherwise code will get invoked that breaks
// with 32 bit or 64 bit ints (blender_gray::blend_pix)
enum base_scale_e
{
base_shift = 16,
base_scale = 1 << base_shift,
base_mask = base_scale - 1
};
typedef gray64 self_type;
value_type v;
value_type a;
//--------------------------------------------------------------------
gray64() {}
//--------------------------------------------------------------------
gray64(value_type v_, unsigned a_=base_mask) :
v(v_), a(value_type(a_)) {}
//--------------------------------------------------------------------
gray64(const self_type& c, unsigned a_) :
v(c.v), a(value_type(a_)) {}
//--------------------------------------------------------------------
void clear()
{
v = a = 0;
}
//--------------------------------------------------------------------
const self_type& transparent()
{
a = 0;
return *this;
}
//--------------------------------------------------------------------
void opacity(double a_)
{
if(a_ < 0.0) a_ = 0.0;
if(a_ > 1.0) a_ = 1.0;
a = (value_type)agg::uround(a_ * double(base_mask));
}
//--------------------------------------------------------------------
double opacity() const
{
return double(a) / double(base_mask);
}
//--------------------------------------------------------------------
const self_type& premultiply()
{
if(a == base_mask) return *this;
if(a == 0)
{
v = 0;
return *this;
}
v = value_type((calc_type(v) * a) >> base_shift);
return *this;
}
//--------------------------------------------------------------------
const self_type& premultiply(unsigned a_)
{
if(a == base_mask && a_ >= base_mask) return *this;
if(a == 0 || a_ == 0)
{
v = a = 0;
return *this;
}
calc_type v_ = (calc_type(v) * a_) / a;
v = value_type((v_ > a_) ? a_ : v_);
a = value_type(a_);
return *this;
}
//--------------------------------------------------------------------
const self_type& demultiply()
{
if(a == base_mask) return *this;
if(a == 0)
{
v = 0;
return *this;
}
calc_type v_ = (calc_type(v) * base_mask) / a;
v = value_type((v_ > base_mask) ? base_mask : v_);
return *this;
}
//--------------------------------------------------------------------
self_type gradient(self_type c, double k) const
{
self_type ret;
calc_type ik = agg::uround(k * base_scale);
ret.v = value_type(calc_type(v) + (((calc_type(c.v) - v) * ik) >> base_shift));
ret.a = value_type(calc_type(a) + (((calc_type(c.a) - a) * ik) >> base_shift));
return ret;
}
//--------------------------------------------------------------------
AGG_INLINE void add(const self_type& c, unsigned cover)
{
calc_type cv, ca;
if(cover == agg::cover_mask)
{
if(c.a == base_mask)
{
*this = c;
}
else
{
cv = v + c.v; v = (cv > calc_type(base_mask)) ? calc_type(base_mask) : cv;
ca = a + c.a; a = (ca > calc_type(base_mask)) ? calc_type(base_mask) : ca;
}
}
else
{
cv = v + ((c.v * cover + agg::cover_mask/2) >> agg::cover_shift);
ca = a + ((c.a * cover + agg::cover_mask/2) >> agg::cover_shift);
v = (cv > calc_type(base_mask)) ? calc_type(base_mask) : cv;
a = (ca > calc_type(base_mask)) ? calc_type(base_mask) : ca;
}
}
//--------------------------------------------------------------------
static self_type no_color() { return self_type(0,0); }
};
}
#endif
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