haiku/headers/libs/agg/agg_alpha_mask_u8.h
Stephan Aßmus e39da397f5 * long overdue update to AGG 2.4
* removed the useless parts of AGG (which are only needed for the
  interactive examples)
* make sure to jam -a libagg.a to solve any linking issues


git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@17838 a95241bf-73f2-0310-859d-f6bbb57e9c96
2006-06-14 14:30:17 +00:00

500 lines
18 KiB
C++
Executable File

//----------------------------------------------------------------------------
// Anti-Grain Geometry - Version 2.4
// Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
//
// Permission to copy, use, modify, sell and distribute this software
// is granted provided this copyright notice appears in all copies.
// This software is provided "as is" without express or implied
// warranty, and with no claim as to its suitability for any purpose.
//
//----------------------------------------------------------------------------
// Contact: mcseem@antigrain.com
// mcseemagg@yahoo.com
// http://www.antigrain.com
//----------------------------------------------------------------------------
//
// scanline_u8 class
//
//----------------------------------------------------------------------------
#ifndef AGG_ALPHA_MASK_U8_INCLUDED
#define AGG_ALPHA_MASK_U8_INCLUDED
#include <string.h>
#include "agg_basics.h"
#include "agg_rendering_buffer.h"
namespace agg
{
//===================================================one_component_mask_u8
struct one_component_mask_u8
{
static unsigned calculate(const int8u* p) { return *p; }
};
//=====================================================rgb_to_gray_mask_u8
template<unsigned R, unsigned G, unsigned B>
struct rgb_to_gray_mask_u8
{
static unsigned calculate(const int8u* p)
{
return (p[R]*77 + p[G]*150 + p[B]*29) >> 8;
}
};
//==========================================================alpha_mask_u8
template<unsigned Step=1, unsigned Offset=0, class MaskF=one_component_mask_u8>
class alpha_mask_u8
{
public:
typedef int8u cover_type;
typedef alpha_mask_u8<Step, Offset, MaskF> self_type;
enum cover_scale_e
{
cover_shift = 8,
cover_none = 0,
cover_full = 255
};
alpha_mask_u8() : m_rbuf(0) {}
alpha_mask_u8(rendering_buffer& rbuf) : m_rbuf(&rbuf) {}
void attach(rendering_buffer& rbuf) { m_rbuf = &rbuf; }
MaskF& mask_function() { return m_mask_function; }
const MaskF& mask_function() const { return m_mask_function; }
//--------------------------------------------------------------------
cover_type pixel(int x, int y) const
{
if(x >= 0 && y >= 0 &&
x < (int)m_rbuf->width() &&
y < (int)m_rbuf->height())
{
return (cover_type)m_mask_function.calculate(
m_rbuf->row_ptr(y) + x * Step + Offset);
}
return 0;
}
//--------------------------------------------------------------------
cover_type combine_pixel(int x, int y, cover_type val) const
{
if(x >= 0 && y >= 0 &&
x < (int)m_rbuf->width() &&
y < (int)m_rbuf->height())
{
return (cover_type)((cover_full + val *
m_mask_function.calculate(
m_rbuf->row_ptr(y) + x * Step + Offset)) >>
cover_shift);
}
return 0;
}
//--------------------------------------------------------------------
void fill_hspan(int x, int y, cover_type* dst, int num_pix) const
{
int xmax = m_rbuf->width() - 1;
int ymax = m_rbuf->height() - 1;
int count = num_pix;
cover_type* covers = dst;
if(y < 0 || y > ymax)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
if(x < 0)
{
count += x;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers, 0, -x * sizeof(cover_type));
covers -= x;
x = 0;
}
if(x + count > xmax)
{
int rest = x + count - xmax - 1;
count -= rest;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers + count, 0, rest * sizeof(cover_type));
}
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*covers++ = (cover_type)m_mask_function.calculate(mask);
mask += Step;
}
while(--count);
}
//--------------------------------------------------------------------
void combine_hspan(int x, int y, cover_type* dst, int num_pix) const
{
int xmax = m_rbuf->width() - 1;
int ymax = m_rbuf->height() - 1;
int count = num_pix;
cover_type* covers = dst;
if(y < 0 || y > ymax)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
if(x < 0)
{
count += x;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers, 0, -x * sizeof(cover_type));
covers -= x;
x = 0;
}
if(x + count > xmax)
{
int rest = x + count - xmax - 1;
count -= rest;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers + count, 0, rest * sizeof(cover_type));
}
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*covers = (cover_type)((cover_full + (*covers) *
m_mask_function.calculate(mask)) >>
cover_shift);
++covers;
mask += Step;
}
while(--count);
}
//--------------------------------------------------------------------
void fill_vspan(int x, int y, cover_type* dst, int num_pix) const
{
int xmax = m_rbuf->width() - 1;
int ymax = m_rbuf->height() - 1;
int count = num_pix;
cover_type* covers = dst;
if(x < 0 || x > xmax)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
if(y < 0)
{
count += y;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers, 0, -y * sizeof(cover_type));
covers -= y;
y = 0;
}
if(y + count > ymax)
{
int rest = y + count - ymax - 1;
count -= rest;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers + count, 0, rest * sizeof(cover_type));
}
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*covers++ = (cover_type)m_mask_function.calculate(mask);
mask += m_rbuf->stride();
}
while(--count);
}
//--------------------------------------------------------------------
void combine_vspan(int x, int y, cover_type* dst, int num_pix) const
{
int xmax = m_rbuf->width() - 1;
int ymax = m_rbuf->height() - 1;
int count = num_pix;
cover_type* covers = dst;
if(x < 0 || x > xmax)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
if(y < 0)
{
count += y;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers, 0, -y * sizeof(cover_type));
covers -= y;
y = 0;
}
if(y + count > ymax)
{
int rest = y + count - ymax - 1;
count -= rest;
if(count <= 0)
{
memset(dst, 0, num_pix * sizeof(cover_type));
return;
}
memset(covers + count, 0, rest * sizeof(cover_type));
}
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*covers = (cover_type)((cover_full + (*covers) *
m_mask_function.calculate(mask)) >>
cover_shift);
++covers;
mask += m_rbuf->stride();
}
while(--count);
}
private:
alpha_mask_u8(const self_type&);
const self_type& operator = (const self_type&);
rendering_buffer* m_rbuf;
MaskF m_mask_function;
};
typedef alpha_mask_u8<1, 0> alpha_mask_gray8; //----alpha_mask_gray8
typedef alpha_mask_u8<3, 0> alpha_mask_rgb24r; //----alpha_mask_rgb24r
typedef alpha_mask_u8<3, 1> alpha_mask_rgb24g; //----alpha_mask_rgb24g
typedef alpha_mask_u8<3, 2> alpha_mask_rgb24b; //----alpha_mask_rgb24b
typedef alpha_mask_u8<3, 2> alpha_mask_bgr24r; //----alpha_mask_bgr24r
typedef alpha_mask_u8<3, 1> alpha_mask_bgr24g; //----alpha_mask_bgr24g
typedef alpha_mask_u8<3, 0> alpha_mask_bgr24b; //----alpha_mask_bgr24b
typedef alpha_mask_u8<4, 0> alpha_mask_rgba32r; //----alpha_mask_rgba32r
typedef alpha_mask_u8<4, 1> alpha_mask_rgba32g; //----alpha_mask_rgba32g
typedef alpha_mask_u8<4, 2> alpha_mask_rgba32b; //----alpha_mask_rgba32b
typedef alpha_mask_u8<4, 3> alpha_mask_rgba32a; //----alpha_mask_rgba32a
typedef alpha_mask_u8<4, 1> alpha_mask_argb32r; //----alpha_mask_argb32r
typedef alpha_mask_u8<4, 2> alpha_mask_argb32g; //----alpha_mask_argb32g
typedef alpha_mask_u8<4, 3> alpha_mask_argb32b; //----alpha_mask_argb32b
typedef alpha_mask_u8<4, 0> alpha_mask_argb32a; //----alpha_mask_argb32a
typedef alpha_mask_u8<4, 2> alpha_mask_bgra32r; //----alpha_mask_bgra32r
typedef alpha_mask_u8<4, 1> alpha_mask_bgra32g; //----alpha_mask_bgra32g
typedef alpha_mask_u8<4, 0> alpha_mask_bgra32b; //----alpha_mask_bgra32b
typedef alpha_mask_u8<4, 3> alpha_mask_bgra32a; //----alpha_mask_bgra32a
typedef alpha_mask_u8<4, 3> alpha_mask_abgr32r; //----alpha_mask_abgr32r
typedef alpha_mask_u8<4, 2> alpha_mask_abgr32g; //----alpha_mask_abgr32g
typedef alpha_mask_u8<4, 1> alpha_mask_abgr32b; //----alpha_mask_abgr32b
typedef alpha_mask_u8<4, 0> alpha_mask_abgr32a; //----alpha_mask_abgr32a
typedef alpha_mask_u8<3, 0, rgb_to_gray_mask_u8<0, 1, 2> > alpha_mask_rgb24gray; //----alpha_mask_rgb24gray
typedef alpha_mask_u8<3, 0, rgb_to_gray_mask_u8<2, 1, 0> > alpha_mask_bgr24gray; //----alpha_mask_bgr24gray
typedef alpha_mask_u8<4, 0, rgb_to_gray_mask_u8<0, 1, 2> > alpha_mask_rgba32gray; //----alpha_mask_rgba32gray
typedef alpha_mask_u8<4, 1, rgb_to_gray_mask_u8<0, 1, 2> > alpha_mask_argb32gray; //----alpha_mask_argb32gray
typedef alpha_mask_u8<4, 0, rgb_to_gray_mask_u8<2, 1, 0> > alpha_mask_bgra32gray; //----alpha_mask_bgra32gray
typedef alpha_mask_u8<4, 1, rgb_to_gray_mask_u8<2, 1, 0> > alpha_mask_abgr32gray; //----alpha_mask_abgr32gray
//==========================================================amask_no_clip_u8
template<unsigned Step=1, unsigned Offset=0, class MaskF=one_component_mask_u8>
class amask_no_clip_u8
{
public:
typedef int8u cover_type;
typedef amask_no_clip_u8<Step, Offset, MaskF> self_type;
enum cover_scale_e
{
cover_shift = 8,
cover_none = 0,
cover_full = 255
};
amask_no_clip_u8() : m_rbuf(0) {}
amask_no_clip_u8(rendering_buffer& rbuf) : m_rbuf(&rbuf) {}
void attach(rendering_buffer& rbuf) { m_rbuf = &rbuf; }
MaskF& mask_function() { return m_mask_function; }
const MaskF& mask_function() const { return m_mask_function; }
//--------------------------------------------------------------------
cover_type pixel(int x, int y) const
{
return (cover_type)m_mask_function.calculate(
m_rbuf->row_ptr(y) + x * Step + Offset);
}
//--------------------------------------------------------------------
cover_type combine_pixel(int x, int y, cover_type val) const
{
return (cover_type)((cover_full + val *
m_mask_function.calculate(
m_rbuf->row_ptr(y) + x * Step + Offset)) >>
cover_shift);
}
//--------------------------------------------------------------------
void fill_hspan(int x, int y, cover_type* dst, int num_pix) const
{
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*dst++ = (cover_type)m_mask_function.calculate(mask);
mask += Step;
}
while(--num_pix);
}
//--------------------------------------------------------------------
void combine_hspan(int x, int y, cover_type* dst, int num_pix) const
{
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*dst = (cover_type)((cover_full + (*dst) *
m_mask_function.calculate(mask)) >>
cover_shift);
++dst;
mask += Step;
}
while(--num_pix);
}
//--------------------------------------------------------------------
void fill_vspan(int x, int y, cover_type* dst, int num_pix) const
{
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*dst++ = (cover_type)m_mask_function.calculate(mask);
mask += m_rbuf->stride();
}
while(--num_pix);
}
//--------------------------------------------------------------------
void combine_vspan(int x, int y, cover_type* dst, int num_pix) const
{
const int8u* mask = m_rbuf->row_ptr(y) + x * Step + Offset;
do
{
*dst = (cover_type)((cover_full + (*dst) *
m_mask_function.calculate(mask)) >>
cover_shift);
++dst;
mask += m_rbuf->stride();
}
while(--num_pix);
}
private:
amask_no_clip_u8(const self_type&);
const self_type& operator = (const self_type&);
rendering_buffer* m_rbuf;
MaskF m_mask_function;
};
typedef amask_no_clip_u8<1, 0> amask_no_clip_gray8; //----amask_no_clip_gray8
typedef amask_no_clip_u8<3, 0> amask_no_clip_rgb24r; //----amask_no_clip_rgb24r
typedef amask_no_clip_u8<3, 1> amask_no_clip_rgb24g; //----amask_no_clip_rgb24g
typedef amask_no_clip_u8<3, 2> amask_no_clip_rgb24b; //----amask_no_clip_rgb24b
typedef amask_no_clip_u8<3, 2> amask_no_clip_bgr24r; //----amask_no_clip_bgr24r
typedef amask_no_clip_u8<3, 1> amask_no_clip_bgr24g; //----amask_no_clip_bgr24g
typedef amask_no_clip_u8<3, 0> amask_no_clip_bgr24b; //----amask_no_clip_bgr24b
typedef amask_no_clip_u8<4, 0> amask_no_clip_rgba32r; //----amask_no_clip_rgba32r
typedef amask_no_clip_u8<4, 1> amask_no_clip_rgba32g; //----amask_no_clip_rgba32g
typedef amask_no_clip_u8<4, 2> amask_no_clip_rgba32b; //----amask_no_clip_rgba32b
typedef amask_no_clip_u8<4, 3> amask_no_clip_rgba32a; //----amask_no_clip_rgba32a
typedef amask_no_clip_u8<4, 1> amask_no_clip_argb32r; //----amask_no_clip_argb32r
typedef amask_no_clip_u8<4, 2> amask_no_clip_argb32g; //----amask_no_clip_argb32g
typedef amask_no_clip_u8<4, 3> amask_no_clip_argb32b; //----amask_no_clip_argb32b
typedef amask_no_clip_u8<4, 0> amask_no_clip_argb32a; //----amask_no_clip_argb32a
typedef amask_no_clip_u8<4, 2> amask_no_clip_bgra32r; //----amask_no_clip_bgra32r
typedef amask_no_clip_u8<4, 1> amask_no_clip_bgra32g; //----amask_no_clip_bgra32g
typedef amask_no_clip_u8<4, 0> amask_no_clip_bgra32b; //----amask_no_clip_bgra32b
typedef amask_no_clip_u8<4, 3> amask_no_clip_bgra32a; //----amask_no_clip_bgra32a
typedef amask_no_clip_u8<4, 3> amask_no_clip_abgr32r; //----amask_no_clip_abgr32r
typedef amask_no_clip_u8<4, 2> amask_no_clip_abgr32g; //----amask_no_clip_abgr32g
typedef amask_no_clip_u8<4, 1> amask_no_clip_abgr32b; //----amask_no_clip_abgr32b
typedef amask_no_clip_u8<4, 0> amask_no_clip_abgr32a; //----amask_no_clip_abgr32a
typedef amask_no_clip_u8<3, 0, rgb_to_gray_mask_u8<0, 1, 2> > amask_no_clip_rgb24gray; //----amask_no_clip_rgb24gray
typedef amask_no_clip_u8<3, 0, rgb_to_gray_mask_u8<2, 1, 0> > amask_no_clip_bgr24gray; //----amask_no_clip_bgr24gray
typedef amask_no_clip_u8<4, 0, rgb_to_gray_mask_u8<0, 1, 2> > amask_no_clip_rgba32gray; //----amask_no_clip_rgba32gray
typedef amask_no_clip_u8<4, 1, rgb_to_gray_mask_u8<0, 1, 2> > amask_no_clip_argb32gray; //----amask_no_clip_argb32gray
typedef amask_no_clip_u8<4, 0, rgb_to_gray_mask_u8<2, 1, 0> > amask_no_clip_bgra32gray; //----amask_no_clip_bgra32gray
typedef amask_no_clip_u8<4, 1, rgb_to_gray_mask_u8<2, 1, 0> > amask_no_clip_abgr32gray; //----amask_no_clip_abgr32gray
}
#endif