agg_renderer_raster_text.h from matplotlib at Krugle
Show agg_renderer_raster_text.h syntax highlighted
//----------------------------------------------------------------------------
// Anti-Grain Geometry - Version 2.3
// 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
//----------------------------------------------------------------------------
#ifndef AGG_RENDERER_RASTER_TEXT_INCLUDED
#define AGG_RENDERER_RASTER_TEXT_INCLUDED
#include "agg_basics.h"
namespace agg
{
//==============================================renderer_raster_htext_solid
template<class BaseRenderer, class GlyphGenerator>
class renderer_raster_htext_solid
{
public:
typedef BaseRenderer ren_type;
typedef GlyphGenerator glyph_gen_type;
typedef typename glyph_gen_type::glyph_rect glyph_rect;
typedef typename ren_type::color_type color_type;
renderer_raster_htext_solid(ren_type& ren, glyph_gen_type& glyph) :
m_ren(&ren),
m_glyph(&glyph)
{
}
//--------------------------------------------------------------------
void color(const color_type& c) { m_color = c; }
const color_type& color() const { return m_color; }
//--------------------------------------------------------------------
template<class CharT>
void render_text(double x, double y, const CharT* str, bool flip=false)
{
glyph_rect r;
while(*str)
{
m_glyph->prepare(&r, x, y, *str, flip);
if(r.x2 >= r.x1)
{
int i;
if(flip)
{
for(i = r.y1; i <= r.y2; i++)
{
m_ren->blend_solid_hspan(r.x1, i, (r.x2 - r.x1 + 1),
m_color,
m_glyph->span(r.y2 - i));
}
}
else
{
for(i = r.y1; i <= r.y2; i++)
{
m_ren->blend_solid_hspan(r.x1, i, (r.x2 - r.x1 + 1),
m_color,
m_glyph->span(i - r.y1));
}
}
}
x += r.dx;
y += r.dy;
++str;
}
}
private:
ren_type* m_ren;
glyph_gen_type* m_glyph;
color_type m_color;
};
//=============================================renderer_raster_vtext_solid
template<class BaseRenderer, class GlyphGenerator>
class renderer_raster_vtext_solid
{
public:
typedef BaseRenderer ren_type;
typedef GlyphGenerator glyph_gen_type;
typedef typename glyph_gen_type::glyph_rect glyph_rect;
typedef typename ren_type::color_type color_type;
renderer_raster_vtext_solid(ren_type& ren, glyph_gen_type& glyph) :
m_ren(&ren),
m_glyph(&glyph)
{
}
//--------------------------------------------------------------------
void color(const color_type& c) { m_color = c; }
const color_type& color() const { return m_color; }
//--------------------------------------------------------------------
template<class CharT>
void render_text(double x, double y, const CharT* str, bool flip=false)
{
glyph_rect r;
while(*str)
{
m_glyph->prepare(&r, x, y, *str, !flip);
if(r.x2 >= r.x1)
{
int i;
if(flip)
{
for(i = r.y1; i <= r.y2; i++)
{
m_ren->blend_solid_vspan(i, r.x1, (r.x2 - r.x1 + 1),
m_color,
m_glyph->span(i - r.y1));
}
}
else
{
for(i = r.y1; i <= r.y2; i++)
{
m_ren->blend_solid_vspan(i, r.x1, (r.x2 - r.x1 + 1),
m_color,
m_glyph->span(r.y2 - i));
}
}
}
x += r.dx;
y += r.dy;
++str;
}
}
private:
ren_type* m_ren;
glyph_gen_type* m_glyph;
color_type m_color;
};
//===================================================renderer_raster_htext
template<class ScanlineRenderer, class GlyphGenerator>
class renderer_raster_htext
{
public:
typedef ScanlineRenderer ren_type;
typedef GlyphGenerator glyph_gen_type;
typedef typename glyph_gen_type::glyph_rect glyph_rect;
class scanline_single_span
{
public:
typedef agg::cover_type cover_type;
//----------------------------------------------------------------
struct const_span
{
int x;
unsigned len;
const cover_type* covers;
const_span() {}
const_span(int x_, unsigned len_, const cover_type* covers_) :
x(x_), len(len_), covers(covers_)
{}
};
typedef const const_span* const_iterator;
//----------------------------------------------------------------
scanline_single_span(int x, int y, unsigned len,
const cover_type* covers) :
m_y(y),
m_span(x, len, covers)
{}
//----------------------------------------------------------------
int y() const { return m_y; }
unsigned num_spans() const { return 1; }
const_iterator begin() const { return &m_span; }
private:
//----------------------------------------------------------------
int m_y;
const_span m_span;
};
//--------------------------------------------------------------------
renderer_raster_htext(ren_type& ren, glyph_gen_type& glyph) :
m_ren(&ren),
m_glyph(&glyph)
{
}
//--------------------------------------------------------------------
template<class CharT>
void render_text(double x, double y, const CharT* str, bool flip=false)
{
glyph_rect r;
while(*str)
{
m_glyph->prepare(&r, x, y, *str, flip);
if(r.x2 >= r.x1)
{
m_ren->prepare(r.x2 - r.x1 + 1);
int i;
if(flip)
{
for(i = r.y1; i <= r.y2; i++)
{
m_ren->render(
scanline_single_span(r.x1,
i,
(r.x2 - r.x1 + 1),
m_glyph->span(r.y2 - i)));
}
}
else
{
for(i = r.y1; i <= r.y2; i++)
{
m_ren->render(
scanline_single_span(r.x1,
i,
(r.x2 - r.x1 + 1),
m_glyph->span(i - r.y1)));
}
}
}
x += r.dx;
y += r.dy;
++str;
}
}
private:
ren_type* m_ren;
glyph_gen_type* m_glyph;
};
}
#endif
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