//----------------------------------------------------------------------------
// 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
//----------------------------------------------------------------------------
//
// Image transformations with filtering. Span generator base class
//
//----------------------------------------------------------------------------
#ifndef AGG_SPAN_IMAGE_FILTER_INCLUDED
#define AGG_SPAN_IMAGE_FILTER_INCLUDED
#include "agg_basics.h"
#include "agg_image_filters.h"
#include "agg_span_interpolator_linear.h"
namespace agg
{
//-------------------------------------------------------span_image_filter
template<class Source, class Interpolator> class span_image_filter
{
public:
typedef Source source_type;
typedef Interpolator interpolator_type;
//--------------------------------------------------------------------
span_image_filter() {}
span_image_filter(source_type& src,
interpolator_type& interpolator,
const image_filter_lut* filter) :
m_src(&src),
m_interpolator(&interpolator),
m_filter(filter),
m_dx_dbl(0.5),
m_dy_dbl(0.5),
m_dx_int(image_subpixel_scale / 2),
m_dy_int(image_subpixel_scale / 2)
{}
void attach(source_type& v) { m_src = &v; }
//--------------------------------------------------------------------
source_type& source() { return *m_src; }
const source_type& source() const { return *m_src; }
const image_filter_lut& filter() const { return *m_filter; }
int filter_dx_int() const { return m_dx_int; }
int filter_dy_int() const { return m_dy_int; }
double filter_dx_dbl() const { return m_dx_dbl; }
double filter_dy_dbl() const { return m_dy_dbl; }
//--------------------------------------------------------------------
void interpolator(interpolator_type& v) { m_interpolator = &v; }
void filter(const image_filter_lut& v) { m_filter = &v; }
void filter_offset(double dx, double dy)
{
m_dx_dbl = dx;
m_dy_dbl = dy;
m_dx_int = iround(dx * image_subpixel_scale);
m_dy_int = iround(dy * image_subpixel_scale);
}
void filter_offset(double d) { filter_offset(d, d); }
//--------------------------------------------------------------------
interpolator_type& interpolator() { return *m_interpolator; }
//--------------------------------------------------------------------
void prepare() {}
//--------------------------------------------------------------------
private:
source_type* m_src;
interpolator_type* m_interpolator;
const image_filter_lut* m_filter;
double m_dx_dbl;
double m_dy_dbl;
unsigned m_dx_int;
unsigned m_dy_int;
};
//==============================================span_image_resample_affine
template<class Source>
class span_image_resample_affine :
public span_image_filter<Source, span_interpolator_linear<trans_affine> >
{
public:
typedef Source source_type;
typedef span_interpolator_linear<trans_affine> interpolator_type;
typedef span_image_filter<source_type, interpolator_type> base_type;
//--------------------------------------------------------------------
span_image_resample_affine() :
m_scale_limit(200.0),
m_blur_x(1.0),
m_blur_y(1.0)
{}
//--------------------------------------------------------------------
span_image_resample_affine(source_type& src,
interpolator_type& inter,
const image_filter_lut& filter) :
base_type(src, inter, &filter),
m_scale_limit(200.0),
m_blur_x(1.0),
m_blur_y(1.0)
{}
//--------------------------------------------------------------------
int scale_limit() const { return uround(m_scale_limit); }
void scale_limit(int v) { m_scale_limit = v; }
//--------------------------------------------------------------------
double blur_x() const { return m_blur_x; }
double blur_y() const { return m_blur_y; }
void blur_x(double v) { m_blur_x = v; }
void blur_y(double v) { m_blur_y = v; }
void blur(double v) { m_blur_x = m_blur_y = v; }
//--------------------------------------------------------------------
void prepare()
{
double scale_x;
double scale_y;
base_type::interpolator().transformer().scaling_abs(&scale_x, &scale_y);
if(scale_x * scale_y > m_scale_limit)
{
scale_x = scale_x * m_scale_limit / (scale_x * scale_y);
scale_y = scale_y * m_scale_limit / (scale_x * scale_y);
}
if(scale_x < 1) scale_x = 1;
if(scale_y < 1) scale_y = 1;
if(scale_x > m_scale_limit) scale_x = m_scale_limit;
if(scale_y > m_scale_limit) scale_y = m_scale_limit;
scale_x *= m_blur_x;
scale_y *= m_blur_y;
if(scale_x < 1) scale_x = 1;
if(scale_y < 1) scale_y = 1;
m_rx = uround( scale_x * double(image_subpixel_scale));
m_rx_inv = uround(1.0/scale_x * double(image_subpixel_scale));
m_ry = uround( scale_y * double(image_subpixel_scale));
m_ry_inv = uround(1.0/scale_y * double(image_subpixel_scale));
}
protected:
int m_rx;
int m_ry;
int m_rx_inv;
int m_ry_inv;
private:
double m_scale_limit;
double m_blur_x;
double m_blur_y;
};
//=====================================================span_image_resample
template<class Source, class Interpolator>
class span_image_resample :
public span_image_filter<Source, Interpolator>
{
public:
typedef Source source_type;
typedef Interpolator interpolator_type;
typedef span_image_filter<source_type, interpolator_type> base_type;
//--------------------------------------------------------------------
span_image_resample() :
m_scale_limit(20),
m_blur_x(image_subpixel_scale),
m_blur_y(image_subpixel_scale)
{}
//--------------------------------------------------------------------
span_image_resample(source_type& src,
interpolator_type& inter,
const image_filter_lut& filter) :
base_type(src, inter, &filter),
m_scale_limit(20),
m_blur_x(image_subpixel_scale),
m_blur_y(image_subpixel_scale)
{}
//--------------------------------------------------------------------
int scale_limit() const { return m_scale_limit; }
void scale_limit(int v) { m_scale_limit = v; }
//--------------------------------------------------------------------
double blur_x() const { return double(m_blur_x) / double(image_subpixel_scale); }
double blur_y() const { return double(m_blur_y) / double(image_subpixel_scale); }
void blur_x(double v) { m_blur_x = uround(v * double(image_subpixel_scale)); }
void blur_y(double v) { m_blur_y = uround(v * double(image_subpixel_scale)); }
void blur(double v) { m_blur_x =
m_blur_y = uround(v * double(image_subpixel_scale)); }
protected:
AGG_INLINE void adjust_scale(int* rx, int* ry)
{
if(*rx < image_subpixel_scale) *rx = image_subpixel_scale;
if(*ry < image_subpixel_scale) *ry = image_subpixel_scale;
if(*rx > image_subpixel_scale * m_scale_limit)
{
*rx = image_subpixel_scale * m_scale_limit;
}
if(*ry > image_subpixel_scale * m_scale_limit)
{
*ry = image_subpixel_scale * m_scale_limit;
}
*rx = (*rx * m_blur_x) >> image_subpixel_shift;
*ry = (*ry * m_blur_y) >> image_subpixel_shift;
if(*rx < image_subpixel_scale) *rx = image_subpixel_scale;
if(*ry < image_subpixel_scale) *ry = image_subpixel_scale;
}
int m_scale_limit;
int m_blur_x;
int m_blur_y;
};
}
#endif
↑ V730 Not all members of a class are initialized inside the constructor. Consider inspecting: m_rx, m_ry, m_rx_inv, m_ry_inv.