//---------------------------------------------------------------------------- // 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_SPAN_IMAGE_RESAMPLE_INCLUDED #define AGG_SPAN_IMAGE_RESAMPLE_INCLUDED #include "agg_span_image_filter.h" #include "agg_span_interpolator_linear.h" namespace agg { //=====================================================span_image_resample template class span_image_resample : public span_image_filter { public: typedef ColorT color_type; typedef Interpolator interpolator_type; typedef Allocator alloc_type; typedef span_image_filter base_type; //-------------------------------------------------------------------- span_image_resample(alloc_type& alloc) : base_type(alloc), m_scale_limit(20), m_blur_x(image_subpixel_size), m_blur_y(image_subpixel_size) {} //-------------------------------------------------------------------- span_image_resample(alloc_type& alloc, const rendering_buffer& src, const color_type& back_color, interpolator_type& inter, const image_filter_lut& filter) : base_type(alloc, src, back_color, inter, &filter), m_scale_limit(20), m_blur_x(image_subpixel_size), m_blur_y(image_subpixel_size) {} //-------------------------------------------------------------------- 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_size); } double blur_y() const { return double(m_blur_y) / double(image_subpixel_size); } void blur_x(double v) { m_blur_x = int(v * double(image_subpixel_size) + 0.5); } void blur_y(double v) { m_blur_y = int(v * double(image_subpixel_size) + 0.5); } void blur(double v) { m_blur_x = m_blur_y = int(v * double(image_subpixel_size) + 0.5); } protected: int m_scale_limit; int m_blur_x; int m_blur_y; }; //==============================================span_image_resample_affine template class span_image_resample_affine : public span_image_filter, Allocator> { public: typedef ColorT color_type; typedef span_interpolator_linear interpolator_type; typedef Allocator alloc_type; typedef span_image_filter base_type; //-------------------------------------------------------------------- span_image_resample_affine(alloc_type& alloc) : base_type(alloc), m_scale_limit(200.0), m_blur_x(1.0), m_blur_y(1.0) {} //-------------------------------------------------------------------- span_image_resample_affine(alloc_type& alloc, const rendering_buffer& src, const color_type& back_color, interpolator_type& inter, const image_filter_lut& filter) : base_type(alloc, src, back_color, inter, &filter), m_scale_limit(200.0), m_blur_x(1.0), m_blur_y(1.0) {} //-------------------------------------------------------------------- int scale_limit() const { return int(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(unsigned max_span_len) { base_type::prepare(max_span_len); double scale_x; double scale_y; base_type::interpolator().transformer().scaling_abs(&scale_x, &scale_y); m_rx = image_subpixel_size; m_ry = image_subpixel_size; m_rx_inv = image_subpixel_size; m_ry_inv = image_subpixel_size; scale_x *= m_blur_x; scale_y *= m_blur_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 > 1.0001) { if(scale_x > m_scale_limit) scale_x = m_scale_limit; m_rx = int( scale_x * double(image_subpixel_size) + 0.5); m_rx_inv = int(1.0/scale_x * double(image_subpixel_size) + 0.5); } if(scale_y > 1.0001) { if(scale_y > m_scale_limit) scale_y = m_scale_limit; m_ry = int( scale_y * double(image_subpixel_size) + 0.5); m_ry_inv = int(1.0/scale_y * double(image_subpixel_size) + 0.5); } } 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; }; } #endif