//---------------------------------------------------------------------------- // 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 //---------------------------------------------------------------------------- // // Adaptation for high precision colors has been sponsored by // Liberty Technology Systems, Inc., visit http://lib-sys.com // // Liberty Technology Systems, Inc. is the provider of // PostScript and PDF technology for software developers. // //---------------------------------------------------------------------------- #ifndef AGG_SPAN_IMAGE_FILTER_RGBA_INCLUDED #define AGG_SPAN_IMAGE_FILTER_RGBA_INCLUDED #include "agg_basics.h" #include "agg_color_rgba.h" #include "agg_span_image_filter.h" namespace agg { //==============================================span_image_filter_rgba_nn template class span_image_filter_rgba_nn : public span_image_filter { public: typedef Source source_type; typedef typename source_type::color_type color_type; typedef typename source_type::order_type order_type; typedef Interpolator interpolator_type; typedef span_image_filter base_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; enum base_scale_e { base_shift = color_type::base_shift, base_mask = color_type::base_mask }; //-------------------------------------------------------------------- span_image_filter_rgba_nn() {} span_image_filter_rgba_nn(source_type& src, interpolator_type& inter) : base_type(src, inter, 0) {} //-------------------------------------------------------------------- void generate(color_type* span, int x, int y, unsigned len) { base_type::interpolator().begin(x + base_type::filter_dx_dbl(), y + base_type::filter_dy_dbl(), len); do { base_type::interpolator().coordinates(&x, &y); const value_type* fg_ptr = (const value_type*) base_type::source().span(x >> image_subpixel_shift, y >> image_subpixel_shift, 1); span->r = fg_ptr[order_type::R]; span->g = fg_ptr[order_type::G]; span->b = fg_ptr[order_type::B]; span->a = fg_ptr[order_type::A]; ++span; ++base_type::interpolator(); } while(--len); } }; //=========================================span_image_filter_rgba_bilinear template class span_image_filter_rgba_bilinear : public span_image_filter { public: typedef Source source_type; typedef typename source_type::color_type color_type; typedef typename source_type::order_type order_type; typedef Interpolator interpolator_type; typedef span_image_filter base_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; enum base_scale_e { base_shift = color_type::base_shift, base_mask = color_type::base_mask }; //-------------------------------------------------------------------- span_image_filter_rgba_bilinear() {} span_image_filter_rgba_bilinear(source_type& src, interpolator_type& inter) : base_type(src, inter, 0) {} //-------------------------------------------------------------------- void generate(color_type* span, int x, int y, unsigned len) { base_type::interpolator().begin(x + base_type::filter_dx_dbl(), y + base_type::filter_dy_dbl(), len); calc_type fg[4]; const value_type *fg_ptr; do { int x_hr; int y_hr; base_type::interpolator().coordinates(&x_hr, &y_hr); x_hr -= base_type::filter_dx_int(); y_hr -= base_type::filter_dy_int(); int x_lr = x_hr >> image_subpixel_shift; int y_lr = y_hr >> image_subpixel_shift; unsigned weight; fg[0] = fg[1] = fg[2] = fg[3] = image_subpixel_scale * image_subpixel_scale / 2; x_hr &= image_subpixel_mask; y_hr &= image_subpixel_mask; fg_ptr = (const value_type*)base_type::source().span(x_lr, y_lr, 2); weight = (image_subpixel_scale - x_hr) * (image_subpixel_scale - y_hr); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; fg_ptr = (const value_type*)base_type::source().next_x(); weight = x_hr * (image_subpixel_scale - y_hr); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; fg_ptr = (const value_type*)base_type::source().next_y(); weight = (image_subpixel_scale - x_hr) * y_hr; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; fg_ptr = (const value_type*)base_type::source().next_x(); weight = x_hr * y_hr; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; span->r = value_type(fg[order_type::R] >> (image_subpixel_shift * 2)); span->g = value_type(fg[order_type::G] >> (image_subpixel_shift * 2)); span->b = value_type(fg[order_type::B] >> (image_subpixel_shift * 2)); span->a = value_type(fg[order_type::A] >> (image_subpixel_shift * 2)); ++span; ++base_type::interpolator(); } while(--len); } }; //====================================span_image_filter_rgba_bilinear_clip template class span_image_filter_rgba_bilinear_clip : public span_image_filter { public: typedef Source source_type; typedef typename source_type::color_type color_type; typedef typename source_type::order_type order_type; typedef Interpolator interpolator_type; typedef span_image_filter base_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; enum base_scale_e { base_shift = color_type::base_shift, base_mask = color_type::base_mask }; //-------------------------------------------------------------------- span_image_filter_rgba_bilinear_clip() {} span_image_filter_rgba_bilinear_clip(source_type& src, const color_type& back_color, interpolator_type& inter) : base_type(src, inter, 0), m_back_color(back_color) {} const color_type& background_color() const { return m_back_color; } void background_color(const color_type& v) { m_back_color = v; } //-------------------------------------------------------------------- void generate(color_type* span, int x, int y, unsigned len) { base_type::interpolator().begin(x + base_type::filter_dx_dbl(), y + base_type::filter_dy_dbl(), len); calc_type fg[4]; value_type back_r = m_back_color.r; value_type back_g = m_back_color.g; value_type back_b = m_back_color.b; value_type back_a = m_back_color.a; const value_type *fg_ptr = NULL; int maxx = base_type::source().width() - 1; int maxy = base_type::source().height() - 1; do { int x_hr; int y_hr; base_type::interpolator().coordinates(&x_hr, &y_hr); x_hr -= base_type::filter_dx_int(); y_hr -= base_type::filter_dy_int(); int x_lr = x_hr >> image_subpixel_shift; int y_lr = y_hr >> image_subpixel_shift; unsigned weight; if(x_lr >= 0 && y_lr >= 0 && x_lr < maxx && y_lr < maxy) { fg[0] = fg[1] = fg[2] = fg[3] = image_subpixel_scale * image_subpixel_scale / 2; x_hr &= image_subpixel_mask; y_hr &= image_subpixel_mask; fg_ptr = (const value_type*) base_type::source().row_ptr(y_lr) + (x_lr << 2); weight = (image_subpixel_scale - x_hr) * (image_subpixel_scale - y_hr); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; weight = x_hr * (image_subpixel_scale - y_hr); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; ++y_lr; fg_ptr = (const value_type*) base_type::source().row_ptr(y_lr) + (x_lr << 2); weight = (image_subpixel_scale - x_hr) * y_hr; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; weight = x_hr * y_hr; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; fg[0] >>= image_subpixel_shift * 2; fg[1] >>= image_subpixel_shift * 2; fg[2] >>= image_subpixel_shift * 2; fg[3] >>= image_subpixel_shift * 2; } else { if(x_lr < -1 || y_lr < -1 || x_lr > maxx || y_lr > maxy) { fg[order_type::R] = back_r; fg[order_type::G] = back_g; fg[order_type::B] = back_b; fg[order_type::A] = back_a; } else { fg[0] = fg[1] = fg[2] = fg[3] = image_subpixel_scale * image_subpixel_scale / 2; x_hr &= image_subpixel_mask; y_hr &= image_subpixel_mask; weight = (image_subpixel_scale - x_hr) * (image_subpixel_scale - y_hr); if(x_lr >= 0 && y_lr >= 0 && x_lr <= maxx && y_lr <= maxy) { fg_ptr = (const value_type*) base_type::source().row_ptr(y_lr) + (x_lr << 2); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; } else { fg[order_type::R] += back_r * weight; fg[order_type::G] += back_g * weight; fg[order_type::B] += back_b * weight; fg[order_type::A] += back_a * weight; } x_lr++; weight = x_hr * (image_subpixel_scale - y_hr); if(x_lr >= 0 && y_lr >= 0 && x_lr <= maxx && y_lr <= maxy) { fg_ptr = (const value_type*) base_type::source().row_ptr(y_lr) + (x_lr << 2); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; } else { fg[order_type::R] += back_r * weight; fg[order_type::G] += back_g * weight; fg[order_type::B] += back_b * weight; fg[order_type::A] += back_a * weight; } x_lr--; y_lr++; weight = (image_subpixel_scale - x_hr) * y_hr; if(x_lr >= 0 && y_lr >= 0 && x_lr <= maxx && y_lr <= maxy) { fg_ptr = (const value_type*) base_type::source().row_ptr(y_lr) + (x_lr << 2); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; } else { fg[order_type::R] += back_r * weight; fg[order_type::G] += back_g * weight; fg[order_type::B] += back_b * weight; fg[order_type::A] += back_a * weight; } x_lr++; weight = x_hr * y_hr; if(x_lr >= 0 && y_lr >= 0 && x_lr <= maxx && y_lr <= maxy) { fg_ptr = (const value_type*) base_type::source().row_ptr(y_lr) + (x_lr << 2); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; } else { fg[order_type::R] += back_r * weight; fg[order_type::G] += back_g * weight; fg[order_type::B] += back_b * weight; fg[order_type::A] += back_a * weight; } fg[0] >>= image_subpixel_shift * 2; fg[1] >>= image_subpixel_shift * 2; fg[2] >>= image_subpixel_shift * 2; fg[3] >>= image_subpixel_shift * 2; } } span->r = (value_type)fg[order_type::R]; span->g = (value_type)fg[order_type::G]; span->b = (value_type)fg[order_type::B]; span->a = (value_type)fg[order_type::A]; ++span; ++base_type::interpolator(); } while(--len); } private: color_type m_back_color; }; //==============================================span_image_filter_rgba_2x2 template class span_image_filter_rgba_2x2 : public span_image_filter { public: typedef Source source_type; typedef typename source_type::color_type color_type; typedef typename source_type::order_type order_type; typedef Interpolator interpolator_type; typedef span_image_filter base_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; enum base_scale_e { base_shift = color_type::base_shift, base_mask = color_type::base_mask }; //-------------------------------------------------------------------- span_image_filter_rgba_2x2() {} span_image_filter_rgba_2x2(source_type& src, interpolator_type& inter, const image_filter_lut& filter) : base_type(src, inter, &filter) {} //-------------------------------------------------------------------- void generate(color_type* span, int x, int y, unsigned len) { base_type::interpolator().begin(x + base_type::filter_dx_dbl(), y + base_type::filter_dy_dbl(), len); calc_type fg[4]; const value_type *fg_ptr; const int16* weight_array = base_type::filter().weight_array() + ((base_type::filter().diameter()/2 - 1) << image_subpixel_shift); do { int x_hr; int y_hr; base_type::interpolator().coordinates(&x_hr, &y_hr); x_hr -= base_type::filter_dx_int(); y_hr -= base_type::filter_dy_int(); int x_lr = x_hr >> image_subpixel_shift; int y_lr = y_hr >> image_subpixel_shift; unsigned weight; fg[0] = fg[1] = fg[2] = fg[3] = image_filter_scale / 2; x_hr &= image_subpixel_mask; y_hr &= image_subpixel_mask; fg_ptr = (const value_type*)base_type::source().span(x_lr, y_lr, 2); weight = (weight_array[x_hr + image_subpixel_scale] * weight_array[y_hr + image_subpixel_scale] + image_filter_scale / 2) >> image_filter_shift; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; fg_ptr = (const value_type*)base_type::source().next_x(); weight = (weight_array[x_hr] * weight_array[y_hr + image_subpixel_scale] + image_filter_scale / 2) >> image_filter_shift; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; fg_ptr = (const value_type*)base_type::source().next_y(); weight = (weight_array[x_hr + image_subpixel_scale] * weight_array[y_hr] + image_filter_scale / 2) >> image_filter_shift; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; fg_ptr = (const value_type*)base_type::source().next_x(); weight = (weight_array[x_hr] * weight_array[y_hr] + image_filter_scale / 2) >> image_filter_shift; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; fg[0] >>= image_filter_shift; fg[1] >>= image_filter_shift; fg[2] >>= image_filter_shift; fg[3] >>= image_filter_shift; if(fg[order_type::A] > base_mask) fg[order_type::A] = base_mask; if(fg[order_type::R] > fg[order_type::A]) fg[order_type::R] = fg[order_type::A]; if(fg[order_type::G] > fg[order_type::A]) fg[order_type::G] = fg[order_type::A]; if(fg[order_type::B] > fg[order_type::A]) fg[order_type::B] = fg[order_type::A]; span->r = (value_type)fg[order_type::R]; span->g = (value_type)fg[order_type::G]; span->b = (value_type)fg[order_type::B]; span->a = (value_type)fg[order_type::A]; ++span; ++base_type::interpolator(); } while(--len); } }; //==================================================span_image_filter_rgba template class span_image_filter_rgba : public span_image_filter { public: typedef Source source_type; typedef typename source_type::color_type color_type; typedef typename source_type::order_type order_type; typedef Interpolator interpolator_type; typedef span_image_filter base_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; enum base_scale_e { base_shift = color_type::base_shift, base_mask = color_type::base_mask }; //-------------------------------------------------------------------- span_image_filter_rgba() {} span_image_filter_rgba(source_type& src, interpolator_type& inter, const image_filter_lut& filter) : base_type(src, inter, &filter) {} //-------------------------------------------------------------------- void generate(color_type* span, int x, int y, unsigned len) { base_type::interpolator().begin(x + base_type::filter_dx_dbl(), y + base_type::filter_dy_dbl(), len); int fg[4]; const value_type *fg_ptr; unsigned diameter = base_type::filter().diameter(); int start = base_type::filter().start(); const int16* weight_array = base_type::filter().weight_array(); int x_count; int weight_y; do { base_type::interpolator().coordinates(&x, &y); x -= base_type::filter_dx_int(); y -= base_type::filter_dy_int(); int x_hr = x; int y_hr = y; int x_lr = x_hr >> image_subpixel_shift; int y_lr = y_hr >> image_subpixel_shift; fg[0] = fg[1] = fg[2] = fg[3] = image_filter_scale / 2; int x_fract = x_hr & image_subpixel_mask; unsigned y_count = diameter; y_hr = image_subpixel_mask - (y_hr & image_subpixel_mask); fg_ptr = (const value_type*)base_type::source().span(x_lr + start, y_lr + start, diameter); for(;;) { x_count = diameter; weight_y = weight_array[y_hr]; x_hr = image_subpixel_mask - x_fract; for(;;) { int weight = (weight_y * weight_array[x_hr] + image_filter_scale / 2) >> image_filter_shift; fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr; if(--x_count == 0) break; x_hr += image_subpixel_scale; fg_ptr = (const value_type*)base_type::source().next_x(); } if(--y_count == 0) break; y_hr += image_subpixel_scale; fg_ptr = (const value_type*)base_type::source().next_y(); } fg[0] >>= image_filter_shift; fg[1] >>= image_filter_shift; fg[2] >>= image_filter_shift; fg[3] >>= image_filter_shift; if(fg[0] < 0) fg[0] = 0; if(fg[1] < 0) fg[1] = 0; if(fg[2] < 0) fg[2] = 0; if(fg[3] < 0) fg[3] = 0; if(fg[order_type::A] > base_mask) fg[order_type::A] = base_mask; if(fg[order_type::R] > fg[order_type::A]) fg[order_type::R] = fg[order_type::A]; if(fg[order_type::G] > fg[order_type::A]) fg[order_type::G] = fg[order_type::A]; if(fg[order_type::B] > fg[order_type::A]) fg[order_type::B] = fg[order_type::A]; span->r = (value_type)fg[order_type::R]; span->g = (value_type)fg[order_type::G]; span->b = (value_type)fg[order_type::B]; span->a = (value_type)fg[order_type::A]; ++span; ++base_type::interpolator(); } while(--len); } }; //========================================span_image_resample_rgba_affine template class span_image_resample_rgba_affine : public span_image_resample_affine { public: typedef Source source_type; typedef typename source_type::color_type color_type; typedef typename source_type::order_type order_type; typedef span_image_resample_affine base_type; typedef typename base_type::interpolator_type interpolator_type; typedef typename color_type::value_type value_type; typedef typename color_type::long_type long_type; enum base_scale_e { base_shift = color_type::base_shift, base_mask = color_type::base_mask, downscale_shift = image_filter_shift }; //-------------------------------------------------------------------- span_image_resample_rgba_affine() {} span_image_resample_rgba_affine(source_type& src, interpolator_type& inter, const image_filter_lut& filter) : base_type(src, inter, filter) {} //-------------------------------------------------------------------- void generate(color_type* span, int x, int y, unsigned len) { base_type::interpolator().begin(x + base_type::filter_dx_dbl(), y + base_type::filter_dy_dbl(), len); long_type fg[4]; int diameter = base_type::filter().diameter(); int filter_scale = diameter << image_subpixel_shift; int radius_x = (diameter * base_type::m_rx) >> 1; int radius_y = (diameter * base_type::m_ry) >> 1; int len_x_lr = (diameter * base_type::m_rx + image_subpixel_mask) >> image_subpixel_shift; const int16* weight_array = base_type::filter().weight_array(); do { base_type::interpolator().coordinates(&x, &y); x += base_type::filter_dx_int() - radius_x; y += base_type::filter_dy_int() - radius_y; fg[0] = fg[1] = fg[2] = fg[3] = image_filter_scale / 2; int y_lr = y >> image_subpixel_shift; int y_hr = ((image_subpixel_mask - (y & image_subpixel_mask)) * base_type::m_ry_inv) >> image_subpixel_shift; int total_weight = 0; int x_lr = x >> image_subpixel_shift; int x_hr = ((image_subpixel_mask - (x & image_subpixel_mask)) * base_type::m_rx_inv) >> image_subpixel_shift; int x_hr2 = x_hr; const value_type* fg_ptr = (const value_type*)base_type::source().span(x_lr, y_lr, len_x_lr); for(;;) { int weight_y = weight_array[y_hr]; x_hr = x_hr2; for(;;) { int weight = (weight_y * weight_array[x_hr] + image_filter_scale / 2) >> downscale_shift; fg[0] += *fg_ptr++ * weight; fg[1] += *fg_ptr++ * weight; fg[2] += *fg_ptr++ * weight; fg[3] += *fg_ptr++ * weight; total_weight += weight; x_hr += base_type::m_rx_inv; if(x_hr >= filter_scale) break; fg_ptr = (const value_type*)base_type::source().next_x(); } y_hr += base_type::m_ry_inv; if(y_hr >= filter_scale) break; fg_ptr = (const value_type*)base_type::source().next_y(); } fg[0] /= total_weight; fg[1] /= total_weight; fg[2] /= total_weight; fg[3] /= total_weight; if(fg[0] < 0) fg[0] = 0; if(fg[1] < 0) fg[1] = 0; if(fg[2] < 0) fg[2] = 0; if(fg[3] < 0) fg[3] = 0; if(fg[order_type::A] > base_mask) fg[order_type::A] = base_mask; if(fg[order_type::R] > fg[order_type::A]) fg[order_type::R] = fg[order_type::A]; if(fg[order_type::G] > fg[order_type::A]) fg[order_type::G] = fg[order_type::A]; if(fg[order_type::B] > fg[order_type::A]) fg[order_type::B] = fg[order_type::A]; span->r = (value_type)fg[order_type::R]; span->g = (value_type)fg[order_type::G]; span->b = (value_type)fg[order_type::B]; span->a = (value_type)fg[order_type::A]; ++span; ++base_type::interpolator(); } while(--len); } }; //==============================================span_image_resample_rgba template class span_image_resample_rgba : public span_image_resample { public: typedef Source source_type; typedef typename source_type::color_type color_type; typedef typename source_type::order_type order_type; typedef Interpolator interpolator_type; typedef span_image_resample base_type; typedef typename color_type::value_type value_type; typedef typename color_type::long_type long_type; enum base_scale_e { base_shift = color_type::base_shift, base_mask = color_type::base_mask, downscale_shift = image_filter_shift }; //-------------------------------------------------------------------- span_image_resample_rgba() {} span_image_resample_rgba(source_type& src, interpolator_type& inter, const image_filter_lut& filter) : base_type(src, inter, filter) {} //-------------------------------------------------------------------- void generate(color_type* span, int x, int y, unsigned len) { base_type::interpolator().begin(x + base_type::filter_dx_dbl(), y + base_type::filter_dy_dbl(), len); long_type fg[4]; int diameter = base_type::filter().diameter(); int filter_scale = diameter << image_subpixel_shift; const int16* weight_array = base_type::filter().weight_array(); do { int rx; int ry; int rx_inv = image_subpixel_scale; int ry_inv = image_subpixel_scale; base_type::interpolator().coordinates(&x, &y); base_type::interpolator().local_scale(&rx, &ry); base_type::adjust_scale(&rx, &ry); rx_inv = image_subpixel_scale * image_subpixel_scale / rx; ry_inv = image_subpixel_scale * image_subpixel_scale / ry; int radius_x = (diameter * rx) >> 1; int radius_y = (diameter * ry) >> 1; int len_x_lr = (diameter * rx + image_subpixel_mask) >> image_subpixel_shift; x += base_type::filter_dx_int() - radius_x; y += base_type::filter_dy_int() - radius_y; fg[0] = fg[1] = fg[2] = fg[3] = image_filter_scale / 2; int y_lr = y >> image_subpixel_shift; int y_hr = ((image_subpixel_mask - (y & image_subpixel_mask)) * ry_inv) >> image_subpixel_shift; int total_weight = 0; int x_lr = x >> image_subpixel_shift; int x_hr = ((image_subpixel_mask - (x & image_subpixel_mask)) * rx_inv) >> image_subpixel_shift; int x_hr2 = x_hr; const value_type* fg_ptr = (const value_type*)base_type::source().span(x_lr, y_lr, len_x_lr); for(;;) { int weight_y = weight_array[y_hr]; x_hr = x_hr2; for(;;) { int weight = (weight_y * weight_array[x_hr] + image_filter_scale / 2) >> downscale_shift; fg[0] += *fg_ptr++ * weight; fg[1] += *fg_ptr++ * weight; fg[2] += *fg_ptr++ * weight; fg[3] += *fg_ptr++ * weight; total_weight += weight; x_hr += rx_inv; if(x_hr >= filter_scale) break; fg_ptr = (const value_type*)base_type::source().next_x(); } y_hr += ry_inv; if(y_hr >= filter_scale) break; fg_ptr = (const value_type*)base_type::source().next_y(); } fg[0] /= total_weight; fg[1] /= total_weight; fg[2] /= total_weight; fg[3] /= total_weight; if(fg[0] < 0) fg[0] = 0; if(fg[1] < 0) fg[1] = 0; if(fg[2] < 0) fg[2] = 0; if(fg[3] < 0) fg[3] = 0; if(fg[order_type::A] > base_mask) fg[order_type::A] = base_mask; if(fg[order_type::R] > fg[order_type::A]) fg[order_type::R] = fg[order_type::A]; if(fg[order_type::G] > fg[order_type::A]) fg[order_type::G] = fg[order_type::A]; if(fg[order_type::B] > fg[order_type::A]) fg[order_type::B] = fg[order_type::A]; span->r = (value_type)fg[order_type::R]; span->g = (value_type)fg[order_type::G]; span->b = (value_type)fg[order_type::B]; span->a = (value_type)fg[order_type::A]; ++span; ++base_type::interpolator(); } while(--len); } }; } #endif