//---------------------------------------------------------------------------- // 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_PIXFMT_RGBA_INCLUDED #define AGG_PIXFMT_RGBA_INCLUDED #include #include #include "agg_pixfmt_base.h" #include "agg_rendering_buffer.h" namespace agg { template inline T sd_min(T a, T b) { return (a < b) ? a : b; } template inline T sd_max(T a, T b) { return (a > b) ? a : b; } inline rgba & clip(rgba & c) { if (c.a > 1) c.a = 1; else if (c.a < 0) c.a = 0; if (c.r > c.a) c.r = c.a; else if (c.r < 0) c.r = 0; if (c.g > c.a) c.g = c.a; else if (c.g < 0) c.g = 0; if (c.b > c.a) c.b = c.a; else if (c.b < 0) c.b = 0; return c; } //=========================================================multiplier_rgba template struct multiplier_rgba { typedef ColorT color_type; typedef typename color_type::value_type value_type; //-------------------------------------------------------------------- static AGG_INLINE void premultiply(value_type* p) { value_type a = p[Order::A]; p[Order::R] = color_type::multiply(p[Order::R], a); p[Order::G] = color_type::multiply(p[Order::G], a); p[Order::B] = color_type::multiply(p[Order::B], a); } //-------------------------------------------------------------------- static AGG_INLINE void demultiply(value_type* p) { value_type a = p[Order::A]; p[Order::R] = color_type::demultiply(p[Order::R], a); p[Order::G] = color_type::demultiply(p[Order::G], a); p[Order::B] = color_type::demultiply(p[Order::B], a); } }; //=====================================================apply_gamma_dir_rgba template class apply_gamma_dir_rgba { public: typedef ColorT color_type; typedef typename color_type::value_type value_type; apply_gamma_dir_rgba(const GammaLut& gamma) : m_gamma(gamma) {} AGG_INLINE void operator () (value_type* p) { p[Order::R] = m_gamma.dir(p[Order::R]); p[Order::G] = m_gamma.dir(p[Order::G]); p[Order::B] = m_gamma.dir(p[Order::B]); } private: const GammaLut& m_gamma; }; //=====================================================apply_gamma_inv_rgba template class apply_gamma_inv_rgba { public: typedef ColorT color_type; typedef typename color_type::value_type value_type; apply_gamma_inv_rgba(const GammaLut& gamma) : m_gamma(gamma) {} AGG_INLINE void operator () (value_type* p) { p[Order::R] = m_gamma.inv(p[Order::R]); p[Order::G] = m_gamma.inv(p[Order::G]); p[Order::B] = m_gamma.inv(p[Order::B]); } private: const GammaLut& m_gamma; }; template struct conv_rgba_pre { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; //-------------------------------------------------------------------- static AGG_INLINE void set_plain_color(value_type* p, color_type c) { c.premultiply(); p[Order::R] = c.r; p[Order::G] = c.g; p[Order::B] = c.b; p[Order::A] = c.a; } //-------------------------------------------------------------------- static AGG_INLINE color_type get_plain_color(const value_type* p) { return color_type( p[Order::R], p[Order::G], p[Order::B], p[Order::A]).demultiply(); } }; template struct conv_rgba_plain { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; //-------------------------------------------------------------------- static AGG_INLINE void set_plain_color(value_type* p, color_type c) { p[Order::R] = c.r; p[Order::G] = c.g; p[Order::B] = c.b; p[Order::A] = c.a; } //-------------------------------------------------------------------- static AGG_INLINE color_type get_plain_color(const value_type* p) { return color_type( p[Order::R], p[Order::G], p[Order::B], p[Order::A]); } }; //=============================================================blender_rgba // Blends "plain" (i.e. non-premultiplied) colors into a premultiplied buffer. template struct blender_rgba : conv_rgba_pre { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; // Blend pixels using the non-premultiplied form of Alvy-Ray Smith's // compositing function. Since the render buffer is in fact premultiplied // we omit the initial premultiplication and final demultiplication. //-------------------------------------------------------------------- static AGG_INLINE void blend_pix(value_type* p, value_type cr, value_type cg, value_type cb, value_type alpha, cover_type cover) { blend_pix(p, cr, cg, cb, color_type::mult_cover(alpha, cover)); } //-------------------------------------------------------------------- static AGG_INLINE void blend_pix(value_type* p, value_type cr, value_type cg, value_type cb, value_type alpha) { p[Order::R] = color_type::lerp(p[Order::R], cr, alpha); p[Order::G] = color_type::lerp(p[Order::G], cg, alpha); p[Order::B] = color_type::lerp(p[Order::B], cb, alpha); p[Order::A] = color_type::prelerp(p[Order::A], alpha, alpha); } }; //========================================================blender_rgba_pre // Blends premultiplied colors into a premultiplied buffer. template struct blender_rgba_pre : conv_rgba_pre { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; // Blend pixels using the premultiplied form of Alvy-Ray Smith's // compositing function. //-------------------------------------------------------------------- static AGG_INLINE void blend_pix(value_type* p, value_type cr, value_type cg, value_type cb, value_type alpha, cover_type cover) { blend_pix(p, color_type::mult_cover(cr, cover), color_type::mult_cover(cg, cover), color_type::mult_cover(cb, cover), color_type::mult_cover(alpha, cover)); } //-------------------------------------------------------------------- static AGG_INLINE void blend_pix(value_type* p, value_type cr, value_type cg, value_type cb, value_type alpha) { p[Order::R] = color_type::prelerp(p[Order::R], cr, alpha); p[Order::G] = color_type::prelerp(p[Order::G], cg, alpha); p[Order::B] = color_type::prelerp(p[Order::B], cb, alpha); p[Order::A] = color_type::prelerp(p[Order::A], alpha, alpha); } }; //======================================================blender_rgba_plain // Blends "plain" (non-premultiplied) colors into a plain (non-premultiplied) buffer. template struct blender_rgba_plain : conv_rgba_plain { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; // Blend pixels using the non-premultiplied form of Alvy-Ray Smith's // compositing function. //-------------------------------------------------------------------- static AGG_INLINE void blend_pix(value_type* p, value_type cr, value_type cg, value_type cb, value_type alpha, cover_type cover) { blend_pix(p, cr, cg, cb, color_type::mult_cover(alpha, cover)); } //-------------------------------------------------------------------- static AGG_INLINE void blend_pix(value_type* p, value_type cr, value_type cg, value_type cb, value_type alpha) { if (alpha > color_type::empty_value()) { calc_type a = p[Order::A]; calc_type r = color_type::multiply(p[Order::R], a); calc_type g = color_type::multiply(p[Order::G], a); calc_type b = color_type::multiply(p[Order::B], a); p[Order::R] = color_type::lerp(r, cr, alpha); p[Order::G] = color_type::lerp(g, cg, alpha); p[Order::B] = color_type::lerp(b, cb, alpha); p[Order::A] = color_type::prelerp(a, alpha, alpha); multiplier_rgba::demultiply(p); } } }; // SVG compositing operations. // For specifications, see http://www.w3.org/TR/SVGCompositing/ //=========================================================comp_op_rgba_clear template struct comp_op_rgba_clear : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = 0 // Da' = 0 static AGG_INLINE void blend_pix(value_type* p, value_type, value_type, value_type, value_type, cover_type cover) { if (cover >= cover_full) { p[0] = p[1] = p[2] = p[3] = color_type::empty_value(); } else if (cover > cover_none) { set(p, get(p, cover_full - cover)); } } }; //===========================================================comp_op_rgba_src template struct comp_op_rgba_src : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca // Da' = Sa static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { if (cover >= cover_full) { set(p, r, g, b, a); } else { rgba s = get(r, g, b, a, cover); rgba d = get(p, cover_full - cover); d.r += s.r; d.g += s.g; d.b += s.b; d.a += s.a; set(p, d); } } }; //===========================================================comp_op_rgba_dst template struct comp_op_rgba_dst : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; // Dca' = Dca.Sa + Dca.(1 - Sa) = Dca // Da' = Da.Sa + Da.(1 - Sa) = Da static AGG_INLINE void blend_pix(value_type*, value_type, value_type, value_type, value_type, cover_type) { // Well, that was easy! } }; //======================================================comp_op_rgba_src_over template struct comp_op_rgba_src_over : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca + Dca.(1 - Sa) = Dca + Sca - Dca.Sa // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { #if 1 blender_rgba_pre::blend_pix(p, r, g, b, a, cover); #else rgba s = get(r, g, b, a, cover); rgba d = get(p); d.r += s.r - d.r * s.a; d.g += s.g - d.g * s.a; d.b += s.b - d.b * s.a; d.a += s.a - d.a * s.a; set(p, d); #endif } }; //======================================================comp_op_rgba_dst_over template struct comp_op_rgba_dst_over : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Dca + Sca.(1 - Da) // Da' = Sa + Da - Sa.Da = Da + Sa.(1 - Da) static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); rgba d = get(p); double d1a = 1 - d.a; d.r += s.r * d1a; d.g += s.g * d1a; d.b += s.b * d1a; d.a += s.a * d1a; set(p, d); } }; //======================================================comp_op_rgba_src_in template struct comp_op_rgba_src_in : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca.Da // Da' = Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { double da = ColorT::to_double(p[Order::A]); if (da > 0) { rgba s = get(r, g, b, a, cover); rgba d = get(p, cover_full - cover); d.r += s.r * da; d.g += s.g * da; d.b += s.b * da; d.a += s.a * da; set(p, d); } } }; //======================================================comp_op_rgba_dst_in template struct comp_op_rgba_dst_in : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Dca.Sa // Da' = Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type, value_type, value_type, value_type a, cover_type cover) { double sa = ColorT::to_double(a); rgba d = get(p, cover_full - cover); rgba d2 = get(p, cover); d.r += d2.r * sa; d.g += d2.g * sa; d.b += d2.b * sa; d.a += d2.a * sa; set(p, d); } }; //======================================================comp_op_rgba_src_out template struct comp_op_rgba_src_out : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca.(1 - Da) // Da' = Sa.(1 - Da) static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); rgba d = get(p, cover_full - cover); double d1a = 1 - ColorT::to_double(p[Order::A]); d.r += s.r * d1a; d.g += s.g * d1a; d.b += s.b * d1a; d.a += s.a * d1a; set(p, d); } }; //======================================================comp_op_rgba_dst_out template struct comp_op_rgba_dst_out : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Dca.(1 - Sa) // Da' = Da.(1 - Sa) static AGG_INLINE void blend_pix(value_type* p, value_type, value_type, value_type, value_type a, cover_type cover) { rgba d = get(p, cover_full - cover); rgba dc = get(p, cover); double s1a = 1 - ColorT::to_double(a); d.r += dc.r * s1a; d.g += dc.g * s1a; d.b += dc.b * s1a; d.a += dc.a * s1a; set(p, d); } }; //=====================================================comp_op_rgba_src_atop template struct comp_op_rgba_src_atop : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca.Da + Dca.(1 - Sa) // Da' = Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); rgba d = get(p); double s1a = 1 - s.a; d.r = s.r * d.a + d.r * s1a; d.g = s.g * d.a + d.g * s1a; d.b = s.b * d.a + d.g * s1a; set(p, d); } }; //=====================================================comp_op_rgba_dst_atop template struct comp_op_rgba_dst_atop : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Dca.Sa + Sca.(1 - Da) // Da' = Sa static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba sc = get(r, g, b, a, cover); rgba dc = get(p, cover); rgba d = get(p, cover_full - cover); double sa = ColorT::to_double(a); double d1a = 1 - ColorT::to_double(p[Order::A]); d.r += dc.r * sa + sc.r * d1a; d.g += dc.g * sa + sc.g * d1a; d.b += dc.b * sa + sc.b * d1a; d.a += sc.a; set(p, d); } }; //=========================================================comp_op_rgba_xor template struct comp_op_rgba_xor : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca.(1 - Da) + Dca.(1 - Sa) // Da' = Sa + Da - 2.Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); rgba d = get(p); double s1a = 1 - s.a; double d1a = 1 - ColorT::to_double(p[Order::A]); d.r = s.r * d1a + d.r * s1a; d.g = s.g * d1a + d.g * s1a; d.b = s.b * d1a + d.b * s1a; d.a = s.a + d.a - 2 * s.a * d.a; set(p, d); } }; //=========================================================comp_op_rgba_plus template struct comp_op_rgba_plus : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca + Dca // Da' = Sa + Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); d.a = sd_min(d.a + s.a, 1.0); d.r = sd_min(d.r + s.r, d.a); d.g = sd_min(d.g + s.g, d.a); d.b = sd_min(d.b + s.b, d.a); set(p, clip(d)); } } }; //========================================================comp_op_rgba_minus // Note: not included in SVG spec. template struct comp_op_rgba_minus : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Dca - Sca // Da' = 1 - (1 - Sa).(1 - Da) = Da + Sa - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); d.a += s.a - s.a * d.a; d.r = sd_max(d.r - s.r, 0.0); d.g = sd_max(d.g - s.g, 0.0); d.b = sd_max(d.b - s.b, 0.0); set(p, clip(d)); } } }; //=====================================================comp_op_rgba_multiply template struct comp_op_rgba_multiply : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca.Dca + Sca.(1 - Da) + Dca.(1 - Sa) // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); double s1a = 1 - s.a; double d1a = 1 - d.a; d.r = s.r * d.r + s.r * d1a + d.r * s1a; d.g = s.g * d.g + s.g * d1a + d.g * s1a; d.b = s.b * d.b + s.b * d1a + d.b * s1a; d.a += s.a - s.a * d.a; set(p, clip(d)); } } }; //=====================================================comp_op_rgba_screen template struct comp_op_rgba_screen : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca + Dca - Sca.Dca // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); d.r += s.r - s.r * d.r; d.g += s.g - s.g * d.g; d.b += s.b - s.b * d.b; d.a += s.a - s.a * d.a; set(p, clip(d)); } } }; //=====================================================comp_op_rgba_overlay template struct comp_op_rgba_overlay : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // if 2.Dca <= Da // Dca' = 2.Sca.Dca + Sca.(1 - Da) + Dca.(1 - Sa) // otherwise // Dca' = Sa.Da - 2.(Da - Dca).(Sa - Sca) + Sca.(1 - Da) + Dca.(1 - Sa) // // Da' = Sa + Da - Sa.Da static AGG_INLINE double calc(double dca, double sca, double da, double sa, double sada, double d1a, double s1a) { return (2 * dca <= da) ? 2 * sca * dca + sca * d1a + dca * s1a : sada - 2 * (da - dca) * (sa - sca) + sca * d1a + dca * s1a; } static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); double d1a = 1 - d.a; double s1a = 1 - s.a; double sada = s.a * d.a; d.r = calc(d.r, s.r, d.a, s.a, sada, d1a, s1a); d.g = calc(d.g, s.g, d.a, s.a, sada, d1a, s1a); d.b = calc(d.b, s.b, d.a, s.a, sada, d1a, s1a); d.a += s.a - s.a * d.a; set(p, clip(d)); } } }; //=====================================================comp_op_rgba_darken template struct comp_op_rgba_darken : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = min(Sca.Da, Dca.Sa) + Sca.(1 - Da) + Dca.(1 - Sa) // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); double d1a = 1 - d.a; double s1a = 1 - s.a; d.r = sd_min(s.r * d.a, d.r * s.a) + s.r * d1a + d.r * s1a; d.g = sd_min(s.g * d.a, d.g * s.a) + s.g * d1a + d.g * s1a; d.b = sd_min(s.b * d.a, d.b * s.a) + s.b * d1a + d.b * s1a; d.a += s.a - s.a * d.a; set(p, clip(d)); } } }; //=====================================================comp_op_rgba_lighten template struct comp_op_rgba_lighten : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = max(Sca.Da, Dca.Sa) + Sca.(1 - Da) + Dca.(1 - Sa) // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); double d1a = 1 - d.a; double s1a = 1 - s.a; d.r = sd_max(s.r * d.a, d.r * s.a) + s.r * d1a + d.r * s1a; d.g = sd_max(s.g * d.a, d.g * s.a) + s.g * d1a + d.g * s1a; d.b = sd_max(s.b * d.a, d.b * s.a) + s.b * d1a + d.b * s1a; d.a += s.a - s.a * d.a; set(p, clip(d)); } } }; //=====================================================comp_op_rgba_color_dodge template struct comp_op_rgba_color_dodge : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // if Sca == Sa and Dca == 0 // Dca' = Sca.(1 - Da) + Dca.(1 - Sa) = Sca.(1 - Da) // otherwise if Sca == Sa // Dca' = Sa.Da + Sca.(1 - Da) + Dca.(1 - Sa) // otherwise if Sca < Sa // Dca' = Sa.Da.min(1, Dca/Da.Sa/(Sa - Sca)) + Sca.(1 - Da) + Dca.(1 - Sa) // // Da' = Sa + Da - Sa.Da static AGG_INLINE double calc(double dca, double sca, double da, double sa, double sada, double d1a, double s1a) { if (sca < sa) return sada * sd_min(1.0, (dca / da) * sa / (sa - sca)) + sca * d1a + dca * s1a; if (dca > 0) return sada + sca * d1a + dca * s1a; return sca * d1a; } static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); if (d.a > 0) { double sada = s.a * d.a; double s1a = 1 - s.a; double d1a = 1 - d.a; d.r = calc(d.r, s.r, d.a, s.a, sada, d1a, s1a); d.g = calc(d.g, s.g, d.a, s.a, sada, d1a, s1a); d.b = calc(d.b, s.b, d.a, s.a, sada, d1a, s1a); d.a += s.a - s.a * d.a; set(p, clip(d)); } else set(p, s); } } }; //=====================================================comp_op_rgba_color_burn template struct comp_op_rgba_color_burn : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // if Sca == 0 and Dca == Da // Dca' = Sa.Da + Dca.(1 - Sa) // otherwise if Sca == 0 // Dca' = Dca.(1 - Sa) // otherwise if Sca > 0 // Dca' = Sa.Da.(1 - min(1, (1 - Dca/Da).Sa/Sca)) + Sca.(1 - Da) + Dca.(1 - Sa) static AGG_INLINE double calc(double dca, double sca, double da, double sa, double sada, double d1a, double s1a) { if (sca > 0) return sada * (1 - sd_min(1.0, (1 - dca / da) * sa / sca)) + sca * d1a + dca * s1a; if (dca > da) return sada + dca * s1a; return dca * s1a; } static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); if (d.a > 0) { double sada = s.a * d.a; double s1a = 1 - s.a; double d1a = 1 - d.a; d.r = calc(d.r, s.r, d.a, s.a, sada, d1a, s1a); d.g = calc(d.g, s.g, d.a, s.a, sada, d1a, s1a); d.b = calc(d.b, s.b, d.a, s.a, sada, d1a, s1a); d.a += s.a - sada; set(p, clip(d)); } else set(p, s); } } }; //=====================================================comp_op_rgba_hard_light template struct comp_op_rgba_hard_light : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // if 2.Sca < Sa // Dca' = 2.Sca.Dca + Sca.(1 - Da) + Dca.(1 - Sa) // otherwise // Dca' = Sa.Da - 2.(Da - Dca).(Sa - Sca) + Sca.(1 - Da) + Dca.(1 - Sa) // // Da' = Sa + Da - Sa.Da static AGG_INLINE double calc(double dca, double sca, double da, double sa, double sada, double d1a, double s1a) { return (2 * sca < sa) ? 2 * sca * dca + sca * d1a + dca * s1a : sada - 2 * (da - dca) * (sa - sca) + sca * d1a + dca * s1a; } static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); double d1a = 1 - d.a; double s1a = 1 - s.a; double sada = s.a * d.a; d.r = calc(d.r, s.r, d.a, s.a, sada, d1a, s1a); d.g = calc(d.g, s.g, d.a, s.a, sada, d1a, s1a); d.b = calc(d.b, s.b, d.a, s.a, sada, d1a, s1a); d.a += s.a - sada; set(p, clip(d)); } } }; //=====================================================comp_op_rgba_soft_light template struct comp_op_rgba_soft_light : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // if 2.Sca <= Sa // Dca' = Dca.Sa - (Sa.Da - 2.Sca.Da).Dca.Sa.(Sa.Da - Dca.Sa) + Sca.(1 - Da) + Dca.(1 - Sa) // otherwise if 2.Sca > Sa and 4.Dca <= Da // Dca' = Dca.Sa + (2.Sca.Da - Sa.Da).((((16.Dsa.Sa - 12).Dsa.Sa + 4).Dsa.Da) - Dsa.Da) + Sca.(1 - Da) + Dca.(1 - Sa) // otherwise if 2.Sca > Sa and 4.Dca > Da // Dca' = Dca.Sa + (2.Sca.Da - Sa.Da).((Dca.Sa)^0.5 - Dca.Sa) + Sca.(1 - Da) + Dca.(1 - Sa) // // Da' = Sa + Da - Sa.Da static AGG_INLINE double calc(double dca, double sca, double da, double sa, double sada, double d1a, double s1a) { double dcasa = dca * sa; if (2 * sca <= sa) return dcasa - (sada - 2 * sca * da) * dcasa * (sada - dcasa) + sca * d1a + dca * s1a; if (4 * dca <= da) return dcasa + (2 * sca * da - sada) * ((((16 * dcasa - 12) * dcasa + 4) * dca * da) - dca * da) + sca * d1a + dca * s1a; return dcasa + (2 * sca * da - sada) * (sqrt(dcasa) - dcasa) + sca * d1a + dca * s1a; } static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); if (d.a > 0) { double sada = s.a * d.a; double s1a = 1 - s.a; double d1a = 1 - d.a; d.r = calc(d.r, s.r, d.a, s.a, sada, d1a, s1a); d.g = calc(d.g, s.g, d.a, s.a, sada, d1a, s1a); d.b = calc(d.b, s.b, d.a, s.a, sada, d1a, s1a); d.a += s.a - sada; set(p, clip(d)); } else set(p, s); } } }; //=====================================================comp_op_rgba_difference template struct comp_op_rgba_difference : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = Sca + Dca - 2.min(Sca.Da, Dca.Sa) // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); d.r += s.r - 2 * sd_min(s.r * d.a, d.r * s.a); d.g += s.g - 2 * sd_min(s.g * d.a, d.g * s.a); d.b += s.b - 2 * sd_min(s.b * d.a, d.b * s.a); d.a += s.a - s.a * d.a; set(p, clip(d)); } } }; //=====================================================comp_op_rgba_exclusion template struct comp_op_rgba_exclusion : blender_base { typedef ColorT color_type; typedef typename color_type::value_type value_type; using blender_base::get; using blender_base::set; // Dca' = (Sca.Da + Dca.Sa - 2.Sca.Dca) + Sca.(1 - Da) + Dca.(1 - Sa) // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { rgba s = get(r, g, b, a, cover); if (s.a > 0) { rgba d = get(p); double d1a = 1 - d.a; double s1a = 1 - s.a; d.r = (s.r * d.a + d.r * s.a - 2 * s.r * d.r) + s.r * d1a + d.r * s1a; d.g = (s.g * d.a + d.g * s.a - 2 * s.g * d.g) + s.g * d1a + d.g * s1a; d.b = (s.b * d.a + d.b * s.a - 2 * s.b * d.b) + s.b * d1a + d.b * s1a; d.a += s.a - s.a * d.a; set(p, clip(d)); } } }; #if 0 //=====================================================comp_op_rgba_contrast template struct comp_op_rgba_contrast { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_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 }; static AGG_INLINE void blend_pix(value_type* p, unsigned sr, unsigned sg, unsigned sb, unsigned sa, unsigned cover) { if (cover < 255) { sr = (sr * cover + 255) >> 8; sg = (sg * cover + 255) >> 8; sb = (sb * cover + 255) >> 8; sa = (sa * cover + 255) >> 8; } long_type dr = p[Order::R]; long_type dg = p[Order::G]; long_type db = p[Order::B]; int da = p[Order::A]; long_type d2a = da >> 1; unsigned s2a = sa >> 1; int r = (int)((((dr - d2a) * int((sr - s2a)*2 + base_mask)) >> base_shift) + d2a); int g = (int)((((dg - d2a) * int((sg - s2a)*2 + base_mask)) >> base_shift) + d2a); int b = (int)((((db - d2a) * int((sb - s2a)*2 + base_mask)) >> base_shift) + d2a); r = (r < 0) ? 0 : r; g = (g < 0) ? 0 : g; b = (b < 0) ? 0 : b; p[Order::R] = (value_type)((r > da) ? da : r); p[Order::G] = (value_type)((g > da) ? da : g); p[Order::B] = (value_type)((b > da) ? da : b); } }; //=====================================================comp_op_rgba_invert template struct comp_op_rgba_invert { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_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 }; // Dca' = (Da - Dca) * Sa + Dca.(1 - Sa) // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, unsigned sr, unsigned sg, unsigned sb, unsigned sa, unsigned cover) { sa = (sa * cover + 255) >> 8; if (sa) { calc_type da = p[Order::A]; calc_type dr = ((da - p[Order::R]) * sa + base_mask) >> base_shift; calc_type dg = ((da - p[Order::G]) * sa + base_mask) >> base_shift; calc_type db = ((da - p[Order::B]) * sa + base_mask) >> base_shift; calc_type s1a = base_mask - sa; p[Order::R] = (value_type)(dr + ((p[Order::R] * s1a + base_mask) >> base_shift)); p[Order::G] = (value_type)(dg + ((p[Order::G] * s1a + base_mask) >> base_shift)); p[Order::B] = (value_type)(db + ((p[Order::B] * s1a + base_mask) >> base_shift)); p[Order::A] = (value_type)(sa + da - ((sa * da + base_mask) >> base_shift)); } } }; //=================================================comp_op_rgba_invert_rgb template struct comp_op_rgba_invert_rgb { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_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 }; // Dca' = (Da - Dca) * Sca + Dca.(1 - Sa) // Da' = Sa + Da - Sa.Da static AGG_INLINE void blend_pix(value_type* p, unsigned sr, unsigned sg, unsigned sb, unsigned sa, unsigned cover) { if (cover < 255) { sr = (sr * cover + 255) >> 8; sg = (sg * cover + 255) >> 8; sb = (sb * cover + 255) >> 8; sa = (sa * cover + 255) >> 8; } if (sa) { calc_type da = p[Order::A]; calc_type dr = ((da - p[Order::R]) * sr + base_mask) >> base_shift; calc_type dg = ((da - p[Order::G]) * sg + base_mask) >> base_shift; calc_type db = ((da - p[Order::B]) * sb + base_mask) >> base_shift; calc_type s1a = base_mask - sa; p[Order::R] = (value_type)(dr + ((p[Order::R] * s1a + base_mask) >> base_shift)); p[Order::G] = (value_type)(dg + ((p[Order::G] * s1a + base_mask) >> base_shift)); p[Order::B] = (value_type)(db + ((p[Order::B] * s1a + base_mask) >> base_shift)); p[Order::A] = (value_type)(sa + da - ((sa * da + base_mask) >> base_shift)); } } }; #endif //======================================================comp_op_table_rgba template struct comp_op_table_rgba { typedef typename ColorT::value_type value_type; typedef typename ColorT::calc_type calc_type; typedef void (*comp_op_func_type)(value_type* p, value_type cr, value_type cg, value_type cb, value_type ca, cover_type cover); static comp_op_func_type g_comp_op_func[]; }; //==========================================================g_comp_op_func template typename comp_op_table_rgba::comp_op_func_type comp_op_table_rgba::g_comp_op_func[] = { comp_op_rgba_clear ::blend_pix, comp_op_rgba_src ::blend_pix, comp_op_rgba_dst ::blend_pix, comp_op_rgba_src_over ::blend_pix, comp_op_rgba_dst_over ::blend_pix, comp_op_rgba_src_in ::blend_pix, comp_op_rgba_dst_in ::blend_pix, comp_op_rgba_src_out ::blend_pix, comp_op_rgba_dst_out ::blend_pix, comp_op_rgba_src_atop ::blend_pix, comp_op_rgba_dst_atop ::blend_pix, comp_op_rgba_xor ::blend_pix, comp_op_rgba_plus ::blend_pix, //comp_op_rgba_minus ::blend_pix, comp_op_rgba_multiply ::blend_pix, comp_op_rgba_screen ::blend_pix, comp_op_rgba_overlay ::blend_pix, comp_op_rgba_darken ::blend_pix, comp_op_rgba_lighten ::blend_pix, comp_op_rgba_color_dodge::blend_pix, comp_op_rgba_color_burn ::blend_pix, comp_op_rgba_hard_light ::blend_pix, comp_op_rgba_soft_light ::blend_pix, comp_op_rgba_difference ::blend_pix, comp_op_rgba_exclusion ::blend_pix, //comp_op_rgba_contrast ::blend_pix, //comp_op_rgba_invert ::blend_pix, //comp_op_rgba_invert_rgb ::blend_pix, 0 }; //==============================================================comp_op_e enum comp_op_e { comp_op_clear, //----comp_op_clear comp_op_src, //----comp_op_src comp_op_dst, //----comp_op_dst comp_op_src_over, //----comp_op_src_over comp_op_dst_over, //----comp_op_dst_over comp_op_src_in, //----comp_op_src_in comp_op_dst_in, //----comp_op_dst_in comp_op_src_out, //----comp_op_src_out comp_op_dst_out, //----comp_op_dst_out comp_op_src_atop, //----comp_op_src_atop comp_op_dst_atop, //----comp_op_dst_atop comp_op_xor, //----comp_op_xor comp_op_plus, //----comp_op_plus //comp_op_minus, //----comp_op_minus comp_op_multiply, //----comp_op_multiply comp_op_screen, //----comp_op_screen comp_op_overlay, //----comp_op_overlay comp_op_darken, //----comp_op_darken comp_op_lighten, //----comp_op_lighten comp_op_color_dodge, //----comp_op_color_dodge comp_op_color_burn, //----comp_op_color_burn comp_op_hard_light, //----comp_op_hard_light comp_op_soft_light, //----comp_op_soft_light comp_op_difference, //----comp_op_difference comp_op_exclusion, //----comp_op_exclusion //comp_op_contrast, //----comp_op_contrast //comp_op_invert, //----comp_op_invert //comp_op_invert_rgb, //----comp_op_invert_rgb end_of_comp_op_e }; //====================================================comp_op_adaptor_rgba template struct comp_op_adaptor_rgba { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { comp_op_table_rgba::g_comp_op_func[op](p, color_type::multiply(r, a), color_type::multiply(g, a), color_type::multiply(b, a), a, cover); } }; //=========================================comp_op_adaptor_clip_to_dst_rgba template struct comp_op_adaptor_clip_to_dst_rgba { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { r = color_type::multiply(r, a); g = color_type::multiply(g, a); b = color_type::multiply(b, a); value_type da = p[Order::A]; comp_op_table_rgba::g_comp_op_func[op](p, color_type::multiply(r, da), color_type::multiply(g, da), color_type::multiply(b, da), color_type::multiply(a, da), cover); } }; //================================================comp_op_adaptor_rgba_pre template struct comp_op_adaptor_rgba_pre { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { comp_op_table_rgba::g_comp_op_func[op](p, r, g, b, a, cover); } }; //=====================================comp_op_adaptor_clip_to_dst_rgba_pre template struct comp_op_adaptor_clip_to_dst_rgba_pre { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { value_type da = p[Order::A]; comp_op_table_rgba::g_comp_op_func[op](p, color_type::multiply(r, da), color_type::multiply(g, da), color_type::multiply(b, da), color_type::multiply(a, da), cover); } }; //====================================================comp_op_adaptor_rgba_plain template struct comp_op_adaptor_rgba_plain { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { multiplier_rgba::premultiply(p); comp_op_adaptor_rgba::blend_pix(op, p, r, g, b, a, cover); multiplier_rgba::demultiply(p); } }; //=========================================comp_op_adaptor_clip_to_dst_rgba_plain template struct comp_op_adaptor_clip_to_dst_rgba_plain { typedef ColorT color_type; typedef Order order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { multiplier_rgba::premultiply(p); comp_op_adaptor_clip_to_dst_rgba::blend_pix(op, p, r, g, b, a, cover); multiplier_rgba::demultiply(p); } }; //=======================================================comp_adaptor_rgba template struct comp_adaptor_rgba { typedef typename BlenderPre::color_type color_type; typedef typename BlenderPre::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { BlenderPre::blend_pix(p, color_type::multiply(r, a), color_type::multiply(g, a), color_type::multiply(b, a), a, cover); } }; //==========================================comp_adaptor_clip_to_dst_rgba template struct comp_adaptor_clip_to_dst_rgba { typedef typename BlenderPre::color_type color_type; typedef typename BlenderPre::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { r = color_type::multiply(r, a); g = color_type::multiply(g, a); b = color_type::multiply(b, a); value_type da = p[order_type::A]; BlenderPre::blend_pix(p, color_type::multiply(r, da), color_type::multiply(g, da), color_type::multiply(b, da), color_type::multiply(a, da), cover); } }; //=======================================================comp_adaptor_rgba_pre template struct comp_adaptor_rgba_pre { typedef typename BlenderPre::color_type color_type; typedef typename BlenderPre::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { BlenderPre::blend_pix(p, r, g, b, a, cover); } }; //======================================comp_adaptor_clip_to_dst_rgba_pre template struct comp_adaptor_clip_to_dst_rgba_pre { typedef typename BlenderPre::color_type color_type; typedef typename BlenderPre::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { unsigned da = p[order_type::A]; BlenderPre::blend_pix(p, color_type::multiply(r, da), color_type::multiply(g, da), color_type::multiply(b, da), color_type::multiply(a, da), cover); } }; //=======================================================comp_adaptor_rgba_plain template struct comp_adaptor_rgba_plain { typedef typename BlenderPre::color_type color_type; typedef typename BlenderPre::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { multiplier_rgba::premultiply(p); comp_adaptor_rgba::blend_pix(op, p, r, g, b, a, cover); multiplier_rgba::demultiply(p); } }; //==========================================comp_adaptor_clip_to_dst_rgba_plain template struct comp_adaptor_clip_to_dst_rgba_plain { typedef typename BlenderPre::color_type color_type; typedef typename BlenderPre::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; typedef typename color_type::long_type long_type; static AGG_INLINE void blend_pix(unsigned op, value_type* p, value_type r, value_type g, value_type b, value_type a, cover_type cover) { multiplier_rgba::premultiply(p); comp_adaptor_clip_to_dst_rgba::blend_pix(op, p, r, g, b, a, cover); multiplier_rgba::demultiply(p); } }; //=================================================pixfmt_alpha_blend_rgba template class pixfmt_alpha_blend_rgba { public: typedef pixfmt_rgba_tag pixfmt_category; typedef RenBuf rbuf_type; typedef typename rbuf_type::row_data row_data; typedef Blender blender_type; typedef typename blender_type::color_type color_type; typedef typename blender_type::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; enum { num_components = 4, pix_step = 4, pix_width = sizeof(value_type) * pix_step, }; struct pixel_type { value_type c[num_components]; void set(value_type r, value_type g, value_type b, value_type a) { c[order_type::R] = r; c[order_type::G] = g; c[order_type::B] = b; c[order_type::A] = a; } void set(const color_type& color) { set(color.r, color.g, color.b, color.a); } void get(value_type& r, value_type& g, value_type& b, value_type& a) const { r = c[order_type::R]; g = c[order_type::G]; b = c[order_type::B]; a = c[order_type::A]; } color_type get() const { return color_type( c[order_type::R], c[order_type::G], c[order_type::B], c[order_type::A]); } pixel_type* next() { return (pixel_type*)(c + pix_step); } const pixel_type* next() const { return (const pixel_type*)(c + pix_step); } pixel_type* advance(int n) { return (pixel_type*)(c + n * pix_step); } const pixel_type* advance(int n) const { return (const pixel_type*)(c + n * pix_step); } }; private: //-------------------------------------------------------------------- AGG_INLINE void blend_pix(pixel_type* p, const color_type& c, unsigned cover) { m_blender.blend_pix(p->c, c.r, c.g, c.b, c.a, cover); } //-------------------------------------------------------------------- AGG_INLINE void blend_pix(pixel_type* p, const color_type& c) { m_blender.blend_pix(p->c, c.r, c.g, c.b, c.a); } //-------------------------------------------------------------------- AGG_INLINE void copy_or_blend_pix(pixel_type* p, const color_type& c, unsigned cover) { if (!c.is_transparent()) { if (c.is_opaque() && cover == cover_mask) { p->set(c.r, c.g, c.b, c.a); } else { m_blender.blend_pix(p->c, c.r, c.g, c.b, c.a, cover); } } } //-------------------------------------------------------------------- AGG_INLINE void copy_or_blend_pix(pixel_type* p, const color_type& c) { if (!c.is_transparent()) { if (c.is_opaque()) { p->set(c.r, c.g, c.b, c.a); } else { m_blender.blend_pix(p->c, c.r, c.g, c.b, c.a); } } } public: //-------------------------------------------------------------------- pixfmt_alpha_blend_rgba() : m_rbuf(0) {} explicit pixfmt_alpha_blend_rgba(rbuf_type& rb) : m_rbuf(&rb) {} void attach(rbuf_type& rb) { m_rbuf = &rb; } //-------------------------------------------------------------------- template bool attach(PixFmt& pixf, int x1, int y1, int x2, int y2) { rect_i r(x1, y1, x2, y2); if (r.clip(rect_i(0, 0, pixf.width()-1, pixf.height()-1))) { int stride = pixf.stride(); m_rbuf->attach(pixf.pix_ptr(r.x1, stride < 0 ? r.y2 : r.y1), (r.x2 - r.x1) + 1, (r.y2 - r.y1) + 1, stride); return true; } return false; } //-------------------------------------------------------------------- AGG_INLINE unsigned width() const { return m_rbuf->width(); } AGG_INLINE unsigned height() const { return m_rbuf->height(); } AGG_INLINE int stride() const { return m_rbuf->stride(); } //-------------------------------------------------------------------- AGG_INLINE int8u* row_ptr(int y) { return m_rbuf->row_ptr(y); } AGG_INLINE const int8u* row_ptr(int y) const { return m_rbuf->row_ptr(y); } AGG_INLINE row_data row(int y) const { return m_rbuf->row(y); } //-------------------------------------------------------------------- AGG_INLINE int8u* pix_ptr(int x, int y) { return m_rbuf->row_ptr(y) + sizeof(value_type) * (x * pix_step); } AGG_INLINE const int8u* pix_ptr(int x, int y) const { return m_rbuf->row_ptr(y) + sizeof(value_type) * (x * pix_step); } // Return pointer to pixel value, forcing row to be allocated. AGG_INLINE pixel_type* pix_value_ptr(int x, int y, unsigned len) { return (pixel_type*)(m_rbuf->row_ptr(x, y, len) + sizeof(value_type) * (x * pix_step)); } // Return pointer to pixel value, or null if row not allocated. AGG_INLINE const pixel_type* pix_value_ptr(int x, int y) const { int8u* p = m_rbuf->row_ptr(y); return p ? (pixel_type*)(p + sizeof(value_type) * (x * pix_step)) : 0; } // Get pixel pointer from raw buffer pointer. AGG_INLINE static pixel_type* pix_value_ptr(void* p) { return (pixel_type*)p; } // Get pixel pointer from raw buffer pointer. AGG_INLINE static const pixel_type* pix_value_ptr(const void* p) { return (const pixel_type*)p; } //-------------------------------------------------------------------- AGG_INLINE static void write_plain_color(void* p, color_type c) { blender_type::set_plain_color(pix_value_ptr(p)->c, c); } //-------------------------------------------------------------------- AGG_INLINE static color_type read_plain_color(const void* p) { return blender_type::get_plain_color(pix_value_ptr(p)->c); } //-------------------------------------------------------------------- AGG_INLINE static void make_pix(int8u* p, const color_type& c) { ((pixel_type*)p)->set(c); } //-------------------------------------------------------------------- AGG_INLINE color_type pixel(int x, int y) const { if (const pixel_type* p = pix_value_ptr(x, y)) { return p->get(); } return color_type::no_color(); } //-------------------------------------------------------------------- AGG_INLINE void copy_pixel(int x, int y, const color_type& c) { pix_value_ptr(x, y, 1)->set(c); } //-------------------------------------------------------------------- AGG_INLINE void blend_pixel(int x, int y, const color_type& c, int8u cover) { copy_or_blend_pix(pix_value_ptr(x, y, 1), c, cover); } //-------------------------------------------------------------------- AGG_INLINE void copy_hline(int x, int y, unsigned len, const color_type& c) { pixel_type v; v.set(c); pixel_type* p = pix_value_ptr(x, y, len); do { *p = v; p = p->next(); } while (--len); } //-------------------------------------------------------------------- AGG_INLINE void copy_vline(int x, int y, unsigned len, const color_type& c) { pixel_type v; v.set(c); do { *pix_value_ptr(x, y++, 1) = v; } while (--len); } //-------------------------------------------------------------------- void blend_hline(int x, int y, unsigned len, const color_type& c, int8u cover) { if (!c.is_transparent()) { pixel_type* p = pix_value_ptr(x, y, len); if (c.is_opaque() && cover == cover_mask) { pixel_type v; v.set(c); do { *p = v; p = p->next(); } while (--len); } else { if (cover == cover_mask) { do { blend_pix(p, c); p = p->next(); } while (--len); } else { do { blend_pix(p, c, cover); p = p->next(); } while (--len); } } } } //-------------------------------------------------------------------- void blend_vline(int x, int y, unsigned len, const color_type& c, int8u cover) { if (!c.is_transparent()) { if (c.is_opaque() && cover == cover_mask) { pixel_type v; v.set(c); do { *pix_value_ptr(x, y++, 1) = v; } while (--len); } else { if (cover == cover_mask) { do { blend_pix(pix_value_ptr(x, y++, 1), c, c.a); } while (--len); } else { do { blend_pix(pix_value_ptr(x, y++, 1), c, cover); } while (--len); } } } } //-------------------------------------------------------------------- void blend_solid_hspan(int x, int y, unsigned len, const color_type& c, const int8u* covers) { if (!c.is_transparent()) { pixel_type* p = pix_value_ptr(x, y, len); do { if (c.is_opaque() && *covers == cover_mask) { p->set(c); } else { blend_pix(p, c, *covers); } p = p->next(); ++covers; } while (--len); } } //-------------------------------------------------------------------- void blend_solid_vspan(int x, int y, unsigned len, const color_type& c, const int8u* covers) { if (!c.is_transparent()) { do { pixel_type* p = pix_value_ptr(x, y++, 1); if (c.is_opaque() && *covers == cover_mask) { p->set(c); } else { blend_pix(p, c, *covers); } ++covers; } while (--len); } } //-------------------------------------------------------------------- void copy_color_hspan(int x, int y, unsigned len, const color_type* colors) { pixel_type* p = pix_value_ptr(x, y, len); do { p->set(*colors++); p = p->next(); } while (--len); } //-------------------------------------------------------------------- void copy_color_vspan(int x, int y, unsigned len, const color_type* colors) { do { pix_value_ptr(x, y++, 1)->set(*colors++); } while (--len); } //-------------------------------------------------------------------- void blend_color_hspan(int x, int y, unsigned len, const color_type* colors, const int8u* covers, int8u cover) { pixel_type* p = pix_value_ptr(x, y, len); if (covers) { do { copy_or_blend_pix(p, *colors++, *covers++); p = p->next(); } while (--len); } else { if (cover == cover_mask) { do { copy_or_blend_pix(p, *colors++); p = p->next(); } while (--len); } else { do { copy_or_blend_pix(p, *colors++, cover); p = p->next(); } while (--len); } } } //-------------------------------------------------------------------- void blend_color_vspan(int x, int y, unsigned len, const color_type* colors, const int8u* covers, int8u cover) { if (covers) { do { copy_or_blend_pix(pix_value_ptr(x, y++, 1), *colors++, *covers++); } while (--len); } else { if (cover == cover_mask) { do { copy_or_blend_pix(pix_value_ptr(x, y++, 1), *colors++); } while (--len); } else { do { copy_or_blend_pix(pix_value_ptr(x, y++, 1), *colors++, cover); } while (--len); } } } //-------------------------------------------------------------------- template void for_each_pixel(Function f) { for (unsigned y = 0; y < height(); ++y) { row_data r = m_rbuf->row(y); if (r.ptr) { unsigned len = r.x2 - r.x1 + 1; pixel_type* p = pix_value_ptr(r.x1, y, len); do { f(p->c); p = p->next(); } while (--len); } } } //-------------------------------------------------------------------- void premultiply() { for_each_pixel(multiplier_rgba::premultiply); } //-------------------------------------------------------------------- void demultiply() { for_each_pixel(multiplier_rgba::demultiply); } //-------------------------------------------------------------------- template void apply_gamma_dir(const GammaLut& g) { for_each_pixel(apply_gamma_dir_rgba(g)); } //-------------------------------------------------------------------- template void apply_gamma_inv(const GammaLut& g) { for_each_pixel(apply_gamma_inv_rgba(g)); } //-------------------------------------------------------------------- template void copy_from(const RenBuf2& from, int xdst, int ydst, int xsrc, int ysrc, unsigned len) { if (const int8u* p = from.row_ptr(ysrc)) { memmove(m_rbuf->row_ptr(xdst, ydst, len) + xdst * pix_width, p + xsrc * pix_width, len * pix_width); } } //-------------------------------------------------------------------- // Blend from another RGBA surface. template void blend_from(const SrcPixelFormatRenderer& from, int xdst, int ydst, int xsrc, int ysrc, unsigned len, int8u cover) { typedef typename SrcPixelFormatRenderer::pixel_type src_pixel_type; if (const src_pixel_type* psrc = from.pix_value_ptr(xsrc, ysrc)) { pixel_type* pdst = pix_value_ptr(xdst, ydst, len); int srcinc = 1; int dstinc = 1; if (xdst > xsrc) { psrc = psrc->advance(len - 1); pdst = pdst->advance(len - 1); srcinc = -1; dstinc = -1; } if (cover == cover_mask) { do { copy_or_blend_pix(pdst, psrc->get()); psrc = psrc->advance(srcinc); pdst = pdst->advance(dstinc); } while (--len); } else { do { copy_or_blend_pix(pdst, psrc->get(), cover); psrc = psrc->advance(srcinc); pdst = pdst->advance(dstinc); } while (--len); } } } //-------------------------------------------------------------------- // Combine single color with grayscale surface and blend. template void blend_from_color(const SrcPixelFormatRenderer& from, const color_type& color, int xdst, int ydst, int xsrc, int ysrc, unsigned len, int8u cover) { typedef typename SrcPixelFormatRenderer::pixel_type src_pixel_type; typedef typename SrcPixelFormatRenderer::color_type src_color_type; if (const src_pixel_type* psrc = from.pix_value_ptr(xsrc, ysrc)) { pixel_type* pdst = pix_value_ptr(xdst, ydst, len); do { copy_or_blend_pix(pdst, color, src_color_type::scale_cover(cover, psrc->c[0])); psrc = psrc->next(); pdst = pdst->next(); } while (--len); } } //-------------------------------------------------------------------- // Blend from color table, using grayscale surface as indexes into table. // Obviously, this only works for integer value types. template void blend_from_lut(const SrcPixelFormatRenderer& from, const color_type* color_lut, int xdst, int ydst, int xsrc, int ysrc, unsigned len, int8u cover) { typedef typename SrcPixelFormatRenderer::pixel_type src_pixel_type; if (const src_pixel_type* psrc = from.pix_value_ptr(xsrc, ysrc)) { pixel_type* pdst = pix_value_ptr(xdst, ydst, len); if (cover == cover_mask) { do { copy_or_blend_pix(pdst, color_lut[psrc->c[0]]); psrc = psrc->next(); pdst = pdst->next(); } while (--len); } else { do { copy_or_blend_pix(pdst, color_lut[psrc->c[0]], cover); psrc = psrc->next(); pdst = pdst->next(); } while (--len); } } } private: rbuf_type* m_rbuf; Blender m_blender; }; //================================================pixfmt_custom_blend_rgba template class pixfmt_custom_blend_rgba { public: typedef pixfmt_rgba_tag pixfmt_category; typedef RenBuf rbuf_type; typedef typename rbuf_type::row_data row_data; typedef Blender blender_type; typedef typename blender_type::color_type color_type; typedef typename blender_type::order_type order_type; typedef typename color_type::value_type value_type; typedef typename color_type::calc_type calc_type; enum { num_components = 4, pix_step = 4, pix_width = sizeof(value_type) * pix_step, }; struct pixel_type { value_type c[num_components]; void set(value_type r, value_type g, value_type b, value_type a) { c[order_type::R] = r; c[order_type::G] = g; c[order_type::B] = b; c[order_type::A] = a; } void set(const color_type& color) { set(color.r, color.g, color.b, color.a); } void get(value_type& r, value_type& g, value_type& b, value_type& a) const { r = c[order_type::R]; g = c[order_type::G]; b = c[order_type::B]; a = c[order_type::A]; } color_type get() const { return color_type( c[order_type::R], c[order_type::G], c[order_type::B], c[order_type::A]); } pixel_type* next() { return (pixel_type*)(c + pix_step); } const pixel_type* next() const { return (const pixel_type*)(c + pix_step); } pixel_type* advance(int n) { return (pixel_type*)(c + n * pix_step); } const pixel_type* advance(int n) const { return (const pixel_type*)(c + n * pix_step); } }; private: //-------------------------------------------------------------------- AGG_INLINE void blend_pix(pixel_type* p, const color_type& c, unsigned cover = cover_full) { m_blender.blend_pix(m_comp_op, p->c, c.r, c.g, c.b, c.a, cover); } //-------------------------------------------------------------------- AGG_INLINE void copy_or_blend_pix(pixel_type* p, const color_type& c, unsigned cover = cover_full) { if (!c.is_transparent()) { if (c.is_opaque() && cover == cover_mask) { p->set(c.r, c.g, c.b, c.a); } else { blend_pix(p, c, cover); } } } public: //-------------------------------------------------------------------- pixfmt_custom_blend_rgba() : m_rbuf(0), m_comp_op(3) {} explicit pixfmt_custom_blend_rgba(rbuf_type& rb, unsigned comp_op=3) : m_rbuf(&rb), m_comp_op(comp_op) {} void attach(rbuf_type& rb) { m_rbuf = &rb; } //-------------------------------------------------------------------- template bool attach(PixFmt& pixf, int x1, int y1, int x2, int y2) { rect_i r(x1, y1, x2, y2); if (r.clip(rect_i(0, 0, pixf.width()-1, pixf.height()-1))) { int stride = pixf.stride(); m_rbuf->attach(pixf.pix_ptr(r.x1, stride < 0 ? r.y2 : r.y1), (r.x2 - r.x1) + 1, (r.y2 - r.y1) + 1, stride); return true; } return false; } //-------------------------------------------------------------------- void comp_op(unsigned op) { m_comp_op = op; } unsigned comp_op() const { return m_comp_op; } //-------------------------------------------------------------------- AGG_INLINE unsigned width() const { return m_rbuf->width(); } AGG_INLINE unsigned height() const { return m_rbuf->height(); } AGG_INLINE int stride() const { return m_rbuf->stride(); } //-------------------------------------------------------------------- AGG_INLINE int8u* row_ptr(int y) { return m_rbuf->row_ptr(y); } AGG_INLINE const int8u* row_ptr(int y) const { return m_rbuf->row_ptr(y); } AGG_INLINE row_data row(int y) const { return m_rbuf->row(y); } //-------------------------------------------------------------------- AGG_INLINE int8u* pix_ptr(int x, int y) { return m_rbuf->row_ptr(y) + sizeof(value_type) * (x * pix_step); } AGG_INLINE const int8u* pix_ptr(int x, int y) const { return m_rbuf->row_ptr(y) + sizeof(value_type) * (x * pix_step); } // Return pointer to pixel value, forcing row to be allocated. AGG_INLINE pixel_type* pix_value_ptr(int x, int y, unsigned len) { return (pixel_type*)(m_rbuf->row_ptr(x, y, len) + sizeof(value_type) * (x * pix_step)); } // Return pointer to pixel value, or null if row not allocated. AGG_INLINE const pixel_type* pix_value_ptr(int x, int y) const { int8u* p = m_rbuf->row_ptr(y); return p ? (pixel_type*)(p + sizeof(value_type) * (x * pix_step)) : 0; } // Get pixel pointer from raw buffer pointer. AGG_INLINE static pixel_type* pix_value_ptr(void* p) { return (pixel_type*)p; } // Get pixel pointer from raw buffer pointer. AGG_INLINE static const pixel_type* pix_value_ptr(const void* p) { return (const pixel_type*)p; } //-------------------------------------------------------------------- AGG_INLINE static void make_pix(int8u* p, const color_type& c) { ((pixel_type*)p)->set(c); } //-------------------------------------------------------------------- AGG_INLINE color_type pixel(int x, int y) const { if (const pixel_type* p = pix_value_ptr(x, y)) { return p->get(); } return color_type::no_color(); } //-------------------------------------------------------------------- AGG_INLINE void copy_pixel(int x, int y, const color_type& c) { pix_value_ptr(x, y, 1)->set(c); } //-------------------------------------------------------------------- AGG_INLINE void blend_pixel(int x, int y, const color_type& c, int8u cover) { blend_pix(pix_value_ptr(x, y, 1), c, cover); } //-------------------------------------------------------------------- AGG_INLINE void copy_hline(int x, int y, unsigned len, const color_type& c) { pixel_type v; v.set(c); pixel_type* p = pix_value_ptr(x, y, len); do { *p = v; p = p->next(); } while (--len); } //-------------------------------------------------------------------- AGG_INLINE void copy_vline(int x, int y, unsigned len, const color_type& c) { pixel_type v; v.set(c); do { *pix_value_ptr(x, y++, 1) = v; } while (--len); } //-------------------------------------------------------------------- void blend_hline(int x, int y, unsigned len, const color_type& c, int8u cover) { pixel_type* p = pix_value_ptr(x, y, len); do { blend_pix(p, c, cover); p = p->next(); } while (--len); } //-------------------------------------------------------------------- void blend_vline(int x, int y, unsigned len, const color_type& c, int8u cover) { do { blend_pix(pix_value_ptr(x, y++, 1), c, cover); } while (--len); } //-------------------------------------------------------------------- void blend_solid_hspan(int x, int y, unsigned len, const color_type& c, const int8u* covers) { pixel_type* p = pix_value_ptr(x, y, len); do { blend_pix(p, c, *covers++); p = p->next(); } while (--len); } //-------------------------------------------------------------------- void blend_solid_vspan(int x, int y, unsigned len, const color_type& c, const int8u* covers) { do { blend_pix(pix_value_ptr(x, y++, 1), c, *covers++); } while (--len); } //-------------------------------------------------------------------- void copy_color_hspan(int x, int y, unsigned len, const color_type* colors) { pixel_type* p = pix_value_ptr(x, y, len); do { p->set(*colors++); p = p->next(); } while (--len); } //-------------------------------------------------------------------- void copy_color_vspan(int x, int y, unsigned len, const color_type* colors) { do { pix_value_ptr(x, y++, 1)->set(*colors++); } while (--len); } //-------------------------------------------------------------------- void blend_color_hspan(int x, int y, unsigned len, const color_type* colors, const int8u* covers, int8u cover) { pixel_type* p = pix_value_ptr(x, y, len); do { blend_pix(p, *colors++, covers ? *covers++ : cover); p = p->next(); } while (--len); } //-------------------------------------------------------------------- void blend_color_vspan(int x, int y, unsigned len, const color_type* colors, const int8u* covers, int8u cover) { do { blend_pix(pix_value_ptr(x, y++, 1), *colors++, covers ? *covers++ : cover); } while (--len); } //-------------------------------------------------------------------- template void for_each_pixel(Function f) { unsigned y; for (y = 0; y < height(); ++y) { row_data r = m_rbuf->row(y); if (r.ptr) { unsigned len = r.x2 - r.x1 + 1; pixel_type* p = pix_value_ptr(r.x1, y, len); do { f(p->c); p = p->next(); } while (--len); } } } //-------------------------------------------------------------------- void premultiply() { for_each_pixel(multiplier_rgba::premultiply); } //-------------------------------------------------------------------- void demultiply() { for_each_pixel(multiplier_rgba::demultiply); } //-------------------------------------------------------------------- template void apply_gamma_dir(const GammaLut& g) { for_each_pixel(apply_gamma_dir_rgba(g)); } //-------------------------------------------------------------------- template void apply_gamma_inv(const GammaLut& g) { for_each_pixel(apply_gamma_inv_rgba(g)); } //-------------------------------------------------------------------- template void copy_from(const RenBuf2& from, int xdst, int ydst, int xsrc, int ysrc, unsigned len) { if (const int8u* p = from.row_ptr(ysrc)) { memmove(m_rbuf->row_ptr(xdst, ydst, len) + xdst * pix_width, p + xsrc * pix_width, len * pix_width); } } //-------------------------------------------------------------------- // Blend from another RGBA surface. template void blend_from(const SrcPixelFormatRenderer& from, int xdst, int ydst, int xsrc, int ysrc, unsigned len, int8u cover) { typedef typename SrcPixelFormatRenderer::pixel_type src_pixel_type; if (const src_pixel_type* psrc = from.pix_value_ptr(xsrc, ysrc)) { pixel_type* pdst = pix_value_ptr(xdst, ydst, len); int srcinc = 1; int dstinc = 1; if (xdst > xsrc) { psrc = psrc->advance(len - 1); pdst = pdst->advance(len - 1); srcinc = -1; dstinc = -1; } do { blend_pix(pdst, psrc->get(), cover); psrc = psrc->advance(srcinc); pdst = pdst->advance(dstinc); } while (--len); } } //-------------------------------------------------------------------- // Blend from single color, using grayscale surface as alpha channel. template void blend_from_color(const SrcPixelFormatRenderer& from, const color_type& color, int xdst, int ydst, int xsrc, int ysrc, unsigned len, int8u cover) { typedef typename SrcPixelFormatRenderer::pixel_type src_pixel_type; typedef typename SrcPixelFormatRenderer::color_type src_color_type; if (const src_pixel_type* psrc = from.pix_value_ptr(xsrc, ysrc)) { pixel_type* pdst = pix_value_ptr(xdst, ydst, len); do { blend_pix(pdst, color, src_color_type::scale_cover(cover, psrc->c[0])); psrc = psrc->next(); pdst = pdst->next(); } while (--len); } } //-------------------------------------------------------------------- // Blend from color table, using grayscale surface as indexes into table. // Obviously, this only works for integer value types. template void blend_from_lut(const SrcPixelFormatRenderer& from, const color_type* color_lut, int xdst, int ydst, int xsrc, int ysrc, unsigned len, int8u cover) { typedef typename SrcPixelFormatRenderer::pixel_type src_pixel_type; if (const src_pixel_type* psrc = from.pix_value_ptr(xsrc, ysrc)) { pixel_type* pdst = pix_value_ptr(xdst, ydst, len); do { blend_pix(pdst, color_lut[psrc->c[0]], cover); psrc = psrc->next(); pdst = pdst->next(); } while (--len); } } private: rbuf_type* m_rbuf; Blender m_blender; unsigned m_comp_op; }; //----------------------------------------------------------------------- typedef blender_rgba blender_rgba32; typedef blender_rgba blender_argb32; typedef blender_rgba blender_abgr32; typedef blender_rgba blender_bgra32; typedef blender_rgba blender_srgba32; typedef blender_rgba blender_sargb32; typedef blender_rgba blender_sabgr32; typedef blender_rgba blender_sbgra32; typedef blender_rgba_pre blender_rgba32_pre; typedef blender_rgba_pre blender_argb32_pre; typedef blender_rgba_pre blender_abgr32_pre; typedef blender_rgba_pre blender_bgra32_pre; typedef blender_rgba_pre blender_srgba32_pre; typedef blender_rgba_pre blender_sargb32_pre; typedef blender_rgba_pre blender_sabgr32_pre; typedef blender_rgba_pre blender_sbgra32_pre; typedef blender_rgba_plain blender_rgba32_plain; typedef blender_rgba_plain blender_argb32_plain; typedef blender_rgba_plain blender_abgr32_plain; typedef blender_rgba_plain blender_bgra32_plain; typedef blender_rgba_plain blender_srgba32_plain; typedef blender_rgba_plain blender_sargb32_plain; typedef blender_rgba_plain blender_sabgr32_plain; typedef blender_rgba_plain blender_sbgra32_plain; typedef blender_rgba blender_rgba64; typedef blender_rgba blender_argb64; typedef blender_rgba blender_abgr64; typedef blender_rgba blender_bgra64; typedef blender_rgba_pre blender_rgba64_pre; typedef blender_rgba_pre blender_argb64_pre; typedef blender_rgba_pre blender_abgr64_pre; typedef blender_rgba_pre blender_bgra64_pre; typedef blender_rgba_plain blender_rgba64_plain; typedef blender_rgba_plain blender_argb64_plain; typedef blender_rgba_plain blender_abgr64_plain; typedef blender_rgba_plain blender_bgra64_plain; typedef blender_rgba blender_rgba128; typedef blender_rgba blender_argb128; typedef blender_rgba blender_abgr128; typedef blender_rgba blender_bgra128; typedef blender_rgba_pre blender_rgba128_pre; typedef blender_rgba_pre blender_argb128_pre; typedef blender_rgba_pre blender_abgr128_pre; typedef blender_rgba_pre blender_bgra128_pre; typedef blender_rgba_plain blender_rgba128_plain; typedef blender_rgba_plain blender_argb128_plain; typedef blender_rgba_plain blender_abgr128_plain; typedef blender_rgba_plain blender_bgra128_plain; //----------------------------------------------------------------------- typedef pixfmt_alpha_blend_rgba pixfmt_rgba32; typedef pixfmt_alpha_blend_rgba pixfmt_argb32; typedef pixfmt_alpha_blend_rgba pixfmt_abgr32; typedef pixfmt_alpha_blend_rgba pixfmt_bgra32; typedef pixfmt_alpha_blend_rgba pixfmt_srgba32; typedef pixfmt_alpha_blend_rgba pixfmt_sargb32; typedef pixfmt_alpha_blend_rgba pixfmt_sabgr32; typedef pixfmt_alpha_blend_rgba pixfmt_sbgra32; typedef pixfmt_alpha_blend_rgba pixfmt_rgba32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_argb32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_abgr32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_bgra32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_srgba32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_sargb32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_sabgr32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_sbgra32_pre; typedef pixfmt_alpha_blend_rgba pixfmt_rgba32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_argb32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_abgr32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_bgra32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_srgba32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_sargb32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_sabgr32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_sbgra32_plain; typedef pixfmt_alpha_blend_rgba pixfmt_rgba64; typedef pixfmt_alpha_blend_rgba pixfmt_argb64; typedef pixfmt_alpha_blend_rgba pixfmt_abgr64; typedef pixfmt_alpha_blend_rgba pixfmt_bgra64; typedef pixfmt_alpha_blend_rgba pixfmt_rgba64_pre; typedef pixfmt_alpha_blend_rgba pixfmt_argb64_pre; typedef pixfmt_alpha_blend_rgba pixfmt_abgr64_pre; typedef pixfmt_alpha_blend_rgba pixfmt_bgra64_pre; typedef pixfmt_alpha_blend_rgba pixfmt_rgba64_plain; typedef pixfmt_alpha_blend_rgba pixfmt_argb64_plain; typedef pixfmt_alpha_blend_rgba pixfmt_abgr64_plain; typedef pixfmt_alpha_blend_rgba pixfmt_bgra64_plain; typedef pixfmt_alpha_blend_rgba pixfmt_rgba128; typedef pixfmt_alpha_blend_rgba pixfmt_argb128; typedef pixfmt_alpha_blend_rgba pixfmt_abgr128; typedef pixfmt_alpha_blend_rgba pixfmt_bgra128; typedef pixfmt_alpha_blend_rgba pixfmt_rgba128_pre; typedef pixfmt_alpha_blend_rgba pixfmt_argb128_pre; typedef pixfmt_alpha_blend_rgba pixfmt_abgr128_pre; typedef pixfmt_alpha_blend_rgba pixfmt_bgra128_pre; typedef pixfmt_alpha_blend_rgba pixfmt_rgba128_plain; typedef pixfmt_alpha_blend_rgba pixfmt_argb128_plain; typedef pixfmt_alpha_blend_rgba pixfmt_abgr128_plain; typedef pixfmt_alpha_blend_rgba pixfmt_bgra128_plain; } #endif