/* * Copyright 2005, Stephan Aßmus . All rights reserved. * Distributed under the terms of the MIT License. * * DrawingMode implementing B_OP_MAX on B_RGBA32. * */ #ifndef DRAWING_MODE_MAX_H #define DRAWING_MODE_MAX_H #include "DrawingMode.h" // BLEND_MAX #define BLEND_MAX(d, r, g, b, a) \ { \ pixel32 _p; \ _p.data32 = *(uint32*)d; \ if (brightness_for((r), (g), (b)) \ > brightness_for(_p.data8[2], _p.data8[1], _p.data8[0])) { \ BLEND(d, (r), (g), (b), a); \ } \ } // ASSIGN_MAX #define ASSIGN_MAX(d, r, g, b) \ { \ pixel32 _p; \ _p.data32 = *(uint32*)d; \ if (brightness_for((r), (g), (b)) \ > brightness_for(_p.data8[2], _p.data8[1], _p.data8[0])) { \ d[0] = (b); \ d[1] = (g); \ d[2] = (r); \ d[3] = 255; \ } \ } // blend_pixel_max void blend_pixel_max(int x, int y, const color_type& c, uint8 cover, agg_buffer* buffer, const PatternHandler* pattern) { uint8* p = buffer->row_ptr(y) + (x << 2); rgb_color color = pattern->ColorAt(x, y); if (cover == 255) { ASSIGN_MAX(p, color.red, color.green, color.blue); } else { BLEND_MAX(p, color.red, color.green, color.blue, cover); } } // blend_hline_max void blend_hline_max(int x, int y, unsigned len, const color_type& c, uint8 cover, agg_buffer* buffer, const PatternHandler* pattern) { uint8* p = buffer->row_ptr(y) + (x << 2); if (cover == 255) { do { rgb_color color = pattern->ColorAt(x, y); ASSIGN_MAX(p, color.red, color.green, color.blue); p += 4; x++; } while(--len); } else { do { rgb_color color = pattern->ColorAt(x, y); BLEND_MAX(p, color.red, color.green, color.blue, cover); x++; p += 4; } while(--len); } } // blend_solid_hspan_max void blend_solid_hspan_max(int x, int y, unsigned len, const color_type& c, const uint8* covers, agg_buffer* buffer, const PatternHandler* pattern) { uint8* p = buffer->row_ptr(y) + (x << 2); do { rgb_color color = pattern->ColorAt(x, y); if (*covers) { if (*covers == 255) { ASSIGN_MAX(p, color.red, color.green, color.blue); } else { BLEND_MAX(p, color.red, color.green, color.blue, *covers); } } covers++; p += 4; x++; } while(--len); } // blend_solid_vspan_max void blend_solid_vspan_max(int x, int y, unsigned len, const color_type& c, const uint8* covers, agg_buffer* buffer, const PatternHandler* pattern) { uint8* p = buffer->row_ptr(y) + (x << 2); do { rgb_color color = pattern->ColorAt(x, y); if (*covers) { if (*covers == 255) { ASSIGN_MAX(p, color.red, color.green, color.blue); } else { BLEND_MAX(p, color.red, color.green, color.blue, *covers); } } covers++; p += buffer->stride(); y++; } while(--len); } // blend_color_hspan_max void blend_color_hspan_max(int x, int y, unsigned len, const color_type* colors, const uint8* covers, uint8 cover, agg_buffer* buffer, const PatternHandler* pattern) { uint8* p = buffer->row_ptr(y) + (x << 2); if (covers) { // non-solid opacity do { if (*covers && colors->a > 0) { if (*covers == 255) { ASSIGN_MAX(p, colors->r, colors->g, colors->b); } else { BLEND_MAX(p, colors->r, colors->g, colors->b, *covers); } } covers++; p += 4; ++colors; } while(--len); } else { // solid full opcacity if (cover == 255) { do { if (colors->a > 0) { ASSIGN_MAX(p, colors->r, colors->g, colors->b); } p += 4; ++colors; } while(--len); // solid partial opacity } else if (cover) { do { if (colors->a > 0) { BLEND_MAX(p, colors->r, colors->g, colors->b, cover); } p += 4; ++colors; } while(--len); } } } #endif // DRAWING_MODE_MAX_H