//---------------------------------------------------------------------------- // Anti-Grain Geometry - Version 2.2 // Copyright (C) 2002-2004 Maxim Shemanarev (http://www.antigrain.com) // // Permission to copy, use, modify, sell and distribute this software // is granted provided this copyright notice appears in all copies. // This software is provided "as is" without express or implied // warranty, and with no claim as to its suitability for any purpose. // //---------------------------------------------------------------------------- // Contact: mcseem@antigrain.com // mcseemagg@yahoo.com // http://www.antigrain.com //---------------------------------------------------------------------------- #ifndef AGG_RENDERER_OUTLINE_IMAGE_INCLUDED #define AGG_RENDERER_OUTLINE_IMAGE_INCLUDED #include #include "agg_line_aa_basics.h" #include "agg_dda_line.h" #include "agg_rendering_buffer.h" namespace agg { //========================================================line_image_scale template class line_image_scale { public: typedef typename Source::color_type color_type; line_image_scale(const Source& src, double height) : m_source(src), m_height(height), m_scale(src.height() / height) { } double width() const { return m_source.width(); } double height() const { return m_height; } color_type pixel(int x, int y) const { double src_y = y * m_scale; int h = int(m_source.height()) - 1; int y1 = int(floor(src_y)); int y2 = y1 + 1; color_type pix1 = (y1 < 0) ? m_source.pixel(x, 0).transparent() : m_source.pixel(x, y1); color_type pix2 = (y2 > h) ? m_source.pixel(x, h).transparent() : m_source.pixel(x, y2); return pix1.gradient(pix2, src_y - y1); } private: line_image_scale(const line_image_scale&); const line_image_scale& operator = (const line_image_scale&); const Source& m_source; double m_height; double m_scale; }; //======================================================line_image_pattern template class line_image_pattern { public: typedef Filter filter_type; typedef typename filter_type::color_type color_type; //-------------------------------------------------------------------- ~line_image_pattern() { delete [] m_data; } //-------------------------------------------------------------------- line_image_pattern(const Filter& filter) : m_filter(&filter), m_dilation(filter.dilation() + 1), m_dilation_hr(m_dilation << line_subpixel_shift), m_data(0), m_width(0), m_height(0), m_width_hr(0), m_half_height_hr(0), m_offset_y_hr(0) { } // Create //-------------------------------------------------------------------- template line_image_pattern(const Filter& filter, const Source& src) : m_filter(&filter), m_dilation(filter.dilation() + 1), m_dilation_hr(m_dilation << line_subpixel_shift), m_data(0), m_width(0), m_height(0), m_width_hr(0), m_half_height_hr(0), m_offset_y_hr(0) { create(src); } // Create //-------------------------------------------------------------------- template void create(const Source& src) { m_height = unsigned(ceil((double)src.height())); m_width = unsigned(ceil((double)src.width())); m_width_hr = int(src.width() * line_subpixel_size); m_half_height_hr = int(src.height() * line_subpixel_size/2); m_offset_y_hr = m_dilation_hr + m_half_height_hr - line_subpixel_size/2; m_half_height_hr += line_subpixel_size/2; delete [] m_data; m_data = new color_type [(m_width + m_dilation * 2) * (m_height + m_dilation * 2)]; m_buf.attach(m_data, m_width + m_dilation * 2, m_height + m_dilation * 2, m_width + m_dilation * 2); unsigned x, y; color_type* d1; color_type* d2; for(y = 0; y < m_height; y++) { d1 = m_buf.row(y + m_dilation) + m_dilation; for(x = 0; x < m_width; x++) { *d1++ = src.pixel(x, y); } } const color_type* s1; const color_type* s2; for(y = 0; y < m_dilation; y++) { s1 = m_buf.row(m_height + m_dilation - 1) + m_dilation; s2 = m_buf.row(m_dilation) + m_dilation; d1 = m_buf.row(m_dilation + m_height + y) + m_dilation; d2 = m_buf.row(m_dilation - y - 1) + m_dilation; for(x = 0; x < m_width; x++) { *d1++ = color_type(*s1++, 0); *d2++ = color_type(*s2++, 0); } } unsigned h = m_height + m_dilation * 2; for(y = 0; y < h; y++) { s1 = m_buf.row(y) + m_dilation; s2 = m_buf.row(y) + m_dilation + m_width; d1 = m_buf.row(y) + m_dilation + m_width; d2 = m_buf.row(y) + m_dilation; for(x = 0; x < m_dilation; x++) { *d1++ = *s1++; *--d2 = *--s2; } } } //-------------------------------------------------------------------- int pattern_width() const { return m_width_hr; } int line_width() const { return m_half_height_hr; } //-------------------------------------------------------------------- color_type pixel(int x, int y) const { return m_filter->pixel_high_res(m_buf.rows(), x % m_width_hr + m_dilation_hr, y + m_offset_y_hr); } //-------------------------------------------------------------------- const filter_type& filter() const { return m_filter; } filter_type& filter() { return m_filter; } private: line_image_pattern(const line_image_pattern&); const line_image_pattern& operator = (const line_image_pattern&); protected: row_ptr_cache m_buf; const filter_type* m_filter; unsigned m_dilation; int m_dilation_hr; color_type* m_data; unsigned m_width; unsigned m_height; int m_width_hr; int m_half_height_hr; int m_offset_y_hr; }; //=================================================line_image_pattern_pow2 template class line_image_pattern_pow2 : public line_image_pattern { public: typedef Filter filter_type; typedef typename filter_type::color_type color_type; typedef line_image_pattern base_type; //-------------------------------------------------------------------- line_image_pattern_pow2(const Filter& filter) : line_image_pattern(filter), m_mask(line_subpixel_mask) {} //-------------------------------------------------------------------- template line_image_pattern_pow2(const Filter& filter, const Source& src) : line_image_pattern(filter), m_mask(line_subpixel_mask) { create(src); } //-------------------------------------------------------------------- template void create(const Source& src) { line_image_pattern::create(src); m_mask = 1; while(m_mask < base_type::m_width) { m_mask <<= 1; m_mask |= 1; } m_mask <<= line_subpixel_shift - 1; m_mask |= line_subpixel_mask; base_type::m_width_hr = m_mask + 1; } //-------------------------------------------------------------------- void pixel(color_type* p, int x, int y) const { base_type::m_filter->pixel_high_res( base_type::m_buf.rows(), p, (x & m_mask) + base_type::m_dilation_hr, y + base_type::m_offset_y_hr); } private: unsigned m_mask; }; //===================================================distance_interpolator4 class distance_interpolator4 { public: //--------------------------------------------------------------------- distance_interpolator4() {} distance_interpolator4(int x1, int y1, int x2, int y2, int sx, int sy, int ex, int ey, int len, double scale, int x, int y) : m_dx(x2 - x1), m_dy(y2 - y1), m_dx_start(line_mr(sx) - line_mr(x1)), m_dy_start(line_mr(sy) - line_mr(y1)), m_dx_end(line_mr(ex) - line_mr(x2)), m_dy_end(line_mr(ey) - line_mr(y2)), m_dist(int(double(x + line_subpixel_size/2 - x2) * double(m_dy) - double(y + line_subpixel_size/2 - y2) * double(m_dx))), m_dist_start((line_mr(x + line_subpixel_size/2) - line_mr(sx)) * m_dy_start - (line_mr(y + line_subpixel_size/2) - line_mr(sy)) * m_dx_start), m_dist_end((line_mr(x + line_subpixel_size/2) - line_mr(ex)) * m_dy_end - (line_mr(y + line_subpixel_size/2) - line_mr(ey)) * m_dx_end), m_len(int(len / scale)) { double d = len * scale; int dx = int(((x2 - x1) << line_subpixel_shift) / d); int dy = int(((y2 - y1) << line_subpixel_shift) / d); m_dx_pict = -dy; m_dy_pict = dx; m_dist_pict = ((x + line_subpixel_size/2 - (x1 - dy)) * m_dy_pict - (y + line_subpixel_size/2 - (y1 + dx)) * m_dx_pict) >> line_subpixel_shift; m_dx <<= line_subpixel_shift; m_dy <<= line_subpixel_shift; m_dx_start <<= line_mr_subpixel_shift; m_dy_start <<= line_mr_subpixel_shift; m_dx_end <<= line_mr_subpixel_shift; m_dy_end <<= line_mr_subpixel_shift; } //--------------------------------------------------------------------- void inc_x() { m_dist += m_dy; m_dist_start += m_dy_start; m_dist_pict += m_dy_pict; m_dist_end += m_dy_end; } //--------------------------------------------------------------------- void dec_x() { m_dist -= m_dy; m_dist_start -= m_dy_start; m_dist_pict -= m_dy_pict; m_dist_end -= m_dy_end; } //--------------------------------------------------------------------- void inc_y() { m_dist -= m_dx; m_dist_start -= m_dx_start; m_dist_pict -= m_dx_pict; m_dist_end -= m_dx_end; } //--------------------------------------------------------------------- void dec_y() { m_dist += m_dx; m_dist_start += m_dx_start; m_dist_pict += m_dx_pict; m_dist_end += m_dx_end; } //--------------------------------------------------------------------- void inc_x(int dy) { m_dist += m_dy; m_dist_start += m_dy_start; m_dist_pict += m_dy_pict; m_dist_end += m_dy_end; if(dy > 0) { m_dist -= m_dx; m_dist_start -= m_dx_start; m_dist_pict -= m_dx_pict; m_dist_end -= m_dx_end; } if(dy < 0) { m_dist += m_dx; m_dist_start += m_dx_start; m_dist_pict += m_dx_pict; m_dist_end += m_dx_end; } } //--------------------------------------------------------------------- void dec_x(int dy) { m_dist -= m_dy; m_dist_start -= m_dy_start; m_dist_pict -= m_dy_pict; m_dist_end -= m_dy_end; if(dy > 0) { m_dist -= m_dx; m_dist_start -= m_dx_start; m_dist_pict -= m_dx_pict; m_dist_end -= m_dx_end; } if(dy < 0) { m_dist += m_dx; m_dist_start += m_dx_start; m_dist_pict += m_dx_pict; m_dist_end += m_dx_end; } } //--------------------------------------------------------------------- void inc_y(int dx) { m_dist -= m_dx; m_dist_start -= m_dx_start; m_dist_pict -= m_dx_pict; m_dist_end -= m_dx_end; if(dx > 0) { m_dist += m_dy; m_dist_start += m_dy_start; m_dist_pict += m_dy_pict; m_dist_end += m_dy_end; } if(dx < 0) { m_dist -= m_dy; m_dist_start -= m_dy_start; m_dist_pict -= m_dy_pict; m_dist_end -= m_dy_end; } } //--------------------------------------------------------------------- void dec_y(int dx) { m_dist += m_dx; m_dist_start += m_dx_start; m_dist_pict += m_dx_pict; m_dist_end += m_dx_end; if(dx > 0) { m_dist += m_dy; m_dist_start += m_dy_start; m_dist_pict += m_dy_pict; m_dist_end += m_dy_end; } if(dx < 0) { m_dist -= m_dy; m_dist_start -= m_dy_start; m_dist_pict -= m_dy_pict; m_dist_end -= m_dy_end; } } //--------------------------------------------------------------------- int dist() const { return m_dist; } int dist_start() const { return m_dist_start; } int dist_pict() const { return m_dist_pict; } int dist_end() const { return m_dist_end; } //--------------------------------------------------------------------- int dx() const { return m_dx; } int dy() const { return m_dy; } int dx_start() const { return m_dx_start; } int dy_start() const { return m_dy_start; } int dx_pict() const { return m_dx_pict; } int dy_pict() const { return m_dy_pict; } int dx_end() const { return m_dx_end; } int dy_end() const { return m_dy_end; } int len() const { return m_len; } private: //--------------------------------------------------------------------- int m_dx; int m_dy; int m_dx_start; int m_dy_start; int m_dx_pict; int m_dy_pict; int m_dx_end; int m_dy_end; int m_dist; int m_dist_start; int m_dist_pict; int m_dist_end; int m_len; }; //==================================================line_interpolator_image template class line_interpolator_image { public: typedef Renderer renderer_type; typedef typename Renderer::color_type color_type; //--------------------------------------------------------------------- enum { max_half_width = 64 }; //--------------------------------------------------------------------- line_interpolator_image(renderer_type& ren, const line_parameters& lp, int sx, int sy, int ex, int ey, int pattern_start, double scale_x) : m_lp(lp), m_li(lp.vertical ? line_dbl_hr(lp.x2 - lp.x1) : line_dbl_hr(lp.y2 - lp.y1), lp.vertical ? abs(lp.y2 - lp.y1) : abs(lp.x2 - lp.x1) + 1), m_di(lp.x1, lp.y1, lp.x2, lp.y2, sx, sy, ex, ey, lp.len, scale_x, lp.x1 & ~line_subpixel_mask, lp.y1 & ~line_subpixel_mask), m_ren(ren), m_x(lp.x1 >> line_subpixel_shift), m_y(lp.y1 >> line_subpixel_shift), m_old_x(m_x), m_old_y(m_y), m_count((lp.vertical ? abs((lp.y2 >> line_subpixel_shift) - m_y) : abs((lp.x2 >> line_subpixel_shift) - m_x))), m_width(ren.subpixel_width()), m_max_extent(m_width >> (line_subpixel_shift - 2)), m_start(pattern_start + (m_max_extent + 2) * ren.pattern_width()), m_step(0) { agg::dda2_line_interpolator li(0, lp.vertical ? (lp.dy << agg::line_subpixel_shift) : (lp.dx << agg::line_subpixel_shift), lp.len); unsigned i; int stop = m_width + line_subpixel_size * 2; for(i = 0; i < max_half_width; ++i) { m_dist_pos[i] = li.y(); if(m_dist_pos[i] >= stop) break; ++li; } m_dist_pos[i] = 0x7FFF0000; int dist1_start; int dist2_start; int npix = 1; if(lp.vertical) { do { --m_li; m_y -= lp.inc; m_x = (m_lp.x1 + m_li.y()) >> line_subpixel_shift; if(lp.inc > 0) m_di.dec_y(m_x - m_old_x); else m_di.inc_y(m_x - m_old_x); m_old_x = m_x; dist1_start = dist2_start = m_di.dist_start(); int dx = 0; if(dist1_start < 0) ++npix; do { dist1_start += m_di.dy_start(); dist2_start -= m_di.dy_start(); if(dist1_start < 0) ++npix; if(dist2_start < 0) ++npix; ++dx; } while(m_dist_pos[dx] <= m_width); if(npix == 0) break; npix = 0; } while(--m_step >= -m_max_extent); } else { do { --m_li; m_x -= lp.inc; m_y = (m_lp.y1 + m_li.y()) >> line_subpixel_shift; if(lp.inc > 0) m_di.dec_x(m_y - m_old_y); else m_di.inc_x(m_y - m_old_y); m_old_y = m_y; dist1_start = dist2_start = m_di.dist_start(); int dy = 0; if(dist1_start < 0) ++npix; do { dist1_start -= m_di.dx_start(); dist2_start += m_di.dx_start(); if(dist1_start < 0) ++npix; if(dist2_start < 0) ++npix; ++dy; } while(m_dist_pos[dy] <= m_width); if(npix == 0) break; npix = 0; } while(--m_step >= -m_max_extent); } m_li.adjust_forward(); m_step -= m_max_extent; } //--------------------------------------------------------------------- bool step_hor() { ++m_li; m_x += m_lp.inc; m_y = (m_lp.y1 + m_li.y()) >> line_subpixel_shift; if(m_lp.inc > 0) m_di.inc_x(m_y - m_old_y); else m_di.dec_x(m_y - m_old_y); m_old_y = m_y; int s1 = m_di.dist() / m_lp.len; int s2 = -s1; if(m_lp.inc < 0) s1 = -s1; int dist_start; int dist_pict; int dist_end; int dy; int dist; dist_start = m_di.dist_start(); dist_pict = m_di.dist_pict() + m_start; dist_end = m_di.dist_end(); color_type* p0 = m_colors + max_half_width + 2; color_type* p1 = p0; int npix = 0; p1->clear(); if(dist_end > 0) { if(dist_start <= 0) { m_ren.pixel(p1, dist_pict, s2); } ++npix; } ++p1; dy = 1; while((dist = m_dist_pos[dy]) - s1 <= m_width) { dist_start -= m_di.dx_start(); dist_pict -= m_di.dx_pict(); dist_end -= m_di.dx_end(); p1->clear(); if(dist_end > 0 && dist_start <= 0) { if(m_lp.inc > 0) dist = -dist; m_ren.pixel(p1, dist_pict, s2 - dist); ++npix; } ++p1; ++dy; } dy = 1; dist_start = m_di.dist_start(); dist_pict = m_di.dist_pict() + m_start; dist_end = m_di.dist_end(); while((dist = m_dist_pos[dy]) + s1 <= m_width) { dist_start += m_di.dx_start(); dist_pict += m_di.dx_pict(); dist_end += m_di.dx_end(); --p0; p0->clear(); if(dist_end > 0 && dist_start <= 0) { if(m_lp.inc > 0) dist = -dist; m_ren.pixel(p0, dist_pict, s2 + dist); ++npix; } ++dy; } m_ren.blend_color_vspan(m_x, m_y - dy + 1, unsigned(p1 - p0), p0); return npix && ++m_step < m_count; } //--------------------------------------------------------------------- bool step_ver() { ++m_li; m_y += m_lp.inc; m_x = (m_lp.x1 + m_li.y()) >> line_subpixel_shift; if(m_lp.inc > 0) m_di.inc_y(m_x - m_old_x); else m_di.dec_y(m_x - m_old_x); m_old_x = m_x; int s1 = m_di.dist() / m_lp.len; int s2 = -s1; if(m_lp.inc > 0) s1 = -s1; int dist_start; int dist_pict; int dist_end; int dist; int dx; dist_start = m_di.dist_start(); dist_pict = m_di.dist_pict() + m_start; dist_end = m_di.dist_end(); color_type* p0 = m_colors + max_half_width + 2; color_type* p1 = p0; int npix = 0; p1->clear(); if(dist_end > 0) { if(dist_start <= 0) { m_ren.pixel(p1, dist_pict, s2); } ++npix; } ++p1; dx = 1; while((dist = m_dist_pos[dx]) - s1 <= m_width) { dist_start += m_di.dy_start(); dist_pict += m_di.dy_pict(); dist_end += m_di.dy_end(); p1->clear(); if(dist_end > 0 && dist_start <= 0) { if(m_lp.inc > 0) dist = -dist; m_ren.pixel(p1, dist_pict, s2 + dist); ++npix; } ++p1; ++dx; } dx = 1; dist_start = m_di.dist_start(); dist_pict = m_di.dist_pict() + m_start; dist_end = m_di.dist_end(); while((dist = m_dist_pos[dx]) + s1 <= m_width) { dist_start -= m_di.dy_start(); dist_pict -= m_di.dy_pict(); dist_end -= m_di.dy_end(); --p0; p0->clear(); if(dist_end > 0 && dist_start <= 0) { if(m_lp.inc > 0) dist = -dist; m_ren.pixel(p0, dist_pict, s2 - dist); ++npix; } ++dx; } m_ren.blend_color_hspan(m_x - dx + 1, m_y, unsigned(p1 - p0), p0); return npix && ++m_step < m_count; } //--------------------------------------------------------------------- int pattern_end() const { return m_start + m_di.len(); } //--------------------------------------------------------------------- bool vertical() const { return m_lp.vertical; } int width() const { return m_width; } int count() const { return m_count; } private: line_interpolator_image(const line_interpolator_image&); const line_interpolator_image& operator = (const line_interpolator_image&); protected: const line_parameters& m_lp; dda2_line_interpolator m_li; distance_interpolator4 m_di; renderer_type& m_ren; int m_plen; int m_x; int m_y; int m_old_x; int m_old_y; int m_count; int m_width; int m_max_extent; int m_start; int m_step; int m_dist_pos[max_half_width + 1]; color_type m_colors[max_half_width * 2 + 4]; }; //===================================================renderer_outline_image template class renderer_outline_image { public: //--------------------------------------------------------------------- typedef BaseRenderer base_ren_type; typedef renderer_outline_image self_type; typedef typename base_ren_type::color_type color_type; typedef ImagePattern pattern_type; //--------------------------------------------------------------------- renderer_outline_image(base_ren_type& ren, const pattern_type& patt) : m_ren(&ren), m_pattern(&patt), m_start(0), m_scale_x(1.0) { } //--------------------------------------------------------------------- void pattern(const pattern_type& p) { m_pattern = &p; } const pattern_type& pattern() const { return *m_pattern; } //--------------------------------------------------------------------- void scale_x(double s) { m_scale_x = s; } double scale_x() const { return m_scale_x; } //--------------------------------------------------------------------- int subpixel_width() const { return m_pattern->line_width(); } int pattern_width() const { return m_pattern->pattern_width(); } //------------------------------------------------------------------------- void pixel(color_type* p, int x, int y) const { m_pattern->pixel(p, x, y); } //------------------------------------------------------------------------- void blend_color_hspan(int x, int y, unsigned len, const color_type* colors) { m_ren->blend_color_hspan(x, y, len, colors, 0); } //------------------------------------------------------------------------- void blend_color_vspan(int x, int y, unsigned len, const color_type* colors) { m_ren->blend_color_vspan(x, y, len, colors, 0); } //------------------------------------------------------------------------- static bool accurate_join_only() { return true; } //------------------------------------------------------------------------- template void semidot(Cmp, int, int, int, int) { } //------------------------------------------------------------------------- void line0(const line_parameters&) { } //------------------------------------------------------------------------- void line1(const line_parameters&, int, int) { } //------------------------------------------------------------------------- void line2(const line_parameters&, int, int) { } //------------------------------------------------------------------------- void line3(const line_parameters& lp, int sx, int sy, int ex, int ey) { line_interpolator_image li(*this, lp, sx, sy, ex, ey, m_start, m_scale_x); if(li.vertical()) { while(li.step_ver()); } else { while(li.step_hor()); } m_start = li.pattern_end(); } private: base_ren_type* m_ren; const pattern_type* m_pattern; int m_start; double m_scale_x; }; } #endif