#include <stdlib.h> #include <ctype.h> #include <stdio.h> #include "agg_rendering_buffer.h" #include "agg_rasterizer_scanline_aa.h" #include "agg_scanline_p.h" #include "agg_renderer_scanline.h" #include "agg_conv_bspline.h" #include "agg_conv_segmentator.h" #include "agg_font_win32_tt.h" #include "agg_trans_single_path.h" #include "ctrl/agg_cbox_ctrl.h" #include "ctrl/agg_slider_ctrl.h" #include "platform/agg_platform_support.h" #include "interactive_polygon.h" #define AGG_BGR24 //#define AGG_RGB24 //#define AGG_BGRA32 //#define AGG_RGBA32 //#define AGG_ARGB32 //#define AGG_ABGR32 //#define AGG_RGB565 //#define AGG_RGB555 #include "pixel_formats.h" enum flip_y_e { flip_y = true }; static char text[] = "Anti-Grain Geometry is designed as a set of loosely coupled " "algorithms and class templates united with a common idea, " "so that all the components can be easily combined. Also, " "the template based design allows you to replace any part of " "the library without the necessity to modify a single byte in " "the existing code. "; class the_application : public agg::platform_support { public: typedef agg::renderer_base<pixfmt> renderer_base; typedef agg::renderer_scanline_aa_solid<renderer_base> renderer_solid; typedef agg::scanline_p8 scanline_type; typedef agg::font_engine_win32_tt_int16 font_engine_type; typedef agg::font_cache_manager<font_engine_type> font_manager_type; font_engine_type m_feng; font_manager_type m_fman; agg::interactive_polygon m_poly; agg::slider_ctrl<agg::rgba8> m_num_points; agg::cbox_ctrl<agg::rgba8> m_close; agg::cbox_ctrl<agg::rgba8> m_preserve_x_scale; agg::cbox_ctrl<agg::rgba8> m_fixed_len; agg::cbox_ctrl<agg::rgba8> m_animate; double m_dx[6]; double m_dy[6]; bool m_prev_animate; the_application(HDC dc, agg::pix_format_e format, bool flip_y) : agg::platform_support(format, flip_y), m_feng(dc), m_fman(m_feng), m_poly(6, 5.0), m_num_points (5.0, 5.0, 340.0, 12.0, !flip_y), m_close (350, 5.0, "Close", !flip_y), m_preserve_x_scale(460, 5.0, "Preserve X scale", !flip_y), m_fixed_len (350, 25.0, "Fixed Length", !flip_y), m_animate (460, 25.0, "Animate", !flip_y), m_prev_animate(false) { add_ctrl(m_close); add_ctrl(m_preserve_x_scale); add_ctrl(m_fixed_len); add_ctrl(m_animate); m_preserve_x_scale.status(true); m_fixed_len.status(true); m_num_points.range(10.0, 400.0); m_num_points.value(200.0); m_num_points.label("Number of intermediate Points = %.3f"); add_ctrl(m_num_points); } virtual void on_init() { m_poly.xn(0) = 50; m_poly.yn(0) = 50; m_poly.xn(1) = 150 + 20; m_poly.yn(1) = 150 - 20; m_poly.xn(2) = 250 - 20; m_poly.yn(2) = 250 + 20; m_poly.xn(3) = 350 + 20; m_poly.yn(3) = 350 - 20; m_poly.xn(4) = 450 - 20; m_poly.yn(4) = 450 + 20; m_poly.xn(5) = 550; m_poly.yn(5) = 550; } virtual void on_draw() { pixfmt pixf(rbuf_window()); renderer_base rb(pixf); renderer_solid r(rb); rb.clear(agg::rgba(1, 1, 1)); scanline_type sl; agg::rasterizer_scanline_aa<> ras; m_poly.close(m_close.status()); agg::simple_polygon_vertex_source path(m_poly.polygon(), m_poly.num_points(), false, m_close.status()); typedef agg::conv_bspline<agg::simple_polygon_vertex_source> conv_bspline_type; conv_bspline_type bspline(path); bspline.interpolation_step(1.0 / m_num_points.value()); agg::trans_single_path tcurve; tcurve.add_path(bspline); tcurve.preserve_x_scale(m_preserve_x_scale.status()); if(m_fixed_len.status()) tcurve.base_length(1120); typedef agg::conv_curve<font_manager_type::path_adaptor_type> conv_font_curve_type; typedef agg::conv_segmentator<conv_font_curve_type> conv_font_segm_type; typedef agg::conv_transform<conv_font_segm_type, agg::trans_single_path> conv_font_trans_type; conv_font_curve_type fcurves(m_fman.path_adaptor()); conv_font_segm_type fsegm(fcurves); conv_font_trans_type ftrans(fsegm, tcurve); fsegm.approximation_scale(3.0); fcurves.approximation_scale(2.0); m_feng.height(40.0); //m_feng.italic(true); if(m_feng.create_font("Times New Roman", agg::glyph_ren_outline)) { double x = 0.0; double y = 3.0; const char* p = text; while(*p) { const agg::glyph_cache* glyph = m_fman.glyph(*p); if(glyph) { if(x > tcurve.total_length()) break; m_fman.add_kerning(&x, &y); m_fman.init_embedded_adaptors(glyph, x, y); if(glyph->data_type == agg::glyph_data_outline) { ras.reset(); ras.add_path(ftrans); r.color(agg::rgba8(0, 0, 0)); agg::render_scanlines(ras, sl, r); } // increment pen position x += glyph->advance_x; y += glyph->advance_y; } ++p; } } typedef agg::conv_stroke<conv_bspline_type> conv_stroke_type; conv_stroke_type stroke(bspline); stroke.width(2.0); r.color(agg::rgba8(170, 50, 20, 100)); ras.add_path(stroke); agg::render_scanlines(ras, sl, r); //-------------------------- // Render the "poly" tool and controls r.color(agg::rgba(0, 0.3, 0.5, 0.3)); ras.add_path(m_poly); agg::render_scanlines(ras, sl, r); agg::render_ctrl(ras, sl, rb, m_close); agg::render_ctrl(ras, sl, rb, m_preserve_x_scale); agg::render_ctrl(ras, sl, rb, m_fixed_len); agg::render_ctrl(ras, sl, rb, m_animate); agg::render_ctrl(ras, sl, rb, m_num_points); //-------------------------- } virtual void on_mouse_button_down(int x, int y, unsigned flags) { if(flags & agg::mouse_left) { if(m_poly.on_mouse_button_down(x, y)) { force_redraw(); } } } virtual void on_mouse_move(int x, int y, unsigned flags) { if(flags & agg::mouse_left) { if(m_poly.on_mouse_move(x, y)) { force_redraw(); } } if((flags & agg::mouse_left) == 0) { on_mouse_button_up(x, y, flags); } } virtual void on_mouse_button_up(int x, int y, unsigned flags) { if(m_poly.on_mouse_button_up(x, y)) { force_redraw(); } } virtual void on_key(int x, int y, unsigned key, unsigned flags) { } virtual void on_ctrl_change() { if(m_animate.status() != m_prev_animate) { if(m_animate.status()) { on_init(); int i; for(i = 0; i < 6; i++) { m_dx[i] = ((rand() % 1000) - 500) * 0.01; m_dy[i] = ((rand() % 1000) - 500) * 0.01; } wait_mode(false); } else { wait_mode(true); } m_prev_animate = m_animate.status(); } } void move_point(double& x, double& y, double& dx, double& dy) { if(x < 0.0) { x = 0.0; dx = -dx; } if(x > width()) { x = width(); dx = -dx; } if(y < 0.0) { y = 0.0; dy = -dy; } if(y > height()) { y = height(); dy = -dy; } x += dx; y += dy; } virtual void on_idle() { int i; for(i = 0; i < 6; i++) { move_point(m_poly.xn(i), m_poly.yn(i), m_dx[i], m_dy[i]); } force_redraw(); } }; int agg_main(int argc, char* argv[]) { HDC dc = ::GetDC(0); the_application app(dc, pix_format, flip_y); app.caption("AGG Example. Non-linear \"Along-A-Curve\" Transformer"); if(app.init(600, 600, agg::window_resize)) { return app.run(); } ::ReleaseDC(0, dc); return 1; } |