// // AggPas 2.4 RM3 Demo application // Note: Press F1 key on run to see more info about this demo // // Paths: ..;..\ctrl;..\svg;..\util;..\platform\win;expat-wrap // program lion_lens ; {DEFINE AGG_GRAY8 } {$DEFINE AGG_BGR24 } {DEFINE AGG_RGB24 } {DEFINE AGG_BGRA32 } {DEFINE AGG_RGBA32 } {DEFINE AGG_ARGB32 } {DEFINE AGG_ABGR32 } {DEFINE AGG_RGB565 } {DEFINE AGG_RGB555 } uses agg_basics , agg_platform_support , agg_ctrl , agg_slider_ctrl , agg_rasterizer_scanline_aa , agg_scanline , agg_scanline_p , agg_renderer_base , agg_renderer_scanline , agg_render_scanlines , agg_path_storage , agg_bounding_rect , agg_trans_affine , agg_trans_warp_magnifier , agg_conv_transform , agg_conv_segmentator , parse_lion_ {$I pixel_formats.inc } {$I agg_mode.inc } const flip_y = true; var g_rasterizer : rasterizer_scanline_aa; g_scanline : scanline_p8; g_path : path_storage; g_colors : array[0..99 ] of aggclr; g_path_idx : array[0..99 ] of unsigned; g_npaths : unsigned; g_x1 ,g_y1 ,g_x2 ,g_y2 , g_base_dx ,g_base_dy , g_angle ,g_scale , g_skew_x ,g_skew_y : double; g_nclick : int; type the_application = object(platform_support ) m_magn_slider , m_radius_slider : slider_ctrl; constructor Construct(format_ : pix_format_e; flip_y_ : boolean ); destructor Destruct; procedure on_init; virtual; procedure on_draw; virtual; procedure on_mouse_move (x ,y : int; flags : unsigned ); virtual; procedure on_mouse_button_down(x ,y : int; flags : unsigned ); virtual; procedure on_key(x ,y : int; key ,flags : unsigned ); virtual; end; { _PARSE_LION_ } procedure _parse_lion_; begin g_npaths:=parse_lion(@g_path ,@g_colors ,@g_path_idx ); bounding_rect(@g_path ,@g_path_idx ,0 ,g_npaths ,@g_x1 ,@g_y1 ,@g_x2 ,@g_y2 ); g_base_dx:=(g_x2 - g_x1 ) / 2.0; g_base_dy:=(g_y2 - g_y1 ) / 2.0; end; { CONSTRUCT } constructor the_application.Construct; begin inherited Construct(format_ ,flip_y_ ); m_magn_slider.Construct (5 ,5 ,495 ,12 ,not flip_y_ ); m_radius_slider.Construct(5 ,20 ,495 ,27 ,not flip_y_ ); _parse_lion_; add_ctrl(@m_magn_slider ); m_magn_slider.no_transform; m_magn_slider.range_(0.01 ,4.0 ); m_magn_slider.value_(3.0 ); m_magn_slider.label_('Scale=%3.2f' ); add_ctrl(@m_radius_slider ); m_radius_slider.no_transform; m_radius_slider.range_(0.0 ,100.0 ); m_radius_slider.value_(70.0 ); m_radius_slider.label_('Radius=%3.2f' ); end; { DESTRUCT } destructor the_application.Destruct; begin inherited Destruct; m_magn_slider.Destruct; m_radius_slider.Destruct; end; { ON_INIT } procedure the_application.on_init; begin g_x1:=200; g_y1:=150; end; { ON_DRAW } procedure the_application.on_draw; var pixf : pixel_formats; rb : renderer_base; r : renderer_scanline_aa_solid; rgba : aggclr; lens : trans_warp_magnifier; segm : conv_segmentator; mtx : trans_affine; tat : trans_affine_translation; tar : trans_affine_rotation; trans_mtx , trans_lens : conv_transform; begin // Initialize structures pixfmt(pixf ,rbuf_window ); rb.Construct(@pixf ); r.Construct (@rb ); rgba.ConstrDbl(1 ,1 ,1 ); rb.clear (@rgba ); // Transform lion lens.Construct; lens.center (g_x1 ,g_y1 ); lens.magnification(m_magn_slider._value ); lens.radius (m_radius_slider._value / m_magn_slider._value ); segm.Construct(@g_path ); mtx.Construct; tat.Construct(-g_base_dx ,-g_base_dy ); mtx.multiply (@tat ); tar.Construct(g_angle + pi ); mtx.multiply (@tar ); tat.Construct(_width / 2 ,_height / 2); mtx.multiply (@tat ); trans_mtx.Construct (@segm ,@mtx ); trans_lens.Construct(@trans_mtx ,@lens ); render_all_paths(@g_rasterizer ,@g_scanline ,@r ,@trans_lens ,@g_colors ,@g_path_idx ,g_npaths ); // Render the controls render_ctrl(@g_rasterizer ,@g_scanline ,@r ,@m_magn_slider ); render_ctrl(@g_rasterizer ,@g_scanline ,@r ,@m_radius_slider ); // Free segm.Destruct; end; { ON_MOUSE_MOVE } procedure the_application.on_mouse_move; begin on_mouse_button_down(x ,y ,flags ); end; { ON_MOUSE_BUTTON_DOWN } procedure the_application.on_mouse_button_down; begin if flags and mouse_left <> 0 then begin g_x1:=x; g_y1:=y; force_redraw; end; if flags and mouse_right <> 0 then begin g_x2:=x; g_y2:=y; force_redraw; end; end; { ON_KEY } procedure the_application.on_key; begin if key = key_f1 then message_( 'This example exhibits a non-linear transformer that "magnifies" vertices that fall '#13 + 'inside a circle and extends the rest (trans_warp_magnifier). Non-linear transformations '#13 + 'are tricky because straight lines become curves. To achieve the correct result we need '#13 + 'to divide long line segments into short ones. The example also demonstrates the use of '#13 + 'conv_segmentator that does this division job. The transformer can also shrink away '#13 + 'the image if the scaling value is less than 1.'#13#13 + 'How to play with:'#13#13 + 'Drag the center of the "lens" with the left mouse button and change the "Scale" and "Radius". '#13 + 'To watch for an amazing effect, set the scale to the minimum (0.01), decrease the radius '#13 + 'to about 1 and drag the "lens". You will see it behaves like a black hole consuming space '#13 + 'around it. Move the lens somewhere to the side of the window and change the radius. It looks '#13 + 'like changing the event horizon of the "black hole".' + #13#13'Note: F2 key saves current "screenshot" file in this demo''s directory. ' ); end; VAR app : the_application; BEGIN // Rendering g_rasterizer.Construct; g_scanline.Construct; g_path.Construct; g_npaths:=0; g_x1:=0; g_y1:=0; g_x2:=0; g_y2:=0; g_base_dx:=0; g_base_dy:=0; g_angle:=0; g_scale:=1.0; g_skew_x:=0; g_skew_y:=0; g_nclick:=0; // App app.Construct(pix_format ,flip_y ); app.caption_ ('AGG Example. Lion (F1-Help)' ); if app.init(500 ,600 ,window_resize ) then app.run; app.Destruct; // Free g_rasterizer.Destruct; g_scanline.Destruct; g_path.Destruct; END.