void on_idle()
{
if(m_run.status())
{
if(m_cur_angle < 360.0)
{
m_cur_angle += m_step.value();
copy_img_to_img(1, 0);
#ifdef AGG_ACCURATE_TIME
start_timer();
#endif
transform_image(m_step.value());
#ifdef AGG_ACCURATE_TIME
m_time2 += elapsed_time();
#endif
m_num_steps++;
}
else
{
m_cur_angle = 0.0;
#ifndef AGG_ACCURATE_TIME
m_time2 = clock();
#endif
wait_mode(true);
m_run.status(false);
}
force_redraw();
}
else
{
wait_mode(true);
}
}
//------------------------------------------------------------------------
virtual void on_idle()
{
bool redraw = false;
if(m_rotate_polygon.status())
{
m_polygon_angle.value(m_polygon_angle.value() + 0.5);
if(m_polygon_angle.value() >= 180.0)
{
m_polygon_angle.value(m_polygon_angle.value() - 360.0);
}
redraw = true;
}
if(m_rotate_pattern.status())
{
m_pattern_angle.value(m_pattern_angle.value() - 0.5);
if(m_pattern_angle.value() <= -180.0)
{
m_pattern_angle.value(m_pattern_angle.value() + 360.0);
}
generate_pattern();
redraw = true;
}
if(redraw) force_redraw();
}
the_application(agg::pix_format_e format, bool flip_y) :
agg::platform_support(format, flip_y),
m_step (115, 5, 400, 11, !flip_y),
m_radius(115, 5+15, 400, 11+15, !flip_y),
m_filters(0.0, 0.0, 110.0, 210.0, !flip_y),
m_normalize (8.0, 215.0, "Normalize Filter", !flip_y),
m_run (8.0, 245.0, "RUN Test!", !flip_y),
m_single_step(8.0, 230.0, "Single Step", !flip_y),
m_refresh (8.0, 265.0, "Refresh", !flip_y),
m_cur_angle(0.0),
m_cur_filter(1),
m_num_steps(0),
m_num_pix(0.0),
m_time1(0),
m_time2(0)
{
add_ctrl(m_radius);
add_ctrl(m_step);
add_ctrl(m_filters);
add_ctrl(m_run);
add_ctrl(m_single_step);
add_ctrl(m_normalize);
add_ctrl(m_refresh);
m_run.text_size(7.5);
m_single_step.text_size(7.5);
m_normalize.text_size(7.5);
m_refresh.text_size(7.5);
m_normalize.status(true);
m_radius.label("Filter Radius=%.3f");
m_step.label("Step=%3.2f");
m_radius.range(2.0, 8.0);
m_radius.value(4.0);
m_step.range(1.0, 10.0);
m_step.value(5.0);
m_filters.add_item("simple (NN)");
m_filters.add_item("bilinear");
m_filters.add_item("bicubic");
m_filters.add_item("spline16");
m_filters.add_item("spline36");
m_filters.add_item("hanning");
m_filters.add_item("hamming");
m_filters.add_item("hermite");
m_filters.add_item("kaiser");
m_filters.add_item("quadric");
m_filters.add_item("catrom");
m_filters.add_item("gaussian");
m_filters.add_item("bessel");
m_filters.add_item("mitchell");
m_filters.add_item("sinc");
m_filters.add_item("lanczos");
m_filters.add_item("blackman");
m_filters.cur_item(1);
m_filters.border_width(0, 0);
m_filters.background_color(agg::rgba(0.0, 0.0, 0.0, 0.1));
m_filters.text_size(6.0);
m_filters.text_thickness(0.85);
}
//------------------------------------------------------------------------
virtual void on_idle()
{
bool redraw = false;
if(m_rotate_polygon.status())
{
m_polygon_angle.value(m_polygon_angle.value() + 0.5);
if(m_polygon_angle.value() >= 180.0)
{
m_polygon_angle.value(m_polygon_angle.value() - 360.0);
}
redraw = true;
}
if(m_rotate_image.status())
{
m_image_angle.value(m_image_angle.value() + 0.5);
if(m_image_angle.value() >= 180.0)
{
m_image_angle.value(m_image_angle.value() - 360.0);
}
redraw = true;
}
if(redraw) force_redraw();
}
the_application(agg::pix_format_e format, bool flip_y) :
agg::platform_support(format, flip_y),
m_feng(),
m_fman(m_feng),
m_poly1(6, 5.0),
m_poly2(6, 5.0),
m_num_points (5.0, 5.0, 340.0, 12.0, !flip_y),
m_fixed_len (350, 5.0, "Fixed Length", !flip_y),
m_preserve_x_scale(465, 5.0, "Preserve X scale", !flip_y),
m_animate (350, 25.0, "Animate", !flip_y),
m_prev_animate(false)
{
add_ctrl(m_fixed_len);
add_ctrl(m_preserve_x_scale);
add_ctrl(m_animate);
m_fixed_len.status(true);
m_preserve_x_scale.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);
m_poly1.close(false);
m_poly2.close(false);
}
//------------------------------------------------------------------------
virtual void on_ctrl_change() {
if (m_rotate_polygon.status() || m_rotate_image.status()) {
wait_mode(false);
} else {
wait_mode(true);
}
force_redraw();
}
virtual void on_ctrl_change()
{
if(m_reset.status())
{
on_init();
m_reset.status(false);
force_redraw();
}
}
the_application(agg::pix_format_e format, bool flip_y) :
agg::platform_support(format, flip_y),
m_rotate(10, 3, "Rotate", !flip_y),
m_even_odd(60, 3, "Even-Odd", !flip_y),
m_draft(130, 3, "Draft", !flip_y),
m_roundoff(175, 3, "Roundoff", !flip_y),
m_angle_delta(10, 21, 250-10, 27, !flip_y),
m_redraw_flag(true)
{
m_angle_delta.label("Step=%4.3f degree");
g_attr[g_npaths++] = path_attributes(g_path.start_new_path(),
agg::rgba8(255, 255, 0),
agg::rgba8(0, 0, 0),
1.0);
g_path.concat_poly(g_poly_bulb, AGG_POLY_SIZE(g_poly_bulb), true);
g_attr[g_npaths++] = path_attributes(g_path.start_new_path(),
agg::rgba8(255, 255, 200),
agg::rgba8(90, 0, 0),
0.7);
g_path.concat_poly(g_poly_beam1, AGG_POLY_SIZE(g_poly_beam1), true);
g_path.concat_poly(g_poly_beam2, AGG_POLY_SIZE(g_poly_beam2), true);
g_path.concat_poly(g_poly_beam3, AGG_POLY_SIZE(g_poly_beam3), true);
g_path.concat_poly(g_poly_beam4, AGG_POLY_SIZE(g_poly_beam4), true);
g_attr[g_npaths++] = path_attributes(g_path.start_new_path(),
agg::rgba8(0, 0, 0),
agg::rgba8(0, 0, 0),
0.0);
g_path.concat_poly(g_poly_fig1, AGG_POLY_SIZE(g_poly_fig1), true);
g_path.concat_poly(g_poly_fig2, AGG_POLY_SIZE(g_poly_fig2), true);
g_path.concat_poly(g_poly_fig3, AGG_POLY_SIZE(g_poly_fig3), true);
g_path.concat_poly(g_poly_fig4, AGG_POLY_SIZE(g_poly_fig4), true);
g_path.concat_poly(g_poly_fig5, AGG_POLY_SIZE(g_poly_fig5), true);
g_path.concat_poly(g_poly_fig6, AGG_POLY_SIZE(g_poly_fig6), true);
m_rotate.text_size(7);
m_even_odd.text_size(7);
m_draft.text_size(7);
m_roundoff.text_size(7);
add_ctrl(m_rotate);
add_ctrl(m_even_odd);
add_ctrl(m_draft);
add_ctrl(m_roundoff);
add_ctrl(m_angle_delta);
m_angle_delta.value(0.01);
}
//------------------------------------------------------------------------
virtual void on_ctrl_change()
{
if(m_rotate_polygon.status() || m_rotate_pattern.status())
{
wait_mode(false);
}
else
{
wait_mode(true);
}
generate_pattern();
force_redraw();
}
virtual void on_draw()
{
typedef agg::gamma_lut<agg::int8u, agg::int8u, 8, 8> gamma_lut_type;
typedef agg::pixfmt_bgr24_gamma<gamma_lut_type> pixfmt;
typedef agg::renderer_base<pixfmt> renderer_base;
typedef agg::renderer_scanline_aa_solid<renderer_base> renderer_solid;
gamma_lut_type gamma(m_gamma.value());
pixfmt pixf(rbuf_window(), gamma);
renderer_base rb(pixf);
renderer_solid ren(rb);
rb.clear(m_white_on_black.status() ? agg::rgba(0,0,0) : agg::rgba(1,1,1));
agg::rasterizer_scanline_aa<> ras;
agg::scanline_p8 sl;
agg::ellipse e;
// Render two "control" circles
ren.color(agg::rgba8(127,127,127));
e.init(m_x[0], m_y[0], 3, 3, 16);
ras.add_path(e);
agg::render_scanlines(ras, sl, ren);
e.init(m_x[1], m_y[1], 3, 3, 16);
ras.add_path(e);
agg::render_scanlines(ras, sl, ren);
double d = m_offset.value();
// Creating a rounded rectangle
agg::rounded_rect r(m_x[0]+d, m_y[0]+d, m_x[1]+d, m_y[1]+d, m_radius.value());
r.normalize_radius();
// Drawing as an outline
agg::conv_stroke<agg::rounded_rect> p(r);
p.width(1.0);
ras.add_path(p);
ren.color(m_white_on_black.status() ? agg::rgba(1,1,1) : agg::rgba(0,0,0));
agg::render_scanlines(ras, sl, ren);
ras.gamma(agg::gamma_none());
// Render the controls
agg::render_ctrl(ras, sl, rb, m_radius);
agg::render_ctrl(ras, sl, rb, m_gamma);
agg::render_ctrl(ras, sl, rb, m_offset);
agg::render_ctrl(ras, sl, rb, m_white_on_black);
}
the_application(agg::pix_format_e format, bool flip_y) :
agg::platform_support(format, flip_y),
m_type(-1, -1, -1, -1, !flip_y),
m_width(110+80, 8.0, 110+200.0+80, 8.0 + 7.0, !flip_y),
m_benchmark(110+200+80+8, 8.0-2.0, "Benchmark", !flip_y),
m_draw_nodes(110+200+80+8, 8.0-2.0+15.0, "Draw Nodes", !flip_y),
m_draw_edges(200+200+80+8, 8.0-2.0+15.0, "Draw Edges", !flip_y),
m_draft(200+200+80+8, 8.0-2.0, "Draft Mode", !flip_y),
m_translucent(110+80, 8.0-2.0+15.0, "Translucent Mode", !flip_y),
m_graph(200, 100),
m_gradient_colors(),
m_draw(3)
{
add_ctrl(m_type);
m_type.text_size(8.0);
m_type.add_item("Solid lines");
m_type.add_item("Bezier curves");
m_type.add_item("Dashed curves");
m_type.add_item("Poygons AA");
m_type.add_item("Poygons Bin");
m_type.cur_item(0);
add_ctrl(m_width);
m_width.num_steps(20);
m_width.range(0.0, 5.0);
m_width.value(2.0);
m_width.label("Width=%1.2f");
m_benchmark.text_size(8.0);
m_draw_nodes.text_size(8.0);
m_draft.text_size(8.0);
m_draw_nodes.status(true);
m_draw_edges.status(true);
add_ctrl(m_benchmark);
add_ctrl(m_draw_nodes);
add_ctrl(m_draw_edges);
add_ctrl(m_draft);
add_ctrl(m_translucent);
agg::rgba c1(1, 1, 0, 0.25);
agg::rgba c2(0, 0, 1);
int i;
for(i = 0; i < 256; i++)
{
m_gradient_colors[i] = c1.gradient(c2, double(i) / 255.0);
}
}
the_application(agg::pix_format_e format, bool flip_y) :
agg::platform_support(format, flip_y),
m_idx(-1),
m_gamma(130 + 10.0, 10.0 + 4.0, 130 + 150.0, 10.0 + 8.0 + 4.0, !flip_y),
m_alpha(130 + 150.0 + 10.0, 10.0 + 4.0, 500 - 10.0, 10.0 + 8.0 + 4.0, !flip_y),
m_test(130 + 10.0, 10.0 + 4.0 + 16.0, "Test Performance", !flip_y)
{
m_x[0] = 100 + 120; m_y[0] = 60;
m_x[1] = 369 + 120; m_y[1] = 170;
m_x[2] = 143 + 120; m_y[2] = 310;
add_ctrl(m_gamma);
m_gamma.range(0.0, 1.0);
m_gamma.value(0.5);
m_gamma.label("Gamma=%1.2f");
m_gamma.no_transform();
add_ctrl(m_alpha);
m_alpha.range(0.0, 1.0);
m_alpha.value(1.0);
m_alpha.label("Alpha=%1.2f");
m_alpha.no_transform();
add_ctrl(m_test);
m_test.no_transform();
}
//------------------------------------------------------------------------
void draw_dashes_draft()
{
pixfmt pixf(rbuf_window());
base_renderer rb(pixf);
primitives_renderer prim(rb);
outline_rasterizer ras(prim);
int i;
for(i = 0; i < m_graph.get_num_edges(); i++)
{
graph::edge e = m_graph.get_edge(i);
graph::node n1 = m_graph.get_node(e.node1, width(), height());
graph::node n2 = m_graph.get_node(e.node2, width(), height());
curve c(n1.x, n1.y, n2.x, n2.y);
dash_stroke_draft<curve> s(c, 6.0, 3.0, m_width.value());
int r = rand() & 0x7F;
int g = rand() & 0x7F;
int b = rand() & 0x7F;
int a = 255;
if(m_translucent.status()) a = 80;
prim.line_color(agg::srgba8(r, g, b, a));
ras.add_path(s);
}
}
//------------------------------------------------------------------------
void draw_scene(scanline_rasterizer& ras,
solid_renderer& solid,
draft_renderer& draft)
{
ras.gamma(agg::gamma_none());
srand(100);
if(m_draw_nodes.status())
{
if(m_draft.status())
{
draw_nodes_draft();
}
else
{
draw_nodes_fine(ras);
}
}
if(m_draw_edges.status())
{
if(m_draft.status())
{
switch(m_type.cur_item())
{
case 0: draw_lines_draft(); break;
case 1: draw_curves_draft(); break;
case 2: draw_dashes_draft(); break;
}
}
else
{
switch(m_type.cur_item())
{
case 0: draw_lines_fine(ras, solid, draft); break;
case 1: draw_curves_fine(ras, solid, draft); break;
case 2: draw_dashes_fine(ras, solid, draft); break;
case 3:
case 4: draw_polygons(ras, solid, draft); break;
}
}
}
}
void on_ctrl_change()
{
if(m_single_step.status())
{
m_cur_angle += m_step.value();
copy_img_to_img(1, 0);
transform_image(m_step.value());
m_num_steps++;
force_redraw();
m_single_step.status(false);
}
if(m_run.status())
{
#ifdef AGG_ACCURATE_TIME
start_timer();
m_time1 = m_time2 = elapsed_time();
#else
m_time1 = m_time2 = clock();
#endif
m_num_pix = 0.0;
wait_mode(false);
}
if(m_refresh.status() || m_filters.cur_item() != m_cur_filter)
{
#ifdef AGG_ACCURATE_TIME
start_timer();
m_time1 = m_time2 = 0;
#else
m_time1 = m_time2 = clock();
#endif
m_num_pix = 0.0;
m_cur_angle = 0.0;
copy_img_to_img(1, 2);
transform_image(0.0);
m_refresh.status(false);
m_cur_filter = m_filters.cur_item();
m_num_steps = 0;
force_redraw();
}
}
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();
}
}
the_application(agg::pix_format_e format, bool flip_y) :
agg::platform_support(format, flip_y),
m_idx(-1),
m_cap(10.0, 10.0, 130.0, 80.0, !flip_y),
m_width(130 + 10.0, 10.0 + 4.0, 130 + 150.0, 10.0 + 8.0 + 4.0, !flip_y),
m_smooth(130 + 150.0 + 10.0, 10.0 + 4.0, 500 - 10.0, 10.0 + 8.0 + 4.0, !flip_y),
m_close(130 + 10.0, 10.0 + 4.0 + 16.0, "Close Polygons", !flip_y),
m_even_odd(130 + 150.0 + 10.0, 10.0 + 4.0 + 16.0, "Even-Odd Fill", !flip_y)
{
m_x[0] = 57 + 100; m_y[0] = 60;
m_x[1] = 369 + 100; m_y[1] = 170;
m_x[2] = 143 + 100; m_y[2] = 310;
add_ctrl(m_cap);
m_cap.add_item("Butt Cap");
m_cap.add_item("Square Cap");
m_cap.add_item("Round Cap");
m_cap.cur_item(0);
m_cap.no_transform();
add_ctrl(m_width);
m_width.range(0.0, 10.0);
m_width.value(3.0);
m_width.label("Width=%1.2f");
m_width.no_transform();
add_ctrl(m_smooth);
m_smooth.range(0.0, 2.0);
m_smooth.value(1.0);
m_smooth.label("Smooth=%1.2f");
m_smooth.no_transform();
add_ctrl(m_close);
m_close.no_transform();
add_ctrl(m_even_odd);
m_even_odd.no_transform();
}
the_application(agg::pix_format_e format, bool flip_y) :
agg::platform_support(format, flip_y),
m_width_slider(5, 5, 150, 12, !flip_y),
m_scanline(160, 5, "Use Scanline Rasterizer", !flip_y)
{
parse_lion();
add_ctrl(m_width_slider);
m_width_slider.no_transform();
m_width_slider.range(0.0, 4.0);
m_width_slider.value(1.0);
m_width_slider.label("Width %3.2f");
add_ctrl(m_scanline);
m_scanline.no_transform();
}
virtual void on_draw()
{
int width = rbuf_window().width();
int height = rbuf_window().height();
typedef agg::renderer_base<pixfmt> renderer_base;
typedef agg::renderer_scanline_aa_solid<renderer_base> renderer_solid;
pixfmt pixf(rbuf_window());
renderer_base rb(pixf);
renderer_solid r(rb);
rb.clear(agg::rgba(1,1,1));
agg::trans_affine mtx;
mtx *= agg::trans_affine_translation(-g_base_dx, -g_base_dy);
mtx *= agg::trans_affine_scaling(g_scale, g_scale);
mtx *= agg::trans_affine_rotation(g_angle + agg::pi);
mtx *= agg::trans_affine_skewing(g_skew_x/1000.0, g_skew_y/1000.0);
mtx *= agg::trans_affine_translation(width/2, height/2);
if(m_scanline.status())
{
agg::conv_stroke<agg::path_storage> stroke(g_path);
stroke.width(m_width_slider.value());
stroke.line_join(agg::round_join);
agg::conv_transform<agg::conv_stroke<agg::path_storage> > trans(stroke, mtx);
agg::render_all_paths(g_rasterizer, g_scanline, r, trans, g_colors, g_path_idx, g_npaths);
}
else
{
typedef agg::renderer_outline_aa<renderer_base> renderer_type;
typedef agg::rasterizer_outline_aa<renderer_type> rasterizer_type;
double w = m_width_slider.value() * mtx.scale();
agg::line_profile_aa profile(w, agg::gamma_none());
renderer_type ren(rb, profile);
rasterizer_type ras(ren);
agg::conv_transform<agg::path_storage> trans(g_path, mtx);
ras.render_all_paths(trans, g_colors, g_path_idx, g_npaths);
}
agg::render_ctrl(g_rasterizer, g_scanline, rb, m_width_slider);
agg::render_ctrl(g_rasterizer, g_scanline, rb, m_scanline);
}
void render_edge_fine(scanline_rasterizer& ras,
solid_renderer& ren_fine,
draft_renderer& ren_draft,
Source& src)
{
double x, y;
switch(m_draw)
{
case 0:
src.rewind(0);
while(!agg::is_stop(src.vertex(&x, &y)));
break;
case 1:
ras.reset();
ras.add_path(src);
break;
case 2:
ras.reset();
ras.add_path(src);
ras.sort();
break;
case 3:
{
int r = rand() & 0x7F;
int g = rand() & 0x7F;
int b = rand() & 0x7F;
int a = 255;
if(m_translucent.status()) a = 80;
ras.add_path(src);
if(m_type.cur_item() < 4)
{
ren_fine.color(agg::srgba8(r, g, b, a));
agg::render_scanlines(ras, m_sl, ren_fine);
}
else
{
ren_draft.color(agg::srgba8(r, g, b, a));
agg::render_scanlines(ras, m_sl, ren_draft);
}
}
break;
}
}
virtual void on_draw()
{
typedef agg::renderer_base<agg::pixfmt_bgr24> ren_base;
agg::pixfmt_bgr24 pixf(rbuf_window());
ren_base renb(pixf);
renb.clear(agg::rgba(1, 1, 1));
agg::rasterizer_scanline_aa<> ras;
agg::scanline_p8 sl;
agg::trans_affine mtx;
mtx *= agg::trans_affine_scaling(4.0);
mtx *= agg::trans_affine_translation(150, 100);
agg::conv_transform<agg::path_storage> trans(m_path, mtx);
agg::conv_curve<agg::conv_transform<agg::path_storage> > curve(trans);
agg::conv_contour
<agg::conv_curve
<agg::conv_transform
<agg::path_storage> > > contour(curve);
contour.width(m_width.value());
//contour.inner_join(agg::inner_bevel);
//contour.line_join(agg::miter_join);
//contour.inner_line_join(agg::miter_join);
//contour.inner_miter_limit(4.0);
contour.auto_detect_orientation(m_auto_detect.status());
compose_path();
ras.add_path(contour);
agg::render_scanlines_aa_solid(ras, sl, renb, agg::rgba(0,0,0));
agg::render_ctrl(ras, sl, renb, m_close);
agg::render_ctrl(ras, sl, renb, m_width);
agg::render_ctrl(ras, sl, renb, m_auto_detect);
}
virtual void on_draw()
{
pixfmt pixf(rbuf_window());
renderer_base rb(pixf);
rb.clear(agg::rgba(1.0, 1.0, 1.0));
rb.copy_from(rbuf_img(0), 0, 110, 35);
agg::rasterizer_scanline_aa<> ras;
agg::scanline_u8 sl;
agg::rendering_buffer img_rbuf(g_image, 4, 4, 4*4);
double para[] = { 200, 40, 200+300, 40, 200+300, 40+300, 200, 40+300 };
agg::trans_affine img_mtx(para, 0,0,4,4);
typedef agg::span_interpolator_linear<> interpolator_type;
interpolator_type interpolator(img_mtx);
agg::span_allocator<agg::rgba8> sa;
pixfmt img_pixf(img_rbuf);
typedef agg::image_accessor_clone<pixfmt> img_source_type;
img_source_type source(img_pixf);
ras.reset();
ras.move_to_d(para[0], para[1]);
ras.line_to_d(para[2], para[3]);
ras.line_to_d(para[4], para[5]);
ras.line_to_d(para[6], para[7]);
switch(m_filters.cur_item())
{
case 0:
{
typedef agg::span_image_filter_rgba_nn<img_source_type,
interpolator_type> span_gen_type;
span_gen_type sg(source, interpolator);
agg::render_scanlines_aa(ras, sl, rb, sa, sg);
}
break;
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
case 10:
case 11:
case 12:
case 13:
case 14:
case 15:
case 16:
{
agg::image_filter_lut filter;
bool norm = m_normalize.status();
switch(m_filters.cur_item())
{
case 1:
filter.calculate(agg::image_filter_bilinear(), norm);
break;
case 2:
filter.calculate(agg::image_filter_bicubic(), norm);
break;
case 3:
filter.calculate(agg::image_filter_spline16(), norm);
break;
case 4:
filter.calculate(agg::image_filter_spline36(), norm);
break;
case 5:
filter.calculate(agg::image_filter_hanning(), norm);
break;
case 6:
filter.calculate(agg::image_filter_hamming(), norm);
break;
case 7:
filter.calculate(agg::image_filter_hermite(), norm);
break;
case 8:
filter.calculate(agg::image_filter_kaiser(), norm);
break;
case 9:
filter.calculate(agg::image_filter_quadric(), norm);
break;
case 10:
filter.calculate(agg::image_filter_catrom(), norm);
break;
case 11:
filter.calculate(agg::image_filter_gaussian(), norm);
break;
case 12:
filter.calculate(agg::image_filter_bessel(), norm);
break;
case 13:
filter.calculate(agg::image_filter_mitchell(), norm);
break;
case 14:
filter.calculate(agg::image_filter_sinc(m_radius.value()), norm);
break;
case 15:
filter.calculate(agg::image_filter_lanczos(m_radius.value()), norm);
break;
case 16:
filter.calculate(agg::image_filter_blackman(m_radius.value()), norm);
break;
}
typedef agg::span_image_filter_rgba<img_source_type,
interpolator_type> span_gen_type;
span_gen_type sg(source, interpolator, filter);
agg::render_scanlines_aa(ras, sl, rb, sa, sg);
agg::gamma_lut<agg::int8u, agg::int8u, 8, 8> gamma(m_gamma.value());
pixf.apply_gamma_inv(gamma);
double x_start = 5.0;
double x_end = 195.0;
double y_start = 235.0;
double y_end = initial_height() - 5.0;
double x_center = (x_start + x_end) / 2;
agg::path_storage p;
agg::conv_stroke<agg::path_storage> stroke(p);
stroke.width(0.8);
unsigned i;
for(i = 0; i <= 16; i++)
{
double x = x_start + (x_end - x_start) * i / 16.0;
p.remove_all();
p.move_to(x+0.5, y_start);
p.line_to(x+0.5, y_end);
ras.add_path(stroke);
agg::render_scanlines_aa_solid(ras, sl, rb,
agg::rgba8(0, 0, 0, i == 8 ? 255 : 100));
}
double ys = y_start + (y_end - y_start) / 6.0;
p.remove_all();
p.move_to(x_start, ys);
p.line_to(x_end, ys);
ras.add_path(stroke);
agg::render_scanlines_aa_solid(ras, sl, rb, agg::rgba8(0, 0, 0));
double radius = filter.radius();
unsigned n = unsigned(radius * 256 * 2);
double dx = (x_end - x_start) * radius / 8.0;
double dy = y_end - ys;
const agg::int16* weights = filter.weight_array();
double xs = (x_end + x_start)/2.0 - (filter.diameter() * (x_end - x_start) / 32.0);
unsigned nn = filter.diameter() * 256;
p.remove_all();
p.move_to(xs+0.5, ys + dy * weights[0] / agg::image_filter_scale);
for(i = 1; i < nn; i++)
{
p.line_to(xs + dx * i / n + 0.5,
ys + dy * weights[i] / agg::image_filter_scale);
}
ras.add_path(stroke);
agg::render_scanlines_aa_solid(ras, sl, rb, agg::rgba8(100, 0, 0));
}
break;
}
agg::render_ctrl(ras, sl, rb, m_gamma);
if(m_filters.cur_item() >= 14)
{
agg::render_ctrl(ras, sl, rb, m_radius);
}
agg::render_ctrl(ras, sl, rb, m_filters);
agg::render_ctrl(ras, sl, rb, m_normalize);
}
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;
agg::simple_polygon_vertex_source path1(m_poly1.polygon(),
m_poly1.num_points(),
false,
false);
agg::simple_polygon_vertex_source path2(m_poly2.polygon(),
m_poly2.num_points(),
false,
false);
typedef agg::conv_bspline<agg::simple_polygon_vertex_source> conv_bspline_type;
conv_bspline_type bspline1(path1);
conv_bspline_type bspline2(path2);
bspline1.interpolation_step(1.0 / m_num_points.value());
bspline2.interpolation_step(1.0 / m_num_points.value());
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_double_path> conv_font_trans_type;
agg::trans_double_path tcurve;
conv_font_curve_type fcurves(m_fman.path_adaptor());
conv_font_segm_type fsegm(fcurves);
conv_font_trans_type ftrans(fsegm, tcurve);
tcurve.preserve_x_scale(m_preserve_x_scale.status());
if(m_fixed_len.status()) tcurve.base_length(1140.0);
tcurve.base_height(30.0);
tcurve.add_paths(bspline1, bspline2);
fsegm.approximation_scale(3.0);
fcurves.approximation_scale(5.0);
if(m_feng.load_font(full_file_name("timesi.ttf"), 0, agg::glyph_ren_outline))
{
double x = 0.0;
double y = 3.0;
const char* p = text;
m_feng.hinting(false);
m_feng.height(40);
while(*p)
{
const agg::glyph_cache* glyph = m_fman.glyph(*p);
if(glyph)
{
if(x > tcurve.total_length1()) 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;
}
}
else
{
message("Please copy file timesi.ttf to the current directory\n"
"or download it from http://www.antigrain.com/timesi.zip");
}
typedef agg::conv_stroke<conv_bspline_type> conv_stroke_type;
conv_stroke_type stroke1(bspline1);
conv_stroke_type stroke2(bspline2);
stroke1.width(2.0);
stroke2.width(2.0);
r.color(agg::rgba8(170, 50, 20, 100));
ras.add_path(stroke1);
agg::render_scanlines(ras, sl, r);
ras.add_path(stroke2);
agg::render_scanlines(ras, sl, r);
//--------------------------
// Render the "poly" tool and controls
r.color(agg::rgba(0, 0.3, 0.5, 0.2));
ras.add_path(m_poly1);
agg::render_scanlines(ras, sl, r);
ras.add_path(m_poly2);
agg::render_scanlines(ras, sl, r);
agg::render_ctrl(ras, sl, rb, m_fixed_len);
agg::render_ctrl(ras, sl, rb, m_preserve_x_scale);
agg::render_ctrl(ras, sl, rb, m_animate);
agg::render_ctrl(ras, sl, rb, m_num_points);
//--------------------------
}
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_draw()
{
typedef agg::pixfmt_bgr24 pixfmt;
typedef agg::renderer_base<pixfmt> renderer_base;
typedef agg::renderer_scanline_aa_solid<renderer_base> renderer_solid;
pixfmt pixf(rbuf_window());
renderer_base rb(pixf);
renderer_solid rs(rb);
rb.clear(agg::rgba(1.0, 1.0, 1.0));
agg::rasterizer_scanline_aa<> ras;
agg::scanline_p8 sl;
double x_start = 125.0;
double x_end = initial_width() - 15.0;
double y_start = 10.0;
double y_end = initial_height() - 10.0;
double x_center = (x_start + x_end) / 2;
unsigned i;
agg::path_storage p;
agg::conv_stroke<agg::path_storage> pl(p);
agg::conv_transform<agg::conv_stroke<agg::path_storage> > tr(pl, trans_affine_resizing());
for(i = 0; i <= 16; i++)
{
double x = x_start + (x_end - x_start) * i / 16.0;
p.remove_all();
p.move_to(x+0.5, y_start);
p.line_to(x+0.5, y_end);
ras.add_path(tr);
rs.color(agg::rgba8(0, 0, 0, i == 8 ? 255 : 100));
agg::render_scanlines(ras, sl, rs);
}
double ys = y_start + (y_end - y_start) / 6.0;
p.remove_all();
p.move_to(x_start, ys);
p.line_to(x_end, ys);
ras.add_path(tr);
rs.color(agg::rgba8(0, 0, 0));
agg::render_scanlines(ras, sl, rs);
pl.width(1.0);
for(i = 0; i < m_num_filters; i++)
{
if(m_filters[i]->status())
{
m_filter_func[i]->set_radius(m_radius.value());
unsigned j;
double radius = m_filter_func[i]->radius();
unsigned n = unsigned(radius * 256 * 2);
double dy = y_end - ys;
double xs = (x_end + x_start)/2.0 - (radius * (x_end - x_start) / 16.0);
double dx = (x_end - x_start) * radius / 8.0;
p.remove_all();
p.move_to(xs+0.5, ys + dy * m_filter_func[i]->calc_weight(-radius));
for(j = 1; j < n; j++)
{
p.line_to(xs + dx * j / n + 0.5,
ys + dy * m_filter_func[i]->calc_weight(j / 256.0 - radius));
}
ras.add_path(tr);
rs.color(agg::rgba8(100, 0, 0));
agg::render_scanlines(ras, sl, rs);
p.remove_all();
unsigned xint;
int ir = int(ceil(radius) + 0.1);
for(xint = 0; xint < 256; xint++)
{
int xfract;
double sum = 0;
for(xfract = -ir; xfract < ir; xfract++)
{
double xf = xint/256.0 + xfract;
if(xf >= -radius || xf <= radius)
{
sum += m_filter_func[i]->calc_weight(xf);
}
}
double x = x_center + ((-128.0 + xint) / 128.0) * radius * (x_end - x_start) / 16.0;
double y = ys + sum * 256 - 256;
if(xint == 0) p.move_to(x, y);
else p.line_to(x, y);
}
ras.add_path(tr);
rs.color(agg::rgba8(0, 100, 0));
agg::render_scanlines(ras, sl, rs);
agg::image_filter_lut normalized(*m_filter_func[i]);
const agg::int16* weights = normalized.weight_array();
xs = (x_end + x_start)/2.0 - (normalized.diameter() * (x_end - x_start) / 32.0);
unsigned nn = normalized.diameter() * 256;
p.remove_all();
p.move_to(xs+0.5, ys + dy * weights[0] / agg::image_filter_scale);
for(j = 1; j < nn; j++)
{
p.line_to(xs + dx * j / n + 0.5,
ys + dy * weights[j] / agg::image_filter_scale);
}
ras.add_path(tr);
rs.color(agg::rgba8(0, 0, 100, 255));
agg::render_scanlines(ras, sl, rs);
}
}
for(i = 0; i < m_num_filters; i++)
{
agg::render_ctrl(ras, sl, rb, *m_filters[i]);
}
if(m_sinc.status() || m_lanczos.status() || m_blackman.status())
{
agg::render_ctrl(ras, sl, rb, m_radius);
}
}
virtual void on_draw()
{
typedef agg::renderer_base<agg::pixfmt_bgra32> ren_base;
typedef agg::renderer_base<agg::pixfmt_bgra32_pre> ren_base_pre;
agg::gamma_lut<agg::int8u, agg::int8u> lut(2.0);
agg::pixfmt_bgra32 pixf(rbuf_window());
ren_base renb(pixf);
agg::pixfmt_bgra32_pre pixf_pre(rbuf_window());
ren_base_pre renb_pre(pixf_pre);
// Clear the window with a gradient
agg::pod_vector<agg::rgba8> gr(pixf_pre.width());
unsigned i;
for(i = 0; i < pixf.width(); i++)
{
gr.add(agg::rgba8(255, 255, 0).gradient(agg::rgba8(0, 255, 255),
double(i) / pixf.width()));
}
for(i = 0; i < pixf.height(); i++)
{
renb.copy_color_hspan(0, i, pixf.width(), &gr[0]);
}
pixf.apply_gamma_dir(lut);
agg::rasterizer_scanline_aa<> ras;
agg::rasterizer_compound_aa<agg::rasterizer_sl_clip_dbl> rasc;
agg::scanline_u8 sl;
agg::span_allocator<agg::rgba8> alloc;
// Draw two triangles
ras.move_to_d(0, 0);
ras.line_to_d(width(), 0);
ras.line_to_d(width(), height());
agg::render_scanlines_aa_solid(ras, sl, renb,
agg::rgba8(lut.dir(0),
lut.dir(100),
lut.dir(0)));
ras.move_to_d(0, 0);
ras.line_to_d(0, height());
ras.line_to_d(width(), 0);
agg::render_scanlines_aa_solid(ras, sl, renb,
agg::rgba8(lut.dir(0),
lut.dir(100),
lut.dir(100)));
agg::trans_affine mtx;
mtx *= agg::trans_affine_scaling(4.0);
mtx *= agg::trans_affine_translation(150, 100);
agg::conv_transform<agg::path_storage> trans(m_path, mtx);
agg::conv_curve<agg::conv_transform<agg::path_storage> > curve(trans);
agg::conv_stroke
<agg::conv_curve
<agg::conv_transform
<agg::path_storage> > > stroke(curve);
compose_path();
agg::rgba8 styles[4];
if(m_invert_order.status())
{
rasc.layer_order(agg::layer_inverse);
}
else
{
rasc.layer_order(agg::layer_direct);
}
styles[3] = agg::rgba8(lut.dir(255),
lut.dir(0),
lut.dir(108),
200).premultiply();
styles[2] = agg::rgba8(lut.dir(51),
lut.dir(0),
lut.dir(151),
180).premultiply();
styles[1] = agg::rgba8(lut.dir(143),
lut.dir(90),
lut.dir(6),
200).premultiply();
styles[0] = agg::rgba8(lut.dir(0),
lut.dir(0),
lut.dir(255),
220).premultiply();
style_handler sh(styles, 4);
stroke.width(m_width.value());
rasc.reset();
rasc.master_alpha(3, m_alpha1.value());
rasc.master_alpha(2, m_alpha2.value());
rasc.master_alpha(1, m_alpha3.value());
rasc.master_alpha(0, m_alpha4.value());
agg::ellipse ell(220.0, 180.0, 120.0, 10.0, 128, false);
agg::conv_stroke<agg::ellipse> str_ell(ell);
str_ell.width(m_width.value() / 2);
rasc.styles(3, -1);
rasc.add_path(str_ell);
rasc.styles(2, -1);
rasc.add_path(ell);
rasc.styles(1, -1);
rasc.add_path(stroke);
rasc.styles(0, -1);
rasc.add_path(curve);
agg::render_scanlines_compound_layered(rasc, sl, renb_pre, alloc, sh);
agg::render_ctrl(ras, sl, renb, m_width);
agg::render_ctrl(ras, sl, renb, m_alpha1);
agg::render_ctrl(ras, sl, renb, m_alpha2);
agg::render_ctrl(ras, sl, renb, m_alpha3);
agg::render_ctrl(ras, sl, renb, m_alpha4);
agg::render_ctrl(ras, sl, renb, m_invert_order);
pixf.apply_gamma_inv(lut);
}
virtual void on_draw()
{
typedef agg::renderer_base<pixfmt> ren_base;
pixfmt pixf(rbuf_window());
ren_base rbase(pixf);
trans_roundoff roundoff;
if(m_redraw_flag)
{
g_rasterizer.gamma(agg::gamma_none());
rbase.clear(agg::rgba8(255,255,255));
g_rasterizer.filling_rule(agg::fill_non_zero);
agg::render_ctrl(g_rasterizer, g_scanline, rbase, m_rotate);
agg::render_ctrl(g_rasterizer, g_scanline, rbase, m_even_odd);
agg::render_ctrl(g_rasterizer, g_scanline, rbase, m_draft);
agg::render_ctrl(g_rasterizer, g_scanline, rbase, m_roundoff);
agg::render_ctrl(g_rasterizer, g_scanline, rbase, m_angle_delta);
m_redraw_flag = false;
}
else
{
rbase.copy_bar(0,
int(32.0 * rbuf_window().height() / m_dy),
rbuf_window().width(),
rbuf_window().height(),
agg::rgba8(255,255,255));
}
if(m_draft.status())
{
g_rasterizer.gamma(agg::gamma_threshold(0.4));
}
agg::trans_affine mtx;
mtx.reset();
mtx *= agg::trans_affine_rotation(g_angle * agg::pi / 180.0);
mtx *= agg::trans_affine_translation(m_dx / 2, m_dy / 2 + 10);
mtx *= agg::trans_affine_scaling(rbuf_window().width() / m_dx,
rbuf_window().height() / m_dy);
agg::conv_transform<agg::path_storage> fill(g_path, mtx);
agg::conv_transform
<
agg::conv_transform<agg::path_storage>,
trans_roundoff
>
fill_roundoff(fill, roundoff);
agg::conv_stroke
<
agg::conv_transform<agg::path_storage>
>
stroke(fill);
agg::conv_stroke
<
agg::conv_transform
<
agg::conv_transform<agg::path_storage>,
trans_roundoff
>
>
stroke_roundoff(fill_roundoff);
g_pflag = m_even_odd.status() ? agg::fill_even_odd : agg::fill_non_zero;
unsigned i;
for(i = 0; i < g_npaths; i++)
{
g_rasterizer.filling_rule(g_pflag);
if(m_roundoff.status()) g_rasterizer.add_path(fill_roundoff, g_attr[i].index);
else g_rasterizer.add_path(fill, g_attr[i].index);
if(m_draft.status())
{
agg::render_scanlines_bin_solid(g_rasterizer, g_scanline, rbase, g_attr[i].fill_color);
}
else
{
agg::render_scanlines_aa_solid(g_rasterizer, g_scanline, rbase, g_attr[i].fill_color);
}
if(g_attr[i].stroke_width > 0.001)
{
stroke.width(g_attr[i].stroke_width * mtx.scale());
stroke_roundoff.width(g_attr[i].stroke_width * mtx.scale());
if(m_roundoff.status()) g_rasterizer.add_path(stroke_roundoff, g_attr[i].index);
else g_rasterizer.add_path(stroke, g_attr[i].index);
if(m_draft.status())
{
agg::render_scanlines_bin_solid(g_rasterizer, g_scanline, rbase, g_attr[i].stroke_color);
}
else
{
agg::render_scanlines_aa_solid(g_rasterizer, g_scanline, rbase, g_attr[i].stroke_color);
}
}
}
}
virtual void on_ctrl_change()
{
wait_mode(!m_rotate.status());
m_redraw_flag = true;
}
virtual void on_draw()
{
typedef agg::renderer_base<pixfmt> ren_base;
pixfmt pixf(rbuf_window());
ren_base renb(pixf);
renb.clear(agg::rgba(1, 1, 1));
agg::rasterizer_scanline_aa<> ras;
agg::scanline_u8 sl;
agg::line_cap_e cap = agg::butt_cap;
if(m_cap.cur_item() == 1) cap = agg::square_cap;
if(m_cap.cur_item() == 2) cap = agg::round_cap;
// Here we declare a very cheap-in-use path storage.
// It allocates space for at most 20 vertices in stack and
// never allocates memory. But be aware that adding more than
// 20 vertices is fatal!
//------------------------
typedef agg::path_base<
agg::vertex_stl_storage<
agg::pod_auto_vector<
agg::vertex_d, 20> > > path_storage_type;
path_storage_type path;
path.move_to(m_x[0], m_y[0]);
path.line_to(m_x[1], m_y[1]);
path.line_to((m_x[0]+m_x[1]+m_x[2]) / 3.0, (m_y[0]+m_y[1]+m_y[2]) / 3.0);
path.line_to(m_x[2], m_y[2]);
if(m_close.status()) path.close_polygon();
path.move_to((m_x[0] + m_x[1]) / 2, (m_y[0] + m_y[1]) / 2);
path.line_to((m_x[1] + m_x[2]) / 2, (m_y[1] + m_y[2]) / 2);
path.line_to((m_x[2] + m_x[0]) / 2, (m_y[2] + m_y[0]) / 2);
if(m_close.status()) path.close_polygon();
if(m_even_odd.status()) ras.filling_rule(agg::fill_even_odd);
// (1)
ras.add_path(path);
agg::render_scanlines_aa_solid(ras, sl, renb, agg::rgba(0.7, 0.5, 0.1, 0.5));
// (1)
// Start of (2, 3, 4)
agg::conv_smooth_poly1<path_storage_type> smooth(path);
smooth.smooth_value(m_smooth.value());
// (2)
ras.add_path(smooth);
agg::render_scanlines_aa_solid(ras, sl, renb, agg::rgba(0.1, 0.5, 0.7, 0.1));
// (2)
// (3)
agg::conv_stroke<agg::conv_smooth_poly1<path_storage_type> > smooth_outline(smooth);
ras.add_path(smooth_outline);
agg::render_scanlines_aa_solid(ras, sl, renb, agg::rgba(0.0, 0.6, 0.0, 0.8));
// (3)
// (4)
agg::conv_curve<agg::conv_smooth_poly1<path_storage_type> > curve(smooth);
agg::conv_dash<agg::conv_curve<agg::conv_smooth_poly1<path_storage_type> >, agg::vcgen_markers_term> dash(curve);
agg::conv_stroke<agg::conv_dash<agg::conv_curve<agg::conv_smooth_poly1<path_storage_type> >, agg::vcgen_markers_term> > stroke(dash);
stroke.line_cap(cap);
stroke.width(m_width.value());
double k = ::pow(m_width.value(), 0.7);
agg::arrowhead ah;
ah.head(4 * k, 4 * k, 3 * k, 2 * k);
if(!m_close.status()) ah.tail(1 * k, 1.5 * k, 3 * k, 5 * k);
agg::conv_marker<agg::vcgen_markers_term, agg::arrowhead> arrow(dash.markers(), ah);
dash.add_dash(20.0, 5.0);
dash.add_dash(5.0, 5.0);
dash.add_dash(5.0, 5.0);
dash.dash_start(10);
ras.add_path(stroke);
ras.add_path(arrow);
agg::render_scanlines_aa_solid(ras, sl, renb, agg::rgba(0.0, 0.0, 0.0));
// (4)
ras.filling_rule(agg::fill_non_zero);
agg::render_ctrl(ras, sl, renb, m_cap);
agg::render_ctrl(ras, sl, renb, m_width);
agg::render_ctrl(ras, sl, renb, m_smooth);
agg::render_ctrl(ras, sl, renb, m_close);
agg::render_ctrl(ras, sl, renb, m_even_odd);
}
//------------------------------------------------------------------------
virtual void on_draw()
{
double width = rbuf_window().width();
double height = rbuf_window().height();
typedef agg::renderer_base<pixfmt> renderer_base;
typedef agg::renderer_base<pixfmt_pre> renderer_base_pre;
pixfmt pixf(rbuf_window());
pixfmt_pre pixf_pre(rbuf_window());
renderer_base rb(pixf);
renderer_base_pre rb_pre(pixf_pre);
rb.clear(agg::rgba(1.0, 1.0, 1.0));
agg::trans_affine polygon_mtx;
polygon_mtx *= agg::trans_affine_translation(-m_polygon_cx, -m_polygon_cy);
polygon_mtx *= agg::trans_affine_rotation(m_polygon_angle.value() * agg::pi / 180.0);
polygon_mtx *= agg::trans_affine_scaling(m_polygon_scale.value());
polygon_mtx *= agg::trans_affine_translation(m_polygon_cx, m_polygon_cy);
double r = initial_width() / 3.0 - 8.0;
create_star(m_polygon_cx, m_polygon_cy, r, r / 1.45, 14);
agg::conv_transform<agg::path_storage> tr(m_ps, polygon_mtx);
typedef agg::wrap_mode_reflect_auto_pow2 wrap_x_type;
typedef agg::wrap_mode_reflect_auto_pow2 wrap_y_type;
typedef agg::image_accessor_wrap<pixfmt,
wrap_x_type,
wrap_y_type> img_source_type;
typedef agg::span_pattern_rgba<img_source_type> span_gen_type;
unsigned offset_x = 0;
unsigned offset_y = 0;
if(m_tie_pattern.status())
{
offset_x = unsigned(width-m_polygon_cx);
offset_y = unsigned(height-m_polygon_cy);
}
agg::span_allocator<color_type> sa;
pixfmt img_pixf(m_pattern_rbuf);
img_source_type img_src(img_pixf);
span_gen_type sg(img_src, offset_x, offset_y);
// Alpha is meaningful for RGB only because RGBA has its own
sg.alpha(span_gen_type::value_type(m_pattern_alpha.value() * 255.0));
m_ras.add_path(tr);
agg::render_scanlines_aa(m_ras, m_sl, rb_pre, sa, sg);
agg::render_ctrl(m_ras, m_sl, rb, m_polygon_angle);
agg::render_ctrl(m_ras, m_sl, rb, m_polygon_scale);
agg::render_ctrl(m_ras, m_sl, rb, m_pattern_angle);
agg::render_ctrl(m_ras, m_sl, rb, m_pattern_size);
agg::render_ctrl(m_ras, m_sl, rb, m_pattern_alpha);
agg::render_ctrl(m_ras, m_sl, rb, m_rotate_polygon);
agg::render_ctrl(m_ras, m_sl, rb, m_rotate_pattern);
agg::render_ctrl(m_ras, m_sl, rb, m_tie_pattern);
}