assert(get_work_area());
if(!get_work_area())
return;
-
+
// const synfig::RendDesc &rend_desc(get_work_area()->get_canvas()->rend_desc());
-
+
const synfig::Vector focus_point(get_work_area()->get_focus_point());
// std::vector< std::pair<Glib::RefPtr<Gdk::Pixbuf>,int> >& tile_book(get_tile_book());
-
+
int drawable_w,drawable_h;
drawable->get_size(drawable_w,drawable_h);
-
+
// Calculate the window coordinates of the top-left
// corner of the canvas.
// const synfig::Vector::value_type
// const int
// w(get_w()),
// h(get_h());
-
+
Glib::RefPtr<Gdk::GC> gc(Gdk::GC::create(drawable));
-
+
//const synfig::Vector grid_size(get_grid_size());
const synfig::Vector::value_type window_startx(get_work_area()->get_window_tl()[0]);
const synfig::Vector::value_type window_starty(get_work_area()->get_window_tl()[1]);
// const synfig::Vector::value_type window_endy(get_work_area()->get_window_br()[1]);
const float pw(get_pw()),ph(get_ph());
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+
const synfig::Point curr_point(get_bbox().get_min());
const synfig::Point drag_point(get_bbox().get_max());
if(get_bbox().area()<10000000000000000.0)
swap(tl[0],br[0]);
if(tl[1]>br[1])
swap(tl[1],br[1]);
-
+
drawable->draw_rectangle(gc,false,
round_to_int(tl[0]),
round_to_int(tl[1]),