}
SketcherCurvePen::SketcherCurvePen(SketcherWindow *gui, int x, int y, int pen)
}
SketcherCurvePen::SketcherCurvePen(SketcherWindow *gui, int x, int y, int pen)
- : BC_PopupMenu(x,y,72,_(cv_pen[pen]))
+ : BC_PopupMenu(x,y,100,_(cv_pen[pen]))
"Ctrl+Shift="))); dy = bmax(dy, notes0->get_h());
add_subwindow(notes1 = new BC_Title(x+100, y,
_(" LMB\n"
"Ctrl+Shift="))); dy = bmax(dy, notes0->get_h());
add_subwindow(notes1 = new BC_Title(x+100, y,
_(" LMB\n"
CWindowGUI *cwindow_gui = mwindow->cwindow->gui;
CWindowCanvas *canvas = cwindow_gui->canvas;
int cx, cy; cwindow_gui->get_relative_cursor(cx, cy);
CWindowGUI *cwindow_gui = mwindow->cwindow->gui;
CWindowCanvas *canvas = cwindow_gui->canvas;
int cx, cy; cwindow_gui->get_relative_cursor(cx, cy);
SketcherPoint *pt = pi >= 0 && pi < points.size() ? points[pi] : 0;
if( pt ) {
point_list->set_point(pi, PT_X, pt->x = output_x);
SketcherPoint *pt = pi >= 0 && pi < points.size() ? points[pi] : 0;
if( pt ) {
point_list->set_point(pi, PT_X, pt->x = output_x);
int dx = round(output_x - last_x);
int dy = round(output_y - last_y);
for( int i=0; i<curves.size(); ++i ) {
int dx = round(output_x - last_x);
int dy = round(output_y - last_y);
for( int i=0; i<curves.size(); ++i ) {
}
SketcherPointType::SketcherPointType(SketcherWindow *gui, int x, int y, int arc)
}
SketcherPointType::SketcherPointType(SketcherWindow *gui, int x, int y, int arc)
- : BC_PopupMenu(x,y,64,_(pt_type[arc]))
+ : BC_PopupMenu(x,y,100,_(pt_type[arc]))