Rotate::set_param(const String & param, const ValueBase &value)
{
IMPORT(origin);
-
+
if(param=="amount" && value.same_as(amount))
{
amount=value.get(amount);
cos_val=Angle::cos(amount).get();
return true;
}
-
+
return false;
}
{
EXPORT(origin);
EXPORT(amount);
-
+
EXPORT_NAME();
EXPORT_VERSION();
-
- return ValueBase();
+
+ return ValueBase();
}
Layer::Vocab
Rotate::get_param_vocab()const
{
Layer::Vocab ret;
-
+
ret.push_back(ParamDesc("origin")
.set_local_name(_("Origin"))
.set_description(_("Point where you want the origin to be"))
.set_description(_("Amount of rotation"))
.set_origin("origin")
);
-
+
return ret;
}
etl::handle<const Rotate> layer;
public:
Rotate_Trans(const Rotate* x):Transform(x->get_guid()),layer(x) { }
-
+
synfig::Vector perform(const synfig::Vector& x)const
{
Point pos(x-layer->origin);
return Point(layer->cos_val*pos[0]-layer->sin_val*pos[1],layer->sin_val*pos[0]+layer->cos_val*pos[1])+layer->origin;
}
-
+
synfig::Vector unperform(const synfig::Vector& x)const
{
Point pos(x-layer->origin);
SuperCallback stageone(cb,0,9000,10000);
SuperCallback stagetwo(cb,9000,10000,10000);
-
+
if(cb && !cb->amount_complete(0,10000))
return false;
-
+
Point tl(renddesc.get_tl()-origin);
Point br(renddesc.get_br()-origin);
Point rot_tl(cos_val*tl[0]+sin_val*tl[1],-sin_val*tl[0]+cos_val*tl[1]);
- Point rot_br(cos_val*br[0]+sin_val*br[1],-sin_val*br[0]+cos_val*br[1]);
+ Point rot_br(cos_val*br[0]+sin_val*br[1],-sin_val*br[0]+cos_val*br[1]);
Point rot_tr(cos_val*br[0]+sin_val*tl[1],-sin_val*br[0]+cos_val*tl[1]);
- Point rot_bl(cos_val*tl[0]+sin_val*br[1],-sin_val*tl[0]+cos_val*br[1]);
+ Point rot_bl(cos_val*tl[0]+sin_val*br[1],-sin_val*tl[0]+cos_val*br[1]);
rot_tl+=origin;
rot_br+=origin;
rot_tr+=origin;
rot_bl+=origin;
-
+
Point min_point(min(min(min(rot_tl[0],rot_br[0]),rot_tr[0]),rot_bl[0]),min(min(min(rot_tl[1],rot_br[1]),rot_tr[1]),rot_bl[1]));
Point max_point(max(max(max(rot_tl[0],rot_br[0]),rot_tr[0]),rot_bl[0]),max(max(max(rot_tl[1],rot_br[1]),rot_tr[1]),rot_bl[1]));
br[1]=max_point[1];
tl[1]=min_point[1];
}
-
+
Real pw=(renddesc.get_w())/(renddesc.get_br()[0]-renddesc.get_tl()[0]);
Real ph=(renddesc.get_h())/(renddesc.get_br()[1]-renddesc.get_tl()[1]);
-
+
RendDesc desc(renddesc);
desc.clear_flags();
//desc.set_flags(RendDesc::PX_ASPECT);
//synfig::warning("given window: [%f,%f]-[%f,%f] %dx%d",renddesc.get_tl()[0],renddesc.get_tl()[1],renddesc.get_br()[0],renddesc.get_br()[1],renddesc.get_w(),renddesc.get_h());
//synfig::warning("surface to render: [%f,%f]-[%f,%f] %dx%d",desc.get_tl()[0],desc.get_tl()[1],desc.get_br()[0],desc.get_br()[1],desc.get_w(),desc.get_h());
-
+
Surface source;
source.set_wh(desc.get_w(),desc.get_h());
if(!context.accelerated_render(&source,quality,desc,&stageone))
return false;
-
+
surface->set_wh(renddesc.get_w(),renddesc.get_h());
Surface::pen pen(surface->begin());