SYNFIG_LAYER_INIT(Plant);
SYNFIG_LAYER_SET_NAME(Plant,"plant");
SYNFIG_LAYER_SET_LOCAL_NAME(Plant,_("Plant"));
-SYNFIG_LAYER_SET_CATEGORY(Plant,_("Particle Systems"));
+SYNFIG_LAYER_SET_CATEGORY(Plant,_("Other"));
SYNFIG_LAYER_SET_VERSION(Plant,"0.1");
SYNFIG_LAYER_SET_CVS_ID(Plant,"$Id$");
return true;
}
- if(param=="seed" && value.same_as(int()))
+ if(param=="seed" && value.same_type_as(int()))
{
random.set_seed(value.get(int()));
needs_sync_=true;
);
ret.push_back(ParamDesc("size_as_alpha")
- .set_local_name(_("SizeAsAlpha"))
+ .set_local_name(_("Size As Alpha"))
);
ret.push_back(ParamDesc("step")
std::vector<Particle>::reverse_iterator iter;
const float size_factor(1);
- float radius(size_factor*size*sqrt(1.0f/(abs(pw)*abs(ph))));
+ float radius(size_factor*size*sqrt(1.0f/(abs(pw)*abs(ph)))), temp_radius;
if(radius>1.0f)
{
int x1,y1,x2,y2;
for(iter=particle_list.rbegin();iter!=particle_list.rend();++iter)
{
- float radius(radius);
+ temp_radius = radius;
+ float radius(temp_radius);
Color color(iter->color);
if(size_as_alpha)
{
float a,b,c,d;
for(iter=particle_list.rbegin();iter!=particle_list.rend();++iter)
{
- float radius(radius);
+ temp_radius = radius;
+ float radius(temp_radius);
Color color(iter->color);
if(size_as_alpha)
{