OpenSceneGraph/src/osg/Group.cpp

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#include <stdio.h>
#include <math.h>
#include <osg/Group>
#include <osg/BoundingBox>
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#include <algorithm>
#define square(x) ((x)*(x))
using namespace osg;
Group::Group()
{
}
Group::Group(const Group& group,const Cloner& cloner):
Node(group,cloner)
{
for(ChildList::const_iterator itr=group._children.begin();
itr!=group._children.end();
++itr)
{
Node* child = cloner(itr->get());
if (child) _children.push_back(child);
}
}
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Group::~Group()
{
for(ChildList::iterator itr=_children.begin();
itr!=_children.end();
++itr)
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{
Node* child = itr->get();
ParentList::iterator pitr = std::find(child->_parents.begin(),child->_parents.end(),this);
if (pitr!=child->_parents.end()) child->_parents.erase(pitr);
}
}
void Group::traverse(NodeVisitor& nv)
{
for(ChildList::iterator itr=_children.begin();
itr!=_children.end();
++itr)
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{
(*itr)->accept(nv);
}
}
bool Group::addChild( Node *child )
{
if (child && !containsNode(child))
{
// note ref_ptr<> automatically handles incrementing child's reference count.
_children.push_back(child);
// register as parent of child.
child->_parents.push_back(this);
dirtyBound();
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// could now require app traversal thanks to the new subgraph,
// so need to check and update if required.
if (child->getNumChildrenRequiringAppTraversal()>0 ||
child->getAppCallback())
{
setNumChildrenRequiringAppTraversal(
getNumChildrenRequiringAppTraversal()+1
);
}
// could now require disabling of culling thanks to the new subgraph,
// so need to check and update if required.
if (child->getNumChildrenWithCullingDisabled()>0 ||
!child->getCullingActive())
{
setNumChildrenWithCullingDisabled(
getNumChildrenWithCullingDisabled()+1
);
}
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return true;
}
else return false;
}
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bool Group::removeChild( Node *child )
{
ChildList::iterator itr = findNode(child);
if (itr!=_children.end())
{
// remove this group from the child parent list.
ParentList::iterator pitr = std::find(child->_parents.begin(),child->_parents.end(),this);
if (pitr!=child->_parents.end()) child->_parents.erase(pitr);
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// could now require app traversal thanks to the new subgraph,
// so need to check and update if required.
// note, need to do this checking before the erase of the child
// otherwise child will be invalid.
if (child->getNumChildrenRequiringAppTraversal()>0 ||
child->getAppCallback())
{
setNumChildrenRequiringAppTraversal(
getNumChildrenRequiringAppTraversal()-1
);
}
if (child->getNumChildrenWithCullingDisabled()>0 ||
!child->getCullingActive())
{
setNumChildrenWithCullingDisabled(
getNumChildrenWithCullingDisabled()-1
);
}
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// note ref_ptr<> automatically handles decrementing child's reference count.
_children.erase(itr);
dirtyBound();
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return true;
}
else return false;
}
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bool Group::replaceChild( Node *origNode, Node *newNode )
{
if (newNode==NULL || origNode==newNode) return false;
ChildList::iterator itr = findNode(origNode);
if (itr!=_children.end())
{
ParentList::iterator pitr = std::find(origNode->_parents.begin(),origNode->_parents.end(),this);
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if (pitr!=origNode->_parents.end()) origNode->_parents.erase(pitr);
// note ref_ptr<> automatically handles decrementing origNode's reference count,
// and inccrementing newNode's reference count.
*itr = newNode;
// register as parent of child.
newNode->_parents.push_back(this);
dirtyBound();
// could now require app traversal thanks to the new subgraph,
// so need to check and update if required.
int delta_numChildrenRequiringAppTraversal = 0;
if (origNode->getNumChildrenRequiringAppTraversal()>0 ||
origNode->getAppCallback())
{
--delta_numChildrenRequiringAppTraversal;
}
if (newNode->getNumChildrenRequiringAppTraversal()>0 ||
newNode->getAppCallback())
{
++delta_numChildrenRequiringAppTraversal;
}
if (delta_numChildrenRequiringAppTraversal!=0)
{
setNumChildrenRequiringAppTraversal(
getNumChildrenRequiringAppTraversal()+delta_numChildrenRequiringAppTraversal
);
}
// could now require disabling of culling thanks to the new subgraph,
// so need to check and update if required.
int delta_numChildrenWithCullingDisabled = 0;
if (origNode->getNumChildrenWithCullingDisabled()>0 ||
!origNode->getCullingActive())
{
--delta_numChildrenWithCullingDisabled;
}
if (newNode->getNumChildrenWithCullingDisabled()>0 ||
!newNode->getCullingActive())
{
++delta_numChildrenWithCullingDisabled;
}
if (delta_numChildrenWithCullingDisabled!=0)
{
setNumChildrenWithCullingDisabled(
getNumChildrenWithCullingDisabled()-1
);
}
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return true;
}
else return false;
}
const bool Group::computeBound() const
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{
_bsphere_computed = true;
_bsphere.init();
if (_children.empty()) return false;
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BoundingBox bb;
bb.init();
ChildList::const_iterator itr;
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for(itr=_children.begin();
itr!=_children.end();
++itr)
{
bb.expandBy((*itr)->getBound());
}
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if (!bb.isValid()) return false;
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_bsphere._center = bb.center();
_bsphere._radius = 0.0f;
for(itr=_children.begin();
itr!=_children.end();
++itr)
{
_bsphere.expandRadiusBy((*itr)->getBound());
}
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return true;
}