FGFS-4.1/OpenSceneGraph
4
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
Files
43f0efd6d2757fe094d0b69ce74c71a5da9849fd
OpenSceneGraph/src/osg/PagedLOD.cpp
Robert Osfield 43f0efd6d2 Reorganised the Group::removeChild and Geode::removeDrawable methods so 
that removeChild(Node*), removeChild(uint) and equivilant Geode methods are
now inline methods, not designed to be overriden, and seperated out the
multiple remove method to be called removeChildren(uint, uint) which is
now the only virtual method.  There removeChildren is now the method to
override in subclasses.

This reorganisation requires some call code to be rename removeChild usage
to removeChildren.
2006-05-02 09:45:31 +00:00

270 lines
8.9 KiB
C++
Raw Blame History

/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2005 Robert Osfield
*
* This library is open source and may be redistributed and/or modified under
* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
* (at your option) any later version. The full license is in LICENSE file
* included with this distribution, and on the openscenegraph.org website.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* OpenSceneGraph Public License for more details.
*/
#include <osg/PagedLOD>
#include <osg/CullStack>
#include <osg/Notify>
#include <algorithm>
using namespace osg;
PagedLOD::PerRangeData::PerRangeData():
_priorityOffset(0.0f),
_priorityScale(1.0f),
_timeStamp(0.0f) {}
PagedLOD::PerRangeData::PerRangeData(const PerRangeData& prd):
_filename(prd._filename),
_priorityOffset(prd._priorityOffset),
_priorityScale(prd._priorityScale),
_timeStamp(prd._timeStamp) {}
PagedLOD::PerRangeData& PagedLOD::PerRangeData::operator = (const PerRangeData& prd)
{
if (this==&prd) return *this;
_filename = prd._filename;
_priorityOffset = prd._priorityOffset;
_priorityScale = prd._priorityScale;
_timeStamp = prd._timeStamp;
return *this;
}
PagedLOD::PagedLOD()
{
_frameNumberOfLastTraversal = 0;
_centerMode = USER_DEFINED_CENTER;
_radius = -1;
_numChildrenThatCannotBeExpired = 0;
}
PagedLOD::PagedLOD(const PagedLOD& plod,const CopyOp& copyop):
LOD(plod,copyop),
_frameNumberOfLastTraversal(plod._frameNumberOfLastTraversal),
_numChildrenThatCannotBeExpired(plod._numChildrenThatCannotBeExpired),
_perRangeDataList(plod._perRangeDataList)
{
}
void PagedLOD::setDatabasePath(const std::string& path)
{
_databasePath = path;
if (!_databasePath.empty())
{
char& lastCharacter = _databasePath[_databasePath.size()-1];
const char unixSlash = '/';
const char winSlash = '\\';
if (lastCharacter==winSlash)
{
lastCharacter = unixSlash;
}
else if (lastCharacter!=unixSlash)
{
_databasePath += unixSlash;
}
/*
// make sure the last character is the appropriate slash
#ifdef WIN32
if (lastCharacter==unixSlash)
{
lastCharacter = winSlash;
}
else if (lastCharacter!=winSlash)
{
_databasePath += winSlash;
}
#else
if (lastCharacter==winSlash)
{
lastCharacter = unixSlash;
}
else if (lastCharacter!=unixSlash)
{
_databasePath += unixSlash;
}
#endif
*/
}
}
void PagedLOD::traverse(NodeVisitor& nv)
{
// set the frame number of the traversal so that external nodes can find out how active this
// node is.
if (nv.getFrameStamp()) setFrameNumberOfLastTraversal(nv.getFrameStamp()->getFrameNumber());
double timeStamp = nv.getFrameStamp()?nv.getFrameStamp()->getReferenceTime():0.0;
bool updateTimeStamp = nv.getVisitorType()==osg::NodeVisitor::CULL_VISITOR;
switch(nv.getTraversalMode())
{
case(NodeVisitor::TRAVERSE_ALL_CHILDREN):
std::for_each(_children.begin(),_children.end(),NodeAcceptOp(nv));
break;
case(NodeVisitor::TRAVERSE_ACTIVE_CHILDREN):
{
float required_range = 0;
if (_rangeMode==DISTANCE_FROM_EYE_POINT)
{
required_range = nv.getDistanceToEyePoint(getCenter(),true);
}
else
{
osg::CullStack* cullStack = dynamic_cast<osg::CullStack*>(&nv);
if (cullStack && cullStack->getLODScale()>0.0f)
{
required_range = cullStack->clampedPixelSize(getBound()) / cullStack->getLODScale();
}
else
{
// fallback to selecting the highest res tile by
// finding out the max range
for(unsigned int i=0;i<_rangeList.size();++i)
{
required_range = osg::maximum(required_range,_rangeList[i].first);
}
}
}
int lastChildTraversed = -1;
bool needToLoadChild = false;
for(unsigned int i=0;i<_rangeList.size();++i)
{
if (_rangeList[i].first<=required_range && required_range<_rangeList[i].second)
{
if (i<_children.size())
{
if (updateTimeStamp) _perRangeDataList[i]._timeStamp=timeStamp;
_children[i]->accept(nv);
lastChildTraversed = (int)i;
}
else
{
needToLoadChild = true;
}
}
}
if (needToLoadChild)
{
unsigned int numChildren = _children.size();
// select the last valid child.
if (numChildren>0 && ((int)numChildren-1)!=lastChildTraversed)
{
if (updateTimeStamp) _perRangeDataList[numChildren-1]._timeStamp=timeStamp;
_children[numChildren-1]->accept(nv);
}
// now request the loading of the next unloaded child.
if (nv.getDatabaseRequestHandler() && numChildren<_perRangeDataList.size())
{
// compute priority from where abouts in the required range the distance falls.
float priority = (_rangeList[numChildren].second-required_range)/(_rangeList[numChildren].second-_rangeList[numChildren].first);
// invert priority for PIXEL_SIZE_ON_SCREEN mode
if(_rangeMode==PIXEL_SIZE_ON_SCREEN)
{
priority = -priority;
}
// modify the priority according to the child's priority offset and scale.
priority = _perRangeDataList[numChildren]._priorityOffset + priority * _perRangeDataList[numChildren]._priorityScale;
if (_databasePath.empty())
{
nv.getDatabaseRequestHandler()->requestNodeFile(_perRangeDataList[numChildren]._filename,this,priority,nv.getFrameStamp());
}
else
{
// prepend the databasePath to the child's filename.
nv.getDatabaseRequestHandler()->requestNodeFile(_databasePath+_perRangeDataList[numChildren]._filename,this,priority,nv.getFrameStamp());
}
}
}
break;
}
default:
break;
}
}
void PagedLOD::expandPerRangeDataTo(unsigned int pos)
{
if (pos>=_perRangeDataList.size()) _perRangeDataList.resize(pos+1);
}
bool PagedLOD::addChild( Node *child )
{
if (LOD::addChild(child))
{
expandPerRangeDataTo(_children.size()-1);
return true;
}
return false;
}
bool PagedLOD::addChild(Node *child, float min, float max)
{
if (LOD::addChild(child,min,max))
{
expandPerRangeDataTo(_children.size()-1);
return true;
}
return false;
}
bool PagedLOD::addChild(Node *child, float min, float max,const std::string& filename, float priorityOffset, float priorityScale)
{
if (LOD::addChild(child,min,max))
{
setFileName(_children.size()-1,filename);
setPriorityOffset(_children.size()-1,priorityOffset);
setPriorityScale(_children.size()-1,priorityScale);
return true;
}
return false;
}
bool PagedLOD::removeChildren( unsigned int pos,unsigned int numChildrenToRemove)
{
if (pos<_rangeList.size()) _rangeList.erase(_rangeList.begin()+pos, osg::minimum(_rangeList.begin()+(pos+numChildrenToRemove), _rangeList.end()) );
if (pos<_perRangeDataList.size()) _perRangeDataList.erase(_perRangeDataList.begin()+pos, osg::minimum(_perRangeDataList.begin()+ (pos+numChildrenToRemove), _perRangeDataList.end()) );
return Group::removeChildren(pos,numChildrenToRemove);
}
bool PagedLOD::removeExpiredChildren(double expiryTime,NodeList& removedChildren)
{
if (_children.size()>_numChildrenThatCannotBeExpired)
{
if (!_perRangeDataList[_children.size()-1]._filename.empty() && _perRangeDataList[_children.size()-1]._timeStamp<expiryTime)
{
osg::Node* nodeToRemove = _children[_children.size()-1].get();
removedChildren.push_back(nodeToRemove);
return Group::removeChild(nodeToRemove);
}
}
return false;
}
Reference in New Issue View Git Blame Copy Permalink