2005-10-10 18:10:44 +08:00
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#include "DistanceAccumulator.h"
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#include <osg/Geode>
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#include <osg/Transform>
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#include <osg/Projection>
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#include <algorithm>
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#include <math.h>
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/** Function that sees whether one DistancePair should come before another in
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an sorted list. Used to sort the vector of DistancePairs. */
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bool precedes(const DistanceAccumulator::DistancePair &a,
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const DistanceAccumulator::DistancePair &b)
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{
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2005-11-18 04:22:55 +08:00
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// This results in sorting in order of descending far distances
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if(a.second > b.second) return true;
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else return false;
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2005-10-10 18:10:44 +08:00
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}
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/** Computes distance betwen a point and the viewpoint of a matrix */
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double distance(const osg::Vec3 &coord, const osg::Matrix& matrix)
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{
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return -( coord[0]*matrix(0,2) + coord[1]*matrix(1,2) +
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coord[2]*matrix(2,2) + matrix(3,2) );
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2005-10-10 18:10:44 +08:00
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}
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#define CURRENT_CLASS DistanceAccumulator
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CURRENT_CLASS::CURRENT_CLASS()
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2005-11-18 04:22:55 +08:00
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: osg::NodeVisitor(TRAVERSE_ALL_CHILDREN),
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_nearFarRatio(0.0005), _maxDepth(UINT_MAX)
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{
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setMatrices(osg::Matrix::identity(), osg::Matrix::identity());
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reset();
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2005-10-10 18:10:44 +08:00
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}
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CURRENT_CLASS::~CURRENT_CLASS() {}
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void CURRENT_CLASS::pushLocalFrustum()
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{
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2005-11-18 04:22:55 +08:00
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osg::Matrix& currMatrix = _viewMatrices.back();
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// Compute the frustum in local space
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osg::Polytope localFrustum;
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localFrustum.setToUnitFrustum(false, false);
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localFrustum.transformProvidingInverse(currMatrix*_projectionMatrices.back());
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_localFrusta.push_back(localFrustum);
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// Compute new bounding box corners
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bbCornerPair corner;
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corner.second = (currMatrix(0,2)<=0?1:0) |
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(currMatrix(1,2)<=0?2:0) |
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(currMatrix(2,2)<=0?4:0);
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corner.first = (~corner.second)&7;
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_bbCorners.push_back(corner);
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2005-10-10 18:10:44 +08:00
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}
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2005-10-27 17:38:06 +08:00
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void CURRENT_CLASS::pushDistancePair(double zNear, double zFar)
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{
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if(zFar > 0.0) // Make sure some of drawable is visible
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{
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// Make sure near plane is in front of viewpoint.
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if(zNear <= 0.0)
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{
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zNear = zFar*_nearFarRatio;
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if(zNear >= 1.0) zNear = 1.0; // 1.0 limit chosen arbitrarily!
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}
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// Add distance pair for current drawable
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_distancePairs.push_back(DistancePair(zNear, zFar));
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// Override the current nearest/farthest planes if necessary
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if(zNear < _limits.first) _limits.first = zNear;
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if(zFar > _limits.second) _limits.second = zFar;
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}
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2005-10-10 18:10:44 +08:00
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}
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2005-10-27 17:38:06 +08:00
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/** Return true if the node should be traversed, and false if the bounding sphere
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of the node is small enough to be rendered by one Camera. If the latter
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is true, then store the node's near & far plane distances. */
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bool CURRENT_CLASS::shouldContinueTraversal(osg::Node &node)
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{
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// Allow traversal to continue if we haven't reached maximum depth.
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bool keepTraversing = (_currentDepth < _maxDepth);
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const osg::BoundingSphere &bs = node.getBound();
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double zNear = 0.0, zFar = 0.0;
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// Make sure bounding sphere is valid and within viewing volume
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if(bs.valid())
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{
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if(!_localFrusta.back().contains(bs)) keepTraversing = false;
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else
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{
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// Compute near and far planes for this node
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zNear = distance(bs._center, _viewMatrices.back());
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zFar = zNear + bs._radius;
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zNear -= bs._radius;
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// If near/far ratio is big enough, then we don't need to keep
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// traversing children of this node.
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if(zNear >= zFar*_nearFarRatio) keepTraversing = false;
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}
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}
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// If traversal should stop, then store this node's (near,far) pair
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if(!keepTraversing) pushDistancePair(zNear, zFar);
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return keepTraversing;
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2005-10-10 18:10:44 +08:00
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}
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2005-10-27 17:38:06 +08:00
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void CURRENT_CLASS::apply(osg::Node &node)
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{
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if(shouldContinueTraversal(node))
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{
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// Traverse this node
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_currentDepth++;
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traverse(node);
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_currentDepth--;
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}
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2005-10-27 17:38:06 +08:00
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}
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2005-10-10 18:10:44 +08:00
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2005-10-27 17:38:06 +08:00
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void CURRENT_CLASS::apply(osg::Projection &proj)
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{
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if(shouldContinueTraversal(proj))
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{
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// Push the new projection matrix view frustum
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_projectionMatrices.push_back(proj.getMatrix());
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pushLocalFrustum();
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// Traverse the group
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_currentDepth++;
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traverse(proj);
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_currentDepth--;
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// Reload original matrix and frustum
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_localFrusta.pop_back();
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_bbCorners.pop_back();
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_projectionMatrices.pop_back();
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}
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2005-10-10 18:10:44 +08:00
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}
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void CURRENT_CLASS::apply(osg::Transform &transform)
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{
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if(shouldContinueTraversal(transform))
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{
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// Compute transform for current node
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osg::Matrix currMatrix = _viewMatrices.back();
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bool pushMatrix = transform.computeLocalToWorldMatrix(currMatrix, this);
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if(pushMatrix)
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{
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// Store the new modelview matrix and view frustum
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_viewMatrices.push_back(currMatrix);
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pushLocalFrustum();
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}
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_currentDepth++;
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traverse(transform);
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_currentDepth--;
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if(pushMatrix)
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{
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// Restore the old modelview matrix and view frustum
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_localFrusta.pop_back();
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_bbCorners.pop_back();
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_viewMatrices.pop_back();
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}
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}
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2005-10-27 17:38:06 +08:00
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}
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void CURRENT_CLASS::apply(osg::Geode &geode)
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{
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// Contained drawables will only be individually considered if we are
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// allowed to continue traversing.
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if(shouldContinueTraversal(geode))
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{
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osg::Drawable *drawable;
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double zNear, zFar;
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// Handle each drawable in this geode
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for(unsigned int i = 0; i < geode.getNumDrawables(); i++)
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{
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drawable = geode.getDrawable(i);
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const osg::BoundingBox &bb = drawable->getBound();
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if(bb.valid())
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{
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// Make sure drawable will be visible in the scene
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if(!_localFrusta.back().contains(bb)) continue;
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// Compute near/far distances for current drawable
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zNear = distance(bb.corner(_bbCorners.back().first),
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_viewMatrices.back());
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zFar = distance(bb.corner(_bbCorners.back().second),
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_viewMatrices.back());
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if(zNear > zFar) std::swap(zNear, zFar);
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pushDistancePair(zNear, zFar);
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}
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}
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}
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2005-10-10 18:10:44 +08:00
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}
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void CURRENT_CLASS::setMatrices(const osg::Matrix &modelview,
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const osg::Matrix &projection)
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{
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_modelview = modelview;
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_projection = projection;
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}
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void CURRENT_CLASS::reset()
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{
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// Clear vectors & values
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_distancePairs.clear();
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_cameraPairs.clear();
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_limits.first = DBL_MAX;
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_limits.second = 0.0;
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_currentDepth = 0;
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// Initial transform matrix is the modelview matrix
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_viewMatrices.clear();
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_viewMatrices.push_back(_modelview);
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// Set the initial projection matrix
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_projectionMatrices.clear();
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_projectionMatrices.push_back(_projection);
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// Create a frustum without near/far planes, for cull computations
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_localFrusta.clear();
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_bbCorners.clear();
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pushLocalFrustum();
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}
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void CURRENT_CLASS::computeCameraPairs()
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{
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// Nothing in the scene, so no cameras needed
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if(_distancePairs.empty()) return;
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// Entire scene can be handled by just one camera
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if(_limits.first >= _limits.second*_nearFarRatio)
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{
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_cameraPairs.push_back(_limits);
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return;
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}
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PairList::iterator i,j;
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// Sort the list of distance pairs by descending far distance
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std::sort(_distancePairs.begin(), _distancePairs.end(), precedes);
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// Combine overlapping distance pairs. The resulting set of distance
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// pairs (called combined pairs) will not overlap.
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PairList combinedPairs;
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DistancePair currPair = _distancePairs.front();
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for(i = _distancePairs.begin(); i != _distancePairs.end(); i++)
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{
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// Current distance pair does not overlap current combined pair, so
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// save the current combined pair and start a new one.
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if(i->second < 0.99*currPair.first)
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{
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combinedPairs.push_back(currPair);
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currPair = *i;
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}
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// Current distance pair overlaps current combined pair, so expand
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// current combined pair to encompass distance pair.
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else
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currPair.first = std::min(i->first, currPair.first);
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}
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combinedPairs.push_back(currPair); // Add last pair
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// Compute the (near,far) distance pairs for each camera.
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// Each of these distance pairs is called a "view segment".
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double currNearLimit, numSegs, new_ratio;
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double ratio_invlog = 1.0/log(_nearFarRatio);
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unsigned int temp;
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for(i = combinedPairs.begin(); i != combinedPairs.end(); i++)
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{
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currPair = *i; // Save current view segment
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// Compute the fractional number of view segments needed to span
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// the current combined distance pair.
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currNearLimit = currPair.second*_nearFarRatio;
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if(currPair.first >= currNearLimit) numSegs = 1.0;
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else
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{
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numSegs = log(currPair.first/currPair.second)*ratio_invlog;
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// Compute the near plane of the last view segment
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//currNearLimit *= pow(_nearFarRatio, -floor(-numSegs) - 1);
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for(temp = (unsigned int)(-floor(-numSegs)); temp > 1; temp--)
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{
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currNearLimit *= _nearFarRatio;
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}
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}
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// See if the closest view segment can absorb other combined pairs
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for(j = i+1; j != combinedPairs.end(); j++)
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{
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// No other distance pairs can be included
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if(j->first < currNearLimit) break;
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}
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// If we did absorb another combined distance pair, recompute the
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// number of required view segments.
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if(i != j-1)
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{
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i = j-1;
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currPair.first = i->first;
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if(currPair.first >= currPair.second*_nearFarRatio) numSegs = 1.0;
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else numSegs = log(currPair.first/currPair.second)*ratio_invlog;
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}
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/* Compute an integer number of segments by rounding the fractional
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number of segments according to how many segments there are.
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In general, the more segments there are, the more likely that the
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integer number of segments will be rounded down.
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The purpose of this is to try to minimize the number of view segments
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that are used to render any section of the scene without violating
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the specified _nearFarRatio by too much. */
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if(numSegs < 10.0) numSegs = floor(numSegs + 1.0 - 0.1*floor(numSegs));
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else numSegs = floor(numSegs);
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// Compute the near/far ratio that will be used for each view segment
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// in this section of the scene.
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new_ratio = pow(currPair.first/currPair.second, 1.0/numSegs);
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// Add numSegs new view segments to the camera pairs list
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for(temp = (unsigned int)numSegs; temp > 0; temp--)
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{
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currPair.first = currPair.second*new_ratio;
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_cameraPairs.push_back(currPair);
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currPair.second = currPair.first;
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}
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}
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2005-10-10 18:10:44 +08:00
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}
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void CURRENT_CLASS::setNearFarRatio(double ratio)
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{
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if(ratio <= 0.0 || ratio >= 1.0) return;
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_nearFarRatio = ratio;
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}
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#undef CURRENT_CLASS
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