2005-07-16 09:58:01 +00:00
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/*
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2005-10-30 06:44:42 +00:00
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* Copyright (c) 2005 Erwin Coumans http://continuousphysics.com/Bullet/
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2005-07-16 09:58:01 +00:00
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*
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* Permission to use, copy, modify, distribute and sell this software
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* and its documentation for any purpose is hereby granted without fee,
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* provided that the above copyright notice appear in all copies.
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* Erwin Coumans makes no representations about the suitability
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* of this software for any purpose.
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* It is provided "as is" without express or implied warranty.
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*/
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#include "GjkPairDetector.h"
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#include "CollisionShapes/ConvexShape.h"
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#include "NarrowPhaseCollision/SimplexSolverInterface.h"
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#include "NarrowPhaseCollision/ConvexPenetrationDepthSolver.h"
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static const SimdScalar rel_error = SimdScalar(1.0e-3);
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SimdScalar rel_error2 = rel_error * rel_error;
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float maxdist2 = 1.e30f;
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GjkPairDetector::GjkPairDetector(ConvexShape* objectA,ConvexShape* objectB,SimplexSolverInterface* simplexSolver,ConvexPenetrationDepthSolver* penetrationDepthSolver)
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:m_cachedSeparatingAxis(0.f,0.f,1.f),
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m_penetrationDepthSolver(penetrationDepthSolver),
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m_simplexSolver(simplexSolver),
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m_minkowskiA(objectA),
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m_minkowskiB(objectB)
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{
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}
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void GjkPairDetector::GetClosestPoints(const ClosestPointInput& input,Result& output)
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{
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SimdScalar distance;
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SimdVector3 normalInB(0.f,0.f,0.f);
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SimdVector3 pointOnA,pointOnB;
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float marginA = m_minkowskiA->GetMargin();
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float marginB = m_minkowskiB->GetMargin();
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bool isValid = false;
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bool checkSimplex = false;
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bool checkPenetration = true;
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{
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SimdScalar squaredDistance = SIMD_INFINITY;
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SimdScalar delta = 0.f;
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SimdScalar margin = marginA + marginB;
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m_simplexSolver->reset();
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while (true)
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{
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SimdVector3 seperatingAxisInA = (-m_cachedSeparatingAxis)* input.m_transformA.getBasis();
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SimdVector3 seperatingAxisInB = m_cachedSeparatingAxis* input.m_transformB.getBasis();
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SimdVector3 pInA = m_minkowskiA->LocalGetSupportingVertexWithoutMargin(seperatingAxisInA);
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SimdVector3 qInB = m_minkowskiB->LocalGetSupportingVertexWithoutMargin(seperatingAxisInB);
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SimdPoint3 pWorld = input.m_transformA(pInA);
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SimdPoint3 qWorld = input.m_transformB(qInB);
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SimdVector3 w = pWorld - qWorld;
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delta = m_cachedSeparatingAxis.dot(w);
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// potential exit, they don't overlap
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if ((delta > SimdScalar(0.0)) && (delta * delta > squaredDistance * input.m_maximumDistanceSquared))
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{
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checkPenetration = false;
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break;
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}
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//exit 0: the new point is already in the simplex, or we didn't come any closer
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if (m_simplexSolver->inSimplex(w))
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{
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checkSimplex = true;
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break;
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}
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// are we getting any closer ?
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if (squaredDistance - delta <= squaredDistance * rel_error2)
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{
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checkSimplex = true;
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break;
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}
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//add current vertex to simplex
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m_simplexSolver->addVertex(w, pWorld, qWorld);
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//calculate the closest point to the origin (update vector v)
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if (!m_simplexSolver->closest(m_cachedSeparatingAxis))
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{
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checkSimplex = true;
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break;
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}
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SimdScalar previousSquaredDistance = squaredDistance;
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squaredDistance = m_cachedSeparatingAxis.length2();
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//redundant m_simplexSolver->compute_points(pointOnA, pointOnB);
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//are we getting any closer ?
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if (previousSquaredDistance - squaredDistance <= SIMD_EPSILON * previousSquaredDistance)
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{
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m_simplexSolver->backup_closest(m_cachedSeparatingAxis);
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checkSimplex = true;
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break;
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}
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bool check = (!m_simplexSolver->fullSimplex() && squaredDistance > SIMD_EPSILON * m_simplexSolver->maxVertex());
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if (!check)
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{
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//do we need this backup_closest here ?
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m_simplexSolver->backup_closest(m_cachedSeparatingAxis);
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break;
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}
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}
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if (checkSimplex)
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{
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m_simplexSolver->compute_points(pointOnA, pointOnB);
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normalInB = pointOnA-pointOnB;
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float lenSqr = m_cachedSeparatingAxis.length2();
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//valid normal
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if (lenSqr > SIMD_EPSILON)
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{
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2005-10-30 06:44:42 +00:00
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float rlen = 1.f / SimdSqrt(lenSqr );
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2005-07-16 09:58:01 +00:00
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normalInB *= rlen; //normalize
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2005-10-30 06:44:42 +00:00
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SimdScalar s = SimdSqrt(squaredDistance);
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2005-07-16 09:58:01 +00:00
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ASSERT(s > SimdScalar(0.0));
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pointOnA -= m_cachedSeparatingAxis * (marginA / s);
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pointOnB += m_cachedSeparatingAxis * (marginB / s);
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distance = ((1.f/rlen) - margin);
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isValid = true;
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}
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}
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if (checkPenetration && !isValid)
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{
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//penetration case
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m_minkowskiA->SetMargin(marginA);
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m_minkowskiB->SetMargin(marginB);
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//if there is no way to handle penetrations, bail out
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if (m_penetrationDepthSolver)
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{
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// Penetration depth case.
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isValid = m_penetrationDepthSolver->CalcPenDepth(
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*m_simplexSolver,
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m_minkowskiA,m_minkowskiB,
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input.m_transformA,input.m_transformB,
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m_cachedSeparatingAxis, pointOnA, pointOnB);
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if (isValid)
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{
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normalInB = pointOnB-pointOnA;
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float lenSqr = normalInB.length2();
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if (lenSqr > SIMD_EPSILON)
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{
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2005-10-30 06:44:42 +00:00
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normalInB /= SimdSqrt(lenSqr);
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2005-07-16 09:58:01 +00:00
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distance = -(pointOnA-pointOnB).length();
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} else
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{
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isValid = false;
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}
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}
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}
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}
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}
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if (isValid)
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{
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output.AddContactPoint(
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normalInB,
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pointOnB,
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distance);
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}
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}
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