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virtualx-engine/thirdparty/bullet/BulletCollision/NarrowPhaseCollision/btComputeGjkEpaPenetration.h
Rémi Verschelde 29e07dfa4e bullet: Sync with upstream 2.89 
This allows distro unbundling again for distros that ship Bullet 2.89+.
2020-01-08 18:05:43 +01:00

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/*
Bullet Continuous Collision Detection and Physics Library
Copyright (c) 2003-2014 Erwin Coumans http://bulletphysics.org
This software is provided 'as-is', without any express or implied warranty.
In no event will the authors be held liable for any damages arising from the use of this software.
Permission is granted to anyone to use this software for any purpose,
including commercial applications, and to alter it and redistribute it freely,
subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required.
2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
3. This notice may not be removed or altered from any source distribution.
*/
#ifndef BT_GJK_EPA_PENETATION_CONVEX_COLLISION_H
#define BT_GJK_EPA_PENETATION_CONVEX_COLLISION_H
#include "LinearMath/btTransform.h" // Note that btVector3 might be double precision...
#include "btGjkEpa3.h"
#include "btGjkCollisionDescription.h"
#include "BulletCollision/NarrowPhaseCollision/btVoronoiSimplexSolver.h"
template <typename btConvexTemplate>
bool btGjkEpaCalcPenDepth(const btConvexTemplate& a, const btConvexTemplate& b,
const btGjkCollisionDescription& colDesc,
btVector3& v, btVector3& wWitnessOnA, btVector3& wWitnessOnB)
{
(void)v;
// const btScalar radialmargin(btScalar(0.));
btVector3 guessVector(b.getWorldTransform().getOrigin() - a.getWorldTransform().getOrigin()); //?? why not use the GJK input?
btGjkEpaSolver3::sResults results;
if (btGjkEpaSolver3_Penetration(a, b, guessVector, results))
{
// debugDraw->drawLine(results.witnesses[1],results.witnesses[1]+results.normal,btVector3(255,0,0));
//resultOut->addContactPoint(results.normal,results.witnesses[1],-results.depth);
wWitnessOnA = results.witnesses[0];
wWitnessOnB = results.witnesses[1];
v = results.normal;
return true;
}
else
{
if (btGjkEpaSolver3_Distance(a, b, guessVector, results))
{
wWitnessOnA = results.witnesses[0];
wWitnessOnB = results.witnesses[1];
v = results.normal;
return false;
}
}
return false;
}
template <typename btConvexTemplate, typename btGjkDistanceTemplate>
int btComputeGjkEpaPenetration(const btConvexTemplate& a, const btConvexTemplate& b, const btGjkCollisionDescription& colDesc, btVoronoiSimplexSolver& simplexSolver, btGjkDistanceTemplate* distInfo)
{
bool m_catchDegeneracies = true;
btScalar m_cachedSeparatingDistance = 0.f;
btScalar distance = btScalar(0.);
btVector3 normalInB(btScalar(0.), btScalar(0.), btScalar(0.));
btVector3 pointOnA, pointOnB;
btTransform localTransA = a.getWorldTransform();
btTransform localTransB = b.getWorldTransform();
btScalar marginA = a.getMargin();
btScalar marginB = b.getMargin();
int m_curIter = 0;
int gGjkMaxIter = colDesc.m_maxGjkIterations; //this is to catch invalid input, perhaps check for #NaN?
btVector3 m_cachedSeparatingAxis = colDesc.m_firstDir;
bool isValid = false;
bool checkSimplex = false;
bool checkPenetration = true;
int m_degenerateSimplex = 0;
int m_lastUsedMethod = -1;
{
btScalar squaredDistance = BT_LARGE_FLOAT;
btScalar delta = btScalar(0.);
btScalar margin = marginA + marginB;
simplexSolver.reset();
for (;;)
//while (true)
{
btVector3 separatingAxisInA = (-m_cachedSeparatingAxis) * localTransA.getBasis();
btVector3 separatingAxisInB = m_cachedSeparatingAxis * localTransB.getBasis();
btVector3 pInA = a.getLocalSupportWithoutMargin(separatingAxisInA);
btVector3 qInB = b.getLocalSupportWithoutMargin(separatingAxisInB);
btVector3 pWorld = localTransA(pInA);
btVector3 qWorld = localTransB(qInB);
btVector3 w = pWorld - qWorld;
delta = m_cachedSeparatingAxis.dot(w);
// potential exit, they don't overlap
if ((delta > btScalar(0.0)) && (delta * delta > squaredDistance * colDesc.m_maximumDistanceSquared))
{
m_degenerateSimplex = 10;
checkSimplex = true;
//checkPenetration = false;
break;
}
//exit 0: the new point is already in the simplex, or we didn't come any closer
if (simplexSolver.inSimplex(w))
{
m_degenerateSimplex = 1;
checkSimplex = true;
break;
}
// are we getting any closer ?
btScalar f0 = squaredDistance - delta;
btScalar f1 = squaredDistance * colDesc.m_gjkRelError2;
if (f0 <= f1)
{
if (f0 <= btScalar(0.))
{
m_degenerateSimplex = 2;
}
else
{
m_degenerateSimplex = 11;
}
checkSimplex = true;
break;
}
//add current vertex to simplex
simplexSolver.addVertex(w, pWorld, qWorld);
btVector3 newCachedSeparatingAxis;
//calculate the closest point to the origin (update vector v)
if (!simplexSolver.closest(newCachedSeparatingAxis))
{
m_degenerateSimplex = 3;
checkSimplex = true;
break;
}
if (newCachedSeparatingAxis.length2() < colDesc.m_gjkRelError2)
{
m_cachedSeparatingAxis = newCachedSeparatingAxis;
m_degenerateSimplex = 6;
checkSimplex = true;
break;
}
btScalar previousSquaredDistance = squaredDistance;
squaredDistance = newCachedSeparatingAxis.length2();
#if 0
///warning: this termination condition leads to some problems in 2d test case see Bullet/Demos/Box2dDemo
if (squaredDistance>previousSquaredDistance)
{
m_degenerateSimplex = 7;
squaredDistance = previousSquaredDistance;
checkSimplex = false;
break;
}
#endif //
//redundant m_simplexSolver->compute_points(pointOnA, pointOnB);
//are we getting any closer ?
if (previousSquaredDistance - squaredDistance <= SIMD_EPSILON * previousSquaredDistance)
{
// m_simplexSolver->backup_closest(m_cachedSeparatingAxis);
checkSimplex = true;
m_degenerateSimplex = 12;
break;
}
m_cachedSeparatingAxis = newCachedSeparatingAxis;
//degeneracy, this is typically due to invalid/uninitialized worldtransforms for a btCollisionObject
if (m_curIter++ > gGjkMaxIter)
{
#if defined(DEBUG) || defined(_DEBUG)
printf("btGjkPairDetector maxIter exceeded:%i\n", m_curIter);
printf("sepAxis=(%f,%f,%f), squaredDistance = %f\n",
m_cachedSeparatingAxis.getX(),
m_cachedSeparatingAxis.getY(),
m_cachedSeparatingAxis.getZ(),
squaredDistance);
#endif
break;
}
bool check = (!simplexSolver.fullSimplex());
//bool check = (!m_simplexSolver->fullSimplex() && squaredDistance > SIMD_EPSILON * m_simplexSolver->maxVertex());
if (!check)
{
//do we need this backup_closest here ?
// m_simplexSolver->backup_closest(m_cachedSeparatingAxis);
m_degenerateSimplex = 13;
break;
}
}
if (checkSimplex)
{
simplexSolver.compute_points(pointOnA, pointOnB);
normalInB = m_cachedSeparatingAxis;
btScalar lenSqr = m_cachedSeparatingAxis.length2();
//valid normal
if (lenSqr < 0.0001)
{
m_degenerateSimplex = 5;
}
if (lenSqr > SIMD_EPSILON * SIMD_EPSILON)
{
btScalar rlen = btScalar(1.) / btSqrt(lenSqr);
normalInB *= rlen; //normalize
btScalar s = btSqrt(squaredDistance);
btAssert(s > btScalar(0.0));
pointOnA -= m_cachedSeparatingAxis * (marginA / s);
pointOnB += m_cachedSeparatingAxis * (marginB / s);
distance = ((btScalar(1.) / rlen) - margin);
isValid = true;
m_lastUsedMethod = 1;
}
else
{
m_lastUsedMethod = 2;
}
}
bool catchDegeneratePenetrationCase =
(m_catchDegeneracies && m_degenerateSimplex && ((distance + margin) < 0.01));
//if (checkPenetration && !isValid)
if (checkPenetration && (!isValid || catchDegeneratePenetrationCase))
{
//penetration case
//if there is no way to handle penetrations, bail out
// Penetration depth case.
btVector3 tmpPointOnA, tmpPointOnB;
m_cachedSeparatingAxis.setZero();
bool isValid2 = btGjkEpaCalcPenDepth(a, b,
colDesc,
m_cachedSeparatingAxis, tmpPointOnA, tmpPointOnB);
if (isValid2)
{
btVector3 tmpNormalInB = tmpPointOnB - tmpPointOnA;
btScalar lenSqr = tmpNormalInB.length2();
if (lenSqr <= (SIMD_EPSILON * SIMD_EPSILON))
{
tmpNormalInB = m_cachedSeparatingAxis;
lenSqr = m_cachedSeparatingAxis.length2();
}
if (lenSqr > (SIMD_EPSILON * SIMD_EPSILON))
{
tmpNormalInB /= btSqrt(lenSqr);
btScalar distance2 = -(tmpPointOnA - tmpPointOnB).length();
//only replace valid penetrations when the result is deeper (check)
if (!isValid || (distance2 < distance))
{
distance = distance2;
pointOnA = tmpPointOnA;
pointOnB = tmpPointOnB;
normalInB = tmpNormalInB;
isValid = true;
m_lastUsedMethod = 3;
}
else
{
m_lastUsedMethod = 8;
}
}
else
{
m_lastUsedMethod = 9;
}
}
else
{
///this is another degenerate case, where the initial GJK calculation reports a degenerate case
///EPA reports no penetration, and the second GJK (using the supporting vector without margin)
///reports a valid positive distance. Use the results of the second GJK instead of failing.
///thanks to Jacob.Langford for the reproduction case
///http://code.google.com/p/bullet/issues/detail?id=250
if (m_cachedSeparatingAxis.length2() > btScalar(0.))
{
btScalar distance2 = (tmpPointOnA - tmpPointOnB).length() - margin;
//only replace valid distances when the distance is less
if (!isValid || (distance2 < distance))
{
distance = distance2;
pointOnA = tmpPointOnA;
pointOnB = tmpPointOnB;
pointOnA -= m_cachedSeparatingAxis * marginA;
pointOnB += m_cachedSeparatingAxis * marginB;
normalInB = m_cachedSeparatingAxis;
normalInB.normalize();
isValid = true;
m_lastUsedMethod = 6;
}
else
{
m_lastUsedMethod = 5;
}
}
}
}
}
if (isValid && ((distance < 0) || (distance * distance < colDesc.m_maximumDistanceSquared)))
{
m_cachedSeparatingAxis = normalInB;
m_cachedSeparatingDistance = distance;
distInfo->m_distance = distance;
distInfo->m_normalBtoA = normalInB;
distInfo->m_pointOnB = pointOnB;
distInfo->m_pointOnA = pointOnB + normalInB * distance;
return 0;
}
return -m_lastUsedMethod;
}
#endif //BT_GJK_EPA_PENETATION_CONVEX_COLLISION_H
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