add option to approximate face contact with collision quadrature points
This commit is contained in:
Xuchen Han
@@ -8129,6 +8129,8 @@ bool PhysicsServerCommandProcessor::processLoadSoftBodyCommand(const struct Shar
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{
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psb->m_renderNodes.resize(0);
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}
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// This value should really be a exposed parameter
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psb->setCollisionQuadrature(5);
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btVector3 gravity = m_data->m_dynamicsWorld->getGravity();
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btDeformableLagrangianForce* gravityForce = new btDeformableGravityForce(gravity);
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m_data->m_dynamicsWorld->addForce(psb, gravityForce);
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@@ -2454,13 +2454,18 @@ bool btSoftBody::checkDeformableFaceContact(const btCollisionObjectWrapper* colO
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const btCollisionObject* tmpCollisionObj = colObjWrap->getCollisionObject();
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// use the position x_{n+1}^* = x_n + dt * v_{n+1}^* where v_{n+1}^* = v_n + dtg for collision detect
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// but resolve contact at x_n
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// btTransform wtr = (predict) ?
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// (colObjWrap->m_preTransform != NULL ? tmpCollisionObj->getInterpolationWorldTransform()*(*colObjWrap->m_preTransform) : tmpCollisionObj->getInterpolationWorldTransform())
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// : colObjWrap->getWorldTransform();
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const btTransform& wtr = colObjWrap->getWorldTransform();
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btTransform wtr = (predict) ?
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(colObjWrap->m_preTransform != NULL ? tmpCollisionObj->getInterpolationWorldTransform()*(*colObjWrap->m_preTransform) : tmpCollisionObj->getInterpolationWorldTransform())
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: colObjWrap->getWorldTransform();
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// const btTransform& wtr = colObjWrap->getWorldTransform();
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btScalar dst;
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// if (f.m_pcontact[3] != 0)
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if (0)
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#define USE_QUADRATURE 1
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//#define CACHE_PREV_COLLISION
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// use the contact position of the previous collision
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#ifdef CACHE_PREV_COLLISION
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if (f.m_pcontact[3] != 0)
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{
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for (int i = 0; i < 3; ++i)
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bary[i] = f.m_pcontact[i];
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@@ -2490,12 +2495,58 @@ bool btSoftBody::checkDeformableFaceContact(const btCollisionObjectWrapper* colO
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for (int i = 0; i < 3; ++i)
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f.m_pcontact[i] = bary[i];
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}
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#endif
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// use collision quadrature point
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#ifdef USE_QUADRATURE
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{
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dst = SIMD_INFINITY;
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btVector3 local_nrm;
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for (int q = 0; q < m_quads.size(); ++q)
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{
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btVector3 p = BaryEval(f.m_n[0]->m_x, f.m_n[1]->m_x, f.m_n[2]->m_x, m_quads[q]);
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btScalar local_dst = m_worldInfo->m_sparsesdf.Evaluate(
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wtr.invXform(p),
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shp,
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local_nrm,
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margin);
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if (local_dst < dst)
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{
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dst = local_dst;
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contact_point = p;
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bary = m_quads[q];
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nrm = wtr.getBasis() * local_nrm;
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}
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}
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}
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#endif
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// regular face contact
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{
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btGjkEpaSolver2::sResults results;
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btTransform triangle_transform;
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triangle_transform.setIdentity();
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triangle_transform.setOrigin(f.m_n[0]->m_x);
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btTriangleShape triangle(btVector3(0,0,0), f.m_n[1]->m_x-f.m_n[0]->m_x, f.m_n[2]->m_x-f.m_n[0]->m_x);
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btVector3 guess(0,0,0);
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const btConvexShape* csh = static_cast<const btConvexShape*>(shp);
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btGjkEpaSolver2::SignedDistance(&triangle, triangle_transform, csh, wtr, guess, results);
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dst = results.distance - margin;
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contact_point = results.witnesses[0];
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getBarycentric(contact_point, f.m_n[0]->m_x, f.m_n[1]->m_x, f.m_n[2]->m_x, bary);
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nrm = results.normal;
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for (int i = 0; i < 3; ++i)
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f.m_pcontact[i] = bary[i];
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}
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if (!predict)
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{
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cti.m_colObj = colObjWrap->getCollisionObject();
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cti.m_normal = nrm;
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cti.m_offset = dst;
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}
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if (dst < 0)
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return true;
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return (false);
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@@ -3331,6 +3382,17 @@ void btSoftBody::interpolateRenderMesh()
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}
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}
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void btSoftBody::setCollisionQuadrature(int N)
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{
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for (int i = 0; i <= N; ++i)
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{
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for (int j = 0; i+j <= N; ++j)
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{
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m_quads.push_back(btVector3(btScalar(i)/btScalar(N), btScalar(j)/btScalar(N), btScalar(N-i-j)/btScalar(N)));
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}
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}
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}
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//
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void btSoftBody::PSolve_Anchors(btSoftBody* psb, btScalar kst, btScalar ti)
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{
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@@ -802,6 +802,7 @@ public:
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btScalar m_sleepingThreshold;
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btScalar m_maxSpeedSquared;
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bool m_useFaceContact;
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btAlignedObjectArray<btVector3> m_quads; // quadrature points for collision detection
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btAlignedObjectArray<btVector4> m_renderNodesInterpolationWeights;
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btAlignedObjectArray<btAlignedObjectArray<const btSoftBody::Node*> > m_renderNodesParents;
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@@ -1143,6 +1144,7 @@ public:
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void applyForces();
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void setMaxStress(btScalar maxStress);
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void interpolateRenderMesh();
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void setCollisionQuadrature(int N);
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static void PSolve_Anchors(btSoftBody* psb, btScalar kst, btScalar ti);
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static void PSolve_RContacts(btSoftBody* psb, btScalar kst, btScalar ti);
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static void PSolve_SContacts(btSoftBody* psb, btScalar, btScalar ti);
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