mirror of
https://github.com/bulletphysics/bullet3
synced 2024-12-14 13:50:04 +00:00
327 lines
13 KiB
C++
327 lines
13 KiB
C++
/*
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Bullet Continuous Collision Detection and Physics Library
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Copyright (c) 2019 Google Inc. http://bulletphysics.org
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This software is provided 'as-is', without any express or implied warranty.
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In no event will the authors be held liable for any damages arising from the use of this software.
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Permission is granted to anyone to use this software for any purpose,
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including commercial applications, and to alter it and redistribute it freely,
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subject to the following restrictions:
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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.
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2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
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3. This notice may not be removed or altered from any source distribution.
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*/
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#include "VolumetricDeformable.h"
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///btBulletDynamicsCommon.h is the main Bullet include file, contains most common include files.
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#include "btBulletDynamicsCommon.h"
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#include "BulletSoftBody/btDeformableMultiBodyDynamicsWorld.h"
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#include "BulletSoftBody/btSoftBody.h"
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#include "BulletSoftBody/btSoftBodyHelpers.h"
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#include "BulletSoftBody/btDeformableBodySolver.h"
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#include "BulletSoftBody/btSoftBodyRigidBodyCollisionConfiguration.h"
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#include "BulletDynamics/Featherstone/btMultiBodyConstraintSolver.h"
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#include "../CommonInterfaces/CommonParameterInterface.h"
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#include <stdio.h> //printf debugging
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#include "../CommonInterfaces/CommonDeformableBodyBase.h"
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#include "../Utils/b3ResourcePath.h"
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///The VolumetricDeformable shows the contact between volumetric deformable objects and rigid objects.
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static btScalar E = 50;
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static btScalar nu = 0.3;
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static btScalar damping_alpha = 0.1;
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static btScalar damping_beta = 0.01;
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struct TetraCube
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{
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#include "../SoftDemo/cube.inl"
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};
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class VolumetricDeformable : public CommonDeformableBodyBase
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{
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btDeformableLinearElasticityForce* m_linearElasticity;
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public:
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VolumetricDeformable(struct GUIHelperInterface* helper)
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: CommonDeformableBodyBase(helper)
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{
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m_linearElasticity = 0;
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m_pickingForceElasticStiffness = 100;
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m_pickingForceDampingStiffness = 0;
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m_maxPickingForce = 1e10; // allow large picking force with implicit scheme.
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}
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virtual ~VolumetricDeformable()
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{
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}
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void initPhysics();
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void exitPhysics();
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void resetCamera()
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{
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float dist = 20;
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float pitch = -45;
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float yaw = 100;
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float targetPos[3] = {0, 3, 0};
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m_guiHelper->resetCamera(dist, yaw, pitch, targetPos[0], targetPos[1], targetPos[2]);
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}
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void stepSimulation(float deltaTime)
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{
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m_linearElasticity->setPoissonRatio(nu);
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m_linearElasticity->setYoungsModulus(E);
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m_linearElasticity->setDamping(damping_alpha, damping_beta);
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//use a smaller internal timestep, there are stability issues
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float internalTimeStep = 1. / 240;
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m_dynamicsWorld->stepSimulation(deltaTime, 4, internalTimeStep);
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}
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void createStaticBox(const btVector3& halfEdge, const btVector3& translation)
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{
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btCollisionShape* box = new btBoxShape(halfEdge);
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m_collisionShapes.push_back(box);
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btTransform Transform;
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Transform.setIdentity();
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Transform.setOrigin(translation);
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Transform.setRotation(btQuaternion(btVector3(1, 0, 0), SIMD_PI * 0.0));
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//We can also use DemoApplication::localCreateRigidBody, but for clarity it is provided here:
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btScalar mass(0.);
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//rigidbody is dynamic if and only if mass is non zero, otherwise static
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bool isDynamic = (mass != 0.f);
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btVector3 localInertia(0, 0, 0);
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if (isDynamic)
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box->calculateLocalInertia(mass, localInertia);
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//using motionstate is recommended, it provides interpolation capabilities, and only synchronizes 'active' objects
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btDefaultMotionState* myMotionState = new btDefaultMotionState(Transform);
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btRigidBody::btRigidBodyConstructionInfo rbInfo(mass, myMotionState, box, localInertia);
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btRigidBody* body = new btRigidBody(rbInfo);
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body->setFriction(0.5);
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//add the ground to the dynamics world
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m_dynamicsWorld->addRigidBody(body);
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}
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void Ctor_RbUpStack(int count)
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{
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float mass = 2;
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btCompoundShape* cylinderCompound = new btCompoundShape;
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btCollisionShape* cylinderShape = new btCylinderShapeX(btVector3(2, .5, .5));
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btCollisionShape* boxShape = new btBoxShape(btVector3(2, .5, .5));
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btTransform localTransform;
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localTransform.setIdentity();
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cylinderCompound->addChildShape(localTransform, boxShape);
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btQuaternion orn(SIMD_HALF_PI, 0, 0);
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localTransform.setRotation(orn);
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// localTransform.setOrigin(btVector3(1,1,1));
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cylinderCompound->addChildShape(localTransform, cylinderShape);
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btCollisionShape* shape[] = {
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new btBoxShape(btVector3(1, 1, 1)),
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};
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static const int nshapes = sizeof(shape) / sizeof(shape[0]);
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for (int i = 0; i < count; ++i)
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{
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btTransform startTransform;
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startTransform.setIdentity();
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startTransform.setOrigin(btVector3(i, 10 + 2 * i, i-1));
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createRigidBody(mass, startTransform, shape[i % nshapes]);
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}
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}
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virtual void renderScene()
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{
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CommonDeformableBodyBase::renderScene();
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btDeformableMultiBodyDynamicsWorld* deformableWorld = getDeformableDynamicsWorld();
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for (int i = 0; i < deformableWorld->getSoftBodyArray().size(); i++)
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{
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btSoftBody* psb = (btSoftBody*)deformableWorld->getSoftBodyArray()[i];
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{
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btSoftBodyHelpers::DrawFrame(psb, deformableWorld->getDebugDrawer());
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btSoftBodyHelpers::Draw(psb, deformableWorld->getDebugDrawer(), deformableWorld->getDrawFlags());
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}
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}
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}
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};
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void VolumetricDeformable::initPhysics()
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{
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m_guiHelper->setUpAxis(1);
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///collision configuration contains default setup for memory, collision setup
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m_collisionConfiguration = new btSoftBodyRigidBodyCollisionConfiguration();
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///use the default collision dispatcher. For parallel processing you can use a diffent dispatcher (see Extras/BulletMultiThreaded)
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m_dispatcher = new btCollisionDispatcher(m_collisionConfiguration);
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m_broadphase = new btDbvtBroadphase();
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btDeformableBodySolver* deformableBodySolver = new btDeformableBodySolver();
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btDeformableMultiBodyConstraintSolver* sol = new btDeformableMultiBodyConstraintSolver();
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sol->setDeformableSolver(deformableBodySolver);
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m_solver = sol;
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m_dynamicsWorld = new btDeformableMultiBodyDynamicsWorld(m_dispatcher, m_broadphase, sol, m_collisionConfiguration, deformableBodySolver);
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btVector3 gravity = btVector3(0, -100, 0);
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m_dynamicsWorld->setGravity(gravity);
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getDeformableDynamicsWorld()->getWorldInfo().m_gravity = gravity;
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getDeformableDynamicsWorld()->getWorldInfo().m_sparsesdf.setDefaultVoxelsz(0.25);
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getDeformableDynamicsWorld()->getWorldInfo().m_sparsesdf.Reset();
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m_guiHelper->createPhysicsDebugDrawer(m_dynamicsWorld);
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{
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///create a ground
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btCollisionShape* groundShape = new btBoxShape(btVector3(btScalar(150.), btScalar(50.), btScalar(150.)));
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m_collisionShapes.push_back(groundShape);
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btTransform groundTransform;
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groundTransform.setIdentity();
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groundTransform.setOrigin(btVector3(0, -50, 0));
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groundTransform.setRotation(btQuaternion(btVector3(1, 0, 0), SIMD_PI * 0.0));
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//We can also use DemoApplication::localCreateRigidBody, but for clarity it is provided here:
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btScalar mass(0.);
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//rigidbody is dynamic if and only if mass is non zero, otherwise static
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bool isDynamic = (mass != 0.f);
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btVector3 localInertia(0, 0, 0);
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if (isDynamic)
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groundShape->calculateLocalInertia(mass, localInertia);
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//using motionstate is recommended, it provides interpolation capabilities, and only synchronizes 'active' objects
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btDefaultMotionState* myMotionState = new btDefaultMotionState(groundTransform);
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btRigidBody::btRigidBodyConstructionInfo rbInfo(mass, myMotionState, groundShape, localInertia);
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btRigidBody* body = new btRigidBody(rbInfo);
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body->setFriction(1);
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//add the ground to the dynamics world
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m_dynamicsWorld->addRigidBody(body);
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}
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createStaticBox(btVector3(1, 5, 5), btVector3(-5,0,0));
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createStaticBox(btVector3(1, 5, 5), btVector3(5,0,0));
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createStaticBox(btVector3(5, 5, 1), btVector3(0,0,5));
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createStaticBox(btVector3(5, 5, 1), btVector3(0,0,-5));
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// create volumetric soft body
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{
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btSoftBody* psb = btSoftBodyHelpers::CreateFromTetGenData(getDeformableDynamicsWorld()->getWorldInfo(),
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TetraCube::getElements(),
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0,
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TetraCube::getNodes(),
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false, true, true);
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getDeformableDynamicsWorld()->addSoftBody(psb);
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psb->scale(btVector3(2, 2, 2));
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psb->translate(btVector3(0, 5, 0));
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psb->getCollisionShape()->setMargin(0.1);
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psb->setTotalMass(0.5);
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psb->m_cfg.kKHR = 1; // collision hardness with kinematic objects
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psb->m_cfg.kCHR = 1; // collision hardness with rigid body
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psb->m_cfg.kDF = 2;
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psb->m_cfg.collisions = btSoftBody::fCollision::SDF_RD;
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psb->m_cfg.collisions |= btSoftBody::fCollision::SDF_RDN;
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psb->m_sleepingThreshold = 0;
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btSoftBodyHelpers::generateBoundaryFaces(psb);
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btDeformableGravityForce* gravity_force = new btDeformableGravityForce(gravity);
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getDeformableDynamicsWorld()->addForce(psb, gravity_force);
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m_forces.push_back(gravity_force);
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btDeformableLinearElasticityForce* linearElasticity = new btDeformableLinearElasticityForce(100,100,0.01);
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m_linearElasticity = linearElasticity;
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getDeformableDynamicsWorld()->addForce(psb, linearElasticity);
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m_forces.push_back(linearElasticity);
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}
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getDeformableDynamicsWorld()->setImplicit(true);
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getDeformableDynamicsWorld()->setLineSearch(false);
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getDeformableDynamicsWorld()->setUseProjection(true);
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getDeformableDynamicsWorld()->getSolverInfo().m_deformable_erp = 0.3;
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getDeformableDynamicsWorld()->getSolverInfo().m_deformable_maxErrorReduction = btScalar(200);
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getDeformableDynamicsWorld()->getSolverInfo().m_leastSquaresResidualThreshold = 1e-3;
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getDeformableDynamicsWorld()->getSolverInfo().m_splitImpulse = true;
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getDeformableDynamicsWorld()->getSolverInfo().m_numIterations = 100;
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// add a few rigid bodies
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Ctor_RbUpStack(4);
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m_guiHelper->autogenerateGraphicsObjects(m_dynamicsWorld);
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{
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SliderParams slider("Young's Modulus", &E);
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slider.m_minVal = 0;
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slider.m_maxVal = 2000;
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if (m_guiHelper->getParameterInterface())
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m_guiHelper->getParameterInterface()->registerSliderFloatParameter(slider);
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}
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{
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SliderParams slider("Poisson Ratio", &nu);
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slider.m_minVal = 0.05;
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slider.m_maxVal = 0.49;
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if (m_guiHelper->getParameterInterface())
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m_guiHelper->getParameterInterface()->registerSliderFloatParameter(slider);
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}
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{
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SliderParams slider("Mass Damping", &damping_alpha);
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slider.m_minVal = 0;
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slider.m_maxVal = 1;
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if (m_guiHelper->getParameterInterface())
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m_guiHelper->getParameterInterface()->registerSliderFloatParameter(slider);
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}
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{
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SliderParams slider("Stiffness Damping", &damping_beta);
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slider.m_minVal = 0;
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slider.m_maxVal = 0.1;
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if (m_guiHelper->getParameterInterface())
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m_guiHelper->getParameterInterface()->registerSliderFloatParameter(slider);
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}
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}
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void VolumetricDeformable::exitPhysics()
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{
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//cleanup in the reverse order of creation/initialization
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removePickingConstraint();
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//remove the rigidbodies from the dynamics world and delete them
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int i;
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for (i = m_dynamicsWorld->getNumCollisionObjects() - 1; i >= 0; i--)
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{
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btCollisionObject* obj = m_dynamicsWorld->getCollisionObjectArray()[i];
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btRigidBody* body = btRigidBody::upcast(obj);
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if (body && body->getMotionState())
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{
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delete body->getMotionState();
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}
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m_dynamicsWorld->removeCollisionObject(obj);
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delete obj;
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}
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// delete forces
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for (int j = 0; j < m_forces.size(); j++)
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{
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btDeformableLagrangianForce* force = m_forces[j];
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delete force;
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}
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m_forces.clear();
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//delete collision shapes
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for (int j = 0; j < m_collisionShapes.size(); j++)
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{
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btCollisionShape* shape = m_collisionShapes[j];
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delete shape;
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}
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m_collisionShapes.clear();
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delete m_dynamicsWorld;
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delete m_solver;
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delete m_broadphase;
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delete m_dispatcher;
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delete m_collisionConfiguration;
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}
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class CommonExampleInterface* VolumetricDeformableCreateFunc(struct CommonExampleOptions& options)
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{
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return new VolumetricDeformable(options.m_guiHelper);
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}
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