2017-08-01 14:30:58 +02:00
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/*
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Bullet Continuous Collision Detection and Physics Library
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2022-01-06 23:37:49 +01:00
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Copyright (c) 2003-2006 Erwin Coumans https://bulletphysics.org
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2017-08-01 14:30:58 +02:00
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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 "btContinuousConvexCollision.h"
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#include "BulletCollision/CollisionShapes/btConvexShape.h"
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#include "BulletCollision/NarrowPhaseCollision/btSimplexSolverInterface.h"
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#include "LinearMath/btTransformUtil.h"
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#include "BulletCollision/CollisionShapes/btSphereShape.h"
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#include "btGjkPairDetector.h"
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#include "btPointCollector.h"
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#include "BulletCollision/CollisionShapes/btStaticPlaneShape.h"
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2019-01-03 14:26:51 +01:00
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btContinuousConvexCollision::btContinuousConvexCollision(const btConvexShape* convexA, const btConvexShape* convexB, btSimplexSolverInterface* simplexSolver, btConvexPenetrationDepthSolver* penetrationDepthSolver)
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: m_simplexSolver(simplexSolver),
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m_penetrationDepthSolver(penetrationDepthSolver),
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m_convexA(convexA),
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m_convexB1(convexB),
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m_planeShape(0)
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{
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}
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2019-01-03 14:26:51 +01:00
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btContinuousConvexCollision::btContinuousConvexCollision(const btConvexShape* convexA, const btStaticPlaneShape* plane)
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: m_simplexSolver(0),
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m_penetrationDepthSolver(0),
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m_convexA(convexA),
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m_convexB1(0),
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m_planeShape(plane)
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{
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}
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/// This maximum should not be necessary. It allows for untested/degenerate cases in production code.
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/// You don't want your game ever to lock-up.
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#define MAX_ITERATIONS 64
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void btContinuousConvexCollision::computeClosestPoints(const btTransform& transA, const btTransform& transB, btPointCollector& pointCollector)
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{
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if (m_convexB1)
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{
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m_simplexSolver->reset();
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btGjkPairDetector gjk(m_convexA, m_convexB1, m_convexA->getShapeType(), m_convexB1->getShapeType(), m_convexA->getMargin(), m_convexB1->getMargin(), m_simplexSolver, m_penetrationDepthSolver);
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btGjkPairDetector::ClosestPointInput input;
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input.m_transformA = transA;
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input.m_transformB = transB;
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gjk.getClosestPoints(input, pointCollector, 0);
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}
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else
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{
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//convex versus plane
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const btConvexShape* convexShape = m_convexA;
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const btStaticPlaneShape* planeShape = m_planeShape;
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const btVector3& planeNormal = planeShape->getPlaneNormal();
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const btScalar& planeConstant = planeShape->getPlaneConstant();
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btTransform convexWorldTransform = transA;
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btTransform convexInPlaneTrans;
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convexInPlaneTrans = transB.inverse() * convexWorldTransform;
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btTransform planeInConvex;
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planeInConvex = convexWorldTransform.inverse() * transB;
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btVector3 vtx = convexShape->localGetSupportingVertex(planeInConvex.getBasis() * -planeNormal);
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btVector3 vtxInPlane = convexInPlaneTrans(vtx);
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btScalar distance = (planeNormal.dot(vtxInPlane) - planeConstant);
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btVector3 vtxInPlaneProjected = vtxInPlane - distance * planeNormal;
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btVector3 vtxInPlaneWorld = transB * vtxInPlaneProjected;
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btVector3 normalOnSurfaceB = transB.getBasis() * planeNormal;
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pointCollector.addContactPoint(
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normalOnSurfaceB,
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vtxInPlaneWorld,
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distance);
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}
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}
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bool btContinuousConvexCollision::calcTimeOfImpact(
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const btTransform& fromA,
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const btTransform& toA,
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const btTransform& fromB,
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const btTransform& toB,
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CastResult& result)
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{
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/// compute linear and angular velocity for this interval, to interpolate
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btVector3 linVelA, angVelA, linVelB, angVelB;
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btTransformUtil::calculateVelocity(fromA, toA, btScalar(1.), linVelA, angVelA);
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btTransformUtil::calculateVelocity(fromB, toB, btScalar(1.), linVelB, angVelB);
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btScalar boundingRadiusA = m_convexA->getAngularMotionDisc();
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btScalar boundingRadiusB = m_convexB1 ? m_convexB1->getAngularMotionDisc() : 0.f;
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btScalar maxAngularProjectedVelocity = angVelA.length() * boundingRadiusA + angVelB.length() * boundingRadiusB;
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btVector3 relLinVel = (linVelB - linVelA);
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btScalar relLinVelocLength = (linVelB - linVelA).length();
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if ((relLinVelocLength + maxAngularProjectedVelocity) == 0.f)
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return false;
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btScalar lambda = btScalar(0.);
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btVector3 n;
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n.setValue(btScalar(0.), btScalar(0.), btScalar(0.));
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bool hasResult = false;
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btVector3 c;
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btScalar lastLambda = lambda;
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//btScalar epsilon = btScalar(0.001);
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int numIter = 0;
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//first solution, using GJK
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btScalar radius = 0.001f;
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// result.drawCoordSystem(sphereTr);
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btPointCollector pointCollector1;
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{
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computeClosestPoints(fromA, fromB, pointCollector1);
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hasResult = pointCollector1.m_hasResult;
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c = pointCollector1.m_pointInWorld;
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}
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if (hasResult)
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{
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btScalar dist;
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dist = pointCollector1.m_distance + result.m_allowedPenetration;
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n = pointCollector1.m_normalOnBInWorld;
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btScalar projectedLinearVelocity = relLinVel.dot(n);
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if ((projectedLinearVelocity + maxAngularProjectedVelocity) <= SIMD_EPSILON)
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return false;
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//not close enough
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while (dist > radius)
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{
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if (result.m_debugDrawer)
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{
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result.m_debugDrawer->drawSphere(c, 0.2f, btVector3(1, 1, 1));
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}
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btScalar dLambda = btScalar(0.);
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projectedLinearVelocity = relLinVel.dot(n);
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//don't report time of impact for motion away from the contact normal (or causes minor penetration)
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if ((projectedLinearVelocity + maxAngularProjectedVelocity) <= SIMD_EPSILON)
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return false;
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dLambda = dist / (projectedLinearVelocity + maxAngularProjectedVelocity);
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2018-09-07 16:11:04 +02:00
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lambda += dLambda;
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2018-09-07 16:11:04 +02:00
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if (lambda > btScalar(1.) || lambda < btScalar(0.))
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return false;
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//todo: next check with relative epsilon
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if (lambda <= lastLambda)
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{
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return false;
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//n.setValue(0,0,0);
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//break;
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}
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lastLambda = lambda;
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//interpolate to next lambda
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btTransform interpolatedTransA, interpolatedTransB, relativeTrans;
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btTransformUtil::integrateTransform(fromA, linVelA, angVelA, lambda, interpolatedTransA);
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btTransformUtil::integrateTransform(fromB, linVelB, angVelB, lambda, interpolatedTransB);
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relativeTrans = interpolatedTransB.inverseTimes(interpolatedTransA);
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if (result.m_debugDrawer)
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{
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result.m_debugDrawer->drawSphere(interpolatedTransA.getOrigin(), 0.2f, btVector3(1, 0, 0));
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}
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result.DebugDraw(lambda);
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btPointCollector pointCollector;
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computeClosestPoints(interpolatedTransA, interpolatedTransB, pointCollector);
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if (pointCollector.m_hasResult)
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{
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dist = pointCollector.m_distance + result.m_allowedPenetration;
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c = pointCollector.m_pointInWorld;
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n = pointCollector.m_normalOnBInWorld;
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}
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else
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{
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result.reportFailure(-1, numIter);
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return false;
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}
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numIter++;
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if (numIter > MAX_ITERATIONS)
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{
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result.reportFailure(-2, numIter);
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return false;
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}
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}
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result.m_fraction = lambda;
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result.m_normal = n;
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result.m_hitPoint = c;
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return true;
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}
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return false;
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}
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