Prefix for "sinking" objects
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@ -26,7 +26,7 @@ namespace
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ICustomBody::State protoState; proto->GetState( protoState );
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ICustomBody::State deuterState; deuter->GetState( deuterState );
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Float4 protoG = protoState.GetLinearMomentum( worldPointOfContact.xyz ),
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Float4 protoG = protoState.GetLinearMomentum(worldPointOfContact.xyz ),
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deuterG = deuterState.GetLinearMomentum( worldPointOfContact.xyz );
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// calc from perspective of deuter
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@ -198,24 +198,27 @@ void API_Impl::Update()
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proto = updateList.begin();
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for( ; proto != updateList.end(); ++proto )
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{
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Float3 lM = state.GetLinearMomentum() + state.GetLinearImpulse();
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(*proto)->GetState( state );
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Float3 lM = state.GetLinearMomentum();
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if( lM.x < this->epsilon )
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//LinearAlgebra3D::InterpolateAxisYToNormal_UsingNlerp(state.SetOrientation(, Float4(state.GetGravityNormal(), 0.0f), 1.0f);
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if( abs(lM.x) < this->epsilon )
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{
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state.SetLinearMomentum( Float3(0, lM.y, lM.z) );
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state.SetLinearImpulse( Float3(0, lM.y, lM.z) );
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state.linearMomentum.x = 0;
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}
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if( lM.y < this->epsilon )
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if( abs(lM.y) < this->epsilon )
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{
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state.SetLinearMomentum( Float3(lM.x, 0, lM.z) );
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state.SetLinearImpulse( Float3(lM.x, 0, lM.z) );
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state.linearMomentum.y = 0;
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}
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if( lM.z < this->epsilon )
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if( abs(lM.z) < this->epsilon )
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{
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state.SetLinearMomentum( Float3(lM.x, lM.y, 0) );
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state.SetLinearImpulse( Float3(lM.x, lM.y, 0) );
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state.linearMomentum.z = 0;
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}
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(*proto)->SetState( state );
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switch( (*proto)->Update(this->updateFrameLength) )
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{
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case UpdateState_altered:
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@ -34,7 +34,7 @@ namespace Oyster
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namespace Constant
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{
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const float gravity_constant = (const float)6.67284e-11; //!< The _big_G_! ( N(m/kg)^2 ) Used in real gravityforcefields.
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const float epsilon = (const float)1.0e-7;
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const float epsilon = (const float)1.0e-3;
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}
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class PHYSICS_DLL_USAGE API
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@ -115,11 +115,13 @@ namespace Oyster { namespace Physics
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bool IsDisturbed() const;
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bool IsForwarded() const;
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::Oyster::Math::Float3 linearMomentum;
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private:
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::Oyster::Math::Float mass, restitutionCoeff, staticFrictionCoeff, kineticFrictionCoeff;
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::Oyster::Physics3D::MomentOfInertia inertiaTensor;
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::Oyster::Math::Float3 reach, centerPos, angularAxis;
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::Oyster::Math::Float3 linearMomentum, angularMomentum;
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::Oyster::Math::Float3 angularMomentum;
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::Oyster::Math::Float3 linearImpulse, angularImpulse;
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::Oyster::Math::Float3 deltaPos, deltaAxis; // Forwarding data sum
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::Oyster::Math::Float3 gravityNormal;
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@ -784,7 +784,7 @@ namespace Oyster { namespace Collision3D { namespace Utility
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if( Intersect(box, sphere) )
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{
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Float distance;
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Ray ray( box.center, sphere.center - box.center );
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Ray ray( box.center, (sphere.center - box.center).Normalize() );
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Intersect( sphere, ray, distance );
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worldPointOfContact = ray.origin + ray.direction*distance;
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@ -50,7 +50,12 @@ void RigidBody::Update_LeapFrog( Float updateFrameLength )
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// updating the linear
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// ds = dt * Formula::LinearVelocity( m, avg_G ) = dt * avg_G / m = (dt / m) * avg_G
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this->centerPos += ( updateFrameLength / this->mass ) * AverageWithDelta( this->momentum_Linear, this->impulse_Linear );
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Float3 deltaPos = ( updateFrameLength / this->mass ) * AverageWithDelta( this->momentum_Linear, this->impulse_Linear );
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if( deltaPos.GetLength() < 0.001f )
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{
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deltaPos = Float3::null;
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}
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this->centerPos += deltaPos;
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// updating the angular
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// dO = dt * Formula::AngularVelocity( (RI)^-1, avg_H ) = dt * (RI)^-1 * avg_H
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