From 7275b52609b9fd406ceaa9f2f058d0037776d5e7 Mon Sep 17 00:00:00 2001 From: Dander7BD Date: Mon, 18 Nov 2013 14:01:23 +0100 Subject: [PATCH] Preliminary Rigidbody Absolutly not done, but it compiles --- OysterMath/LinearMath.h | 13 +++ OysterMath/OysterMath.cpp | 3 + OysterMath/OysterMath.h | 4 + OysterPhysics3D/RigidBody.cpp | 171 +++++++++++++++++++++------------- 4 files changed, 125 insertions(+), 66 deletions(-) diff --git a/OysterMath/LinearMath.h b/OysterMath/LinearMath.h index a0dba20e..4a036e99 100644 --- a/OysterMath/LinearMath.h +++ b/OysterMath/LinearMath.h @@ -336,6 +336,19 @@ namespace LinearAlgebra3D 0, 0, 0, 1 ); } + // O0 = T0 * R0 + // O1 = T1 * T0 * R1 * R0 + template + ::LinearAlgebra::Matrix4x4 & UpdateOrientationMatrix( const ::LinearAlgebra::Vector3 &deltaPosition, const ::LinearAlgebra::Matrix4x4 &deltaRotationMatrix, ::LinearAlgebra::Matrix4x4 &orientationMatrix ) + { + ::LinearAlgebra::Vector3 position = deltaPosition + orientationMatrix.v[3].xyz; + orientationMatrix.v[3].xyz = ::LinearAlgebra::Vector3::null; + + orientationMatrix = deltaRotationMatrix * orientationMatrix; + orientationMatrix.v[3].xyz = position; + return orientationMatrix; + } + /* Creates an orthographic projection matrix designed for DirectX enviroment. width; of the projection sample volume. height; of the projection sample volume. diff --git a/OysterMath/OysterMath.cpp b/OysterMath/OysterMath.cpp index 24266a37..84b46b7b 100644 --- a/OysterMath/OysterMath.cpp +++ b/OysterMath/OysterMath.cpp @@ -75,6 +75,9 @@ namespace Oyster { namespace Math3D Float4x4 & InverseOrientationMatrix( const Float4x4 &orientationMatrix, Float4x4 &targetMem ) { return ::LinearAlgebra3D::InverseOrientationMatrix( orientationMatrix, targetMem ); } + Float4x4 & UpdateOrientationMatrix( const Float3 &deltaPosition, const Float4x4 &deltaRotationMatrix, Float4x4 &orientationMatrix ) + { return ::LinearAlgebra3D::UpdateOrientationMatrix( deltaPosition, deltaRotationMatrix, orientationMatrix ); } + Float4x4 & ProjectionMatrix_Orthographic( const Float &width, const Float &height, const Float &nearClip, const Float &farClip, Float4x4 &targetMem ) { return ::LinearAlgebra3D::ProjectionMatrix_Orthographic( width, height, nearClip, farClip, targetMem ); } diff --git a/OysterMath/OysterMath.h b/OysterMath/OysterMath.h index c66f44cc..07ae50d3 100644 --- a/OysterMath/OysterMath.h +++ b/OysterMath/OysterMath.h @@ -183,6 +183,10 @@ namespace Oyster { namespace Math3D /// Oyster's native math library specialized /// If orientationMatrix is assumed to be by all definitions a rigid orientation matrix aka rigid body matrix. Then this is a much faster inverse method. Float4x4 & InverseOrientationMatrix( const Float4x4 &orientationMatrix, Float4x4 &targetMem = Float4x4() ); + // O0 = T0 * R0 + // O1 = T1 * T0 * R1 * R0 + Float4x4 & UpdateOrientationMatrix( const Float3 &deltaPosition, const Float4x4 &deltaRotationMatrix, Float4x4 &orientationMatrix ); + /******************************************************************* * Creates an orthographic projection matrix designed for DirectX enviroment. * @param width; of the projection sample volume. diff --git a/OysterPhysics3D/RigidBody.cpp b/OysterPhysics3D/RigidBody.cpp index 306a0bf6..fff6b994 100644 --- a/OysterPhysics3D/RigidBody.cpp +++ b/OysterPhysics3D/RigidBody.cpp @@ -60,8 +60,10 @@ void RigidBody::Update_LeapFrog( Float deltaTime ) deltaRadian = ::std::sqrt( deltaRadian ); rotationAxis /= deltaRadian; - // using rotationAxis, deltaRadian and deltaPos to create a matrix to transform the orientation matrix - this->box.orientation = OrientationMatrix( rotationAxis, deltaRadian, deltaPos ) * this->box.orientation; + // using rotationAxis, deltaRadian and deltaPos to create a matrix to update the orientation matrix + UpdateOrientationMatrix( deltaPos, RotationMatrix(deltaRadian, rotationAxis), this->box.orientation ); + + /** @todo TODO: ISSUE! how is momentOfInertiaTensor related to the orientation of the RigidBody? */ } else { // no rotation, only use deltaPos to translate the RigidBody @@ -85,7 +87,7 @@ void RigidBody::ApplyImpulseForceAt_Local( const Float3 &localForce, const Float if( localOffset != Float3::null ) { this->impulseForceSum += VectorProjection( localForce, localOffset ); - this->impulseTorqueSum += Formula::ImpulseTorque( localOffset, localForce ); + this->impulseTorqueSum += Formula::ImpulseTorque( localForce, localOffset ); } else { @@ -284,138 +286,175 @@ Float3 RigidBody::GetTangentialLinearVelocityAt_World( const Float3 &worldPos ) return this->GetTangentialLinearVelocityAt_Local( (this->GetView() * Float4(worldPos, 1.0f)).xyz ); // should not be any disform thus result.w = 1.0f } -Float3 RigidBody::GetImpulseForceAt_Local( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetImpulseForceAt_Local( const Float3 &localPos ) const +{ // by Dan Andersson + return this->impulseForceSum + Formula::TangentialImpulseForce( this->impulseForceSum, localPos ); } -Float3 RigidBody::GetImpulseForceAt_World( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetImpulseForceAt_World( const Float3 &worldPos ) const +{ // by Dan Andersson + Float4 localForce = Float4( this->GetImpulseForceAt_Local((this->GetView() * Float4(worldPos, 1.0f)).xyz), 0.0f ); // should not be any disform thus result.w = 1.0f + return (this->box.orientation * localForce).xyz; // should not be any disform thus result.w = 0.0f } -Float3 RigidBody::GetLinearMomentumAt_Local( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetLinearMomentumAt_Local( const Float3 &localPos ) const +{ // by Dan Andersson + // Reminder! Momentum is a world value. + return Float3::null; // TODO: } -Float3 RigidBody::GetLinearMomentumAt_World( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetLinearMomentumAt_World( const Float3 &worldPos ) const +{ // by Dan Andersson + // Reminder! Momentum is a world value. + Float4 localMomentum = Float4( this->GetLinearMomentumAt_Local((this->GetView() * Float4(worldPos, 1.0f)).xyz), 0.0f ); // should not be any disform thus result.w = 1.0f + return (this->box.orientation * localMomentum).xyz; // should not be any disform thus result.w = 0.0f + + // TODO: angularMomentum is a local value!! + return this->linearMomentum + Formula::TangentialLinearMomentum( this->angularMomentum, worldPos ); } -Float3 RigidBody::GetImpulseAccelerationAt_Local( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetImpulseAccelerationAt_Local( const Float3 &localPos ) const +{ // by Dan Andersson + // Reminder! Acceleration is a world value. + Float4 worldAccel = Float4( this->GetImpulseAccelerationAt_Local((this->box.orientation * Float4(localPos, 1.0f)).xyz), 0.0f ); // should not be any disform thus result.w = 1.0f + return (this->GetView() * worldAccel).xyz; // should not be any disform thus result.w = 0.0f } -Float3 RigidBody::GetImpulseAccelerationAt_World( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetImpulseAccelerationAt_World( const Float3 &worldPos ) const +{ // by Dan Andersson + // Reminder! Acceleration is a world value. + return Formula::LinearImpulseAcceleration( this->mass, this->impulseForceSum ) + + Formula::TangentialImpulseAcceleration( this->momentOfInertiaTensor.GetInverse(), this->impulseTorqueSum, worldPos ); } -Float3 RigidBody::GetLinearVelocityAt_Local( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetLinearVelocityAt_Local( const Float3 &localPos ) const +{ // by Dan Andersson + // Reminder! Velocity is a world value. + Float4 worldV = Float4( this->GetLinearVelocityAt_Local((this->box.orientation * Float4(localPos, 1.0f)).xyz), 0.0f ); // should not be any disform thus result.w = 1.0f + return (this->GetView() * worldV).xyz; // should not be any disform thus result.w = 0.0f } -Float3 RigidBody::GetLinearVelocityAt_World( const Float3 &pos ) const -{ // by - return Float3::null; +Float3 RigidBody::GetLinearVelocityAt_World( const Float3 &worldPos ) const +{ // by Dan Andersson + // Reminder! Velocity is a world value. + return Formula::LinearVelocity( this->mass, this->linearMomentum ) + + Formula::TangentialLinearVelocity( this->momentOfInertiaTensor.GetInverse(), this->angularMomentum, worldPos ); } void RigidBody::SetMomentOfInertia( const Float4x4 &i ) -{ // by - +{ // by Dan Andersson + if( i.GetDeterminant() != 0.0f ) // insanitycheck! momentOfInertiaTensor must be invertable + { + this->momentOfInertiaTensor = i; + } } void RigidBody::SetMass_KeepVelocity( const Float &m ) -{ // by - +{ // by Dan Andersson + if( m != 0.0f ) // insanitycheck! mass must be invertable + { + Float3 velocity = Formula::LinearVelocity( this->mass, this->linearMomentum ); + this->mass = m; + this->linearMomentum = Formula::LinearMomentum( this->mass, velocity ); + } } void RigidBody::SetMass_KeepMomentum( const Float &m ) -{ // by - +{ // by Dan Anderson + if( m != 0.0f ) // insanitycheck! mass must be invertable + { + this->mass = m; + } } void RigidBody::SetOrientation( const Float4x4 &o ) -{ // by - +{ // by Dan Andersson + this->box.orientation = o; } void RigidBody::SetSize( const Float3 &widthHeight ) -{ // by - +{ // by Dan Andersson + this->box.boundingOffset = 0.5f * widthHeight; } void RigidBody::SetCenter( const Float3 &p ) -{ // by - +{ // by Dan Andersson + this->box.center = p; } -void RigidBody::SetImpulsTorque( const Float3 &t ) -{ // by - +void RigidBody::SetImpulseTorque( const Float3 &t ) +{ // by Dan Andersson + this->impulseTorqueSum = t; } void RigidBody::SetAngularMomentum( const Float3 &h ) -{ // by - +{ // by Dan Andersson + this->angularMomentum = h; } void RigidBody::SetAngularImpulseAcceleration( const Float3 &a ) -{ // by - +{ // by Dan Andersson + this->impulseTorqueSum = Formula::ImpulseTorque( this->momentOfInertiaTensor, a ); } void RigidBody::SetAngularVelocity( const Float3 &w ) -{ // by - +{ // by Dan Andersson + this->angularMomentum = Formula::AngularMomentum( this->momentOfInertiaTensor, w ); } void RigidBody::SetImpulseForce( const Float3 &f ) -{ // by - +{ // by Dan Andersson + this->impulseForceSum = f; } void RigidBody::SetLinearMomentum( const Float3 &g ) -{ // by - +{ // by Dan Andersson + this->linearMomentum = g; } void RigidBody::SetLinearImpulseAcceleration( const Float3 &a ) -{ // by - +{ // by Dan Andersson + this->impulseForceSum = Formula::ImpulseForce( this->mass, a ); } void RigidBody::SetLinearVelocity( const Float3 &v ) -{ // by - +{ // by Dan Andersson + this->linearMomentum = Formula::LinearMomentum( this->mass, v ); } void RigidBody::SetImpulseForceAt_Local( const Float3 &localForce, const Float3 &localPos ) -{ // by +{ // by Dan Andersson + // Reminder! Impulse force and torque is world values. + Float3 worldForce = ( this->box.orientation * Float4(localForce, 0.0f) ).xyz, + worldPos = ( this->box.orientation * Float4(localPos, 1.0f) ).xyz; + this->SetImpulseForceAt_World( worldForce, worldPos ); } void RigidBody::SetImpulseForceAt_World( const Float3 &worldForce, const Float3 &worldPos ) -{ // by - +{ // by Dan Andersson + // Reminder! Impulse force and torque is world values. + this->impulseForceSum = VectorProjection( worldForce, worldPos ); + this->impulseTorqueSum = Formula::ImpulseTorque( worldForce, worldPos ); } -void RigidBody::SetLinearMomentumAt_Local( const Float3 &g, const Float3 &pos ) -{ // by - +void RigidBody::SetLinearMomentumAt_Local( const Float3 &localG, const Float3 &localPos ) +{ // by Dan Andersson + // Reminder! Linear and angular momentum is world values. + Float3 worldG = ( this->box.orientation * Float4(localG, 0.0f) ).xyz, + worldPos = ( this->box.orientation * Float4(localPos, 1.0f) ).xyz; + this->SetLinearMomentumAt_World( worldG, worldPos ); } -void RigidBody::SetLinearMomentumAt_World( const Float3 &g, const Float3 &pos ) -{ // by - +void RigidBody::SetLinearMomentumAt_World( const Float3 &worldG, const Float3 &worldPos ) +{ // by Dan Andersson + // Reminder! Linear and angular momentum is world values. + this->linearMomentum = VectorProjection( worldG, worldPos ); + this->angularMomentum = Formula::AngularMomentum( worldG, worldPos ); } void RigidBody::SetImpulseAccelerationAt_Local( const Float3 &a, const Float3 &pos ) -{ // by +{ // by Dan Andersson }