mirror of https://github.com/PrimeDecomp/prime.git
More CPhysicsActor
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@ -9,6 +9,7 @@ public:
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CNUQuaternion(f32 w, f32 x, f32 y, f32 z) : w(w), x(x), y(y), z(z) {}
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static CNUQuaternion BuildFromMatrix3f(const CMatrix3f& matrix);
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static CNUQuaternion BuildFromQuaternion(const CQuaternion& quat);
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private:
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f32 w;
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f32 x;
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@ -149,6 +149,14 @@ inline CVector3f operator*(const CVector3f& vec, f32 f) {
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f32 z = vec.GetZ() * f;
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return CVector3f(x, y, z);
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}
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inline CVector3f operator*(f32 f, const CVector3f& vec) {
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f32 x = f * vec.GetX();
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f32 y = f * vec.GetY();
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f32 z = f * vec.GetZ();
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return CVector3f(x, y, z);
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}
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inline CVector3f operator/(const CVector3f& vec, f32 f) {
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f32 x = vec.GetX() / f;
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f32 y = vec.GetY() / f;
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@ -13,6 +13,7 @@ public:
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static const CAxisAngle& Identity();
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const CVector3f& GetVector() const;
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const CAxisAngle& operator+=(const CAxisAngle& rhs);
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private:
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CVector3f mVector;
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};
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@ -72,6 +72,7 @@ public:
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virtual f32 GetStepDownHeight() const;
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virtual f32 GetStepUpHeight() const;
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virtual f32 GetWeight() const;
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float GetMass() const { return xe8_mass; }
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void SetMass(float mass);
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CAABox GetBoundingBox() const;
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@ -90,7 +91,10 @@ public:
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CAxisAngle GetAngularVelocityOR() const;
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void SetAngularVelocityOR(const CAxisAngle& angleVel);
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void ClearForcesAndTorques();
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void ClearImpulses();
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void ComputeDerivedQuantities();
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void UseCollisionImpulses();
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bool WillMove(const CStateManager& mgr);
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void Stop();
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const CVector3f& GetConstantForceWR() const { return xfc_constantForce; }
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@ -106,14 +110,23 @@ public:
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void SetPhysicsState(const CPhysicsState& state);
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CMotionState GetMotionState() const;
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void SetMotionState(const CMotionState& state);
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CVector3f CalculateNewVelocityWR_UsingImpulses() const;
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CMotionState PredictMotion(float dt) const;
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CMotionState PredictAngularMotion(float dt) const;
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CMotionState PredictLinearMotion(float dt) const;
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CMotionState PredictMotion_Internal(float dt) const;
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void AddMotionState(const CMotionState& state);
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bool GetMovable() const { return xf8_24_movable; }
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void SetMovable(bool v) { xf8_24_movable = v; }
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void MoveToWR(const CVector3f&, float);
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void RotateToWR(const CQuaternion&, float);
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void MoveToOR(const CVector3f&, float);
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void RotateToOR(const CQuaternion&, float);
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CVector3f GetTotalForcesWR() const;
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static float GetGravityConstant() { return skGravityConstant; }
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private:
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@ -1,5 +1,7 @@
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#include "MetroidPrime/CPhysicsActor.hpp"
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#include "Kyoto/Math/CloseEnough.hpp"
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const float CPhysicsActor::skGravityConstant = 9.81f * 2.5f;
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CPhysicsActor::CPhysicsActor(TUniqueId uid, bool active, const rstl::string& name,
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@ -100,3 +102,93 @@ void CPhysicsActor::SetPhysicsState(const CPhysicsState& state) {
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x180_angularImpulse = state.GetAngularImpulseWR();
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ComputeDerivedQuantities();
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}
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CVector3f CPhysicsActor::CalculateNewVelocityWR_UsingImpulses() const {
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float impX;
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float impY;
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float impZ;
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float masRecip;
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float moveImpX;
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float moveImpY;
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float moveImpZ;
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float velX;
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float velY;
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float velZ;
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impX = x168_impulse.GetX();
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impY = x168_impulse.GetY();
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impZ = x168_impulse.GetZ();
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moveImpX = x18c_moveImpulse.GetX();
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moveImpY = x18c_moveImpulse.GetY();
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moveImpZ = x18c_moveImpulse.GetZ();
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masRecip = xec_massRecip;
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velY = x138_velocity.GetY();
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velZ = x138_velocity.GetZ();
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return CVector3f(velX + masRecip * (impX + moveImpX), velY + masRecip * (impY + moveImpY),
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velZ + masRecip * (impZ + moveImpZ));
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}
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CMotionState CPhysicsActor::PredictMotion(float dt) const {}
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CMotionState CPhysicsActor::PredictAngularMotion(float dt) const {}
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CMotionState CPhysicsActor::PredictLinearMotion(float dt) const {}
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CMotionState CPhysicsActor::PredictMotion_Internal(float dt) const {}
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void CPhysicsActor::SetMotionState(const CMotionState& state) {}
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CMotionState CPhysicsActor::GetMotionState() const {
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CNUQuaternion nquat(CNUQuaternion::BuildFromQuaternion(GetRotation()));
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return CMotionState(GetTranslation(), nquat, GetConstantForceWR(), GetAngularMomentumWR());
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}
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void CPhysicsActor::AddMotionState(const CMotionState& state) {}
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bool CPhysicsActor::WillMove(const CStateManager& mgr) {
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if (close_enough(x138_velocity, CVector3f::Zero()) &&
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close_enough(x168_impulse, CVector3f::Zero()) &&
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close_enough(x174_torque.GetVector(), CVector3f::Zero()) &&
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close_enough(x18c_moveImpulse, CVector3f::Zero()) &&
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close_enough(x144_angularVelocity.GetVector(), CVector3f::Zero()) &&
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close_enough(x180_angularImpulse.GetVector(), CVector3f::Zero()) &&
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close_enough(x198_moveAngularImpulse.GetVector(), CVector3f::Zero()) &&
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close_enough(GetTotalForcesWR(), CVector3f::Zero())) {
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return false;
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}
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return true;
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}
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void CPhysicsActor::Stop() {
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ClearForcesAndTorques();
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xfc_constantForce = CVector3f::Zero();
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x108_angularMomentum = CAxisAngle::Identity();
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ComputeDerivedQuantities();
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}
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void CPhysicsActor::ClearForcesAndTorques() {
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x15c_force = x168_impulse = x18c_moveImpulse = CVector3f::Zero();
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x174_torque = x180_angularImpulse = x198_moveAngularImpulse = CAxisAngle::Identity();
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}
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void CPhysicsActor::ClearImpulses() {
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x168_impulse = x18c_moveImpulse = CVector3f::Zero();
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x180_angularImpulse = x198_moveAngularImpulse = CAxisAngle::Identity();
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}
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void CPhysicsActor::UseCollisionImpulses() {
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xfc_constantForce += x168_impulse;
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x108_angularMomentum += x180_angularImpulse;
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x168_impulse = CVector3f::Zero();
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x180_angularImpulse = CAxisAngle::Identity();
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ComputeDerivedQuantities();
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}
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void CPhysicsActor::MoveToWR(const CVector3f& trans, float d) {
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float f = (1.f / d);
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CVector3f diff = trans - GetTranslation();
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xfc_constantForce = f * GetMass() * diff;
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ComputeDerivedQuantities();
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}
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