prime/include/MetroidPrime/CPhysicsActor.hpp

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#ifndef _CPHYSICSACTOR
#define _CPHYSICSACTOR
#include "types.h"
#include "MetroidPrime/CActor.hpp"
#include "MetroidPrime/CAxisAngle.hpp"
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#include "MetroidPrime/CPhysicsState.hpp"
#include "Kyoto/Math/CAABox.hpp"
#include "Kyoto/Math/CMatrix3f.hpp"
#include "Kyoto/Math/CNUQuaternion.hpp"
#include "Kyoto/Math/CVector3f.hpp"
#include "Collision/CCollidableAABox.hpp"
#include "rstl/optional_object.hpp"
struct SMoverData {
CVector3f x0_velocity;
CAxisAngle xc_angularVelocity;
CVector3f x18_momentum;
CAxisAngle x24_;
float x30_mass;
SMoverData(float mass, const CVector3f& velocity = CVector3f::Zero(),
const CAxisAngle& angularVelocity = CAxisAngle::Identity(),
const CVector3f& momentum = CVector3f::Zero(),
const CAxisAngle& unk = CAxisAngle::Identity())
: x0_velocity(velocity)
, xc_angularVelocity(angularVelocity)
, x18_momentum(momentum)
, x24_(unk)
, x30_mass(mass) {}
};
class CMotionState {
public:
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CMotionState(const CVector3f& translation, const CNUQuaternion& orientation,
const CVector3f& velocity, const CAxisAngle& angularMomentum)
: x0_translation(translation)
, xc_orientation(orientation)
, x1c_velocity(velocity)
, x28_angularMomentum(angularMomentum) {}
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const CVector3f& GetTranslation() const { return x0_translation; }
const CNUQuaternion& GetOrientation() const { return xc_orientation; }
const CVector3f& GetVelocity() const { return x1c_velocity; }
const CAxisAngle& GetAngularMomentum() const { return x28_angularMomentum; }
private:
CVector3f x0_translation;
CNUQuaternion xc_orientation;
CVector3f x1c_velocity;
CAxisAngle x28_angularMomentum;
};
CHECK_SIZEOF(CMotionState, 0x34)
class CCollisionInfoList;
class CPhysicsActor : public CActor {
static const float kGravityAccel;
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public:
CPhysicsActor(TUniqueId uid, bool active, const rstl::string& name, const CEntityInfo& info,
const CTransform4f& xf, const CModelData& mData, const CMaterialList& matList,
const CAABox& aabb, const SMoverData& moverData, const CActorParameters& actParams,
float stepUp, float stepDown);
// CActor
~CPhysicsActor();
void Render(const CStateManager&) const;
CVector3f GetOrbitPosition(const CStateManager& mgr) const;
CVector3f GetAimPosition(const CStateManager& mgr, float val) const;
// CPhysicsActor
virtual const CCollisionPrimitive* GetCollisionPrimitive() const;
virtual CTransform4f GetPrimitiveTransform() const;
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virtual void CollidedWith(const TUniqueId& id, const CCollisionInfoList& list,
CStateManager& mgr);
virtual float GetStepDownHeight() const;
virtual float GetStepUpHeight() const;
virtual float GetWeight() const;
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float GetMass() const { return xe8_mass; }
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void SetMass(float mass);
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void SetInertiaTensorScalar(float tensor);
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const CAABox& GetBaseBoundingBox() const;
CAABox GetBoundingBox() const;
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void SetBoundingBox(const CAABox& box);
CAABox GetMotionVolume(float dt) const;
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void ApplyImpulseWR(const CVector3f& impulse, const CAxisAngle& angularImpulse);
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void ApplyTorqueWR(const CVector3f& torque);
void ApplyForceWR(const CVector3f& force, const CAxisAngle& torque);
void ApplyImpulseOR(const CVector3f& impulse, const CAxisAngle& angularImpulse);
void ApplyForceOR(const CVector3f& impulse, const CAxisAngle& torque);
void MoveCollisionPrimitive(const CVector3f&);
void SetVelocityWR(const CVector3f&);
void SetAngularVelocityWR(const CAxisAngle& angVel);
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void SetVelocityOR(const CVector3f& vel);
CAxisAngle GetAngularVelocityOR() const;
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void SetAngularVelocityOR(const CAxisAngle& angleVel);
void ClearForcesAndTorques();
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void ClearImpulses();
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void ComputeDerivedQuantities();
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void UseCollisionImpulses();
bool WillMove(const CStateManager& mgr);
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void Stop();
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CVector3f GetPrimitiveOffset() const;
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const CVector3f& GetConstantForceWR() const { return xfc_constantForce; }
void SetConstantForceWR(const CVector3f& force) { xfc_constantForce = force; }
const CAxisAngle& GetAngularMomentumWR() const { return x108_angularMomentum; }
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void SetAngularMomentumWR(const CAxisAngle& angularMomentum) {
x108_angularMomentum = angularMomentum;
}
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const CVector3f& GetMomentumWR() const { return x150_momentum; }
void SetMomentumWR(const CVector3f& momentum) { x150_momentum = momentum; }
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const CVector3f& GetForceWR() const { return x15c_force; }
void SetForceWR(const CVector3f& force) { x15c_force = force; }
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const CVector3f& GetImpulseWR() const { return x168_impulse; }
void SetImpulseWR(const CVector3f& impulse) { x168_impulse = impulse; }
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const CAxisAngle& GetTorqueWR() const { return x174_torque; }
void SetTorqueWR(const CAxisAngle& torque) { x174_torque = torque; }
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const CAxisAngle& GetAngularImpulseWR() const { return x180_angularImpulse; }
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void SetAngularImpulseWR(const CAxisAngle& angularImpulse) {
x180_angularImpulse = angularImpulse;
}
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float GetCoefficientOfRestitutionModifier() const;
void SetCoefficientOfRestitutionModifier(float modifier);
float GetCollisionAccuracyModifier() const;
void SetCollisionAccuracyModifier(float modifier);
float GetMaximumCollisionVelocity() const;
void SetMaximumCollisionVelocity(float velocity);
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CPhysicsState GetPhysicsState() const;
void SetPhysicsState(const CPhysicsState& state);
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CMotionState GetMotionState() const;
void SetMotionState(const CMotionState& state);
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CVector3f CalculateNewVelocityWR_UsingImpulses() const;
CMotionState PredictMotion(float dt) const;
CMotionState PredictAngularMotion(float dt) const;
CMotionState PredictLinearMotion(float dt) const;
CMotionState PredictMotion_Internal(float dt) const;
void AddMotionState(const CMotionState& state);
bool GetMovable() const { return xf8_24_movable; }
void SetMovable(bool v) { xf8_24_movable = v; }
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void MoveToWR(const CVector3f&, float);
void MoveToInOneFrameWR(const CVector3f&, float);
CVector3f GetMoveToORImpulseWR(const CVector3f& impulse, float d) const;
CVector3f GetRotateToORAngularMomentumWR(const CQuaternion& q, float d) const;
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void RotateToWR(const CQuaternion&, float);
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void MoveInOneFrameOR(const CVector3f& trans, float d);
void RotateInOneFrameOR(const CQuaternion&, float);
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void MoveToOR(const CVector3f&, float);
void RotateToOR(const CQuaternion&, float);
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CVector3f GetTotalForceWR() const;
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static float GravityConstant() { return kGravityAccel; }
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private:
float xe8_mass;
float xec_massRecip;
float xf0_inertiaTensor;
float xf4_inertiaTensorRecip;
bool xf8_24_movable : 1;
bool xf8_25_angularEnabled : 1;
bool xf9_standardCollider;
CVector3f xfc_constantForce;
CAxisAngle x108_angularMomentum;
CMatrix3f x114_;
CVector3f x138_velocity;
CAxisAngle x144_angularVelocity;
CVector3f x150_momentum;
CVector3f x15c_force;
CVector3f x168_impulse;
CAxisAngle x174_torque;
CAxisAngle x180_angularImpulse;
CVector3f x18c_moveImpulse;
CAxisAngle x198_moveAngularImpulse;
CAABox x1a4_baseBoundingBox;
CCollidableAABox x1c0_collisionPrimitive;
CVector3f x1e8_primitiveOffset;
CMotionState x1f4_lastNonCollidingState;
rstl::optional_object< CVector3f > x228_lastFloorPlaneNormal;
float x238_maximumCollisionVelocity;
float x23c_stepUpHeight;
float x240_stepDownHeight;
float x244_restitutionCoefModifier;
float x248_collisionAccuracyModifier;
uint x24c_numTicksStuck;
uint x250_numTicksPartialUpdate;
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uint x254_;
};
CHECK_SIZEOF(CPhysicsActor, 0x258)
#endif // _CPHYSICSACTOR