metaforce/Runtime/Particle/CModVectorElement.hpp

#ifndef __URDE_CMODVECTORELEMENT_HPP__
#define __URDE_CMODVECTORELEMENT_HPP__

#include "IElement.hpp"

/* Documentation at: http://www.metroid2002.com/retromodding/wiki/Particle_Script#Mod_Vector_Elements */

namespace urde
{

class CMVEImplosion : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_implPoint;
    std::unique_ptr<CRealElement> x8_magScale;
    std::unique_ptr<CRealElement> xc_maxMag;
    std::unique_ptr<CRealElement> x10_minMag;
    bool x14_enableMinMag;
public:
    CMVEImplosion(std::unique_ptr<CVectorElement>&& a, std::unique_ptr<CRealElement>&& b,
                  std::unique_ptr<CRealElement>&& c, std::unique_ptr<CRealElement>&& d, bool e)
    : x4_implPoint(std::move(a)), x8_magScale(std::move(b)), xc_maxMag(std::move(c)), x10_minMag(std::move(d)),
      x14_enableMinMag(std::move(e)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEExponentialImplosion : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_implPoint;
    std::unique_ptr<CRealElement> x8_magScale;
    std::unique_ptr<CRealElement> xc_maxMag;
    std::unique_ptr<CRealElement> x10_minMag;
    bool x14_enableMinMag;
public:
    CMVEExponentialImplosion(std::unique_ptr<CVectorElement>&& a, std::unique_ptr<CRealElement>&& b,
                             std::unique_ptr<CRealElement>&& c, std::unique_ptr<CRealElement>&& d, bool e)
    : x4_implPoint(std::move(a)), x8_magScale(std::move(b)), xc_maxMag(std::move(c)), x10_minMag(std::move(d)),
      x14_enableMinMag(std::move(e)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVELinearImplosion : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_implPoint;
    std::unique_ptr<CRealElement> x8_magScale;
    std::unique_ptr<CRealElement> xc_maxMag;
    std::unique_ptr<CRealElement> x10_minMag;
    bool x14_enableMinMag;
public:
    CMVELinearImplosion(std::unique_ptr<CVectorElement>&& a, std::unique_ptr<CRealElement>&& b,
                        std::unique_ptr<CRealElement>&& c, std::unique_ptr<CRealElement>&& d, bool e)
    : x4_implPoint(std::move(a)), x8_magScale(std::move(b)), xc_maxMag(std::move(c)), x10_minMag(std::move(d)),
      x14_enableMinMag(std::move(e)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVETimeChain : public CModVectorElement
{
    std::unique_ptr<CModVectorElement> x4_a;
    std::unique_ptr<CModVectorElement> x8_b;
    std::unique_ptr<CIntElement> xc_swFrame;
public:
    CMVETimeChain(std::unique_ptr<CModVectorElement>&& a, std::unique_ptr<CModVectorElement>&& b,
                  std::unique_ptr<CIntElement>&& c)
    : x4_a(std::move(a)), x8_b(std::move(b)), xc_swFrame(std::move(c)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEBounce : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_planePoint;
    std::unique_ptr<CVectorElement> x8_planeNormal;
    std::unique_ptr<CRealElement> xc_friction;
    std::unique_ptr<CRealElement> x10_restitution;
    bool x14_planePrecomputed;
    bool x15_dieOnPenetrate;
    zeus::CVector3f x18_planeValidatedNormal;
    float x24_planeD;
public:
    CMVEBounce(std::unique_ptr<CVectorElement>&& a, std::unique_ptr<CVectorElement>&& b,
               std::unique_ptr<CRealElement>&& c, std::unique_ptr<CRealElement>&& d, bool e);
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEConstant : public CModVectorElement
{
    std::unique_ptr<CRealElement> x4_x;
    std::unique_ptr<CRealElement> x8_y;
    std::unique_ptr<CRealElement> xc_z;
public:
    CMVEConstant(std::unique_ptr<CRealElement>&& a, std::unique_ptr<CRealElement>&& b,
                 std::unique_ptr<CRealElement>&& c)
    : x4_x(std::move(a)), x8_y(std::move(b)), xc_z(std::move(c)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEFastConstant : public CModVectorElement
{
    zeus::CVector3f x4_val;
public:
    CMVEFastConstant(float a, float b, float c)
    : x4_val(a, b, c) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEGravity : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_a;
public:
    CMVEGravity(std::unique_ptr<CVectorElement>&& a)
    : x4_a(std::move(a)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEExplode : public CModVectorElement
{
    std::unique_ptr<CRealElement> x4_a;
    std::unique_ptr<CRealElement> x8_b;
public:
    CMVEExplode(std::unique_ptr<CRealElement>&& a, std::unique_ptr<CRealElement>&& b)
    : x4_a(std::move(a)), x8_b(std::move(b)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVESetPosition : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_a;
public:
    CMVESetPosition(std::unique_ptr<CVectorElement>&& a)
    : x4_a(std::move(a)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEPulse : public CModVectorElement
{
    std::unique_ptr<CIntElement> x4_aDuration;
    std::unique_ptr<CIntElement> x8_bDuration;
    std::unique_ptr<CModVectorElement> xc_aVal;
    std::unique_ptr<CModVectorElement> x10_bVal;
public:
    CMVEPulse(std::unique_ptr<CIntElement>&& a, std::unique_ptr<CIntElement>&& b,
              std::unique_ptr<CModVectorElement>&& c, std::unique_ptr<CModVectorElement>&& d)
    : x4_aDuration(std::move(a)), x8_bDuration(std::move(b)), xc_aVal(std::move(c)), x10_bVal(std::move(d)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVEWind : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_velocity;
    std::unique_ptr<CRealElement> x8_factor;
public:
    CMVEWind(std::unique_ptr<CVectorElement>&& a, std::unique_ptr<CRealElement>&& b)
    : x4_velocity(std::move(a)), x8_factor(std::move(b)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

class CMVESwirl : public CModVectorElement
{
    std::unique_ptr<CVectorElement> x4_helixPoint;
    std::unique_ptr<CVectorElement> x8_curveBinormal;
    std::unique_ptr<CRealElement> xc_targetRadius;
    std::unique_ptr<CRealElement> x10_tangentialVelocity;
public:
    CMVESwirl(std::unique_ptr<CVectorElement>&& a, std::unique_ptr<CVectorElement>&& b,
              std::unique_ptr<CRealElement>&& c, std::unique_ptr<CRealElement>&& d)
    : x4_helixPoint(std::move(a)), x8_curveBinormal(std::move(b)),
      xc_targetRadius(std::move(c)), x10_tangentialVelocity(std::move(d)) {}
    bool GetValue(int frame, zeus::CVector3f& pVel, zeus::CVector3f& pPos) const;
};

}

#endif // __URDE_CMODVECTORELEMENT_HPP__