#ifndef __RETRO_CREALELEMENT_HPP__ #define __RETRO_CREALELEMENT_HPP__ #include "IElement.hpp" namespace Retro { class CREKeyframeEmitter : public CRealElement { u32 x4_percent; u32 x8_unk1; bool xc_loop; bool xd_unk2; u32 x10_loopEnd; u32 x14_loopStart; std::vector x18_keys; public: CREKeyframeEmitter(CInputStream& in); bool GetValue(int frame, float& valOut) const; }; class CRELifetimeTween : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CRELifetimeTween(CRealElement* a, CRealElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, float& valOut) const; }; class CREConstant : public CRealElement { float x4_val; public: CREConstant(float val) : x4_val(val) {} bool GetValue(int frame, float& valOut) const; bool IsConstant() const {return true;} }; class CRETimeChain : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; std::unique_ptr xc_swFrame; public: CRETimeChain(CRealElement* a, CRealElement* b, CIntElement* c) : x4_a(a), x8_b(b), xc_swFrame(c) {} bool GetValue(int frame, float& valOut) const; }; class CREAdd : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CREAdd(CRealElement* a, CRealElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, float& valOut) const; }; class CREClamp : public CRealElement { std::unique_ptr x4_min; std::unique_ptr x8_max; std::unique_ptr xc_val; public: CREClamp(CRealElement* a, CRealElement* b, CRealElement* c) : x4_min(a), x8_max(b), xc_val(c) {} bool GetValue(int frame, float& valOut) const; }; class CREInitialRandom : public CRealElement { std::unique_ptr x4_min; std::unique_ptr x8_max; public: CREInitialRandom(CRealElement* a, CRealElement* b) : x4_min(a), x8_max(b) {} bool GetValue(int frame, float& valOut) const; bool IsConstant() const {return true;} }; class CRERandom : public CRealElement { std::unique_ptr x4_min; std::unique_ptr x8_max; public: CRERandom(CRealElement* a, CRealElement* b) : x4_min(a), x8_max(b) {} bool GetValue(int frame, float& valOut) const; }; class CREMultiply : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CREMultiply(CRealElement* a, CRealElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, float& valOut) const; }; class CREPulse : public CRealElement { std::unique_ptr x4_aDuration; std::unique_ptr x8_bDuration; std::unique_ptr xc_valA; std::unique_ptr x10_valB; public: CREPulse(CIntElement* a, CIntElement* b, CRealElement* c, CRealElement* d) : x4_aDuration(a), x8_bDuration(b), xc_valA(c), x10_valB(d) {} bool GetValue(int frame, float& valOut) const; }; class CRETimeScale : public CRealElement { std::unique_ptr x4_a; public: CRETimeScale(CRealElement* a) : x4_a(a) {} bool GetValue(int frame, float& valOut) const; }; class CRELifetimePercent : public CRealElement { std::unique_ptr x4_percentVal; public: CRELifetimePercent(CRealElement* a) : x4_percentVal(a) {} bool GetValue(int frame, float& valOut) const; }; class CRESineWave : public CRealElement { std::unique_ptr x4_magnitude; std::unique_ptr x8_linearFrame; std::unique_ptr xc_constantFrame; public: CRESineWave(CRealElement* a, CRealElement* b, CRealElement* c) : x4_magnitude(a), x8_linearFrame(b), xc_constantFrame(c) {} bool GetValue(int frame, float& valOut) const; }; class CREISWT : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CREISWT(CRealElement* a, CRealElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, float& valOut) const; }; class CRECompareLessThan : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; std::unique_ptr xc_c; std::unique_ptr x10_d; public: CRECompareLessThan(CRealElement* a, CRealElement* b, CRealElement* c, CRealElement* d) : x4_a(a), x8_b(b), xc_c(c), x10_d(d) {} bool GetValue(int frame, float& valOut) const; }; class CRECompareEquals : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; std::unique_ptr xc_c; std::unique_ptr x10_d; public: CRECompareEquals(CRealElement* a, CRealElement* b, CRealElement* c, CRealElement* d) : x4_a(a), x8_b(b), xc_c(c), x10_d(d) {} bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam1 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam2 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam3 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam4 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam5 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam6 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam7 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREParticleAccessParam8 : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREPSLL : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CREPRLW : public CRealElement { public: bool GetValue(int frame, float& valOut) const; }; class CRESubtract : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CRESubtract(CRealElement* a, CRealElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, float& valOut) const; }; class CREVectorMagnitude : public CRealElement { std::unique_ptr x4_a; public: CREVectorMagnitude(CVectorElement* a) : x4_a(a) {} bool GetValue(int frame, float& valOut) const; }; class CREVectorXToReal : public CRealElement { std::unique_ptr x4_a; public: CREVectorXToReal(CVectorElement* a) : x4_a(a) {} bool GetValue(int frame, float& valOut) const; }; class CREVectorYToReal : public CRealElement { std::unique_ptr x4_a; public: CREVectorYToReal(CVectorElement* a) : x4_a(a) {} bool GetValue(int frame, float& valOut) const; }; class CREVectorZToReal : public CRealElement { std::unique_ptr x4_a; public: CREVectorZToReal(CVectorElement* a) : x4_a(a) {} bool GetValue(int frame, float& valOut) const; }; class CRECEXT : public CRealElement { std::unique_ptr x4_a; public: CRECEXT(CIntElement* a) : x4_a(a) {} bool GetValue(int frame, float& valOut) const; }; class CREITRL : public CRealElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CREITRL(CIntElement* a, CRealElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, float& valOut) const; }; } #endif // __RETRO_CREALELEMENT_HPP__