#ifndef __RETRO_CINTELEMENT_HPP__ #define __RETRO_CINTELEMENT_HPP__ #include "IElement.hpp" namespace Retro { class CIEKeyframeEmitter : public CIntElement { u32 x4_percent; u32 x8_unk1; bool xc_loop; bool xd_unk2; u32 x10_loopEnd; u32 x14_loopStart; std::vector x18_keys; public: CIEKeyframeEmitter(CInputStream& in); bool GetValue(int frame, int& valOut) const; }; class CIEDeath : public CIntElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CIEDeath(CIntElement* a, CIntElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, int& valOut) const; }; class CIEClamp : public CIntElement { std::unique_ptr x4_min; std::unique_ptr x8_max; std::unique_ptr xc_val; public: CIEClamp(CIntElement* a, CIntElement* b, CIntElement* c) : x4_min(a), x8_max(b), xc_val(c) {} bool GetValue(int frame, int& valOut) const; }; class CIETimeChain : public CIntElement { std::unique_ptr x4_a; std::unique_ptr x8_b; std::unique_ptr xc_swFrame; public: CIETimeChain(CIntElement* a, CIntElement* b, CIntElement* c) : x4_a(a), x8_b(b), xc_swFrame(c) {} bool GetValue(int frame, int& valOut) const; }; class CIEAdd : public CIntElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CIEAdd(CIntElement* a, CIntElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, int& valOut) const; }; class CIEConstant : public CIntElement { int x4_val; public: CIEConstant(int val) : x4_val(val) {} bool GetValue(int frame, int& valOut) const; }; class CIEImpulse : public CIntElement { std::unique_ptr x4_a; public: CIEImpulse(CIntElement* a) : x4_a(a) {} bool GetValue(int frame, int& valOut) const; }; class CIELifetimePercent : public CIntElement { std::unique_ptr x4_percentVal; public: CIELifetimePercent(CIntElement* a) : x4_percentVal(a) {} bool GetValue(int frame, int& valOut) const; }; class CIEInitialRandom : public CIntElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CIEInitialRandom(CIntElement* a, CIntElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, int& valOut) const; }; class CIEPulse : public CIntElement { std::unique_ptr x4_aDuration; std::unique_ptr x8_bDuration; std::unique_ptr xc_aVal; std::unique_ptr x10_bVal; public: CIEPulse(CIntElement* a, CIntElement* b, CIntElement* c, CIntElement* d) : x4_aDuration(a), x8_bDuration(b), xc_aVal(c), x10_bVal(d) {} bool GetValue(int frame, int& valOut) const; }; class CIEMultiply : public CIntElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CIEMultiply(CIntElement* a, CIntElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, int& valOut) const; }; class CIESampleAndHold : public CIntElement { std::unique_ptr x4_sampleSource; int x8_nextSampleFrame = 0; std::unique_ptr xc_waitFramesMin; std::unique_ptr x10_waitFramesMax; int x14_holdVal; public: CIESampleAndHold(CIntElement* a, CIntElement* b, CIntElement* c) : x4_sampleSource(a), xc_waitFramesMin(b), x10_waitFramesMax(c) {} bool GetValue(int frame, int& valOut) const; }; class CIERandom : public CIntElement { std::unique_ptr x4_min; std::unique_ptr x8_max; public: CIERandom(CIntElement* a, CIntElement* b) : x4_min(a), x8_max(b) {} bool GetValue(int frame, int& valOut) const; }; class CIETimeScale : public CIntElement { std::unique_ptr x4_a; public: CIETimeScale(CRealElement* a) : x4_a(a) {} bool GetValue(int frame, int& valOut) const; }; class CIEGTCP : public CIntElement { public: bool GetValue(int frame, int& valOut) const; }; class CIEGAPC : public CIntElement { public: bool GetValue(int frame, int &valOut) const; }; class CIEGEMT : public CIntElement { public: bool GetValue(int frame, int &valOut) const; }; class CIEModulo : public CIntElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CIEModulo(CIntElement* a, CIntElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, int& valOut) const; }; class CIESubtract : public CIntElement { std::unique_ptr x4_a; std::unique_ptr x8_b; public: CIESubtract(CIntElement* a, CIntElement* b) : x4_a(a), x8_b(b) {} bool GetValue(int frame, int& valOut) const; }; } #endif // __RETRO_CINTELEMENT_HPP__