#ifndef _CPASANIMSTATE #define _CPASANIMSTATE #include "types.h" #include "Kyoto/Animation/CharacterCommon.hpp" #include "rstl/reserved_vector.hpp" #include "rstl/vector.hpp" class CPASAnimParm { public: enum EParmType { kPT_None = -1, kPT_Int32 = 0, kPT_UInt32 = 1, kPT_Float = 2, kPT_Bool = 3, kPT_Enum = 4, }; union UParmValue { int m_int; uint m_uint; float m_float; bool m_bool; }; CPASAnimParm(const CPASAnimParm& other) : x0_value(other.x0_value), x4_type(other.x4_type) {} static CPASAnimParm FromEnum(int val); static CPASAnimParm FromBool(bool val); static CPASAnimParm FromReal32(float val); static CPASAnimParm FromUint32(uint val); static CPASAnimParm FromInt32(int val); static CPASAnimParm NoParameter(); int GetInt32Value() const; float GetReal32Value() const; private: UParmValue x0_value; EParmType x4_type; }; class CPASParmInfo { public: enum EWeightFunction { kWF_ExactMatch, kWF_PercentError, kWF_AngularPercent, kWF_NoWeight, }; private: CPASAnimParm::EParmType x0_type; EWeightFunction x4_weightFunction; float x8_weight; CPASAnimParm::UParmValue xc_min; CPASAnimParm::UParmValue x10_max; }; class CPASAnimInfo { private: uint x0_id; rstl::reserved_vector< CPASAnimParm::UParmValue, 8 > x4_parms; }; class CPASAnimState { public: CPASAnimParm GetAnimParmData(int, unsigned int) const; private: pas::EAnimationState x0_id; rstl::vector< CPASParmInfo > x4_parms; rstl::vector< CPASAnimInfo > x14_anims; rstl::vector< int > x24_selectionCache; }; CHECK_SIZEOF(CPASAnimState, 0x34) #endif // _CPASANIMSTATE