#ifndef _CRAYCASTRESULT #define _CRAYCASTRESULT #include "types.h" #include "Kyoto/Math/CPlane.hpp" #include "Kyoto/Math/CVector3f.hpp" #include "Collision/CMaterialList.hpp" class CRayCastResult { public: enum EInvalid { kI_Invalid, kI_Valid, }; CRayCastResult(float time, const CVector3f& point, const CPlane& plane, const CMaterialList& list) : x0_time(time), x4_point(point), x10_plane(plane), x20_valid(kI_Valid), x28_material(list) {} CRayCastResult(EInvalid invalid = kI_Invalid) : x0_time(0) , x4_point(CVector3f(0.f, 0.f, 0.f)) , x10_plane(CPlane(0.f, CUnitVector3f(1.f, 0.f, 0.f, CUnitVector3f::kN_Yes))) , x20_valid(invalid) {} float GetTime() const { return x0_time; } const CVector3f& GetPoint() const { return x4_point; } const CPlane& GetPlane() const { return x10_plane; } bool IsValid() const { return x20_valid != kI_Invalid; } // TODO: figure out what's going on here bool IsInvalid() const { return x20_valid == kI_Invalid; } const CMaterialList& GetMaterial() const { return x28_material; } void Transform(const CTransform4f& xf); static CRayCastResult MakeInvalid() { return CRayCastResult(kI_Invalid); } private: float x0_time; CVector3f x4_point; CPlane x10_plane; bool x20_valid; CMaterialList x28_material; }; CHECK_SIZEOF(CRayCastResult, 0x30) #endif // _CRAYCASTRESULT