#pragma once #include "rstl.hpp" #include "RetroTypes.hpp" namespace urde { class CFluidUVMotion { public: enum class EFluidUVMotion { Linear, Circular, Oscillate, }; struct SFluidLayerMotion { EFluidUVMotion x0_motion = EFluidUVMotion::Linear; float x4_ooTimeToWrap = 0.16666667f; float x8_orientation = 0.f; float xc_magnitude = 1.f; float x10_uvMul = 5.f; float x14_uvScale = 0.2f; SFluidLayerMotion() = default; SFluidLayerMotion(EFluidUVMotion motion, float timeToWrap, float orientation, float magnitude, float uvMul) : x0_motion(motion) , x4_ooTimeToWrap(1.f / timeToWrap) , x8_orientation(orientation) , xc_magnitude(magnitude) , x10_uvMul(uvMul) , x14_uvScale(1.f / uvMul) {} float GetUVScale() const { return x14_uvScale; } }; private: rstl::reserved_vector x0_fluidLayers; float x4c_ooTimeToWrap; float x50_orientation; public: CFluidUVMotion(float timeToWrap, float orientation, const SFluidLayerMotion& colorLayer, const SFluidLayerMotion& pattern1Layer, const SFluidLayerMotion& pattern2Layer); CFluidUVMotion(float timeToWrap, float orientation); const rstl::reserved_vector& GetFluidLayers() const { return x0_fluidLayers; } float GetOrientation() const { return x50_orientation; } float GetOOTimeToWrapTexPage() const { return x4c_ooTimeToWrap; } void CalculateFluidTextureOffset(float, float[3][2]) const; }; } // namespace urde