metaforce/Runtime/World/CFluidUVMotion.hpp

51 lines
1.5 KiB
C++

#pragma once
#include "Runtime/RetroTypes.hpp"
#include "Runtime/rstl.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<SFluidLayerMotion, 3> 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<SFluidLayerMotion, 3>& 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