prime/include/MetroidPrime/CActorParameters.hpp

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#ifndef _CACTORPARAMETERS
#define _CACTORPARAMETERS
#include "types.h"
#include "Kyoto/Graphics/CColor.hpp"
#include "Kyoto/IObjectStore.hpp"
#include "Kyoto/Math/CVector3f.hpp"
#include "rstl/auto_ptr.hpp"
#include "rstl/pair.hpp"
class CActorLights;
class CLightParameters {
public:
enum EShadowTessellation {
kST_Invalid = -1,
kST_Zero,
};
enum EWorldLightingOptions {
kLO_Zero,
kLO_NormalWorld,
kLO_NoShadowCast,
kLO_DisableWorld,
};
enum ELightRecalculationOptions {
kLR_Never,
kLR_EightFrames,
kLR_FourFrames,
kLR_OneFrame,
};
CLightParameters();
CLightParameters(bool castShadow, float shadowScale,
CLightParameters::EShadowTessellation shadowTess, float shadowAlpha,
float maxShadowHeight, const CColor& ambientColor, bool makeLights,
CLightParameters::EWorldLightingOptions useWorldLighting,
CLightParameters::ELightRecalculationOptions lightRecalcOpts,
const CVector3f& lightingPositionOffset, int maxDynamicLights, int maxAreaLights,
bool ambChannelOverflow, int useLightSet);
virtual ~CLightParameters();
const CColor& GetAmbientColor() const { return x18_ambientColor; }
bool ShouldMakeLights() const { return x1c_makeLights; }
bool GetAmbientChannelOverflow() const { return x1d_ambientChannelOverflow; }
const CVector3f& GetLightingPositionOffset() const { return x2c_lightingPositionOffset; }
int GetMaxDynamicLights() const { return x38_maxDynamicLights; }
int GetMaxAreaLights() const { return x3c_maxAreaLights; }
static CLightParameters None();
static uint GetFramesBetweenRecalculation(ELightRecalculationOptions opts);
rstl::auto_ptr< CActorLights > MakeActorLights() const;
private:
bool x4_castShadow;
float x8_shadowScale;
EShadowTessellation xc_shadowTesselation;
float x10_shadowAlpha;
float x14_maxShadowHeight;
CColor x18_ambientColor;
bool x1c_makeLights;
bool x1d_ambientChannelOverflow;
EWorldLightingOptions x20_useWorldLighting;
ELightRecalculationOptions x24_lightRecalculation;
int x28_useLightSet;
CVector3f x2c_lightingPositionOffset;
int x38_maxDynamicLights;
int x3c_maxAreaLights;
};
CHECK_SIZEOF(CLightParameters, 0x40)
class CScannableParameters {
public:
CScannableParameters() {}
CScannableParameters(CAssetId scanId) : x0_scanId(scanId) {}
CAssetId GetScannableObject0() const { return x0_scanId; }
private:
CAssetId x0_scanId;
};
CHECK_SIZEOF(CScannableParameters, 0x4)
class CVisorParameters {
public:
CVisorParameters(uchar mask, bool b1, bool scanPassthrough)
: x0_mask(mask), x0_4_b1(b1), x0_5_scanPassthrough(scanPassthrough) {}
uchar GetMask() const { return x0_mask; }
// TODO: GetIsBlockXRay__16CVisorParametersCFv?
bool GetBool1() const { return x0_4_b1; }
bool GetScanPassthrough() const { return x0_5_scanPassthrough; }
static CVisorParameters None() { return CVisorParameters(0xF, false, false); }
private:
uint x0_mask : 4;
uint x0_4_b1 : 1;
uint x0_5_scanPassthrough : 1;
};
CHECK_SIZEOF(CVisorParameters, 0x4)
class CActorParameters {
public:
CActorParameters();
CActorParameters(const CLightParameters& lightParms, const CScannableParameters& scanParms,
const rstl::pair< CAssetId, CAssetId >& xrayAssets,
const rstl::pair< CAssetId, CAssetId >& thermalAssets,
const CVisorParameters& visorParms, bool globalTimeProvider, bool thermalHeat,
bool renderUnsorted, bool noSortThermal, float fadeInTime, float fadeOutTime,
float thermalMag);
CActorParameters(const CActorParameters&);
~CActorParameters() {}
CActorParameters Scannable(const CScannableParameters& sParms) const;
CActorParameters HotInThermal(bool hot) const;
CActorParameters MakeDamageableTriggerActorParms(const CVisorParameters& visorParam) const;
const CLightParameters& GetLighting() const { return x0_lighting; }
const CScannableParameters& GetScannable() const { return x40_scannable; }
const rstl::pair< CAssetId, CAssetId >& GetXRay() const { return x44_xrayAssets; }
const rstl::pair< CAssetId, CAssetId >& GetInfra() const { return x4c_thermalAssets; }
const CVisorParameters& GetVisorParameters() const { return x54_visor; }
float GetThermalMag() const { return x64_thermalMag; }
bool UseGlobalRenderTime() const { return x58_24_useGlobalRenderTime; }
bool IsHotInThermal() const { return x58_25_thermalHeat; }
bool ForceRenderUnsorted() const { return x58_26_forceRenderUnsorted; }
bool NoSortThermal() const { return x58_27_noSortThermal; }
float GetFadeInTime() const { return x5c_fadeInTime; }
float GetFadeOutTime() const { return x60_fadeOutTime; }
2024-09-26 05:54:05 +00:00
static CActorParameters None() { return CActorParameters(); }
private:
CLightParameters x0_lighting;
CScannableParameters x40_scannable;
rstl::pair< CAssetId, CAssetId > x44_xrayAssets;
rstl::pair< CAssetId, CAssetId > x4c_thermalAssets;
CVisorParameters x54_visor;
uchar x58_24_useGlobalRenderTime : 1;
uchar x58_25_thermalHeat : 1;
uchar x58_26_forceRenderUnsorted : 1;
uchar x58_27_noSortThermal : 1;
float x5c_fadeInTime;
float x60_fadeOutTime;
float x64_thermalMag;
};
CHECK_SIZEOF(CActorParameters, 0x68)
#endif // _CACTORPARAMETERS