#ifndef _CACTORPARAMETERS_HPP #define _CACTORPARAMETERS_HPP #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 EShadowTesselation { kST_Invalid = -1, kST_Zero, }; enum EWorldLightingOptions { kLO_Zero, kLO_NormalWorld, kLO_NoShadowCast, kLO_DisableWorld, }; enum ELightRecalculationOptions { kLR_LargeFrameCount, kLR_EightFrames, kLR_FourFrames, kLR_OneFrame, }; CLightParameters() { // TODO } virtual ~CLightParameters(); const CColor& GetAmbientColor() const { return x18_noLightsAmbient; } bool ShouldMakeLights() const { return x1c_makeLights; } int GetMaxAreaLights() const { return x3c_maxAreaLights; } rstl::auto_ptr< CActorLights > MakeActorLights() const; private: bool x4_castShadow; f32 x8_shadowScale; EShadowTesselation xc_shadowTesselation; f32 x10_shadowAlpha; f32 x14_maxShadowHeight; CColor x18_noLightsAmbient; bool x1c_makeLights; bool x1d_ambientChannelOverflow; EWorldLightingOptions x20_worldLightingOptions; ELightRecalculationOptions x24_lightRecalcOpts; int x28_layerIdx; CVector3f x2c_actorPosBias; 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() { // TODO } CVisorParameters(u8 mask, bool b1, bool scanPassthrough) : x0_mask(mask), x0_4_b1(b1), x0_5_scanPassthrough(scanPassthrough) {} u8 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(); private: uint x0_mask : 4; uint x0_4_b1 : 1; uint x0_5_scanPassthrough : 1; }; CHECK_SIZEOF(CVisorParameters, 0x4) class CActorParameters { public: CActorParameters() { // TODO } const CLightParameters& GetLighting() const { return x0_lightParams; } const CScannableParameters& GetScannable() const { return x40_scanParams; } 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_visorParams; } f32 GetThermalMag() const { return x64_thermalMag; } bool GetUseGlobalRenderTime() const { return x58_24_globalTimeProvider; } bool IsHotInThermal() const { return x58_25_thermalHeat; } bool ForceRenderUnsorted() const { return x58_26_renderUnsorted; } bool NoSortThermal() const { return x58_27_noSortThermal; } f32 GetFadeInTime() const { return x5c_fadeInTime; } f32 GetFadeOutTime() const { return x60_fadeOutTime; } static CActorParameters None(); private: CLightParameters x0_lightParams; CScannableParameters x40_scanParams; rstl::pair< CAssetId, CAssetId > x44_xrayAssets; rstl::pair< CAssetId, CAssetId > x4c_thermalAssets; CVisorParameters x54_visorParams; bool x58_24_globalTimeProvider : 1; bool x58_25_thermalHeat : 1; bool x58_26_renderUnsorted : 1; bool x58_27_noSortThermal : 1; f32 x5c_fadeInTime; f32 x60_fadeOutTime; f32 x64_thermalMag; }; CHECK_SIZEOF(CActorParameters, 0x68) #endif