This is the documentation for Enlighten.
class Enlighten IPrecompBuildParameters
class Enlighten::IPrecompBuildParameters
A class containing various parameters and dials for the system level precompute process.
Variables
| Name | Description |
|---|---|
| const Geo::s32 kShadowFaceBack = 0 | Deprecated ShadowFace API. |
| const Geo::s32 kShadowFaceBoth = -1 | Deprecated ShadowFace API. |
| const Geo::s32 kShadowFaceFront = 1 | Deprecated ShadowFace API. |
| const Geo::s32 kShadowFaceUseMaterialAPI = -2 | Deprecated ShadowFace API. |
Functions
| Name | Description |
|---|---|
| GetAlignedEdgeStitching() | Whether to use edge stitching. |
| GetBackFaceTolerance() | Whether to reject ray origins which can see any back face (if false, we only reject ray origins if they see nothing but back faces). |
| GetClusterSize() | The size of an input cluster. |
| GetClusterTolerance() | The strictness with which the geometry is voxelised during preclustering. |
| GetComputeRayOriginOutput() | General Debugging Options -------------------------------------------------- Whether to compute ray origin output during light transport. |
| GetCTDiv() | Number of children per node in the cluster hierarchy. |
| GetDefaultValues() | Returns a set of build parameters representing the defaults. |
| GetDependencyIncludedSystemDistance() | Bounding box of the system whose dependencies are being calculated is expanded by this distance in all directions. |
| GetDependencyLocalityDistance() | Maximum distance at which a given system will be considered local. |
| GetDependencyVisibilityThreshold() | Do not consider a system as a dependency if its visibility is smaller than the threshold. |
| GetDirectionalIrradiance() | Whether to generate directional irradiance output. |
| GetDirectionalVisibilityDirectionsPerByte() | Number of visibility samples to store per byte for precomputed directional visibility. |
| GetDirectionalVisibilitySlices() | Number of vertical sphere slices for precomputed directional visibility storage. |
| GetEdgeStitching() | Whether to use edge stitching. |
| GetEdgeStitchingDistanceMultiplier() | Maximum distance between edges for them to be stitchable, as a multiple of output pixel size. |
| GetEnvironmentResolution() | The resolution for each face of the environment map. |
| GetExcludeEnvironmentInPrimaryBounce() | Whether to exclude the environment form factors from the rad core data which is used for solving to the lightmap. |
| GetGenerateClusterProbeSampleOffsets() | Whether to generate per cluster offsets for sampling probes. |
| GetHQVisWeight() | High quality clustering visibility weighting. |
| GetImportance() | A relative importance multiplier for this system in the global light transport step. |
| GetIrradianceBudget() | The number of form factors to store per irradiance output sample. |
| GetIrradiancePushOff() | Push off for irradiance form factor rays, in cm. |
| GetIrradianceQuality() | The number of rays to cast for computing irradiance form factors. |
| GetITBudget() | Maximum number of clustering iterations. |
| GetLCEpsilon() | Clustering iteration termination error threshold. |
| GetMaxSamples() | Maximum number of input samples for a system. |
| GetMaxSolutionSize() | The maximum size of an output system, in pixels. |
| GetMinSamples() | Minimum number of input samples for a system. |
| GetMinSolutionSize() | The minimum size of an output system, in pixels. |
| GetModellingTolerance() | Radius controlling how close ray origins can be to other geometry, in cm. |
| GetNSBudget() | Number of per-triangle visibility samples to use for computing triangle visibility and input sample visibility. |
| GetNumTerrainLODLevels() | If terrain LODs are being generated, specifies how many LODs to generate. |
| GetPixelStitching() | Whether to use pixel stitching. |
| GetPixelStitchingNormalDotProduct() | Maximum dot product of normals for pixels to be stitchable. |
| GetSafe16BitClustering() | High quality clustering visibility weighting. |
| GetSampleCullingThreshold() | Threshold controlling input (duster) sample culling behaviour. |
| GetSamplesPerCluster() | The number of input samples per cluster. |
| GetShadowFaces() | Deprecated ShadowFace API. |
| GetStitchingDistanceMultiplier() | Maximum distance between charts for them to be stitchable, as a multiple of output pixel size. |
| GetStitchingNormalDotProduct() | Maximum dot product of normals for charts to be stitchable. |
| GetTriangleCullingThreshold() | Threshold controlling visibility-based cluster triangle culling behaviour. |
| GetValidOverhangDistance() | The valid overhang distance for mesh projection. |
| GetViewsDisabled() | Whether to disable viewsets. |
| GetViewVoxelMultiplier() | Size of voxel grid to use for automatic viewsets, as a multiplier of (minimum) output pixel size. |
| GetVisibilityThreshold() | The error allowed for reducing the number of form factors for each spherical output sample. |
| Load(Geo::IGeoInputStream &, Geo::u32) | Load an instance of this class from an IGeoStream. |
| RequiresTerrainLODs() | Whether to create "terrain" LODs. |
| RequiresTerrainPackingPadding() | If terrain LODs are being generated, specifies whether half a pixel padding should be added to final terrain system atlas. |
| Save(Geo::IGeoStream &, Geo::u32) | Save an instance of this class to an IGeoStream. |
| SetAlignedEdgeStitching(bool) | Whether to use edge stitching. |
| SetBackFaceTolerance(float) | Whether to reject ray origins which can see any back face (if false, we only reject ray origins if they see nothing but back faces). |
| SetClusterSize(float) | The size of an input cluster. |
| SetClusterTolerance(float) | The strictness with which the geometry is voxelised during preclustering. |
| SetComputeRayOriginOutput(bool) | General Debugging Options -------------------------------------------------- Whether to compute ray origin output during light transport. |
| SetCTDiv(float) | Number of children per node in the cluster hierarchy. |
| SetDependencyIncludedSystemDistance(float) | Bounding box of the system whose dependencies are being calculated is expanded by this distance in all directions. |
| SetDependencyLocalityDistance(float) | Maximum distance at which a given system will be considered local. |
| SetDependencyVisibilityThreshold(float) | Do not consider a system as a dependency if its visibility is smaller than the threshold. |
| SetDirectionalIrradiance(bool) | Whether to generate directional irradiance output. |
| SetDirectionalVisibilityDirectionsPerByte(Geo::s32) | Number of visibility samples to store per byte for precomputed directional visibility. |
| SetDirectionalVisibilitySlices(Geo::s32) | Number of vertical sphere slices for precomputed directional visibility storage. |
| SetEdgeStitching(bool) | Whether to use edge stitching. |
| SetEdgeStitchingDistanceMultiplier(float) | Maximum distance between edges for them to be stitchable, as a multiple of output pixel size. |
| SetEnvironmentResolution(Geo::s32) | The resolution for each face of the environment map. |
| SetExcludeEnvironmentInPrimaryBounce(bool) | Whether to exclude the environment form factors from the rad core data which is used for solving to the lightmap. |
| SetGenerateClusterProbeSampleOffsets(bool) | Whether to generate per cluster offsets for sampling probes. |
| SetHQVisWeight(float) | High quality clustering visibility weighting. |
| SetImportance(float) | A relative importance multiplier for this system in the global light transport step. |
| SetIrradianceBudget(Geo::s32) | The number of form factors to store per irradiance output sample. |
| SetIrradiancePushOff(float) | Push off for irradiance form factor rays, in cm. |
| SetIrradianceQuality(Geo::s32) | The number of rays to cast for computing irradiance form factors. |
| SetITBudget(Geo::s32) | Maximum number of clustering iterations. |
| SetLCEpsilon(float) | Clustering iteration termination error threshold. |
| SetMaxSamples(Geo::s32) | Maximum number of input samples for a system. |
| SetMaxSolutionSize(Geo::s32, Geo::s32) | The maximum size of an output system, in pixels. |
| SetMinSamples(Geo::s32) | Minimum number of input samples for a system. |
| SetMinSolutionSize(Geo::s32, Geo::s32) | The minimum size of an output system, in pixels. |
| SetModellingTolerance(float) | Radius controlling how close ray origins can be to other geometry, in cm. |
| SetNSBudget(Geo::s32) | Number of per-triangle visibility samples to use for computing triangle visibility and input sample visibility. |
| SetNumTerrainLODLevels(Geo::s32) | If terrain LODs are being generated, specifies how many LODs to generate. |
| SetPixelStitching(bool) | Whether to use pixel stitching. |
| SetPixelStitchingNormalDotProduct(float) | Maximum dot product of normals for pixels to be stitchable. |
| SetRequiresTerrainLODs(bool) | Whether to create "terrain" LODs. |
| SetRequiresTerrainPackingPadding(bool) | If terrain LODs are being generated, specifies whether half a pixel padding should be added to final terrain system atlas. |
| SetSafe16BitClustering(bool) | Whether to enforce that clustering creates no more than 65535 clusters such that a cluster index will fit in an unsigned integer. |
| SetSampleCullingThreshold(float) | Threshold controlling input (duster) sample culling behaviour. |
| SetSamplesPerCluster(Geo::s32) | The number of input samples per cluster. |
| SetShadowFaces(Geo::s32) | Deprecated ShadowFace API. |
| SetStitchingDistanceMultiplier(float) | Maximum distance between charts for them to be stitchable, as a multiple of output pixel size. |
| SetStitchingNormalDotProduct(float) | Maximum dot product of normals for charts to be stitchable. |
| SetTriangleCullingThreshold(float) | Threshold controlling visibility-based cluster triangle culling behaviour. |
| SetValidOverhangDistance(Geo::s32) | The valid overhang distance for mesh projection. |
| SetViewsDisabled(bool) | Whether to disable viewsets. |
| SetViewVoxelMultiplier(float) | Size of voxel grid to use for automatic viewsets, as a multiplier of (minimum) output pixel size. |
| SetVisibilityThreshold(float) | The error allowed for reducing the number of form factors for each spherical output sample. |
virtual bool Enlighten::IPrecompBuildParameters::GetAlignedEdgeStitching
public: bool GetAlignedEdgeStitching() const
Whether to use edge stitching.
virtual float Enlighten::IPrecompBuildParameters::GetBackFaceTolerance
public: float GetBackFaceTolerance() const
Whether to reject ray origins which can see any back face (if false, we only reject ray origins if they see nothing but back faces).
virtual float Enlighten::IPrecompBuildParameters::GetClusterSize
public: float GetClusterSize() const
The size of an input cluster.
virtual float Enlighten::IPrecompBuildParameters::GetClusterTolerance
public: float GetClusterTolerance() const
The strictness with which the geometry is voxelised during preclustering.
virtual bool Enlighten::IPrecompBuildParameters::GetComputeRayOriginOutput
public: bool GetComputeRayOriginOutput() const
General Debugging Options -------------------------------------------------- Whether to compute ray origin output during light transport.
Ray origin output is useful for debugging radiosity issues. The default value is false.
virtual float Enlighten::IPrecompBuildParameters::GetCTDiv
public: float GetCTDiv() const
Number of children per node in the cluster hierarchy.
static const IPrecompBuildParameters* Enlighten::IPrecompBuildParameters::GetDefaultValues
public: const IPrecompBuildParameters * GetDefaultValues()
Returns a set of build parameters representing the defaults.
virtual float Enlighten::IPrecompBuildParameters::GetDependencyIncludedSystemDistance
public: float GetDependencyIncludedSystemDistance() const
Bounding box of the system whose dependencies are being calculated is expanded by this distance in all directions.
All systems whose bounding boxes intersect this expanded bounding box will be fully represented in ray tracing when calculating dependencies. Other systems will be represented as bounding boxes only.
virtual float Enlighten::IPrecompBuildParameters::GetDependencyLocalityDistance
public: float GetDependencyLocalityDistance() const
Maximum distance at which a given system will be considered local.
virtual float Enlighten::IPrecompBuildParameters::GetDependencyVisibilityThreshold
public: float GetDependencyVisibilityThreshold() const
Do not consider a system as a dependency if its visibility is smaller than the threshold.
Specify 0 to accept systems with any visibility.
virtual bool Enlighten::IPrecompBuildParameters::GetDirectionalIrradiance
public: bool GetDirectionalIrradiance() const
Whether to generate directional irradiance output.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetDirectionalVisibilityDirectionsPerByte
public: Geo::s32 GetDirectionalVisibilityDirectionsPerByte() const
Number of visibility samples to store per byte for precomputed directional visibility.
The default value is 4 (2 bits per direction). Valid values are 1,2,4 and 8. 8 produces the best compression, 1 the best quality. 4 produces the best size / quality balance.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetDirectionalVisibilitySlices
public: Geo::s32 GetDirectionalVisibilitySlices() const
Number of vertical sphere slices for precomputed directional visibility storage.
The number of sampled visibility directions will be roughly the square of this number. Defaults to 27 (875 sampled directions). Valid values range between 2 and 64.
virtual bool Enlighten::IPrecompBuildParameters::GetEdgeStitching
public: bool GetEdgeStitching() const
Whether to use edge stitching.
virtual float Enlighten::IPrecompBuildParameters::GetEdgeStitchingDistanceMultiplier
public: float GetEdgeStitchingDistanceMultiplier() const
Maximum distance between edges for them to be stitchable, as a multiple of output pixel size.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetEnvironmentResolution
public: Geo::s32 GetEnvironmentResolution() const
The resolution for each face of the environment map.
virtual bool Enlighten::IPrecompBuildParameters::GetExcludeEnvironmentInPrimaryBounce
public: bool GetExcludeEnvironmentInPrimaryBounce() const
Whether to exclude the environment form factors from the rad core data which is used for solving to the lightmap.
virtual bool Enlighten::IPrecompBuildParameters::GetGenerateClusterProbeSampleOffsets
public: bool GetGenerateClusterProbeSampleOffsets() const
Whether to generate per cluster offsets for sampling probes.
virtual float Enlighten::IPrecompBuildParameters::GetHQVisWeight
public: float GetHQVisWeight() const
High quality clustering visibility weighting.
A value of 0 means that only position information is used for clustering, a value of 1 means only visibility information is used. Generally, a value close to 1 should be used..
virtual float Enlighten::IPrecompBuildParameters::GetImportance
public: float GetImportance() const
A relative importance multiplier for this system in the global light transport step.
The default value is 1.0. Higher values should only be used for area light geometry in its own dedicated system (which is known to be a bright source of illumination at precompute time). Setting a high importance will ensure that the area light geometry is retained during the light transport compression step. If you use a high importance multiplier, you should also ensure that area lights have as few clusters as possible.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetIrradianceBudget
public: Geo::s32 GetIrradianceBudget() const
The number of form factors to store per irradiance output sample.
virtual float Enlighten::IPrecompBuildParameters::GetIrradiancePushOff
public: float GetIrradiancePushOff() const
Push off for irradiance form factor rays, in cm.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetIrradianceQuality
public: Geo::s32 GetIrradianceQuality() const
The number of rays to cast for computing irradiance form factors.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetITBudget
public: Geo::s32 GetITBudget() const
Maximum number of clustering iterations.
virtual float Enlighten::IPrecompBuildParameters::GetLCEpsilon
public: float GetLCEpsilon() const
Clustering iteration termination error threshold.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetMaxSamples
public: Geo::s32 GetMaxSamples() const
Maximum number of input samples for a system.
virtual Geo::GeoPair<Geo::s32, Geo::s32> Enlighten::IPrecompBuildParameters::GetMaxSolutionSize
public: Geo::GeoPair< Geo::s32, Geo::s32 > GetMaxSolutionSize() const
The maximum size of an output system, in pixels.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetMinSamples
public: Geo::s32 GetMinSamples() const
Minimum number of input samples for a system.
virtual Geo::GeoPair<Geo::s32, Geo::s32> Enlighten::IPrecompBuildParameters::GetMinSolutionSize
public: Geo::GeoPair< Geo::s32, Geo::s32 > GetMinSolutionSize() const
The minimum size of an output system, in pixels.
virtual float Enlighten::IPrecompBuildParameters::GetModellingTolerance
public: float GetModellingTolerance() const
Radius controlling how close ray origins can be to other geometry, in cm.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetNSBudget
public: Geo::s32 GetNSBudget() const
Number of per-triangle visibility samples to use for computing triangle visibility and input sample visibility.
These visibilities are used by the clustering metric, triangle and input sample culling.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetNumTerrainLODLevels
public: Geo::s32 GetNumTerrainLODLevels() const
If terrain LODs are being generated, specifies how many LODs to generate.
virtual bool Enlighten::IPrecompBuildParameters::GetPixelStitching
public: bool GetPixelStitching() const
Whether to use pixel stitching.
virtual float Enlighten::IPrecompBuildParameters::GetPixelStitchingNormalDotProduct
public: float GetPixelStitchingNormalDotProduct() const
Maximum dot product of normals for pixels to be stitchable.
virtual bool Enlighten::IPrecompBuildParameters::GetSafe16BitClustering
public: bool GetSafe16BitClustering() const
High quality clustering visibility weighting.
A value of 0 means that only position information is used for clustering, a value of 1 means only visibility information is used. Generally, a value close to 1 should be used..
virtual float Enlighten::IPrecompBuildParameters::GetSampleCullingThreshold
public: float GetSampleCullingThreshold() const
Threshold controlling input (duster) sample culling behaviour.
If the visibility of the sample is less than this threshold the sample is culled. Visibility is defined as the fraction of visible front-faces over the number of samples used for visibility (NSBudget). A value of 0, turns off sample culling. A value of 1 rejects the sample if any back-face is visible.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetSamplesPerCluster
public: Geo::s32 GetSamplesPerCluster() const
The number of input samples per cluster.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetShadowFaces
public: Geo::s32 GetShadowFaces() const
Deprecated ShadowFace API.
Which faces of the input geometry should block incoming light when calculating shadows for directional visibility. This is now a material setting, set on the m_ShadowfaceBehaviourType member of the Enlighten::PrecompMaterialInfo passed to IPrecompInputSystem::SetMaterialInfo(). To aid migration, values set with this deprecated API will be preferred over values set with the new material API. The default value is kShadowFaceUseMaterialAPI.
virtual float Enlighten::IPrecompBuildParameters::GetStitchingDistanceMultiplier
public: float GetStitchingDistanceMultiplier() const
Maximum distance between charts for them to be stitchable, as a multiple of output pixel size.
virtual float Enlighten::IPrecompBuildParameters::GetStitchingNormalDotProduct
public: float GetStitchingNormalDotProduct() const
Maximum dot product of normals for charts to be stitchable.
virtual float Enlighten::IPrecompBuildParameters::GetTriangleCullingThreshold
public: float GetTriangleCullingThreshold() const
Threshold controlling visibility-based cluster triangle culling behaviour.
If the visibility of the triangle is less than this threshold the triangle is rejected and not part of the clustering; thus it will get no input samples. Visibility is defined as the fraction of visible front-faces over the hemisphere of the cluster. A value of 0 turns off visibility-based cluster triangle culling. A value of 1 rejects the cluster triangle if any back-face is visible.
virtual Geo::s32 Enlighten::IPrecompBuildParameters::GetValidOverhangDistance
public: Geo::s32 GetValidOverhangDistance() const
The valid overhang distance for mesh projection.
Controls the number of pixels that detail charts should be allowed to overhang target charts before we consider the overhang to be 'naughty' and appear in the DoDebugColouring output. The default is 1 pixel. Zero or negative numbers are valid and imply no overhang is valid.
virtual bool Enlighten::IPrecompBuildParameters::GetViewsDisabled
public: bool GetViewsDisabled() const
Whether to disable viewsets.
virtual float Enlighten::IPrecompBuildParameters::GetViewVoxelMultiplier
public: float GetViewVoxelMultiplier() const
Size of voxel grid to use for automatic viewsets, as a multiplier of (minimum) output pixel size.
virtual float Enlighten::IPrecompBuildParameters::GetVisibilityThreshold
public: float GetVisibilityThreshold() const
The error allowed for reducing the number of form factors for each spherical output sample.
virtual bool Enlighten::IPrecompBuildParameters::Load
public: bool Load
(
Geo::IGeoInputStream & stream,
Geo::u32 section
)
Load an instance of this class from an IGeoStream.
virtual bool Enlighten::IPrecompBuildParameters::RequiresTerrainLODs
public: bool RequiresTerrainLODs() const
Whether to create "terrain" LODs.
virtual bool Enlighten::IPrecompBuildParameters::RequiresTerrainPackingPadding
public: bool RequiresTerrainPackingPadding() const
If terrain LODs are being generated, specifies whether half a pixel padding should be added to final terrain system atlas.
Setting to false enables world-space packing.
virtual bool Enlighten::IPrecompBuildParameters::Save
public: bool Save
(
Geo::IGeoStream & stream,
Geo::u32 section
) const
Save an instance of this class to an IGeoStream.
virtual void Enlighten::IPrecompBuildParameters::SetAlignedEdgeStitching
public: void SetAlignedEdgeStitching
(
bool b
)
Whether to use edge stitching.
virtual void Enlighten::IPrecompBuildParameters::SetBackFaceTolerance
public: void SetBackFaceTolerance
(
float v
)
Whether to reject ray origins which can see any back face (if false, we only reject ray origins if they see nothing but back faces).
virtual void Enlighten::IPrecompBuildParameters::SetClusterSize
public: void SetClusterSize
(
float s
)
The size of an input cluster.
virtual void Enlighten::IPrecompBuildParameters::SetClusterTolerance
public: void SetClusterTolerance
(
float s
)
The strictness with which the geometry is voxelised during preclustering.
virtual void Enlighten::IPrecompBuildParameters::SetComputeRayOriginOutput
public: void SetComputeRayOriginOutput
(
bool b
)
General Debugging Options -------------------------------------------------- Whether to compute ray origin output during light transport.
Ray origin output is useful for debugging radiosity issues. The default value is false.
virtual void Enlighten::IPrecompBuildParameters::SetCTDiv
public: void SetCTDiv
(
float v
)
Number of children per node in the cluster hierarchy.
virtual void Enlighten::IPrecompBuildParameters::SetDependencyIncludedSystemDistance
public: void SetDependencyIncludedSystemDistance
(
float v
)
Bounding box of the system whose dependencies are being calculated is expanded by this distance in all directions.
All systems whose bounding boxes intersect this expanded bounding box will be fully represented in ray tracing when calculating dependencies. Other systems will be represented as bounding boxes only.
virtual void Enlighten::IPrecompBuildParameters::SetDependencyLocalityDistance
public: void SetDependencyLocalityDistance
(
float v
)
Maximum distance at which a given system will be considered local.
virtual void Enlighten::IPrecompBuildParameters::SetDependencyVisibilityThreshold
public: void SetDependencyVisibilityThreshold
(
float v
)
Do not consider a system as a dependency if its visibility is smaller than the threshold.
Specify 0 to accept systems with any visibility.
virtual void Enlighten::IPrecompBuildParameters::SetDirectionalIrradiance
public: void SetDirectionalIrradiance
(
bool b
)
Whether to generate directional irradiance output.
virtual void Enlighten::IPrecompBuildParameters::SetDirectionalVisibilityDirectionsPerByte
public: void SetDirectionalVisibilityDirectionsPerByte
(
Geo::s32 v
)
Number of visibility samples to store per byte for precomputed directional visibility.
The default value is 4 (2 bits per direction). Valid values are 1,2,4 and 8. 8 produces the best compression, 1 the best quality. 4 produces the best size / quality balance.
virtual void Enlighten::IPrecompBuildParameters::SetDirectionalVisibilitySlices
public: void SetDirectionalVisibilitySlices
(
Geo::s32 v
)
Number of vertical sphere slices for precomputed directional visibility storage.
The number of sampled visibility directions will be roughly the square of this number. Defaults to 27 (875 sampled directions). Valid values range between 2 and 64.
virtual void Enlighten::IPrecompBuildParameters::SetEdgeStitching
public: void SetEdgeStitching
(
bool b
)
Whether to use edge stitching.
virtual void Enlighten::IPrecompBuildParameters::SetEdgeStitchingDistanceMultiplier
public: void SetEdgeStitchingDistanceMultiplier
(
float v
)
Maximum distance between edges for them to be stitchable, as a multiple of output pixel size.
virtual void Enlighten::IPrecompBuildParameters::SetEnvironmentResolution
public: void SetEnvironmentResolution
(
Geo::s32 v
)
The resolution for each face of the environment map.
virtual void Enlighten::IPrecompBuildParameters::SetExcludeEnvironmentInPrimaryBounce
public: void SetExcludeEnvironmentInPrimaryBounce
(
bool b
)
Whether to exclude the environment form factors from the rad core data which is used for solving to the lightmap.
virtual void Enlighten::IPrecompBuildParameters::SetGenerateClusterProbeSampleOffsets
public: void SetGenerateClusterProbeSampleOffsets
(
bool b
)
Whether to generate per cluster offsets for sampling probes.
virtual void Enlighten::IPrecompBuildParameters::SetHQVisWeight
public: void SetHQVisWeight
(
float v
)
High quality clustering visibility weighting.
A value of 0 means that only position information is used for clustering, a value of 1 means only visibility information is used. Generally, a value close to 1 should be used..
virtual void Enlighten::IPrecompBuildParameters::SetImportance
public: void SetImportance
(
float s
)
A relative importance multiplier for this system in the global light transport step.
The default value is 1.0. Higher values should only be used for area light geometry in its own dedicated system (which is known to be a bright source of illumination at precompute time). Setting a high importance will ensure that the area light geometry is retained during the light transport compression step. If you use a high importance multiplier, you should also ensure that area lights have as few clusters as possible.
virtual void Enlighten::IPrecompBuildParameters::SetIrradianceBudget
public: void SetIrradianceBudget
(
Geo::s32 v
)
The number of form factors to store per irradiance output sample.
virtual void Enlighten::IPrecompBuildParameters::SetIrradiancePushOff
public: void SetIrradiancePushOff
(
float v
)
Push off for irradiance form factor rays, in cm.
virtual void Enlighten::IPrecompBuildParameters::SetIrradianceQuality
public: void SetIrradianceQuality
(
Geo::s32 v
)
The number of rays to cast for computing irradiance form factors.
virtual void Enlighten::IPrecompBuildParameters::SetITBudget
public: void SetITBudget
(
Geo::s32 v
)
Maximum number of clustering iterations.
virtual void Enlighten::IPrecompBuildParameters::SetLCEpsilon
public: void SetLCEpsilon
(
float v
)
Clustering iteration termination error threshold.
virtual void Enlighten::IPrecompBuildParameters::SetMaxSamples
public: void SetMaxSamples
(
Geo::s32 max
)
Maximum number of input samples for a system.
virtual void Enlighten::IPrecompBuildParameters::SetMaxSolutionSize
public: void SetMaxSolutionSize
(
Geo::s32 x,
Geo::s32 y
)
The maximum size of an output system, in pixels.
virtual void Enlighten::IPrecompBuildParameters::SetMinSamples
public: void SetMinSamples
(
Geo::s32 min
)
Minimum number of input samples for a system.
virtual void Enlighten::IPrecompBuildParameters::SetMinSolutionSize
public: void SetMinSolutionSize
(
Geo::s32 x,
Geo::s32 y
)
The minimum size of an output system, in pixels.
virtual void Enlighten::IPrecompBuildParameters::SetModellingTolerance
public: void SetModellingTolerance
(
float v
)
Radius controlling how close ray origins can be to other geometry, in cm.
virtual void Enlighten::IPrecompBuildParameters::SetNSBudget
public: void SetNSBudget
(
Geo::s32 v
)
Number of per-triangle visibility samples to use for computing triangle visibility and input sample visibility.
These visibilities are used by the clustering metric, triangle and input sample culling.
virtual void Enlighten::IPrecompBuildParameters::SetNumTerrainLODLevels
public: void SetNumTerrainLODLevels
(
Geo::s32 v
)
If terrain LODs are being generated, specifies how many LODs to generate.
virtual void Enlighten::IPrecompBuildParameters::SetPixelStitching
public: void SetPixelStitching
(
bool b
)
Whether to use pixel stitching.
virtual void Enlighten::IPrecompBuildParameters::SetPixelStitchingNormalDotProduct
public: void SetPixelStitchingNormalDotProduct
(
float v
)
Maximum dot product of normals for pixels to be stitchable.
virtual void Enlighten::IPrecompBuildParameters::SetRequiresTerrainLODs
public: void SetRequiresTerrainLODs
(
bool b
)
Whether to create "terrain" LODs.
virtual void Enlighten::IPrecompBuildParameters::SetRequiresTerrainPackingPadding
public: void SetRequiresTerrainPackingPadding
(
bool b
)
If terrain LODs are being generated, specifies whether half a pixel padding should be added to final terrain system atlas.
Setting to false enables world-space packing.
virtual void Enlighten::IPrecompBuildParameters::SetSafe16BitClustering
public: void SetSafe16BitClustering
(
bool v
)
Whether to enforce that clustering creates no more than 65535 clusters such that a cluster index will fit in an unsigned integer.
virtual void Enlighten::IPrecompBuildParameters::SetSampleCullingThreshold
public: void SetSampleCullingThreshold
(
float v
)
Threshold controlling input (duster) sample culling behaviour.
If the visibility of the sample is less than this threshold the sample is culled. Visibility is defined as the fraction of visible front-faces over the number of samples used for visibility (NSBudget). A value of 0, turns off sample culling. A value of 1 rejects the sample if any back-face is visible.
virtual void Enlighten::IPrecompBuildParameters::SetSamplesPerCluster
public: void SetSamplesPerCluster
(
Geo::s32 v
)
The number of input samples per cluster.
virtual void Enlighten::IPrecompBuildParameters::SetShadowFaces
public: void SetShadowFaces
(
Geo::s32 shadowFaces
)
Deprecated ShadowFace API.
Which faces of the input geometry should block incoming light when calculating shadows for directional visibility. This is now a material setting, set on the m_ShadowfaceBehaviourType member of the Enlighten::PrecompMaterialInfo passed to IPrecompInputSystem::SetMaterialInfo(). To aid migration, values set with this deprecated API will be preferred over values set with the new material API. The default value is kShadowFaceUseMaterialAPI.
virtual void Enlighten::IPrecompBuildParameters::SetStitchingDistanceMultiplier
public: void SetStitchingDistanceMultiplier
(
float v
)
Maximum distance between charts for them to be stitchable, as a multiple of output pixel size.
virtual void Enlighten::IPrecompBuildParameters::SetStitchingNormalDotProduct
public: void SetStitchingNormalDotProduct
(
float v
)
Maximum dot product of normals for charts to be stitchable.
virtual void Enlighten::IPrecompBuildParameters::SetTriangleCullingThreshold
public: void SetTriangleCullingThreshold
(
float v
)
Threshold controlling visibility-based cluster triangle culling behaviour.
If the visibility of the triangle is less than this threshold the triangle is rejected and not part of the clustering; thus it will get no input samples. Visibility is defined as the fraction of visible front-faces over the hemisphere of the cluster. A value of 0 turns off visibility-based cluster triangle culling. A value of 1 rejects the cluster triangle if any back-face is visible.
virtual void Enlighten::IPrecompBuildParameters::SetValidOverhangDistance
public: void SetValidOverhangDistance
(
Geo::s32 v
)
The valid overhang distance for mesh projection.
Controls the number of pixels that detail charts should be allowed to overhang target charts before we consider the overhang to be 'naughty' and appear in the DoDebugColouring output. The default is 1 pixel. Zero or negative numbers are valid and imply no overhang is valid.
virtual void Enlighten::IPrecompBuildParameters::SetViewsDisabled
public: void SetViewsDisabled
(
bool b
)
Whether to disable viewsets.
virtual void Enlighten::IPrecompBuildParameters::SetViewVoxelMultiplier
public: void SetViewVoxelMultiplier
(
float v
)
Size of voxel grid to use for automatic viewsets, as a multiplier of (minimum) output pixel size.
virtual void Enlighten::IPrecompBuildParameters::SetVisibilityThreshold
public: void SetVisibilityThreshold
(
float v
)
The error allowed for reducing the number of form factors for each spherical output sample.