This is the documentation for Enlighten.
module Extended Input Lighting
The extended input lighting api.
Classes
Name | Description |
---|---|
Enlighten::DirectInputLightingParameters | A class containing the parameters to be used as input to the direct input lighting stage. |
Enlighten::IncidentLightingBuffer | A buffer containing the incident lighting for a system's input sample points (internal). |
Enlighten::IndirectInputLightingParameters | A class containing the parameters to be used as input to the indirect input lighting stage. |
Enlighten::TransparencyWorkspace | Workspace used for authored destruction of lightmapped geometry (internal). |
Functions
bool GEO_CALL Enlighten::AddDusterValuesToInputWorkspace
public: bool GEO_CALL AddDusterValuesToInputWorkspace
(
  const InputWorkspace * workspaceMemory,
  Enlighten::IncidentLightingBuffer * output,
  const Geo::v128 * dusterValues
)
Adds light values laid out in a duster block to an Enlighten input workspace.
Parameters
[in] | workspaceMemory | The input workspace memory block. |
[in] | output | The incident lighting buffer to fill with data. |
[in] | dusterValues | The linear light colour values for the duster array of point samples. The duster (its size, positions, normals etc.) must match the one originally passed to CreateInputWorkspace. |
void GEO_CALL Enlighten::ApplyVolumeTransparency
public: void GEO_CALL ApplyVolumeTransparency
(
  const InputWorkspace * inputWorkspace,
  TransparencyWorkspace * transparencyWorkspace,
  const SphereVolume & volume
)
Mark the quads transparency value using a sphere volume.
Parameters
[in] | inputWorkspace | The input workspace for the system |
[out] | transparencyWorkspace | The TransparencyWorkspace for the system |
[in] | volume | The volume primitive to use to mark the quads |
void GEO_CALL Enlighten::ApplyVolumeTransparency
public: void GEO_CALL ApplyVolumeTransparency
(
  const InputWorkspace * inputWorkspace,
  TransparencyWorkspace * transparencyWorkspace,
  const BoxVolume & volume
)
Mark the quads transparency value using a box volume.
Parameters
[in] | inputWorkspace | The input workspace for the system |
[out] | transparencyWorkspace | The TransparencyWorkspace for the system |
[in] | volume | The volume primitive to use to mark the quads |
Geo::u32 GEO_CALL Enlighten::CalcBounceBufferSize
public: Geo::u32GEO_CALL CalcBounceBufferSize
(
  const Enlighten::InputWorkspace * inputWorkspace,
  PrecisionHint::Value precision
)
Tells you the amount of memory required to hold bounce lighting for a given system.
Parameters
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | precision | The hint to what floating point precision to use. |
Returns
Required memory in bytes, 0xFFFFFFFF upon error.
Geo::u32 GEO_CALL Enlighten::CalcIncidentLightingBufferSize
public: Geo::u32GEO_CALL CalcIncidentLightingBufferSize
(
  const Enlighten::InputWorkspace * inputWorkspace,
  PrecisionHint::Value precision
)
Tells you the amount of memory required to hold incident lighting for a given system.
Parameters
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | precision | The hint to what floating point precision to use. |
Returns
Required memory in bytes, 0xFFFFFFFF upon error.
size_t Enlighten::CalcRequiredScratchSpaceMemory
public: size_t CalcRequiredScratchSpaceMemory
(
  InputLightBase ** lights,
  Geo::u32 numLights
)
Calculate how much scratchspace memory will be required by the DoDirectInputLighting() function given the lights to be shaded.
Parameters
[in] | lights | An array of pointers to input lights. |
[in] | numLights | The number of light pointers in the array. |
Returns
Required memory in bytes
Geo::u32 GEO_CALL Enlighten::CalcTransparencyWorkspaceSize
public: Geo::u32GEO_CALL CalcTransparencyWorkspaceSize
(
  const InputWorkspace * inputWorkspace,
  Geo::s32 numInterpolants,
  PrecisionHint::Value precision
)
Tells you the amount of memory required for the transparency workspace for a given system.
Parameters
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | numInterpolants | The maximum number of interpolants to use. |
[in] | precision | The floating point precision for intermediate values. |
Returns
Required memory in bytes, 0xFFFFFFFF upon error.
Geo::u32 GEO_CALL Enlighten::CalcTransparencyWorkspaceSize
public: Geo::u32GEO_CALL CalcTransparencyWorkspaceSize
(
  const InputWorkspace * inputWorkspace,
  Geo::s32 numInterpolants,
  Geo::s32 numLods,
  PrecisionHint::Value precision
)
Tells you the amount of memory required for the transparency workspace for a given system.
Parameters
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | numInterpolants | The maximum number of interpolants to use. |
[in] | precision | The floating point precision for intermediate values. |
[in] | numLods | The number of LODs to use. |
Returns
Required memory in bytes, 0xFFFFFFFF upon error.
bool GEO_CALL Enlighten::CompareBounceBuffers
public: bool GEO_CALL CompareBounceBuffers
(
  Geo::Statistics & res,
  const Enlighten::BounceBuffer * bufA,
  const Enlighten::BounceBuffer * bufB
)
Compares Returns true if the bounce buffers could be compared.
Parameters
[inout] | res | - The result of the comparison. Only written if the function succeeded. |
[in] | bufA | - The first BounceBuffer to compare. |
[in] | bufB | - The second BounceBuffer to compare. |
bool GEO_CALL Enlighten::CompareIncidentLightingBuffers
public: bool GEO_CALL CompareIncidentLightingBuffers
(
  Geo::Statistics & res,
  const Enlighten::IncidentLightingBuffer * bufA,
  const Enlighten::IncidentLightingBuffer * bufB
)
Compares Returns true if the lighting buffers could be compared.
Parameters
[inout] | res | - The result of the comparison. Only written if the function succeeded. |
[in] | bufA | - The first IncidentLightingBuffer to compare. |
[in] | bufB | - The second IncidentLightingBuffer to compare. |
Enlighten::BounceBuffer* GEO_CALL Enlighten::CreateBounceBuffer
public: Enlighten::BounceBuffer *GEO_CALL CreateBounceBuffer
(
  void * memory,
  const Enlighten::InputWorkspace * inputWorkspace,
  PrecisionHint::Value precision
)
Construct a BounceBuffer inside the memory provided.
Parameters
[in] | memory | A block of memory (size determined by CalcBounceBufferSize) to store the bounce buffer |
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | precision | The hint to what floating point precision to use. |
Enlighten::IncidentLightingBuffer* GEO_CALL Enlighten::CreateIncidentLightingBuffer
public: Enlighten::IncidentLightingBuffer *GEO_CALL CreateIncidentLightingBuffer
(
  void * memory,
  const Enlighten::InputWorkspace * inputWorkspace,
  PrecisionHint::Value precision
)
Construct an IncidentLightingBuffer inside the memory provided.
Parameters
[in] | memory | A block of memory (size determined by CalcIncidentLightingBufferSize) to store the lighting buffer |
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | precision | The hint to what floating point precision to use. |
TransparencyWorkspace* GEO_CALL Enlighten::CreateTransparencyWorkspace
public: TransparencyWorkspace *GEO_CALL CreateTransparencyWorkspace
(
  void * memory,
  const InputWorkspace * inputWorkspace,
  Geo::s32 numInterpolants,
  Geo::s32 numLods,
  PrecisionHint::Value precision
)
Construct an TransparencyWorkspace inside the memory provided.
Parameters
[in] | memory | A block of memory (size determined by CalcTransparencyWorkspaceSize) to store the workspace for pre-authored static destruction/transparency |
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | numInterpolants | The maximum number of interpolants to use. |
[in] | precision | The floating point precision for intermediate values. |
[in] | numLods | The number of LODs to use. |
TransparencyWorkspace* GEO_CALL Enlighten::CreateTransparencyWorkspace
public: TransparencyWorkspace *GEO_CALL CreateTransparencyWorkspace
(
  void * memory,
  const InputWorkspace * inputWorkspace,
  Geo::s32 numInterpolants,
  PrecisionHint::Value precision
)
Construct an TransparencyWorkspace inside the memory provided.
Parameters
[in] | memory | A block of memory (size determined by CalcTransparencyWorkspaceSize) to store the workspace for pre-authored static destruction/transparency |
[in] | inputWorkspace | The InputWorkspace for the system. |
[in] | numInterpolants | The maximum number of interpolants to use. |
[in] | precision | The floating point precision for intermediate values. |
bool Enlighten::DoDirectInputLighting
public: bool DoDirectInputLighting
(
  DirectInputLightingParameters * params,
  void * scratchspace,
  size_t scratchspacSize,
  Geo::u32 & timeUs
)
Do the Direct input lighting stage.
Parameters
[in] | params | A pointer to a complete DirectInputLightingParams object. |
[in] | scratchspace | A pointer to allocated scratchspace memory. This memory is only used for the duration of the call to this function. |
[in] | scratchspacSize | The size of the scratchspace memory calculated with CalcRequiredScratchSpaceMemory function. |
[out] | timeUs | Duration taken to solve the indirect input lighting phase. |
Returns
The number of light affecting the system after culling.
bool Enlighten::DoIndirectInputLighting
public: bool DoIndirectInputLighting
(
  IndirectInputLightingParameters * params,
  Geo::u32 & timeUs
)
Do the indirect input lighting stage.
Parameters
[in] | params | A pointer to a complete IndirectInputLightingParameters object. |
[out] | timeUs | Duration taken to solve the indirect input lighting phase. |
Returns
true on success
Geo::u32 GEO_CALL Enlighten::GetBounceBufferSize
public: Geo::u32GEO_CALL GetBounceBufferSize
(
  const Enlighten::BounceBuffer * bounceBuffer,
  PrecisionHint::Value precision
)
Returns the size of the specified BounceBuffer object.
Parameters
[in] | bounceBuffer | The BounceBuffer to query. |
[in] | precision | The hint to what floating point precision to use. |
Returns
Required memory in bytes, 0xFFFFFFFF upon error.
Geo::GeoGuid GEO_CALL Enlighten::GetBounceBufferSystemId
public: Geo::GeoGuidGEO_CALL GetBounceBufferSystemId
(
  const Enlighten::BounceBuffer * bounceBuffer
)
Get system id from BounceBuffer.
Parameters
[in] | bounceBuffer | The BounceBuffer to query. |
Geo::u32 GEO_CALL Enlighten::GetIncidentLightingBufferSize
public: Geo::u32GEO_CALL GetIncidentLightingBufferSize
(
  const Enlighten::IncidentLightingBuffer * incidentLightingBuffer,
  PrecisionHint::Value precision
)
Returns the size of the specified IncidentLightingBuffer object.
Parameters
[in] | incidentLightingBuffer | The IncidentLightingBuffer to query. |
[in] | precision | The hint to what floating point precision to use. |
Returns
Required memory in bytes, 0xFFFFFFFF upon error.
Geo::GeoGuid GEO_CALL Enlighten::GetIncidentLightingBufferSystemId
public: Geo::GeoGuidGEO_CALL GetIncidentLightingBufferSystemId
(
  const Enlighten::IncidentLightingBuffer * incidentLightingBuffer
)
Get system id from IncidentLightingBuffer.
Parameters
[in] | incidentLightingBuffer | The IncidentLightingBuffer to query. |
bool GEO_CALL Enlighten::SetTransparency
public: bool GEO_CALL SetTransparency
(
  const InputWorkspace * inputWorkspace,
  TransparencyWorkspace * transparencyWorkspace,
  float transparencyValue
)
Set all transparency values of transparencyWorkspace to the given value.
Parameters
[in] | inputWorkspace | The input workspace for the system |
[out] | transparencyWorkspace | The TransparencyWorkspace for the system |
[in] | transparencyValue | The value to reset all the quads in this system to |
void GEO_CALL Enlighten::UpdateTransparencyWorkspace
public: void GEO_CALL UpdateTransparencyWorkspace
(
  const InputWorkspace * inputWorkspace,
  TransparencyWorkspace * transparencyWorkspace,
  const InterpolationInputSet * interpolationInputs,
  Geo::s32 numInterpolationInputs,
  bool recomputeInterpolants
)
Update the transparency workspace with values calculated from interpolated probes.
Parameters
[in] | inputWorkspace | The input workspace for the system |
[out] | transparencyWorkspace | The workspace where intermediate probe results and other calculation results are stored |
[in] | interpolationInputs | An array of probesets to interpolate from |
[in] | numInterpolationInputs | The number of probesets in the array |
[in] | recomputeInterpolants | Whether or not to recompute the interpolants |
void GEO_CALL Enlighten::UpdateTransparencyWorkspace
public: void GEO_CALL UpdateTransparencyWorkspace
(
  const InputWorkspace * inputWorkspace,
  TransparencyWorkspace * transparencyWorkspace,
  Enlighten::IProbeSetManager * probeSetManager,
  bool recomputeInterpolants
)
Update the transparency workspace with values calculated from interpolated probes.
Parameters
[in] | inputWorkspace | The input workspace for the system |
[out] | transparencyWorkspace | The workspace where intermediate probe results and other calculation results are stored |
[in] | probeSetManager | The Probe Set Manager object that provides interface for probe interpolation |
[in] | recomputeInterpolants | Whether or not to recompute the interpolants |
bool GEO_CALL Enlighten::VerifyBounceBufferData
public: bool GEO_CALL VerifyBounceBufferData
(
  const Enlighten::BounceBuffer * bounceBuffer
)
Returns true if there are no NaN's or non-finite numbers in the specified BounceBuffer object.
Parameters
[in] | bounceBuffer | The BounceBuffer to query. |
bool GEO_CALL Enlighten::VerifyIncidentLightingBufferData
public: bool GEO_CALL VerifyIncidentLightingBufferData
(
  const Enlighten::IncidentLightingBuffer * incidentLightingBuffer
)
Returns true if there are no NaN's or non-finite numbers in the specified InputLightingBuffer object.
Parameters
[in] | incidentLightingBuffer | The IncidentLightingBuffer to query. |