#include <volumetools.h>

Detailed Description

VolumeToolsInterface provides methods to process volumes.

Static Public Member Functions
static MAXON_METHOD Result< BaseArray< String > >	GetGridNamesFromFile (const Url &filename)

static MAXON_METHOD Result< DataDictionary >	GetMetaDataFromFile (const Url &filename)

static MAXON_METHOD Result< BaseArray< Volume > >	LoadVDBFile (const Url &filename, Float scale, BaseArray< String > gridNames=nullptr, const BaseArray< Int > gridIndices=nullptr, DataDictionary *metaData=nullptr)

static MAXON_METHOD Result< void >	LoadGridIntoVolume (const Url &filename, Float scale, Int gridIndex, Volume &volume, DataDictionary *metaData=nullptr)

static MAXON_METHOD Result< void >	LoadAllGridsIntoVolumes (const Url &filename, Float scale, maxon::BaseArray< Volume > &volume, DataDictionary *metaData=nullptr)

static MAXON_METHOD Result< void >	SaveVDBFile (const Url &filename, Float scale, BaseArray< Volume > &volumes, const DataDictionary &metaData=DataDictionary())

static MAXON_METHOD Result< Volume >	BoolVolumes (const Volume &volumeOne, const Volume &volumeTwo, BOOLTYPE type)

static MAXON_METHOD Result< Volume >	MixVolumes (const Volume &volumeOne, const Volume &volumeTwo, MIXTYPE type)

static MAXON_METHOD Result< PolygonObject * >	VolumeToMesh (const Volume &volume, Float iso, Float adaptiveValue)

static MAXON_METHOD Result< Volume >	MeshToVolume (const Block< Vector > &vertices, const Block< VolumeConversionPolygon > &polygons, Matrix polygonObjectMatrix, Float gridSize, Int32 bandWidthInterior, Int32 bandWidthExterior, const ThreadRef &checkForCancellation, POLYGONCONVERSIONFLAGS conversionSettings=POLYGONCONVERSIONFLAGS::NONE, const Matrix *creationTransform=nullptr)

static MAXON_METHOD Result< Volume >	GeometryObjectToVolume (const Geometry &geometry, Matrix polygonObjectMatrix, Float gridSize, Int32 bandWidthInterior, Int32 bandWidthExterior, const ThreadRef &checkForCancellation, POLYGONCONVERSIONFLAGS conversionSettings=POLYGONCONVERSIONFLAGS::NONE, const Matrix *creationTransform=nullptr)

static MAXON_METHOD Result< Volume >	PointsToVolume (const DelegatePointObjectsPairList &pointObjects, Float gridSize, Int32 bandWidth, const ThreadRef &checkForCancellation, const Matrix *creationTransform=nullptr, Float velocityScale=0.0)

static MAXON_METHOD Result< Volume >	ApplySDFFilterToVolume (const Volume &volume, const SDFFilterSettings &filterType, const ThreadRef &checkForCancellation, const Volume maskVolume=nullptr, FieldSampleData maskField=nullptr)

static MAXON_METHOD Result< Volume >	ApplyFilterToVolume (const Volume &volume, const FilterSettings &filterType, const ThreadRef &checkForCancellation, const Volume maskVolume=nullptr, FieldSampleData maskField=nullptr)

static MAXON_METHOD Result< Volume >	ConvertFieldsToVolume (FieldSampleData &fieldData, Float gridSize, const Range< Vector > &sampleBox, const ThreadRef &checkForCancellation, const Volume volumeReference=nullptr, const Matrix creationTransform=nullptr)

static MAXON_METHOD Result< Volume >	ConvertSDFToFog (const Volume &volume, Float cutoff=LIMIT< Float >::MAX)

static MAXON_METHOD Result< Volume >	ConvertFogToSDF (const Volume &volume, Float iso, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	ResampleVolume (const Volume &volume, const Matrix &resampleTransform, const RESAMPLEINTERPOLATIONTYPE interpolationType, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	CreateMaskFromField (FieldSampleData &fieldData, const Volume &volumeReference, Float background, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	CreateNewFloat32Volume (Float32 background)

static MAXON_METHOD Result< Volume >	CreateGradientVolume (const Volume &volume, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	CreateSphereVolume (Float radius, const Vector &position, Float gridSize, Int32 bandWidth, const ThreadRef &checkForCancellation, const Matrix *creationTransform=nullptr)

static MAXON_METHOD Result< Volume >	CreatePlatonicVolume (Int32 sides, Float size, const Vector &position, Float gridSize, Int32 bandWidth, const ThreadRef &checkForCancellation, const Matrix *creationTransform=nullptr)

static MAXON_METHOD Result< Volume >	CreateNewVector32Volume (Vector32 background)

static MAXON_METHOD Result< Volume >	MixVectorVolumes (const Volume &volumeOne, const Volume &volumeTwo, MIXVECTORTYPE type)

static MAXON_METHOD Result< Volume >	ConvertFieldsToVectorVolume (FieldSampleData &fieldData, Float gridSize, const Range< Vector > &sampleBox, const ThreadRef &checkForCancellation, const Volume volumeReference=nullptr, const Matrix creationTransform=nullptr)

static MAXON_METHOD Result< Volume >	NormalizeVectorVolume (const Volume &volume, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	CreateCurlVolume (const Volume &volume, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	CreateMeanCurvatureVolume (const Volume &volume, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	RotateVectorVolume (const Volume &volume, const Vector &rotationAxis, const Float angle, const ThreadRef &checkForCancellation, FieldSampleData *maskField=nullptr)

static MAXON_METHOD Result< Volume >	ConvertVectorToFog (const Volume &volume, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	BlendVolumes (const Volume &volumeA, const Volume &volumeB, const Float blendValue, const ThreadRef &checkForCancellation)

static MAXON_METHOD Result< Volume >	SmoothBoolVolumes (const Volume &volumeOne, const Volume &volumeTwo, BOOLTYPE type, Float radius)

static MAXON_METHOD Result< Array< Vector > >	ScatterPointsInFog (const Volume &volume, UInt64 pointCount, Float spread)

Private Member Functions
	MAXON_INTERFACE_NONVIRTUAL (VolumeToolsInterface, MAXON_REFERENCE_NONE, "net.maxon.volume.interface.volumetools")

Member Function Documentation

◆ MAXON_INTERFACE_NONVIRTUAL()

MAXON_INTERFACE_NONVIRTUAL	(	VolumeToolsInterface	,
		MAXON_REFERENCE_NONE	,
		"net.maxon.volume.interface.volumetools"
	)

private

◆ GetGridNamesFromFile()

static MAXON_METHOD Result<BaseArray<String> > GetGridNamesFromFile ( const Url & filename )

static

Read and return the gridnames from a .vdb file.

Parameters

[in] filename The url of the file.

Returns: A list of strings that represent the grid names in the .vdb file.

◆ GetMetaDataFromFile()

static MAXON_METHOD Result<DataDictionary> GetMetaDataFromFile ( const Url & filename )

static

Read and return the metadata from a .vdb file.

Parameters

[in] filename The url of the file.

Returns: A data dictionary with metadata stored under string keys.

◆ LoadVDBFile()

static MAXON_METHOD Result<BaseArray<Volume> > LoadVDBFile	(	const Url &	filename,
		Float	scale,
		BaseArray< String > *	gridNames = `nullptr`,
		const BaseArray< Int > *	gridIndices = `nullptr`,
		DataDictionary *	metaData = `nullptr`
	)

static

Loads volumes from a .vdb file.

Parameters

[in]	filename	The url of the file to load from.
[in]	scale	A scale factor for loading the grids.
[out]	gridNames	If a BaseArray is passed, it will be filled with the grid names.
[in]	gridIndices	Optional list of indices that should be loaded from the file.
[out]	metaData	If passed, will be filled with the metadata from the file.

Returns: A list of volumes that were loaded from the .vdb file.

◆ LoadGridIntoVolume()

static MAXON_METHOD Result<void> LoadGridIntoVolume	(	const Url &	filename,
		Float	scale,
		Int	gridIndex,
		Volume &	volume,
		DataDictionary *	metaData = `nullptr`
	)

static

Loads a grid into a volume from a .vdb file.

Parameters

[in]	filename	The url of the file to load from.
[in]	scale	A scale factor for loading the grids.
[in]	gridIndex	The index of the grid in the .vdb file.
[out]	volume	The volume reference to load the grid into.
[out]	metaData	If passed, will be filled with the metadata from the file.

Returns: OK on success.

◆ LoadAllGridsIntoVolumes()

static MAXON_METHOD Result<void> LoadAllGridsIntoVolumes	(	const Url &	filename,
		Float	scale,
		maxon::BaseArray< Volume > &	volume,
		DataDictionary *	metaData = `nullptr`
	)

static

Loads all grids into a list of volumes from a .vdb file.

Parameters

[in]	filename	The url of the file to load from.
[in]	scale	A scale factor for loading the grids.
[out]	volume	The output list of loaded volumes.
[out]	metaData	If passed, will be filled with the metadata from the file.

Returns: OK on success.

◆ SaveVDBFile()

static MAXON_METHOD Result<void> SaveVDBFile	(	const Url &	filename,
		Float	scale,
		BaseArray< Volume > &	volumes,
		const DataDictionary &	metaData = `DataDictionary()`
	)

static

Saves volumes to a .vdb file.

Parameters

[in]	filename	The url of the file to save to.
[in]	scale	A scale factor for saving the grids.
[in]	volumes	A list of volumes that should be saved to the .vdb file.
[in]	metaData	Optional Metadata to write to the file. Have to be added under string keys to the data dictionary.

Returns: OK on success.

◆ BoolVolumes()

static MAXON_METHOD Result<Volume> BoolVolumes	(	const Volume &	volumeOne,
		const Volume &	volumeTwo,
		BOOLTYPE	type
	)

static

Bools two SDF volumes into one with a given bool type of BOOLTYPE.

Parameters

[in]	volumeOne	The first SDF volume for the boolean operation.
[in]	volumeTwo	The second SDF volume for the boolean operation.
[in]	type	The bool type BOOLTYPE.

Returns: The booled volume.

◆ MixVolumes()

static MAXON_METHOD Result<Volume> MixVolumes	(	const Volume &	volumeOne,
		const Volume &	volumeTwo,
		MIXTYPE	type
	)

static

Mix two volumes into one with a given mix type of ::MIXTYPE.

Parameters

[in]	volumeOne	The first volume for the mix operation.
[in]	volumeTwo	The second volume for the mix operation.
[in]	type	The mix type ::MIXTYPE.

Returns: The mixed volume.

◆ VolumeToMesh()

static MAXON_METHOD Result<PolygonObject*> VolumeToMesh	(	const Volume &	volume,
		Float	iso,
		Float	adaptiveValue
	)

static

Extracts a polygon object iso surface from a volume. This is done by a marching cube algorithm.

Parameters

[in]	volume	The volume to extract a surface from.
[in]	iso	The iso value at which a surface should be extracted.
[in]	adaptiveValue	An adaptive value between 0.0 and 1.0 that reduces the polygon count based on curvature.

Returns: The extracted polygon object.

◆ MeshToVolume()

static MAXON_METHOD Result<Volume> MeshToVolume	(	const Block< Vector > &	vertices,
		const Block< VolumeConversionPolygon > &	polygons,
		Matrix	polygonObjectMatrix,
		Float	gridSize,
		Int32	bandWidthInterior,
		Int32	bandWidthExterior,
		const ThreadRef &	checkForCancellation,
		POLYGONCONVERSIONFLAGS	conversionSettings = `POLYGONCONVERSIONFLAGS::NONE`,
		const Matrix *	creationTransform = `nullptr`
	)

static

Converts a polygon object to a SDF volume.

Parameters

[in]	vertices	The vertex positions of the polygon object.
[in]	polygons	The polygon information. This needs to be a list of ::VolumeConversionPolygon
[in]	polygonObjectMatrix	The global position, scale and rotation matrix of the polygon object.
[in]	gridSize	The desired gridsize of the created volume.
[in]	bandWidthInterior	The amount of exterior voxels that distance information is calculated for.
[in]	bandWidthExterior	The amount of interior voxels that distance information is calculated for.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	conversionSettings	Optional settings for the conversion to Volume POLYGONCONVERSIONFLAGS.
[in]	creationTransform	An optional override to the target grid matrix. If this is used the gridSize is ignored.

Returns: The converted SDF volume representing the input polygon object.

◆ GeometryObjectToVolume()

static MAXON_METHOD Result<Volume> GeometryObjectToVolume	(	const Geometry &	geometry,
		Matrix	polygonObjectMatrix,
		Float	gridSize,
		Int32	bandWidthInterior,
		Int32	bandWidthExterior,
		const ThreadRef &	checkForCancellation,
		POLYGONCONVERSIONFLAGS	conversionSettings = `POLYGONCONVERSIONFLAGS::NONE`,
		const Matrix *	creationTransform = `nullptr`
	)

static

Converts a GeometryObject to a SDF volume.

See also: MeshToVolume, same thing, just converts from new GeometryObject type.

Parameters

[in]	geometry	The geometry object wrapper.
[in]	polygonObjectMatrix	The global position, scale and rotation matrix of the polygon object.
[in]	gridSize	The desired gridsize of the created volume.
[in]	bandWidthInterior	The amount of exterior voxels that distance information is calculated for.
[in]	bandWidthExterior	The amount of interior voxels that distance information is calculated for.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	conversionSettings	Optional settings for the conversion to Volume POLYGONCONVERSIONFLAGS.
[in]	creationTransform	An optional override to the target grid matrix. If this is used the gridSize is ignored.

Returns: The converted SDF volume representing the input polygon object.

◆ PointsToVolume()

static MAXON_METHOD Result<Volume> PointsToVolume	(	const DelegatePointObjectsPairList &	pointObjects,
		Float	gridSize,
		Int32	bandWidth,
		const ThreadRef &	checkForCancellation,
		const Matrix *	creationTransform = `nullptr`,
		Float	velocityScale = `0.0`
	)

static

Converts points in space to a SDF volume. This can be used to convert particles, vertices, spline sampling points or other points to a volume.

// maxon scope is assumed
// the polygon object to convert its vertices from
PolygonObject* somePolyObject = ...;
 
auto addVertices = [&](void* object, PointsToVolumeListRef& pointsList) -> Result<void>
{
  iferr_scope;
 
  if (!object)
    return IllegalArgumentError(CREATE);
 
  PolygonObject* polyObj = (PolygonObject*)object;
  const Vector* points = polyObj->GetPointR();
  Matrix objectPosition = polyObj->GetMg();
 
  for (Int32 pointIndex = 0; pointIndex < pointCount; pointIndex++)
  {
    // add the points to the particlelist, the radius is captured by reference
    pointsList.AppendPoint(objectPosition * points[pointIndex], radius) iferr_return;
  }
 
  return OK;
};
 
// create a delegate/object pair
DelegatePointObjectsPair polySampling;
// set the delegate to the pair
polySampling.first = addVertices;
 
// add the one polygon object to the list of converted objects. This can be multiple objects processed by the delegate
polySampling.second.Resize(1) iferr_return;
polySampling.second[0] = polygonObject;
 
// add the pair to the list for the conversion
DelegatePointObjectsPairList pointObjects;
pointObjects.Append(polySampling) iferr_return;
 
// call the conversion
Volume newVolume = VolumeToolsInterface::PointsToVolume(pointObjects, gridSize, bandWidth, checkForCancellation, gridMatrix) iferr_return;
}

Parameters

[in]	pointObjects	A list of Delegate/Object pairs that specify how to get point positions from the object.
[in]	gridSize	The desired gridsize of the created volume.
[in]	bandWidth	The amount of voxels around the creates spheres that distance information is calculated for.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	creationTransform	An optional override to the target grid matrix. If this is used the gridSize is ignored.
[in]	velocityScale	A velocity scale that the volumes will be extended to if they have a direction set.

Returns: The converted SDF volume representing the input polygon object.

◆ ApplySDFFilterToVolume()

static MAXON_METHOD Result<Volume> ApplySDFFilterToVolume	(	const Volume &	volume,
		const SDFFilterSettings &	filterType,
		const ThreadRef &	checkForCancellation,
		const Volume *	maskVolume = `nullptr`,
		FieldSampleData *	maskField = `nullptr`
	)

static

Applies a filter operation to a SDF volume. This work only on SDF volumes.

Parameters

[in]	volume	The volume that should be filtered.
[in]	filterType	Settings for the filter operation. See ::SDFFilterSettings.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	maskVolume	An optional volume object to be used as mask.
[in]	maskField	An optional field data struct to be used as field mask.

Returns: A new filtered version of the input volume.

◆ ApplyFilterToVolume()

static MAXON_METHOD Result<Volume> ApplyFilterToVolume	(	const Volume &	volume,
		const FilterSettings &	filterType,
		const ThreadRef &	checkForCancellation,
		const Volume *	maskVolume = `nullptr`,
		FieldSampleData *	maskField = `nullptr`
	)

static

Applies a filter operation to a volume.

Parameters

[in]	volume	The volume that should be filtered.
[in]	filterType	Settings for the filter operation. See ::FilterSettings.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	maskVolume	An optional volume object to be used as mask.
[in]	maskField	An optional field data struct to be used as field mask.

Returns: A new filtered version of the input volume.

◆ ConvertFieldsToVolume()

static MAXON_METHOD Result<Volume> ConvertFieldsToVolume	(	FieldSampleData &	fieldData,
		Float	gridSize,
		const Range< Vector > &	sampleBox,
		const ThreadRef &	checkForCancellation,
		const Volume *	volumeReference = `nullptr`,
		const Matrix *	creationTransform = `nullptr`
	)

static

Convert a field list or a field object into a volume. This can either be done in a box that samples the grid fully or with a volume reference. In case of a volume the active voxels of the volume will be sampled and the result will have the same structure as the reference volume. Note that FieldSampleData can have information for a field list or a field object. If FieldSampleData's fieldOwner is a field object, fieldList can be nullptr.

Parameters

[in]	fieldData	A data struct about the fieldlist data.
[in]	gridSize	The voxel size of the resulting volume.
[in]	sampleBox	A bounding box.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	volumeReference	An optional volume object that will define the sampling positions by it's active voxels. If this is used the voxelSize and sampleBox are ignored.
[in]	creationTransform	An optional override to the target grid matrix. If this is used the gridSize is ignored.

Returns: A volume that contains the values of the field in the active voxels.

◆ ConvertSDFToFog()

static MAXON_METHOD Result<Volume> ConvertSDFToFog	(	const Volume &	volume,
		Float	cutoff = `LIMIT< Float >::MAX`
	)

static

Convert a SDF Volume to a fog volume. The interiour of the SDF object will be filled with data ranging from 0.0 to 1.0 with a falloff.

Parameters

[in]	volume	The SDF volume that should be converted.
[in]	cutoff	The distance for the falloff from 0.0 (SDF 0.0 value) to 1.0.

Returns: A fog volume.

◆ ConvertFogToSDF()

static MAXON_METHOD Result<Volume> ConvertFogToSDF	(	const Volume &	volume,
		Float	iso,
		const ThreadRef &	checkForCancellation
	)

static

Convert a fog Volume to a SDF volume. The resulting surface of the SDF volume is defined by the passed iso value.

Parameters

[in]	volume	The fog volume that should be converted.
[in]	iso	The iso value at which the surface should be created.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: A SDF volume.

◆ ResampleVolume()

static MAXON_METHOD Result<Volume> ResampleVolume	(	const Volume &	volume,
		const Matrix &	resampleTransform,
		const RESAMPLEINTERPOLATIONTYPE	interpolationType,
		const ThreadRef &	checkForCancellation
	)

static

Resample a volume into a new transformation matrix.

Parameters

[in]	volume	The volume that should be resampled.
[in]	resampleTransform	The transformation matrix in which the volume should be resampled into.
[in]	interpolationType	The resample interpolation type. See RESAMPLEINTERPOLATIONTYPE.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: The created resampled volume.

◆ CreateMaskFromField()

static MAXON_METHOD Result<Volume> CreateMaskFromField	(	FieldSampleData &	fieldData,
		const Volume &	volumeReference,
		Float	background,
		const ThreadRef &	checkForCancellation
	)

static

Creates a volume mask for a volume reference with values sampled from a field.

Parameters

[in]	fieldData	A data struct about the fieldlist data.
[in]	volumeReference	The reference volume that samples the field into the mask.
[in]	background	The background of the mask. This will become the maskvalue in areas that have no active voxel in the volumeReference.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: The created mask volume.

◆ CreateNewFloat32Volume()

static MAXON_METHOD Result<Volume> CreateNewFloat32Volume ( Float32 background )

static

Creates a new float volume with default transform. The gridtype will be GRIDCLASS::UNKNOWN.

Parameters

[in] background The background value for the volume.

Returns: The newly created volume.

◆ CreateGradientVolume()

static MAXON_METHOD Result<Volume> CreateGradientVolume	(	const Volume &	volume,
		const ThreadRef &	checkForCancellation
	)

static

Creates a gradient volume from a numeric volume.

Parameters

[in]	volume	The numeric volume.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: The newly created gradient volume.

◆ CreateSphereVolume()

static MAXON_METHOD Result<Volume> CreateSphereVolume	(	Float	radius,
		const Vector &	position,
		Float	gridSize,
		Int32	bandWidth,
		const ThreadRef &	checkForCancellation,
		const Matrix *	creationTransform = `nullptr`
	)

static

Creates a SDF volume of a spherical shape.

Parameters

[in]	radius	The radius of the created sphere.
[in]	position	The position of the sphere.
[in]	gridSize	The desired gridsize of the created volume.
[in]	bandWidth	The amount of interior and exterior voxels that distance information is calculated for. Should be greater than 1.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	creationTransform	An optional override to the target grid matrix. If this is used the gridSize is ignored.

Returns: The created SDF volume representing the input sphere settings.

◆ CreatePlatonicVolume()

static MAXON_METHOD Result<Volume> CreatePlatonicVolume	(	Int32	sides,
		Float	size,
		const Vector &	position,
		Float	gridSize,
		Int32	bandWidth,
		const ThreadRef &	checkForCancellation,
		const Matrix *	creationTransform = `nullptr`
	)

static

Creates a SDF volume of a platonic shape. If invalid Arguments are set the function returns an empty volume

Parameters

[in]	sides	The number of sides of the platonic. Define the valid Arguments in the description of the parameter
[in]	size	The size of the created platonic.
[in]	position	The position of the platonic.
[in]	gridSize	The desired gridsize of the created volume.
[in]	bandWidth	The amount of interior and exterior voxels that distance information is calculated for. Should be greater than 1.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	creationTransform	An optional override to the target grid matrix. If this is used the gridSize is ignored.

Returns: The created SDF volume representing the input platonic settings.

◆ CreateNewVector32Volume()

static MAXON_METHOD Result<Volume> CreateNewVector32Volume ( Vector32 background )

static

Creates a new float vector volume with default transform. The gridtype will be GRIDCLASS::UNKNOWN.

Parameters

[in] background The background vector value for the volume.

Returns: The newly created volume.

◆ MixVectorVolumes()

static MAXON_METHOD Result<Volume> MixVectorVolumes	(	const Volume &	volumeOne,
		const Volume &	volumeTwo,
		MIXVECTORTYPE	type
	)

static

Mix two vector volumes into one with a given mix type of MIXVECTORTYPE.

Parameters

[in]	volumeOne	The first vector volume for the mix operation.
[in]	volumeTwo	The second vector volume for the mix operation.
[in]	type	The mix type MIXVECTORTYPE.

Returns: The mixed vector volume.

◆ ConvertFieldsToVectorVolume()

static MAXON_METHOD Result<Volume> ConvertFieldsToVectorVolume	(	FieldSampleData &	fieldData,
		Float	gridSize,
		const Range< Vector > &	sampleBox,
		const ThreadRef &	checkForCancellation,
		const Volume *	volumeReference = `nullptr`,
		const Matrix *	creationTransform = `nullptr`
	)

static

Convert a field lists directional channel or a field object into a vector volume. This can either be done in a box that samples the grid fully or with a volume reference. In case of a volume the active voxels of the volume will be sampled and the result will have the same structure as the reference volume. Note that FieldSampleData can have information for a field list or a field object. If FieldSampleData's fieldOwner is a field object, fieldList can be nullptr.

Parameters

[in]	fieldData	A data struct about the fieldlist data.
[in]	gridSize	The voxel size of the resulting volume.
[in]	sampleBox	A bounding box.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	volumeReference	An optional volume object that will define the sampling positions by it's active voxels. If this is used the voxelSize and sampleBox are ignored.
[in]	creationTransform	An optional override to the target grid matrix. If this is used the gridSize is ignored.

Returns: A vector volume that contains the directions of the field in the active voxels.

◆ NormalizeVectorVolume()

static MAXON_METHOD Result<Volume> NormalizeVectorVolume	(	const Volume &	volume,
		const ThreadRef &	checkForCancellation
	)

static

Creates a normalized vector volume from an input vector volume.

Parameters

[in]	volume	The vector volume that should be normalized.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: The newly created normalized vector volume.

◆ CreateCurlVolume()

static MAXON_METHOD Result<Volume> CreateCurlVolume	(	const Volume &	volume,
		const ThreadRef &	checkForCancellation
	)

static

Creates a vector volume representing the curl of a vector volume.

Parameters

[in]	volume	The vector volume the curl should be calculated from.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: The newly created curl vector volume.

◆ CreateMeanCurvatureVolume()

static MAXON_METHOD Result<Volume> CreateMeanCurvatureVolume	(	const Volume &	volume,
		const ThreadRef &	checkForCancellation
	)

static

Creates a curvature volume from a numeric volume.

Parameters

[in]	volume	The numeric volume.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: The newly created curvature volume.

◆ RotateVectorVolume()

static MAXON_METHOD Result<Volume> RotateVectorVolume	(	const Volume &	volume,
		const Vector &	rotationAxis,
		const Float	angle,
		const ThreadRef &	checkForCancellation,
		FieldSampleData *	maskField = `nullptr`
	)

static

Rotate the vectors of a vector volume by a specified angle around a rotation axis.

Parameters

[in]	volume	The vector volume to rotate.
[in]	rotationAxis	The rotation axis to rotate around.
[in]	angle	The angle in radians to rotate.
[in]	checkForCancellation	A thread reference that cancellation is tested against.
[in]	maskField	An optional field data struct to be used as field mask.

Returns: The newly created curvature volume.

◆ ConvertVectorToFog()

static MAXON_METHOD Result<Volume> ConvertVectorToFog	(	const Volume &	volume,
		const ThreadRef &	checkForCancellation
	)

static

Convert a vector volume to a fog volume. The resulting volume will have the length of the vectors stored at the original voxel position.

Parameters

[in]	volume	The fog volume that should be converted.
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: A fog volume with the length of the vectors stored.

◆ BlendVolumes()

static MAXON_METHOD Result<Volume> BlendVolumes	(	const Volume &	volumeA,
		const Volume &	volumeB,
		const Float	blendValue,
		const ThreadRef &	checkForCancellation
	)

static

Does a linear blend operation of two volume grids. Both grids need to have the same type and this type needs to be blendable.

Parameters

[in]	volumeA	The first volume of the blend operation.
[in]	volumeB	The second volume of the blend operation.
[in]	blendValue	The linear blend value between A and B. 1.0 results in A, 0.0 in B
[in]	checkForCancellation	A thread reference that cancellation is tested against.

Returns: A Volume that is the blend between Volume A and Volume B.

◆ SmoothBoolVolumes()

static MAXON_METHOD Result<Volume> SmoothBoolVolumes	(	const Volume &	volumeOne,
		const Volume &	volumeTwo,
		BOOLTYPE	type,
		Float	radius
	)

static

Smooth Bools two SDF volumes into one with a given bool type of BOOLTYPE.

Parameters

[in]	volumeOne	The first SDF volume for the boolean operation.
[in]	volumeTwo	The second SDF volume for the boolean operation.
[in]	type	The bool type BOOLTYPE.
[in]	radius	The radius of the smoothing area around the overlapping parts.

Returns: The booled volume.

◆ ScatterPointsInFog()

static MAXON_METHOD Result<Array<Vector> > ScatterPointsInFog	(	const Volume &	volume,
		UInt64	pointCount,
		Float	spread
	)

static

Scatters points inside of Fog volume

Parameters

[in]	volume	The fog volume to scatter points in
[in]	pointCount	The number of points to scatter
[in]	spread	The spread of the scattered points

Returns: The array of scattered points

Detailed Description

Static Public Member Functions

Private Member Functions

Member Function Documentation

◆ MAXON_INTERFACE_NONVIRTUAL()

◆ GetGridNamesFromFile()

◆ GetMetaDataFromFile()

◆ LoadVDBFile()

◆ LoadGridIntoVolume()

◆ LoadAllGridsIntoVolumes()

◆ SaveVDBFile()

◆ BoolVolumes()

◆ MixVolumes()

◆ VolumeToMesh()

◆ MeshToVolume()

◆ GeometryObjectToVolume()

◆ PointsToVolume()

◆ ApplySDFFilterToVolume()

◆ ApplyFilterToVolume()

◆ ConvertFieldsToVolume()

◆ ConvertSDFToFog()

◆ ConvertFogToSDF()

◆ ResampleVolume()

◆ CreateMaskFromField()

◆ CreateNewFloat32Volume()

◆ CreateGradientVolume()

◆ CreateSphereVolume()

◆ CreatePlatonicVolume()

◆ CreateNewVector32Volume()

◆ MixVectorVolumes()

◆ ConvertFieldsToVectorVolume()

◆ NormalizeVectorVolume()

◆ CreateCurlVolume()

◆ CreateMeanCurvatureVolume()

◆ RotateVectorVolume()

◆ ConvertVectorToFog()

◆ BlendVolumes()

◆ SmoothBoolVolumes()

◆ ScatterPointsInFog()