maxon.VolumeToolsInterface

Description

maxon.VolumeToolsInterface provides methods to process volumes.

Inheritance diagram

Inheritance

Methods Signature

ApplyFilterToVolume(volume, filterType, thread)

Applies a filter operation to any volume.

ApplySDFFilterToVolume(volume, filterType, …)

Applies a filter operation to a SDF volume.

BoolVolumes(voumeOne, volumeTwo, type)

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

ConvertFogToSDF(volume, iso, thread)

Convert a fog Volume to a SDF volume.

ConvertSDFToFog(volume, cutoff)

Convert a SDF Volume to a fog volume.

ConvertVectorToFog(volume, thread)

Convert a vector volume to a fog volume.

CreateCurlVolume(volume, thread)

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

CreateGradientVolume(volume, thread)

Creates a gradient volume from a numeric volume.

CreateMeanCurvatureVolume(*args)

NormalizeVectorVolume(volume, thread) Creates a curvature volume from a numeric volume.

CreateNewFloat32Volume(background)

Creates a new float volume with default transform.

CreateNewVector32Volume(background)

Creates a new float vector volume with default transform.

CreatePlatonicVolume(sides, size, position, …)

Creates a SDF volume of a platonic shape.

CreateSphereVolume(radius, position, …[, …])

Creates a SDF volume of a spherical shape.

GetGridNamesFromFile(filename)

Read and return the gridnames from a .vdb file.

GetMetaDataFromFile(filename)

Read and return the metadata from a .vdb file.

LoadAllGridsIntoVolumes(filename, scale, …)

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

LoadGridIntoVolume(filename, scale, …)

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

LoadVDBFile(filename, scale, gridNames, …)

Loads volumes from a .vdb file.

MeshToVolume(vertices, polygons, …[, …])

Converts a polygon object to a SDF volume.

MixVectorVolumes(volumeOne, volumeTwo, type)

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

MixVolumes(volumeOne, volumeTwo, type)

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

NormalizeVectorVolume(volume, thread)

Creates a normalized vector volume from an input vector volume.

PointsToVolume(pointObjects, gridSize, …)

Converts points in space to a SDF volume.

ResampleVolume(volume, resampleTransform, …)

Resample a volume into a new transformation matrix.

RotateVectorVolume(volume, rotationAxis, …)

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

SaveVDBFile(filename, scale, volumes, metaData)

Saves volumes to a .vdb file.

VolumeToMesh(volume, iso, adaptiveValue)

Extracts a polygon object iso surface from a volume.

Methods Definition

static VolumeToolsInterface.ApplyFilterToVolume(volume, filterType, thread, maskVolume=None, maskField=None)

Applies a filter operation to any volume.

Parameters
Returns

A new filtered version of the input volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.ApplySDFFilterToVolume(volume, filterType, thread, maskVolume=None, maskField=None)

Applies a filter operation to a SDF volume.

Warning

This work only on SDF volumes.

Parameters
Returns

A new filtered version of the input volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.BoolVolumes(voumeOne, volumeTwo, type)

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

Note

This methods only works for SDF volume, for FOG volume, use maxon.VolumeToolsInterface.MixVolumes()

Parameters
Returns

The booled volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.ConvertFogToSDF(volume, iso, thread)

Convert a fog Volume to a SDF volume.

Note

The resulting surface of the SDF volume is defined by the passed iso value.

Parameters

  • volume (maxon.VolumeRef) – The fog volume that should be converted.

  • iso (float) – The iso value at which the surface should be created.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

Returns

A SDF volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.ConvertSDFToFog(volume, cutoff)

Convert a SDF Volume to a fog volume.

Note

The interior of the SDF object will be filled with data ranging from 0.0 to 1.0 with a falloff.

Parameters

  • volume (maxon.VolumeRef) – The SDF volume that should be converted.

  • cutoff (float) – The distance for the falloff from 0.0 (SDF 0.0 value) to 1.0.

Returns

A fog volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.ConvertVectorToFog(volume, thread)

Convert a vector volume to a fog volume.

New in version R21.

Note

The resulting volume will have the length of the vectors stored at the original voxel position.

Parameters

  • volume (maxon.VolumeRef) – The fog volume that should be converted.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

Returns

A fog volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.CreateCurlVolume(volume, thread)

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

New in version R21.

Parameters

  • volume (maxon.VolumeRef) – The vector volume the curl should be calculated from.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

Returns

The newly created curl volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.CreateGradientVolume(volume, thread)

Creates a gradient volume from a numeric volume.

Parameters
Returns

The newly created gradient volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.CreateMeanCurvatureVolume(*args)

NormalizeVectorVolume(volume, thread) Creates a curvature volume from a numeric volume.

New in version R21.

Parameters
Returns

The newly created curvature volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.CreateNewFloat32Volume(background)

Creates a new float volume with default transform.

Note

The gridtype will be c4d.GRIDCLASS_UNKNOWN.

Parameters

background (float) – The background value for the volume.

Returns

The newly created volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.CreateNewVector32Volume(background)

Creates a new float vector volume with default transform.

New in version R21.

Note

The gridtype will be c4d.GRIDCLASS_UNKNOWN.

Parameters

background (maxon.Vector32) – The background vector value for the volume.

Returns

The newly created volume.

Return type

maxon.VolumeRef

classmethod VolumeToolsInterface.CreatePlatonicVolume(sides, size, position, gridSize, bandWidth, thread, creationTransform=None)

Creates a SDF volume of a platonic shape.

Note

If invalid Arguments are set the function returns an empty volume.

Parameters

  • sides (int) –

    The number of sides of the platonic.

    Define the valid Arguments in the description of the parameter

  • size (float) – The size of the created platonic.

  • position (Union[maxon.Vector, c4d.Vector]) – The position of the platonic.

  • gridSize (float) – The desired gridsize of the created volume.

  • bandWidth (int) –

    The amount of interior and exterior voxels that distance information is calculated for.

    Should be greater than 1.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

  • creationTransform (maxon.Matrix) – An optional override to the target grid matrix.

Returns

The created SDF volume representing the input platonic settings.

Return type

maxon.VolumeRef

static VolumeToolsInterface.CreateSphereVolume(radius, position, gridSize, bandWidth, thread, creationTransform=None)

Creates a SDF volume of a spherical shape.

Parameters

  • radius – The radius of the created sphere.

  • radius – float

  • position – The position of the sphere.

  • position – Union[maxon.Vector, c4d.Vector]

  • gridSize – The desired gridsize of the created volume.

  • gridSize – float

  • bandWidth

    The amount of interior and exterior voxels that distance information is calculated for.

    Should be greater than 1.

  • bandWidth – int

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

  • creationTransform (maxon.Matrix) – An optional override to the target grid matrix.

Returns

The created SDF volume representing the input sphere settings.

Return type

maxon.VolumeRef

static VolumeToolsInterface.GetGridNamesFromFile(filename)

Read and return the gridnames from a .vdb file.

Parameters

filename (maxon.Url) – The url of the file.

Returns

A data dictionary with metadata stored under string keys.

Return type

maxon.DataDictionary

static VolumeToolsInterface.GetMetaDataFromFile(filename)

Read and return the metadata from a .vdb file.

Parameters

filename (maxon.Url) – The url of the file.

Returns

A data dictionary with metadata stored under string keys.

Return type

maxon.DataDictionary

static VolumeToolsInterface.LoadAllGridsIntoVolumes(filename, scale, volume, metaData)

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

Parameters
static VolumeToolsInterface.LoadGridIntoVolume(filename, scale, gridIndex, volume, metaData)

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

Parameters

  • filename (maxon.Url) – The url of the file to load from.

  • scale (float) – A scale factor for loading the grids.

  • gridIndex (int) – The index of the grid in the .vdb file.

  • volume (maxon.VolumeRef) – The volume reference to load the grid into.

  • metaData (maxon.DataDictionary) – If passed, will be filled with the metadata from the file.

static VolumeToolsInterface.LoadVDBFile(filename, scale, gridNames, gridIndices, metaData)

Loads volumes from a .vdb file.

Parameters
Returns

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

Return type

maxon.BaseArray [maxon.VolumeRef]

classmethod VolumeToolsInterface.MeshToVolume(vertices, polygons, polygonObjectMatrix, gridSize, bandWidthInterior, bandWidthExterior, thread, conversionSettings=maxon.POLYGONCONVERSIONFLAGS.NONE, creationTransform=None)

Converts a polygon object to a SDF volume.

Parameters

  • vertices (maxon.BaseArray [maxon.Vecor]) – The vertex positions of the polygon object.

  • polygons (maxon.BaseArray [maxon.VolumeConversionPolygon]) – The polygon information.

  • polygonObjectMatrix (maxon.Matrix) – The global position, scale and rotation matrix of the polygon object.

  • gridSize (float) – The desired gridsize of the created volume.

  • bandWidthInterior (int) – The amount of exterior voxels that distance information is calculated for.

  • bandWidthExterior (int) – The amount of interior voxels that distance information is calculated for.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

  • conversionSettings (maxon.POLYGONCONVERSIONFLAGS) – Optional settings for the conversion to Volume

  • creationTransform

    An optional override to the target grid matrix.

    If this is used the gridSize is ignored.

  • creationTransformmaxon.Matrix

Returns

The converted SDF volume representing the input polygon object.

Return type

maxon.VolumeRef

static VolumeToolsInterface.MixVectorVolumes(volumeOne, volumeTwo, type)

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

New in version R21.

Parameters
Returns

The mixed vector volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.MixVolumes(volumeOne, volumeTwo, type)

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

Parameters
Returns

The mixed volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.NormalizeVectorVolume(volume, thread)

Creates a normalized vector volume from an input vector volume.

New in version R21.

Parameters

  • volume (maxon.VolumeRef) – The vector volume that should be normalized.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

Returns

The newly created normalized vector volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.PointsToVolume(pointObjects, gridSize, bandWidth, thread, creationTransform=None, velocityScale=0.0)
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.
Parameters

  • pointObjects – A list of Delegate/Object pairs that specify how to get point positions from the object.

  • gridSize (float) – The desired gridsize of the created volume.

  • bandWidth (int) – The amount of voxels around the creates spheres that distance information is calculated for.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

  • creationTransform (maxon.Matrix) –

    An optional override to the target grid matrix.

    If this is used the gridSize is ignored.

  • velocityScale (float) – 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.

Return type

maxon.VolumeRef

static VolumeToolsInterface.ResampleVolume(volume, resampleTransform, interpolationType, thread)

Resample a volume into a new transformation matrix.

Parameters
Returns

The created resampled volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.RotateVectorVolume(volume, rotationAxis, angle, thread, maskField=None)

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

New in version R21.

Parameters

  • volume (maxon.VolumeRef) – The vector volume to rotate.

  • rotationAxis (maxon.Vector) – The rotation axis to rotate around.

  • angle (float) – The angle in radians to rotate.

  • thread (maxon.ThreadRef) – A thread reference that cancellation is tested against.

  • maskField (maxon.FieldSampleData) – An optional field data struct to be used as field mask.

Returns

The newly created curvature volume.

Return type

maxon.VolumeRef

static VolumeToolsInterface.SaveVDBFile(filename, scale, volumes, metaData)

Saves volumes to a .vdb file.

Parameters

  • filename (maxon.Url) – The url of the file to save to.

  • scale (float) – A scale factor for saving the grids.

  • volumes (maxon.BaseArray [maxon.VolumeRef]) – A list of volumes that should be saved to the .vdb file.

  • metaData (maxon.DataDictionary) –

    Optional Metadata to write to the file.

    Have to be added under string keys to the data dictionary.

static VolumeToolsInterface.VolumeToMesh(volume, iso, adaptiveValue)

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

Parameters

  • volume (maxon.VolumeRef) – The volume to extract a surface from.

  • iso (float) – The iso value at which a surface should be extracted.

  • adaptiveValue (float) – An adaptive value between 0.0 and 1.0 that reduces the polygon count based on curvature.

Returns

The extracted polygon object.

Return type

c4d.PolygonObject