Cobject

C++	Python
Cmaxwell::Cobject	CmaxwellObject

Describes a scene object.

Inherits from

Cpointer.

Sub-classes

Citerator

Methods

Name	Description
setPointer	Internal use.
free	Destroys the object.
getName	Gets object name.
setName	Sets object name.
isMesh	Checks whether the object is a mesh.
isInstance	Checks whether the object is an instance.
getInstanced	Gets instance's parent.
isRFRK	Checks whether the object is a RFRK object.
getRFRKParameters	Gets ReaFlow RenderKit parameters.
setRFRKParameters	Sets ReaFlow RenderKit parameters.
getReferencedScenePath	Gets the scene file referenced by this object.
setReferencedScenePath	Sets the scene file referenced by this object.
getReferencedSceneMaterial	Gets the material of an specific object inside the referenced scene.
setReferencedSceneMaterial	Sets the material of an specific object inside the referenced scene.
getReferencedOverrideFlags	Get the override policy for visibility flags.
setReferencedOverrideFlags	Set the override policy for visibility flags.
mergeMeshes	Merges an array of meshes into a single mesh. Target object must not be included.
getParent	Gets the parent object in the hierarchy.
setParent	Sets the parent object in the hierarchy.
getUuid	Unique user ID that can be used for custom purposes.
setUuid	Sets the unique user ID.
getMaterial	Gets the material applied.
setMaterial	Sets the object material.
setProperties	Sets the caustics properties of the object.
getDependencies	Gets all the extern dependencies of the object (rfrk files, etc).
Geometry
getNumVertexes	Gets number of vertexes of the object.
getNumTriangles	Gets number of triangles of the object.
getNumNormals	Gets number of the normals of the object.
getNumPositionsPerVertex	Gets number of positions per vertex of the object.
getNumChannelsUVW	Gets number of UVW channels of the object.
addChannelUVW	Adds an UVW channel to the object.
generateSphericalUVW	Generates spherical UVW coordinates.
generateCylindricalUVW	Generates cylindrical UVW coordinates.
generateCubicUVW	Generates cubic UVW coordinates.
generatePlanarUVW	Generates planar UVW coordinates.
getVertex	Gets vertex by index.
setVertex	Sets vertex by index.
getNormal	Gets normal by index.
setNormal	Sets normal by index.
getTriangle	Gets triangle (vertexes and normals) by index.
setTriangle	Sets triangle (vertexes and normals) by index.
getTriangleGroup	Gets triangle group by index.
setTriangleGroup	Sets triangle group.
getTriangleUVW	Gets triangle UVW coordinates.
setTriangleUVW	Sets triangle UVW coordinantes.
getTriangleMaterial	Gets triangle material.
setTriangleMaterial	Sets triangle material.
getGroupMaterial	Gets material of a group of triangles.
setGroupMaterial	Sets material of a group of triangles.
getBaseAndPivot	Gets base and pivot axes of the object.
setBaseAndPivot	Sets base and pivot axes of the object.
getWorldTransform	Return the world transform of the object.
getTransformSubstepsCount	Return the number of substeps used for defining Base and Pivot motion blur.
getTransfrormStepInfoByIndex	Return transform information( base, pivot and time) for the given index.
getPosition	Used by Maxwell Studio (not needed for rendering).
setPosition	Used by Maxwell Studio (not needed for rendering).
getRotation	Used by Maxwell Studio (not needed for rendering).
setRotation	Used by Maxwell Studio (not needed for rendering).
getScale	Used by Maxwell Studio (not needed for rendering).
setScale	Used by Maxwell Studio (not needed for rendering).
getShear	Used by Maxwell Studio (not needed for rendering).
setShear	Used by Maxwell Studio (not needed for rendering).
getPivotPosition	Used by Maxwell Studio (not needed for rendering).
setPivotPosition	Used by Maxwell Studio (not needed for rendering).
getPivotRotation	Used by Maxwell Studio (not needed for rendering).
setPivotRotation	Used by Maxwell Studio (not needed for rendering).
isPosRotScaleInitialized	Checks if the methods above have been used for the given object.
cleanGeometry	Optional routine that removes degenerated triangles, repeated/unused vertex and normals.
Display
getHide	Gets "hide" status of the object.
setHide	Sets "hide" status of the object.
getHideToCamera	Gets "hide to camera" status of the object.
setHideToCamera	Sets "hide to camera" status of the object.
getHideToReflectionsRefractions	Gets "hide to reflections and refractions" status of the object.
setHideToReflectionsRefractions	Sets "hide to reflections and refractions" status of the object.
getHideToGI	Gets "hide to global illumination" status of the object.
setHideToGI	Gets "hide to global illumination" status of the object.
isExcludedOfCutPlanes	Gets "excluded of cut planes" status of the object.
excludeOfCutPlanes	Sets "excluded of cut planes" status of the object.
getReferenceDisplayPoints	This function is useful to display a mesh on a viewport.
setColorID	Sets the color used by this object in the Object ID render channel.
getColorID	Gets the color used by this object in the Object ID render channel.
setSubdivisionLevel	Sets the subdivision level of the mesh.
getSubdivisionLevel	Gets the subdivision level of the mesh.
setGeometryDirty	Set the geometry "dirty".
getUserData	Internal use.
setUserData	Internal use.
getVertexesBuffer	Internal use.
getNormalsBuffer	Internal use.
getTrianglesBuffer	Internal use.
initializeMesh	Clean the mesh and allocates memory for vertexes, normals, triangles and motion blur.
resizeMesh	Reinitializes all the basic geometry and UV arrays.
generateCustomUVW
getUVWChannelProperties	Gets UVW channel properties.
getGlobalXform
getGlobalNormalsXform
getInverseGlobalXform
getInverseGlobalNormalsXform
isGeometryLoader	Checks if the object was created by a geometry loader extension.
isGeometryProcedural	Checks if the object was created by a procedural geometry extension.
hasGeometryModifiers	Checks if the object has geometry modifiers (extensions).
applyGeometryModifierExtension
cleanAllGeometryModifierExtensions	Clean all geometry modifier extensions applyed to the object.
getGeometryLoaderExtensionParams
getGeometryProceturalExtensionParams
getGeometryModifierExtensionsNumber	Gets the number of geometry modifier extensions applied to the object.
getGeometryModifierExtensionParamsAtIndex

Inherited methods

isNull.

free

Destroys the object.

Language	Syntax
C++	byte free()
Python	int free()

Return value

0 = Error destroying object.

1 = Success.

getName

Gets the name of the object.

Language	Syntax
C++	byte getName( char** pName)
Python	str getName()

Return value

C++

0 = Error getting name.

1 = Success.

Python

Object name.

setName

Sets the name of the object.

Language	Syntax
C++	byte setName( const char* pName )
Python	int setName( str pName )

Return value

0 = Error setting name.

1 = Success.

isMesh

Checks whether the object is a mesh.

Language	Syntax
C++	byte isMesh( byte& isMesh )
Python	int isMesh()

Return value

C++

0 = Error getting isMesh value.

1 = Success.

Python

0 = The object is not a mesh.

1 = The object is a mesh.

"" = Error.

isInstance

Checks whether the object is an instance.

Language	Syntax
C++	byte isInstance( byte& isInstance )
Python	int isInstance()

Return value

C++

0 = Error getting isInstance value.

1 = Success.

Python

0 = The object is not an instance.

1 = The object is an instance.

"" = Error.

getInstanced

If this Cobject is an instance this method returns its parent object.

Language	Syntax
C++	Cmaxwell::Cobject getInstanced()
Python	CmaxwellObject getInstanced()

Return value

Cmaxwell::Cobject reference to the instanced object. Null object if the object is not an instance, (Cmaxwell::Cobject::isNull() == true).

isRFRK

Checks whether the object is a RealFlow RenderKit object.

Language	Syntax
C++	byte isRFRK( byte& isRfrk )
Python	int isRFRK()

Return value

C++

0 = Error getting isRfrk value.

1 = Success.

Python

0 = Object is not a RFRK object.

1 = Object is a RFRK object.

"" = Error.

getRFRKParameters

Gets RealFlow parameters of the object if it is a RFRK object.

Language	Syntax
C++	byte getRFRKParameters( char& binSeqNames, char& rwName, char*& substractiveField, real& scale, real& resolution, real& polySize, real& radius, real& smooth, real& core, real& splash, real& maxVelocity, int& axis, real& fps, int& frame, int& offset, bool& flipNormals, int& rwTesselation, bool& mb, real& mbCoef )
Python	{ str 'binSeqNames', str 'rwName', str 'substractiveField', float 'scale', float 'resolution', float 'polySize', float 'radius', float 'smooth', float 'core', float 'splash', float 'maxVelocity', int 'axis', float 'fps', int 'frame', int 'offset', bool 'flipNormals', int 'rwTesselation', bool 'mb', float 'mbCoef' } getRFRKParameters()

Parameters

Type	Name	In/Out	Description
char*	binSeqNames	out	Comma separated list of full paths to .bin or .pd files.
char*	rwName	out	Full path to a realwave .sd file.
char*	substractiveField	out	'' or Null -> all particle fields are positive. i.e: substractiveField = '011010' -> six particle files, first, third and sixth are negative, and second, third and fifth are positive.
real	scale	out	Default value = 1.0.
real	resolution	out	Default value = 1.0.
real	polySize	out	Default value = 0.0.
real	radius	out	Default value = 0.33.
real	smooth	out	Default value = 0.3.
real	core	out	Default value = 0.0.
real	splash	out	Default value = 0.0.
real	maxVelocity	out	Default value = 1000.0.
int	axis	out	0 = YXZ, 1 = ZXY, 2 = YZX.
real	fps	out	Default value = 25.0.
int	frame	out
int	offset	out	Default value = 0.
bool	flipNormals	out	Default value = false.
int	rwTesselation	out	Default value = 3.
bool	mb	out	Motion blur (true) or not (false).
real	mbCoef	out	0.0 to 1.0. Motion blur duration in % of shutter angle.

Return value

C++

0 = Error getting RFRK parameters.

1 = Success.

Python

Dictionary containing all RFRK parameters.

"" = Error.

setRFRKParameters

Gets RealFlow parameters of the object if it is a RFRK object.

Language	Syntax
C++	byte setRFRKParameters( const char* binSeqNames, const char* rwName, char* substractiveField, real scale, real resolution, real polySize, real radius, real smooth, real core, real splash, real maxVelocity, int axis, real fps, int frame, int offset, bool flipNormals, int rwTesselation, bool mb, real mbCoef )
Python	int setRFRKParameters( str binSeqNames, str rwName, str substractiveField, float scale, float resolution, float polySize, float radius, float smooth, float core, float splash, float maxVelocity, int axis, float fps, int frame, int offset, bool flipNormals, int rwTesselation, bool mb, float mbCoef )

Parameters

Type	Name	In/Out	Description
char*	binSeqNames	in	Comma separated list of full paths to .bin or .pd files.
char*	rwName	in	Full path to a realwave .sd file.
char*	substractiveField	in	'' or Null -> all particle fields are positive. i.e: substractiveField = '011010' -> six particle files, first, third and sixth are negative, and second, third and fifth are positive.
real	scale	in	Default value = 1.0.
real	resolution	in	Default value = 1.0.
real	polySize	in	Default value = 0.0.
real	radius	in	Default value = 0.33.
real	smooth	in	Default value = 0.3.
real	core	in	Default value = 0.0.
real	splash	in	Default value = 0.0.
real	maxVelocity	in	Default value = 1000.0.
int	axis	in	0 = YXZ, 1 = ZXY, 2 = YZX.
real	fps	in	Default value = 25.0.
int	frame	in
int	offset	in	Default value = 0.
bool	flipNormals	in	Default value = false.
int	rwTesselation	in	Default value = 3.
bool	mb	in	Motion blur (true) or not (false).
real	mbCoef	in	0.0 to 1.0. Motion blur duration in % of shutter angle.

Return value

0 = Error setting RFRK parameters.

1 = Success.

getReferencedScenePath

Gets the scene file referenced by this object.

Language	Syntax
C++	const char* getReferencedScenePath()
Python	str getReferencedScenePath()

setReferencedScenePach

Sets the scene file referenced by this object.

Language	Syntax
C++	byte setReferencedScenePath( const char* proxyPath )
Python	int setReferencedScenePath( const char* proxyPath )

Return value

0 = Error setting reference scene file.

1 = Success.

getReferencedSceneMaterial

Gets the material of an specific object inside the referenced scene.

Language	Syntax
C++	byte getReferencedSceneMaterial( const char* objectName, Cmaxwell::Cmaterial& material )
Python	CmaxwellMaterial getReferencedSceneMaterial( str objectName )

setReferencedSceneMaterial

Sets the material of an specific object inside the referenced scene.

Language	Syntax
C++	byte setReferencedSceneMaterial( const char* objectName, Cmaxwell::Cmaterial material )
Python	int setReferencedSceneMaterial( str objectName, CmaxwellMaterial material )

Return value

0 = Error setting reference scene file.

1 = Success.

getReferencedOverrideFlags

Gets the override policy for visibility flags. Flags are described in OVERRIDE_REFERENCE_FLAGS in maxwellenums.h.

Language	Syntax
C++	byte getReferencedOverrideFlags( byte& flags )
Python	(int flags, int success) getReferencedOverrideFlags()

Return value

C++

0 = Error

1 = Success

Python

Tuple containing the "override reference" flags of the object, and the function success value.

setReferencedOverrideFlags

Sets the override policy for visibility flags. Flags are described in OVERRIDE_REFERENCE_FLAGS in maxwellenums.h.

Language	Syntax
C++	byte setReferencedOverrideFlags( byte& flags )
Python	int setReferencedOverrideFlags( int flags )

Return value

0 = Error

1 = Success

mergeMeshes

Merges an array of meshes into a single mesh. The original meshes are not removed (it can be done later calling Cmaxwell::Cobject::free() ). The target object must not be included in the mesh list, so target geometry (if exists) will be erased.

Language	Syntax
C++	byte mergeMeshes( const Cmaxwell::Cobject* pMeshes, dword nMeshes )
Python	int mergeMeshes( CmaxwellObject[] meshes )

Return value

0 = Error setting reference scene file.

1 = Success.

Examples

Python

meshes  = []
meshes.append( scene.getObject("sphere") );
meshes.append( scene.getObject("cube") );
scene.getObject("cubesphere").mergeMeshes( meshes ); // "cubesphere must exists"
scene.getObject("sphere").free();
scene.getObject("cube").free();

getParent

Gets the parent object in the hierarchy.

Language	Syntax
C++	byte getParent( Cmaxwell::Cobject& parent )
Python	CmaxwellObject getParent()

Return value

C++

0 = Error getting parent object.

1 = Success.

Python

Parent object.

setParent

Sets the parent object in the hierarchy.

Language	Syntax
C++	byte setParent( Cmaxwell::Cobject parent )
Python	int setParent( CmaxwellObject parent )

Return value

0 = Error setting parent object.

1 = Success.

getUuid

Unique user ID that can be used for custom purposes.

Language	Syntax
C++	const char* getUuid()
Python	str getUuid()

setUuid

Sets the unique user ID.

Language	Syntax
C++	byte setUuid( const char* pUuid )
Python	int setUuid( str uuid )

Return value

0 = Error setting unique user ID.

1 = Success.

getMaterial

Gets the material applied.

Language	Syntax
C++	byte getMaterial( Cmaxwell::Cmaterial& parent )
Python	CmaxwellMaterial getMaterial()

Return value

C++

0 = Error getting object material.

1 = Success.

Python

Object material.

setMaterial

Sets the object material.

Language	Syntax
C++	byte setMaterial( Cmaxwell::Cmaterial material )
Python	int setMaterial( CmaxwellMaterial material )

Return value

0 = Error setting object material.

1 = Success.

setProperties

Sets the caustics properties of the object. 1 enables, 0 disables.

Language	Syntax
C++	byte setProperties( int doDirectCausticsReflection, int doDirectCausticsRefraction, int doIndirectCausticsReflection, int doIndirectCausticsRefraction )
Python	int setProperties( byte doDirectCausticsReflection, byte doDirectCausticsRefraction, byte doIndirectCausticsReflection, byte doIndirectCausticsRefraction )

Return value

0 = Error setting object material.

1 = Success.

getDependencies

Returns an array of strings with all the extern dependencies of the object (rfrk files, etc).

Language	Syntax
C++	byte getDependencies( dword& numDependencies, char** & paths, const bool& searchInsideProxy = true )
Python	str[] getDependencies( bool searchInsideProxy = true )

Parameters

Type	Name	In/Out	Description
dword&	numDependencies	out	(C++ only) Number of dependencies returned.
char**&	paths	out	(C++ onlu) String array (size = numDependencies) containing all the dependencies requested.
const bool&	searchIndideProxy	in	If true, the function search for dependencies also in the referenced proxy objects if exists. searchInsideProxy is true by default.

Return value

C++

0 = Error getting dependency paths.

1 = Success.

Python

List of str containing the dependency paths.

getNumVertexes

Gets number of vertexes of the object.

Language	Syntax
C++	byte getNumVertexes( dword& nVertexes )
Python	int getNumVertexes()

Return value

C++

0 = Error getting number of vertexes.

1 = Success.

Python

Number of vertexes.

getNumTriangles

Gets number of triangles of the object.

Language	Syntax
C++	byte getNumTriangles( dword& nTriangles )
Python	int getNumTriangles()

Return value

C++

0 = Error getting number of triangles.

1 = Success.

Python

Number of triangles.

getNumNormals

Gets number of normals of the object.

Language	Syntax
C++	byte getNumNormals( dword& nNormals )
Python	int getNumNormals()

Return value

C++

0 = Error getting number of normals.

1 = Success.

Python

Number of normals.

getNumPositionsPerVertex

Gets number of positions per vertex of the object.

Language	Syntax
C++	byte getNumPositionsPerVertex( dword& nPositions )
Python	int getNumPositionsPerVertex()

Return value

C++

0 = Error getting number of positions per vertex.

1 = Success.

Python

Number of positions per vertex.

getNumChannelsUVW

Gets number of UVW channels of the object.

Language	Syntax
C++	byte getNumChannelsUVW( dword& nChannelsUVW )
Python	int getNumChannelsUVW()

Return value

C++

0 = Error getting number UVW channels.

1 = Success.

Python

Number of UVW channels.

addChannelUVW

Adds an UVW channel to the object.

Language	Syntax
C++	byte addChannelUVW( dword& index, byte id = 0xFF )
Python	int addChannelUVW( byte id = 0xFF )

Return value

C++

0 = Error adding UVW channel.

1 = Success.

Python

Index of the new channel.

generateSphericalUVW

Generates spherical UVW coordinates.

Language	Syntax
C++	byte generateSphericalUVW( dword& iChannel, CbaseT& projectorBase, real& startLatitude, real& endLatitude, real& startLongitude, real& endLongitude )
Python	int generateSphericalUVW( int iChannel, Cbase projectorBase, float startLatitude, float endLatitude, float startLongitude, float endLongitude )

Return value

0 = Error generating spherical UVW coordinaltes.

1 = Success.

generateCylindricalUVW

Generates cylindrical UVW coordinates.

Language	Syntax
C++	byte generateCylindricalUVW( dword& iChannel, Cbase& projectorBase, real& startAngle, real& endAngle )
Python	int generateCylindricalUVW( int iChannel, Cbase projectorBase, float startAngle, float endAngle )

Return value

0 = Error generating cylindrical UVW coordinaltes.

1 = Success.

generateCubicUVW

Generates cubic UVW coordinates.

Language	Syntax
C++	byte generateCubicUVW( dword& iChannel, Cbase& projectorBase, bool mirrorBackFaces = false )
Python	int generateCubicUVW( int iChannel, Cbase projectorBase, bool mirrorBackFaces = False )

Return value

0 = Error generating cubic UVW coordinaltes.

1 = Success.

generatePlanarUVW

Generates planar UVW coordinates.

Language	Syntax
C++	byte generatePlanarUVW( dword& iChannel, Cbase& projectorBase )
Python	int generatePlanarUVW( int iChannel, Cbase projectorBase )

Return value

0 = Error generating planar UVW coordinaltes.

1 = Success.

getVertex

Gets vertex by index.

Language	Syntax
C++	byte getVertex( dword iVertex, dword iPosition, Cpoint& point )
Python	Cvector getVertex( int iVertex, int iPosition )

Return value

C++

0 = Error getting the vertex.

1 = Success.

Python

Cvector containing the vertex requested.

setVertex

Sets vertex by index.

Language	Syntax
C++	byte setVertex( dword iVertex, dword iPosition, const Cpoint& point )
Python	int setVertex( int iVertex, int iPosition, Cvector point )

Return value

0 = Error setting the vertex.

1 = Success.

getNormal

Gets normal by index.

Language	Syntax
C++	byte getNormal( dword iVertex, dword iPosition, Cvector&normal )
Python	Cvector getNormal( int iVertex, int iPosition )

Return value

C++

0 = Error getting the normal.

1 = Success.

Python

Cvector containing the normal requested.

setNormal

Sets normal by index.

Language	Syntax
C++	byte setNormal( dword iNormal, dword iPosition, const Cvector& normal )
Python	int setNormal( int iNormal, int iPosition, Cvector normal )

Return value

0 = Error setting the normal.

1 = Success.

getTriangle

Gets triangle (vertexes and normals) by index.

Language	Syntax
C++	byte getTriangle( dword iTriangle, dword &iVertex1, dword &iVertex2, dword &iVertex3, dword &iNormal1, dword &iNormal2, dword &iNormal3 )
Python	(int iVertex1, int iVertex2, int iVertex3, int iNormal1, int iNormal2, int iNormal3) getTriangle( int iTriangle )

Return value

C++

0 = Error getting the triangle.

1 = Success.

Python

Tuple containing the triangle data.

setTriangle

Sets triangle (vertexes and normals) by index.

Language	Syntax
C++	byte setTriangle( dword iTriangle, dword iVertex1, dword iVertex2, dword iVertex3, dword iNormal1, dword iNormal2, dword iNormal3 )
Python	int setTriangle( int iTriangle, int iVertex1, int iVertex2, int iVertex3, int iNormal1, int iNormal2, int iNormal3 )

Return value

0 = Error setting the triangle.

1 = Success.

getTriangleGroup

Gets triangle group by index.

Language	Syntax
C++	byte getTriangleGroup( dword iTriangle, dword& idGroup )
Python	int getTriangleGroup( int iTriangle )

Return value

C++

0 = Error getting the triangle group.

1 = Success.

Python

Triangle group ID.

setTriangleGroup

Sets group that's the triangle belongs to.

Language	Syntax
C++	byte setTriangleGroup( dword iTriangle, dword idGroup )
Python	int setTriangleGroup( int iTriangle, int idGroup )

Return value

0 = Error setting the triangle group.

1 = Success.

getTriangleUVW

Gets triangle UVW coordinates.

Language	Syntax
C++	byte getTriangleUVW( dword iTriangle, dword iChannelID, float& u1, float& v1, float& w1, float& u2, float& v2, float& w2, float& u3, float& v3, float& w3 )
Python	(float u1, float v1, float w1, float u2, float v2, float w2, float u3, float v3, float w3) getTriangleUVW( int iTriangle, int iChannelID )

Return value

C++

0 = Error getting the triangle UVW coordinates.

1 = Success.

Python

Tuple containing the triangle UVW coordinates.

setTriangleUVW

Sets triangle UVW coordinantes.

Language	Syntax
C++	byte setTriangleUVW( dword iTriangle, dword iChannelID, float u1, float v1, float w1, float u2, float v2, float w2, float u3, float v3, float w3 )
Python	int setTriangleUVW( int iTriangle, int iChannelID, float u1, float v1, float w1, float u2, float v2, float w2, float u2, float v2, float w3 )

Return value

0 = Error setting the triangle UVW coordinates.

1 = Success.

getTriangleMaterial

Gets triangle material.

Language	Syntax
C++	byte getTriangleMaterial( dword iTriangle, Cmaxwell::Cmaterial& material )
Python	CmaxwellMaterial getTriangleMaterial( int iTriangle )

Return value

C++

0 = Error getting triangle material.

1 = Success.

Python

Triangle material.

setTriangleMaterial

Sets the triangle material.

Language	Syntax
C++	byte setTriangleMaterial( dword iTriangle, Cmaxwell::Cmaterial material )
Python	int setTriangleMaterial( int iTriangle, CmaxwellMaterial material )

Return value

0 = Error setting triangle material.

1 = Success.

getGroupMaterial

Gets material of a group of triangles.

Language	Syntax
C++	byte getGroupMaterial( dword iGroup, Cmaxwell::Cmaterial& material )
Python	CmaxwellMaterial getGroupMaterial( int iGroup )

Return value

C++

0 = Error getting triangle group material.

1 = Success.

Python

Triangle group material.

setGroupMaterial

Sets material of a group of triangles.

Language	Syntax
C++	byte setGroupMaterial( dword iGroup, Cmaxwell::Cmaterial material )
Python	int setGroupMaterial( int iGroup, CmaxwellMaterial material )

Return value

0 = Error setting triangle group material.

1 = Success.

setBaseAndPivot

Sets base and pivot axes of the object.

Language	Syntax
C++	byte setBaseAndPivot( Cbase base, Cbase pivot, real substepTime = 0.0 )
Python	int setBaseAndPivot( Cbase base, Cbase pivot, float substepTime = 0.0 )

Return value

0 = Error setting object base and pivot.

1 = Success.

getBaseAndPivot

Gets base and pivot axes of the object.

Language	Syntax
C++	byte getBaseAndPivot( Cbase& base, Cbase& pivot, const real substepTime = 0.0 )
Python	(Cbase base, Cbase pivot) getBaseAndPivot( float substepTime = 0.0 )

Return value

C++

0 = Error getting object base and pivot.

1 = Success.

Python

Tuple containing Cbase base and Cbase pivot axes (base,pivot).

getWorldTransform

Returns the world transform of the object taking into account base and pivot of all its parents..

Language	Syntax
C++	byte getWorldTransform( Cbase& base )
Python	Cbase getWorldTransform()

Return value

C++

0 = Error getting world transform of the object.

1 = Success.

Python

Object world transform.

getTransfromSubstepsCount

Return the number of substeps used for defining Base and Pivot motion blur.

Language	Syntax
C++	dword getTransformSubstepsCount()
Python	int getTransformSubstepsCount()

getTransformStepInfoByIndex

Return transform information( base, pivot and time) for the given index.

Language	Syntax
C++	byte getTransformStepInfoByIndex( Cbase& base, Cbase& pivot, real& time, const dword index )
Python	(Cbase base, Cbase pivot, float time) getTransformStepInfoByIndex( int index )

Return value

C++

0 = Error getting transform information of the object.

1 = Success.

Python

Tuple containing transform information.

isPosRotScaleInitialized

Checks if any of the following methods have been used for the object: setPosition, setRotation, setScale, setShear, setPivotPosition and setPivotRotation. The correct way to transform the object is through the setBaseAndPivot method.

Language	Syntax
C++	byte isPosRotScaleInitialized( bool& init )
Python	bool isPosRotScaleInitialized()

Return value

C++

0 = Error getting object transformed for Maxwell Studio.

1 = Success.

Python

True = object initialized using setPosition, setRotation, setScale, setShear, setPivotPosition and/or setPivotRotation (methods used for Maxwell Studio, not for rendering.

cleanGeometry

Optional routine that removes degenerated triangles, repeated/unused vertex and normals. This function is automatically called inside the writeMXS method. It is not needed to call it except in scenarios like the interactive engine.

Language	Syntax
C++	byte cleanGeometry()
Python	int cleanGeometry()

Return value

0 = Error cleaning geometry.

1 = Success.

getHide

Gets "hide" status of the object.

Language	Syntax
C++	byte getHide( bool& hide )
Python	bool getHide()

Return value

C++

0 = Error getting "hide" status.

1 = Success.

Python

True = object is hidden.

False = object is not hidden.

setHide

Sets "hide" status of the object.

Language	Syntax
C++	byte setHide( bool hide )
Python	int setHide( bool hide )

Return value

0 = Error setting "hide" state.

1 = Success.

getHideToCamera

Gets "hide to camera" status of the object.

Language	Syntax
C++	byte getHideToCamera( bool& hide )
Python	bool getHide()

Return value

C++

0 = Error getting "hide to camera" status.

1 = Success.

Python

True = object is hidden to camera.

False = object is not hidden to camera.

setHideToCamera

Sets "hide to camera" status of the object.

Language	Syntax
C++	byte setHideToCamera( bool hide )
Python	int setHideToCamera( bool hide )

Return value

0 = Error setting "hide to camera" state.

1 = Success.

getHideToReflectionsRefractions

Gets "hide to reflections and refractions" status of the object.

Language	Syntax
C++	byte getHideToReflectionsRefractions( bool& hide )
Python	bool getHideToReflectionsRefractions()

Return value

C++

0 = Error getting "hide to reflections and refractions" status.

1 = Success.

Python

True = object is hidden to reflections and refractions.

False = object is not hidden to reflections and refractions.

setHideToReflectionsRefractions

Sets "hide to reflections and refractions" status of the object.

Language	Syntax
C++	byte setHideToReflectionsRefractions( bool hide )
Python	int setHideToReflectionsRefractions( bool hide )

Return value

0 = Error setting "hide to reflections and refractions" state.

1 = Success.

getHideToGI

Gets "hide to global illumination" status of the object.

Language	Syntax
C++	byte getHideToGI( bool& hide )
Python	bool getHideToGI()

Return value

C++

0 = Error getting "hide to global illumination" status.

1 = Success.

Python

True = object is hidden to global illumination.

False = object is not hidden to global illumination.

setHideToGI

Sets "hide to global Illumination" status of the object.

Language	Syntax
C++	byte setHideToGI( bool hide )
Python	int setHideToGI( bool hide )

Return value

0 = Error setting "hide to global illumination" state.

1 = Success.

isExcludedOfCutPlanes

Gets "excluded of cut planes" status of the object.

Language	Syntax
C++	byte isExcludedOfCutPlanes( bool& excluded )
Python	bool isExcludedOfCutPlanes()

Return value

C++

0 = Error getting "excluded of cut planes" status.

1 = Success.

Python

True = object is excluded to cut planes.

False = object is not excluded of cut planes.

excludeOfCutPlanes

Sets "excluded of cut planes" status of the object.

Language	Syntax
C++	byte excludeOfCutPlanes( bool exclude )
Python	int excludeOfCutPlanes( bool exclude )

Return value

0 = Error setting "excluded of cut planes" state.

1 = Success.

getReferenceDisplayPoints

This function is useful to display a mesh on a viewport. Returns an array with the vertices of the object in object space. This function is not accurate but should be used for preview purposes only.

Language	Syntax
C++	float* getReferenceDisplayPoints( const dword& percent, const dword& maxPoints, dword& nPoints )
Python	array getReferenceDisplayPoints( int percent, int maxPoints )

Parameters

Type	Name	In/Out	Description
const dword&	percent	in	Percent of points of the mesh that will be returned.
const dword&	maxPoints	in	Maximum number of points that will be in the returned array (-1 means there is not a maximum fixed)
dword&	nPoints	out	Number of points returned.

Return value

C++

Array of nPoints * 3 containing the proxy points requested.

Python

NumPy array containing the proxy points requested. Shape is (nPoints,3).

setColorID

Sets the color used by this object in the Object ID render channel. RGB values must always be in the 0-1 range.

Language	Syntax
C++	byte setColorID( const Crgb& color )
Python	int setColorID( Crgb color )

Return value

0 = Error setting color ID.

1 = Success.

getColorID

Gets the color used by this object in the Object ID render channel.

Language	Syntax
C++	byte getColorID( Crgb & color )
Python	Crgb getColorID()

Return value

C++

0 = Error getting the color ID.

1 = Success.

Python

Crgb containing the color ID.

setSubdivisionLevel

Sets the subdivision level of the mesh.

Language	Syntax
C++	byte setSubdivisionLevel( const dword& level )
Python	int setSubdivisionLevel( int level )

Return value

0 = Error

1 = Success

getSubdivisionLevel

Gets the subdivision level of the mesh.

Language	Syntax
C++	byte getSubdivisionLevel( dword& level )
Python	(int level, int success) getSubdivisionLevel()

Return value

C++

0 = Error

1 = Success

Python

Tuple containing the subdivision level of the mesh and the success value of the method.

setGeometryDirty

Method used to recalculate structures needed in interactive mode when the object changes. It is not needed to call it if the UVs or material change, but just should be called when the mesh or base change.

Language	Syntax
C++	byte setGeometryDirty()
Python	int setGeometryDirty()

Return value

0 = Error setting geometry dirty.

1 = Success.

initializeMesh

Clean the mesh and allocates memory for vertexes, normals, triangles and motion blur.

Language	Syntax
C++	byte initializeMesh( dword nVertex, dword nNormals, dword nFaces, dword positionsPerVertex )
Python	int initializeMesh( int nVertex, int nNormals, int nFaces, int positionsPerVertex )

Return value

0 = Error initializing mesh.

1 = Success.

resizeMesh

This function reinitializes all the basic geometry and UV arrays. The number of UV channels and their ids remain the same, but UV´s are zeroed. Motion blur vertices can be wiped (if there were) setting newNpositionsPerVertex = 1, or added (if there weren´t) setting newNpositionsPerVertex = 2.

Language	Syntax
C++	byte resizeMesh( dword newNVertex, dword newNNormals, dword newNFaces, dword newNpositionsPerVertex )
Python	int resizeMesh( int newNVertex, int newNNormals, int newNFaces, int newNpositionsPerVertex )

Return value

0 = Error resizing mesh.

1 = Success.

generateCustomUVW

--TODO--.

Language	Syntax
C++	byte generateCustomUVW( dword iChannel, dword iGeneratorType )
Python	int generateCustomUVW( int iChannel, int iGeneratorType )

Return value

0 = Error generating custom UVW coordinates.

1 = Success.

getUVWChannelProperties

--TODO--.

Language	Syntax
C++	byte getUVWChannelProperties( dword iChannel, byte& projType, bool& customProj, Cbase& projectorBase, real& startLatitude, real& endLatitude, real& startLongitude, real& endLongitude, real& startAngle, real& endAngle, bool& mirrorBackFaces )
Python	(int projType, bool custumProj, Cbase projectorBase, float startLatitude, float endLatutide, float startLongitude, float endLongitude, float startAngle, float endAngle, bool mirrorBackFaces) getUVWChannelProperties( int iChannel )

Return value

C++

0 = Error getting UVW channel properties.

1 = Success.

Python

Tuple containing the UVW channel properties.

getGlobalXform

--TODO--.

Language	Syntax
C++	byte getGlobalXform( Cbase& xForm )
Python	Cbase getGlobalXform()

Return value

C++

0 = Error getting --TODO--

1 = Success.

Python

Cbase containing --TODO--

getGlobalNormalsXform

--TODO--.

Language	Syntax
C++	byte getGlobalNormalsXform( Cbase& xForm )
Python	Cbase getGlobalNormalsXform()

Return value

C++

0 = Error getting --TODO--

1 = Success.

Python

Cbase containing --TODO--

getInverseGlobalXform

--TODO--.

Language	Syntax
C++	byte getInverseGlobalXform( Cbase& ixForm )
Python	Cbase getInverseGlobalXform()

Return value

C++

0 = Error getting --TODO--

1 = Success.

Python

Cbase containing --TODO--

getInverseGlobalNormalXform

--TODO--.

Language	Syntax
C++	byte getInverseGlobalNormalXform( Cbase& ixForm )
Python	Cbase getInverseGlobalNormalXform()

Return value

C++

0 = Error getting --TODO--

1 = Success.

Python

Cbase containing --TODO--

isGeometryLoader

Checks if the object was created by a geometry loader extension.

Language	Syntax
C++	byte isGeometryLoader( bool& isGeomExtension )
Python	bool isGeometryLoader()

Return value

C++

0 = Error checking object was created from a geometry loader extension.

1 = Success.

Python

True = the object was created by a geometry loader extension.

isGeometryProcedural

Checks if the object was created by a procedural geometry extension.

Language	Syntax
C++	byte isGeometryProcedural( bool& isGeomProceduralExtension )
Python	bool isGeometryProcedural()

Return value

C++

0 = Error checking object was created from a procedural geometry extension.

1 = Success.

Python

True = the object was created by a procedural geometry extension.

hasGeometryModifiers

Checks if the object has geometry modifiers (extensions).

Language	Syntax
C++	byte hasGeometryModifiers( bool& isGeomModifiersExtension )
Python	bool hasGeometryModifiers()

Return value

C++

0 = Error checking object have geometry modifiers (extensions).

1 = Success.

Python

True = the object have geometry modifiers (extensions).

cleanAllGeometryModifierExtensions

Clean all geometry modifier extensions applyed to the object.

Language	Syntax
C++	byte cleanAllGeometryModifierExtensions()
Python	int cleanAllGeometryModifierExtensions()

Return value

0 = Error cleaning geometry modifier extensions.

1 = Success.

getGeometryModifierExtensionsNumber

Gets the number of geometry modifier extensions applied to the object.

Language	Syntax
C++	byte getGeometryModifierExtensionsNumber( dword& numModifierExtensions )
Python	int getGeometryModifierExtensionsNumber()

Return value

C++

0 = Error getting the number of geometry modifier extensions applied to the object.

1 = Success.

Python

Number of geometry modifier extensions applied to the object.