Public Types | Public Member Functions | Protected Member Functions

MFnDagNode Class Reference

This reference page is linked to from the following overview topics: Objects and Function Sets, Autodesk Maya 2013, Querying the Scene Graph, Creating and Manipulating Objects, MSelectionList, setObject() method, Transforms and shapes, polyModifierCmd example, Differences between the Maya .NET API and the Maya C++ API, Appendix D: Frequently asked questions.


Search for all occurrences

Detailed Description

DAG Node Function Set.

Provides methods for attaching Function Sets to, querying, and adding children to DAG Nodes. Particularly useful when used in conjunction with the DAG Iterator class (MItDag).

The MFnDagNode function set is used to query and set the attributes of nodes in the DAG (Directed Acyclic Graph). The DAG is a graph that describes the hierarchy of the objects in the model. At each level of the hierarchy there is a four by four transformation matrix that affects all of the objects beneath it in the DAG.

In the DAG, geometry objects (also known as shapes) do not have transformation information associated with them. Only transform nodes have actual transform matrices (see MFnTransform).

Each node that exists in the DAG is also a dependency node that exists in the dependency graph. This makes it possible to control the attributes of a DAG node based on calculations performed by dependency nodes.

There are two ways to specify a DAG node in Maya. The first is to use an MObject handle, which acts as a pointer to a specific node in the DAG. Given only an MObject, it is not possible to do world space operations on a DAG node because there may be more than one path through the DAG to any given node. In other words, it is not possible to identify a particular instance only given an MObject.

In many cases it is preferable to use a DAG path (MDagPath) to specify a DAG node. A DAG path always refers to a specific instance of an object. This makes it possible to perform unambiguous world space transformations.

It is also possible to iterate over the nodes in the DAG using a DAG iterator (MItDag).

Examples:

cgfxShaderCmd.cpp, closestPointCmd.cpp, closestPointOnNurbsSurfaceCmd.cpp, customAttrManip.cpp, D3DResourceManager.cpp, D3DViewportRenderer.cpp, dagMessageCmd.cpp, footPrintManip.cpp, hairCollisionSolver.cpp, intersectCmd.cpp, intersectOnNurbsSurfaceCmd.cpp, lineManipContainer.cpp, maTranslator.cpp, moveManip.cpp, nodeCreatedCBCmd.cpp, NodeMonitor.cpp, objExport.cpp, OpenGLViewportRenderer.cpp, polyExporter.cpp, polyExporter.h, polyModifierCmd.cpp, polyPrimitiveCmd.cpp, scanDagCmd.cpp, scanDagSyntax.cpp, slopeShaderBehavior.cpp, spiralAnimCurveCmd.cpp, surfaceBumpManip.cpp, and swissArmyManip.cpp.

#include <MFnDagNode.h>

Inheritance diagram for MFnDagNode:
Inheritance graph
[legend]

List of all members.

Public Types

enum  { kNextPos = 0xff }
 

Anonymous enum to store constant values.

More...

Public Member Functions

virtual MFn::Type type () const
 Function set type.
virtual ~MFnDagNode ()
 Destructor.
 MFnDagNode ()
 Class Constructor.
 MFnDagNode (MObject &object, MStatus *ret=NULL)
 This method is not available in Python.
 MFnDagNode (const MDagPath &object, MStatus *ret=NULL)
 Class Constructor.
MObject create (const MTypeId &typeId, MObject &parent=MObject::kNullObj, MStatus *ReturnStatus=NULL)
 Creates a new DAG node with the given type tag.
MObject create (const MTypeId &typeId, const MString &name, MObject &parent=MObject::kNullObj, MStatus *ReturnStatus=NULL)
 Creates a new DAG node with the given type tag.
MObject create (const MString &type, MObject &parent=MObject::kNullObj, MStatus *ReturnStatus=NULL)
 Creates a new DAG node with the given type tag.
MObject create (const MString &type, const MString &name, MObject &parent=MObject::kNullObj, MStatus *ReturnStatus=NULL)
 Creates a new DAG node with the given type tag.
unsigned int parentCount (MStatus *ReturnStatus=NULL) const
 Determines the number of parent Nodes of the Node.
MObject parent (unsigned int i, MStatus *ReturnStatus=NULL) const
 Queries the DAG Node attached to the Function Set for the parent Node corresponding to the given index.
MStatus addChild (MObject &child, unsigned int index=kNextPos, bool keepExistingParents=false)
 Makes the given DAG Node a child of the DAG Node to which this instance of the Function Set is attached.
MStatus removeChild (MObject &child)
 Removes the given DAG Node from the parent.
MStatus removeChildAt (unsigned int index)
 Removes the child at the given index from the parent.
unsigned int childCount (MStatus *ReturnStatus=NULL) const
 Determines the number of child Nodes of the Node.
MObject child (unsigned int i, MStatus *ReturnStatus=NULL) const
 Queries the DAG Node attached to the Function Set for the child Node corresponding to the given index.
MObject dagRoot (MStatus *ReturnStatus=NULL)
 Determines the root of the first DAG Path to the DAG Node attached to the Function Set.
bool hasParent (const MObject &node, MStatus *ReturnStatus=NULL) const
 Determines whether or not the given Node is a parent of the DAG Node attached to the Function Set.
bool hasChild (const MObject &node, MStatus *ReturnStatus=NULL) const
 Determines whether or not the given Node is a child of the DAG Node attached to the Function Set.
bool isChildOf (const MObject &node, MStatus *ReturnStatus=NULL) const
 Determines whether or not the DAG Node attached to the Function Set is a child of the given node.
bool isParentOf (const MObject &node, MStatus *ReturnStatus=NULL) const
 Determines whether or not the DAG Node attached to the Function Set is a parent of the given node.
bool inUnderWorld (MStatus *ReturnStatus=NULL) const
 Determines whether or not the DAG Node is an underworld node.
bool inModel (MStatus *ReturnStatus=NULL) const
 Determines whether or not the DAG Node is in the model.
bool isInstanceable (MStatus *ReturnStatus=NULL) const
 Returns true if the DAG node can be instanced, and false otherwise.
MStatus setInstanceable (const bool how)
 Sets whether or not the DAG node is instanceable.
bool isInstanced (bool indirect=true, MStatus *ReturnStatus=NULL) const
 Determines whether the DAG Node attached to the Function Set is directly or indirectly instanced.
bool isInstancedAttribute (const MObject &attr, MStatus *ReturnStatus=NULL) const
 Returns true if the specified attribute is instanced.
unsigned int instanceCount (bool total, MStatus *ReturnStatus=NULL) const
 Determines the number of times the Node attached to the Function Set is instanced.
MObject duplicate (bool instance=false, bool instanceLeaf=false, MStatus *ReturnStatus=NULL) const
 This method duplicates the DAG hierarchy rooted at the current node.
MStatus getPath (MDagPath &path) const
 Returns a DAG Path to the DAG Node attached to the Function Set.
MStatus getAllPaths (MDagPathArray &paths) const
 Determines all DAG Paths to the DAG Node attached to the Function Set.
MString fullPathName (MStatus *ReturnStatus=NULL) const
 Return a string representing the full path from the root of the dag to this object.
MString partialPathName (MStatus *ReturnStatus=NULL) const
 Return a string representing the partial path from the root of the dag to this object.
MMatrix transformationMatrix (MStatus *ReturnStatus=NULL) const
 Returns the object space transformation matrix for this DAG node.
bool isIntermediateObject (MStatus *ReturnStatus=NULL) const
 Returns true if this object is an intermediate in a geometry calculation.
MStatus setIntermediateObject (bool isIntermediate)
 Sets whether this object is an intermediate in a geometry calculation.
int objectColor (MStatus *ReturnStatus=NULL) const
 Determines the index for the current user defined inactive color used by the node.
MStatus setObjectColor (int color)
 Sets the index for the current user defined inactive color used by the node.
bool usingObjectColor (MStatus *ReturnStatus=NULL) const
 Determines whether or not the user defined inactive color will be used for the node, or whether the default inactive color will be used.
MStatus setUseObjectColor (bool useObjectColor)
 Sets whether or not the user defined inactive object color will be used.
MColor hiliteColor (MStatus *ReturnStatus=NULL) const
 Determines the current hilite color used by the node.
bool usingHiliteColor (MStatus *ReturnStatus=NULL) const
 Determines whether or not the hilite color will be used for the node.
MColor dormantColor (MStatus *ReturnStatus=NULL) const
 Determines the dormant color used by this node.
MColor activeColor (MStatus *ReturnStatus=NULL) const
 Determines the active color used by this node.
bool drawOverrideEnabled (MStatus *ReturnStatus=NULL) const
 Determines whether or not draw override is turned on for this node.
bool drawOverrideIsReference (MStatus *ReturnStatus=NULL) const
 Determines whether or not Display Type of the draw override is Reference for this node.
bool drawOverrideIsTemplate (MStatus *ReturnStatus=NULL) const
 Determines whether or not Display Type of the draw override is Template for this node.
bool drawOverrideColor (MColor &color, MStatus *ReturnStatus=NULL) const
 Determines the draw override color used by this node.
MBoundingBox boundingBox (MStatus *ReturnStatus=NULL) const
 Returns the bounding box for the dag node in object space.
MDagPath dagPath (MStatus *ReturnStatus=NULL) const
 Returns the DagPath to which the Function Set is attached.
virtual MStatus setObject (const MDagPath &path)
 Attaches Function Set to the DAG Node that has the given DAG Path.
virtual MStatus setObject (MObject &object)
 This method is not available in Python.
MObject model (MStatus *ReturnStatus=NULL) const
 This method is obsolete.
 MFnDagNode (const MObject &object, MStatus *ret=NULL)
 No script support.
virtual MStatus setObject (const MObject &object)
 No script support.

Protected Member Functions

virtual const char * className () const
 Class name.

Member Enumeration Documentation

anonymous enum

Anonymous enum to store constant values.

Enumerator:
kNextPos 

used by addChild to indicate the next empty position in the list.


Constructor & Destructor Documentation

~MFnDagNode ( ) [virtual]

Destructor.

Class Destructor.

Deletes the working copy of the DAG Path to the attached object, if the copy exists.

Class Constructor.

Creates a DAG Node Function Set without an attached DAG Node.

MFnDagNode ( MObject object,
MStatus ret = NULL 
)

This method is not available in Python.

Class Constructor

Creates a DAG Node Function Set and attaches it to the given DAG Node.

Parameters:
[in]objectThe DAG Node to be attached.
[out]retStatus Code (see below)
Status Codes:
MFnDagNode ( const MDagPath object,
MStatus ret = NULL 
)

Class Constructor.

Creates a DAG Node Function Set and attaches it to the DAG Node that has the given DAG Path.

Parameters:
[in]objectThe DAG Path of the Node to be attached.
[out]retStatus Code (see below)
Status Codes:
MFnDagNode ( const MObject object,
MStatus ret = NULL 
)

No script support.

Class Constructor.

Creates a DAG Node Function Set and attaches it to the given read only DAG Node.

Parameters:
[in]objectThe read only DAG Node to be attached.
[out]retStatus Code (see below)
Status Codes:

Member Function Documentation

MFn::Type type ( ) const [virtual]
const char * className ( ) const [protected, virtual]
MObject create ( const MTypeId typeId,
MObject parent = MObject::kNullObj,
MStatus ReturnStatus = NULL 
)

Creates a new DAG node with the given type tag.

The new node is placed into the DAG.

If a parent is specified, the new node is parented to it, and the new node is returned. If no parent is specified and the new node is a transform, the new node is returned. Otherwise, a transform created and the new node is automatically parented to it. The returned object is the transform, not the new node.

Parameters:
[in]typeIdtype id of the node to be created
[in]parentthe parent of the node to be created
[out]ReturnStatusStatus code.
Returns:
A pointer to the new dependency node object or the transform added above it.
Status Codes:
MObject create ( const MTypeId typeId,
const MString name,
MObject parent = MObject::kNullObj,
MStatus ReturnStatus = NULL 
)

Creates a new DAG node with the given type tag.

The new node is placed into the DAG.

If a parent is specified, the new node is parented to it, and the new node is returned. If no parent is specified and the new node is a transform, the new node is returned. Otherwise, a transform created and the new node is automatically parented to it. The returned object is the transform, not the new node.

Parameters:
[in]typeIdtype id of the node to be created
[in]namethe name to be assigned to the new node If the node's name is not unique, it will be given a unique name by changing its numerical suffix. For example, if this node is called "myNode" and a node by the same name exists, this node will be renamed to "myNode1".
[in]parentthe parent of the node to be created
[out]ReturnStatusStatus code.
Returns:
A pointer to the new dependency node object or the transform added above it.
Status Codes:
MObject create ( const MString type,
MObject parent = MObject::kNullObj,
MStatus ReturnStatus = NULL 
)

Creates a new DAG node with the given type tag.

The new node is placed into the DAG.

If a parent is specified, the new node is parented to it, and the new node is returned. If no parent is specified and the new node is a transform, the new node is returned. Otherwise, a transform created and the new node is automatically parented to it. The returned object is the transform, not the new node.

Parameters:
[in]typeName of the type of DAG node to create.
[in]parentThe DAG parent of this node.
[out]ReturnStatusStatus code.
Returns:
The new dependency node or the transform added above it.
Status Codes:
MObject create ( const MString type,
const MString name,
MObject parent = MObject::kNullObj,
MStatus ReturnStatus = NULL 
)

Creates a new DAG node with the given type tag.

The new node is placed into the DAG.

If a parent is specified, the new node is parented to it, and the new node is returned. If no parent is specified and the new node is a transform, the new node is returned. Otherwise, a transform created and the new node is automatically parented to it. The returned object is the transform, not the new node.

Parameters:
[in]typeName of the type of DAG node to create.
[in]nameName to be assigned to the new node. If the node's name is not unique it will be given a unique name by adding a numerical suffix. For example, if name contains "myNode" and a node with that name already exists, the new node will be named "myNode1".
[in]parentThe DAG parent of this node.
[out]ReturnStatusStatus code.
Returns:
The new dependency node or the transform added above it.
Status Codes:
unsigned int parentCount ( MStatus ReturnStatus = NULL) const

Determines the number of parent Nodes of the Node.

Used to determine the upper bound for the parent index (max index = parentCount-1).

Parameters:
[out]ReturnStatusStatus code.
Returns:
Number of parent Nodes.
Status Codes:
Examples:
polyModifierCmd.cpp.
MObject parent ( unsigned int  i,
MStatus ReturnStatus = NULL 
) const

Queries the DAG Node attached to the Function Set for the parent Node corresponding to the given index.

Parameters:
[in]iIndex to the parent Node
[out]ReturnStatusStatus code.
Returns:
The parent Node for the given index.
Status Codes:
Examples:
polyModifierCmd.cpp.
MStatus addChild ( MObject child,
unsigned int  index = kNextPos,
bool  keepExistingParents = false 
)

Makes the given DAG Node a child of the DAG Node to which this instance of the Function Set is attached.

By default, the child will be added to the end of the child list. If an index is specified, and it is less than or equal to the upper bound, Maya will add the child to the specified index and shift the position of subsequent children onto the next position. If the index is greater than the upper bound, the behavior is undefined.

By default, the child is removed from its existing parents as a result of this operation. If the flag keepExistingParents is set to true, the child will keep its existing parents and a new instance connection will be created for the new node. Any instanced attributes downstream from the new child will be updated with new instance numbers.

Parameters:
[in]childThe node to be added as child
[in]indexThe index that the child should be position. Defaulted to MFnDagNode::kNextPos
[in]keepExistingParentsShould the child be instanced?
Returns:
Status Code
Status Codes:
MStatus removeChild ( MObject child)

Removes the given DAG Node from the parent.

Once the child is removed, all children at higher indices would shift 1 position to the left.

If the child being removed is an instance, any instance attributes downstream from the node being removed will be updated with the new instance count.

Parameters:
[in]childThe Node to be removed as child
Returns:
Status Code
Status Codes:
MStatus removeChildAt ( unsigned int  index)

Removes the child at the given index from the parent.

Once the child is removed, all children at higher indices would shift 1 position to the left.

If the child being removed is an instance, any instance attributes downstream from the node being removed will be updated with the new instance count.

Parameters:
[in]indexThe index of the child.
Returns:
Status Code
Status Codes:
unsigned int childCount ( MStatus ReturnStatus = NULL) const

Determines the number of child Nodes of the Node.

Used to determine the upper bound for the child index (max index = childCount-1).

Parameters:
[out]ReturnStatusStatus code.
Returns:
Number of child Nodes.
Status Codes:
Examples:
polyModifierCmd.cpp, and surfaceBumpManip.cpp.
MObject child ( unsigned int  i,
MStatus ReturnStatus = NULL 
) const

Queries the DAG Node attached to the Function Set for the child Node corresponding to the given index.

Parameters:
[in]iIndex to the child Node
[out]ReturnStatusStatus code.
Returns:
The child Node for the given index.
Status Codes:
Examples:
closestPointCmd.cpp, intersectCmd.cpp, polyModifierCmd.cpp, and surfaceBumpManip.cpp.
MObject dagRoot ( MStatus ReturnStatus = NULL)

Determines the root of the first DAG Path to the DAG Node attached to the Function Set.

Parameters:
[out]ReturnStatusStatus code.
Returns:
The DAG root
Status Codes:
bool hasParent ( const MObject node,
MStatus ReturnStatus = NULL 
) const

Determines whether or not the given Node is a parent of the DAG Node attached to the Function Set.

Parameters:
[in]nodePotential parent node
[out]ReturnStatusStatus code.
Returns:
true if the node is a parent, false otherwise.
Status Codes:
bool hasChild ( const MObject node,
MStatus ReturnStatus = NULL 
) const

Determines whether or not the given Node is a child of the DAG Node attached to the Function Set.

Parameters:
[in]nodenode to check
[out]ReturnStatusStatus code.
Returns:
true if the node is a child, false otherwise.
Status Codes:
bool isChildOf ( const MObject node,
MStatus ReturnStatus = NULL 
) const

Determines whether or not the DAG Node attached to the Function Set is a child of the given node.

Parameters:
[in]nodenode to check
[out]ReturnStatusStatus code.
Returns:
true is a child, false otherwise.
Status Codes:
bool isParentOf ( const MObject node,
MStatus ReturnStatus = NULL 
) const

Determines whether or not the DAG Node attached to the Function Set is a parent of the given node.

Parameters:
[in]nodenode to check
[out]ReturnStatusStatus code.
Returns:
true is a parent, false otherwise.
Status Codes:
bool inUnderWorld ( MStatus ReturnStatus = NULL) const

Determines whether or not the DAG Node is an underworld node.

(An example of an underworld node is a curve on surface.)

Parameters:
[out]ReturnStatusStatus code.
Returns:
true if the node is an underworld node, false otherwise.
Status Codes:
bool inModel ( MStatus ReturnStatus = NULL) const

Determines whether or not the DAG Node is in the model.

Parameters:
[out]ReturnStatusStatus code.
Returns:
true if the node in the model, false otherwise.
Status Codes:
bool isInstanceable ( MStatus ReturnStatus = NULL) const

Returns true if the DAG node can be instanced, and false otherwise.

Parameters:
[out]ReturnStatusStatus code.
Returns:
true if the DAG node is instanceable, false otherwise.
Status Codes:
MStatus setInstanceable ( const bool  how)

Sets whether or not the DAG node is instanceable.

If the node is marked as noninstanceable, then if Maya attempts to create instances on the node the instancing operation will not succeed and instead an error will be reported. A node cannot be marked non-instanceable if it or any of its children are currently instanced. MS::kFailure will be returned it this occurs. The default instanceable state for newly created nodes if true, meaning that nodes can be instanced by default.

Parameters:
[in]howtrue if the node should be made instanceable, false to make the node noninstanceable.
Returns:
Status code
Status Codes:
  • MS::kSuccess successfully set the instanceable state on the node
  • MS::kFailure function set does not have a valid node, or the node or one of its child nodes is already instanced and you are attempting to flag the node as non-instanceable, or the node is locked.
bool isInstanced ( bool  indirect = true,
MStatus ReturnStatus = NULL 
) const

Determines whether the DAG Node attached to the Function Set is directly or indirectly instanced.

If indirect instance flag is false, the result is true if and only if the Node itself is multiply instanced (node->parentCount > 1).

If the indirect flag is true, the result is true if and only if the Node itself is multiply instanced (node->parentCount > 1) or if the Node is not multiply instanced, but it has a directly instanced parent (node->parentCount()=1 amd parent->parentCount >1).

Parameters:
[in]indirectIndirect instance flag
[out]ReturnStatusStatus code.
Returns:
true if the node is instanced (directly or indirectly according to indirect instance flag), false otherwise.
Status Codes:
bool isInstancedAttribute ( const MObject attribute,
MStatus ReturnStatus = NULL 
) const

Returns true if the specified attribute is instanced.

An instanced attribute is an array attribute whose index depends upon which instance of the node is being referred to.

Attributes are not instanced by default.

Parameters:
[in]attributeThe attribute to test.
[out]ReturnStatusStatus code.
Returns:
A boolean value indicating whether the attribute is instanced
Status Codes:
unsigned int instanceCount ( bool  total,
MStatus ReturnStatus = NULL 
) const

Determines the number of times the Node attached to the Function Set is instanced.

If indirect instance flag is false, the number of direct instances is returned.

If the indirect flag is true, the total number of times the Node is instanced in the DAG above it is returned.

Parameters:
[in]totalIndirect instance flag
[out]ReturnStatusStatus code.
Returns:
Number of instances (direct or indirect according to indirect instance flag).
Status Codes:
MObject duplicate ( bool  instance = false,
bool  leafInstance = false,
MStatus ReturnStatus = NULL 
) const

This method duplicates the DAG hierarchy rooted at the current node.

The copy will have the same parent, if any, as the original node.

If instance is false then a true copy will be made, otherwise a new node will be created which instances the child nodes of the original node. If instance is false then instanceLeaf is ignored.

If instance is true and instanceLeaf is false then the child nodes of the original node are instanced. If instanceLeaf is true, then the results are similar to a copy, but the leaf level objects are instanced.

If the function set is initialized without an MDagPath, then this method uses the first path to the node. This is only a problem if the node has been instanced, in which case the simple solution is to use an MDagPath to initialize the function set.

Parameters:
[in]instanceDuplicate using instancing if true
[in]leafInstanceInstance only at the leaf level if true
[out]ReturnStatusStatus code.
Returns:
A reference to the newly created node.
Status Codes:
Examples:
polyModifierCmd.cpp.
MStatus getPath ( MDagPath path) const

Returns a DAG Path to the DAG Node attached to the Function Set.

The difference between this method and the method dagPath below is that this one will not fail if the function set is not attached to a dag path, it will always return a path to the node. dagPath will fail if the function set is not attached to a dag path.

Parameters:
[out]pathThe DAG Path that is found (implicit return)
Returns:
Status Code
Status Codes:
Examples:
cgfxShaderCmd.cpp, helixTool.cpp, instanceCallbackCmd.cpp, and polyModifierCmd.cpp.
MStatus getAllPaths ( MDagPathArray paths) const

Determines all DAG Paths to the DAG Node attached to the Function Set.

Parameters:
[out]pathsArray of all DAG Paths that are found (implicit return)
Returns:
Status Code
Status Codes:
MString fullPathName ( MStatus ReturnStatus = NULL) const

Return a string representing the full path from the root of the dag to this object.

Parameters:
[out]ReturnStatusStatus code.
Returns:
The full path name
Status Codes:
MString partialPathName ( MStatus ReturnStatus = NULL) const

Return a string representing the partial path from the root of the dag to this object.

The partial path is the minimum path that is still unique. This string may contain wildcards.

Parameters:
[out]ReturnStatusStatus code.
Returns:
The partial path name
Status Codes:
Examples:
slopeShaderBehavior.cpp.
MMatrix transformationMatrix ( MStatus ReturnStatus = NULL) const

Returns the object space transformation matrix for this DAG node.

In general, only transform nodes have matrices associated with them. Nodes such as shapes (geometry nodes) do not have transform matrices.

The identity matrix will be returned if this node does not have a transformation matrix.

Parameters:
[out]ReturnStatusStatus code.
Returns:
Object space transformation matrix.
Status Codes:
bool isIntermediateObject ( MStatus ReturnStatus = NULL) const

Returns true if this object is an intermediate in a geometry calculation.

When geometry calculations are performed using dependency nodes, it is sometimes necessary to use intermediate objects. These objects are not draw or rendered. For example, deformers use intermediate geometry during their calculations.

This method exists to provide a more convenient way of accessing the intermediateObject attribute of DAG nodes.

Parameters:
[out]ReturnStatusStatus code.
Returns:
True if this is an intermediate object.
Status Codes:
Examples:
polyExporter.cpp.
MStatus setIntermediateObject ( bool  isIntermediate)

Sets whether this object is an intermediate in a geometry calculation.

When geometry calculations are performed using dependency nodes, it is sometimes necessary to use intermediate objects. These objects are not draw or rendered. For example, deformers use intermediate geometry during their calculations.

This method exists to provide a more convenient way of accessing the intermediateObject attribute of DAG nodes.

Parameters:
[in]isIntermediatewhether to make this an intermediate object
Returns:
Status Code
Status Codes:
Examples:
polyModifierCmd.cpp.
int objectColor ( MStatus ReturnStatus = NULL) const

Determines the index for the current user defined inactive color used by the node.

Valid indices are from 0 to 7.

This method is only meaningful for shape or joint nodes (e.g. nurbs curves/surfaces, meshes). It will work for other nodes, but will have no visible effect.

Parameters:
[out]ReturnStatusStatus code.
Returns:
Index for current user defined inactive color (0 - 7)
Status Codes:
MStatus setObjectColor ( int  index)

Sets the index for the current user defined inactive color used by the node.

This method is only meaningful for shape or joint nodes (e.g. nurbs curves/surfaces, meshes). It will work for other nodes, but will have no visible effect.

Parameters:
[in]indexIndex for current user color (0 - 7)
Returns:
Status Code
Status Codes:
bool usingObjectColor ( MStatus ReturnStatus = NULL) const

Determines whether or not the user defined inactive color will be used for the node, or whether the default inactive color will be used.

This method is only meaningful for shape or joint nodes (e.g. nurbs curves/surfaces, meshes). It will work for other nodes, but will have no visible effect.

Parameters:
[out]ReturnStatusStatus code.
Returns:
True if using the user defined inactive object color
Status Codes:
MStatus setUseObjectColor ( bool  useObjectColor)

Sets whether or not the user defined inactive object color will be used.

This method is only meaningful for shape or joint nodes (e.g. nurbs curves/surfaces, meshes). It will work for other nodes, but will have no visible effect.

Parameters:
[in]useObjectColorTrue means the user defined inactive object color will be used
Returns:
Status Code
Status Codes:
MColor hiliteColor ( MStatus ReturnStatus = NULL) const

Determines the current hilite color used by the node.

Parameters:
[out]ReturnStatusStatus code.
Returns:
The current hilite color.
Status Codes:
bool usingHiliteColor ( MStatus ReturnStatus = NULL) const

Determines whether or not the hilite color will be used for the node.

hilite command sets this flag to true.

Parameters:
[out]ReturnStatusStatus code.
Returns:
True if using the hilite color.
Status Codes:
MColor dormantColor ( MStatus ReturnStatus = NULL) const

Determines the dormant color used by this node.

The order to determine the dormant color is:

  • hilite color if hilite color is used
  • object color if user defined object color is used
  • the dormant color for this kind of dag node
Parameters:
[out]ReturnStatusStatus code.
Returns:
The dormant color.
Status Codes:
MColor activeColor ( MStatus ReturnStatus = NULL) const

Determines the active color used by this node.

The active color is the active color for this kind of dag node.

Parameters:
[out]ReturnStatusStatus code.
Returns:
The active color.
Status Codes:
bool drawOverrideEnabled ( MStatus ReturnStatus = NULL) const

Determines whether or not draw override is turned on for this node.

Parameters:
[out]ReturnStatusStatus code.
Returns:
True if draw override is turned on.
Status Codes:
bool drawOverrideIsReference ( MStatus ReturnStatus = NULL) const

Determines whether or not Display Type of the draw override is Reference for this node.

Parameters:
[out]ReturnStatusStatus code.
Returns:
True if Display Type is Reference.
Status Codes:
bool drawOverrideIsTemplate ( MStatus ReturnStatus = NULL) const

Determines whether or not Display Type of the draw override is Template for this node.

Parameters:
[out]ReturnStatusStatus code.
Returns:
True if Display Type is Template.
Status Codes:
bool drawOverrideColor ( MColor color,
MStatus ReturnStatus = NULL 
) const

Determines the draw override color used by this node.

Returns true if there is a draw override color. Otherwise, returns false and color parameter is not changed.

Parameters:
[out]colorThe draw override color.
[out]ReturnStatusStatus code.
Returns:
True if a draw override color is used.
Status Codes:
MBoundingBox boundingBox ( MStatus ReturnStatus = NULL) const

Returns the bounding box for the dag node in object space.

Parameters:
[out]ReturnStatusStatus code.
Returns:
The bounding box for the dag node
Status Codes:
MDagPath dagPath ( MStatus ReturnStatus = NULL) const

Returns the DagPath to which the Function Set is attached.

The difference between this method and the method getPath above is that this one will fail if the function set is not attached to a dag path. getPath will find a dag path if the function set is not attached to one.

Parameters:
[out]ReturnStatusStatus code.
Returns:
An MDagPath that references the object to which the Function Set is attached. If the function set is not attached to a dag path an uninitialized MDagPath will be returned.
Status Codes:
MStatus setObject ( const MDagPath objectPath) [virtual]

Attaches Function Set to the DAG Node that has the given DAG Path.

Parameters:
[in]objectPathDAG Path to Node to be attached.
Returns:
Status Code
Status Codes:
Examples:
cgfxShaderCmd.cpp, closestPointCmd.cpp, closestTangentUAndDistance.cpp, getPointAndNormal.cpp, instanceCallbackCmd.cpp, intersectCmd.cpp, polyModifierCmd.cpp, swissArmyManip.cpp, and testNobjectNode.cpp.
MStatus setObject ( MObject object) [virtual]

This method is not available in Python.

Attaches Function Set to given DAG Node.

Parameters:
[in]objectTarget Node for attachment.
Returns:
Status Code
Status Codes:

Reimplemented from MFnBase.

MObject model ( MStatus ReturnStatus = NULL) const

This method is obsolete.

Deprecated:
The model returned is an unknown type to the API and now the method always returns MObject::kNullObj.
Parameters:
[out]ReturnStatusStatus code.
Returns:
The model in which the DAG Node resides.
Status Codes:
MStatus setObject ( const MObject object) [virtual]

No script support.

Attaches Function Set to given read only DAG Node.

Parameters:
[in]objectTarget Node for attachment.
Returns:
Status Code
Status Codes:

Reimplemented from MFnBase.


MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode
MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode MFnDagNode