An editable directed graph. More...

#include <vtkMutableDirectedGraph.h>

Inheritance diagram for vtkMutableDirectedGraph:

Collaboration diagram for vtkMutableDirectedGraph:

Public Types
typedef vtkDirectedGraph	Superclass
Public Member Functions
virtual int	IsA (const char *type)
vtkMutableDirectedGraph *	NewInstance () const
void	PrintSelf (ostream &os, vtkIndent indent)
virtual vtkIdType	SetNumberOfVertices (vtkIdType numVerts)
vtkIdType	AddVertex ()
vtkIdType	AddVertex (vtkVariantArray *propertyArr)
vtkIdType	AddVertex (const vtkVariant &pedigreeId)
void	LazyAddVertex ()
void	LazyAddVertex (vtkVariantArray *propertyArr)
void	LazyAddVertex (const vtkVariant &pedigreeId)
void	LazyAddEdge (vtkIdType u, vtkIdType v, vtkVariantArray *propertyArr=0)
vtkGraphEdge *	AddGraphEdge (vtkIdType u, vtkIdType v)
void	RemoveVertex (vtkIdType v)
void	RemoveEdge (vtkIdType e)
void	RemoveVertices (vtkIdTypeArray *arr)
void	RemoveEdges (vtkIdTypeArray *arr)

vtkEdgeType	AddEdge (vtkIdType u, vtkIdType v)

vtkEdgeType	AddEdge (vtkIdType u, vtkIdType v, vtkVariantArray *propertyArr)

vtkEdgeType	AddEdge (const vtkVariant &u, vtkIdType v, vtkVariantArray *propertyArr=0)

vtkEdgeType	AddEdge (vtkIdType u, const vtkVariant &v, vtkVariantArray *propertyArr=0)

vtkEdgeType	AddEdge (const vtkVariant &u, const vtkVariant &v, vtkVariantArray *propertyArr=0)

void	LazyAddEdge (const vtkVariant &u, vtkIdType v, vtkVariantArray *propertyArr=0)

void	LazyAddEdge (vtkIdType u, const vtkVariant &v, vtkVariantArray *propertyArr=0)

void	LazyAddEdge (const vtkVariant &u, const vtkVariant &v, vtkVariantArray *propertyArr=0)

vtkIdType	AddChild (vtkIdType parent, vtkVariantArray *propertyArr)
vtkIdType	AddChild (vtkIdType parent)
Static Public Member Functions
static vtkMutableDirectedGraph *	New ()
static int	IsTypeOf (const char *type)
static vtkMutableDirectedGraph *	SafeDownCast (vtkObjectBase *o)
Protected Member Functions
virtual vtkObjectBase *	NewInstanceInternal () const
	vtkMutableDirectedGraph ()
	~vtkMutableDirectedGraph ()
Protected Attributes
vtkGraphEdge *	GraphEdge

Detailed Description

An editable directed graph.

vtkMutableDirectedGraph is a directed graph which has additional methods for adding edges and vertices. AddChild() is a convenience method for constructing trees. ShallowCopy(), DeepCopy(), CheckedShallowCopy() and CheckedDeepCopy() will succeed for instances of vtkDirectedGraph, vtkMutableDirectedGraph and vtkTree.

See also:: vtkDirectedGraph vtkGraph vtkTree

Examples:: vtkMutableDirectedGraph (Examples)

Tests:: vtkMutableDirectedGraph (Tests)

Definition at line 50 of file vtkMutableDirectedGraph.h.

Member Typedef Documentation

typedef vtkDirectedGraph vtkMutableDirectedGraph::Superclass

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

Definition at line 54 of file vtkMutableDirectedGraph.h.

Constructor & Destructor Documentation

vtkMutableDirectedGraph::vtkMutableDirectedGraph ( ) [protected]

vtkMutableDirectedGraph::~vtkMutableDirectedGraph ( ) [protected]

Member Function Documentation

static vtkMutableDirectedGraph* vtkMutableDirectedGraph::New ( ) [static]

Create an object with Debug turned off, modified time initialized to zero, and reference counting on.

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

static int vtkMutableDirectedGraph::IsTypeOf ( const char * name ) [static]

Return 1 if this class type is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h.

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

virtual int vtkMutableDirectedGraph::IsA ( const char * name ) [virtual]

Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h.

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

static vtkMutableDirectedGraph* vtkMutableDirectedGraph::SafeDownCast ( vtkObjectBase * o ) [static]

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

virtual vtkObjectBase* vtkMutableDirectedGraph::NewInstanceInternal ( ) const [protected, virtual]

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

vtkMutableDirectedGraph* vtkMutableDirectedGraph::NewInstance ( ) const

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

void vtkMutableDirectedGraph::PrintSelf	(	ostream &	os,
		vtkIndent	indent
	)		`[virtual]`

Methods invoked by print to print information about the object including superclasses. Typically not called by the user (use Print() instead) but used in the hierarchical print process to combine the output of several classes.

Reimplemented from vtkDirectedGraph.

Reimplemented in vtkReebGraph.

virtual vtkIdType vtkMutableDirectedGraph::SetNumberOfVertices ( vtkIdType numVerts ) [virtual]

Allocates space for the specified number of vertices in the graph's internal data structures. This has no effect on the number of vertex coordinate tuples or vertex attribute tuples allocated; you are responsible for guaranteeing these match. Also, this call is not implemented for distributed-memory graphs since the semantics are unclear; calling this function on a graph with a non-NULL DistributedGraphHelper will generate an error message and no allocation will be performed.

vtkIdType vtkMutableDirectedGraph::AddVertex ( )

Adds a vertex to the graph and returns the index of the new vertex.

Note:: In a distributed graph (i.e. a graph whose DistributedHelper is non-null), this routine cannot be used to add a vertex if the vertices in the graph have pedigree IDs, because this routine will always add the vertex locally, which may conflict with the proper location of the vertex based on the distribution of the pedigree IDs.

vtkIdType vtkMutableDirectedGraph::AddVertex ( vtkVariantArray * propertyArr )

Adds a vertex to the graph with associated properties defined in propertyArr and returns the index of the new vertex. The number and order of values in propertyArr must match up with the arrays in the vertex data retrieved by GetVertexData(). If a vertex with the given pedigree ID already exists, its properties will be overwritten with the properties in propertyArr and the existing vertex index will be returned.

Note:: In a distributed graph (i.e. a graph whose DistributedHelper is non-null) the vertex added or found might not be local. In this case, AddVertex will wait until the vertex can be added or found remotely, so that the proper vertex index can be returned. If you don't actually need to use the vertex index, consider calling LazyAddVertex, which provides better performance by eliminating the delays associated with returning the vertex index.

vtkIdType vtkMutableDirectedGraph::AddVertex ( const vtkVariant & pedigreeId )

Adds a vertex with the given pedigreeID to the graph and returns the index of the new vertex. If a vertex with the given pedigree ID already exists, the existing vertex index will be returned.

Note:: In a distributed graph (i.e. a graph whose DistributedHelper is non-null) the vertex added or found might not be local. In this case, AddVertex will wait until the vertex can be added or found remotely, so that the proper vertex index can be returned. If you don't actually need to use the vertex index, consider calling LazyAddVertex, which provides better performance by eliminating the delays associated with returning the vertex index.

vtkEdgeType vtkMutableDirectedGraph::AddEdge	(	vtkIdType	u,
		vtkIdType	v
	)

Adds a directed edge from u to v, where u and v are vertex indices, and returns a vtkEdgeType structure describing that edge. vtkEdgeType contains fields for Source vertex index, Target vertex index, and edge index Id.

vtkEdgeType vtkMutableDirectedGraph::AddEdge	(	vtkIdType	u,
		vtkIdType	v,
		vtkVariantArray *	propertyArr
	)

Adds a directed edge from u to v, where u and v are vertex indices, with associated properties defined in propertyArr and returns a vtkEdgeType structure describing that edge. The number and order of values in propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). vtkEdgeType contains fields for Source vertex index, Target vertex index, and edge index Id.

vtkEdgeType vtkMutableDirectedGraph::AddEdge	(	const vtkVariant &	u,
		vtkIdType	v,
		vtkVariantArray *	propertyArr = `0`
	)

Adds a directed edge from u to v, where u is a vertex pedigree ID and v is a vertex index, and returns a vtkEdgeType structure describing that edge. The number and order of values in the optional parameter propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). vtkEdgeType contains fields for Source vertex index, Target vertex index, and edge index Id.

vtkEdgeType vtkMutableDirectedGraph::AddEdge	(	vtkIdType	u,
		const vtkVariant &	v,
		vtkVariantArray *	propertyArr = `0`
	)

Adds a directed edge from u to v, where u is a vertex index and v is a vertex pedigree ID, and returns a vtkEdgeType structure describing that edge. The number and order of values in the optional parameter propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). vtkEdgeType contains fields for Source vertex index, Target vertex index, and edge index Id.

vtkEdgeType vtkMutableDirectedGraph::AddEdge	(	const vtkVariant &	u,
		const vtkVariant &	v,
		vtkVariantArray *	propertyArr = `0`
	)

Adds a directed edge from u to v, where u and v are vertex pedigree IDs, and returns a vtkEdgeType structure describing that edge. The number and order of values in the optional parameter propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). vtkEdgeType contains fields for Source vertex index, Target vertex index, and edge index Id.

void vtkMutableDirectedGraph::LazyAddVertex ( )

Adds a vertex to the graph. This method is lazily evaluated for distributed graphs (i.e. graphs whose DistributedHelper is non-null) the next time Synchronize is called on the helper.

void vtkMutableDirectedGraph::LazyAddVertex ( vtkVariantArray * propertyArr )

Adds a vertex to the graph with associated properties defined in propertyArr. The number and order of values in propertyArr must match up with the arrays in the vertex data retrieved by GetVertexData(). If a vertex with the given pedigree ID already exists, its properties will be overwritten with the properties in propertyArr. This method is lazily evaluated for distributed graphs (i.e. graphs whose DistributedHelper is non-null) the next time Synchronize is called on the helper.

void vtkMutableDirectedGraph::LazyAddVertex ( const vtkVariant & pedigreeId )

Adds a vertex with the given pedigreeID to the graph. If a vertex with the given pedigree ID already exists, no operation is performed. This method is lazily evaluated for distributed graphs (i.e. graphs whose DistributedHelper is non-null) the next time Synchronize is called on the helper.

void vtkMutableDirectedGraph::LazyAddEdge	(	vtkIdType	u,
		vtkIdType	v,
		vtkVariantArray *	propertyArr = `0`
	)

Adds a directed edge from u to v, where u and v are vertex indices. The number and order of values in the optional parameter propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). This method is lazily evaluated for distributed graphs (i.e. graphs whose DistributedHelper is non-null) the next time Synchronize is called on the helper.

void vtkMutableDirectedGraph::LazyAddEdge	(	const vtkVariant &	u,
		vtkIdType	v,
		vtkVariantArray *	propertyArr = `0`
	)

Adds a directed edge from u to v, where u is a vertex pedigree ID and v is a vertex index. The number and order of values in the optional parameter propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). This method is lazily evaluated for distributed graphs (i.e. graphs whose DistributedHelper is non-null) the next time Synchronize is called on the helper.

void vtkMutableDirectedGraph::LazyAddEdge	(	vtkIdType	u,
		const vtkVariant &	v,
		vtkVariantArray *	propertyArr = `0`
	)

Adds a directed edge from u to v, where u is a vertex index and v is a vertex pedigree ID. The number and order of values in the optional parameter propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). This method is lazily evaluated for distributed graphs (i.e. graphs whose DistributedHelper is non-null) the next time Synchronize is called on the helper.

void vtkMutableDirectedGraph::LazyAddEdge	(	const vtkVariant &	u,
		const vtkVariant &	v,
		vtkVariantArray *	propertyArr = `0`
	)

Adds a directed edge from u to v, where u and v are vertex pedigree IDs. The number and order of values in the optional parameter propertyArr must match up with the arrays in the edge data retrieved by GetEdgeData(). This method is lazily evaluated for distributed graphs (i.e. graphs whose DistributedHelper is non-null) the next time Synchronize is called on the helper.

vtkGraphEdge* vtkMutableDirectedGraph::AddGraphEdge	(	vtkIdType	u,
		vtkIdType	v
	)

Variant of AddEdge() that returns a heavyweight vtkGraphEdge object. The graph owns the reference of the edge and will replace its contents on the next call to AddGraphEdge().

Note:: This is a less efficient method for use with wrappers. In C++ you should use the faster AddEdge().

vtkIdType vtkMutableDirectedGraph::AddChild	(	vtkIdType	parent,
		vtkVariantArray *	propertyArr
	)

Convenience method for creating trees. Returns the newly created vertex id. Shortcut for

 vtkIdType v = g->AddVertex();
      g->AddEdge(parent, v);

If non-null, propertyArr provides edge properties for the newly-created edge. The values in propertyArr must match up with the arrays in the edge data returned by GetEdgeData().

vtkIdType vtkMutableDirectedGraph::AddChild ( vtkIdType parent ) [inline]

Convenience method for creating trees. Returns the newly created vertex id. Shortcut for

 vtkIdType v = g->AddVertex();
      g->AddEdge(parent, v);

If non-null, propertyArr provides edge properties for the newly-created edge. The values in propertyArr must match up with the arrays in the edge data returned by GetEdgeData().

Definition at line 245 of file vtkMutableDirectedGraph.h.

void vtkMutableDirectedGraph::RemoveVertex ( vtkIdType v )

Removes the vertex from the graph along with any connected edges. Note: This invalidates the last vertex index, which is reassigned to v.

void vtkMutableDirectedGraph::RemoveEdge ( vtkIdType e )

Removes the edge from the graph. Note: This invalidates the last edge index, which is reassigned to e.

void vtkMutableDirectedGraph::RemoveVertices ( vtkIdTypeArray * arr )

Removes a collection of vertices from the graph along with any connected edges.

void vtkMutableDirectedGraph::RemoveEdges ( vtkIdTypeArray * arr )

Removes a collection of edges from the graph.

Member Data Documentation

vtkGraphEdge* vtkMutableDirectedGraph::GraphEdge [protected]

Graph edge that is reused of AddGraphEdge calls.

Definition at line 270 of file vtkMutableDirectedGraph.h.

The documentation for this class was generated from the following file:

dox/Common/DataModel/vtkMutableDirectedGraph.h

Public Types

Public Member Functions

Static Public Member Functions

Protected Member Functions

Protected Attributes

Detailed Description

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation