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cTopology Class Reference

#include <ctopo.h>

Inheritance diagram for cTopology::

cObject List of all members.

Public Methods

Constructors, destructor, assignment
 cTopology (const char *name=NULL)
 cTopology (const cTopology &topo)
virtual ~cTopology ()
cTopology& operator= (const cTopology &topo)
Redefined cObject member functions.
virtual cObjectdup () const
virtual void info (char *buf)
virtual int netPack ()
virtual int netUnpack ()
Extracting the topology from a network.
extract...() functions build topology from the model. User can select which modules to include. All connections between those modules will be in the topology. Connections can cross compound module boundaries.

void extractFromNetwork (int(*selfunc)(cModule *,void *), void *data=NULL)
void extractByModuleType (const char *type1,...)
void extractByParameter (const char *parname, cPar *value=NULL)
void clear ()
Functions to examine topology by hand.
Users also need to rely on Node and Link member functions to explore the graph stored in the object.

int nodes () const
Nodenode (int i)
NodenodeFor (cModule *mod)
Algorithms to find shortest paths.
To be implemented:
  • void unweightedMultiShortestPathsTo(Node *target);
  • void weightedSingleShortestPathsTo(Node *target);
  • void weightedMultiShortestPathsTo(Node *target);


void unweightedSingleShortestPathsTo (Node *target)
NodetargetNode () const

Detailed Description

Routing support. The cTopology class was designed primarily to support routing in telecommunication or multiprocessor networks.

A cTopology object stores an abstract representation of the network in graph form:

You can specify which modules (either simple or compound) you want to include in the graph. The graph will include all connections among the selected modules. In the graph, all nodes are at the same level, there's no submodule nesting. Connections which span across compound module boundaries are also represented as one graph edge. Graph edges are directed, just as module gates are.

See also:
cTopology::Node, cTopology::Link, cTopology::LinkIn, cTopology::LinkOut


Constructor & Destructor Documentation

cTopology::cTopology ( const char * name = NULL ) [explicit]
 

Constructor.

cTopology::cTopology ( const cTopology & topo )
 

Copy constructor.

cTopology::~cTopology ( ) [virtual]
 

Destructor.


Member Function Documentation

void cTopology::clear ( )
 

Deletes the topology stored in the object.

cObject * cTopology::dup ( ) const [inline, virtual]
 

Creates and returns an exact copy of this object. See cObject for more details.

Reimplemented from cObject.

void cTopology::extractByModuleType ( const char * type1,
... )
 

Extracts model topology by module type (classnames). Includes into the graph all modules whose className() is one of the strings listed as arguments. The argument list must be terminated by NULL.

void cTopology::extractByParameter ( const char * parname,
cPar * value = NULL )
 

Extracts model topology by parameter value. Includes into the graph modules which have a parameter with the given name and (optionally) the given value.

void cTopology::extractFromNetwork ( int(* selfunc)(cModule *,void *),
void * data = NULL )
 

Extracts model topology by a user-defined criteria. Includes into the graph modules for which the passed selfunc() returns nonzero.

void cTopology::info ( char * buf ) [virtual]
 

Produces a one-line description of object contents into the buffer passed as argument. See cObject for more details.

Reimplemented from cObject.

int cTopology::netPack ( ) [virtual]
 

Serializes the object into a PVM or MPI send buffer. Used by the simulation kernel for parallel execution. See cObject for more details.

Reimplemented from cObject.

int cTopology::netUnpack ( ) [virtual]
 

Deserializes the object from a PVM or MPI receive buffer Used by the simulation kernel for parallel execution. See cObject for more details.

Reimplemented from cObject.

Node * cTopology::node ( int i )
 

Returns pointer to the ith node in the graph. Node's methods can be used to further examine the node's connectivity, etc.

Node * cTopology::nodeFor ( cModule * mod )
 

Returns the graph node which corresponds to the given module in the network. If no graph node corresponds to the module, the method returns NULL. This method assumes that the topology corresponds to the network, that is, it was probably created with one of the extract...() functions.

int cTopology::nodes ( ) const [inline]
 

Returns the number of nodes in the graph.

cTopology & cTopology::operator= ( const cTopology & topo )
 

Assignment operator. The name member doesn't get copied; see cObject's operator=() for more details.

Node * cTopology::targetNode ( ) const [inline]
 

Returns the node that was passed to the most recently called shortest path finding function.

void cTopology::unweightedSingleShortestPathsTo ( Node * target )
 

Apply the Dijkstra algorithm to find all shortest paths to the given graph node. The paths found can be extracted via Node's methods.


The documentation for this class was generated from the following file:
Generated at Mon Jun 16 23:37:33 2003 for OMNeT++ by doxygen1.2.8.1 written by Dimitri van Heesch, © 1997-2001