libgexf::DirectedGraph Class Reference

Interpretation of the topology structure as a directed graph. More...

#include <directedgraph.h>

Inheritance diagram for libgexf::DirectedGraph:

List of all members.

Public Member Functions
	DirectedGraph (const DirectedGraph &orig)
	Copy constructor.
void	removeInEdges (const libgexf::t_id target_id)
	Remove incoming edges from a node.
void	removeOutEdges (const libgexf::t_id source_id)
	Remove outgoing edges from a node.
std::vector< libgexf::t_id >	getInEdges (const libgexf::t_id node_id) const
	Get incoming edges from a node.
std::vector< libgexf::t_id >	getOutEdges (const libgexf::t_id node_id) const
	Get outgoing edges from a node.
std::vector< libgexf::t_id >	getSuccessors (const libgexf::t_id node_id) const
	Get node successors.
std::vector< libgexf::t_id >	getPredecessors (const libgexf::t_id node_id) const
	Get node predecessors.
unsigned int	getInDegree (const libgexf::t_id node_id) const
	Get indegree value.
unsigned int	getOutDegree (const libgexf::t_id node_id) const
	Get outdegree value.
bool	isSuccessor (const libgexf::t_id node_id, const libgexf::t_id successor_id) const
	Test a possible successor.
bool	isPredecessor (const libgexf::t_id node_id, const libgexf::t_id predecessor_id) const
	Test a possible predecessor.

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Detailed Description

Interpretation of the topology structure as a directed graph.

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Member Function Documentation

void libgexf::DirectedGraph::removeInEdges

(

const libgexf::t_id

target_id

)

Remove incoming edges from a node.

Parameters:

target_id

: node ID

void libgexf::DirectedGraph::removeOutEdges

(

const libgexf::t_id

source_id

)

Remove outgoing edges from a node.

Parameters:

source_id

: node ID

std::vector< t_id > libgexf::DirectedGraph::getInEdges

(

const libgexf::t_id

node_id

)

const

Get incoming edges from a node.

Parameters:

node_id

: node ID

Returns:

Vector of IDs of incoming edges

std::vector< t_id > libgexf::DirectedGraph::getOutEdges

(

const libgexf::t_id

node_id

)

const

Get outgoing edges from a node.

Parameters:

node_id

: node ID

Returns:

Vector of IDs of outgoing edges

std::vector< t_id > libgexf::DirectedGraph::getSuccessors

(

const libgexf::t_id

node_id

)

const

Get node successors.

Parameters:

node_id

: node ID

Returns:

Vector of node IDs

std::vector< t_id > libgexf::DirectedGraph::getPredecessors

(

const libgexf::t_id

node_id

)

const

Get node predecessors.

Parameters:

node_id

: node ID

Returns:

Vector of node IDs

unsigned int libgexf::DirectedGraph::getInDegree

(

const libgexf::t_id

node_id

)

const

Get indegree value.

Parameters:

node_id

: node ID

Returns:

indegree value

unsigned int libgexf::DirectedGraph::getOutDegree

(

const libgexf::t_id

node_id

)

const

Get outdegree value.

Parameters:

node_id

: node ID

Returns:

outdegree value

bool libgexf::DirectedGraph::isSuccessor	(	const libgexf::t_id	node_id,
		const libgexf::t_id	successor_id
	)			const

Test a possible successor.

Check if the successor_id is a successor of the node node_id.

Parameters:

	node_id	: node ID
	successor_id	: node ID of the tested successor

Returns:

true if successor_id is a successor of node_id

bool libgexf::DirectedGraph::isPredecessor	(	const libgexf::t_id	node_id,
		const libgexf::t_id	predecessor_id
	)			const

Test a possible predecessor.

Check if the predecessor_id is a predecessor of the node node_id.

Parameters:

	node_id	: node ID
	predecessor_id	: node ID of the tested predecessor

Returns:

true if predecessor_id is a predecessor of node_id

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

• libgexf/directedgraph.h
• libgexf/directedgraph.cpp