Package org.jgrapht.alg.shortestpath
Class DijkstraManyToManyShortestPaths<V,E>
- java.lang.Object
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- org.jgrapht.alg.shortestpath.DijkstraManyToManyShortestPaths<V,E>
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- Type Parameters:
V
- the graph vertex typeE
- the graph edge type
- All Implemented Interfaces:
ManyToManyShortestPathsAlgorithm<V,E>
,ShortestPathAlgorithm<V,E>
public class DijkstraManyToManyShortestPaths<V,E> extends java.lang.Object
Naive algorithm for many-to-many shortest paths problem usingDijkstraClosestFirstIterator
.Complexity of the algorithm is $O(min(|S|,|T|)*(V\log V + E))$, where $S$ is the set of source vertices, $T$ is the set of target vertices, $V$ is the set of graph vertices and $E$ is the set of graph edges of the graph.
For each source vertex a single source shortest paths search is performed, which is stopped as soon as all target vertices are reached. Shortest paths trees are constructed using
DijkstraClosestFirstIterator
.- Author:
- Semen Chudakov
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Nested Class Summary
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Nested classes/interfaces inherited from interface org.jgrapht.alg.interfaces.ManyToManyShortestPathsAlgorithm
ManyToManyShortestPathsAlgorithm.BaseManyToManyShortestPathsImpl<V,E>, ManyToManyShortestPathsAlgorithm.ManyToManyShortestPaths<V,E>
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Nested classes/interfaces inherited from interface org.jgrapht.alg.interfaces.ShortestPathAlgorithm
ShortestPathAlgorithm.SingleSourcePaths<V,E>
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Constructor Summary
Constructors Constructor Description DijkstraManyToManyShortestPaths(Graph<V,E> graph)
Constructs an instance of the algorithm for a givengraph
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Method Summary
All Methods Static Methods Instance Methods Concrete Methods Modifier and Type Method Description ManyToManyShortestPathsAlgorithm.ManyToManyShortestPaths<V,E>
getManyToManyPaths(java.util.Set<V> sources, java.util.Set<V> targets)
Computes shortest paths from all vertices insources
to all vertices intargets
.GraphPath<V,E>
getPath(V source, V sink)
Get a shortest path from a source vertex to a sink vertex.ShortestPathAlgorithm.SingleSourcePaths<V,E>
getPaths(V source)
Compute all shortest paths starting from a single source vertex.double
getPathWeight(V source, V sink)
Get the weight of the shortest path from a source vertex to a sink vertex.protected static <V,E>
ShortestPathAlgorithm.SingleSourcePaths<V,E>getShortestPathsTree(Graph<V,E> graph, V source, java.util.Set<V> targets)
Computes shortest paths tree starting atsource
and stopping as soon as all of thetargets
are reached.
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Field Detail
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graph
protected final Graph<V,E> graph
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Method Detail
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getManyToManyPaths
public ManyToManyShortestPathsAlgorithm.ManyToManyShortestPaths<V,E> getManyToManyPaths(java.util.Set<V> sources, java.util.Set<V> targets)
Computes shortest paths from all vertices insources
to all vertices intargets
.- Parameters:
sources
- list of sources verticestargets
- list of target vertices- Returns:
- computed shortest paths
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getPath
public GraphPath<V,E> getPath(V source, V sink)
Get a shortest path from a source vertex to a sink vertex.- Specified by:
getPath
in interfaceShortestPathAlgorithm<V,E>
- Parameters:
source
- the source vertexsink
- the target vertex- Returns:
- a shortest path or null if no path exists
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getPathWeight
public double getPathWeight(V source, V sink)
Get the weight of the shortest path from a source vertex to a sink vertex. ReturnsDouble.POSITIVE_INFINITY
if no path exists.- Specified by:
getPathWeight
in interfaceShortestPathAlgorithm<V,E>
- Parameters:
source
- the source vertexsink
- the sink vertex- Returns:
- the weight of the shortest path from a source vertex to a sink vertex, or
Double.POSITIVE_INFINITY
if no path exists
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getPaths
public ShortestPathAlgorithm.SingleSourcePaths<V,E> getPaths(V source)
Compute all shortest paths starting from a single source vertex.- Specified by:
getPaths
in interfaceShortestPathAlgorithm<V,E>
- Parameters:
source
- the source vertex- Returns:
- the shortest paths
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getShortestPathsTree
protected static <V,E> ShortestPathAlgorithm.SingleSourcePaths<V,E> getShortestPathsTree(Graph<V,E> graph, V source, java.util.Set<V> targets)
Computes shortest paths tree starting atsource
and stopping as soon as all of thetargets
are reached. Here theDijkstraClosestFirstIterator
is used.- Type Parameters:
V
- the graph vertex typeE
- the graph edge type- Parameters:
graph
- a graphsource
- source vertextargets
- target vertices- Returns:
- shortest paths starting from
source
and reaching alltargets
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