- Type Parameters:
V
- the graph vertex typeE
- the graph edge type
- All Implemented Interfaces:
ShortestPathAlgorithm<V,
E>
An implementation of A* shortest path
algorithm. This class works for directed and undirected graphs, as well as multi-graphs and
mixed-graphs. The graph can also change between invocations of the
getPath(Object, Object)
method; no new instance of this class has to be created. The
heuristic is implemented using a PairingHeap data structure by default to maintain the set of
open nodes. However, there still exist several approaches in literature to improve the
performance of this heuristic which one could consider to implement. Custom heap implementation
can be specified during the construction time. Another issue to take into consideration is the
following: given two candidate nodes, $i$, $j$ to expand, where $f(i)=f(j)$, $g(i)$ > $g(j)$,
$h(i)$ < $g(j)$, $f(i)=g(i)+h(i)$, $g(i)$ is the actual distance from the source node to $i$,
$h(i)$ is the estimated distance from $i$ to the target node. Usually a depth-first search is
desired, so ideally we would expand node $i$ first. Using the PairingHeap, this is not
necessarily the case though. This could be improved in a later version.
Note: This implementation works with both consistent and inconsistent admissible heuristics. For
details on consistency, refer to the description of the method
AStarAdmissibleHeuristic.isConsistent(Graph)
. However, this class is not optimized
for inconsistent heuristics. Several opportunities to improve both worst case and average runtime
complexities for A* with inconsistent heuristics described in literature can be used to improve
this implementation!
- Author:
- Joris Kinable, Jon Robison, Thomas Breitbart
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Nested Class Summary
Nested classes/interfaces inherited from interface org.jgrapht.alg.interfaces.ShortestPathAlgorithm
ShortestPathAlgorithm.SingleSourcePaths<V,
E> -
Field Summary
Modifier and TypeFieldDescriptionprotected AStarAdmissibleHeuristic<V>
protected Comparator<Double>
The underlying graph.protected static final String
Error message for reporting the existence of a negative-weight cycle.protected static final String
Error message for reporting that a sink vertex is missing.protected static final String
Error message for reporting that a source vertex is missing.protected int
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Constructor Summary
ConstructorDescriptionAStarShortestPath
(Graph<V, E> graph, AStarAdmissibleHeuristic<V> admissibleHeuristic) Create a new instance of the A* shortest path algorithm.AStarShortestPath
(Graph<V, E> graph, AStarAdmissibleHeuristic<V> admissibleHeuristic, Supplier<org.jheaps.AddressableHeap<Double, V>> heapSupplier) Create a new instance of the A* shortest path algorithm. -
Method Summary
Modifier and TypeMethodDescriptioncreateEmptyPath
(V source, V sink) Create an empty path.int
Returns how many nodes have been expanded in the A* search procedure in its last invocation.Calculates (and returns) the shortest path from the sourceVertex to the targetVertex.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.
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Field Details
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heapSupplier
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openList
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vertexToHeapNodeMap
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closedList
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gScoreMap
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cameFrom
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admissibleHeuristic
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numberOfExpandedNodes
protected int numberOfExpandedNodes -
comparator
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GRAPH_CONTAINS_A_NEGATIVE_WEIGHT_CYCLE
Error message for reporting the existence of a negative-weight cycle.- See Also:
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GRAPH_MUST_CONTAIN_THE_SOURCE_VERTEX
Error message for reporting that a source vertex is missing.- See Also:
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GRAPH_MUST_CONTAIN_THE_SINK_VERTEX
Error message for reporting that a sink vertex is missing.- See Also:
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graph
The underlying graph.
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Constructor Details
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AStarShortestPath
Create a new instance of the A* shortest path algorithm.- Parameters:
graph
- the input graphadmissibleHeuristic
- admissible heuristic which estimates the distance from a node to the target node. The heuristic must never overestimate the distance.
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AStarShortestPath
public AStarShortestPath(Graph<V, E> graph, AStarAdmissibleHeuristic<V> admissibleHeuristic, Supplier<org.jheaps.AddressableHeap<Double, V>> heapSupplier) Create a new instance of the A* shortest path algorithm.- Parameters:
graph
- the input graphadmissibleHeuristic
- admissible heuristic which estimates the distance from a node to the target node. The heuristic must never overestimate the distance.heapSupplier
- supplier of the preferable heap implementation
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Method Details
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getPath
Calculates (and returns) the shortest path from the sourceVertex to the targetVertex. Note: each time you invoke this method, the path gets recomputed.- Parameters:
sourceVertex
- source vertextargetVertex
- target vertex- Returns:
- the shortest path from sourceVertex to targetVertex
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getNumberOfExpandedNodes
public int getNumberOfExpandedNodes()Returns how many nodes have been expanded in the A* search procedure in its last invocation. A node is expanded if it is removed from the open list.- Returns:
- number of expanded nodes
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getPaths
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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getPathWeight
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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createEmptyPath
Create an empty path. Returns null if the source vertex is different than the target vertex.- Parameters:
source
- the source vertexsink
- the sink vertex- Returns:
- an empty path or null null if the source vertex is different than the target vertex
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