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1
.gitignore vendored
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@ -19,4 +19,3 @@ doc
*.mapgr
*.path
*.tgz
/.metadata/

63
be-graphes-algos/src/main/java/org/insa/graphs/algorithm/shortestpath/DijkstraAlgorithm.java
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@ -1,14 +1,5 @@
package org.insa.graphs.algorithm.shortestpath;
import java.util.ArrayList;
import java.util.Collections;
import org.insa.graphs.algorithm.AbstractSolution.Status;
import org.insa.graphs.algorithm.utils.BinaryHeap;
import org.insa.graphs.model.Arc;
import org.insa.graphs.model.Graph;
import org.insa.graphs.model.Path;
public class DijkstraAlgorithm extends ShortestPathAlgorithm {
public DijkstraAlgorithm(ShortestPathData data) {
@ -21,63 +12,11 @@ public class DijkstraAlgorithm extends ShortestPathAlgorithm {
// retrieve data from the input problem (getInputData() is inherited from the
// parent class ShortestPathAlgorithm)
final ShortestPathData data = getInputData();
Graph graph = data.getGraph();
final int nbNodes = graph.size();
// variable that will contain the solution of the shortest path problem
ShortestPathSolution solution = null;
// Initialize array of labels.
ArrayList<Label> labelsList = new ArrayList<Label>();
for (int i=0; i<nbNodes; i++) {
labelsList.add(new Label(graph.get(i)));
}
// Set cost of origin to zero
Label destinationNodeLabel = labelsList.get(data.getDestination().getId());
Label concurentNodeLabel = labelsList.get(data.getOrigin().getId());
concurentNodeLabel.setCoutRealise(0);
notifyOriginProcessed(data.getOrigin());
BinaryHeap<Label> labelsHeap = new BinaryHeap<Label>();
labelsHeap.insert(concurentNodeLabel);
boolean found = false;
while (!found && !labelsHeap.isEmpty()) {
concurentNodeLabel = labelsHeap.deleteMin();
if (!concurentNodeLabel.getMarque()) {
notifyNodeReached(concurentNodeLabel.getSommetCourant());
concurentNodeLabel.setMarque();
for (Arc arc : concurentNodeLabel.getSommetCourant().getSuccessors()) {
Label successorLabel = labelsList.get(arc.getDestination().getId());
Float newCost = arc.getLength() + concurentNodeLabel.getCost();
if (newCost < successorLabel.getCost()) {
successorLabel.setPere(arc);
successorLabel.setCoutRealise(newCost);
labelsHeap.insert(successorLabel);
}
}
if (destinationNodeLabel.getMarque()) {
found = true;
}
}
}
notifyDestinationReached(data.getDestination());
ArrayList<Arc> pathArcs = new ArrayList<Arc>();
concurentNodeLabel = destinationNodeLabel;
while(concurentNodeLabel.getPere() != null) {
pathArcs.add(0, concurentNodeLabel.getPere());
concurentNodeLabel = labelsList.get(concurentNodeLabel.getPere().getOrigin().getId());
}
// Collections.reverse(pathArcs);
solution = new ShortestPathSolution(data, Status.OPTIMAL, new Path(graph, pathArcs));
// TODO: implement the Dijkstra algorithm
// when the algorithm terminates, return the solution that has been found
return solution;

60
be-graphes-algos/src/main/java/org/insa/graphs/algorithm/shortestpath/Label.java
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@ -1,60 +0,0 @@
package org.insa.graphs.algorithm.shortestpath;
import org.insa.graphs.model.Arc;
import org.insa.graphs.model.Node;
public class Label implements Comparable<Label> {
private Node sommetCourant;
private Boolean marque;
private float coutRealise;
private Arc pere;
public Label(Node sommetCourant) {
this.sommetCourant = sommetCourant;
this.marque = false;
this.coutRealise = Float.POSITIVE_INFINITY;
}
public Node getSommetCourant() {
return sommetCourant;
}
public Boolean getMarque() {
return marque;
}
public void setMarque() {
this.marque = true;
}
public Arc getPere() {
return pere;
}
public void setPere(Arc pere) {
this.pere = pere;
}
// public double getCoutRealise() {
// return coutRealise;
// }
public void setCoutRealise(float nouveauCout) {
this.coutRealise = nouveauCout;
}
public float getCost() {
return coutRealise;
}
@Override
public int compareTo(Label o) {
return Double.compare(this.coutRealise, o.getCost()) ;
}
}

8
be-graphes-algos/src/main/java/org/insa/graphs/algorithm/utils/BinaryHeap.java
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@ -134,13 +134,7 @@ public class BinaryHeap<E extends Comparable<E>> implements PriorityQueue<E> {
@Override
public void remove(E x) throws ElementNotFoundException {
int index = this.array.indexOf(x);
if (index == -1 || index >= this.currentSize) { throw new ElementNotFoundException(x); }
E lastItem = this.array.get(--this.currentSize);
this.arraySet(index, lastItem);
this.percolateUp(index);
index = this.array.indexOf(lastItem);
this.percolateDown(index);
// TODO:
}
@Override

20
be-graphes-gui/src/main/java/org/insa/graphs/gui/simple/Launch.java
View file

@ -14,7 +14,6 @@ import org.insa.graphs.gui.drawing.components.BasicDrawing;
import org.insa.graphs.model.Graph;
import org.insa.graphs.model.Path;
import org.insa.graphs.model.io.BinaryGraphReader;
import org.insa.graphs.model.io.BinaryPathReader;
import org.insa.graphs.model.io.GraphReader;
import org.insa.graphs.model.io.PathReader;
@ -58,26 +57,23 @@ public class Launch {
try (final GraphReader reader = new BinaryGraphReader(new DataInputStream(
new BufferedInputStream(new FileInputStream(mapName))))) {
// DONE: read the graph
graph = reader.read();
// TODO: read the graph
graph = null;
}
// create the drawing
final Drawing drawing = createDrawing();
// DONE: draw the graph on the drawing
drawing.drawGraph(graph);
// TODO: draw the graph on the drawing
// DONE: create a path reader
try (final PathReader pathReader = new BinaryPathReader(new DataInputStream(
new BufferedInputStream(new FileInputStream(pathName))))) {
// TODO: create a path reader
try (final PathReader pathReader = null) {
// DONE: read the path
path = pathReader.readPath(graph);
// TODO: read the path
path = null;
}
// DONE: draw the path on the drawing
drawing.drawPath(path);
// TODO: draw the path on the drawing
}
}

80
be-graphes-model/src/main/java/org/insa/graphs/model/Path.java
View file

@ -2,9 +2,7 @@ package org.insa.graphs.model;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.List;
import java.util.Iterator;
/**
* <p>
@ -27,32 +25,12 @@ public class Path {
* @return A path that goes through the given list of nodes.
* @throws IllegalArgumentException If the list of nodes is not valid, i.e. two
* consecutive nodes in the list are not connected in the graph.
* @deprecated Need to be implemented.
*/
public static Path createFastestPathFromNodes(Graph graph, List<Node> nodes)
throws IllegalArgumentException {
List<Arc> arcs = new ArrayList<Arc>();
if (nodes.size() == 1) { return new Path(graph, nodes.get(0)); }
for (int i = 0; i < nodes.size() - 1; i++) {
Arc bestArc = null;
double bestSpeed = Double.MAX_VALUE;
for (Arc arcsucc : nodes.get(i).getSuccessors()) {
if (arcsucc.getDestination().equals(nodes.get(i+1))) {
int succspeed = arcsucc.getRoadInformation().getMaximumSpeed();
if (arcsucc.getTravelTime(succspeed) < bestSpeed) {
bestArc = arcsucc;
bestSpeed = arcsucc.getTravelTime(succspeed);
}
}
}
if (bestArc == null) {
throw new IllegalArgumentException();
} else {
arcs.add(bestArc);
}
}
// TODO:
return new Path(graph, arcs);
}
@ -65,20 +43,12 @@ public class Path {
* @return A path that goes through the given list of nodes.
* @throws IllegalArgumentException If the list of nodes is not valid, i.e. two
* consecutive nodes in the list are not connected in the graph.
* @deprecated Need to be implemented.
*/
public static Path createShortestPathFromNodes(Graph graph, List<Node> nodes)
throws IllegalArgumentException {
if (nodes.size() == 0) {
return new Path(graph);
}
if (nodes.size() == 1) {
return new Path(graph, nodes.getFirst());
}
List<Arc> arcs = new ArrayList<Arc>();
for (int i=0; i<nodes.size()-1; i++) {
int j = i;
arcs.add(nodes.get(i).getSuccessors().stream().filter(a -> a.getDestination().equals(nodes.get(j+1))).min(Comparator.comparing(Arc::getLength)).orElseThrow(() -> new IllegalArgumentException("Invalid list of nodes")));
}
// TODO:
return new Path(graph, arcs);
}
@ -214,34 +184,22 @@ public class Path {
* </ul>
*
* @return true if the path is valid, false otherwise.
* @deprecated Need to be implemented.
*/
public boolean isValid() {
if (this.isEmpty()) { return true; }
if (this.size() == 1 && this.arcs.isEmpty()) { return true; }
if (!this.arcs.get(0).getOrigin().equals(this.origin)) { return false; }
Boolean good = true;
for (int i = 0; i < this.arcs.size() - 1; i++) {
if (!this.arcs.get(i).getDestination().equals(this.arcs.get(i+1).getOrigin())) {
good = false;
}
}
return good;
// TODO:
return false;
}
/**
* Compute the length of this path (in meters).
*
* @return Total length of the path (in meters).
* @deprecated Need to be implemented.
*/
public float getLength() {
float result = 0f;
for (Arc arc : arcs) {
result += arc.getLength();
}
return result;
// TODO:
return 0;
}
/**
@ -250,13 +208,11 @@ public class Path {
* @param speed Speed to compute the travel time.
* @return Time (in seconds) required to travel this path at the given speed (in
* kilometers-per-hour).
* @deprecated Need to be implemented.
*/
public double getTravelTime(double speed) {
double ttime = 0;
for (Arc thisArc : arcs) {
ttime += thisArc.getTravelTime(speed);
}
return ttime;
// TODO:
return 0;
}
/**
@ -264,15 +220,11 @@ public class Path {
* every arc.
*
* @return Minimum travel time to travel this path (in seconds).
* @deprecated Need to be implemented.
*/
public double getMinimumTravelTime() {
double ttime = 0;
int maxSpeed;
for (Arc thisArc : arcs) {
maxSpeed = thisArc.getRoadInformation().getMaximumSpeed();
ttime += thisArc.getTravelTime(maxSpeed);
}
return ttime;
// TODO:
return 0;
}
}