# Conflicts:
#	graph/EdgeMarking.java
#	out/production/ProjektGraph/graph/EdgeWeightMarking.class
This commit is contained in:
cmerkens 2024-07-07 23:41:01 +02:00
commit 80d48d5335
23 changed files with 627 additions and 100 deletions

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@ -48,7 +48,7 @@ public class OurApplication {
DirectedGraph<VertexMarking, EdgeMarking> myGraph = new DirectedGraph<>();
ExampleGraphs temp = new ExampleGraphs();
myGraph = temp.example1();
//myGraph = temp.example2();
//sean: Ich wollte erst hier dann das ausgewählte Beispiel reinhauen, jedoch wird das hier nur einmal am Anfang aufgerufen
System.out.println(myGraph.toString());

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@ -1,63 +1,108 @@
package graph;
/**
* Abstract class representing an edge in a graph.
*/
public abstract class Edge {
// ATTRIBUTE
// ATTRIBUTES
/** The name of the edge. */
private String name;
/** The source vertex of the edge. */
private Vertex source;
/** The destination vertex of the edge. */
private Vertex destination;
// CONSTRUCTORS
// KONSTRUKTOREN
/**
* Default constructor initializes the edge with empty name and null source and destination vertices.
*/
public Edge() {
this.name = "";
this.source = null;
this.destination = null;
}
/**
* Constructor initializes the edge with a specified name, source, and destination vertices.
*
* @param s The name of the edge.
* @param n1 The source vertex of the edge.
* @param n2 The destination vertex of the edge.
*/
public Edge(String s, Vertex n1, Vertex n2) {
this.name = s;
this.source = n1;
this.destination = n2;
}
// GETTERS
// GET-ER
/**
* Retrieves the name of the edge.
*
* @return The name of the edge.
*/
public String getName() {
return this.name;
}
/**
* Retrieves the source vertex of the edge.
*
* @return The source vertex of the edge.
*/
public Vertex getSource() {
return this.source;
}
/**
* Retrieves the destination vertex of the edge.
*
* @return The destination vertex of the edge.
*/
public Vertex getDestination() {
return this.destination;
}
/**
* Abstract method to retrieve the screen representation of the edge for visualization.
*
* @return The visualizationElements.Edge representing the screen edge.
*/
public abstract visualizationElements.Edge getScreenEdge();
// SETTERS
// SET-ER
/**
* Sets the name of the edge.
*
* @param s The name to set for the edge.
*/
public void setName(String s) {
this.name = s;
}
/**
* Sets the source vertex of the edge.
*
* @param n The source vertex to set for the edge.
*/
public void setSource(Vertex n) {
this.source = n;
}
/**
* Sets the destination vertex of the edge.
*
* @param n The destination vertex to set for the edge.
*/
public void setDestination(Vertex n) {
this.destination = n;
}
}

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@ -1,4 +1,45 @@
package graph;
public abstract class EdgeMarking extends Marking{
/**
* Abstract class representing an edge marking.
* Extends the Marking class.
*/
public abstract class EdgeMarking extends Marking {
}
/**
* Class representing a specific type of edge marking: edge weight.
* Inherits from EdgeMarking.
*/
class EdgeWeightMarking extends EdgeMarking {
/** The weight value associated with this edge marking. */
private int weight;
/**
* Constructor to initialize the EdgeWeightMarking with a specified weight.
*
* @param weight The weight value to set.
*/
EdgeWeightMarking(int weight) {
this.weight = weight;
}
/**
* Sets the weight value of this edge marking.
*
* @param weight The weight value to set.
*/
public void setWeight(int weight) {
this.weight = weight;
}
/**
* Retrieves the weight value of this edge marking.
*
* @return The weight value of this edge marking.
*/
public int getWeight() {
return this.weight;
}
}

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@ -6,23 +6,39 @@ import logging.LogElementList;
import java.awt.*;
import java.util.*;
/**
* Abstract class representing a generic graph.
* @param <T> Type parameter for vertex markings, extends VertexMarking.
* @param <U> Type parameter for edge markings, extends EdgeMarking.
*/
public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// ATTRIBUTE
/** The name of the graph. */
private String name;
/** Vector containing all marked vertices in the graph. */
private Vector<MarkedVertex<T>> vertexes;
/** Vector containing all marked edges in the graph. */
private Vector<MarkedEdge<U>> edges;
// KONSTRUKTOREN
/**
* Default constructor initializes an empty graph.
*/
public Graph() {
this.edges = new Vector<>();
this.vertexes = new Vector<>();
}
/**
* Constructor that initializes the graph with a given name.
* @param s The name of the graph.
*/
public Graph(String s) {
this();
this.name = s;
@ -31,35 +47,59 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// GET-ER
/**
* Returns the name of the graph.
* @return The name of the graph.
*/
public String getName() {
return this.name;
}
/**
* Returns all edges in the graph.
* @return Vector containing all edges in the graph.
*/
public Vector<MarkedEdge<U>> getAllEdges() {
return this.edges;
}
/**
* Returns all vertices in the graph.
* @return Vector containing all vertices in the graph.
*/
public Vector<MarkedVertex<T>> getAllVertexes() {
return this.vertexes;
}
/**
* Abstract method to get the visualization representation of the graph.
* @return Visualization representation of the graph.
*/
public abstract visualizationElements.Graph getScreenGraph();
/**
* Abstract method to get the log list associated with the graph.
* @return LogElementList containing log elements associated with the graph.
*/
public abstract LogElementList<OurLogElement> getLogList();
// SET-ER
/**
* Sets the name of the graph.
* @param s The name to set for the graph.
*/
public void setName(String s) {
this.name = s;
}
// Ausgabe
/**
* Returns a string representation of the graph.
* @return String representation of the graph.
*/
public String toString() {
String output = "";
for (Vertex i: this.vertexes) {
@ -77,12 +117,20 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// HINZUFÜGEN
// Kante hinzufügen
/**
* Adds an edge to the graph.
* @param e The edge to add.
*/
public void addEdge(MarkedEdge<U> e) {
this.edges.add(e);
}
// Knoten hinzufügen
/**
* Adds a vertex to the graph.
* @param n The vertex to add.
*/
public void addVertex(MarkedVertex<T> n) {
this.vertexes.add(n);
}
@ -91,12 +139,20 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// LÖSCHEN
// Kante löschen
/**
* Removes an edge from the graph.
* @param e The edge to remove.
*/
public void removeEdge(MarkedEdge<U> e) {
this.edges.remove(e);
}
public void removeEdge(String s) throws NameDoesNotExistException{
/**
* Removes an edge from the graph based on its name.
* @param s The name of the edge to remove.
* @throws NameDoesNotExistException If the edge with the specified name does not exist.
*/
public void removeEdge(String s) throws NameDoesNotExistException {
for (MarkedEdge<U> i: this.edges) {
if (Objects.equals(i.getName(), s)) {
this.removeEdge(i);
@ -108,6 +164,10 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// Knoten löschen
/**
* Removes a vertex from the graph.
* @param n The vertex to remove.
*/
public void removeVertex(MarkedVertex<T> n) {
for (MarkedEdge<U> i: this.edges) {
if (i.getSource() == n || i.getDestination() == n) {
@ -117,8 +177,12 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
this.vertexes.remove(n);
}
public void removeVertex(String s) throws NameDoesNotExistException{
/**
* Removes a vertex from the graph based on its name.
* @param s The name of the vertex to remove.
* @throws NameDoesNotExistException If the vertex with the specified name does not exist.
*/
public void removeVertex(String s) throws NameDoesNotExistException {
for (MarkedVertex<T> i: this.vertexes) {
if (Objects.equals(i.getName(), s)) {
this.removeVertex(i);
@ -132,30 +196,50 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// GRAPH EIGENSCHAFTEN
// Kantenmenge
/**
* Returns the number of edges in the graph.
* @return The number of edges in the graph.
*/
public int numberOfEdges() {
return this.edges.size();
}
// Knotenmenge
/**
* Returns the number of vertices in the graph.
* @return The number of vertices in the graph.
*/
public int numberOfVertexes() {
return this.vertexes.size();
}
// Grad des Graphen
// https://loeh.app.uni-regensburg.de/teaching/discmath_ws0910/graphentheorie_ueberblick.pdf
/**
* Computes and returns the degree of the graph.
* @return The degree of the graph.
*/
public int degree() {
return 2 * this.edges.size();
}
// Prüfung, ob Knoten im Graph
/**
* Checks if a vertex is present in the graph.
* @param n The vertex to check.
* @return True if the vertex is present, false otherwise.
*/
public boolean hasVertex(MarkedVertex<T> n) {
return this.vertexes.contains(n);
}
/**
* Checks if a vertex with a specific name is present in the graph.
* @param s The name of the vertex to check.
* @return True if the vertex with the given name is present, false otherwise.
*/
public boolean hasVertex(String s) {
for (MarkedVertex<T> i: this.vertexes) {
if (Objects.equals(i.getName(), s)) {
@ -167,11 +251,20 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// Prüfung, ob Kante im Graph
/**
* Checks if an edge is present in the graph.
* @param e The edge to check.
* @return True if the edge is present, false otherwise.
*/
public boolean hasEdge(MarkedEdge<U> e) {
return this.edges.contains(e);
}
/**
* Checks if an edge with a specific name is present in the graph.
* @param s The name of the edge to check.
* @return True if the edge with the given name is present, false otherwise.
*/
public boolean hasEdge(String s) {
for (MarkedEdge<U> i: this.edges) {
if (Objects.equals(i.getName(), s)) {
@ -185,19 +278,28 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// KNOTEN EIGENSCHAFTEN
// Prüfung, ob Kante zwischen zwei Knoten
// TODO schauen, ob es Aufgabe entspricht
/**
* Checks if there is an edge between two vertices in the graph.
* @param v1 First vertex.
* @param v2 Second vertex.
* @return True if there is an edge between the vertices, false otherwise.
*/
public boolean hasEdge(MarkedVertex<T> v1, MarkedVertex<T> v2) {
for (MarkedEdge<U> i: this.edges) {
if (i.getSource() == v1 && i.getDestination() == v2) {
return true;
} else if (i.getSource() == v2 && i.getDestination() == v1) {
if ((i.getSource() == v1 && i.getDestination() == v2) || (i.getSource() == v2 && i.getDestination() == v1)) {
return true;
}
}
return false;
}
/**
* Checks if there is an edge between two vertices identified by their names.
* @param s1 Name of the first vertex.
* @param s2 Name of the second vertex.
* @return True if there is an edge between the vertices, false otherwise.
* @throws NameDoesNotExistException If one of the vertex names does not exist in the graph.
*/
public boolean hasEdge(String s1, String s2) throws NameDoesNotExistException {
MarkedVertex<T> n1 = null;
MarkedVertex<T> n2 = null;
@ -217,6 +319,12 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// Prüfung, ob zwei Knoten adjazent sind
/**
* Checks if two vertices are adjacent (connected by an edge) in the graph.
* @param n1 First vertex.
* @param n2 Second vertex.
* @return True if the vertices are adjacent, false otherwise.
*/
public boolean areAdjacent(MarkedVertex<T> n1, MarkedVertex<T> n2) {
for (MarkedEdge<U> i: this.edges) {
if ((i.getSource() == n1 && i.getDestination() == n2) || (i.getSource() == n2 && i.getDestination() == n1)) {
@ -226,7 +334,13 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
return false;
}
/**
* Checks if two vertices identified by their names are adjacent (connected by an edge) in the graph.
* @param s1 Name of the first vertex.
* @param s2 Name of the second vertex.
* @return True if the vertices are adjacent, false otherwise.
* @throws NameDoesNotExistException If one of the vertex names does not exist in the graph.
*/
public boolean areAdjacent(String s1, String s2) throws NameDoesNotExistException {
MarkedVertex<T> n1 = null;
MarkedVertex<T> n2 = null;
@ -246,6 +360,11 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// Prüfung, ob Knoten eine Schlinge besitzt
/**
* Checks if a vertex has a loop (an edge connecting it to itself) in the graph.
* @param n The vertex to check.
* @return True if the vertex has a loop, false otherwise.
*/
public boolean hasLoop(MarkedVertex<T> n) {
for (MarkedEdge<U> i: this.edges) {
if (i.getSource() == i.getDestination() && i.getSource() == n) {
@ -255,8 +374,13 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
return false;
}
public boolean hasLoop(String s) throws NameDoesNotExistException{
/**
* Checks if a vertex identified by its name has a loop (an edge connecting it to itself) in the graph.
* @param s The name of the vertex to check.
* @return True if the vertex has a loop, false otherwise.
* @throws NameDoesNotExistException If the vertex name does not exist in the graph.
*/
public boolean hasLoop(String s) throws NameDoesNotExistException {
for (MarkedVertex<T> i: this.vertexes) {
if (Objects.equals(i.getName(), s)) {
return hasLoop(i);
@ -267,14 +391,29 @@ public abstract class Graph<T extends VertexMarking, U extends EdgeMarking> {
// Methode für das Zurücksetzten der Knotenfarben
public void clearScreenGraphColor(){
for(visualizationElements.Vertex screenVertexes : this.getScreenGraph().getVertexes()){
/**
* Resets the screen graph colors of all vertices to black.
*/
public void clearScreenGraphColor() {
for (visualizationElements.Vertex screenVertexes : this.getScreenGraph().getVertexes()) {
screenVertexes.setColor(Color.BLACK);
}
}
/**
* Abstract method to find the shortest path between two vertices using Dijkstra's algorithm.
* @param n1 Starting vertex.
* @param n2 Destination vertex.
* @return Length of the shortest path between the vertices.
*/
public abstract int getShortestPathDijkstra(MarkedVertex<T> n1, MarkedVertex<T> n2);
/**
* Abstract method to find the shortest path between two vertices using A* algorithm.
* @param n1 Starting vertex.
* @param n2 Destination vertex.
* @return Length of the shortest path between the vertices.
*/
public abstract int getShortestPathAStar(MarkedVertex<T> n1, MarkedVertex<T> n2);
}

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@ -2,56 +2,92 @@ package graph;
import java.awt.*;
public class MarkedEdge<U extends EdgeMarking> extends Edge{
/**
* The MarkedEdge class extends the Edge class and includes additional attributes
* for marking and visualization on a screen. It supports constructors to initialize
* these attributes and provides getter and setter methods for accessing and modifying them.
*
* @param <U> A type that extends EdgeMarking, used for marking the edge.
*/
public class MarkedEdge<U extends EdgeMarking> extends Edge {
// ATTRIBUTE
// ATTRIBUTES
private U marking;
private visualizationElements.Edge screenEdge;
// CONSTRUCTORS
// KONSTRUKTOREN
/**
* Default constructor initializes the edge with default values.
*/
public MarkedEdge() {
super();
this.screenEdge = new visualizationElements.Edge(null, null);
}
/**
* Constructor initializes the edge with a name, vertices, and marking.
*
* @param s The name of the edge.
* @param n1 The source vertex of the edge.
* @param n2 The destination vertex of the edge.
* @param u The marking of the edge.
*/
public MarkedEdge(String s, Vertex n1, Vertex n2, U u) {
super(s, n1, n2);
this.marking = u;
EdgeWeightMarking m = (EdgeWeightMarking) this.marking;
this.screenEdge = new visualizationElements.Edge(n1.getScreenVertex(), n2.getScreenVertex(), Integer.toString(m.getWeight()), Color.BLACK);
this.screenEdge = new visualizationElements.Edge(
n1.getScreenVertex(),
n2.getScreenVertex(),
Integer.toString(m.getWeight()),
Color.BLACK);
}
// GETTERS
// GET-ER
/**
* Gets the marking of the edge.
*
* @return The marking of the edge.
*/
public U getMarking() {
return this.marking;
}
/**
* Gets the screen edge used for visualization.
*
* @return The screen edge.
*/
public visualizationElements.Edge getScreenEdge() {
return this.screenEdge;
}
// SETTERS
// SET-ER
/**
* Sets the marking of the edge.
*
* @param u The new marking of the edge.
*/
public void setMarking(U u) {
this.marking = u;
EdgeWeightMarking m = (EdgeWeightMarking) this.marking;
this.screenEdge.setMarking(Integer.toString(m.getWeight()));
}
// OUTPUT
// Ausgabe
/**
* Returns a string representation of the MarkedEdge.
*
* @return A string representing the MarkedEdge.
*/
@Override
public String toString() {
return "MarkedEdge " + this.getName() + " from " + this.getSource().getName() + " to " + this.getDestination().getName();
}
}

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@ -2,20 +2,28 @@ package graph;
import java.awt.*;
public class MarkedVertex<T extends VertexMarking> extends Vertex{
/**
* The MarkedVertex class extends the Vertex class and includes additional attributes
* for marking, coordinates, and visualization on a screen. It supports various
* constructors to initialize these attributes and provides getter and setter methods
* for accessing and modifying them.
*
* @param <T> A type that extends VertexMarking, used for marking the vertex.
*/
public class MarkedVertex<T extends VertexMarking> extends Vertex {
// ATTRIBUTE
private T marking;
private int xCord;
private int yCord;
private visualizationElements.Vertex screenVertex;
// CONSTRUCTORS
// KONSTRUKTOREN
/**
* Default constructor initializes the vertex with default values.
*/
public MarkedVertex() {
super();
this.screenVertex = new visualizationElements.Vertex(0, 0);
@ -23,7 +31,12 @@ public class MarkedVertex<T extends VertexMarking> extends Vertex{
this.yCord = 0;
}
/**
* Constructor initializes the vertex with a name and marking.
*
* @param s The name of the vertex.
* @param t The marking of the vertex.
*/
public MarkedVertex(String s, T t) {
super(s);
this.marking = t;
@ -32,7 +45,15 @@ public class MarkedVertex<T extends VertexMarking> extends Vertex{
this.yCord = 0;
}
/**
* Constructor initializes the vertex with coordinates, name, marking, and color.
*
* @param xCord The x-coordinate of the vertex.
* @param yCord The y-coordinate of the vertex.
* @param name The name of the vertex.
* @param t The marking of the vertex.
* @param color The color of the vertex for visualization purposes.
*/
public MarkedVertex(int xCord, int yCord, String name, T t, Color color) {
super(name);
this.marking = t;
@ -41,31 +62,51 @@ public class MarkedVertex<T extends VertexMarking> extends Vertex{
this.yCord = yCord;
}
// GETTERS
// GET-ER
/**
* Gets the marking of the vertex.
*
* @return The marking of the vertex.
*/
public T getMarking() {
return this.marking;
}
/**
* Gets the screen vertex used for visualization.
*
* @return The screen vertex.
*/
public visualizationElements.Vertex getScreenVertex() {
return this.screenVertex;
}
/**
* Gets the coordinates of the vertex.
*
* @return An array containing the x and y coordinates of the vertex.
*/
public int[] getCords() {
return new int[]{this.xCord, this.yCord};
}
// SETTERS
// SET-ER
/**
* Sets the marking of the vertex.
*
* @param t The new marking of the vertex.
*/
public void setMarking(T t) {
this.marking = t;
}
/**
* Sets the coordinates of the vertex and updates the screen vertex's position.
*
* @param cords An array containing the new x and y coordinates of the vertex.
*/
public void setCords(int[] cords) {
this.xCord = cords[0];
this.yCord = cords[1];
@ -73,8 +114,14 @@ public class MarkedVertex<T extends VertexMarking> extends Vertex{
this.screenVertex.setYpos(cords[1]);
}
// OUTPUT
// Ausgabe
/**
* Returns a string representation of the MarkedVertex.
*
* @return A string representing the MarkedVertex.
*/
@Override
public String toString() {
return "MarkedVertex " + this.getName();
}

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@ -1,4 +1,10 @@
package graph;
/**
* Abstract class representing a marking for vertices or edges in a graph.
* This class serves as a base class for specific types of markings.
*/
public abstract class Marking {
// No additional attributes or methods are defined in this abstract class.
// Specific types of markings (VertexMarking, EdgeMarking) should extend this class.
}

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@ -1,67 +1,134 @@
package graph;
import java.util.Comparator;
// Exception, das User nach einem ungültigen Knoten sucht
/**
* Exception thrown when a user attempts to access a non-existent vertex by name.
*/
public class NameDoesNotExistException extends Exception {
/**
* Constructs a new NameDoesNotExistException with no detail message.
*/
public NameDoesNotExistException() {
super();
}
/**
* Constructs a new NameDoesNotExistException with the specified detail message.
*
* @param message The detail message.
*/
public NameDoesNotExistException(String message) {
super(message);
}
/**
* Constructs a new NameDoesNotExistException with the specified detail message and cause.
*
* @param message The detail message.
* @param cause The cause of the exception.
*/
public NameDoesNotExistException(String message, Throwable cause) {
super(message, cause);
}
/**
* Constructs a new NameDoesNotExistException with the specified cause and a detail message
* that includes the cause's description.
*
* @param cause The cause of the exception.
*/
public NameDoesNotExistException(Throwable cause) {
super(cause);
}
}
// Element in der PriorityQueue
/**
* Represents an element stored in a priority queue for graph algorithms.
*
* @param <T> The type of vertex marking associated with the element.
*/
class WrapperElement<T extends VertexMarking> {
// ATTRIBUTE
private MarkedVertex<T> n1;
private int prio;
private MarkedVertex<T> element;
private int priority;
// KONSTRUKTOR
public WrapperElement(MarkedVertex<T> n1, int prio) {
this.n1 = n1;
this.prio = prio;
/**
* Constructs a WrapperElement with the specified marked vertex and priority.
*
* @param element The marked vertex to wrap.
* @param priority The priority associated with the element.
*/
public WrapperElement(MarkedVertex<T> element, int priority) {
this.element = element;
this.priority = priority;
}
// GET-ER
/**
* Retrieves the marked vertex stored in this wrapper element.
*
* @return The marked vertex.
*/
public MarkedVertex<T> getElement() {
return this.n1;
return this.element;
}
public int getPrio() {
return this.prio;
/**
* Retrieves the priority associated with this wrapper element.
*
* @return The priority.
*/
public int getPriority() {
return this.priority;
}
// Ausgabe
/**
* Returns a string representation of this WrapperElement.
*
* @return A string representation containing the element and its priority.
*/
public String toString() {
return "Wrapper with " + this.n1 + " with prio " + this.prio;
return "WrapperElement{" +
"element=" + element +
", priority=" + priority +
'}';
}
}
// 2 Elemente in der PriorityQueue Vergleichen
/**
* Comparator for comparing WrapperElement objects based on their priority.
*
* @param <T> The type of vertex marking associated with the WrapperElement.
*/
class WrapperComparator<T extends VertexMarking> implements Comparator<WrapperElement<T>> {
/**
* Compares two WrapperElement objects based on their priorities.
*
* @param element1 The first WrapperElement to compare.
* @param element2 The second WrapperElement to compare.
* @return A negative integer, zero, or a positive integer as the first element's
* priority is less than, equal to, or greater than the second element's priority.
*/
public int compare(WrapperElement<T> element1, WrapperElement<T> element2) {
return Integer.compare(element1.getPrio(), element2.getPrio());
return Integer.compare(element1.getPriority(), element2.getPriority());
}
}

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@ -12,6 +12,13 @@ import java.util.Objects;
import java.util.PriorityQueue;
import java.util.Vector;
/**
* Represents an undirected graph with vertices marked by T and edges marked by U.
* Inherits from the Graph class and provides additional functionality specific to undirected graphs.
*
* @param <T> Type of marking for vertices in the graph.
* @param <U> Type of marking for edges in the graph.
*/
public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> extends Graph<T, U> {
// ATTRIBUTE
@ -22,6 +29,9 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
// KONSTRUKTOREN
/**
* Constructs an empty undirected graph with default properties.
*/
public UndirectedGraph() {
super();
this.screenGraph = new visualizationElements.Graph(new Vector<Vertex>(), new Vector<Edge>(), false, EdgeStyle.Direct);
@ -29,6 +39,11 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
}
/**
* Constructs an undirected graph with a specified name.
*
* @param s The name of the graph.
*/
public UndirectedGraph(String s) {
super(s);
this.screenGraph = new visualizationElements.Graph(new Vector<Vertex>(), new Vector<Edge>(), false, EdgeStyle.Direct);
@ -38,16 +53,31 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
// GET-ER
/**
* Retrieves the visualization graph associated with this undirected graph.
*
* @return The visualization graph.
*/
public visualizationElements.Graph getScreenGraph() {
return this.screenGraph;
}
/**
* Retrieves the log list containing logging elements related to operations on this graph.
*
* @return The log element list.
*/
public LogElementList<OurLogElement> getLogList() {
return this.logList;
}
/**
* Creates and retrieves a deep copy of the visualization graph associated with this undirected graph.
*
* @return A deep copy of the visualization graph.
*/
public visualizationElements.Graph getScreenGraphCopy() {
visualizationElements.Graph graphCopy = new visualizationElements.Graph(new Vector<Vertex>(), new Vector<Edge>(), false, EdgeStyle.Direct);
Vector<visualizationElements.Vertex> copiedVertexes = new Vector<>();
@ -68,14 +98,22 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
// HINZUFÜGEN
// Kante hinzufügen
/**
* Adds an edge to the undirected graph and updates the associated visualization graph.
*
* @param e The edge to be added.
*/
public void addEdge(MarkedEdge<U> e) {
super.addEdge(e);
this.screenGraph.getEdges().add(e.getScreenEdge());
}
// Knoten hinzufügen
/**
* Adds a vertex to the undirected graph and updates the associated visualization graph.
*
* @param n The vertex to be added.
*/
public void addVertex(MarkedVertex<T> n) {
super.addVertex(n);
this.screenGraph.getVertexes().add(n.getScreenVertex());
@ -84,14 +122,22 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
// LÖSCHEN
// Kante löschen
/**
* Removes an edge from the undirected graph and updates the associated visualization graph.
*
* @param e The edge to be removed.
*/
public void removeEdge(MarkedEdge<U> e) {
super.removeEdge(e);
this.screenGraph.getEdges().remove(e.getScreenEdge());
}
// Knoten löschen
/**
* Removes a vertex from the undirected graph and updates the associated visualization graph.
*
* @param n The vertex to be removed.
*/
public void removeVertex(MarkedVertex<T> n) {
super.removeVertex(n);
this.screenGraph.getVertexes().remove(n.getScreenVertex());
@ -100,7 +146,13 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
// KNOTEN EIGENSCHAFTEN
// Prüfung des Grades eines Knotens
/**
* Returns the degree of a specified vertex in the undirected graph.
* The degree of a vertex is the number of edges incident to it.
*
* @param n The vertex for which to determine the degree.
* @return The degree of the vertex.
*/
public int degree(MarkedVertex<T> n) {
int degree = 0;
for (MarkedEdge<U> i: this.getAllEdges()) {
@ -115,7 +167,14 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
}
public int degree(String s) throws NameDoesNotExistException{
/**
* Returns the degree of a specified vertex by its name in the undirected graph.
*
* @param s The name of the vertex for which to determine the degree.
* @return The degree of the vertex.
* @throws NameDoesNotExistException If the vertex with the specified name does not exist in the graph.
*/
public int degree(String s) throws NameDoesNotExistException {
for (MarkedVertex<T> i: this.getAllVertexes()) {
if (Objects.equals(i.getName(), s)) {
return degree(i);
@ -125,7 +184,12 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
}
// Prüfung, welche Knoten Nachbarn sind
/**
* Returns a vector containing all neighbors (adjacent vertices) of a specified vertex in the undirected graph.
*
* @param n The vertex for which to retrieve neighbors.
* @return A vector of neighboring vertices.
*/
public Vector<MarkedVertex<T>> getNeighbours(MarkedVertex<T> n) {
Vector<MarkedVertex<T>> neighbours = new Vector<>();
for (MarkedEdge<U> i: this.getAllEdges()) {
@ -139,6 +203,13 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
}
/**
* Computes the shortest path between two vertices using Dijkstra's algorithm in the undirected graph.
*
* @param n1 The starting vertex of the shortest path.
* @param n2 The ending vertex of the shortest path.
* @return The length of the shortest path between n1 and n2.
*/
public int getShortestPathDijkstra(MarkedVertex<T> n1, MarkedVertex<T> n2) {
// Erstellt Hashmap um Distanz von Startnoten zu jedem Knoten auf dem Graph zu tracken
@ -271,6 +342,14 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
}
/**
* Computes the shortest path between two vertices using A* algorithm in the undirected graph.
*
* @param n1 The starting vertex of the shortest path.
* @param n2 The ending vertex of the shortest path.
* @return The length of the shortest path between n1 and n2.
*/
public int getShortestPathAStar(MarkedVertex<T> n1, MarkedVertex<T> n2) {
// Erstellt Hashmap um Distanz von Startnoten zu jedem Knoten auf dem Graph zu tracken
@ -374,9 +453,6 @@ public class UndirectedGraph<T extends VertexMarking, U extends EdgeMarking> ext
continue;
}
// Vorgänger aktualisieren
predecessors.put(i, nextVertex.getElement());
// Aktualisiere Distanz von Start zu nächstem Knoten
distance.put(i, dist);

View File

@ -1,5 +1,9 @@
package graph;
/**
* Represents a vertex in a graph.
* This class serves as a base abstraction for vertices in various types of graphs.
*/
public abstract class Vertex {
// ATTRIBUTE
@ -9,11 +13,19 @@ public abstract class Vertex {
// KONSTRUKTOREN
/**
* Constructs a vertex with an empty name.
*/
public Vertex() {
this.name = "";
}
/**
* Constructs a vertex with a specified name.
*
* @param s The name of the vertex.
*/
public Vertex(String s) {
this.name = s;
}
@ -21,16 +33,32 @@ public abstract class Vertex {
// GET-ER
/**
* Retrieves the name of the vertex.
*
* @return The name of the vertex.
*/
public String getName() {
return this.name;
}
/**
* Abstract method to retrieve the visualization representation of the vertex.
* Concrete subclasses will provide specific implementations.
*
* @return The visualization representation of the vertex.
*/
public abstract visualizationElements.Vertex getScreenVertex();
// SET-ER
/**
* Sets the name of the vertex.
*
* @param s The new name for the vertex.
*/
public void setName(String s) {
this.name = s;
}

View File

@ -1,19 +1,61 @@
package graph;
/**
* Represents a marking associated with a vertex in a graph.
* This class serves as a base abstraction for vertex markings.
*/
public abstract class VertexMarking extends Marking {
// This class currently does not have any additional attributes or methods.
// It extends Marking, inheriting its properties and behaviors.
}
class VertexWeightMarking extends VertexMarking{
/**
* Represents a weight marking associated with a vertex in a graph.
* Extends {@link VertexMarking}.
*/
class VertexWeightMarking extends VertexMarking {
// ATTRIBUTE
private int weight;
VertexWeightMarking(int weight){
// KONSTRUKTOREN
/**
* Constructs a vertex weight marking with the specified weight.
*
* @param weight The weight value associated with the vertex.
*/
VertexWeightMarking(int weight) {
this.weight = weight;
}
public void setWeight(int weight){
this.weight=weight;
}
public int getWeight(){
// GET-ER
/**
* Retrieves the weight associated with this vertex weight marking.
*
* @return The weight of the vertex marking.
*/
public int getWeight() {
return this.weight;
}
// SET-ER
/**
* Sets the weight associated with this vertex weight marking.
*
* @param weight The new weight value to set.
*/
public void setWeight(int weight) {
this.weight = weight;
}
}