forked from IF-LK-2020/breitensuche
Optimisierungen aus dem Unterricht
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@@ -55,12 +55,12 @@ public class Breitensuche {
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// Erstelle Varianten, bei denen die Reihenfolge der Nachbarknoten
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// modifiziert ist. Dazu
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if(g.getVertex("Köln").getID().equals(pVertexID)){
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System.out.println("Köln gefunden");
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if(g.getVertices().getContent().getID().equals(pVertexID)){
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System.out.println(g.getVertices().getContent().getID() + "gefunden");
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return true;
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} else {
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g.getVertex("Köln").setMark(true);
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searchQueue.enqueue(g.getVertex("Köln"));
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g.getVertices().getContent().setMark(true);
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searchQueue.enqueue(g.getVertex(g.getVertices().getContent().getID()));
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while(!searchQueue.isEmpty()){
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Vertex v = searchQueue.front();
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List<Vertex> ngbrs = g.getNeighbours(v);
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@@ -84,15 +84,6 @@ public class Breitensuche {
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return false;
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}
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public List<Vertex> copyList(List<Vertex>list){
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list.toFirst();
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List<Vertex> copy = new List<Vertex>();
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while(list.hasAccess()){
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copy.append(list.getContent());
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list.next();
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}
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return copy;
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}
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/**
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*
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@@ -102,22 +93,22 @@ public class Breitensuche {
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public boolean findVertexByID( String pVertexID ) {
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g.setAllVertexMarks(false); // Markierungen zurücksetzen
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Queue<Vertex> searchQueue = new Queue<>(); // Speicher für zu bearbeitende Knoten erstellen
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//copylist entfernen
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// TODO: Ändere die Breitensuche so ab, dass die Knoten so abgearbeitet
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// werden, dass die Nachbarknoten in alphabetischer Reihenfolge
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// besucht werden.
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// Nutze dazu die Hilfsmethode getVertexFromListByID, um aus
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// Liste der Nachbarknoten denjenigen, der alphabetisch als
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// erstes kommt herauszusuchen.
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if(g.getVertex("Düsseldorf").getID().equals(pVertexID)){
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System.out.println("Köln gefunden");
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if(g.getVertices().getContent().getID().equals(pVertexID)){
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System.out.println(g.getVertices().getContent().getID() + "gefunden");
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return true;
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} else {
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g.getVertex("Düsseldorf").setMark(true);
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searchQueue.enqueue(g.getVertex("Düsseldorf"));
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g.getVertices().getContent().setMark(true);
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searchQueue.enqueue(g.getVertices().getContent());
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while(!searchQueue.isEmpty()){
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Vertex v = searchQueue.front();
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List<Vertex> cngbrs=copyList(g.getNeighbours(v));
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List<Vertex> cngbrs=g.getNeighbours(v);
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cngbrs.toFirst();
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while(cngbrs.hasAccess()){
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Vertex vs = getVertexFromListByID(cngbrs);
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@@ -150,15 +141,16 @@ public class Breitensuche {
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// Nutze dazu die Hilfsmethode getVertexFromListByWeight, um aus
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// Liste der Nachbarknoten denjenigen mit dem geringsten Gewicht
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// herauszusuchen.
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if(g.getVertex("Köln").getID().equals(pVertexID)){
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System.out.println("Köln gefunden");
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if(g.getVertices().getContent().getID().equals(pVertexID)){
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System.out.println(g.getVertices().getContent().getID() + "gefunden");
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return true;
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} else {
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g.getVertex("Köln").setMark(true);
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searchQueue.enqueue(g.getVertex("Köln"));
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g.getVertices().getContent().setMark(true);
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searchQueue.enqueue(g.getVertices().getContent());
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while(!searchQueue.isEmpty()){
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Vertex v = searchQueue.front();
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List<Vertex> cngbrs=copyList(g.getNeighbours(v));
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List<Vertex> cngbrs=g.getNeighbours(v);
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cngbrs.toFirst();
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while(cngbrs.hasAccess()){
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Vertex vs = getVertexFromListByWeight(v,cngbrs);
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cngbrs.toFirst();
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@@ -1,21 +1,21 @@
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#BlueJ package file
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dependency1.from=BreitensucheTest
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dependency1.to=Breitensuche
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dependency1.from=Graph
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dependency1.to=List
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dependency1.type=UsesDependency
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dependency10.from=Breitensuche
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dependency10.to=List
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dependency10.type=UsesDependency
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dependency2.from=Graph
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dependency2.to=List
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dependency2.to=Vertex
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dependency2.type=UsesDependency
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dependency3.from=Graph
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dependency3.to=Vertex
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dependency3.to=Edge
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dependency3.type=UsesDependency
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dependency4.from=Graph
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dependency4.to=Edge
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dependency4.from=Edge
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dependency4.to=Vertex
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dependency4.type=UsesDependency
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dependency5.from=Edge
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dependency5.to=Vertex
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dependency5.from=BreitensucheTest
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dependency5.to=Breitensuche
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dependency5.type=UsesDependency
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dependency6.from=Breitensuche
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dependency6.to=Graph
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@@ -39,8 +39,8 @@ package.divider.horizontal=0.6
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package.divider.vertical=0.8477777777777777
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package.editor.height=756
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package.editor.width=1145
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package.editor.x=17
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package.editor.y=171
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package.editor.x=579
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package.editor.y=292
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package.frame.height=1000
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package.frame.width=1296
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package.numDependencies=10
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