Generics, Enum, Records und Änderung der Datenstruktur
Kai Sellmann
parent
9bb4149c94
commit
9d3eb24eee
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@ -6,6 +6,7 @@
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<attribute name="maven.pomderived" value="true"/>
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</attributes>
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</classpathentry>
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<classpathentry kind="src" path="beispieleVL"/>
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<classpathentry kind="con" path="org.eclipse.jdt.launching.JRE_CONTAINER/org.eclipse.jdt.internal.debug.ui.launcher.StandardVMType/JavaSE-17">
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<attributes>
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<attribute name="maven.pomderived" value="true"/>
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@ -1,3 +1,4 @@
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package Crypter;
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/**
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@ -1,3 +1,4 @@
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package Crypter;
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import java.util.HashMap;
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@ -1,3 +1,4 @@
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package Crypter;
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import org.junit.jupiter.api.Test;
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@ -0,0 +1,21 @@
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package enumeration;
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public class Main {
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public static void main(String[] args) {
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System.out.println(Planet.values());
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for (Planet planet : Planet.values()) {
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System.out.printf("%s -> %,.0f km/h%n",
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planet.name(),
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planet.bahngeschwindigkeit());
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}
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System.out.println(Planet.MERKUR.toString());
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System.out.println(Planet.MERKUR.name());
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System.out.println(Planet.JUPITER.toString());
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System.out.println(Planet.JUPITER.name());
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}
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}
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@ -0,0 +1,22 @@
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package enumeration;
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public enum Operation {
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ADDITION {
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public double anwenden(double op1, double op2) {
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return op1 + op2;
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}
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},
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SUBTRAKTION {
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public double anwenden(double op1, double op2) {
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return op1 - op2;
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}
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},
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MULTIPLIKATION {
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public double anwenden(double op1, double op2) {
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return op1 * op2;
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}
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};
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public abstract double anwenden(double op1, double op2);
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}
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@ -0,0 +1,27 @@
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package enumeration;
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public enum Planet {
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MERKUR(59e+6, 88), VENUS(108e+6, 225),
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ERDE(150e+6, 365), MARS(228e+6, 1.9*365),
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JUPITER(778e+6, 11.9*365), SATURN(1427e+6, 29.5*365),
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URANUS(2870e+6, 84*365), NEPTUN(4497e+6, 165*365);
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private final double entfernungsonne;
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private final double umlaufzeit;
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private Planet(double entfernungsonne, double umlaufzeit) {
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this.entfernungsonne = entfernungsonne;
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this.umlaufzeit = umlaufzeit;
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}
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public double bahngeschwindigkeit() {
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return 2 * entfernungsonne * Math.PI / umlaufzeit / 24;
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}
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@Override
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public String toString() {
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return name() + " ist der " + (ordinal() + 1) + " Planet im Sonnensystem.";
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}
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}
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@ -0,0 +1,18 @@
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package enumeration;
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public class Rechner {
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public double rechne(double op1, double op2, Operation operation) {
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return operation.anwenden(op1, op2);
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}
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public static void main(String[] args) {
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Rechner r = new Rechner();
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double summe = r.rechne(5, 5, Operation.ADDITION);
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double differenz = r.rechne(6, 3, Operation.SUBTRAKTION);
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double produkt = r.rechne(6, 3, Operation.MULTIPLIKATION);
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System.out.printf("%.0f, %.0f, %.0f", summe, differenz, produkt);
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}
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}
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@ -0,0 +1,6 @@
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package enumeration;
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public enum Wochentag {
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MONTAG, DIENSTAG, MITTWOCH, DONNERSTAG, FREITAG, SAMSTAG, SONNTAG;
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}
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@ -0,0 +1,22 @@
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package generics;
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public class ExtStack<T> extends SimpleStack<T> {
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public ExtStack(int size) {
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super(size);
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}
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/*
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* In dieser Methode passiert nichts anderes als die Ausgabe des zuletzt
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* gesetzten Wertes (in diesem Fall ein String). Das erzeugte Array wurde
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* üder den Konstruktor ExtStack angelegt, indem die Arraygröße und
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* der Datentyp in dem Konstruktoraufruf (siehe Mainmethode) übergeben wurde
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* und der Aufruf an die Superklasse SimpleStack weitergeleitet wurde.
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*/
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public T peek() {
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T wert = pop(); // Hier wird der Wert mit pop() aus dem Array geholt
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push(wert); // und in die Variable wert geschrieben
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return wert; // danach erfolgt die Rückmeldung an den Methodenaufruf
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}
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}
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@ -0,0 +1,29 @@
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package generics;
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public class Main {
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public static void main(String[] args) {
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var simplestack1 = new SimpleStack<String>(5);
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simplestack1.push("Hallo");
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simplestack1.push("das ist ein Beispiel für");
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simplestack1.push("einen SimpleStack.");
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simplestack1.push("Logisch wird alles in ");
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simplestack1.push("verkehrter Reihenfolge ausgegeben.");
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for (int i = simplestack1.getSize(); i > 0 ; i--) {
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System.out.print(simplestack1.pop() + "| |");
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}
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var extstack1 = new ExtStack<String>(2);
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extstack1.push("Hallo");
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extstack1.push("Hello");
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System.out.println(extstack1.peek());
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}
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}
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@ -0,0 +1,39 @@
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package generics;
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public class SimpleStack<T> {
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/*
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* Der Einsatz eines Typ-Parameters hält diese Klasse generisch und
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* ermöglicht es, dass erst in der Main der Datentyp des Arrays festgelegt
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* werden kann. Somit ist die generische Klasse in ihrer Implementierung
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* unabhängig von der Main-Klasse.
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*/
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private T[] stack;
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private int pos;
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@SuppressWarnings("unchecked")
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public SimpleStack(int size) {
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stack = (T[]) new Object[size];
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pos = 0;
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}
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public void push(T o) {
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stack[pos++] = o;
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}
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public T pop() {
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return stack[--pos];
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}
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/*
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* Dies ist ziemlich schlechter Programmierstiel, da für einen gut
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* funktionierenden Stack noch weitere Methoden fehlen.
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* Diese sind zum Beispiel swap(), peek() und clear(). So das es möglich
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* ist Daten zu Tauschen (swap()), Daten zu löschen (clear()) oder nach
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* Daten zu suchen (peek())
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*/
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public int getSize () {
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// TODO Auto-generated method stub
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return pos;
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}
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}
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@ -0,0 +1,27 @@
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package records;
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public class Rechteck extends Exception{
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record Rectangle(double laenge, double breite) {
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public Rectangle {
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if (laenge <= 0 || breite <= 0) {
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throw new java.lang.IllegalArgumentException(
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String.format("Keine 0 oder negative Werte erlaubt."));
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}
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}
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}
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public static void main(String[] args) {
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Rectangle r = new Rectangle(4.0, 3.0);
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Rectangle r2 = new Rectangle(1.0, 2.0);
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System.out.println("Fläche: " + r.laenge() * r.breite());
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System.out.println("Fläche2: " + r2.laenge() * r2.breite());
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}
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}
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@ -0,0 +1,28 @@
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package records;
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public final class RechteckOhneRecords {
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private final double laenge;
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private final double breite;
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public RechteckOhneRecords(double laenge, double breite) {
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this.laenge = laenge;
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this.breite = breite;
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}
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public static void main(String[] args) {
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RechteckOhneRecords r = new RechteckOhneRecords(4, 3);
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System.out.println("Fläche = " + r.laenge() * r.breite());
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}
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private double breite() {
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// TODO Auto-generated method stub
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return laenge;
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}
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private double laenge() {
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// TODO Auto-generated method stub
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return breite;
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}
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}
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@ -8,7 +8,7 @@ package pr2.generics.einfach;
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/**
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* Eine einfache, verkettete Liste.
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*/
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public class Liste<E> {
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public class Liste<T> {
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/** Referenz auf den ersten Knoten. */
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private ListeNode first;
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@ -19,11 +19,12 @@ public class Liste<E> {
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/**
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* Fügt ein neues Element an das Ende der Liste an.
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*
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* @param data das Element
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* @param i das Element
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*/
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public void add(Object data) {
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public void add(String i) {
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ListeNode nextNode = new ListeNode(data);
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@SuppressWarnings("unchecked")
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ListeNode nextNode = new ListeNode(i);
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if (current == null) {
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// Liste komplett leer
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@ -42,17 +43,18 @@ public class Liste<E> {
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* @param index Index, beginnend bei 0.
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* @return Das Element oder {@code null}, wenn es nicht gefunden wurde.
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*/
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public Object get(int index) {
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@SuppressWarnings("unchecked")
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public String get(int index) {
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int count = 0;
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ListeNode node = first;
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T node = (T) first;
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while ((node != null) && (count < index)) {
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node = node.getNext();
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node = ((ListeNode<T>) node).getNext();
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count++;
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}
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if ((count == index) && (node != null)) {
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return node.data;
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return ((ListeNode<T>) node).getData();
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}
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else {
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// index does not exist
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*/
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public int size() {
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int count = 0;
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ListeNode node = first;
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T node = (T) first;
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while (node != null) {
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node = node.getNext();
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node = (T) ((ListeNode) node).getNext();
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count++;
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}
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return count;
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}
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public void add(int i) {
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// TODO Auto-generated method stub
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}
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}
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@ -3,25 +3,31 @@ package pr2.generics.einfach;
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/**
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* Interne Repräsentation der Knoten in der Liste.
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*/
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class ListeNode {
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class ListeNode<E> {
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/** Daten. */
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Object data;
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String data;
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/** Referenz auf den nächsten Knoten. */
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ListeNode next;
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E next;
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/**
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* Legt einen neuen Knoten an.
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*
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* @param data daten, die gespeichert werden
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*/
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ListeNode(Object data) {
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this.data = data;
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protected ListeNode(String data) {
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this.setData(data);
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}
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public ListeNode getNext() {
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public E getNext() {
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return next;
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}
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public void setNext(ListeNode next) {
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public void setNext(E next) {
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this.next = next;
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}
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public void setData(String data) {
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this.data = data;
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}
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public String getData() {
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return data;
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}
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}
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@ -20,12 +20,12 @@ public class ListeTest {
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assertEquals(0, l.size());
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l.add("Hallo");
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l.add( "Hallo");
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assertEquals(1, l.size());
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l.add(34);
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l.add( "");
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assertEquals(2, l.size());
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l.add("Peter");
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l.add("Alfons");
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l.add( "Peter");
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l.add( "Alfons");
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assertEquals(4, l.size());
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l.clear();
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@ -37,7 +37,7 @@ public class ListeTest {
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*/
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@Test
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void testGet() {
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Liste l = new Liste();
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Liste<String> l = new Liste<String>();
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l.add("Hallo");
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l.add("Hugo");
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l.add("Peter");
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@ -2,17 +2,17 @@ package pr2.generics.pair;
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public class Main {
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public static void main(String[] args) {
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// TODO: Einkommentieren
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// var note1 = new Pair<String, Integer>("Peter", 1);
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// var note2 = new Pair<String, Integer>("Frank", 3);
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// var note3 = new Pair<String, Integer>("Sabine", 1);
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//
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// var name = new Pair<String, String>("Peter", "Meier");
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//
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// System.out.printf("%s:%d\n", note1.getFirst(), note1.getSecond());
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// System.out.printf("%s:%d\n", note2.getFirst(), note1.getSecond());
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// System.out.printf("%s:%d\n", note3.getFirst(), note1.getSecond());
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//
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// System.out.printf("%s %s\n", name.getFirst(), name.getSecond());
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var note1 = new Pair<String, Integer>("Peter", 1);
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var note2 = new Pair<String, Integer>("Frank", 3);
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var note3 = new Pair<String, Integer>("Sabine", 1);
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var name = new Pair<String, String>("Peter", "Meier");
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System.out.printf("%s:%d\n", note1.getFirst(), note1.getSecond());
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System.out.printf("%s:%d\n", note2.getFirst(), note1.getSecond());
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System.out.printf("%s:%d\n", note3.getFirst(), note1.getSecond());
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System.out.printf("%s %s\n", name.getFirst(), name.getSecond());
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}
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}
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@ -1,5 +1,21 @@
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package pr2.generics.pair;
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public class Pair {
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public class Pair<K, V> {
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private K data1;
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private V data2;
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public Pair(K data1, V data2) {
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this.data1 = data1;
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this.data2 = data2;
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}
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public K getFirst() {
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return data1;
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}
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public V getSecond() {
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return data2;
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}
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}
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