Abgabe Übungstest 5

Implement AB6
Implement AB6, Aufgabe 1+2
2022-05-19 14:38:54 +02:00 · 2022-05-17 19:43:03 +02:00 · 2022-05-17 19:31:19 +02:00 · 2022-05-17 17:28:26 +02:00 · 2022-05-16 18:39:22 +00:00 · 2022-05-16 20:27:14 +02:00
14 changed files with 712 additions and 11 deletions
--- a/angabe/Aufgabenblatt6.md
+++ b/angabe/Aufgabenblatt6.md
@ -0,0 +1,75 @@
 # Aufgabenblatt 6
 ## Allgemeine Anmerkungen
 Ihre Lösung für dieses Aufgabenblatt ist bis Montag, 23.5. 11h durch `git commit` und `git push`
 abzugeben. Mit der Angabe werden die Dateien `MassiveIterable.java`, `MassiveIterator.java`, 
 `MassiveSet.java`, `MassiveForceTreeMap.java`, `Simulation6.java` und `Aufgabe6Test.java` 
 mitgeliefert.
 Wenn Sie zusätzlich zu den gefragten Klassen weitere Klassen definieren, achten Sie darauf, dass
 die Klassennamen mit `My` beginnen, um Konflikte mit späteren Aufgabenblättern zu vermeiden.
 ## Ziel
 Ziel der Aufgabe ist die Anwendung der Konzepte: Iterator, Kopie vs. Sichtweise, Sortieren
 (siehe Skriptum Seite 91-109).
 ## Beschreibung der gegebenen Dateien
 - [MassiveIterable](../src/MassiveIterable.java) ist ein Interface, das iterierbare Objekte mit
 Elementen vom Typ `Massive` spezifiziert. Verändern Sie diese Datei bitte nicht.
 - [MassiveIterator](../src/MassiveIterator.java) ist ein Interface, das einen Iterator über
 Elemente vom Typ `Massive` spezifiziert. Verändern Sie diese Datei bitte nicht.
 - [MassiveSet](../src/MassiveSet.java) ist ein Interface, das iterierbare Mengen mit 
 `Massive`-Elementen spezifiziert. Verändern Sie diese Datei bitte nicht.
 - [MassiveForceTreeMap](../src/MassiveForceTreeMap.java) ist das Gerüst für eine Implementierung
 einer assoziativen Datenstruktur, die ein `Massive`-Objekt mit der auf das Objekt wirkenden Kraft
 assoziiert.
 - [Simulation6](../src/Simulation6.java) ist ein Gerüst für eine ausführbare Klasse. Hier soll
 die Simulation analog zur Klasse `Simulation` implementiert werden (damit Sie Ihre [ursprüngliche
 Datei](../src/Simulation.java) nicht überschreiben müssen).
 - [Aufgabe6Test](../src/Aufgabe6Test.java) ist eine vorgegebene Klasse, die Sie zum Testen Ihrer
 Implementierung verwenden sollten. Bei einer fehlerfreien Implementierung sollten bei der
 Ausführung dieser Klasse keine Exceptions geworfen werden und alle Tests als erfolgreich ("successful")
 ausgegeben werden. Entfernen Sie die Kommentarzeichen, um diese Klasse verwenden zu können. Sie
 müssen diese Klasse nicht weiter verändern, können aber eigene Testfälle hinzufügen.
 ## Aufgaben
 Ihre Aufgaben sind folgende:
 **1. Implementieren Sie die Klasse `MassiveForceTreeMap`.**
 Implementieren Sie die Klasse `MassiveForceTreeMap`. `MassiveForceTreeMap` ist wie 
 `BodyForceTreeMap` aufgebaut, mit dem Unterschied, dass der Typ des Schlüssels statt `Body` nun 
 der Typ `Massive` ist. Weiters soll die Klasse Methode `getKeys()` zur Verfügung stellen, 
 die eine `MassiveSet`-Sichtweise auf die Menge der Schlüssel liefert. Änderungen an dem 
 zurückgelieferten `MassiveSet`-Objekt wirken sich auf das zugrunde 
 liegende `MassiveForceTreeMap`-Objekt aus. Die Methode `toList()` liefert dagegen eine 
 unabhängige Liste (Kopie) mit allen Schlüsseln der Map. Für die Implementierung von 
 `MassiveSet` können Sie einen eigenen Klassennamen beginnend mit `My` wählen. Die Definition kann 
 in einer eigenen Datei oder in der Datei `MassiveForceTreeMap.java` erfolgen.
 **2. Adaptieren Sie die Klasse `HierarchicalSystem`:**
 Die Klasse `HierarchicalSystem` soll so geändert werden, dass sie das gegebene 
 Interface `MassiveIterable` implementiert. Die Reihenfolge der vom Iterator gelieferten 
 Elemente ist nicht festgelegt. Sie dürfen für die Implementierung bei Bedarf Ihren Klassen 
 `NamedBodyForcePair` und `HierarchicalSystem` neue, nicht angegebene Methoden hinzufügen.
 Die Verwendung von Klassen des Java-Collection-Frameworks (z.B. java.util.Stack) ist erlaubt
 (aber nicht notwendig).
 **3. Implementierung von `Simulation6`:**
 Implementieren Sie die Simulationsschleife unter Verwendung eines Objekts vom Typ
 `MassiveForceTreeMap`. Die Methode `getKeys()` hilft beim Iterieren der gespeicherten Schlüssel.
 Kollisionen von Himmelskörpern müssen in dieser Simulation nicht berücksichtigt werden.
 #### _Punkteaufteilung_
 - Implementierung von `MassiveForceTreeMap`: 3 Punkte
 - Implementierung von `MassiveIterable` in `HierarchicalSystem`: 1.5 Punkte
 - Implementierung von `Simulation6`: 0.5 Punkte
 - Gesamt: 5 Punkte
--- a/src/Aufgabe5Test.java
+++ b/src/Aufgabe5Test.java
@ -78,4 +78,19 @@ public class Aufgabe5Test {
        assertEquals(hashCode2, map.hashCode());
        assertNotEquals(hashCode1, hashCode2);
    }
    @Test
    public void testDelKey() {
        MassiveForceHashMap map = new MassiveForceHashMap();
        NamedBody sun1 = new NamedBody(SolSystem4.SUN_NAMED);
        NamedBody earth1 = new NamedBody(SolSystem4.EARTH_NAMED);
        NamedBody moon1 = new NamedBody(SolSystem4.MOON_NAMED);
        map.put(sun1, new Vector3());
        map.put(earth1, new Vector3());
        map.put(moon1, new Vector3());
        assertNotNull(map.get(sun1));
        assertNotNull(map.delete(sun1));
        assertNull(map.get(sun1));
        assertNull(map.delete(sun1));
    }
 }
--- a/src/Aufgabe6Test.java
+++ b/src/Aufgabe6Test.java
@ -0,0 +1,116 @@
 import org.junit.jupiter.api.Test;
 import java.util.HashSet;
 import static org.junit.jupiter.api.Assertions.*;
 public class Aufgabe6Test {
    @Test
    public void testEP2() {
        NamedBody sun1, mercury1, venus1, earth1, moon1, mars1, deimos1, phobos1, vesta1, pallas1, hygiea1, ceres1;
        // create the same 12 named body-force pairs
        sun1 = new NamedBody(SolSystem4.SUN_NAMED);
        earth1 = new NamedBody(SolSystem4.EARTH_NAMED);
        moon1 = new NamedBody(SolSystem4.MOON_NAMED);
        mars1 = new NamedBody(SolSystem4.MARS_NAMED);
        deimos1 = new NamedBody(SolSystem4.DEIMOS_NAMED);
        phobos1 = new NamedBody(SolSystem4.PHOBOS_NAMED);
        mercury1 = new NamedBody(SolSystem4.MERCURY_NAMED);
        venus1 = new NamedBody(SolSystem4.VENUS_NAMED);
        vesta1 = new NamedBody(SolSystem4.VESTA_NAMED);
        pallas1 = new NamedBody(SolSystem4.PALLAS_NAMED);
        hygiea1 = new NamedBody(SolSystem4.HYGIEA_NAMED);
        ceres1 = new NamedBody(SolSystem4.CERES_NAMED);
        // check basic functions of 'MassiveForceHashMap'
        MassiveForceTreeMap map = new MassiveForceTreeMap();
        map.put(sun1, new Vector3(0, 0, 0));
        map.put(mercury1, new Vector3(0, 0, 0));
        map.put(venus1, new Vector3(0, 0, 0));
        map.put(earth1, new Vector3(0, 0, 0));
        map.put(moon1, new Vector3(0, 0, 0));
        map.put(mars1, new Vector3(0, 0, 0));
        map.put(deimos1, new Vector3(0, 0, 0));
        map.put(phobos1, new Vector3(0, 0, 0));
        map.put(vesta1, new Vector3(0, 0, 0));
        map.put(pallas1, new Vector3(0, 0, 0));
        map.put(hygiea1, new Vector3(0, 0, 0));
        map.put(ceres1, new Vector3(0, 0, 0));
        map.put(mars1, new Vector3(0, 0, 0)); // inserted twice
        HashSet<Massive> set1 = new HashSet<>();
        set1.add(sun1);
        set1.add(mercury1);
        set1.add(venus1);
        set1.add(earth1);
        set1.add(moon1);
        set1.add(mars1);
        set1.add(deimos1);
        set1.add(phobos1);
        set1.add(vesta1);
        set1.add(pallas1);
        set1.add(hygiea1);
        set1.add(ceres1);
        assertTrue(map.toString().contains("Mars"));
        assertTrue(map.toString().contains("Deimos"));
        assertTrue(map.toString().contains("Moon"));
        assertTrue(map.toString().contains("Earth"));
        assertEquals(12, map.getKeys().size());
        assertTrue(map.getKeys().contains(mars1));
        assertTrue(map.getKeys().contains(new NamedBody("Mars", 6.41712E23, new Vector3(0, 0, 0), new Vector3(0, 0, 0))));
        assertFalse(map.getKeys().contains(new Body(6.41712E23, new Vector3(0, 0, 0), new Vector3(0, 0, 0))));
        HashSet<Massive> set2 = new HashSet<>();
        for (Massive m : map.getKeys()) {
            set2.add(m);
        }
        assertEquals(set1, set2);
        MassiveLinkedList list = map.getKeys().toList();
        while (list.size() > 0) {
            set1.remove(list.pollLast());
        }
        assertTrue(set1.isEmpty());
        map.getKeys().remove(mars1);
        assertFalse(map.containsKey(mars1));
        assertEquals(11, map.getKeys().size());
        map.getKeys().clear();
        assertEquals(0, map.getKeys().size());
        NamedBodyForcePair sun2, mercury2, venus2, earth2, moon2, mars2, deimos2, phobos2, vesta2, pallas2, hygiea2, ceres2;
        //test classes NamedBody and MassiveForceHashMap
        // create 12 named bodies
        // create the same 12 named body-force pairs
        sun2 = new NamedBodyForcePair(SolSystem4.SUN_NAMED);
        earth2 = new NamedBodyForcePair(SolSystem4.EARTH_NAMED);
        moon2 = new NamedBodyForcePair(SolSystem4.MOON_NAMED);
        mars2 = new NamedBodyForcePair(SolSystem4.MARS_NAMED);
        deimos2 = new NamedBodyForcePair(SolSystem4.DEIMOS_NAMED);
        phobos2 = new NamedBodyForcePair(SolSystem4.PHOBOS_NAMED);
        mercury2 = new NamedBodyForcePair(SolSystem4.MERCURY_NAMED);
        venus2 = new NamedBodyForcePair(SolSystem4.VENUS_NAMED);
        vesta2 = new NamedBodyForcePair(SolSystem4.VESTA_NAMED);
        pallas2 = new NamedBodyForcePair(SolSystem4.PALLAS_NAMED);
        hygiea2 = new NamedBodyForcePair(SolSystem4.HYGIEA_NAMED);
        ceres2 = new NamedBodyForcePair(SolSystem4.CERES_NAMED);
        CosmicSystem earthSystem = new HierarchicalSystem(earth2, moon2);
        CosmicSystem marsSystem = new HierarchicalSystem(mars2, deimos2, phobos2);
        HierarchicalSystem solarSystem = new HierarchicalSystem(sun2, mercury2, venus2, earthSystem, marsSystem, vesta2, pallas2, hygiea2, ceres2);
        int count = 0;
        for (Massive b : solarSystem) {
            count++;
        }
        assertEquals(12, count);
    }
 }
--- a/src/BodyForceTreeMap.java
+++ b/src/BodyForceTreeMap.java
@ -103,10 +103,10 @@ public class BodyForceTreeMap {
     */
    @Override
    public String toString() {
-        return toString(root);
+        return (root != null) ? toString(root) : "";
    }
-    private class Item {
+    private static class Item {
        private final Body key;
        private Vector3 value;
        private Item parent;
--- a/src/BodyLinkedList.java
+++ b/src/BodyLinkedList.java
@ -222,7 +222,7 @@ public class BodyLinkedList implements Iterable<Body> {
        };
    }
-    private class Item {
+    private static class Item {
        private final Body body;
        private Item prev;
        private Item next;
--- a/src/HierarchicalSystem.java
+++ b/src/HierarchicalSystem.java
@ -5,11 +5,11 @@ import codedraw.CodeDraw;
 * and an arbitrary number of subsystems (of type 'CosmicSystem') in its orbit.
 * This class implements 'CosmicSystem'.
 */
-public class HierarchicalSystem implements CosmicSystem {
+public class HierarchicalSystem implements CosmicSystem, MassiveIterable {
    private final NamedBodyForcePair central;
-    private final CosmicSystem[] orbit;
+    private CosmicSystem[] orbit;
-    private final CosmicSystem[] all;
+    private CosmicSystem[] all;
    /**
     * Initializes this system with a name and a central body.
@ -110,4 +110,70 @@ public class HierarchicalSystem implements CosmicSystem {
        return sb.toString();
    }
    /**
     * Puts the system 'cs' at the first place in the orbit of this system.
     * Precondition: cs != null
     */
    public boolean putFirst(CosmicSystem cs) {
        CosmicSystem[] old = orbit;
        orbit = new CosmicSystem[old.length + 1];
        all = new CosmicSystem[old.length + 2];
        orbit[0] = cs;
        System.arraycopy(old, 0, orbit, 1, old.length);
        all[0] = central;
        System.arraycopy(orbit, 0, all, 1, orbit.length);
        return true;
    }
    @Override
    public MassiveIterator iterator() {
        return new MassiveIterator() {
            private int i = 0;
            private MassiveIterator cur = null;
            @Override
            public Massive next() {
                if (cur != null && cur.hasNext()) return cur.next();
                for (; i < all.length; i++) {
                    CosmicSystem sys = all[i];
                    if (sys instanceof NamedBodyForcePair m) {
                        i++;
                        return m.getBody();
                    } else if (sys instanceof HierarchicalSystem hs) {
                        cur = hs.iterator();
                        if (cur.hasNext()) {
                            i++;
                            return cur.next();
                        }
                    }
                }
                return null;
            }
            @Override
            public boolean hasNext() {
                if (cur != null && cur.hasNext()) return true;
                for (; i < all.length; i++) {
                    CosmicSystem sys = all[i];
                    if (sys instanceof NamedBodyForcePair) {
                        return true;
                    } else if (sys instanceof HierarchicalSystem hs) {
                        cur = hs.iterator();
                        if (cur.hasNext()) {
                            i++;
                            return true;
                        }
                    }
                }
                return false;
            }
        };
    }
 }
--- a/src/MassiveForceHashMap.java
+++ b/src/MassiveForceHashMap.java
@ -65,16 +65,36 @@ public class MassiveForceHashMap {
     * Precondition: key != null.
     */
    public Vector3 get(Massive key) {
        int pos = find(key);
        return (pos == -1) ? null : values[pos];
    }
    private int find(Massive key) {
        int idx = ((key.hashCode() % keys.length) + keys.length) % keys.length;
        for (int i = 0; i < keys.length; i++) {
            int pos = (idx + i) % keys.length;
            if (keys[pos] == null) {
                break;
            } else if (keys[pos].equals(key)) {
-                return values[pos];
+                return pos;
            }
        }
-        return null;
+        return -1;
    }
    /**
     * Deletes the mapping for the specified key from this map if present.
     * Returns the previous value associated with key, or null if there was
     * no mapping for key.
     * Precondition: key != null
     */
    public Vector3 delete(Massive key) {
        int pos = find(key);
        if (pos == -1) return null;
        Vector3 val = values[pos];
        values[pos] = null;
        return val;
    }
    /**
--- a/src/MassiveForceTreeMap.java
+++ b/src/MassiveForceTreeMap.java
@ -0,0 +1,234 @@
 import codedraw.CodeDraw;
 /**
 * A map that associates an object of 'Massive' with a Vector3. The number of key-value pairs
 * is not limited.
 */
 public class MassiveForceTreeMap implements MassiveSet {
    private int size = 0;
    private Item root;
    /**
     * Adds a new key-value association to this map. If the key already exists in this map,
     * the value is replaced and the old value is returned. Otherwise 'null' is returned.
     * Precondition: key != null.
     */
    public Vector3 put(Massive key, Vector3 value) {
        if (root == null) {
            root = new Item(key, value);
            size++;
            return null;
        }
        Item item = root;
        while (item != null) {
            if (item.key.equals(key)) {
                Vector3 old = item.value;
                item.value = value;
                return old;
            } else if (item.key.mass() > key.mass()) {
                if (item.left != null) {
                    item = item.left;
                } else {
                    item.setLeft(new Item(key, value));
                    size++;
                    break;
                }
            } else {
                if (item.right != null) {
                    item = item.right;
                } else{
                    item.setRight(new Item(key, value));
                    size++;
                    break;
                }
            }
        }
        return null;
    }
    /**
     * Returns the value associated with the specified key, i.e. the method returns the force vector
     * associated with the specified key. Returns 'null' if the key is not contained in this map.
     * Precondition: key != null.
     */
    public Vector3 get(Massive key) {
        Item item = root;
        while (item != null) {
            if (item.key.equals(key)) {
                return item.value;
            } else if (item.key.mass() > key.mass()) {
                item = item.left;
            } else {
                item = item.right;
            }
        }
        return null;
    }
    /**
     * Returns 'true' if this map contains a mapping for the specified key.
     * Precondition: key != null
     */
    public boolean containsKey(Massive key) {
        Item item = root;
        while (item != null) {
            if (item.key.equals(key)) {
                return true;
            } else if (item.key.mass() > key.mass()) {
                item = item.left;
            } else {
                item = item.right;
            }
        }
        return false;
    }
    private String toString(Item item) {
        String s = "";
        if (item == null) {
            return s;
        }
        s += this.toString(item.right);
        s += String.format("{%s: %s}\n", item.key, item.value);
        s += this.toString(item.left);
        return s;
    }
    /**
     * Returns a readable representation of this map, in which key-value pairs are ordered
     * descending according to 'key.getMass()'.
     */
    public String toString() {
        return (root != null) ? toString(root) : "";
    }
    /**
     * Returns a `MassiveSet` view of the keys contained in this tree map. Changing the
     * elements of the returned `MassiveSet` object also affects the keys in this tree map.
     */
    public MassiveSet getKeys() {
        return this;
    }
    @Override
    public void draw(CodeDraw cd) {
    }
    @Override
    public MassiveIterator iterator() {
        return new MassiveIterator() {
            private Item next = root.getLeftLeaf();
            @Override
            public Massive next() {
                if (next == null) return null;
                Massive m = next.key;
                Item newNext = (next.right != null) ? next.right.getLeftLeaf() : next.parent;
                while (newNext != null && newNext.right == next) {
                    next = newNext;
                    newNext = newNext.parent;
                }
                next = newNext;
                return m;
            }
            @Override
            public boolean hasNext() {
                return next != null;
            }
        };
    }
    @Override
    public boolean contains(Massive element) {
        return containsKey(element);
    }
    @Override
    public void remove(Massive element) {
        Item item = root;
        while (item != null) {
            if (item.key.equals(element)) {
                Item newP = null;
                if (item.left != null) {
                    newP = item.left.getRightLeaf();
                } else if (item.right != null) {
                    newP = item.right.getLeftLeaf();
                }
                if (item.parent.left == item) {
                    item.parent.setLeft(newP);
                } else {
                    item.parent.setRight(newP);
                }
                size--;
                return;
            } else if (item.key.mass() > element.mass()) {
                item = item.left;
            } else {
                item = item.right;
            }
        }
    }
    @Override
    public void clear() {
        size = 0;
        root = null;
    }
    @Override
    public int size() {
        return size;
    }
    @Override
    public MassiveLinkedList toList() {
        MassiveLinkedList list = new MassiveLinkedList();
        for (Massive m : this) {
            list.addLast(m);
        }
        return list;
    }
    private static class Item {
        private final Massive key;
        private Vector3 value;
        private Item parent;
        private Item left;
        private Item right;
        public Item(Massive key, Vector3 value) {
            this.key = key;
            this.value = value;
        }
        public void setLeft(Item left) {
            this.left = left;
            if (left != null) left.parent = this;
        }
        public void setRight(Item right) {
            this.right = right;
            if (right != null) right.parent = this;
        }
        public Item getLeftLeaf() {
            Item cur = this;
            while (cur.left != null) {
                cur = cur.left;
            }
            return cur;
        }
        public Item getRightLeaf() {
            Item cur = this;
            while (cur.right != null) {
                cur = cur.right;
            }
            return cur;
        }
    }
 }
--- a/src/MassiveIterable.java
+++ b/src/MassiveIterable.java
@ -0,0 +1,11 @@
 /**
 * Iterable objects with 'Massive' elements.
 */
 public interface MassiveIterable extends Iterable<Massive> {
    /**
     * Returns an iterator over elements of 'Massive'.
     */
    @Override
    MassiveIterator iterator();
 }
--- a/src/MassiveIterator.java
+++ b/src/MassiveIterator.java
@ -0,0 +1,20 @@
 import java.util.Iterator;
 /**
 * An iterator over elements of 'Massive'.
 */
 public interface MassiveIterator extends Iterator<Massive> {
    /**
     * Returns the next element in the iteration.
     * (Returns 'null' if the iteration has no more elements.)
     */
    @Override
    Massive next();
    /**
     * Returns 'true' if the iteration has more elements.
     */
    @Override
    boolean hasNext();
 }
--- a/src/MassiveLinkedList.java
+++ b/src/MassiveLinkedList.java
@ -98,7 +98,7 @@ public class MassiveLinkedList implements Iterable<Massive> {
            return null;
        }
        Massive m = last.body;
-        last = last.next;
+        last = last.prev;
        if (last != null) last.setNext(null);
        size--;
        return m;
@ -194,7 +194,7 @@ public class MassiveLinkedList implements Iterable<Massive> {
        };
    }
-    private class Item {
+    private static class Item {
        private final Massive body;
        private Item prev;
        private Item next;
--- a/src/MassiveSet.java
+++ b/src/MassiveSet.java
@ -0,0 +1,31 @@
 /**
 * A collection of 'Massive' objects in which there are no duplicates.
 */
 public interface MassiveSet extends MassiveIterable, Drawable {
    /**
     * Returns 'true' if the set has the specified element (i.e., has an element equal to the
     * specified element).
     */
    boolean contains(Massive element);
    /**
     * Removes the specified element from the set.
     */
    void remove(Massive element);
    /**
     * Removes all elements from the set.
     */
    void clear();
    /**
     * Returns the number of elements in the set.
     */
    int size();
    /**
     * Returns an object of 'MassiveLinkedList' with all elements of 'this'.
     */
    MassiveLinkedList toList();
 }
--- a/src/Simulation5.java
+++ b/src/Simulation5.java
@ -35,7 +35,6 @@ public class Simulation5 {
     * The main simulation method using instances of other classes.
     */
    public static void main(String[] args) {
        // simulation
        CodeDraw cd = new CodeDraw();
@ -52,6 +51,7 @@ public class Simulation5 {
        NamedBody pallas = new NamedBody(SolSystem4.PALLAS_NAMED);
        NamedBody hygiea = new NamedBody(SolSystem4.HYGIEA_NAMED);
        NamedBody ceres = new NamedBody(SolSystem4.CERES_NAMED);
        // create some additional bodies
        Body[] bodies = new Body[NUMBER_OF_BODIES];
--- a/src/Simulation6.java
+++ b/src/Simulation6.java
@ -0,0 +1,113 @@
 import codedraw.CodeDraw;
 import java.awt.*;
 import java.util.Random;
 /**
 * Simulates the formation of a massive solar system.
 */
 public class Simulation6 {
    // gravitational constant
    public static final double G = 6.6743e-11;
    // one astronomical unit (AU) is the average distance of earth to the sun.
    public static final double AU = 150e9; // meters
    // one light year
    public static final double LY = 9.461e15; // meters
    // some further constants needed in the simulation
    public static final double SUN_MASS = 1.989e30; // kilograms
    public static final double SUN_RADIUS = 696340e3; // meters
    public static final double EARTH_MASS = 5.972e24; // kilograms
    public static final double EARTH_RADIUS = 6371e3; // meters
    // set some system parameters
    public static final double SECTION_SIZE = 10 * AU; // the size of the square region in space
    public static final int NUMBER_OF_BODIES = 22;
    public static final double OVERALL_SYSTEM_MASS = 20 * SUN_MASS; // kilograms
    // all quantities are based on units of kilogram respectively second and meter.
    /**
     * The main simulation method using instances of other classes.
     */
    public static void main(String[] args) {
        // simulation
        CodeDraw cd = new CodeDraw();
        // create solar system with 12 bodies
        NamedBody sun = new NamedBody(SolSystem4.SUN_NAMED);
        NamedBody earth = new NamedBody(SolSystem4.EARTH_NAMED);
        NamedBody moon = new NamedBody(SolSystem4.MOON_NAMED);
        NamedBody mars = new NamedBody(SolSystem4.MARS_NAMED);
        NamedBody deimos = new NamedBody(SolSystem4.DEIMOS_NAMED);
        NamedBody phobos = new NamedBody(SolSystem4.PHOBOS_NAMED);
        NamedBody mercury = new NamedBody(SolSystem4.MERCURY_NAMED);
        NamedBody venus = new NamedBody(SolSystem4.VENUS_NAMED);
        NamedBody vesta = new NamedBody(SolSystem4.VESTA_NAMED);
        NamedBody pallas = new NamedBody(SolSystem4.PALLAS_NAMED);
        NamedBody hygiea = new NamedBody(SolSystem4.HYGIEA_NAMED);
        NamedBody ceres = new NamedBody(SolSystem4.CERES_NAMED);
        // create some additional bodies
        Body[] bodies = new Body[NUMBER_OF_BODIES];
        Random random = new Random(2022);
        for (int i = 0; i < bodies.length; i++) {
            bodies[i] = new Body(
                    Math.abs(random.nextGaussian()) * OVERALL_SYSTEM_MASS / bodies.length,
                    new Vector3(0.2 * random.nextGaussian() * AU, 0.2 * random.nextGaussian() * AU, 0.2 * random.nextGaussian() * AU),
                    new Vector3(0 + random.nextGaussian() * 5e3, 0 + random.nextGaussian() * 5e3, 0 + random.nextGaussian() * 5e3)
            );
        }
        MassiveForceTreeMap forceOnBody = new MassiveForceTreeMap();
        forceOnBody.put(sun, new Vector3());
        forceOnBody.put(earth, new Vector3());
        forceOnBody.put(moon, new Vector3());
        forceOnBody.put(mars, new Vector3());
        forceOnBody.put(deimos, new Vector3());
        forceOnBody.put(phobos, new Vector3());
        forceOnBody.put(mercury, new Vector3());
        forceOnBody.put(venus, new Vector3());
        forceOnBody.put(vesta, new Vector3());
        forceOnBody.put(pallas, new Vector3());
        forceOnBody.put(hygiea, new Vector3());
        forceOnBody.put(ceres, new Vector3());
        for (Body b : bodies) {
            forceOnBody.put(b, new Vector3());
        }
        long seconds = 0;
        while (true) {
            seconds++;
            for (Massive b1 : forceOnBody.getKeys()) {
                Vector3 force = new Vector3();
                for (Massive b2 : forceOnBody.getKeys()) {
                    if (b1 != b2) {
                        force = force.plus(b1.gravitationalForce(b2));
                    }
                }
                forceOnBody.put(b1, force);
            }
            for (Massive body : forceOnBody.getKeys()) {
                body.move(forceOnBody.get(body));
            }
            if ((seconds % 3600) == 0) {
                cd.clear(Color.BLACK);
                for (Massive body : forceOnBody.getKeys()) {
                    body.draw(cd);
                }
                cd.show();
            }
        }
    }
 }
Author	SHA1	Message	Date
Lorenz Stechauner	05c52cd3f5	Abgabe Übungstest 5	2022-05-19 14:38:54 +02:00
Lorenz Stechauner	088fa3cdeb	Implement AB6	2022-05-17 19:43:03 +02:00
Lorenz Stechauner	f801a331c2	Implement AB6, Aufgabe 1+2	2022-05-17 19:31:19 +02:00
Lorenz Stechauner	b89fc15602	Refactor AB6 Angabe	2022-05-17 17:28:26 +02:00
Anton Ertl	2e14e45bb0	Aufgabenblatt 6	2022-05-16 18:39:22 +00:00
Anton Ertl	e311ef3c6b	Aufgabenblatt 6	2022-05-16 20:27:14 +02:00
Lorenz Stechauner	a62ef91a8a	Implement Übungstest 4	2022-05-12 14:35:07 +02:00