27.8 (Animate quadratic probing) Write a program that animates quadratic probing, as shown in Figure 27.5. You can change the initial size of the hash-table in program. Assume the load-factor threshold is 0.75 .
import javax.swing.*; import java.awt.*; import java.awt.event.ActionEvent; import java.awt.event.ActionListener; public class Exercise08 extends JApplet { private static final long serialVersionUID = 1L; private LinearProbingPanel linearProbingPanel = new LinearProbingPanel(); private JTextField jTextField2 = new JTextField(3); private JTextField jTextField1 = new JTextField("4", 3); private JTextField jTextField3 = new JTextField("0.75", 3); private MyHashMap<Integer, Integer> map = new MyHashMap<Integer, Integer> (Integer.parseInt(jTextField1.getText()), Float.parseFloat(jTextField3.getText())); public Exercise08() { JPanel jPanel1 = new JPanel(); jPanel1.add(new JLabel("Table size: ")); jPanel1.add(jTextField1); jPanel1.add(new JLabel("Load factor: ")); jPanel1.add(jTextField3); JButton jButton5 = new JButton("New map"); jPanel1.add(jButton5); jPanel1.add(new JLabel(" Enter a value: ")); jPanel1.add(jTextField2); JButton jButton1 = new JButton("Insert"); jPanel1.add(jButton1); JButton jButton2 = new JButton("Delete"); jPanel1.add(jButton2); JButton jButton3 = new JButton("Search"); jPanel1.add(jButton3); JButton jButton4 = new JButton("Remove All"); jPanel1.add(jButton4); add(jPanel1, BorderLayout.SOUTH); add(linearProbingPanel, BorderLayout.CENTER); jButton1.addActionListener(new ActionListener() { @Override public void actionPerformed(ActionEvent e) { try { int value = Integer.parseInt(jTextField2.getText()); if(map.containsKey(value)) { JOptionPane.showMessageDialog(null, jTextField2.getText() + " is olready in the tree", "Warning", JOptionPane.WARNING_MESSAGE); } else { map.put(value, value); linearProbingPanel.repaint(); jTextField2.setText(""); } jTextField2.requestFocus(); } catch (NumberFormatException e2) { jTextField2.requestFocus(); } } }); jButton2.addActionListener(new ActionListener() { @Override public void actionPerformed(ActionEvent e) { try { int value = Integer.parseInt(jTextField2.getText()); if(map.containsKey(value)) { map.remove(value); linearProbingPanel.repaint(); jTextField2.setText(""); } else { JOptionPane.showMessageDialog(null, jTextField2.getText() + " is not in the tree", "Warning", JOptionPane.WARNING_MESSAGE); } jTextField2.requestFocus(); } catch (NumberFormatException e2) { jTextField2.requestFocus(); } } }); jButton3.addActionListener(new ActionListener() { @Override public void actionPerformed(ActionEvent e) { try { int value = Integer.parseInt(jTextField2.getText()); if(map.containsKey(value)) { JOptionPane.showMessageDialog(null, jTextField2.getText() + " is in the tree", "Information", JOptionPane.INFORMATION_MESSAGE); } else { JOptionPane.showMessageDialog(null, jTextField2.getText() + " is not in the tree", "Information", JOptionPane.INFORMATION_MESSAGE); } jTextField2.requestFocus(); } catch (NumberFormatException e2) { jTextField2.requestFocus(); } } }); jButton4.addActionListener(new ActionListener() { @Override public void actionPerformed(ActionEvent e) { map.clear(); linearProbingPanel.repaint(); } }); jButton5.addActionListener(new ActionListener() { @Override public void actionPerformed(ActionEvent e) { try { map = new MyHashMap<Integer, Integer>(Integer.parseInt(jTextField1.getText()), Float.parseFloat(jTextField3.getText())); linearProbingPanel.repaint(); } catch (NumberFormatException e2) { } } }); } class LinearProbingPanel extends JPanel { private static final long serialVersionUID = 1L; @Override protected void paintComponent(Graphics g) { super.paintComponent(g); g.setFont(new Font("Monospaced", Font.PLAIN, 16)); int size = 20; g.drawString("Table size = " + map.table.length + ". Number of keys = " + map.size() + ".", size, size); g.drawString("Load factor = " + (1.0 * map.size()) / map.table.length + ". Load factor threshold = " + map.loadFactorThreshold + ".", size, size * 2); for (int i = 0; i < map.table.length; i++) { g.drawString("[" + i + "]", size, size * (i + 4)); g.drawRect(size * 3, size * (i + 3) + 6, size * 2, size); if(map.table[i] != null) { g.drawString("" + map.table[i].getValue(), size * 3 + 2, size * (i + 4) + 2); } } } } static class MyHashMap<K, V> implements MyMap<K, V> { // Define the default hash table size. Must be a power of 2 private static int DEFAULT_INITIAL_CAPACITY = 4; // Define the maximum hash table size. 1 << 30 is same as 2^30 private static int MAXIMUM_CAPACITY = 1 << 30; // Current hash table capacity. Capacity is a power of 2 private int capacity; // Define default load factor private static float DEFAULT_MAX_LOAD_FACTOR = 0.5f; // Specify a load factor used in the hash table private float loadFactorThreshold; // The number of entries in the map private int size = 0; // Hash table is an array with each cell that is a linked list MyMap.Entry<K, V>[] table; /** Construct a map with the default capacity and load factor */ public MyHashMap() { this(DEFAULT_INITIAL_CAPACITY, DEFAULT_MAX_LOAD_FACTOR); } /** * Construct a map with the specified initial capacity and default load * factor */ public MyHashMap(int initialCapacity) { this(initialCapacity, DEFAULT_MAX_LOAD_FACTOR); } /** * Construct a map with the specified initial capacity and load factor */ @SuppressWarnings("unchecked") public MyHashMap(int initialCapacity, float loadFactorThreshold) { if (initialCapacity > MAXIMUM_CAPACITY) this.capacity = MAXIMUM_CAPACITY; else this.capacity = trimToPowerOf2(initialCapacity); this.loadFactorThreshold = loadFactorThreshold; table = new MyMap.Entry[capacity]; } @Override /** Remove all of the entries from this map */ public void clear() { size = 0; removeEntries(); } @Override /** Return true if the specified key is in the map */ public boolean containsKey(K key) { int i = hash(key.hashCode()); int startI = i; int j = 1; while (table[i] != null) { if (table[i].getKey().equals(key)) return true; i = (startI + j * j) % capacity; j++; } return false; } @Override /** Return true if this map contains the value */ public boolean containsValue(V value) { for (int i = 0; i < capacity; i++) { if (table[i] != null) { if (table[i].getValue().equals(value)) return true; } } return false; } @Override /** Return a set of entries in the map */ public java.util.Set<MyMap.Entry<K, V>> entrySet() { java.util.Set<MyMap.Entry<K, V>> set = new java.util.HashSet<MyMap.Entry<K, V>>(); for (int i = 0; i < capacity; i++) { if (table[i] != null) { set.add(table[i]); } } return set; } @Override /** Return the value that matches the specified key */ public V get(K key) { int i = hash(key.hashCode()); int startI = i; int j = 1; while (table[i] != null) { if (table[i].getKey().equals(key)) return table[i].getValue(); i = (startI + j * j) % capacity; j++; } return null; } @Override /** Return true if this map contains no entries */ public boolean isEmpty() { return size == 0; } @Override /** Return a set consisting of the keys in this map */ public java.util.Set<K> keySet() { java.util.Set<K> set = new java.util.HashSet<K>(); for (int i = 0; i < capacity; i++) { if (table[i] != null) { set.add(table[i].getKey()); } } return set; } @Override /** Add an entry (key, value) into the map */ public V put(K key, V value) { if (get(key) != null) { // The key is already in the map int i = hash(key.hashCode()); int startI = i; int j = 1; while (table[i] != null) { if (table[i].getKey().equals(key)) { V oldValue = table[i].getValue(); table[i].value = value; return oldValue; } i = (startI + j * j) % capacity; j++; } } // Check load factor if (size >= capacity * loadFactorThreshold) { if (capacity == MAXIMUM_CAPACITY) throw new RuntimeException("Exceeding maximum capacity"); rehash(); } int i = hash(key.hashCode()); int startI = i; int j = 1; while (table[i] != null) { i = (startI + j * j) % capacity; j++; } table[i] = new MyMap.Entry<K, V>(key, value); size++; return value; } @Override /** Remove the entries for the specified key */ public void remove(K key) { int i = hash(key.hashCode()); int startI = i; int j = 1; while (table[i] != null) { if (table[i].getKey().equals(key)) { size--; table[i] = null; } i = (startI + j * j) % capacity; j++; } } @Override /** Return the number of entries in this map */ public int size() { return size; } @Override /** Return a set consisting of the values in this map */ public java.util.Set<V> values() { java.util.Set<V> set = new java.util.HashSet<V>(); for (int i = 0; i < capacity; i++) { if (table[i] != null) { set.add(table[i].getValue()); } } return set; } /** Hash function */ private int hash(int hashCode) { return supplementalHash(hashCode) & (capacity - 1); } /** Ensure the hashing is evenly distributed */ private static int supplementalHash(int h) { h ^= (h >>> 20) ^ (h >>> 12); return h ^ (h >>> 7) ^ (h >>> 4); } /** Return a power of 2 for initialCapacity */ private int trimToPowerOf2(int initialCapacity) { int capacity = 1; while (capacity < initialCapacity) { capacity <<= 1; } return capacity; } /** Remove all entries from each bucket */ private void removeEntries() { for (int i = 0; i < capacity; i++) { if (table[i] != null) { table[i] = null; } } } /** Rehash the map */ @SuppressWarnings("unchecked") private void rehash() { java.util.Set<Entry<K, V>> set = entrySet(); // Get entries capacity <<= 1; // Double capacity table = new MyMap.Entry[capacity]; size = 0; // Reset size to 0 for (Entry<K, V> entry : set) { put(entry.getKey(), entry.getValue()); // Store to new table } } @Override public String toString() { StringBuilder builder = new StringBuilder("["); for (int i = 0; i < capacity; i++) { if (table[i] != null) builder.append(table[i]); } builder.append("]"); return builder.toString(); } } interface MyMap<K, V> { /** Remove all of the entries from this map */ public void clear(); /** Return true if the specified key is in the map */ public boolean containsKey(K key); /** Return true if this map contains the specified value */ public boolean containsValue(V value); /** Return a set of entries in the map */ public java.util.Set<Entry<K, V>> entrySet(); /** Return the first value that matches the specified key */ public V get(K key); /** Return true if this map contains no entries */ public boolean isEmpty(); /** Return a set consisting of the keys in this map */ public java.util.Set<K> keySet(); /** Add an entry (key, value) into the map */ public V put(K key, V value); /** Remove the entries for the specified key */ public void remove(K key); /** Return the number of mappings in this map */ public int size(); /** Return a set consisting of the values in this map */ public java.util.Set<V> values(); /** Define inner class for Entry */ public static class Entry<K, V> { K key; V value; public Entry(K key, V value) { this.key = key; this.value = value; } public K getKey() { return key; } public V getValue() { return value; } @Override public String toString() { return "[" + key + ", " + value + "]"; } } } public static void main(String[] args) { JFrame frame = new JFrame("Exercise08"); JApplet applet = new Exercise08(); frame.add(applet); frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); frame.setSize(900, 600); frame.setLocationRelativeTo(null); frame.setVisible(true); } }
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