programming-examples/java/Data_Structures/LinearProbingHashST.java

 

import edu.princeton.cs.introcs.StdIn;
import edu.princeton.cs.introcs.StdOut;

/*************************************************************************
 *  Compilation:  javac LinearProbingHashST.java
 *  Execution:    java LinearProbingHashST
 *  
 *  Symbol table implementation with linear probing hash table.
 *
 *  % java LinearProbingHashST
 *  128.112.136.11
 *  208.216.181.15
 *  null
 *
 *
 *************************************************************************/


public class LinearProbingHashST<Key, Value> {
    private static final int INIT_CAPACITY = 4;

    private int N;           // number of key-value pairs in the symbol table
    private int M;           // size of linear probing table
    private Key[] keys;      // the keys
    private Value[] vals;    // the values


    // create an empty hash table - use 16 as default size
    public LinearProbingHashST() {
        this(INIT_CAPACITY);
    }

    // create linear proving hash table of given capacity
    public LinearProbingHashST(int capacity) {
        M = capacity;
        keys = (Key[])   new Object[M];
        vals = (Value[]) new Object[M];
    }

    // return the number of key-value pairs in the symbol table
    public int size() {
        return N;
    }

    // is the symbol table empty?
    public boolean isEmpty() {
        return size() == 0;
    }

    // does a key-value pair with the given key exist in the symbol table?
    public boolean contains(Key key) {
        return get(key) != null;
    }

    // hash function for keys - returns value between 0 and M-1
    private int hash(Key key) {
        return (key.hashCode() & 0x7fffffff) % M;
    }

    // resize the hash table to the given capacity by re-hashing all of the keys
    private void resize(int capacity) {
        LinearProbingHashST<Key, Value> temp = new LinearProbingHashST<Key, Value>(capacity);
        for (int i = 0; i < M; i++) {
            if (keys[i] != null) {
                temp.put(keys[i], vals[i]);
            }
        }
        keys = temp.keys;
        vals = temp.vals;
        M    = temp.M;
    }

    // insert the key-value pair into the symbol table
    public void put(Key key, Value val) {
        if (val == null) delete(key);

        // double table size if 50% full
        if (N >= M/2) resize(2*M);

        int i;
        for (i = hash(key); keys[i] != null; i = (i + 1) % M) {
            if (keys[i].equals(key)) { vals[i] = val; return; }
        }
        keys[i] = key;
        vals[i] = val;
        N++;
    }

    // return the value associated with the given key, null if no such value
    public Value get(Key key) {
        for (int i = hash(key); keys[i] != null; i = (i + 1) % M) 
            if (keys[i].equals(key))
                return vals[i];
        return null;
    }

    // delete the key (and associated value) from the symbol table
    public void delete(Key key) {
        if (!contains(key)) return;

        // find position i of key
        int i = hash(key);
        while (!key.equals(keys[i])) {
            i = (i + 1) % M;
        }

        // delete key and associated value
        keys[i] = null;
        vals[i] = null;

        // rehash all keys in same cluster
        i = (i + 1) % M;
        while (keys[i] != null) {
            // delete keys[i] an vals[i] and reinsert
            Key   keyToRehash = keys[i];
            Value valToRehash = vals[i];
            keys[i] = null;
            vals[i] = null;
            N--;  
            put(keyToRehash, valToRehash);
            i = (i + 1) % M;
        }

        N--;        

        // halves size of array if it's 12.5% full or less
        if (N > 0 && N <= M/8) resize(M/2);

        assert check();
    }

    // return all of the keys as in Iterable
    public Iterable<Key> keys() {
        Queue<Key> queue = new Queue<Key>();
        for (int i = 0; i < M; i++)
            if (keys[i] != null) queue.enqueue(keys[i]);
        return queue;
    }

    // integrity check - don't check after each put() because
    // integrity not maintained during a delete()
    private boolean check() {

        // check that hash table is at most 50% full
        if (M < 2*N) {
            System.err.println("Hash table size M = " + M + "; array size N = " + N);
            return false;
        }

        // check that each key in table can be found by get()
        for (int i = 0; i < M; i++) {
            if (keys[i] == null) continue;
            else if (get(keys[i]) != vals[i]) {
                System.err.println("get[" + keys[i] + "] = " + get(keys[i]) + "; vals[i] = " + vals[i]);
                return false;
            }
        }
        return true;
    }


/***********************************************************************
    *  Unit test client.
    ***********************************************************************/
    public static void main(String[] args) { 
        LinearProbingHashST<String, Integer> st = new LinearProbingHashST<String, Integer>();
        for (int i = 0; !StdIn.isEmpty(); i++) {
            String key = StdIn.readString();
            st.put(key, i);
        }

        // print keys
        for (String s : st.keys()) 
            StdOut.println(s + " " + st.get(s)); 
    }
}
Initial commit 2019-11-15 12:59:38 +01:00

			`import edu.princeton.cs.introcs.StdIn;`
			`import edu.princeton.cs.introcs.StdOut;`

			`/*************************************************************************`
			`* Compilation: javac LinearProbingHashST.java`
			`* Execution: java LinearProbingHashST`
			`*`
			`* Symbol table implementation with linear probing hash table.`
			`*`
			`* % java LinearProbingHashST`
			`* 128.112.136.11`
			`* 208.216.181.15`
			`* null`
			`*`
			`*`
			`*************************************************************************/`


			`public class LinearProbingHashST<Key, Value> {`
			`private static final int INIT_CAPACITY = 4;`

			`private int N; // number of key-value pairs in the symbol table`
			`private int M; // size of linear probing table`
			`private Key[] keys; // the keys`
			`private Value[] vals; // the values`


			`// create an empty hash table - use 16 as default size`
			`public LinearProbingHashST() {`
			`this(INIT_CAPACITY);`
			`}`

			`// create linear proving hash table of given capacity`
			`public LinearProbingHashST(int capacity) {`
			`M = capacity;`
			`keys = (Key[]) new Object[M];`
			`vals = (Value[]) new Object[M];`
			`}`

			`// return the number of key-value pairs in the symbol table`
			`public int size() {`
			`return N;`
			`}`

			`// is the symbol table empty?`
			`public boolean isEmpty() {`
			`return size() == 0;`
			`}`

			`// does a key-value pair with the given key exist in the symbol table?`
			`public boolean contains(Key key) {`
			`return get(key) != null;`
			`}`

			`// hash function for keys - returns value between 0 and M-1`
			`private int hash(Key key) {`
			`return (key.hashCode() & 0x7fffffff) % M;`
			`}`

			`// resize the hash table to the given capacity by re-hashing all of the keys`
			`private void resize(int capacity) {`
			`LinearProbingHashST<Key, Value> temp = new LinearProbingHashST<Key, Value>(capacity);`
			`for (int i = 0; i < M; i++) {`
			`if (keys[i] != null) {`
			`temp.put(keys[i], vals[i]);`
			`}`
			`}`
			`keys = temp.keys;`
			`vals = temp.vals;`
			`M = temp.M;`
			`}`

			`// insert the key-value pair into the symbol table`
			`public void put(Key key, Value val) {`
			`if (val == null) delete(key);`

			`// double table size if 50% full`
			`if (N >= M/2) resize(2*M);`

			`int i;`
			`for (i = hash(key); keys[i] != null; i = (i + 1) % M) {`
			`if (keys[i].equals(key)) { vals[i] = val; return; }`
			`}`
			`keys[i] = key;`
			`vals[i] = val;`
			`N++;`
			`}`

			`// return the value associated with the given key, null if no such value`
			`public Value get(Key key) {`
			`for (int i = hash(key); keys[i] != null; i = (i + 1) % M)`
			`if (keys[i].equals(key))`
			`return vals[i];`
			`return null;`
			`}`

			`// delete the key (and associated value) from the symbol table`
			`public void delete(Key key) {`
			`if (!contains(key)) return;`

			`// find position i of key`
			`int i = hash(key);`
			`while (!key.equals(keys[i])) {`
			`i = (i + 1) % M;`
			`}`

			`// delete key and associated value`
			`keys[i] = null;`
			`vals[i] = null;`

			`// rehash all keys in same cluster`
			`i = (i + 1) % M;`
			`while (keys[i] != null) {`
			`// delete keys[i] an vals[i] and reinsert`
			`Key keyToRehash = keys[i];`
			`Value valToRehash = vals[i];`
			`keys[i] = null;`
			`vals[i] = null;`
			`N--;`
			`put(keyToRehash, valToRehash);`
			`i = (i + 1) % M;`
			`}`

			`N--;`

			`// halves size of array if it's 12.5% full or less`
			`if (N > 0 && N <= M/8) resize(M/2);`

			`assert check();`
			`}`

			`// return all of the keys as in Iterable`
			`public Iterable<Key> keys() {`
			`Queue<Key> queue = new Queue<Key>();`
			`for (int i = 0; i < M; i++)`
			`if (keys[i] != null) queue.enqueue(keys[i]);`
			`return queue;`
			`}`

			`// integrity check - don't check after each put() because`
			`// integrity not maintained during a delete()`
			`private boolean check() {`

			`// check that hash table is at most 50% full`
			`if (M < 2*N) {`
			`System.err.println("Hash table size M = " + M + "; array size N = " + N);`
			`return false;`
			`}`

			`// check that each key in table can be found by get()`
			`for (int i = 0; i < M; i++) {`
			`if (keys[i] == null) continue;`
			`else if (get(keys[i]) != vals[i]) {`
			`System.err.println("get[" + keys[i] + "] = " + get(keys[i]) + "; vals[i] = " + vals[i]);`
			`return false;`
			`}`
			`}`
			`return true;`
			`}`


			`/***********************************************************************`
			`* Unit test client.`
			`***********************************************************************/`
			`public static void main(String[] args) {`
			`LinearProbingHashST<String, Integer> st = new LinearProbingHashST<String, Integer>();`
			`for (int i = 0; !StdIn.isEmpty(); i++) {`
			`String key = StdIn.readString();`
			`st.put(key, i);`
			`}`

			`// print keys`
			`for (String s : st.keys())`
			`StdOut.println(s + " " + st.get(s));`
			`}`
			`}`