Difference between revisions of "Computer Science/61b/Projects/Ocean/DList.java"

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Revision as of 03:11, 14 November 2006

This page contains computer code. Unlike all articles on the lensowiki, which are released under the GFDL, this code is released under the GPL.

Copyright 2006, 2007 Paul Borokhov. All rights reserved.

This code is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.

The code is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

/* DList.java */

/**
 *  The DList class is a doubly-linked implementation of the linked list
 *  abstraction.  DLists are mutable data structures, which can grow at either
 *  end.
 *
 *  This class is incomplete and only includes the methods necessary for the Oceans project
 **/

public class DList {
	private DListNode head;
	// we have to make this non-private so that we can manipulate size directly when we call addShark() and addFish() on a RLE
	// (at least it makes those manipulations easier)
	int size;
	// Ocean-specific fields
	int dimx;
	int dimy;
	int starvetime;
	
	/**
	 *  DList() constructs an empty list.
	 **/
	
	public DList() {
		size = 0;
		head = new DListNode();
		head.next = head;
		head.prev = head;
	}
	
	/**
	 * Ocean-specific: constructs a new list representing an i by j ocean where sharks die according to starve
	 * set size, dimx, and dimy appropriately; set starvetime to starve param
	 **/
	
	public DList(int i, int j, int starve) {
		size = 0;
		head = new DListNode();
		head.next = head;
		head.prev = head;
		dimx = i;
		dimy = j;
		starvetime = starve;
	}
	
	/**
	 *  isEmpty() indicates whether the list is empty.
	 *  @return true if the list is empty, false otherwise.
	 **/
	
	public boolean isEmpty() {
		return size == 0;
	}
	
	/**
	 *  length() returns the length of this list.
	 *  @return the length of this list.
	 **/
	
	public int length() {
		return size;
	}
	
	/**
	 *  insertFront() inserts a block of cells at the beginning of this list.
	 *  @param type the type of cell to be inserted.
	 *	@param frequency the number of consecutive cells of this type
	 **/
	
	public void insertFront(int type, int frequency, int hunger) {
		DListNode item = new DListNode(type);
		head.next.prev = item;
		item.next = head.next;
		item.prev = head;
		head.next = item;
		item.consecs = frequency;
		item.hunger = hunger;
		size++;
	}
	
	/**
	 *  insertEnd() inserts item "obj" at the end of this list.
	 *  @param type the type of cell to be inserted.
	 *	@param frequency the number of consecutive cells of this type
	 **/
	
	public void insertEnd(int type, int frequency, int hunger) {
		DListNode item = new DListNode(type);
		head.prev.next = item;
		item.next = head;
		item.prev = head.prev;
		head.prev = item;
		item.consecs = frequency;
		item.hunger = hunger;
		size++;
	}
	
	public void insertEnd(int type, int frequency) {
		insertEnd(type, frequency, 0);
	}

	public void insertFront(int type, int frequency) {
		insertFront(type, frequency, 0);
	}

	/**
	 *  nth() returns the NODE at the specified position.  If position < 1 or
	 *  position > this.length(), null is returned.  Otherwise, the item at
	 *  position "position" is returned.  The list does not change.
	 *  @param position the desired position, from 1 to length(), in the list.
	 *  @return the NODE at the given position in the list - this allows us to call .next and .prev on the returned value
	 **/
	
	public DListNode nth(int position) {
		DListNode currentNode;
		if ((position < 1) || (head.next == head)) {
			return null;
		} else {
			currentNode = head.next;
			while (position > 1) {
				currentNode = currentNode.next;
				if (currentNode == head) {
					return null;
				}
				position--;
			}
			return currentNode;
		}
	}
}