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lab4

链表学的有点懵。总之就是SList,DList的head是随着插入的对象变化的,而循环链表的head是恒定的,在循环链表的任何操作中,都不能出现给head赋值的语句。

非循环的DList,在size==1的时候,head=tail;  head.next=null;   tail.pre=null 。此时tail和head均体现不出链表相连的特征,因此在表头插入第二个对象的时候,需要特别对tail.pre进行赋值;从此之后,再从表头插入数据,就不用管tail.pre了。

非循环链表:

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package lab4;


/* DList1.java */

/**
 *  A DList1 is a mutable doubly-linked list.  (No sentinel, not
 *  circularly linked.)
 */

public class DList1 {

  /**
   *  head references the first node.
   *  tail references the last node.
   *
   *  DO NOT CHANGE THE FOLLOWING FIELD DECLARATIONS.
   */

  protected DListNode1 head;
  protected DListNode1 tail;
  protected long size;

  /* DList1 invariants:
   *  1)  head.prev == null.
   *  2)  tail.next == null.
   *  3)  For any DListNode1 x in a DList, if x.next == y and x.next != null,
   *      then y.prev == x.
   *  4)  For any DListNode1 x in a DList, if x.prev == y and x.prev != null,
   *      then y.next == x.
   *  5)  The tail can be accessed from the head by a sequence of "next"
   *      references.
   *  6)  size is the number of DListNode1s that can be accessed from the
   *      head by a sequence of "next" references.
   */

  /**
   *  DList1() constructor for an empty DList1.
   */
  public DList1() {
    head = null;
    tail = null;
    size = 0;
  }

  /**
   *  DList1() constructor for a one-node DList1.
   */
  public DList1(int a) {
    head = new DListNode1();
    tail = head;
    head.item = a;
    size = 1;
  }

  /**
   *  DList1() constructor for a two-node DList1.
   */
  public DList1(int a, int b) {
    head = new DListNode1();
    head.item = a;
    tail = new DListNode1();
    tail.item = b;
    head.next = tail;
    tail.prev = head;
    size = 2;
  }

  /**
   *  insertFront() inserts an item at the front of a DList1.
   */
  public void insertFront(int i) {
    DListNode1 newLN=new DListNode1();
    newLN.item=i;
    if(size>1){
    newLN.prev=null;
    newLN.next=head;
    head.prev=newLN.next;
    head=newLN;
    }else if(size==1) {
        newLN.prev=null;
        newLN.next=head;
        head.prev=newLN.next;
        tail.prev=newLN;
        head=newLN;
    }else{
        head=newLN;
        head.prev=null;
        head.next=null;
        tail=head;
    } 
    size++;// Your solution here.
  }

  /**
   *  removeFront() removes the first item (and node) from a DList1.  If the
   *  list is empty, do nothing.
   */
  public void removeFront() {
    if(size>1){
        head.next.prev=null;
        head=head.next;
        size--;
    }else if(size==1){
        head=null;
        tail=null;
        size--;
    }
      // Your solution here.
  }

  /**
   *  toString() returns a String representation of this DList.
   *
   *  DO NOT CHANGE THIS METHOD.
   *
   *  @return a String representation of this DList.
   */
  public String toString() {
    String result = "[  ";
    DListNode1 current = head;
    while (current != null) {
      result = result + current.item + "  ";
      current = current.next;
    }
    return result + "]";
  }

  public static void main(String[] args) {
    // DO NOT CHANGE THE FOLLOWING CODE.

    DList1 l = new DList1();
    System.out.println("### TESTING insertFront ###\nEmpty list is " + l);

    l.insertFront(9);
    System.out.println("\nInserting 9 at front.\nList with 9 is " + l);
    if (l.head == null) {
      System.out.println("head is null.");
    } else {
      if (l.head.item != 9) {
        System.out.println("head.item is wrong.");
      }
      if (l.head.prev != null) {
        System.out.println("head.prev is wrong.");
      }
    }
    if (l.tail == null) {
      System.out.println("tail is null.");
    } else {
      if (l.tail.item != 9) {
        System.out.println("tail.item is wrong.");
      }
      if (l.tail.next != null) {
        System.out.println("tail.next is wrong.");
      }
    }
    if (l.size != 1) {
      System.out.println("size is wrong.");
    }

    l.insertFront(8);
    System.out.println("\nInserting 8 at front.\nList with 8 and 9 is " + l);
    if (l.head == null) {
      System.out.println("head is null.");
    } else {
      if (l.head.item != 8) {
        System.out.println("head.item is wrong.");
      }
      if (l.head.prev != null) {
        System.out.println("head.prev is wrong.");
      }
      if (l.head.next != l.tail) {
        System.out.println("head.next is wrong.");
      }
    }
    if (l.tail == null) {
      System.out.println("tail is null.");
    } else {
      if (l.tail.item != 9) {
        System.out.println("tail.item is wrong.");
      }
      if (l.tail.next != null) {
        System.out.println("tail.next is wrong.");
      }
      if (l.tail.prev != l.head) {
        System.out.println("tail.prev is wrong.");
      }
    }
    if (l.size != 2) {
      System.out.println("size is wrong.");
    }



    l = new DList1(1, 2);
    System.out.println("\n\n### TESTING removeFront ###\nList with 1 and 2 is "
                       + l);

    l.removeFront();
    System.out.println("\nRemoving front node.\nList with 2 is " + l);
    if (l.head.item != 2) {
      System.out.println("head.item is wrong.");
    }
    if (l.head.prev != null) {
      System.out.println("head.prev is wrong.");
    }
    if (l.tail.item != 2) {
      System.out.println("tail.item is wrong.");
    }
    if (l.tail.next != null) {
      System.out.println("tail.next is wrong.");
    }
    if (l.size != 1) {
      System.out.println("size is wrong.");
    }

    l.removeFront();
    System.out.println("\nRemoving front node.\nEmpty list is " + l);
    if (l.head != null) {
      System.out.println("head is wrong.");
    }
    if (l.tail != null) {
      System.out.println("tail is wrong.");
    }
    if (l.size != 0) {
      System.out.println("size is wrong.");
    }

    l.removeFront();
    System.out.println("\nRemoving front node.\nEmpty list is " + l);
    if (l.head != null) {
      System.out.println("head is wrong.");
    }
    if (l.tail != null) {
      System.out.println("tail is wrong.");
    }
    if (l.size != 0) {
      System.out.println("size is wrong.");
    }
  }

}
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运行结果:

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循环链表:

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package lab4;

/* DList2.java */

/**
 *  A DList2 is a mutable doubly-linked list.  Its implementation is
 *  circularly-linked and employs a sentinel (dummy) node at the head
 *  of the list.
 */

public class DList2 {

  /**
   *  head references the sentinel node.
   *
   *  DO NOT CHANGE THE FOLLOWING FIELD DECLARATIONS.
   */

  protected DListNode2 head;
  protected long size;

  /* DList2 invariants:
   *  1)  head != null.
   *  2)  For any DListNode2 x in a DList2, x.next != null.
   *  3)  For any DListNode2 x in a DList2, x.prev != null.
   *  4)  For any DListNode2 x in a DList2, if x.next == y, then y.prev == x.
   *  5)  For any DListNode2 x in a DList2, if x.prev == y, then y.next == x.
   *  6)  size is the number of DListNode2s, NOT COUNTING the sentinel
   *      (denoted by "head"), that can be accessed from the sentinel by
   *      a sequence of "next" references.
   */

  /**
   *  DList2() constructor for an empty DList2.
   */
  public DList2() {
    head = new DListNode2();
    head.item = Integer.MIN_VALUE;
    head.next = head;
    head.prev = head;
    size = 0;
  }

  /**
   *  DList2() constructor for a one-node DList2.
   */
  public DList2(int a) {
    head = new DListNode2();
    head.item = Integer.MIN_VALUE;
    head.next = new DListNode2();
    head.next.item = a;
    head.prev = head.next;
    head.next.prev = head;
    head.prev.next = head;
    size = 1;
  }

  /**
   *  DList2() constructor for a two-node DList2.
   */
  public DList2(int a, int b) {
    head = new DListNode2();
    head.item = Integer.MIN_VALUE;
    head.next = new DListNode2();
    head.next.item = a;
    head.prev = new DListNode2();
    head.prev.item = b;
    head.next.prev = head;
    head.next.next = head.prev;
    head.prev.next = head;
    head.prev.prev = head.next;
    size = 2;
  }

  /**
   *  insertFront() inserts an item at the front of a DList2.
   */
  public void insertFront(int i) {
    DListNode2 newLN=new DListNode2();
    newLN.item=i;
    head.next.prev=newLN;
    newLN.next=head.next;
    newLN.prev=head;
    head.next=newLN;
    size++;
    
    // 新插入的node需要先和head.next建立连接,再和head建立连接,顺序不能颠倒,否则原来的head.next就找不到了。
  }

  /**
   *  removeFront() removes the first item (and first non-sentinel node) from
   *  a DList2.  If the list is empty, do nothing.
   */
  public void removeFront() {
      if(size==0){
          
      }else{    
          head.next.next.prev=head;
          head.next=head.next.next;
          size--;}
/* 此处remove也可以写成
 * head.next=head.next.next;
 * head.next.pre=head;
 * 注意,head永远不可能出现在=的左边,与其他list不同,在有sentinal的链表中head的值是不变的。
 */

  }

  /**
   *  toString() returns a String representation of this DList.
   *
   *  DO NOT CHANGE THIS METHOD.
   *
   *  @return a String representation of this DList.
   */
  public String toString() {
    String result = "[  ";
    DListNode2 current = head.next;
    while (current != head) {
      result = result + current.item + "  ";
      current = current.next;
    }
    return result + "]";
  }

  public static void main(String[] args) {
    // DO NOT CHANGE THE FOLLOWING CODE.

    DList2 l = new DList2();
    System.out.println("### TESTING insertFront ###\nEmpty list is " + l);

    l.insertFront(9);
    System.out.println("\nInserting 9 at front.\nList with 9 is " + l);
    if (l.head.next.item != 9) {
      System.out.println("head.next.item is wrong.");
    }
    if (l.head.next.prev != l.head) {
      System.out.println("head.next.prev is wrong.");
    }
    if (l.head.prev.item != 9) {
      System.out.println("head.prev.item is wrong.");
    }
    if (l.head.prev.next != l.head) {
      System.out.println("head.prev.next is wrong.");
    }
    if (l.size != 1) {
      System.out.println("size is wrong.");
    }

    l.insertFront(8);
    System.out.println("\nInserting 8 at front.\nList with 8 and 9 is " + l);
    if (l.head.next.item != 8) {
      System.out.println("head.next.item is wrong.");
    }
    if (l.head.next.prev != l.head) {
      System.out.println("head.next.prev is wrong.");
    }
    if (l.head.prev.item != 9) {
      System.out.println("head.prev.item is wrong.");
    }
    if (l.head.prev.next != l.head) {
      System.out.println("head.prev.next is wrong.");
    }
    if (l.head.next.next != l.head.prev) {
      System.out.println("l.head.next.next != l.head.prev.");
    }
    if (l.head.prev.prev != l.head.next) {
      System.out.println("l.head.prev.prev != l.head.next.");
    }
    if (l.size != 2) {
      System.out.println("size is wrong.");
    }



    l = new DList2(1, 2);
    System.out.println("\n\n### TESTING removeFront ###\nList with 1 and 2 is "
                       + l);

    l.removeFront();
    System.out.println("\nList with 2 is " + l);
    if (l.head.next.item != 2) {
      System.out.println("head.next.item is wrong.");
    }
    if (l.head.next.prev != l.head) {
      System.out.println("head.next.prev is wrong.");
    }
    if (l.head.prev.item != 2) {
      System.out.println("head.prev.item is wrong.");
    }
    if (l.head.prev.next != l.head) {
      System.out.println("head.prev.next is wrong.");
    }
    if (l.size != 1) {
      System.out.println("size is wrong.");
    }

    l.removeFront();
    System.out.println("\nEmpty list is " + l);
    if (l.head.next != l.head) {
      System.out.println("head.next is wrong.");
    }
    if (l.head.prev != l.head) {
      System.out.println("head.prev is wrong.");
    }
    if (l.size != 0) {
      System.out.println("size is wrong.");
    }

    l.removeFront();
    System.out.println("\nEmpty list is " + l);
    if (l.head.next != l.head) {
      System.out.println("head.next is wrong.");
    }
    if (l.head.prev != l.head) {
      System.out.println("head.prev is wrong.");
    }
    if (l.size != 0) {
      System.out.println("size is wrong.");
    }
  }

}
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lab4