linked lists ii doubly linked lists

1

Linked Lists IIDoubly Linked Lists

Chapter 3

2

Objectives

You will be able to: Describe, implement, and use a Doubly

Linked List of integers.

3

Some Issues Issues in current implementation:

Inserting and deleting at either end of the list requires special case code.

Empty list requires special case code. First node and last node are different from other

nodes. deleteFromTail is inefficient

Requires scanning entire list.

Solution: Doubly linked list with node as list head. (Not in book!)

4

Some Other Issues Issues in current implementation:

No way to retrieve a specified node. No way to insert in order. No way to traverse the list.

Solution: Add new methods.

5

Each node has a pointer to the next node and a pointer to the previous node. Section 3.2 in the textbook.

Version in the book still has pointers to the head and tail as members of the list class.

Requires special case code for adding and deleting at the head and the tail.

Doubly Linked List

Figure 3.9

6

Doubly Linked List with List Head Node

We can avoid all special case code by using a Node object as a List Head. Next pointer points to first element of

List. Prev pointer points to last element of

List If List is empty, both point to the List

Head.

7

Doubly Linked List with List Head Node

With a Node as List Head, all nodes in the list are alike. Each node has a Node as next. Each node has a Node as prev. No pointer is ever null.

An empty list is not a special case. There is still a List Head Node, with next and

prev pointers.

The same Insert and Delete code works for all cases!

8

Download Download example from last

class.

http://www.cse.usf.edu/~turnerr/Data_Structures/Downloads/2011_01_12_Singly_Linked_List/

File intSLLst.zip

9

Download example from last class

10

Download example from last class

11

Expand the .zip fileRight click the .zip file icon.

12

Expand the .zip file

13

Select Destination for Expanded File

14

Extraction Complete

15

Downloaded Folder Expanded

Drill down.

16

The Solution Folder

Double click the .sln file to open the solution in Visual Studio

17

Open in Visual Studio

Rebuild solution and test.Be sure we have a known starting point.

18

Program in Action

Now let's modify the list to be a doubly linked list with Listhead Node.

19

Add Class intDLList

20

Add Class intDLList

21

Add Class intDLList

22

Defining Class intDLList Copy intSLLst.h as initial version of

intDLList.h.

Update class names and guard. Add prev pointer to Node class.

23

intDLList.h#pragma once//************************ intDLList.h ***************// Doubly-linked list class to store integers

class IntDLLNode {public: int info; class IntDLLNode *next; class IntDLLNode *prev;

IntDLLNode(int el, IntDLLNode *ptr1 = 0, IntDLLNode *ptr2 = 0) { info = el; next = ptr1; prev = ptr2; }};

intDLList.hclass IntDLList {public: IntDLList(); ~IntDLList(); int isEmpty() const { return ListHead->next == ListHead; } void addToHead(int); void addToTail(int); int deleteFromHead(); // delete the head and return its info; int deleteFromTail(); // delete the tail and return its info; void deleteNode(int); bool isInList(int) const; void printAll() const;

private: IntDLLNode* ListHead;};

25

main.cpp Update list class.

Comment out most of body So that we can compile before adding

all methods to IntDLList.cpp

26

main.cpp#include <iostream>#include "intDLList.h"using namespace std;

int main(){ IntDLList myList;

//myList.addToHead(3); //myList.addToHead(2); //myList.addToHead(1); //myList.addToHead(0);

//cout << "Initial List:\n"; //myList.printAll();

//while (!myList.isEmpty()) //{ ... //} cin.get(); // Hold window open.}

27

Implementing Class intDLList Start by adding constructor and

destructor to intDLList.cpp

Add remaining methods one at a time.

Build after adding each method

28

Constructor

//************************ intDLList.cpp *************#include <iostream>#include "intDLList.h"

using namespace std;

IntDLList::IntDLList(){ ListHead = new IntDLLNode(0); ListHead->next = ListHead; ListHead->prev = ListHead;}

IntDLList::~IntDLList(void){}

Build

29

addToHead

void IntDLList::addToHead(int el) { IntDLLNode *p = new IntDLLNode(el);

p->next = ListHead->next; p->prev = ListHead;

ListHead->next->prev = p; ListHead->next = p;}

Build

30

addToTail

void IntDLList::addToTail(int el) { IntDLLNode *p = new IntDLLNode(el);

p->next = ListHead; p->prev = ListHead->prev;

ListHead->prev->next = p; ListHead->prev = p;}

31

deleteFromHeadint IntDLList::deleteFromHead() { if (isEmpty()) { throw("Attempt to delete from empty list"); } int el = ListHead->next->info;

IntDLLNode *tmp = ListHead->next; ListHead->next->next->prev = ListHead; ListHead->next = ListHead->next->next;

delete tmp; return el;}

32

deleteFromTailint IntDLList::deleteFromTail() { if (isEmpty()) { throw("Attempt to delete from empty list"); } int el = ListHead->prev->info;

IntDLLNode *tmp = ListHead->prev; tmp->prev->next = ListHead; ListHead->prev = tmp->prev;

delete tmp; return el;}

33

deleteNode// Delete node with a specified valuevoid IntDLList::deleteNode(int el) { IntDLLNode *p = ListHead->next; while (p != ListHead && p->info != el) { p = p->next; }

if (p == ListHead) { return; // It's not there. Claim success! }

// p points to node to be deleted. p->prev->next = p->next; p->next->prev = p->prev; delete p;}

34

isInListbool IntDLList::isInList(int el) const { IntDLLNode *p = ListHead->next; while (p != ListHead && p->info != el) { p = p->next; }

return p != ListHead;}

35

printAllvoid IntDLList::printAll() const { if (isEmpty())

{ cout << "List is empty\n"; return; }

IntDLLNode *p = ListHead->next; while (p != ListHead) { cout << p->info << " "; p = p->next; } cout << endl;}

36

Destructor

Add following the constructor:IntDLList::~IntDLList(void){ while (!isEmpty()) { deleteFromTail(); } delete ListHead;}

main.cpp#include <iostream>#include "intDLList.h"

using namespace std;

int main(){ IntDLList myList;

myList.addToHead(3); myList.addToHead(2); myList.addToHead(1); myList.addToHead(0);

cout << "Initial List:\n"; myList.printAll();

while (!myList.isEmpty()) { cout << "Deleting head node\n"; myList.deleteFromHead(); cout << "Current List:\n"; myList.printAll(); } cin.get(); // Hold window open.}

38

Program Running

39

Check Error Handling

cout << "\nCalling deleteFromHead for empty list\n"; cout << "This should output an error message\n\n"; try { myList.deleteFromHead(); } catch (const char* err) { cout << err << endl; } cout << "\nTest complete\n";

40

Program Running

41

Test Thoroughly

We need to test the class code much more thoroughly.

Call every method. Set up potential special cases.

Empty List Exactly one node. Multiple nodes