linkedlist: Using the Linked List classes

The following examples show the use of the linked list classes:

Singly linked list example

This example application demonstrates the use of singly linked lists. The templated TSglQue class is used to create a singly linked list.

Download

Click on the following link to download the example: sgllist.zip

Click: browse to view the example.

Description

The example creates a singly linked list of objects of the TDigit class. This list represents a long number. An object of class CLongNumber owns the list. The user can edit this list using the functions defined in the CLongNumber class. The following edit operations are possible:

  • Insert an object of the TDigit class at the start of the singly linked list

  • Insert an object of the TDigit class at the end of the singly linked list

  • Remove an object of the TDigit class from the end of the singly linked list

The user can perform any of these operations by pressing keys specified in the menu. CLongNumber is an active object class and handles the key press events in the CLongNumber::RunL() function.The CLongNumber::ReadFunc() function displays a menu and waits for an asynchronous key press event.

An object of the templated TSglQueIter class is used to traverse this linked list. The sum of all digits of the number represented by the linked list is displayed to the user.

An object of the CAdder class is used to traverse the CLongNumber::iNumber list and print the sum of all digits of the number represented by this list. The CAdder::Add() function gets this sum.

Related APIs

Design and implementation

Figure 1 shows the classes in the example.

Figure: Figure 1. Classes in the singly linked list example

Class summary

Build

For the emulator, the example builds an executable called sgllist.exe in the epoc32\release\winscw\<udeb or urel>\ folder.

See also:

Using Singly Linked Lists

Doubly linked list example

This example application demonstrates the use of doubly linked lists. The templated TDblQue class is used create a doubly linked list.

Download

Click on the following link to download the example: dbllist.zip

Click: browse to view the example code

Description

The example creates a doubly linked list of objects of the TLetter class. This list represents a character string. An object of class CMyStringReverse owns this string. The user can edit this string using the functions defined in the CMyStringReverse class. The following edit operations are possible:

  • Insert a character at the start of the list

  • Insert a character at the end of the list

The user can perform either of these operations by pressing keys specified in the menu. CMyStringReverse is an active object class and handles key press events in the CMyStringReverse::RunL() function. The CMyStringReverse::ReadFunc() function displays a menu and waits for an asynchronous key press event.

The CMyStringReverse class has a doubly linked list iterator, iIteratorString. The iIteratorString object iterates through the list iString from start to end to print the string reversed.

Design and implementation

Figure 2 shows the classes in the example.

Figure: Figure 2. Classes in the doubly linked list example

Class summary

  • TDblQue - A templated class that provides the behaviour for managing a doubly linked list.

Build

For the emulator, the example builds an executable called dbllist.exe in the epoc32\release\winscw\<udeb or urel>\ folder.

See also

Using Doubly Linked Lists

Example code

Delta queue example

This example application demonstrates the use of the delta queue. The templated TDeltaQue class is used create a delta queue.

Download

Click on the following link to download the example: deltaque.zip

Click: browse to view the example code.

Description

The example creates an object of the CTimerEntry class. This is a CTimer derived class. An object of this class generates timer events by using the CTimer::After() function. The data member of this class, iQueue is a delta list. The offset value of each node in this list is the tick count after each timer event. The CTimerEntry::Arbitrator() function decides the action to be performed for each event generated by the timer. It either adds tick counts to the list or removes elements from the list based on the state of the queue.

Related APIs

Design and implementation

Figure 3 shows the classes of the example.

Figure: Figure 3. Classes of the delta queue example

Class summary

Build

For the emulator, the example builds an executable called deltaque.exe in the epoc32\release\winscw\<udeb or urel>\ folder.