Introduction to Exception Handling

using System;

class Program
{
    static int Main()
    {
        double side;

        Console.WriteLine("Square Processing");
        Console.Write("Enter Side: ");
        side = double.Parse(Console.ReadLine());

        Console.WriteLine("\nSquare Characteristics");
        Console.WriteLine("Side:      {0}", side);
        Console.WriteLine("Perimeter: {0}", side * 4);
        return 0;
    }
}

This is a classic easy program. When it comes up, the user is asked to simply type a number. The number would then be multiplied by 4 and display the result. Imagine that a user types something that is not a valid number, such as the name of a country or somebody’s telephone number. Since this program was expecting a number and it is not prepared to multiply a string to a number, it would not know what to do. The only alternative the compiler would have is to send the problem to the operating system, hoping that the OS would know what to do. What actually happens is that, whenever the compiler is handed a task, it would try to perform the assignment. If it can’t perform the assignment, for any reason it is not prepared for, it would produce an error. As a programmer, if you can anticipate the type of error that could occur in your program, you can identify the error yourself and deal with it by telling the compiler what to do when this type of error occurs.

1. Start Microsoft Visual C# and create a Console Application named GeorgetownCleaningServices5
2. To create a new class, in the Solution Explorer, right-click GeorgetownCleaningServices2 -> Add -> Class...
3. Set the Name to CleaningOrderInfo and click OK
4. Change the file as follows:
    

   using System; namespace GeorgetownCleaningServices5 { public class CleaningOrderInfo { // Basic information about an order public string CustomerName; public string HomePhone; public DateTime OrderDate; public DateTime OrderTime; // Unsigned numbers to represent cleaning items public uint NumberOfShirts; public uint NumberOfPants; public uint NumberOfDresses; } }

5. To create a new class, on the main menu, click Project -> Add Class...
6. Set the Name to OrderProcessing and press Enter
7. Change the file as follows:
    

   using System; namespace GeorgetownCleaningServices5 { public class sealed OrderProcessing { #region Objects used to process an order // Price of items const decimal PriceOneShirt = 0.95M; const decimal PriceAPairOfPants = 2.95M; const decimal PriceOneDress = 4.55M; const decimal TaxRate = 0.0575M; // 5.75% CleaningOrderInfo cleaningOrder; // Each of these sub totals will be used for cleaning items private decimal SubTotalShirts; private decimal SubTotalPants; private decimal SubTotalDresses; // Values used to process an order private decimal TotalOrder; private decimal TaxAmount; private decimal SalesTotal; private decimal AmountTended; private decimal Difference; #endregion #region Actions used to process and present an order public OrderProcessing() { cleaningOrder = new CleaningOrderInfo(); } public void ProcessOrder() { Console.WriteLine("-/- Georgetown Cleaning Services -/-"); // Request order information from the user Console.Write("Enter Customer Name: "); cleaningOrder.CustomerName = Console.ReadLine(); Console.Write("Enter Customer Phone: "); cleaningOrder.HomePhone = Console.ReadLine(); Console.Write("Enter the order date(mm/dd/yyyy): "); cleaningOrder.OrderDate = DateTime.Parse(Console.ReadLine()); Console.Write("Enter the order time(hh:mm AM/PM): "); cleaningOrder.OrderTime = DateTime.Parse(Console.ReadLine()); // Request the quantity of each category of items Console.Write("Number of Shirts: "); cleaningOrder.NumberOfShirts = uint.Parse(Console.ReadLine()); Console.Write("Number of Pants: "); cleaningOrder.NumberOfPants = uint.Parse(Console.ReadLine()); Console.Write("Number of Dresses: "); cleaningOrder.NumberOfDresses = uint.Parse(Console.ReadLine()); // Perform the necessary calculations SubTotalShirts = cleaningOrder.NumberOfShirts * PriceOneShirt; SubTotalPants = cleaningOrder.NumberOfPants * PriceAPairOfPants; SubTotalDresses = cleaningOrder.NumberOfDresses * PriceOneDress; // Calculate the "temporary" total of the order TotalOrder = SubTotalShirts + SubTotalPants + SubTotalDresses; // Calculate the tax amount using a constant rate TaxAmount = TotalOrder * TaxRate; // Add the tax amount to the total order SalesTotal = TotalOrder + TaxAmount; // Communicate the total to the user... Console.WriteLine("\nThe Total order is: {0:C}", SalesTotal); // and request money for the order Console.Write("Amount Tended? "); AmountTended = decimal.Parse(Console.ReadLine()); // Calculate the difference owed to the customer // or that the customer still owes to the store Difference = AmountTended - SalesTotal; ShowReceipt(); } private void ShowReceipt() { Console.WriteLine(); // Display the receipt Console.WriteLine("===================================="); Console.WriteLine("-/- Georgetown Cleaning Services -/-"); Console.WriteLine("===================================="); Console.WriteLine("Customer: {0}", cleaningOrder.CustomerName); Console.WriteLine("Home Phone: {0}", cleaningOrder.HomePhone); Console.WriteLine("Order Date: {0:D}", cleaningOrder.OrderDate); Console.WriteLine("Order Time: {0:t}", cleaningOrder.OrderTime); Console.WriteLine("------------------------------------"); Console.WriteLine("Item Type Qty Unit/Price Sub-Total"); Console.WriteLine("------------------------------------"); Console.WriteLine("Shirts {0,3} {1,4} {2,6}", cleaningOrder.NumberOfShirts, PriceOneShirt, SubTotalShirts); Console.WriteLine("Pants {0,3} {1,4} {2,6}", cleaningOrder.NumberOfPants, PriceAPairOfPants, SubTotalPants); Console.WriteLine("Dresses {0,3} {1,4} {2,6}", cleaningOrder.NumberOfDresses, PriceOneDress, SubTotalDresses); Console.WriteLine("------------------------------------"); Console.WriteLine("Total Order: {0,6}", TotalOrder.ToString("C")); Console.WriteLine("Tax Rate: {0,6}", TaxRate.ToString("P")); Console.WriteLine("Tax Amount: {0,6}", TaxAmount.ToString("C")); Console.WriteLine("Net Price: {0,6}", SalesTotal.ToString("C")); Console.WriteLine("------------------------------------"); Console.WriteLine("Amount Tended: {0,6}", AmountTended.ToString("C")); Console.WriteLine("Difference: {0,6}", Difference.ToString("C")); Console.WriteLine("===================================="); } #endregion } }

8. Access the program.cs file and change it as follows:
    

   using System; namespace GeorgetownCleaningServices5 { class Program { static int Main() { OrderProcessing Order = new OrderProcessing(); Order.ProcessOrder(); return 0; } } }

9. Execute the application and test it. Here is an example:
    

   -/- Georgetown Cleaning Services -/- Enter Customer Name: Peter Moonstruck Enter Customer Phone: (301) 728-8830 Enter the order date(mm/dd/yyyy): 04/22/2006 Enter the order time(hh:mm AM/PM): 08:46 Number of Shirts: 5 Number of Pants: 2 Number of Dresses: 3 The Total order is: $25.70 Amount Tended? 30 ==================================== -/- Georgetown Cleaning Services -/- ==================================== Customer: Peter Moonstruck Home Phone: (301) 728-8830 Order Date: Saturday, April 22, 2006 Order Time: 8:46 AM ------------------------------------ Item Type Qty Unit/Price Sub-Total ------------------------------------ Shirts 5 0.95 4.75 Pants 2 2.95 5.90 Dresses 3 4.55 13.65 ------------------------------------ Total Order: $24.30 Tax Rate: 5.75 % Tax Amount: $1.40 Net Price: $25.70 ------------------------------------ Amount Tended: $30.00 Difference: $4.30 ==================================== Press any key to continue . . .

10. Close the DOS window

An exception is an unusual situation that could occur in your program. As a programmer, you should anticipate any abnormal behavior that could be caused by the user entering wrong information that could otherwise lead to unpredictable results. The ability to deal with a program’s eventual abnormal behavior is called exception handling. C# provides three keywords to handle an exception.

1. Trying the normal flow: To deal with the expected behavior of a program, use the try keyword as in the following syntax:
   
   try {Behavior}
   
   The try keyword is required. It lets the compiler know that you are attempting a normal flow of the program. The actual behavior that needs to be evaluated is included between an opening curly bracket “{“ and a closing curly bracket “}”. Inside of the brackets, implement the normal flow that the program must follow, at least for this section of the code. Here is an example:
    

   using System; class Program { static int Main() { double side; Console.WriteLine("Square Processing"); try { Console.Write("Enter Side: "); side = double.Parse(Console.ReadLine()); Console.WriteLine("\nSquare Characteristics"); Console.WriteLine("Side: {0}", side); Console.WriteLine("Perimeter: {0}", side * 4); } return 0; } }

2. Catching Errors: During the flow of the program as part of the try section, if an abnormal behavior occurs, instead of letting the program crash or instead of letting the compiler send the error to the operating system, you can transfer the flow of the program to another section that can deal with it. The syntax used by this section is:
   
   catch {WhatToDo}

   This section always follows the try section. There must not be any code between the try’s closing bracket and the catch section. The catch keyword is required and follows the try section. Combined with the try block, the syntax of an exception would be:
    

   try { // Try the program flow } catch { // Catch the exception }

   
   A program that includes a catch section would appear as follows:
    

   using System; public class Exercise { static int Main() { double Number; try { Console.Write("Type a number: "); Number = double.Parse(Console.ReadLine()); Console.WriteLine("\n{0} * 2 = {1}", Number, Number * 2); } catch { } return 0; } }

1. To introduce exceptions, access the OrderProcessing.cs file and change it as follows:
    

   using System; namespace GeorgetownCleaningServices5 { class OrderProcessing { . . . No Change public void ProcessOrder() { . . . No Change // Request the quantity of each category of items try { Console.Write("Number of Shirts: "); Order.NumberOfShirts = uint.Parse(Console.ReadLine()); } catch { } try { Console.Write("Number of Pants: "); Order.NumberOfPants = uint.Parse(Console.ReadLine()); } catch { } try { Console.Write("Number of Dresses: "); Order.NumberOfDresses = uint.Parse(Console.ReadLine()); } catch { } . . . No Change // and request money for the order try { Console.Write("Amount Tended? "); AmountTended = decimal.Parse(Console.ReadLine()); } catch { } // Calculate the difference owed to the customer // or that the customer still owes to the store Difference = AmountTended - SalesTotal; ShowReceipt(); } private void ShowReceipt() { . . . No Change } } }

2. Execute the application to test it
3. Close the DOS window

As mentioned already, if an error occurs when processing the program in the try section, the compiler transfers the processing to the next catch section. You can then use the catch section to deal with the error. At a minimum, you can display a message to inform the user. Here is an example:

using System;

class Program
{
    static int Main()
    {
        double side;

        Console.WriteLine("Square Processing");
        try
        {
            Console.Write("Enter Side: ");
            side = double.Parse(Console.ReadLine());

            Console.WriteLine("\nSquare Characteristics");
            Console.WriteLine("Side:      {0}", side);
            Console.WriteLine("Perimeter: {0}", side * 4);
        }
        catch
        {
            Console.WriteLine("There was a problem with the program");
        }

        return 0;
    }
}

Here is an error of running the program:

Square Processing
Enter Side: w4
There was a problem with the program
Press any key to continue . . .

Of course, this type of message is not particularly clear but this time, the program will not crash. In the next sections, we will learn better ways of dealing with the errors and the messages.

1. To display custom messages to the user, change the OrderProcessing.cs file as follows:
    

   using System; namespace GeorgetownCleaningServices5 { class OrderProcessing { . . . No Change public void ProcessOrder() { . . . No Change // Request the quantity of each category of items try { Console.Write("Number of Shirts: "); Order.NumberOfShirts = uint.Parse(Console.ReadLine()); } catch { Console.WriteLine("The value you typed for the number of " + "shirts is not a valid number"); } try { Console.Write("Number of Pants: "); Order.NumberOfPants = uint.Parse(Console.ReadLine()); } catch { Console.WriteLine("The value you typed for the number of " + "pair or pants is not a valid number"); } try { Console.Write("Number of Dresses: "); Order.NumberOfDresses = uint.Parse(Console.ReadLine()); } catch { Console.WriteLine("The value you typed for the number of " + "dresses is not a valid number"); } . . . No Change try { Console.Write("Amount Tended? "); AmountTended = decimal.Parse(Console.ReadLine()); } catch { Console.WriteLine( "You were asked to enter an amount of money but..."); } // Calculate the difference owed to the customer // or that the customer still owes to the store Difference = AmountTended - SalesTotal; ShowReceipt(); } private void ShowReceipt() { . . . No Change } } }

2. Execute the application to test it. Here is an example:
    

   -/- Georgetown Cleaning Services -/- Enter Customer Name: Alexandria Enter Customer Phone: (102) 797-8382 Enter the order date(mm/dd/yyyy): 04/02/2001 Enter the order time(hh:mm AM/PM): 09:22 AM Number of Shirts: 6 Number of Pants: W The value you typed for the number of pair or pants is not a valid number Number of Dresses: 5 The Total order is: $30.09 Amount Tended? _100D You were asked to enter an amount of money but... ==================================== -/- Georgetown Cleaning Services -/- ==================================== Customer: Alexandria Home Phone: (102) 797-8382 Order Date: Monday, April 02, 2001 Order Time: 9:22 AM ------------------------------------ Item Type Qty Unit/Price Sub-Total ------------------------------------ Shirts 6 0.95 5.70 Pants 0 2.95 0 Dresses 5 4.55 22.75 ------------------------------------ Total Order: $28.45 Tax Rate: 5.75 % Tax Amount: $1.64 Net Price: $30.09 ------------------------------------ Amount Tended: $0.00 Difference: ($30.09) ====================================

3. Close the DOS window

In traditionally-oriented error dealing languages such as C/C++, Object Pascal, or Visual Basic, you could create any exception of your choice, including numeric or strings. To customize exception handling, you could also create your own class(es). Most libraries such as Borland's VCL and Microsoft's MFC also shipped with their own classes to handle exceptions. Even the Win32 library provides its type of mechanism to face errors. To support exception handling, the .NET Framework provides a special class called Exception. Once the compiler encounters an error, the Exception class allows you to identify the type of error and take an appropriate action.

Normally, Exception mostly serves as the general class of exceptions. Anticipating various types of problems that can occur in a program, Microsoft derived various classes from Exception to make this issue friendlier. As a result, almost any type of exception you may encounter already has a class created to deal with it. Therefore, when your program faces an exception, you can easily identify the type of error. There are so many exception classes that we cannot study or review them all. The solution we will use is to introduce or review a class when we meet its type of error.

In exception handling, errors are dealt with in the catch section. To do this, use catch as if it were a method. This means that, on the right side of catch, open a parenthesis, declare a variable of the type of exception you want to deal with. By default, an exception is first of type Exception. Based on this, a typical formula to implement exception handling is:

try
{
    // Process the normal flow of the program here
}
catch(Exception e)
{
    // Deal with the exception here
}

When an exception occurs in the try section, code compilation is transferred to the catch section. If you declare the exception as an Exception type, this class will identify the error. One of the properties of the Exception class is called Message. This property contains a string that describes the type of error that occurred. You can then access this Exception.Message property to display an error message if you want. Here is an example:

using System;

class Program
{
    static int Main()
    {
        double side;

        Console.WriteLine("Square Processing");
        try
        {
            Console.Write("Enter Side: ");
            side = double.Parse(Console.ReadLine());

            Console.WriteLine("\nSquare Characteristics");
            Console.WriteLine("Side:      {0}", side);
            Console.WriteLine("Perimeter: {0}", side * 4);
        }
        catch(Exception ex)
        {
            Console.WriteLine(ex.Message);
        }

        return 0;
    }
}

Here is an example of running the program:

Square Processing
Enter Side: Wer24
Input string was not in a correct format.
Press any key to continue . . .

As you can see, one of the strengths of the Exception.Message property is that it gives you a good indication of the type of problem that occurred. Sometimes, the message provided by the Exception class may not appear explicit enough. In fact, you may not want to show it to the user since, as in this case, the user may not understand what the expression "correct format" in this context means and why it is being used. As an alternative, you can create your own message and display it to the user. Here is an example:

using System;

class Program
{
    static int Main()
    {
        double side;

        Console.WriteLine("Square Processing");
        try
        {
            Console.Write("Enter Side: ");
            side = double.Parse(Console.ReadLine());

            Console.WriteLine("\nSquare Characteristics");
            Console.WriteLine("Side:      {0}", side);
            Console.WriteLine("Perimeter: {0}", side * 4);
        }
        catch(Exception ex)
        {
            Console.WriteLine("The operation could not be carried because " +
                              "the number you typed is not valid");
        }

        return 0;
    }
}

Here is an example of running the program:

Square Processing
Enter Side: 24.Gh
The operation could not be carried because the number you typed is not valid
Press any key to continue . . .

You can also combine the Exception.Message message and your own message:

using System;

class Program
{
    static int Main()
    {
        double side;

        Console.WriteLine("Square Processing");
        try
        {
            Console.Write("Enter Side: ");
            side = double.Parse(Console.ReadLine());

            Console.WriteLine("\nSquare Characteristics");
            Console.WriteLine("Side:      {0}", side);
            Console.WriteLine("Perimeter: {0}", side * 4);
        }
        catch(Exception ex)
        {
            Console.Write(ex.Message);
            Console.WriteLine(
		" Consequently, The operation could not be carried because " +
                              "the number you typed is not valid");
        }

        return 0;
    }
}

Here is an example of running the program:

Square Processing
Enter Side: 25.KL48
Input string was not in a correct format.. Consequently, The operation could not
 be carried because the number you typed is not valid
Press any key to continue . . .

The .NET Framework provides various classes to handle almost any type of exception you can think of. There are so many of these classes that we can only mention the few that we regularly use in our application.

There are two main ways you can use one of the classes of the .NET Framework. If you know for sure that a particular exception will be produced, pass its name to the catch() clause. You don't have to name the argument. Then, in the catch() section, display a custom message. The second option you have consists of using the throw keyword. We will study it later.

From now on, we will try to always indicate the type of exception that could be thrown if something goes wrong in a program

When studying data formatting in Lesson 5, we saw that everything the user types into an application using the keyboard is primarily a string and that you must convert it to the appropriate type before using it. When you request a specific type of value from the user, after the user has typed it and you decide to convert it to the appropriate type, if your conversion fails, the program produces an error. The error is of the FormatException class.

Here is a program that deals with a FormatException exception:

using System;

class Program
{
    static int Main()
    {
        double side;

        Console.WriteLine("Square Processing");
        try
        {
            Console.Write("Enter Side: ");
            side = double.Parse(Console.ReadLine());

            Console.WriteLine("\nSquare Characteristics");
            Console.WriteLine("Side:      {0}", side);
            Console.WriteLine("Perimeter: {0}", side * 4);
        }
        catch(FormatException)
        {
            Console.WriteLine("\nYou typed an invalid number");
        }

        return 0;
    }
}

Here is an example of running the program:

Square Processing
Enter Side: 25.9G

You typed an invalid number
Press any key to continue . . .

1. Change the OrderProcessing.cs file as follows (this includes the complete current version of the file):
    

   using System; namespace GeorgetownCleaningServices5 { class OrderProcessing { #region Objects used to process an order // Price of items const decimal PriceOneShirt = 0.95M; const decimal PriceAPairOfPants = 2.95M; const decimal PriceOneDress = 4.55M; const decimal TaxRate = 0.0575M; // 5.75% CleaningOrderInfo cleaningOrder; // Each of these sub totals will be used for cleaning items private decimal SubTotalShirts; private decimal SubTotalPants; private decimal SubTotalDresses; // Values used to process an order private decimal TotalOrder; private decimal TaxAmount; private decimal SalesTotal; private decimal AmountTended; private decimal Difference; #endregion #region Actions used to process and present an order public OrderProcessing() { cleaningOrder = new CleaningOrderInfo(); } public void ProcessOrder() { Console.WriteLine("-/- Georgetown Cleaning Services -/-"); // Request order information from the user Console.Write("Enter Customer Name: "); cleaningOrder.CustomerName = Console.ReadLine(); Console.Write("Enter Customer Phone: "); cleaningOrder.HomePhone = Console.ReadLine(); try { Console.Write("Enter the order date(mm/dd/yyyy): "); cleaningOrder.OrderDate = DateTime.Parse(Console.ReadLine()); } catch (FormatException) { Console.WriteLine("The value you entered is not a valid date"); } try { Console.Write("Enter the order time(hh:mm AM/PM): "); cleaningOrder.OrderTime = DateTime.Parse(Console.ReadLine()); } catch { Console.WriteLine("The value you entered is not a valid time"); } // Request the quantity of each category of items try { Console.Write("Number of Shirts: "); cleaningOrder.NumberOfShirts = uint.Parse(Console.ReadLine()); if (cleaningOrder.NumberOfShirts < uint.MinValue) throw new OverflowException("Negative value not " + "allowed for shirts"); } catch (FormatException) { Console.WriteLine("The value you typed for the number of " + "shirts is not a valid number"); } try { Console.Write("Number of Pants: "); cleaningOrder.NumberOfPants = uint.Parse(Console.ReadLine()); } catch(FormatException) { Console.WriteLine("The value you typed for the number of " + "pair or pants is not a valid number"); } try { Console.Write("Number of Dresses: "); cleaningOrder.NumberOfDresses = uint.Parse(Console.ReadLine()); } catch(FormatException) { Console.WriteLine("The value you typed for the number of " + "dresses is not a valid number"); } // Perform the necessary calculations SubTotalShirts = cleaningOrder.NumberOfShirts * PriceOneShirt; SubTotalPants = cleaningOrder.NumberOfPants * PriceAPairOfPants; SubTotalDresses = cleaningOrder.NumberOfDresses * PriceOneDress; // Calculate the "temporary" total of the order TotalOrder = SubTotalShirts + SubTotalPants + SubTotalDresses; // Calculate the tax amount using a constant rate TaxAmount = TotalOrder * TaxRate; // Add the tax amount to the total order SalesTotal = TotalOrder + TaxAmount; // Communicate the total to the user... Console.WriteLine("\nThe Total order is: {0:C}", SalesTotal); // and request money for the order try { Console.Write("Amount Tended? "); AmountTended = decimal.Parse(Console.ReadLine()); } catch(FormatException) { Console.WriteLine("You were asked to enter an " + "amount of money but..."); } // Calculate the difference owed to the customer // or that the customer still owes to the store Difference = AmountTended - SalesTotal; ShowReceipt(); } private void ShowReceipt() { Console.WriteLine(); // Display the receipt Console.WriteLine("===================================="); Console.WriteLine("-/- Georgetown Cleaning Services -/-"); Console.WriteLine("===================================="); Console.WriteLine("Customer: {0}", cleaningOrder.CustomerName); Console.WriteLine("Home Phone: {0}", cleaningOrder.HomePhone); Console.WriteLine("Order Date: {0:D}", cleaningOrder.OrderDate); Console.WriteLine("Order Time: {0:t}", cleaningOrder.OrderTime); Console.WriteLine("------------------------------------"); Console.WriteLine("Item Type Qty Unit/Price Sub-Total"); Console.WriteLine("------------------------------------"); Console.WriteLine("Shirts {0,3} {1,4} {2,6}", cleaningOrder.NumberOfShirts, PriceOneShirt, SubTotalShirts); Console.WriteLine("Pants {0,3} {1,4} {2,6}", cleaningOrder.NumberOfPants, PriceAPairOfPants, SubTotalPants); Console.WriteLine("Dresses {0,3} {1,4} {2,6}", cleaningOrder.NumberOfDresses, PriceOneDress, SubTotalDresses); Console.WriteLine("------------------------------------"); Console.WriteLine("Total Order: {0,6}", TotalOrder.ToString("C")); Console.WriteLine("Tax Rate: {0,6}", TaxRate.ToString("P")); Console.WriteLine("Tax Amount: {0,6}", TaxAmount.ToString("C")); Console.WriteLine("Net Price: {0,6}", SalesTotal.ToString("C")); Console.WriteLine("------------------------------------"); Console.WriteLine("Amount Tended: {0,6}", AmountTended.ToString("C")); Console.WriteLine("Difference: {0,6}", Difference.ToString("C")); Console.WriteLine("===================================="); } #endregion } }

2. Execute the application and test it. Here is an example:
    

   -/- Georgetown Cleaning Services -/- Enter Customer Name: Allen Dons Enter Customer Phone: 202-442-0400 Enter the order date(mm/dd/yyyy): 7/14/2005 Enter the order time(hh:mm AM/PM): 8:46 AM Number of Shirts: 5 Number of Pants: 2 Number of Dresses: 0 The Total order is: $11.26 Amount Tended? 15 ==================================== -/- Georgetown Cleaning Services -/- ==================================== Customer: Allen Dons Home Phone: 202-442-0400 Order Date: Thursday, July 14, 2005 Order Time: 8:46 AM ------------------------------------ Item Type Qty Unit/Price Sub-Total ------------------------------------ Shirts 5 0.95 4.75 Pants 2 2.95 5.90 Dresses 0 4.55 0.00 ------------------------------------ Total Order: $10.65 Tax Rate: 5.75 % Tax Amount: $0.61 Net Price: $11.26 ------------------------------------ Amount Tended: $15.00 Difference: $3.74 ==================================== Press any key to continue . . .

3. Close the DOS window

A computer application receives, processes, and produces values on a regular basis as the program is running. To better manage these values, as we saw when studying variables and data types in Lesson 1 and Lesson 2, the compiler uses appropriate amounts of space to store its values. It is not unusual that either you the programmer or a user of your application provides an value that is beyond the allowed range based on the data type. For example, we saw that a byte uses 8 bits to store a value and a combination of 8 bits can store a number no more than 255. If you provide a value higher than 255 to be stored in a byte, you get an error. Consider the following program:

using System;

// An Exercise class
class Exercise
{ 
    static int Main()
    {
	byte NumberOfPages;

	Console.Write("Enter the number of pages of the newspaper: ");
	NumberOfPages = byte.Parse(Console.ReadLine());

	Console.WriteLine("Number of Pages of the Newspaper: {0}\n", NumberOfPages);
    }

    return 0;
}

When a value beyond the allowable range is asked to be stored in memory, the compiler produces (the expression is "throws" as we will learn soon) an error of the OverflowException class. Here is an example of running the program:

Enter the number of pages of the newspaper: 824

Unhandled Exception: System.OverflowException: Value was either too large or too
 small for an unsigned byte.
   at System.Byte.Parse(String s, NumberStyles style, IFormatProvider provider)
   at System.Byte.Parse(String s)
   at Exercise.Main() in c:\programs\msvcs .net 2003\project17\exercise.cs:line
11

As with the other errors, when this exception is thrown, you should take an appropriate action.

Once again, when studying the techniques of converting or formatting values in Lesson 5, we saw that a value was passed to the Parse() method of its data type for analysis. For a primitive data type, the Parse() method scans the string and if the string cannot be converted into a valid value, the compiler usually produces a FormatException exception as we saw above. Other classes such as DateTime also use a Parse() method to scan the value submitted to it. For example, if you request a date value from the user, the DateTime.Parse() method scans the string to validate it. In US English, Parse() expects the user to type a string in the form m/d/yy or mm/dd/yy or mm/dd/yyyy. Consider the following program:

using System;

// An Exercise class
class Exercise
{ 
    static int Main()
    {
	DateTime DateHired;

	Console.Write("Enter Date Hired: ");
	DateHired = DateTime.Parse(Console.ReadLine());

	Console.WriteLine("Date Hired: {0:d}\n", DateHired);

	return 0;
    }
}

If the user types a value that cannot be converted into a valid date, the compiler produces an ArgumentOutOfRangeException exception. Here is an example of running the above program:

Enter Date Hired: 1244/04/258

Unhandled Exception: System.FormatException: 
	String was not recognized as a valid DateTime.
   at System.DateTimeParse.Lex(Int32 dps, __DTString str, DateTimeToken dtok, 
DateTimeRawInfo raw, DateTimeResult result, DateTimeFormatInfo& dtfi)
   at System.DateTimeParse.Parse(String s, 
	DateTimeFormatInfo dtfi, DateTimeStyles styles)
   at System.DateTime.Parse(String s, IFormatProvider provider, DateTimeStyles styles)
   at System.DateTime.Parse(String s, IFormatProvider provider)
   at System.DateTime.Parse(String s)
   at Exercise.Main() in c:\programs\msvcs .net 2003\project17\exercise.cs:line 11

One way you can avoid this is to guide the user but still take appropriate actions.

Division by zero is an operation to always avoid. It is so important that it is one of the most fundamental exceptions of the computer. It is addressed at the core level even by the Intel and AMD processors. It is also addressed by the operating systems at their level. It is also addressed by most, if not all, compilers. It is also addressed by most, if not all, libraries. This means that this exception is never welcomed anywhere. The .NET Framework also provides it own class to face this operation.

If an attempt to divide a value by 0 is performed, the compiler produces a DivideByZeroException exception.