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General Instructions This practical task introduces you to error handling and covers several most common .NET Framework exception types that you will likely encounter as
General Instructions This practical task introduces you to error handling and covers several most common .NET Framework exception types that you will likely encounter as soon as you start developing larger applications. Exceptions that you will meet in practice can be thrown either by the runrirne or the application's code. The latter case represents a class of exceptions that are defined by the application's developer. Some exceptions can be caused by a faulty program code, while other exceptions can result from an incorrect input that has not been accounted for in the application's code. When any of these errors occur, the system catches the error and raises an exception. The process of generating and signalling an error is referred to as throwfng an exception. This is done using the Throw keyword followed bya new instance ofa class derived [inherited] from System . Exceut ion. There are Rondo-rd exception type: provided by the .NET frameworkthat you can use rather than creatingo custom exception. Remember that execution failure occurs whenever a program for its part] cannot do what it was designed to do. For example; if the OpenFile method cannot return a le handler to the caller, it would be considered an execution failure. Exceptions are the primary means of reporting errors in applications. Therefore, you must adhere to a number of rules when you throw or handle exceptions. Here are several basic rules that you should follow and always think about them when you work on your application. Report execution failures by throwing exceptions. Do not use exceptions for the normal owofconrrof, if possible. Consider terminating the program by calling System. Environment . FailFast method instead of throwing an exception if your code encounters a situation where it is unsafe for further execution. Consider the performance implications of throwing exceptions. Throw rates above 100 per second are likely to noticeably impact the performance of most applications. Do not have public members that can either throw or not based on some option. Do not have public members that return exceptions as the return value. Do not throw exceptions from exception filter blocks tie the 'cotcl'r' block of the \"Inf-cm statement]. Avoid explicitly throwing exceptions from WNW blocks. This list is by no means exhaustive and there are more rules and strategies. Remember that exception handling is an art which once you master grants you immense powers. 1. Start this practical task with watching lecture 3. In this task; you will need to conduct a small research about every exception presented in the following list: a] NullReferenceException f] ArgumentNullException b] lndexOutOfltangeException g] ArgumentOutOfFlangeException c] StackverflowException h] FormatException d] CutofMemoryException i] ArgumentException e] DiyideByZeroException j] SystemException In Section 9 of SIT232 Workbook, you will nd a general information on how to catch and trundle exceptions along with some details on the above exceptions. These exceptions are also briey described and exemplified in the lecture notes for week El [you though are not allowed to copy the examples from the lecture into your solution]. However; you will still need to do search in the Internet to gather more details about their usage. We also recommend you to refer to the .NET Framework reference 1 SIT232 Object-Oriented Development Trimester 2, 2023 documentation, which is rich of various examples. Finally, do not forget to look at the references at the bottom of this task. The expected solution for this task must consist of two parts: a program code that creates a situation that generates each of the above exceptions and a text report that explains in your own words the facts you found. As the result of your study, your report must answer the following questions and discuss the related issues for each of the above exceptions. - What is a possible situation that leads to the exception? Who is in charge of throwing the exception: you as a programmer or the runtime system? In theory, should you throw exceptions of this type? Explain your answer. - If you need to throw the exception, what details would you provide as a message to the user (caller)? What parameters would you include in the message? Can the exception be generally caught (and therefore handled)? - If the exception occurs, should you generally catch this exception type or is it better to pass such exception to the user (caller)? It is not enough to say yes or no; you must provide an argument to support your answer. - Is the exception a case when you want to avoid this exception to occur in your application in general? If so, what would be your actions as a programmer to avoid it? Note that you must check whether all the above questions are actually relevant to a particular exception that you consider. Remember that some exceptions are reserved and are to be thrown only by the runtime system; in most cases they need to indicate a serious runtime problem. Other exceptions can be programmer-defined and report about an incorrect input data or anticipated application failures. Thus, some exceptions you can avoid by doing a proper argument checking. So, to answer these questions correctly, you will have to focus on multiple implementation aspects and potential situations associated with each exception type. 2. The following is an illustrative example of how your solution may look like. Here, we discuss the InvalidOperationException type and give a sample code that throws it. This exception type is thrown when a method call is invalid for the object's current state. This, for example, can be caused by changing a collection (e.g., the content of an instance of the List] while iterating it (e.g., via the 'foreach' statement). Programmers can also throw this exception type in cases where they want to signal to their applications that the requested operation through a method call cannot be performed because the object is in an invalid state. (Note that you may meet this exception in the credit Task 4.2 soon.) Consider the following program code: class Account public string FirstName { get; private set; } public string LastName { get; private set; } public int Balance { get; private set; } public Account (string firstName, string lastName, int balance) FirstName = firstMane; LastMane = lastMane; Balance - balance; public void Withdraw( int amount ) if ( amount > Balance ) throw now InvalidOperationException ["Insufficient fund"); Balance - Balance . amount; 2SIT232 Object-Oriented Development Trimester 2, 2023 The code above shows an Account class with properties to hold the account owner's names and account balance. The Withdraw method deducts the withdrawal amount from the balance, and if the withdrawal amount is higher than the balance, it throws an exception - the InvalidOperationException. When the exception is raised, it cancels the withdraw transaction and signals to the application that the account cannot be debited of that amount because of insufficient funds. Thus, the InvalidOperationException exception is thrown in cases where the failure to invoke a method is caused by reasons other than invalid arguments. Because the InvalidoperationException exception can be thrown in a wide variety of circumstances, it is important to read the exception message returned by the Message property. How you handle the exception depends on the specific situation. Most commonly, however, the exception results from your own or user's incorrect actions, and therefore it can be anticipated and avoided. 3. Create a new C# Console Application project and import (replacing the existing file] the Program. cs file attached to this task. The main Program class, and specifically its Main method, should sequentially address every exception from the list via a block off program code (if applicable) placed inside the 'try" section of the respective 'try-catch' statement. For instance, our example given for the InvalidOperationException exception type can be written as follows: try Account account = now Account("Sergey", "P.", 108); account . Withdraw (1080) ; catch (InvalidoperationException exception) Console.WriteLine("The following error detected: " exception.GetType () . ToString()+ " with message \\""+ exception.Message."\\"); This code prints the following message to the terminal: The following error detected: System. InvalidoperationException with message "Insufficient fund" Note that the "try" section of the block must contain code that causes the error expected in the 'catch' section. In our case, the account. Withdraw (1890) will throw the InvalidoperationException exception, which then will be handled in the 'catch' section. Furthermore, if you need to add an auxiliary class (e.g. the Account class in our example), then place it inside the Program. cs file next to the existing Program class. For your convenience, we provide a template of Program.cs containing our example. Note that for some exceptions you do not need to provide a program code but your text answer in the report. We do not specify here the particular exception from the list because we expect you to give a clear reason for omitting it. 4. We expect you to answer the questions in the text report and write the associated code examples in the Program. cs file. Every exception must be discussed in no more than half a page of text. Your solution should be concise and answer the relevant questions exactly. Remember that you must explain solutions in your words; that is, copying blocks of text from the Internet is never acceptable. Though you are allowed to paraphrase answers found in the Internet, be prepared to explain them during the one-on- one interview with your tutor
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