1. C# Programming: From Problem Analysis to Program Design1 2 Your First C# Program C# Programming: From Problem Analysis to Program Design 2 nd Edition

2. C# Programming: From Problem Analysis to Program Design2 Chapter Objectives Distinguish between the different types of applications that can be created with C# Explore a program written in C# Examine the basic elements of a C# program Learn about installing the.NET Framework

3. C# Programming: From Problem Analysis to Program Design3 Chapter Objectives ( continued ) Compile, run, and build an application Debug an application Create an application that displays output Work through a programming example that illustrates the chapter’s concepts

4. C# Programming: From Problem Analysis to Program Design4 Types of Applications Developed with C# Web applications Windows graphical user interface (GUI) applications Console-based applications Class libraries and stand-alone components (.dlls), smart device applications, and services can also be created

5. C# Programming: From Problem Analysis to Program Design5 Web Applications C# was designed with the Internet applications in mind Can quickly build applications that run on the Web with C# –Using Web Forms: part of ASP.NET

6. C# Programming: From Problem Analysis to Program Design6 Web Applications ( continued ) Figure 2-1 Web application written using C#

7. C# Programming: From Problem Analysis to Program Design7 Windows Applications Applications designed for the desktop Designed for a single platform Use classes from System.Windows.Form Applications can include menus, pictures, drop- down controls, buttons, textboxes, and labels Use drag-and-drop feature of Visual Studio

8. C# Programming: From Problem Analysis to Program Design8 Windows Applications ( continued ) Figure 2-2 Windows application written using C#

9. C# Programming: From Problem Analysis to Program Design9 Console Applications Normally send requests to the operating system Display text on the command console Easiest to create –Simplest approach to learning software development –Minimal overhead for input and output of data

10. C# Programming: From Problem Analysis to Program Design10 Exploring the First C# Program line 1 // This is traditionally the first program written. line 2 using System; line 3 namespace FirstProgram line 4 { line 5 class HelloWorld line 6 { line 7 static void Main( ) line 8 { line 9 Console.WriteLine(“Hello World!”); line 10 } line 11 } line 12 } Comments in green Keywords in blue

11. C# Programming: From Problem Analysis to Program Design11 Output from the First C# Program Console-based application output Figure 2-3 Output from Example 2-1 console application

12. C# Programming: From Problem Analysis to Program Design12 Elements of a C# Program Comments –line 1 // This is traditionally the first program written. –Like making a note to yourself or readers of your program –Not considered instructions to the computer –Not checked for rule violations –Document what the program statements are doing

13. C# Programming: From Problem Analysis to Program Design13 Comments Make the code more readable Three types of commenting syntax –Inline comments –Multiline comments –XML documentation comments

14. C# Programming: From Problem Analysis to Program Design14 Inline Comments Indicated by two forward slashes (//) Considered a one-line comment Everything to the right of the slashes ignored by the compiler Carriage return (Enter) ends the comment // This is traditionally the first program written.

15. C# Programming: From Problem Analysis to Program Design15 Multiline Comment Forward slash followed by an asterisk (/*) marks the beginning Opposite pattern (*/) marks the end Also called block comments /* This is the beginning of a block multiline comment. It can go on for several lines or just be on a single line. No additional symbols are needed after the beginning two characters. Notice there is no space placed between the two characters. To end the comment, use the following symbols. */

16. C# Programming: From Problem Analysis to Program Design16 XML Documentation Comments Extensible Markup Language (XML) –Markup language that provides a format for describing data using tags –Similar to HTML tags Three forward slashes (///) mark beginning of comment Advanced documentation technique used for XML-style comments Compiler generates XML documentation from them

17. C# Programming: From Problem Analysis to Program Design17 using Directive Permits use of classes found in specific namespaces without having to qualify them Framework class library –Over 2,000 classes included Syntax –using namespaceIdentifier;

18. C# Programming: From Problem Analysis to Program Design18 namespace Namespaces provide scope for the names defined within the group –Captain example Groups semantically related types under a single umbrella System: most important and frequently used namespace Can define your own namespace –Each namespace enclosed in curly braces: { }

19. C# Programming: From Problem Analysis to Program Design19 namespace ( continued ) From Example 2-1 line 1 // This is traditionally the first program written. line 2 using System; line 3 namespace FirstProgram line 4 { line 12 } Predefined namespace (System)– part of.NET FCL User defined namespace Body of user defined namespace

20. C# Programming: From Problem Analysis to Program Design20 class Building block of object-oriented program Everything in C# is designed around a class Every program must have at least one class Classes define a category, or type, of object Every class is named

21. C# Programming: From Problem Analysis to Program Design21 class ( continued ) line 1 // This is traditionally the first program written. line 2 using System; line 3 namespace FirstProgram line 4 { line 5 class HelloWorld line 6 { line 11 } line 12 } User defined class

22. C# Programming: From Problem Analysis to Program Design22 class ( continued ) Define class members within curly braces –Include data members Stores values associated with the state of the class –Include method members Performs some behavior of the class Can call predefined classes’ methods –Main( )

23. C# Programming: From Problem Analysis to Program Design23 Main( ) “Entry point” for all applications –Where the program begins execution –Execution ends after last statement in Main( ) Can be placed anywhere inside the class definition Applications must have one Main( ) method Begins with uppercase character

24. C# Programming: From Problem Analysis to Program Design24 Main( ) Method Heading line 7 static void Main( ) –Begins with the keyword static –Second keyword → return type void signifies no value returned –Name of the method Main is the name of Main( ) method –Parentheses “( )” used for arguments No arguments for Main( ) – empty parentheses

25. C# Programming: From Problem Analysis to Program Design25 Body of a Method Enclosed in curly braces –Example Main( ) method body line 7 static void Main( ) line 8 { line 9 Console.WriteLine(“Hello World!”); line 10 } Includes program statements –Calls to other method Here Main( ) calling WriteLine( ) method

26. C# Programming: From Problem Analysis to Program Design26 Method Calls line 9 Console.WriteLine(“Hello World!”); Program statements WriteLine( ) → member of the Console class Main( ) invoking WriteLine( ) method Member of Console class Method call ends in semicolon

27. C# Programming: From Problem Analysis to Program Design27 Program Statements Write ( ) → Member of Console class –Argument(s) enclosed in double quotes inside ( ) –“Hello World!” is the method’s argument –“Hello World!” is string argument string of characters May be called with or without arguments –Console.WriteLine( ); –Console.WriteLine(“WriteLine( ) is a method.”); –Console.Write(“Main( ) is a method.”);

28. C# Programming: From Problem Analysis to Program Design28 Program Statements ( continued ) Read( ) accepts one character from the input device ReadLine( ) accepts string of characters from the input device –Until the enter key is pressed Write( ) does not automatically advance to next line Write(“An example\n”); –Same as WriteLine(“An example”); –Includes special escape sequences

29. C# Programming: From Problem Analysis to Program Design29 Program Statements ( continued ) Special characters enclosed in double quotes

30. C# Programming: From Problem Analysis to Program Design30 C# Elements Figure 2-4 Relationship among C# elements

31. C# Programming: From Problem Analysis to Program Design31 Installing.NET Framework. NET Framework must be installed to: –Compile, build, and run a C# application Can download Microsoft’s.NET Framework Software Development Kit (SDK)→free download OR install Visual Studio software (from book) Create a place to store your work

32. C# Programming: From Problem Analysis to Program Design32 Installing.NET Framework ( continued ) Use the Visual Studio Integrated Development Environment (IDE) → Built-in editor –Type your program statements Use Visual Studio IDE → Built-in compiler –Check for syntax rule violations –Compiler generates a file with an.exe extension Use Visual Studio IDE → Built-in debugger Use Visual Studio IDE → Built-in executor

33. C# Programming: From Problem Analysis to Program Design33 Create Console Application Begin by opening Visual Studio Create new project –Select New Project on the Start page –OR use File → New Project option

34. C# Programming: From Problem Analysis to Program Design34 Create New Project Figure 2-6 Creating a console application

35. C# Programming: From Problem Analysis to Program Design35 Code Automatically Generated Figure 2-7 Code automatically generated by Visual Studio

36. C# Programming: From Problem Analysis to Program Design36 Typing Your Program Statements IntelliSense feature of the IDE Change the name of the class and the source code filename –Use the Solution Explorer Window to change the source code filename Select View → Solution Explorer

37. C# Programming: From Problem Analysis to Program Design37 Rename Source Code Name Figure 2-8 Changing the source code name from Class1 Clicking Yes causes the class name to also be renamed

38. C# Programming: From Problem Analysis to Program Design38 Compile and Run Application To Compile – click Build on the Build menu To run or execute application – click Start or Start Without Debugging on the Debug menu –Shortcut – if execute code that has not been compiled, automatically compiles first Start option does not hold output screen → output flashes quickly –Last statement in Main( ), add Console.Read( );

39. C# Programming: From Problem Analysis to Program Design39 Build Visual Studio Project Figure 2-9 Compilation of a project using Visual Studio

40. C# Programming: From Problem Analysis to Program Design40 Running an Application Figure 2-10 Execution of an application using Visual Studio

41. C# Programming: From Problem Analysis to Program Design41 Debugging an Application Types of errors –Syntax errors Typing error Misspelled name Forget to end a statement with a semicolon –Run-time errors Failing to fully understand the problem More difficult to detect

42. C# Programming: From Problem Analysis to Program Design42 Error Listing Figure 2-12 Syntax error message listing Pushpin Errors reported Missing ending double quotation mark

43. C# Programming: From Problem Analysis to Program Design43 Creating an Application – ProgrammingMessage Example Figure 2-13 Problem specification sheet for the ProgrammingMessage example

44. C# Programming: From Problem Analysis to Program Design44 ProgrammingMessage Example ( continued ) Figure 2-14 Prototype for the ProgrammingMessage example

45. C# Programming: From Problem Analysis to Program Design45 ProgrammingMessage Example ( continued ) Pseudocode would include a single line to display the message “Programming can be FUN!” on the output screen Figure 2-15 Algorithm for ProgrammingMessage example

46. C# Programming: From Problem Analysis to Program Design46 ProgrammingMessage Example ( continued ) Figure 2-16 Recommended deletions Depending on your current settings, you may not need to make some of these changes May want to remove the XML comments (lines beginning with ///) Delete [STAThread] Replace TODO: with your program statements Change the name Can replace with static void Main( )

47. C# Programming: From Problem Analysis to Program Design47 /* Programmer:[supply your name] Date:[supply the current date] Purpose:This class can be used to send messages to the output screen. */ using System; namespace ProgrammingMessage { class ProgrammingDisplay { static void Main( ) { Console.WriteLine(“Programming can be”); Console.WriteLine(“FUN!”); Console.Read( ); } Complete program listing ProgrammingMessage Example ( continued )

48. C# Programming: From Problem Analysis to Program Design48 Chapter Summary Types of applications developed with C# –Web applications –Windows graphical user interface (GUI) applications –Console-based applications Framework class library groups by namespaces –Namespaces group classes –Classes have methods –Methods include program statements

49. C# Programming: From Problem Analysis to Program Design49 Chapter Summary ( continued ) Visual Studio includes.NET Framework –Editor tool, compiler, debugger, and executor –Compile using Build –Run using Start or Start without Debugging Debugging –Syntax errors –Run-time errors Use five steps to program development to create applications