Download presentation
Presentation is loading. Please wait.
Published byAngelica Bishop Modified over 9 years ago
1
Lecture 1 Introduction Figures from Lewis, “C# Software Solutions”, Addison Wesley Richard Gesick
2
Agenda Overview of Programming Languages Basics of C# and the IDE Errors Intro to Objects and Classes 1-2
3
Programming Languages A programming language specifies the words and symbols that we can use to write a program A programming language employs a set of rules that dictate how the words and symbols can be put together to form valid program statements 1-3
4
Programming Languages Machine language Assembly language High-level languages 1-4
5
Machine & Assembly Languages Machine language – Written in binary or hex – Written using CPU instruction set – Difficult to write, and not portable Assembly language – Written using mnemonics for instructions and symbolic names for variables – Assembler converts code to machine language – Easier to write, but still not portable 1-5
6
High-Level Languages Examples: Fortran, Perl, COBOL, C++, Java Highly symbolic Portable among CPU architectures Languages can be designed for specific uses: – Perl: Internet applications – Fortran: scientific applications – COBOL: business applications 1-6
7
High-Level Languages Compiled – Compiler converts source code (instructions and data) into machine language, then program is executed Interpreted – Interpreter converts instructions into machine language at run time as instructions are executed – Usually executes more slowly than compiled program 1-7
8
1-8
9
Programming Basics Programming is translating a problem into ordered steps consisting of operations a computer can perform: – Input – Calculations – Comparisons of values – Moving data – Output The order of execution of instructions is called flow of control 1-9
10
Four Types of Flow of Control Sequential Processing – Execute instructions in order Method Call – Jump to code in method, then return Selection – Choose code to execute based on data value Looping or Iteration – Repeat operations for multiple data values 1-10
11
Program Development The mechanics of developing a program include several activities – writing the program in a specific programming language – translating the program into a form that the computer can execute – investigating and fixing various types of errors that can occur Software tools can be used to help with all parts of this process 1-11
12
Problem Solving The purpose of writing a program is to solve a problem Solving a problem consists of multiple activities: – Understand the problem – Design a solution – Consider alternatives and refine the solution – Implement the solution – Test the solution These activities are not purely linear – they overlap and interact 1-12
13
Problem Solving The key to designing a solution is breaking it down into manageable pieces When writing software, we design separate pieces that are responsible for certain parts of the solution An object-oriented approach lends itself to this kind of solution decomposition We will dissect our solutions into pieces called objects and classes 1-13
14
Program Skeleton 1-14
15
1-15
16
Games Example 1-16 using System; namespace CastleAttack { static class Program { /// /// The main entry point for the application. /// static void Main(string[] args) { using (CastleAttack game = new CastleAttack( )) { game.Run(); }
17
Identifiers Words in programs Categories: – We make up – Others make up – Reserved in the language 1-17
18
C# Identifiers Letter followed by zero or more letters and digits Case sensitive 1-18
19
1-19
20
1-20
21
White Space Spaces, blank lines, and tabs are called white space White space is used to separate words and symbols in a program Extra white space is ignored A valid C# program can be formatted many ways Programs should be formatted to enhance readability, using consistent indentation 1-21
22
Comments Comments in a program are called inline documentation They should be included to explain the purpose of the program and describe processing steps They do not affect how a program works C# comments can take two forms: 1-22 // this comment runs to the end of the line /* this comment runs to the terminating symbol, even across line breaks */
23
Syntax and Semantics The syntax rules of a language define how we can put together symbols, reserved words, and identifiers to make a valid program The semantics of a program statement define what that statement means (its purpose or role in a program) A program that is syntactically correct is not necessarily logically (semantically) correct A program will always do what we tell it to do, not what we meant to tell it to do 1-23
24
Errors A program can have three types of errors The compiler will find syntax errors and other basic problems (compile-time errors) – If compile-time errors exist, an executable version of the program is not created A problem can occur during program execution, such as trying to divide by zero, which causes a program to terminate abnormally (run-time errors) A program may run, but produce incorrect results, perhaps using an incorrect formula (logical errors) 1-24
25
Program Errors Compiler errors – Found by the compiler. – Usually caused by incorrect syntax or spelling Run-time errors – Reported by the system – Usually caused by incorrect use of prewritten classes or invalid data Logic errors – Found by testing the program – Incorrect program design or incorrect execution of the design 1-25
26
Expect Errors 1-26
27
.NET 1-27
28
Program Structure In the C# programming language: – A program is made up of one or more classes – A class contains one or more methods – A method contains program statements These terms will be explored in detail throughout the course An application always contains a method called Main 1-28
29
Object-oriented Programming (OOP) Class – tool for encapsulating data and operations (methods) into one package – defines a template or model for creating and manipulating objects Objects – data created using the class and its methods – an object is an instance of the class – creating an object is instantiation 1-29
30
Objects An object has: – state - descriptive characteristics – behaviors - what it can do (or what can be done to it) The state of a bank account includes its current balance The behaviors associated with a bank account include the ability to make deposits and withdrawals Note that the behavior of an object might change its state 1-30
31
Classes An object is defined by a class A class is the blueprint of an object The class uses methods to define the behaviors of the object The class that contains the main method of a C# program represents the entire program A class represents a concept, and an object represents the embodiment of that concept Multiple objects can be created from the same class 1-31
32
1-32
33
Objects and Classes Bank Account A class (the concept) John’s Bank Account Balance: $5,257 An object (the realization) Bill’s Bank Account Balance: $1,245,069 Mary’s Bank Account Balance: $16,833 Multiple objects from the same class
34
Class and Object Example 1-34 How would you describe or define these pictures? What are the differences? What are the similarities? Are you describing a single entity or an entire group of entities?
35
What might the classes be? Objects?
36
Summary So what did you learn? Name three important concepts from the first two lectures. What would I put on a test?
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.