1 / 17

Lecture 3: The parts of a C++ program

Lecture 3: The parts of a C++ program. Professor: Dr. Miguel Alonso Jr. Fall 2008 CGS2423/COP1220. C++ Anatomy. The Parts of a C++ Program. Function: a group of one or more programming statements that collectively have a name.

akiva
Download Presentation

Lecture 3: The parts of a C++ program

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lecture 3: The parts of a C++ program Professor: Dr. Miguel Alonso Jr. Fall 2008 CGS2423/COP1220

  2. C++ Anatomy • The Parts of a C++ Program Function: a group of one or more programming statements that collectively have a name Namespace: used to organize the names of program entries, such as variables, functions, and objects Left-brace: part of the C++ syntax and encloses all the statements that make up a function Comment: ignored by the compiler Preprocessor Directive: sets up the code for the compiler // A simple C++ program #include <iostream> using namespace std; int main() { cout << “Programming is great fun!”; return 0; } Return statement: indicates the program executed succesfully Statement: consists of cout object, << operator, and string literal or constant, conluded by ;

  3. The cout Object • cout is used to produce console output, hence cout! • It is classified as a stream object, which means it works with a stream of data, such as a string literal (stream of characters) • Run Example • << is the stream insertion operator • The item immediately to the right of << is sent to cout for display

  4. Program 2-2 • Can be used to send more than one item out. // A simple C++ program #include <iostream> using namespace std; int main() { cout << “Programming is “ << “great fun!”; return 0; }

  5. Program 2-3 • Output can also be broken up into many statements, but still shows up on a single line. // A simple C++ program #include <iostream> using namespace std; int main() { cout << “Programming is ”; cout << “great fun!”; return 0; }

  6. Program 2-4 • Unless otherwise specified, the output of cout is displayed on a continuous stream. Sometimes, this is not desireable // A simple C++ program #include <iostream> using namespace std; int main() { cout << “The following items were top sellers”; cout<<“during the month of June:”; cout<<“Computer Games”; cout<<“Coffee”; cout<<“Apirin”; return 0; }

  7. Solution: start a new line • Stream manipulator : endl (end-L or end line) • Newline escape sequence: \n // A simple C++ program #include <iostream> using namespace std; int main() { cout << “The following items were top sellers”<< endl; cout<<“during the month of June:” << endl; cout<<“Computer Games” << endl; cout<<“Coffee” << endl; cout<<“Apirin” << endl; return 0; }

  8. // A simple C++ program #include <iostream> using namespace std; int main() { cout << “The following items were top sellers\n”; cout<<“during the month of June:\n”; cout<<“Computer Games\n”; cout<<“Coffee\n”; cout<<“Apirin\n”; return 0; }

  9. Common Escape Sequences • \a Bell (beep) • \b Backspace • \n Newline • \r Return • \t Tab • \\ Backslash • \' Single quote • \" Double quote

  10. The #include directive • Example: #include <iostream> • This is a header file that contains information describing iostream objects, such as cout • Part of the input-output stream library • Header file contains C++ code and typically describes complex objects, like cout • Later on, we will create our own header files

  11. Variables and Literals • Variables represent storage locations in the computers memory • int number;  variable definition • Sets up name and type of data the variable will hold • number = 5; variable assignment (integer literal) • number = “5”; string literal

  12. // A simple C++ program #include <iostream> using namespace std; int main() { int number; number = 5; cout<< “The value in number is “ << number << endl; return 0; }

  13. Identifiers • Identifier: programmer-defined name that represents some element of a program • Example: variable names • Usually indicates what the variable is used for • Caveat: cannot use C++ key words and must be legal

  14. Identifier Rules • First character must be a – z, A – Z, or an underscore( _ ) • After the first character, a – z, A – Z, an underscore, or 0 – 9 • Upper and lower are distinct, that is C++ is case sensitive

  15. Integer Data Types • Two general data types: • Numeric • Character • Number is further broken down • integer • floating point • Variables declared as integers can only hold whole numbers • i.e. 1, 2, 3… • Floating point can store decimal numbers • i.e. 4.657, -8.96, 3.5

  16. Concerns when selecting numeric data types • Largest and smallest value that may be stored • How much memory that value uses • Signed or unsigned • Decimal Precision

  17. Tips • use unsigned • Combine same type variable definitions on one line • Use “L” after integer literals if long is needed • Example : number = 32L • Uses 4 bytes of memory instead of just 2 • Program examples 2-10 and 2-11

More Related