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JERUSALEM COLLEGE OF ENGINEERING CHENNAI-100DEPARTMENT OF COMPUTER APPLICATIONS
LABORATORY MANUAL COMPUTER PRACTICE LABORATORY-II
B.E II-SEMESTER2010-2011
II NN DD EE XX
SS.. NN OO NN AAMM EE OO FF TTHH EE EXEXPP EERR II MM EENN TT
11 Study Of Unix Operating System.
22 Study Of Basic Unix Commands.
33 Study Of Vi Editors.
44 Calculating The Gross Salary Of an Employee.
55 Finding The Area Of A Circle.
66To Implement The Concept Of Two-Way Branching Using If Statement.
77To Implement The Concept Of Multi-Way Branching Using If- Elif Statement.
88 To Implement The Concept Of Multi-Way Branching Using Case Statement.
99 To Write A Program To Print N Natural Numbers.
1010 To Write A Program To Print First N Number Of Fibonacci Series.
1111 To Write A Program To Print The Multiplication Table Using Until Loop.
1212 To Write A Program To Print The Sum Using For Loop.
1313 To Write A Program To Calculate The Factorial Of a Given Number.
14 Program For The Illustration Of Pointer Expressions.
1515 Program For Dynamic Memory Allocation, Reallocation And Deletion
1616Program To Create File, To Store Information In The File And To Show The Information In The File By Using File Handling Functions.
SSTT UU DD YY OOFF UU NN II XX OO PEPERR AATT II NN GG SYSSYSTT EMM
W H AT I S U N I X? U N I X i s a n o p e r a t i n g s y s t e m w h i c h w a s d e v e l o p e d f i r s t i n t h e
1 9 6 0 ’ s a n d h a s u n d e r c o n s t a n t d e v e l o p m e n t e v e r s i n c e b y o p e r a t i n g s y s t e m w e m e a n t h e s u i t e o f p r o g r a m s w h i c h m a k e t h e c o m p u t e r w o r k . I t i s a s t a b l e , m u l t i - u s e r , m u l t i - t a s k i n g o p e r a t i n g s y s t e m f o r s e r v e r s , d e s k t o p s a n d
l a p t o p s . U N I X o p e r a t i n g s y s t e m a l s o h a v e g r a p h i c a l u
s e r i n t e r f a c e ( G U I ) s i m i l a r t o M i c r o s o f t w i n d o w s o p e r a t i n g s y s t e m w h i c h p r o v i d e s a n e a s y t o u s e e n v i r o n m e n t . H o w e v e r k n o w l e d g e o f u n i x i s r e q u i r e d f o r o p e r a t i o n s w h i c h a r e n o t c o v e r e d b y g r a p h i c a l p r o g r a m o r f o r w h e n t h e r e i s n o w i n d o w s i n t e r f a c e a v a i l a b l e .T Y P E S O F U N I X
T h e r e a r e m a n y d i f f e r e n t v e r s i o n s o f u n i x , a l t h o u g h t h e y s h a r e t h e c o m m o n s i m i l a r i t i e s .T h e m o s t p o p u l a r v a r i e t i e s o f u n i x a r e S u n S o l a r i s , G N U / L i n u x a n d M a c o s X .T H E U N I X O P E R A T I N G S Y S T E M
T h e U n i x O p e r a t i n g s y s t e m i s m a d e u p o f t h r e e p a r t s
1 . T h e K e r n e l
2 . T h e S h e l l
3 . T h e P r o g r a m s
T H E K E R N E L
T h e K e r n e l o f U n i x i s t h e h u b o f t h e o p e r a t i n g s y s t e m . I t a l l o c a t e s t i m e a n d m e m o r y t o p r o g r a m s a n d h a n d l e s t h e f i l e s t o r e a n d c o m m u n i c a t i o n i n r e s p o n s e t o s y s t e m c a l l s .
A s a n i l l u s t r a t i o n o f t h e w a y t h a t t h e s h e l l a n d t h e k e r n e l w o r k t og e t h e r , s u p p o s e a u s e r t y p e s ‘ r m m y f i l e ’ . T h e s h e l l s earches t h e f i l e s t o r e f o r t h e f i l e c o n t a i n i n g t h e p r o g r a m ‘ r m ’ a n d t h e n r e q u e s t s t h e k e r n e l , t h r o u g h s y s t e m c a l l s t o ‘ r m m y f i l e ’ f i n i s h e d r u n n i n g , t h e s h e l l t h e n r e t u r n s t h e u n i x p r o m p t ‘ % ’ t o t h e u s e r , i n d i c a t i n g e x e c u t e
t h e p r o g r a m ‘ r m ’ o n ‘ m y f i l e ’ .W h e n t h e p r o c e s s t h a t i t i s w a i t i n g f o r f u t u r e c o m m a n d s .
T H E S H E L L
T h e s h e l l a c t s a s a n i n t e r f a c e b e t w e e n t h e u s e r a n d t h e k e r n e l . W h e n u s e r l o g i n , t h e l o g i n p r o g r a m c h e c k s t h e u s e r n a m e a n d p a s s w o r d , a n d t h e n s t a r t s a n o t h e r p r o g r a m c a l l e d t h e s h e l l . T h e s h e l l i s a c o m m a n d l i n e i n t e r p r e t e r ( C L I ) . I t i n t e r p r e t s t h e c o m m a n d s t h e u s e r t y p e s i n a n a r r a n g e s f o r t h e m t o b e c a r r i e d o u t . T h e c o m m a n d s a r e t h e m s e l v e s p r o g r a m s . W h e n t h e y t e r m i n a t e , t h e s h e l l g i v e s t h e u s e r a n o t h e r p r o m p t ( % o n o u r s y s t e m ) . B y t y p i n g p a r t o f t h e n a m e o f a c o m m a n d , f i l e n a m e a n d d i r e c t o r y a n d p r e s s i n g t h e [ t a b ] k e y , t h e s h e l l w i l l c o m p l e t e t h e r e s t o f t h e m a u t o m a t i c a l l y . I f s h e l l f i n d s m o r e t h a n o n e n a m e b e g i n n i n g w i t h t h o s e l e t t e r s y o u h a v e t y p e d , i t w i l l b e e p , p r o m p t i n g t o t y p e a f e w m o r e l e t t e r s b e f o r e p r e s s i n g t h e t a b k e y a g a i n .
T h e s h e l l k e e p s t h e l i s t o f t h e c o m m a n d s y o u h a v e t y p e d i n , i f y o u n e e d t o r e p e a t a c o m m a n d , u s e t h e c u r s o r k e y t o s c r o l l u p a n d d o w n t h e l i s t o r t y p e h i s t o r y f o r a l i s t o f p r e v i o u s c o m m a n d s . D i f f e r e n t u s e r s m a y u s e d i f f e r e n t s h e l l s . I n i t i a l l y , y o u r s y s t e m a d m i n i s t r a t o r w i l l s u p p l y a d e f a u l t s h e l l , w h i c h c a n b e o v e r r id d e n o r c h a n g e d .
T h e m o s t c o m m o n l y a v a i l a b l e s h e l l s a r e :
o B o u r n e s h e l l ( s h ) C s h e l l ( c s h )o K o r n s h e l l ( k s h )o T C S h e l l ( t c s h )o B o u r n e A g a i n S h e l l ( b a s h )
T h e B o u r n e s h e l l i s o n e o f t h e o l d e s t s h e l l s a n d i s t h e m o s t e f f i c i e n t f o r b a c k g r o u n d w o r k . H o w e v e r i t p r o v i d e s f e w f a c i l i t i e s f o r i n t e r a c t i v e u s e r s .
T h e C s h e l l p r o v i d e s s o p h i s t i c a t e d i n t e r a c t i v e c a p a b i l i t i e s l a c k i n g i n t h e B o u r n e s h e l l . F e a t u r e s o f t h i s s h e l l i n c l u d e a c o m m a n d h i s t o r y b u f f e r , c o m m a n d a l i a s e s a n d f i l e n a m e
c o m p l e t i o n .T h e C s h e l l h a s a s y n t a x w h i c h r e s e m b l e s t h e C p r o g r a m m i n g l a n g u a g e .
T h e C s h e l l i s t h e d e f a u l t s h e l l f o r i n t e r a c t i v e w o r k o n m a n y U N I X s y s t e m s . I t w i l l b e c o v e r e d i n t h i s d o c u m e n t , a l t h o u g h m o s t o f t h e b a s i c c o m m a n d s g i v e n h e r e a r e r e l a t i v e l y s t a n d a r d a c r o s s a l l t h e m a i n s h e l l s .
T h e K o r n s h e l l w a s w r i t t e n b y D a v i d K o r n f r o m A T & T a n d i n i t h e a t t e m p t e d t o m e r g e t h e p r e f e r r e d f e a t u r e s o f b o t h t h e B o u r n e a n d C s h e l l s a s w e l l a s a d d i n g s o m e a d d i t i o n a l f e a t u r e s . U n f o r t u n a t e l y t h e K o r n s h e l l w a s n o t a v a i l a b l e f o r f r e e , a s o t h e r U N I X s h e l l s w e r e , s o m a n y u s e r s a n d c o m p a n i e s d i d n o t c h o s e t o u s e o f i t .
T h e B a s h s h e l l w a s b a s e d o n t h e B o u r n e s h e l l ( B o u r n e a g a i n s h e l l ) a n d a s w i t h K o r n i t a t t e m p t e d t o c o m b i n e t h e b e s t f e a t u r e s o f t h e o t h e r s h e l l s w h i c h w e r e a v a i l a b l e a t t h e t i m e . T h i s s h e l l h o w e v e r w a s a v a i l a b l e f o r f r e e . B a s h w a s i n i t i a l l y a d o p t e d f o r L I N U X a l t h o u g h s e v e r a l v a r i e t i e s o f
L I N U X n o w e x i s t e . g . R e d H a t , S u S E a n d D e b i a n - G N U .
F I L E S A N D P R O C E S S E v e r y t h i n g i n u n i x i s e i t h e r a f i l e o r a p r o c e s s . A p r o c e s s i s a ne x e c u t i n g p r o g r a m i d e n t i f i e d b y a u n i q u e P I D ( P r o c e s s I d e n t i f i e r ) . A f i l e i s c o l l e c t i o n o f d a t a ’ s . T h e y a r e c r e a t e d b y u s e r s u s i n g t e x t e d i t o r s , r u n n i n g , c o m p i l e r s e t c .
A l l f i l e s a r e g r o u p e d t o g e t h e r i n t h e d i r e c t o r y s t r u c t u r e . T h e f i l e s y s t e m i s a r r a n g e d i n a h i e r a r c h i c a l s t r u c t u r e , l i k e i n v e r t e d t r e e . T h e t o p o f t h e h i e r a r c h y i s t r a d i t i o n a l l y c a l l e d r o o t .
F E A T U R E S O F U N I X
1 . M u l t i t a s k i n g
M u l t i t a s k i n g i s t h e c a p a b i l i t y o f t h e o p e r a t i n g s y s t e m t o p e r f o r m v a r i o u s t a s k s s i m u l t a n e o u s l y ie a s i n g l e u s e r c a n r u n m u l t i p l e p r o g r a m s( t a s k s ) c o n c u r r e n t l y .
2 . M u l t i - u s e r C a p a b i l i t y
M u l t i - u s e r c a p a b i l i t y o f U N I X a l l o w s s e v e r a l u s e r s t o u s e t h e s a m e c o m p u t e r t o p e r f o r m t h e i r t a s k s . S e v e r a l t e r m i n a l s ( k e y b o a r d s a n d m o n i t o r s ) a r e c o n n e c t e d t o a s i n g l e p o w e r f u l c o m p u t e r ( U n i x s e r v e r ) a n d e a c h u s e r
c a n w o r k w i t h t h e i r t e r m i n a l s .
3 .S e c u r i t y
U n i x a l l o w s s h a r i n g o f d a t a . E v e r y u s e r m u s t h a v e a l o g i n n a m e an d a p a s s w o r d .S o a c c e s s i n g a n o t h e r u s e r ’ s d a t a i s i m p o s s i b l e w i t h o u t p e r m i s s i o n ie i n v a l i d u s e r s c a n n o t a c c e s s d a t a .
4 . P o r t a b i l i t y
U N I X i s p o r t a b l e b e c a u s e i t i s w r i t t e n i n a h i g h l e v e l l a n g u a g e . S o ,
U N I X c a n b e r u n o n d i f f e r e n t c o m p u t e r s .
5 . C o m m u n i c a t i o n
U N I X s u p p o r t s t h e f a l l o w i n g c o m m u n i c a t i o n s
o B e t w e e n t h e d i f f e r e n t t e r m i n a l s c o n n e c t e d t o t h e U N I X
s e r v e r .
o B e t w e e n t h e u s e r s o f o n e c o m p u t e rt o t h e u s e r s o f a n o t h e r c o m p u t e r l o c a t e d e l s e w h e r e i n t h e n e t w o r k .
6 . P r o g r a m m i n g f a c i l i t y
U N I X i s h i g h l y p r o g r a m m a b l e , t h e U N I X s h e l l p r o g r a m m i n g l a n g u a g e h a s a l l n e c e s s a r y i n g r e d i e n t s l i k e c o n d i t i o n a l a n d c o n t r o l s t r u c t u r e ( L o o p s ) a n d v a r i a b l e s , t h a t e s t a b l i s h i t a s a p r o g r a m m i n g l a n g u a g e i n i t s o w n r i g h t .
A D V A N T A G E S O F U N I X
U N I X i s a v e r y s t a b l e o p e r a t i n g s y s t e m .
U N I X s u p p o r t s t h e M u l t i - U s e r f e a t u r e .
U N I X i s a M u l t i t a s k i n g o p e r a t i n g s y s t e m .
U N I X c a n b e l o a d e d t o a n y t y p e o f c o m p u t e r h a r d w a r e .
U N I X i s o p t i m i z e d f o r p r o g r a m d e v e l o p m e n t .
U N I X h a s r i c h s e t o f s m a l l c o m m a n d s a n d u t i l i t i e s t h a t d o s p e c i f i c t a s k s .
U N I X h a s a p o w e r f u l u n i f i e d f i l e s y s t e m , e v e r y t h i n g i n a f i l e ;
d a t a , p r o g r a m a n d a l l p h y s i c a l d e v i c e s .
U N I X h a s t h e a b i l i t y t o s t r i n g c o m m a n d s a n d u t i l i t i e s t o g e t h e r i n u n l i m i t e d w a y s t o a c c o m p l i s h m o r e c o m p l i c a t e d t a s k s .
U N I X a l l o w s o n l y a u t h o r i z e du s e r s t o m o d i f y f i l e s a n d d i r e c t o r i e s .
U N I X a l l o w s o n l y S y s t e m A d m i n i s t r a t o r s t o m a k e c h a n g e s i n
S y s t e m C o n f i g u r a t i o n f i l e s .
EX NO: 2 STUDY OF BASIC UNIX COMMANDS
GENERAL COMMANDS
NO COMMAND SYNTAX VARIANCE/OPTIONS DESCRIPTION
1 Date Date_
Displays the current date and time
2 Cal cal MM YYYY
Cal Displays the calendar of the current month
cal YYYY Displays the calendar of the whole year specified
cal MM YYYY Displays the calendar of the specified month and year
3 Man man command name -
Displays the manual pages of the command name specified.
4 Who Who-
Displays information about people who are presently logged in
5 who am i who am i-
Displays information about oneself
6 Finger finger user-
Displays information about the specified user
FILE MANAGEMENT COMMANDS
NO COMMAND SYNTAX VARIANCE/ OPTIONS
DESCRIPTION
7 Cat cat > filename cat > filename Creates a file with the specified name
cat filename Displays the specified file in the console
cat file1 file2…filen > filez
Copies the specified files to filez
cat >> filename Appends contents to the specified file
8 Rm rm filename-
removes the specified file
9 Mv mv filename destination
mv filename destination
Moves the file to the destination
mv filename newname
Renames the file with the new nameRenaming can be done while moving withinthe same directory or different directory
10 Cp cp source destination
Copy SOURCE to DEST, or multiple SOURCE(s) to DIRECTORY.
11 More more file More is a filter for paging through text one screenful at a time for lengthy files.
12 Page page file Same as more except that more requires spacebar to be pressed for every page whereas page requires return key to be pressed
14 File file filename Displays the type of the specified file
15 Wc wc filename Print the number of lines, words, characters and bytes in the file.
16 Head head n filename
Display the first n lines from the file
17 Tail tail n filename Display the last n lines from the file
18 Sort sort filename -r sort in reverse order-f sort ignoring case-n sort numerically-b ignore leading blanks
Sorts the lines in the text files and displays them in the console
19 Grep grep pattern filename
-F for fixed grep-E for extended grep-c print the count of matching lines-i ignore case for matching-h prefix each matching line with line number
Grep searches the named input FILEs for lines containing a match to the given PATTERN.
13 Ls Ls -l shows about permission, owner, size etc-a shows all files including hidden files-R displays the contents of subdirectories-r reverses the order of files displayedls ~ List the contents of your home directory ls / List the contents ofyour root d irectory.ls ../ List the contents of the parent directory. ls */ List thecontents of all sub directories.ls -d */ Only list the directories in the current directory.
20 Chmod chmodfilename users+ per mi ss i ons f il e / d i re c t ory
+ for adding permission- for removing permissionu stands for ownerg stands for groupo stands for others
chmod changes the permissions of each given file accordingto the mode specified
DIRECTORY MANAGEMENT COMMANDS
NO COMMAND SYNTAX VARIANCE/OPTIONS DESCRIPTION
21 Mkdir Mkdirdirname
Creates a directory with the specified name.
22 Rmdir Rmdir dirname
Deletes the specified directory if not empty
23 Mv mv dirname destination
Move the directory and all its contents to the destination. If a name is specified in the destination, the directory will be renamed.
24 Pwd Pwd Shows the current directory
25 Cd cd cd ~
Moves to the home directory
cd .. cd -
Moves to the parent directory Moves to the previous directory
* vi filename edit filename starting at line 1
vi -r filename Recover filename that was being edited when system crashed
EX:NO:3 VI EDITOR
What is VI?
The default editor that comes with the UNIX operating system is called vi (visual editor). [Alternate editors for UNIX environments include Pico and emacs, a product of GNU.]The UNIX vi editor is a full screen editor and has two modes of operation:
1. Command mode commands which cause action to be taken on the file, and2. Insert mode in which entered text is inserted into the file.
In the command mode, every character typed is a command that does something to the text file being edited; a character typed in the command mode may even cause the vi editor to enter the insert mode.
In the insert mode, every character typed is added to the text in the file; pressing the <Esc> (Escape) key turns off the Insert mode.
The most basic and useful commands are marked with an asterisk (* or star) in the tables below.NOTE: Both UNIX and vi are case-sensitive. Be sure not to use a capital letter in place of a lowercase letter; the results will not be what you expect.
To Get Into and Out Of VI
To Start vi
To use vi on a file, type in vi filename. If the file named filename exists, then the first page (or screen) of the file will be displayed; if the file does not exist, then an empty file and screen are created into which you may enter text.
* :x<Return> quit vi, writing out modified file to file named in original invocation
:wq<Return> quit vi, writing out modified file to file named in original invocation
:q<Return> quit (or exit) vi
* :q!<Return> quit vi even though latest changes have not been saved for this vi call
To Exit vi
Usually the new or modified file is saved when you leave vi. However, it is also possible to quit vi without saving the file.Note: The cursor moves to bottom of screen whenever a colon (:) is typed. This type of command is completed by hitting the <Return> (or <Enter>) key.
Moving the Cursor
Unlike many of the PC and MacIntosh editors, the mouse does not move the cursor within the vi editor screen (or window). You must use the key commands listed below. On some UNIX platforms, the arrow keys may be used as well; however, since vi was designed with the Qwerty keyboard (containing no arrow keys) in mind, the arrow keys sometimes produce strange effects in vi and should be avoided.If you go back and forth between a PC environment and a UNIX environment, you may find that this dissimilarity in methods for cursor movement is the most frustrating difference between the two.In the table below, the symbol ^ before a letter means that the <Ctrl> key should be held down while the letter key is pressed.
*j or <Return>[or down-arrow] move cursor down one line
* k [or up-arrow] move cursor up one line
*h or <Backspace>
[or left-arrow] move cursor left one character
*l or <Space>[or right-arrow] move cursor right one character
* 0 (zero) move cursor to start of current line (the one with the cursor)
* $ move cursor to end of current line
w move cursor to beginning of next word
b move cursor back to beginning of preceding word
^f move forward one screen^b move backward one screen^d move down (forward) one half screen^u move up (back) one half screen^l redraws the screen
^r redraws the screen, removing deleted lines
* i insert text before cursor, until <Esc> hit
I insert text at beginning of current line, until <Esc> hit
* a append text after cursor, until <Esc> hit
A append text to end of current line, until <Esc> hit
* o open and put text in a new line below current line, until<Esc> hit
* O open and put text in a new line above current line, until<Esc> hit
:0<Return> or 1G move cursor to first line in file
:n<Return> or nG move cursor to line n
:$<Return> or G move cursor to last line in file
Screen Manipulation
The following commands allow the vi editor screen (or window) to move up or down several lines and to be refreshed.
Adding, Changing, and Deleting Text
Unlike PC editors, you cannot replace or delete text by highlighting it with the mouse. Instead use the commands in the following tables.Perhaps the most important command is the one that allows you to back up and undo your last action. Unfortunately, this command acts like a toggle, undoing and redoing your most recent action. You cannot go back more than one step.
* u UNDO WHATEVER YOU JUST DID; a simple toggle
The main purpose of an editor is to create, add, or modify text for a file.
Inserting or Adding Text
The following commands allow you to insert and add text. Each of these commands puts the vi editor into insert mode; thus, the <Esc> key must be pressed to terminate the entry of text and to put the vi editor back into command mode.
/string search forward for occurrence of string in text
?string search backward for occurrence of string in text
n Move to next occurrence of search string
N Move to next occurrence of search string in opposite direction
Deleting Text
The following commands allow you to delete text.
* x delete single character under cursor
Nx delete N characters, starting with character under cursor
dw delete the single word beginning with character under cursor
dNwdelete N words beginning with character under cursor;e.g., d5w deletes 5 words
Ddelete the remainder of the line, starting with current cursor position
* dd delete entire current line
Ndd or dNddelete N lines, beginning with the current line;e.g., 5dd deletes 5 lines
Cutting and Pasting TextThe following commands allow you to copy and paste text.
yy copy (yank, cut) the current line into the buffer
Nyy or copy (yank, cut) the next N lines, including the current line, into the buffer
P put (paste) the line(s) in the buffer into the text after the current line
Other Commands
Searching Text
A common occurrence in text editing is to replace one word or phase by another. To locate instances of particular sets of characters (or strings), use the following commands.
:.= Returns line number of current line at bottom of screen
:= Returns the total number of lines at bottom of screen
^gprovides the current line number, along with the total number of lines,in the file at the bottom of the screen
Determining Line Numbers
Being able to determine the line number of the current line or the total number of lines in the file being edited is sometimes useful.
Saving and Reading FilesThese commands permit you to input and output files other than the named file with which you are currently working.
:r filename<Return>read file named filename and insert after current line(the line with cursor)
:w<Return> write current contents to file named in original vi call
:w newfile<Return> write current contents to a new file named newfile
:12,35w smallfile<Return>write the contents of the lines numbered 12 through 35 to a new file named smallfile
:w! prevfile<Return>write current contents over a pre-existing file namedprevfile
Ex .No: 4 CALCULATING THE GROSS SALARY OF AN EMPLOYEE
AIM:
To write a simple script to calculate the gross salary of an employee.
ALGORITHM:
STEP 1 : Start
STEP 2 : Get the basic salary from the user
STEP 3 : Calculate the Da , Hra, and gross with the needed formulas namely da=`expr $b \* 10 / 100`hra=`expr $b \* 20 / 100`
gross=`expr $b + $da + $hra`
STEP 4 : Print the gross salary by use of echo command
STEP 5 : Stop
PROGRAM
echo “Calculating the gross salary of an employee”
echo “Enter the Basic salary”
read b
da=`expr $b \* 10 / 100` hra=`expr $b \* 20 / 100` gross=`expr $b + $da + $hra` echo ‘Gross Salary=$gross`
OUTPUT
Calculating the gross salary of an employee
Enter the Basic salary
10000
Gross Salary= 13000
Result:Thus the program to find gross salary of an employee is created andexecuted successfully.
Ex .No: 5 FINDING THE AREA OF A CIRCLE
AIM:
To write a simple script to find the area of a circle.
ALGORITHM:
STEP 1 : Start
STEP 2 : Get the radius from the user
STEP 3 : Read the radius.
STEP 4 : Calculate the area by using the formula 3.142857 \* $radius \* $radius | bc
STEP 5 : Stop
PROGRAM
echo “FINDING THE AREA OF THE CIRCLE”
echo "Enter the radius of the circle" read radiusecho "The Area of the circle is"
echo 3.142857 \* $radius \* $radius | bc
OUTPUT
FINDING THE AREA OF THE CIRCLE
Enter radius of the circle
5
The Area of the circle is 78.571425
Result:
Thus the program to find radius of circle was created and executed
successfully.
Ex .No:6 TWO-WAY BRANCHING
AIM:
To implement the concept of two-way branching using “if ” statement.
ALGORITHM:
STEP1 :Start
STEP2 :Declare the variables and its access
STEP3 :If a is greater than b then print A is Big, else
STEP4 :Print B is Big
STEP5 :Stop
Program
echo “Concept of two-way branching using if statement”
echo “ Finding the Biggest of two numbers”
echo “Enter the two Numbers”
read a b
if [ $a –gt $b ]
then
else fi echo “A is Big”
echo “B is Big”
OUTPUT
Concept of two-way branching using if statementFinding the Biggest of two numbers
Enter the two Numbers
12 45
B is Big
Result:
Thus the program to find biggest of given two numbers by using if statement
was created and executed successfully.
Ex .No: 7 MULTI-WAY BRANCHING USING “ IF-ELIF ” STATEMENT
AIM:
To implement the concept of multi-way branching using “ if-elif ” statement.
ALGORITHM:
STEP 1 : Start
STEP 2 : Declare the variables and its access
STEP 3 : If a is greater than b and a is greater than c, then print A is Big, else
STEP 4 : If b is greater than c then print B is Big, else
STEP 5 : Print C is Big
STEP6 : Stop
Program
echo “Concept of multi-way branching using if-elif statement”echo “Finding the Biggest of three numbers”echo “Enter the three Numbers”echo a read a echo b= read b echo c= read cif [ $a –gt $b ]then
if [ $a –gt $c ]then
echo “A is Big”else
echo “ C is Big”fi
elif [ $b –gt $c ]then
echo “B is Big”else
echo “C is Big”fi
OUTPUT
Concept of multi-way branching using if-elif statementFinding the Biggest of three numbersEnter the three Numbers a=14b=23 c=10B is Big
Result:
Thus the program to find highest number among given three numbers by using
if-elif statement was developed and executed successfully.
Ex .No: 8 MULTI-WAY BRANCHING USING “CASE” STATEMENT
AIM:
To implement the concept of multi-way branching using “ case ” statement.
ALGORITHM:
STEP 1 : Start
STEP 2 : Initialize the number of choices
STEP 3 : If the choice is present corresponding result will be displayed otherwise
STEP 4 : The statement of the default will be displayed
STEP 5 : Stop
Program
echo “Concept of multi-way branching using case statement”
clear
echo “1. To know Your current Directory”
echo “2.Todays Date” echo “3.List of Users” echo “Enter your choice” read choicecase $choice in
1) pwd;;
2) 2)date;;
3) who;;
*) echo “Only give inputs from 1 to 3”
esac
OUTPUTConcept of multi-way branching using case statement1. To know Your current Directory2.Todays Date3.List of UsersEnter your choice2wed march 18 08:25:20 IST 2009
Result: Thus the program for multiway branching by using case statement was createdand executed successfully.
Ex .No: 9 PROGRAM TO PRINT N NATURAL NUMBERS
AIM:
To write a program to print n Natural numbers
ALGORITHM:
STEP 1 : Start
STEP 2 : Get a number from the user to print n Natural numbers
STEP 3 : Read the number
STEP 4 : Start the while loop and write the statements of the loop within do and done
STEP 5 : Echo the value of i and increment the value of i
STEP 6 : End the loop
STEP 7 : Stop
PROGRAM
echo “print n natural numbers”
echo “Enter a number to get N natural numbers”
read n
echo “The first $n natural numbers are”
i=1
while [ $i –le $n ]
do
done
echo $i
i=`expr $i + 1`
OUTPUTprint n natural numbers
Enter a number to get N natural numbers
5
The first 5 natural numbers are
12345
Result: Thus the program to print n natural numbers was created by using while loop
and executed successfully.
Ex .No: 10 PROGRAM TO PRINT FIRST N FIBONACCI SERIES.
AIM:
To write a program to print first N Fibonacci Series.
ALGORITHM:
STEP 1 : Start
STEP 2 : Get the number of terms of Fibonacci Series the user needs. STEP 3 : Read the number
STEP 4 : Initialize f1=-1,f2=1 and i=1
STEP 5 :Start the while loop and write the statements of the loop within do and done
STEP 6 : calculate the value of the Fibonacci Series with the needed formulas
STEP 7 : End the loop
STEP 8 : Stop
PROGRAM
echo Enter the number of terms read nf1=-1 f2=1 i=1echo The Fibonacci series upto $n terms is while [ $i -le $n ]do
done
f3=`expr $f1 + $f2`
echo $f3 f1=$f2 f2=$f3i=`expr $i + 1`
OUTPUTEnter the number of terms10The Fibonacci series upto 10 terms is0112358132134
Result: Thus the program to display Fibonacci series up to given terms was created by using while loop and executed successfully.
Ex .No: 11 PRINT THE MULTIPLICATION TABLE USING UNTIL LOOP
AIM:
To write a program to print the multiplication table using until loop.
ALGORITHM:
STEP 1 : Start
STEP 2 : Get the number from the user to print its multiplication table.
STEP 3 : Read the number
STEP 4 :Start the until loop
STEP 5 : write the necessity statements within do and done
STEP 6 : End the loop
STEP 7 : print the multiplication table .
STEP 8 :Stop
PROGRAM
echo “ Enter a number”
read n i=1echo “ The multiplication table of $n is”
until [ $i –gt 10 ]
do
done
pro=`expr $i \* $n` echo “ $n x $i=$pro” i=`expr $i + 1`
OUTPUT
Enter a number5The multiplication table of 5 is5 x 1=55 x 2=105 x 3=155 x 4=205 x 5=255 x 6=305 x 7=355 x 8=405 x 9=455 x 10=50
Result: Thus the program for multiplication table was developed and executed successfully by until loop.
Ex .No: 12 PROGRAM TO PRINT THE SUM USING FOR LOOP.
AIM:
To write a program to print the sum using for loop.
ALGORITHM:
STEP 1 : Start
STEP 2 : Initialize the variable i.e sum=0
STEP 3 : Start the for loop
STEP 4 : calculate the sum by using the formula sum=`expr $sum + $i` for all the elements in the for loop listSTEP 5 : End the loop.
STEP 6 : Print the value of the sum
STEP 7 : Stop
Program
echo “ Program implementing For Loop”
sum=0for i in 1 2 3 4 10 do
done
sum=`expr $sum + $i`
echo “The sum is $sum”
OUTPUT
Program implementing For Loop
The sum is 20
Result:
Thus the program to find the sum of the numbers by using for loop was
developed and executed successfully.
Ex .No: 13 PROGRAM TO CALCULATE THE FACTORIAL
AIM:
To write a program to calculate the factorial.
ALGORITHM:
STEP 1 : Start
STEP 2 : Get the number from the user
STEP 3 : Read the number
STEP 4 :Initialize the variable i.e f=1
STEP 5 : Start the for loop STEP 6 : calculate the factorial STEP 7 : End the loop.STEP 8 : print the factorial of the given number. STEP 9 : Stop
Program
echo "Factorial Program" echo "Enter the number" read af=1
for (( i = 1; i <= ${a}; i++ ))
do
done
f=`expr $f \* $i`
echo "The factorial of $a is $f"
OUTPUT
Factorial Program
Enter the number5The factorial of 5 is 120
Result:
Thus the program to find factorial of given number was created and executed
successfully by using for loop.
EX NO: 14 PROGRAM FOR THE ILLUSTARTION OF POINTER EXPRESSIONS
AIM:To develop the program for the illustration of pointers expressions.
ALGORITHM:
1. Open the UNIX operating system.
2. Edit the command vi filename in the home directory or in the directory created by user. VI stands for visual, a full screen editor, indicates most powerful editor. File name indicates program name3. Now enter required header files and open main ( )
function.
4. Inside main ( ) function declare required variables, pointers of integer data type.5. Give the value for the variables at compile or runtime. After given values, assign the address of variables to the pointers.6. Show the value of the variables and its stored address by pointers.7. Evaluate more than one expression by pointers and show the result.8. To save the program, press Escape button in the keyboard and enter :wq command.9. To compile the program edit the command cc filename.c10. If no compile time error, to run the program edit the command ./a. out.11. If no run time error, output of the program is displayed.
Program
#include<stdio.h>main( )
{int a,b,*p1,*p2;printf(" ENTER THE VALUE FOR A,B : ");scanf("%d%d",&a,&b);p1=&a;p2=&b;printf(" \n %d is stored in the address %u ",*p1,p1); printf(" \n %d is stored in the address %u ",*p2,p2); printf(" \n (*p1+*p2)*(a -*p2) = %d", (*p1+*p2)*(a-*p2)); printf(" \n (*p1+*p2)/(*p1-b) = %d",(*p1+*p2)/(*p1-b)); printf(" \n *p1*p2/a+b = %d",*p1*p2/a+b); printf("\n");
}
OUTPUT
Enter the value for a,b: 12 8
12 is stored in the address 32184666768 is stored in the address 3218466672
(*p1+*p2)*(a-*p2) = 80(*p1+*p2)/(*p1-b) = 5
*p1**p2/a+b = 16
RESULT:
Thus the program for the illustration of pointer expressions is
developed, executed successfully
EX NO: 15 PROGRAM FOR DYNAMIC MEMORY ALLOCATION AND REALLOCATION
AIM:
To develop the program for dynamic memory allocation to store
information and the reallocating dynamically the same memory to store more information .
ALGORITHM:
1. Open the UNIX operating system.2. Edit the command vi filename in the home directory or in the
directory created by user. VI stands for visual, a full screen editor, indicates most powerful editor. File name indicates program name.
3. Now enter required header files and open main ( )function.
4. Inside main ( ) function declare required variables, pointers and allocate a block of memory dynamically by using malloc ( ) function.
5. Check whether dynamically a block of memory allocated or not.
6. If allocated, store the information and display the information.
7. Reallocate the same memory to store more information than before by using realloc ( ) function.
8. Check whether reallocation of same memory dynamically done or not.
9. If allocated, store the new information and display it.10. If no longer needed the stored information, release by
using free ( ) function.11. To save the program, press Escape button in the
keyboard and enter :wq command.12. To compile the program edit the command cc
filename.c13. If no compile time error, to run the program edit the
command ./a. out.
14. If no run time error, output of the program is displayed.
Program
#include<stdio.h>#include<stdlib.h>#include<string.h>main( ){
char *buffer;buffer=(char *)malloc(10*sizeof(char));if(buffer==0){
printf(" Dynamically memory not allocated . . . \n");exit(1);
}else
printf(" Dynamically memory allocated . . . \n");strcpy(buffer,"Chennai");printf(" Buffer contains : %s \n",buffer);buffer=realloc(buffer,50);if(buffer==0)
{printf(" Reallocation failed . . . \n");exit(1);
}printf(" Buffer size modified . . .\n");printf(" Buffer still contains: %s \n",buffer); strcpy(buffer,"Chennai is the capital of the Tamilnadu state "); printf(" Buffer now contains: %s \n",buffer);printf(" Releasing dynamically allocated memory . . . . ");free(buffer);}
.
I OUTPUT
Dynamically Memory Allocated
Buffer contains : chennai Buffer size modified . . . Buffer still contains: chennai
Buffer now contains: chennai is the capital of Tamilnadu stateReleasing dynamically allocated memory . . .
RESULT:
Thus the program for dynamically memory allocation, reallocation and
releasing the allocated memory dynamically is developed and executed successfully.
EX NO: 16 Program to create file, to store information in the file and to show the information in the file by using file handling functions.
AIM:
To develop the program to create file, to store information in the
file and to show the information in the file by using file handling functions.
ALGORITHM:1. Open the UNIX operating system.2. Edit the command vi filename in the home directory or in the
directory created by user. VI stands for visual, a full screen editor, indicates most powerful editor. File name indicates program name.
3. Now enter required header files and open main ( )function.
4. Inside main ( ) function declare required variables,file pointer. Open the file with write mode and assign to the
file pointer.5. Enter number of students information to store.6. Through for( ) loop, read the one by one student
information by using stdin keyword, represents the keyboard and write to the given file by file pointer.
7. Close the file using fclose ( ) function with file pointer as argument.
8. Again open the file with read mode and assign to the file pointer.
9. Again through same for( ) loop, read one by one student information from the file by file pointer and write to the screen by using stdout keyword, represents screen.
10. For reading use fscanf ( ) function and for writing fprintf ( )function.
11. Close the file using fclose ( ) function with file pointer as argument.
12. To save the program, press Escape button in the keyboard and enter :wq command.
13. To compile the program edit the command cc filename.c
14. If no compile time error, to run the program edit the command ./a. out.
15. If no run time error, output of the program is displayed.
Program
#include<stdio.h>main( ){
FILE *fp;char studname[15];int n, i,em,tm,mm,sm.scm,total; float avg; fp=fopen("studentdetails","w");printf(" ENTER NUMBER OF STUDENTS : ");scanf("%d",&n);
printf("ENTER STUDENT NAMES AND FOLLOWING SUBJECT MARKS . \n \n");
printf("ENGLISH TAMIL MATHS SCIENCE SOCIALSCIENCE \n \n");
for(i=1;i<=n;i++){
printf(" %d: STUDENT DETAILS \n ",i);fscanf(stdin,"%s%d%d%d%d%d",studname,&em,&tm,&mm,&sm,&scm);
fprintf(fp,"%s%d%d%d%d%d",studname,em,tm,mm,sm,scm); printf("\n");}
fclose(fp);fp=fopen("studentdetails","r");printf(" STUDENT DETAILS STORED IN THE FILE . . . \n \n");
for(i=1;i<=n;i++){
fscanf(fp,"%s%d%d%d%d%d",studname,&em,&tm,&mm,&sm,&scm);total=em+tm+mm+sm+scm;avg=total/5;fprintf(stdout,"%s\n%d\n%d\n%d\n%d\n%d\n%d\n%f",studname,em,tm,mm,sm,scm,total,avg);printf("\n");
}fclose(fp);
}
OUTPUT
ENTER NUMBER OF STUDENTS: 2
ENTER STUDENT NAMES AND FOLLOWING SUBJECT MARKS . .
ENGLISH TAMIL MATHS SCIENCE SOCIALSCIENCE
1: STUDENT DETAILS Gnanasekar.P48 78 90 76 56
2: STUDENT DETAILS Visu.L70 89 76 65 54
STUDENT DETAILS STORED IN THE FILE . . .
Gnanasekar.P487890765634869.6
Visu.L708976655435470.8
RESULT:
Thus the program for file handling by using file handling functions is
developed and executed successfully.