34.PRACTICE

 

Need of language (Computer oriented):What is computer?Computer is a programmable machine made with number of electrical, electronic and mechanical parts.Computer is used to perform procedural arithmetic, relational and logical operations.Computer is also used to control other machines and to store the data permanently for future usage.The language of computers:The field of computer sciences, which deals with the physical parts of computer, is called hardware. The natural language of computer hardware is the machine language (Binary code), which is difficult to learn and practice. 10011001usercomputerLanguage:The language is an interface among the programmer and computer hardware. Because machine language is difficult to learn and practice, there are number of other languages available to program the computer.Programmers develop the software using any computer oriented language.Where as users operate the computer using software. Software:Set of instructions developed in any computer oriented language is called a program.Set of programs developed to solve any problem is called software.OperatesUserDevelopProgrammersHardwareSoftwareComputer memory:RAM is the primary, main or conventional memory of computer.It is used to store the data, instructions and intermediate results.It is a volatile memory, looses its data on termination of program or function.The total memory is divided into number of bytes.Each byte is divided into 8 bits.Every byte is identified with a number called address (It is a positive number). Scale of memory:1 byte8 bits1024 bytes1 Kilo Byte(KB)1024 KB1 Mega Byte(MB)1024 MB1 Giga Byte(GB)1024 GB1 Tera Byte(TB)Data types in C Language:C language is rich in data types, provides number of data types to allocate the memory of different types of different ranges.Total data types in C language are classified into Primary data types.Derived data types.User defined types.In this session we are discussing the primary data types. Primary data types in C language:The primary data types in C language are classified intoPrimary Data TypesIntegerFloating pointCharacterintlong intunsigned intunsigned long intfloatdoublelong doublecharunsigned charint:It is the primary type in C language used to store integer constant.It takes two bytes of memory (16 bits)The higher most bit is used to store the sign. 0 for + and 1 for –Left all the 15 bits are used to store actual value in a binary format.When an integer is assigned to the variable, then it will be first converted into its binary equal and stores into the memory.Range of integer is -32768 to 32767 (-215 to +215-1)%d is used as the representation character for integers.Example: (Integer representation)int x;x=75;0000000001001011sign 0 for + , 1 for -data10010112222222753711819041201001case1: (Maximum positive)int x;x=32767;0111111111111111sign 0 for + , 1 for -111111111111111case2: (Storing negative)int x;x=-75;1000000001001011sign 0 for + , 1 for -1001011long int:It is the primary type of integer, used to store integer constants of higher ranges.It takes four bytes of memory.Higher bit (32 bit) stores the sign, left all the 31 bits are used to store the actual value.The range of long int is -231 to +231-1.%ld is the representation character of long int.Example:#include<stdio.h>void main(){int x=40000;long int y=40000;clrscr();printf(“x=%d”,x);printf(“\ny=%ld”,y);getch();}Execution:x= -25536y= 40000Example explained:int variable x is initialized with 40000, but the output of which is -25536. So, the int type cannot store more than 32767.long int variable y is capable to store 40000. unsigned types:Both int, long int can be defined as unsigned types using the keyword unsigned.These take the same memory as int, long int.Incase of unsigned types, even the higher bit is used to store value.These types can only store the positive numbers.The range of unsigned types is double to the signed types.Range of unsigned int is 0 to 216-1; unsigned long int is 0 to 232-1. %u, %lu are used as representation characters to represent unsigned int, unsigned long int.Example:#include<stdio.h>void main(){unsigned int x=40000;unsigned int y=-25;clrscr();printf(“x=%u”,x);printf(“\ny=%u”,y);getch();}Execution:x=40000y=65511Example explained:Though int type cannot store more than 40000, unsigned int is capable to store 40000. Because, the range of unsigned int is double to the int.The output of y is not as we expected, because, unsigned type cannot handle negative values.float, double, long double:These are the floating point types used to store the real constants of different ranges.float takes 4 bytes, double takes 8bytes and long double takes 10 bytes of memory.The range of float is 3.4x10-38 to 3.4x10+38, double is 1.7x10-308 to 1.7x10+308 and long double is 3.4x10-4932 to 1.1x+4932 .Representation character to float is %f, double is %lf and long double is %Lf.Character representation in computer memory:Any piece of data is stored in the computer memory in its binary format.A character can’t store as it is, in the computer memory.Every character on the keyboard has its equal binary number.The decimal equal of binary number is called its ASCII value.Example:char ch;ch=’a’;0110000101100001(97)Example explained:When a character constant ‘a’ is assigned to the char type of variable ch, then its binary equal 01100001 is stored in the memory. The decimal equal to 01100001 is 97. Here 97 is called ASCII (American Standard Code for Information Interchange) value of ‘a’. Example:char ch;ch=’A’;0100000101000001(65)Example explained:The ASCII value of ‘A’ is 65. Summery:Whenever a single character constant is assigned to the variable, its binary equal is stored in the memory.The decimal equal of the binary value is called its ASCII value. The output of char type of variable is depends on the representation character. %c prints the character and %d prints its equal ASCII value.CharacterBinary Equal ASCII ‘A’ 01000001 65 ‘B’ 01000010 66 ‘C’ 01000011 67 - ----------- --- - ----------- --- ‘a’ 01100001 97 ‘b’ 01100010 98 ‘c’ 01100011 99 - ------------ --- Example:#include<stdio.h>void main(){char ch;clrscr();ch=’a’; /* Assigns 01100001 */printf(“%c”,ch); /* %c prints equal character ‘a’*/printf(“\n%d”,ch); /* %d prints equal number 97*/}Output:a97 Example:#include<stdio.h>void main(){int n;clrscr();n=65; /* Assigns 01000001 */printf(“%c”,n); /* %c prints equal character ‘A’ */ printf(“\n%d”,n); /* %d prints equal number 65 */getch();}Output:A65char:It is a primary type used to store a single character constant.It takes 1 byte of memory.Higher bit is used to store the sign (0 for + and 1 for -)It can be defined both as signed and unsigned type.The signed type can store characters, whose ASCII values are in between-128 to 127 The unsigned type can store characters, whose ASCII values are in between 0 to 255.%c is the representation character of charExample:#include<stdio.h>void main(){char ch;clrscr();printf(“Enter any character:”);scanf(“%c”,&ch);printf(“The ASCII value of %c is %d”,ch,ch);}Execution:Enter any character: AThe ASCII value of A is 65Example explained:Character constant ‘A’ is stored as 01000001.It is printed with %c as A.It is printed with %d as 65. Summery of primary data types:TypesizeRangeRep.charactersint2bytes-215 to 215-1%dlong int4bytes-231 to 231-1%ldunsigned int2bytes0 to 216-1%uunsigned long int4 bytes0 to 232-1%lufloat4bytes3.4x10-38 to 3.4x1038%fdouble8bytes1.7x10-308 to 1.7x10308%lflong double10bytes3.4x10-4932 to 1.1x104932%Lfchar1byte-128 to 127%cunsigned char1byte0 to 255%cType conversion:In an assigning statement if RHS variable and LHS expression are of the same type then there would be no problem in assigning.If both are of different types then care must be taken to properly assign expression to variable without loosing precision.Auto conversion:In most of the cases the expression type is automatically converted into variable type without loosing any precision called auto casting.Example:#include<stdio.h>void main(){char ch;int x;clrscr();ch=’a’; /* automatically converted from char to int */x=ch;printf(“%d”,x);getch();}Output:97Example:#include<stdio.h>void main(){int x=65;char ch;clrscr();ch=x; /* automatically converted from int to char */printf(“%c”,ch);getch();}Output:AExample:#include<stdio.h>void main(){float x=12.25;int y;clrscr();y=x; /*automatically converted from float to int */printf(“%d”,y);getch();}Output:12Typecasting:Some times there may be loss of precision while assigning one type of expression to another type of variable.We need to give an instruction to the compiler in order to convert expression type into the variable type using typecast operator.Converting one type into another explicitly by using typecast operator is called typecasting<variable> = (variable type)<expression>Syntax:Example:#include<stdio.h>void main(){int x,y;float z;clrscr();x=5;y=2;z=x/y;printf(“%f”,z);getch();} Output:2.000000Example explained:In the above example x/y is of integer, couldn’t be assigned to the float type properly.Rectifying the example:#include<stdio.h>void main(){int x,y;float z;clrscr();x=5;y=2;z=(float)x/y;printf(“%f”,z);getch();} Output:2.500000Example:#include<stdio.h>void main(){float x,a,b;clrscr();x=(int)7.5; /* converted float into int */a=(int)21.3/(int)4.5; /* converted as 21/4 of int */b=21.3/4.5; printf(“x=%f\na=%f\nb=%f”,x,a,b);getch();}Output:x=7.000000a=5.000000b=2.733333Formatting the output using printf():printf() is the function used to print the formatted output on the console output device (Monitor). Formatting integer: (%wd)‘w’ is the width in which number is printed.If ‘w’ is the positive number then the number is right aligned.If ‘w’ is the negative number then the number is left aligned. If we specify 0 before w then leading 0s are added.Example:#include<stdio.h>void main(){int x=2453;clrscr();printf(“%10d”,x);printf(“\n%8d”,x);printf(“\n%08d”,x);printf(“\n%-10d”,x);getch();}Output:24532453000024532453Formatting floating point numbers: (%w.pf)Here ‘w’ specifies the width in which number is printed.‘p’ is the number of decimal places to which number is rounded.If ‘w’ is the positive number, then the number is right aligned.If ‘w’ is the negative number, then the number is left aligned.#include<stdio.h>void main(){float x=75.256785;clrscr();printf(“%10.3f”,x);printf(“\n%8.2f”,x);printf(“\n%08.3f”,x);printf(“\n%-10.2f”,x);printf(“\n%*.*f”,8,2,x); /* first * is replaced with 8, second * is replaced with 2*/getch();} Output:75.25775.260075.25775.2675.26Escape sequences: (Back slash characters)There are some characters prefixed with a back slash (\) used to format the output.Every back slash character is considered as a single character constant, has its ASCII value.C language supports the following back slash characters.Escape SequenceASCIIPurpose\n10Next line character. \t9Horizontal tag \a7Produces the beep sound\f12Form feed\r13Sends the cursor to the first column of the same line\\92To print \ (Back slash)\”34To print “\b8Back space character\v11Vertical tab\n:It is called next line character used to send the control to the next line on the screen.Example:#include<stdio.h>void main(){clrscr();printf(“Hello\nworld”);printf(“\n\n”);printf(“C made easy”);getch();}Output:HelloWorldC made easy\t:It is the horizontal tab character prints 8 spaces horizontally.Example:#include<stdio.h>void main(){clrscr();printf(“Hello\tWorld”);getch();}Output:Hello WorldExample:#include<stdio.h>void main(){clrscr();printf(“\n*\n*\t*\n*\t*\t*”);getch();}Output:******\b:It is a back space character sends the output control one character back in the same line.Example:#include<stdio.h>void main(){clrscr();printf(“Hello world\b\b”);getch();}Output:Hello worldExample explained:The first \b sends the control to ‘d’, second \b sends the control to ‘l’. Now the control is on ‘l’.Example:#include<stdio.h>void main(){clrscr();printf(“Hello World\b\b\b\b\bComputer”);getch();}Output:Hello ComputerExample explained:Five \b s send the control to ‘W’, Computer is overwritten on to the World. \a:It is an escape sequence produces the <beep> sound. It is generally used to get the user attention while displaying the error messages or warnings.Example:#include<stdio.h>void main(){int a,b,c;clrscr();printf(“\aEnter the first number:”);scanf(“%d”,&a);printf(“\aEnter the second number:”);scanf(“%d”,&b);c=a+b;printf(“\aSum of two numbers %d”,c);getch();}Example explained:Produces beep sound for every input and output.Note:Make sure that, a speaker is provided on the mother board.\r: Sends the cursor to the first column of the same lineExample:#include<stdio.h>void main(){clrscr();printf(“Hello World\rComputer”); getch();}Output:ComputerrldExample explained:\r sends the control to the first column of the same line (‘H’ of Hello world). “Computer” is overwritten on ‘Hello Wo’. Hence the output is “Computerrld”.\\:It prints a back slash (\).Example:#include<stdio.h>void main(){clrscr();printf(“nice\niit”);getch();}Output:niceiitExample explained:The output is not as we expected, because ‘\n’ worked like a next line character.Example rectified:#include<stdio.h>void main(){clrscr();printf(“nice\\niit”);getch();}Output:nice\niit\”:It is to print “(Double quotation).Example:#include<stdio.h>void main(){clrscr();printf(“ “nice” is nice “);getch();}Output:Error: Function call missing ) in function mainExample explained:A printf statement must not have more than two “(Double quotes).Example rectified:#include<stdio.h>void main(){clrscr();printf(“ \”nice\” is nice”);getch();}Output:“nice” is nice\v: (Not for Turbo C)It is vertical tab skips 8 lines next to the current line.Note: It may not work in all environments.#include<stdio.h>void main();{printf(“Hello”);printf(“\v”);printf(“World”);}Output:HelloWorld\f:It is called form feed character. It sends the control to the first line of next page. It is equal to page break.It only works when printing on paper using a C program.Trigraph/Digraph characters: (Not for Turbo C)A trigraph is a combination of three characters.A trigraph sequence found in the source code is converted to its respective translation character. This allows people to enter certain characters that are not allowed under some (rare) platforms.In 1994 C standards supplied digraphs as more readable alternatives to five of the trigraph characters. Note: These don’t work under turbo c platform. Trigraph sequenceDigraph Equal character??=% :#??(< :[??):>]??/\??<<%{??>%>}??!|??’^??-~Example:#include<stdio.h>void main(){printf(“Hello??/nWorld”);}The above source code is translated into#include<stdio.h>void main(){printf(“Hello\nWorld”);}Output:HelloWorldPoints to remember:Constants can be directly used in printf statementExample:#include<stdio.h>void main(){clrscr();printf(“%d”,10);printf(“\n%f”,12.25);printf(“\n%c”,’x’);printf(“\n%d”,’a’); /* prints the ASCII value of ‘a’ */getch();}Output:1012.250000x97Expressions can be directly used in printf statement:Example:#include<stdio.h>void main(){int x,y;clrscr();x=5;y=2;printf(“Sum=%d”,x+y);printf(“\subtraction=%d”,x-y);printf(“\product=%d”,x*y);printf(“\division=%f”,(float)x/y);getch();}Output:Sum=7Subtraction=3Product=10Division=2.500000When a variable is not declared, then it gives error.Example:#include<stdio.h>void main(){int a,b;clrscr();printf(“Enter two numbers:”);scanf(“%d%d”,&a,&b);c=a+b;printf(“Sum=%d”,c);getch();}Output:Error: Undefined symbol ‘c’ in function main()Assigning a value while declaration of a variable is called initializingExample:#include<stdio.h>void main(){ int x=5,y=2,z=x+y;clrscr();printf(“Sum=%d”,z);getch();}Output:Sum=7When a variable is not initialized or assigned with any value, then it is initialized with an unknown value called garbage value.Example:#include<stdio.h>void main(){int x;clrscr();printf(“%d”,x);getch();}Output:-25524 (Changes machine to machine and execution to execution)/9j/4AAQSkZJRgABAQAAAQABAAD/2wCEAAkGBhQPDxAMDw8PDA8NDRINEA0NDA4PEA4PFRAVFRQQ EhIXHCYqFxkkGxISHy8gLyctLTgsGB4xNTAqNSYrLCkBCQoKBQUFDQUFDSkYEhgpKSkpKSkpKSkp KSkpKSkpKSkpKSkpKSkpKSkpKSkpKSkpKSkpKSkpKSkpKSkpKSkpKf/AABEIAMwAzAMBIgACEQED EQH/xAAcAAEAAgMBAQEAAAAAAAAAAAAAAQcCAwUGBAj/xABCEAACAQMABgYGBggGAwAAAAAAAQID BBEFBxIhMVEGQWFxkaETIjKBscEUIzNiktEkQkNTY3JzolJUgsLS8BUWRP/EABQBAQAAAAAAAAAA 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