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chapter 4
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CONTROL STRUCTURES
CONTROL STRUCTURES
A control structure refers to the way in which the Programmer specifies the order of executing the statements
The following approaches can be chosen depending on the problem statement:
◦ Sequential In a sequential approach, all the statements are executed in the same order as
it is written
◦ Selectional In a selectional approach, based on some conditions, different set of
statements are executed
◦ Iterational (Repetition) In an iterational approach certain statements are executed repeat
SELECTIONAL CONTROL STRUCTURES
There are two select ional control structures If statement Switch statement
SIMPLE IF STATEMENT In a simple ‘if’ statement, a condition is tested If the condition is true, a set of statements are executed If the condition is false, the statements are not executed
and the program control goes to the next statement that immediately follows if block
if (iDuration >= 3) {
/* Interest for deposits equal to or more than 3 years is 6.0% */ fRateOfInterest = 6.0;}
conditionTrue
False
Set ofStatement(s)
Next Statement
Syntax:if (condition) {
Statement(s);}Next Statement;
ELSE STATEMENT (1 OF 2)
In simple ‘if’ statement, when the condition is true, a set of statements are executed. But when it is false, there is no alternate set of statements
The statement ‘else’ provides the same
Syntax:if (condition)
{Statement set-1;
}else {
Statement set-2;}Next Statement;
conditionTrue
False
Statement set-1
Statement set-2
Next Statement
ELSE STATEMENT (2 OF 2)
Example:
if (iDuration >= 3) {/* If duration is equal to or more than 3 years,
Interest rate is 6.0 */fRateOfInterest = 6.0;
}else {
/* else, Interest rate is 5.5 */fRateOfInterest = 5.5;
}
ELSE IF STATEMENT (1 OF 2)
The ‘else if’ statement is to check for a sequence of conditions
When one condition is false, it checks for the next condition and so on
When all the conditions are false the ‘else’ block is executed
The statements in that conditional block are executed and the other ‘if’ statements are skipped
Syntax:
if (condition-1) {Statement set-1;}
else if (condition-2) {Statement set-2;}
………………………………else if (condition-n)
{Statement set-n;}
else {Statement set-x;}
ELSE IF STATEMENT (2 OF 2) Always use ‘else if’ when a sequence of conditions has to be tested. Using only ‘if’ will make the compiler to check all the
conditions. This increases the execution time
Professional code (Using ‘else if’)
if (iDuration >= 6) { fRateOfInterest = 6.5; } else if ((iDuration >= 3) && (iDuration < 6)) { fRateOfInterest = 6.0; } else if (iDuration == 2) { fRateOfInterest = 5.5; } else { fRateOfInterest = 5.0; }
Amateur code (Using only ‘if’)
if (iDuration >= 6) { fRateOfInterest = 6.5; } if ((iDuration >= 3) && (iDuration < 6)) { fRateOfInterest = 6.0; } if (iDuration == 2) { fRateOfInterest = 5.5; } if (iDuration == 1) { fRateOfInterest = 5.0; }
EXAMPLE (1 OF 2 )
#include<stdio.h>#include<conio.h>main(){ int result; printf("Enter your mark:"); scanf("%d",&result); if (result >=55)
{printf("Passed\n");printf("Congratulations\n");
}else
{printf("Failed\n");printf("Good luck repeating this subject :D \n");
}getch();return 0;}
a) 77b) 55c) 48d) 21
EXAMPLE (2 OF 2 )
#include<stdio.h>#include<conio.h>main(){ int test1,test2; int result; printf("Enter your mark for Test 1:"); scanf("%d",&test1); printf("Enter your mark for Test 2:"); scanf("%d",&test2); result=(test1+test2)/2; if(result>=80) { printf("Passed: Grade A\n"); } else if (result>=70) { printf("Passed: Grade B\n"); } else if (result >=55) { printf("Passed: Grade C\n"); } else { printf("Failed\n"); } getch();
return 0;}
ASSIGNMENT(=) VS. EQUALITY OPERATOR (==) (1 OF 3)
The operator ‘=’ is used for assignment purposes whereas the operator ‘==’ is used to check for equality
It is a common mistake to use ‘=’ instead of ‘==’ to check for equality
The compiler does not generate any error message
Example:
if (interest = 6.5) {printf(“Minimum Duration of deposit: 6 years”);
}else if (interest = 6.0) {
printf(“Minimum Duration of deposit: 3 years”);}else {
printf(“No such interest rate is offered”);}
The output of the above program will be “Minimum Duration of deposit: 6 years” the control structure Is ignored
ASSIGNMENT(=) VS. EQUALITY OPERATOR (==) (2 OF 3) To overcome the problem, when constants are compared with
variables for equality, write the constant on the left hand side of the equality symbol
Example:if (6.5 = interest) {
printf(“Minimum Duration of deposit: 6 years”);}else if (6.0 = interest) {
printf(“Minimum Duration of deposit: 3 years”);}else {
printf(“No such interest rate is offered”);}
When the above code is compiled it generates compilation errors because the variable’s value is being assigned to a constant
This helps in trapping the error at compile time itself, even before it goes to unit testing
ASSIGNMENT(=) VS. EQUALITY OPERATOR (==) (3 OF 3)
Corrected Code:if (6.5 == interest) {
printf(“Minimum Duration of deposit: 6 years”);}else if (6.0 == interest) {
printf(“Minimum Duration of deposit: 3 years”);}else {
printf(“No such interest rate is offered”);}
NESTED IF STATEMENT
An ‘if’ statement embedded within another ‘if’ statement is called as nested ‘if’
Example:if (iDuration > 6 )
{if (dPrincipalAmount > 25000) {printf(“Your percentage of incentive is 4%”);}else {printf(“Your percentage of incentive is 2%”);}
else {printf(“No incentive”);}
#include<stdio.h>
#include<conio.h>
main()
{
int iDuration, dPrincipalAmount;
printf("Enter value for iDuration:");
scanf("%d",&iDuration);
if (iDuration > 6 ) {
printf("What is yout dPrincipalAmount:");
scanf("%d",&dPrincipalAmount);
if (dPrincipalAmount > 25000) {
printf("Your percentage of incentive is 4%");
}
else {
printf("Your percentage of incentive is 2%");
}
}
else {
printf("No incentive");
}
getch();
return 0;
}
What the output ifa. iDuration=9
dPrincipalAmount=26000b. iDuration=10
dPrincipalAmount=21000c. iDuration=4
dPrincipalAmount=21000
EXAMPLE NESTED IF
#include<stdio.h>#include<conio.h>main(){ int num1; int num2; printf("Please enter two integers\n"); printf("Num1:"); scanf("%d",&num1); printf("Num2:"); scanf("%d",&num2); if(num1<=num2) { if(num1<num2) { printf("%d < %d\n",
num1,num2); } else { printf("%d==%d\n",num1,num2); } } else { printf("%d > %d\n",num1,
num2); } getch();return 0;}
What the output ifa. num1=55
num2=55b. num1=25
num2=89c. num1=90
num2=10
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
iResult = iNum % 2;
if ( iResult = 0) {
printf("The number is even");
}
else {
printf("The number is odd");
}
CASE 1: When iNum is 11
CASE 2: When iNum is 8
The output is "The number is odd"
The output is "The number is odd"
Explains???
Switch case Statement
The ‘switch’ statement is a type of decision control structure that selects a choice from the set of available choices
It is very similar to ‘if’ statement But ‘switch’ statement cannot replace ‘if’ statement in all situations Syntax:Switch(integer variable or integer expression or character variable) {
case integer or character constant-1 : Statement(s);break;
case integer or character constant-2 :Statement(s);break;
……………case integer or character constant-n :
Statement(s); break;
default: Statement(s);
break;}
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
int iNino = 2;
switch(iNino){case 1:
printf(“ONE”);break;
case 2:printf(“TWO”);break;
case 3:printf(“THREE”);break;
default:printf(“INVALID”);break;
}
Output:
TWO
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
switch (departmentCode){case 110 :
printf(“HRD”);break;
case 115 : printf(“IVS”); break;
case 125 :printf(“E&R”); break;
case 135 : printf(“CCD”);
} Assume departmentCode is 115 and find the output
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
int iNum = 2;switch(iNum) {
case 1.5:printf(“ONE AND HALF”);break;
case 2:printf(“TWO”); break;
case ‘A’ :printf(“A character”);
}
Case 1.5: this is invalid because the values in case statements must be integers
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
unsigned int iCountOfItems = 5;
switch (iCountOfItems) {
case iCountOfItems >=10 :
printf(“Enough Stock” );
break;
default :
printf(“Not enough stock”);
break;
}
Error: Relational Expressions cannot be used in switch statement
AN EXAMPLE – SWITCH CASE
#include<stdio.h>#include<conio.h>main(){char ch;printf("Enter the vowel:");scanf("%c",&ch);switch(ch) {
case 'a' : printf("Vowel"); break;
case 'e' : printf("Vowel"); break;case 'i' : printf("Vowel");
break;case 'o' : printf("Vowel");
break;case 'u' : printf ("Vowel");
break;default : printf("Not a vowel");
}getch();return 0;}
AN EXAMPLE – SWITCH CASE
char ch=‘a’;
switch(ch) {
case ‘a’ : printf(“Vowel”);
break;
case ‘e’ : printf(“Vowel”);
break;
case ‘i’ : printf(“Vowel”);
break;
case ‘o’ : printf(“Vowel”);
break;
case ‘u’ : printf (“Vowel”);
break;
default : printf(“Not a vowel”);
}
char ch=‘a’;
switch(ch) {
case ‘a’ :
case ‘e’ :
case ‘i’ :
case ‘o’ :
case ‘u’ : printf(“Vowel”);
break;
default :
printf(“Not a
vowel”);
}
AN EXAMPLE – SWITCH CASE#include<stdio.h>#include<conio.h>main(){ int greeting; printf("Enter the number of your desired greetings :"); scanf("%d",&greeting); switch (greeting){
case 1: printf("Happy Hari Raya"); break;
case 2: printf("Happy Deepavali");
break;case 3:
printf("Happy New Year"); break;default:
printf("You choose wrong choice"); break; }getch();return 0;}
If you choose a. 1…Happy Hari Rayab. 2…Happy Deepavalic. 3… Happy New Yeard. Other than that…….You choose wrong
choice
ITERATION CONTROL STRUCTURES
Iterational (repetitive) control structures are used to repeat certain statements for a specified number of times
The statements are executed as long as the condition is true
These kind of control structures are also called as loop control structures
are three kinds of loop control structures:◦ while◦ do while◦ for
DO WHILE LOOP CONTROL STRUCTURE
The ‘do while’ loop is very similar to ‘while’ loop. In ‘do while’ loop, the condition is tested at the end of the loop
Because of this, even when the condition is false, the body of the loop is executed at least once
This is an exit-controlled loop Syntax:
do {Set of statement(s);
} while (condition);Next Statement;
conditionTrue
False
Set of statements
Next Statement
Execution proceeds as follows: First the loop is executed, next the condition is evaluated, if
condition evaluates to true the loop continues execution else control passes to the next statement following the loop
The do-while statement can also terminate when a break, goto, or return statement is executed within the statement body. This is an example of the do-while statement:
do{ a = b ; b = b – 1;
} while ( b > 0 ); In the above do-while statement, the two statements a = b; and b =
b - 1; are executed, regardless of the initial value of b. Then b > 0 is evaluated. If b is greater than 0, the statement body is executed again and b > 0 is reevaluated. The statement body is executed repeatedly as long as b remains greater than 0. Execution of the do-while statement terminates when b becomes 0 or –ve. The body of the loop is executed at least once.
DO WHILE LOOP CONTROL STRUCTURE
DO WHILE LOOP CONTROL STRUCTURE EXAMPLE
int iNumber, iSum = 0;do {
printf(“Enter a number. Type 0(zero) to end the input ”);
scanf(“%d”,&iNumber);iSum = iSum + iNumber;
} while (iNumber != 0);
Difference between while and do while loops
While loop do while loop The condition is tested before entering into the loop.
The condition is tested at the end of the loop.
When the condition is false at the initial stage, the loop statements are not executed at all.
The statements are executed at least once even when the condition is false.
It is an entry-controlled loop. It is an exit-controlled loop.
#include<stdio.h>#include<conio.h>int main(void){ int x=1; do{ printf("%d", x+
+); }
while (x<5); getch(); return 0; }
DO – WHILE AND WHILE EXAMPLE
2
3
4
#include<stdio.h>#include<conio.h>int main(void){ int x=1; while(x<5){ printf("%d", x);
x++; } getch(); return 0; }
FOR LOOP CONTROL STRUCTURE
The ‘for’ loops are similar to the other loop control structures
The ‘for’ loops are generally used when certain statements have to be executed a specific number of times
Advantage of for loops: All the three parts of a loop (initialization, condition and
increment) can be given in a single statement Because of this, there is no chance of user missing out
initialization or increment steps which is the common programming error in ‘while’ and ‘do while’ loops
Syntax:
for (Initialization; Termination-Condition; Increment-Step) {
Set of statement(s);
}
Next Statement;
In executing a for statement, the computer does the following: Initialization is executed. Then the Termination-condition is evaluated. If it
computes to zero the loop is exited. If the (1)Termination-condition gives a nonzero
value, the (2)LoopBody is executed and then the (3)Increment-step is evaluated.
The Termination-condition is again tested. Thus, the LoopBody is repeated until the Termination-condition computes to a zero value.
SYNTAX:FOR (INITIALIZATION; TERMINATION-CONDITION;
INCREMENT-STEP) {SET OF STATEMENT(S);
}NEXT STATEMENT;
FOR LOOP CONTROL STRUCTURE
conditionTrue
False
Set of statements
Next Statement
Initialization
Increment
Example:
int iCount;
for (iCount = 1; iCount <= 10; iCount++) {
printf(“%d\n”,iCount);
}
123456 7 8 9 10
12345678910
FOR LOOP CONTROL STRUCTURE /* CHECK FOR N NUMBER OF STUDENTS, WHETHER THEY HAVE PASSED OR NOT */#include<stdio.h>#include<conio.h>
int main(void){ int iCounter, iNoOfStudents; float fMark1, fMark2, fMark3, fAvg, fSum; for(iCounter=1; iCounter<=iNoOfStudents; iCounter++) {
/* Accepting the marks scored by the students in 3 subjects */ /* Display a message before accepting the marks*/printf("Enter the marks scored by the student %d in 3 subjects\n", iCounter);printf("Subject1:");scanf("%f",&fMark1);printf("Subject2:");scanf("%f",&fMark2);printf("Subject3:");scanf("%f",&fMark3);/* calculating the average marks */fSum=fMark1+fMark2+fMark3;fAvg=fSum/3;/* compare the average with 65 and decide whether student has passed or failed */if ( fAvg >= 65.0)
printf("Student %d - PASSES\n", iCounter);else
printf("Student %d - FAILS\n", iCounter); }getch();return 0;}
#include<stdio.h>
#include<conio.h>
int main(void)
{
int x, y;
for(x=0,y=1;x<y;x++)
printf("%d %d",x,y);
getch();
return 0;
}
FOR LOOP CONTROL STRUCTURE
O 1
#include<stdio.h>
#include<conio.h>
int main(void)
{
int x;
for(x=1;x<5;x++)
printf("%d",x);
getch();
return 0;
}
FOR LOOP CONTROL STRUCTURE
1 2 3 4
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
int iNum;
int iCounter;
int iProduct;
for(iCounter=1; iCounter<= 3; iCounter++) {
iProduct = iProduct * iCounter;
}
printf("%d", iProduct);
The output is a junk value -- WHY???
This is because iProduct is not initialized
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
for(iCount=0;iCount<10;iCount++);
{
printf("%d\n",iCount);
}The output is 10
int iCount; for(iCount=0;iCount<10;iCount++){
printf("%d\n",iCount);}
The output is 0 1 2 3 4 5 6 7 8 9
FOR AND WHILE LOOPS
Given
#include<stdio.h>
#include<conio.h>
int main(void)
{
int iSum,iCtr,iNum;
for(iSum=0,iCtr=0;
iCtr<10;iCtr=iCtr+1){
printf("Enter mark: ");
scanf("%d",&iNum);
iSum=iSum+iNum;
}
printf("%d",iSum);
getch();
return 0;
}
Rewrite it using while statement
#include<stdio.h>#include<conio.h>int main(void){ int iSum,iCtr,iNum;iSum=0,iCtr=0;while(iCtr<10){ printf("Enter mark: "); scanf("%d",&iNum); iSum=iSum+iNum; iCtr=iCtr+1;}printf("%d",iSum);getch();return 0;}
QUITTING THE LOOPS – BREAK STATEMENT
The break statement is used to: Force the termination of a loop. When a break statement is encountered in a loop,
the loop terminates immediately and the execution resumes the next statement following the loop.
Note: Break statement can be used in an if statement
only when the if statement is written in a loop Just an if statement with break leads to compilation
error in C
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
int iCounter1=0;
int iCounter2;
while(iCounter1 < 3) {
for (iCounter2 = 0; iCounter2 < 5; iCounter2++) {
printf("%d\t",iCounter2);
if (iCounter2 == 2){
break;
}
}
printf("\n");
iCounter1 += 1;
}
0 1 2
0 1 2
0 1 2
CONTINUING THE LOOPS - CONTINUE STATEMENT
‘continue’ statement forces the next iteration of the loop to take place and skips the code between continue statement and the end of the loop
In case of for loop, continue makes the execution of the increment portion of the statement and then evaluates the conditional part.
In case of while and do-while loops, continue makes the conditional statement to be executed.
Example:
for(iCount = 0 ; iCount < 10; iCount++) {
if (iCount == 4) {
continue;
}
printf(“%d”, iCount);
}
The above code displays numbers from 1 to 9 except 4.
COMPARISON OF BREAK, CONTINUE AND EXIT
break continue exit()
Used to quit an innermost loop or switch
Used to continue the innermost loop
Used to terminate the program
Can be used only within loops or switch
Can be used only within the loops
Can be used anywhere in the program
WHAT IS THE OUTPUT OF THE FOLLOWING CODE SNIPPET?
Case 1:
Case 3:
Case 2:
iCount = 1;
do {
printf(“%d\n”,iCount);
iCount++;
if (iCount == 5) {
continue;
}
} while(iCount < 10);
for (iCount=1;iCount <= 10; iCount++) {
if (iCount % 2 == 0) {
continue;
}
printf(“%d\n”,iCount);
}
iCount = 1;
while (iCount < 10) {
if (iCount == 5) {
continue;
}
printf(“%d\n”,iCount);
iCount++;
}
for (iCount=1;iCount <= 5; iCount++) {
for (iValue =1; iValue <= 3; iValue++) {
if (iValue == 2) {
break;
}
printf(“%d\n”,iValue);
}
}
Case 4:
1
2
3
4
5
6
7
8
9
1
2
3
4
1
3
5
7
9
1
1
1
1
1
SELECTING BETWEEN WHILE, DO WHILE AND FOR LOOPS
A ‘for’ loop is used when the number of times the loop is executed is well known
A ‘while’ loop is used when the number of times the loop gets executed is not known and the loop should not be executed when the condition is initially false
A ‘do while’ loop is used when the number of times the loop gets executed is not known and the loop should be executed even when the condition is initially false
END OF SLIDE
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