L6-L9-Variables, Data types, sizes and constants .pdf

Transcript

C Program,
Variables, Data types, sizes
and constants
 Objectives
To learn and appreciate
− General Structure of C program

− C Tokens

− Variables

− Declarations

− Data Types and Sizes

− Arithmetic Operators
− Relational and Logical Operators
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 Session outcome
At the end of session student will be able to learn and understand

− General structure of C program
− C Tokens
− Variables
− Declarations
− Data Types and Sizes
− Arithmetic Operators
− Relational and Logical Operators
− Type conversions
− Increment and Decrement Operators
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− Bitwise Operators
General Structure of C program

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C program for reading a number and display it on the screen
//Program to read and display a number
#include
int main()
{
int num;
printf("\nEnter the number: ");
scanf("%d", &num);
printf(“The number read is: %d", num);
return(0);
}
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Adding two integers
#include
int main( void )
{
int sum;
int integer1;
int integer2;
printf( "Enter first integer\n" );
scanf( "%d", &integer1 );
printf( "Enter second integer\n" );
scanf( "%d", &integer2 );
sum = integer1 + integer2;
printf( "Sum is %d\n", sum );
return 0;
}

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 C Character set
Character set is a set of valid characters that a language can recognize.
C character set consists of letters, digits, special characters, white spaces.

(i) Letters → ‘a’, ‘b’, ‘c’,………..’z’ Or ‘A’, ‘B’, ‘C’,……….’Z’

(ii) Digits → 0, 1, 2,……………………9

(iii)Special characters → ;, ?, >,
% ‘9’
… Array name …
… &
… “hello”…
{
}
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 Keywords

These are some reserved words in C which have predefined meaning to
compiler called keywords.

Keywords are not to be used as variable and constant names.

All keywords have fixed meanings and these meanings cannot be changed.

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Compiler specific keywords
Some commonly used keywords are given below:

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 Variables
Variables are data storage locations in the computer’s memory.

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Variables
Variables are the symbolic names for storing computational data.

Variable: a symbolic name for a memory location

In C variables have to be declared before they are used
Ex: int x

A variable may take different values at different times during execution.

Declarations reserve storage for the variable.

Value is assigned to the variable by initialization or assignment
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Variable declarations

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 Variable Names- Identifiers
Symbolic names can be used in C for various data items used by a
programmer.

A symbolic name is generally known as an identifier. An identifier
is a name for a variable, constant, function, etc.

The identifier is a sequence of characters taken from C character
set.

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Variable names
Rules for valid variable names (identifiers) :

Name must begin with a letter or underscore ( _ ) and can be followed by any
combination of letters, underscores, or digits.

Key words cannot be used as a variable name.

C is case-sensitive: sum, Sum, and SUM each refer to a different variable.

Variable names can be as long as you want, although only the first 63 (or 31)
characters might be significant.

Choice of meaningful variable names can increase the readability of a program
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 Variable names
Examples of valid variable names:
1) Sum
2) _difference
3) a
4) J5x7
5) Number_of_moves

Examples of invalid variable names:
1) sum$value
2) 3val
3) int
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Declaring variables
C imposes to declare variables before their usage.
Advantages of variable declarations:
Putting all the variables in one place makes it easier for a reader to
understand the program.
Thinking about which variables to declare encourages the programmer to do
some planning before writing a program.
The obligation to declare all variables helps prevent bugs of misspelled
variable names.
Compiler knows the amount of memory needed for storing the variable.
Compiler can verify that operations done on a variable are allowed by its
type.
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 Primary (built-in or Basic)Data types
INTEGER CHARACTER

SIGNED TYPE UNSIGNED TYPE
INT UNSIGNED INT SIGNED CHARACTER
SHORT INT UNSIGNED SHORT INT UNSIGNED CHARACTER
LONG INT UNSIGNED LONG INT

FLOATING POINT TYPE VOID
FLOATING POINT TYPE
FLOAT VOID
DOUBLE
LONG DOUBLE

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Data types
Basic data types: int, float, double, char, and void.
✓int: can be used to store integer numbers (values with no decimal places).

✓float: can be used for storing floating-point numbers (values containing decimal
places).

✓double: the same as type float, and roughly twice the size of float.

✓char: can be used to store a single character, such as the letter a, the digit
character 6, or a semicolon.

✓ void: is used to denote nothing or empty.

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Integer Types
The basic integer type is int
▪ The size of an int depends on the machine and on PCs it is normally 16 or 32 or 64
bits.

modifiers (type specifiers)
▪ short: typically uses less bits
▪ long: typically uses more bits
▪ Signed: both negative and positive numbers
▪ Unsigned: only positive numbers

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 SIZE AND RANGE OF VALUES
FOR 16-BIT MACHINE (INTEGER TYPE)
Type Size Range

short int or
signed short int 8 -128 to 127
short
unsigned int
8 0 to 255

int or signed int 16 -32,768 to 32,767
Integer
unsigned int 16 0 to 65,535
long int or -2,147,483,648 to
signed long int 32
Long 2,147,483,647
unsigned long int 32 0 to 4,294,967,295

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The char type
A char variable can be used to store a single character.

A character constant is formed by enclosing the character within a pair of single
quotation marks. Valid examples: 'a’.

Character zero ( ‘0’ ) is not the same as the number (integer constant) 0.

The character constant ‘\n’—the newline character—is a valid character
constant. It is called as an escape character.

There are other escape sequences like, \t for tab, \v for vertical tab, \n for new
line etc.

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Character Types
Character type char is related to the integer type.
Modifiers(type specifiers) unsigned and signed can be used
▪ char →1 byte (-128 to 127)
▪ signed char →1 byte (-128 to 127)
▪ unsigned char →1 byte (0 to 255)
ASCII (American Standard Code for Information Interchange ) is the dominant
encoding scheme for characters.
▪ Examples
✓ ' ' encoded as 32 '+' encoded as 43
✓ 'A' encoded as 65 …………………….'Z' encoded as 90
✓ 'a' encoded as 97 ……………………. 'z' encoded as 122
✓ ‘0’ encoded as 48 ……………………..’9’ encoded as 57
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 Assigning values to char
char letter;

letter = ‘A';
letter = A;
letter = “A";
letter = 65;

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Floating-Point Types
Floating-point types represent real numbers
▪ Integer part
▪ Fractional part
The number 108.1517 breaks down into the following parts
▪ 108 - integer part
▪ 1517 - fractional part
Floating-point constants can also be expressed in scientific notation. The value
1.7e4 represents the value 1.7 × 104.
The value before the letter e is known as the mantissa, whereas the value that
follows e is called the exponent.
There are three floating-point type specifiers
▪ float
▪ double
▪ long double
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 SIZE AND RANGE OF VALUES
FOR 16-BIT MACHINE (FLOATING POINT TYPE)
Type Size

32 bits
Single Precision Float
4 bytes

64 bits
Double Precision double 8 bytes

Long Double 80 bits
long double
Precision 10 bytes

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 void
2 uses of void are
▪To specify the return type of a function when it is not returning
any value.
▪To indicate an empty argument list to a function.

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 Summary
We have learnt about
− General Structure of C program
− C Tokens
− Variables
− Declarations
− Data Types and Sizes
− Arithmetic Operators
− Relational and Logical Operators
− Type conversions
− Increment and Decrement Operators
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− Bitwise Operators
Objectives
To learn and appreciate
− Arithmetic Operators
− Relational and Logical Operators
− Type conversions
− Increment and Decrement Operators
− Bitwise Operators
− Assignment Operators and Conditional Expressions
− Precedence and Order of Evaluation

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Session outcome
At the end of session student will be able to learn and
understand
− Arithmetic Operators
− Relational and Logical Operators
− Type conversions
− Increment and Decrement Operators
− Bitwise Operators
− Assignment Operators and Conditional Expressions
− Precedence and Order of Evaluation

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Operators
The different operators are:
Arithmetic
Relational
Logical
Increment and Decrement
Bitwise
Assignment
Conditional

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Arithmetic Operators
The binary arithmetic operators are +, -, *, / and the modulus operator %.
The / operator when used with integers truncates any fractional part i.e.
E.g. 5/2 = 2 and not 2.5
Therefore % operator produces the remainder when 5 is divided by 2 i.e.
1
The % operator cannot be applied to float or double
E.g. x % y wherein % is the operator and x, y are operands

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The unary minus operator
#include
int main ()
{
int a = 25;
int b = -2;
printf(“%d\n”,-a);
printf(“%d\n”,-b);
return 0;
}

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Working with arithmetic expressions
Basic arithmetic operators: +, -, *, /, %
Precedence: One operator can have a higher priority, or precedence, over another operator. The
operators within C are grouped hierarchically according to their precedence (i.e., order of
evaluation)
Operations with a higher precedence are carried out before operations having a lower
precedence.
High priority operators * / %
Low priority operators + -
Example: * has a higher precedence than +
a + b * c → a+(b*c)
If necessary, you can always use parentheses in an expression to force the terms to be
evaluated in any desired order.
Associativity: Expressions containing operators of the same precedence are evaluated either from
left to right or from right to left, depending on the operator. This is known as the associative
property of an operator.
Example: + has a left to right associativity
For both the precedence group described above, associativity is “left to right”.
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Working with arithmetic expressions
#include
int main ()
{
int a = 100;
int b = 2;
int c = 25;
int d = 4;
int result;
result = a * b + c * d;
printf(“ Result1: %d\n”,result);
result = a * (b + c * d);
printf(“ Result2: %d\n”,result);
return 0;
}
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 Relational operators
Operator Meaning
== Is equal to
!= Is not equal to
< Is less than
Is greater than
>= Is greater or equal

The relational operators have lower precedence than all
arithmetic operators:
a < b + c is evaluated as a < (b + c)

ATTENTION !
the “is equal to” operator == and the “assignment” operator =

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 Relational operators
An expression such as a < b containing a relational operator is called a relational
expression.

The value of a relational expression is one, if the specified relation is true and zero if the
relation is false.
E.g.:
10 < 20 is TRUE
20 < 10 is FALSE
A simple relational expression contains only one relational operator and takes the
following form.

ae1 relational operator ae2

ae1 & ae2 are arithmetic expressions, which may be simple constants, variables or
combinations of them.
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Relational operators
The arithmetic expressions will be evaluated first & then the results will be
compared. That is, arithmetic operators have a higher priority over relational
operators. > >= < (i+5) false 0
k!=3 false 0
j==2 true 1
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 Logical operators
Truth Table

Operator Symbol Example
AND && expression1 && expression2
OR || expression1 || expression2
NOT ! !expression1

The result of logical operators is always either 0 (FALSE) or 1 (TRUE)
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 Logical operators
Expressions Evaluates As

(5 == 5)&&(6 != 2) True (1) because both operands are true

(5 > 1) || (6 < 1) True (1) because one operand is true

(2 == 1)&&(5 ==5) False (0) because one operand is false

! (5 == 4) True (1) because the operand is false

!(FALSE) = TRUE
!(TRUE) = FALSE

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Increment and Decrement operators (++ and -- )
The operator ++ adds 1 to the operand.

The operator -- subtracts 1 from the operand.

Both are unary operators.

Ex: ++i or i++ is equivalent to i=i+1

They behave differently when they are used in expressions on
the R.H.S of an assignment statement.
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Increment and Decrement operators
Ex:
m=5;
y=++m; Prefix Mode
In this case, the value of y and m would be 6.

m=5;
y=m++; Postfix Mode
Here y continues to be 5. Only m changes to 6.

Prefix operator ++ appears before the variable.
Postfix operator ++ appears after the variable.
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Increment and Decrement operators
Don’ts:
Attempting to use the increment or decrement operator on an
expression other than a modifiable variable name or reference.

Example:
++(5) is a syntax error

++(x + 1) is a syntax error

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 Bitwise Operators

▪ Bitwise Logical Operators

▪ Bitwise Shift Operators

▪ Ones Complement operator

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 Bitwise Logical operators

▪&(AND),|(OR),^(EXOR) op op
& | ^
1 2
▪ These are binary operators and require
1 1 1 1 0
two integer operands.
1 0 0 1 1
▪ These work on their operands bit by bit
starting from LSB (rightmost bit). 0 1 0 1 1
0 0 0 0 0

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Example
Suppose x = 10, y = 15
z = x & y sets z=10 like this
0000000000001010  x
0000000000001111  y
0000000000001010  z = x & y

Same way |,^ according to the table are computed.

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Bitwise Shift operators
▪

▪ These are used to move bit patterns either to the left or right.

▪ They are used in the following form

▪opn here op is the operand to be shifted and n is
number of positions to shift.

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Bitwise Shift operator:

▪ >> causes all the bits in operand op to be shifted to the
right by n positions.

▪The rightmost n bits will be lost and the left most vacated bits
are filled with 0’s if number is unsigned integer

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 Examples
▪Suppose X is an unsigned integer whose bit pattern is
0000 0000 0000 1011

✓x1 Add ZEROS 0000 0000 0000 0101

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Examples
▪Suppose X is an unsigned integer whose bit pattern is 0000
0000 0000 1011 whose equivalent value in decimal number
system is 11.
✓x2 Add Z EROS 0000 0000 0000 0010 =2

Note:
✓x=y1; same as x=y/2 (Division)

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Bitwise Shift operators
▪Op and n can be constants or variables.

▪There are 2 restrictions on the value of n
✓n cannot be –ve

✓n should not be greater than number of bits used to represent Op.(E.g.:
suppose op is int and size is 2 bytes then n cannot be greater than 16).

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Bitwise complement operator
▪The complement operator(~) is an unary operator and inverts all
the bits represented by its operand.

▪Suppose x=1001100010001111
~x=0110011101110000 (complement)

▪Also called as 1’s complement operator.

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Type Conversions in Expressions
C permits mixing of constants and variables of different types in an
expression

C automatically converts any intermediate values to the proper type
so that the expression can be evaluated without losing any
significance.

This automatic conversion is known as implicit type
conversion

The table in the next slide gives the implicit type conversions
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Type Conversions in Expressions
The following are the sequence of rules that are applied while evaluating expressions

Lower Type Operands Higher Type Operands
Short or Char int
One operand is Long double, the other will be Result is also long double
converted to long double
One operand is double, the other will be Result is also double
converted to double
One operand is float, the other will be converted Result is also float
to float
One operand is unsigned Long int, the other will Result is also unsigned long int
be converted to unsigned long int

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Type Conversions in Expressions
Lower Type Operands Higher Type Operands
One operand is Long int, and the other is a) Result will be long int
unsigned int then
a) If unsigned int can be converted to long int the
unsigned int operand will be converted
b) Else both operands will be converted to b) Result will be unsigned long
unsigned long int int
One operand is Long int, the other will be Result is also long int
converted to long int

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Type Conversions in Expressions
The final result of an expression is converted to the type of the variable on
the left of the assignment sign before assigning the value to it

However the following changes are introduced during the final assignment
Float to int causes truncation of the fractional part
Double to float caused rounding of digits
Long int to int causes dropping of the excess higher order bits

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Type Conversions in Expressions
Explicit type conversion or type casting
There are instances when we want to force a type conversion in a way that is
different from the automatic conversion
E.g. ratio=57/67

Since 57 and 67 are integers in the program , the decimal part of the result of
the division would be lost and ratio would represent a wrong figure

This problem can be solved by converting locally as one of the variables to the
floating point as shown below:
ratio= (float) 57/67

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Type Conversions in Expressions
The operator (float) consider 57 for computation to floating point then using the
rule of automatic conversion

The division is performed in floating point mode, thus retaining the fractional part
of result

The process of such a local conversion is known as explicit conversion
or casting a value

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The Type Cast Operator
The general form of a type casting is
(type-name) expression
int a =150;
float f; f = (float)a / 100; // type cast operator
The type cast operator has the effect of converting the value of the variable ‘a’ to type
float for the purpose of evaluation of the expression.
This operator does NOT permanently affect the value of the variable ‘a’;
The type cast operator has a higher precedence than all the arithmetic operators except
the unary minus and unary plus.
Examples of the use of type cast operator:
(int) 29.55 + (int) 21.99 results in 29 + 21
(float)6 /(float)4 results in 1.5
(float)6 / 4 results in 1.5
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Type Conversions in Expressions

Example Action
7.5 is converted to integer by
x=(int) 7.5
truncation
Evaluated as 21/4 and the result would
a=(int) 21.3/(int)4.5
be 5
b=(double)sum/n Division is done in floating point mode
y=(int)(a+b) The result of a+b is converted to integer
a is converted to integer and then
z=(int)a+b
added to b
p= cos((double)x) Converts x to double before using it

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Integer and Floating-Point Conversions
Assign an integer value to a floating variable: does not cause any change in the
value of the number; the value is simply converted by the system and stored in
the floating format.
Assign a floating-point value to an integer variable: the decimal portion of the
number gets truncated.
Integer arithmetic (division):
int divided by int => result is integer division
int divided by float or float divided by int => result is
real division (floating-point)

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Integer and Floating-Point Conversions
#include
int main ()
{ float f1 = 123.125, f2;
int i1, i2 = -150;
i1 = f1; // float to integer conversion
printf (“float assigned to int produces”);
printf(“%d\n”,i1); 123
f2 = i2; // integer to float conversion
printf(“integer assigned to float produces”);
print(“%.2f\n”,f2); -150.00
i1 = i2 / 100; // integer divided by integer
printf(“integer divided by integer produces”);
printf(“%d\n”,i1); -1
f1 = i2 / 100.0; // integer divided by a float
printf(“integer divided by float produces”);
printf(“%.2f\n”,f1); -1.50
return 0;
}
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The assignment operators
The C language permits you to join the arithmetic operators with the
assignment operator using the following general format: op=, where op is an
arithmetic operator, including +, –, *, /, and %.

Example:
count += 10;
Equivalent to:
count=count+10;

Example: precedence of op=:
a /= b + c
Equivalent to:
a = a / (b + c)

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The conditional operator (? :)
condition ? expression1 : expression2

condition is an expression that is evaluated first.
If the result of the evaluation of condition is TRUE (nonzero), then expression1 is
evaluated and the result of the evaluation becomes the result of the operation.
If condition is FALSE (zero), then expression2 is evaluated and its result becomes the
result of the operation.

maxValue = ( a > b ) ? a : b;

Equivalent to:
if ( a > b )
maxValue = a;
else
maxValue = b;
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Comma (,) operator
▪ The coma operator is used basically to separate expressions.
i = 0, j = 10; // in initialization [ l → r ]

▪ The meaning of the comma operator in the general expression e1, e2 is

“evaluate the sub expression e1, then evaluate e2; the value of the
expression is the value of e2 ”.

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Operator precedence & Associativity
Operator Category Operators Associativity
Unary operators + – ++ –– ~! R→L
Arithmetic operators */% L→R
Arithmetic operators +– L→R
Bitwise shift left > L→R
Bitwise shift right
Relational operators < >= L→R
Equality operators == != L→R
Bitwise AND, XOR, OR &^| L→R
Logical and && L→R
Logical or || L→R
Assignment operator = += – = R→L
*= /= %=

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Summary of Operators – detailed precedence
table

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Example:
Show all the steps how the following expression is evaluated.
Consider the initial values of i=8, j=5.

2*((i/5)+(4*(j-3))%(i+j-2))

73
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Example solution:
2*((i/5)+(4*(j-3))%(i+j-2)) i→8, j→5

2*((8/5)+(4*(5-3))%(8+5-2))
2*(1+(4*2)%11)
2*(1+8%11)
2*(1+8)
2*9
18

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Operator precedence & Associativity
Ex: (x==10 + 15 && y < 10)
Assume x=20 and y=5

Evaluation:
+ (x==25 && y< 10)
< (x==25 && true)
== (False && true)
&& (False)

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Tutorial Problems
Suppose that a=2, b=3 and c=6, What is the answer for the following: (a==5)
(a * b > =c)
(b+4 > a *c)
((b=2)==a)
Evaluate the following:
1. ( (5 == 5) && (3 > 6) )
2. ( (5 == 5) || (3 > 6) )
3. 7==5 ? 4 : 3
4. 7==5+2 ? 4 : 3
5. 5>3 ? a : b
6. K = (num > 5 ? (num =c) → 1
iii. (b+4 > a *c) → 0
iv. ((b=2)==a) → 1
2. Evaluate the following:
i. ( (5 == 5) && (3 > 6) ) → 0
ii. ( (5 == 5) || (3 > 6) ) → 1
iii. 7==5 ? 4 : 3 → 3
iv. 7==5+2 ? 4 : 3 → 4
v. 5>3 ? a : b → 2
vi. K = (num > 5 ? (num