BUILDING JAVA PROGRAMS CHAPTER 2 PRIMITIVE DATA TYPES AND OPERATIONS.
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Transcript of BUILDING JAVA PROGRAMS CHAPTER 2 PRIMITIVE DATA TYPES AND OPERATIONS.
BUILDING JAVA PROGRAMSCHAPTER 2PRIMITIVE DATA TYPES AND OPERATIONS
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OBJECTIVES
Identify Java’s primitive data types and operators.
Evaluate complex expressions using rules of precedence and mixed types.
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DATA TYPES
A name for a category of data values that are all related.
Different data types support different operations and behave differently.You can multiply numbers, but can you multiply strings? Can you add them?
Stored differently in computer memory as well.27 = 00011011
“hello” = 01101000 00000101 1101100 1101100 01101111
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JAVA’S PRIMITIVE DATA TYPES
Name Description Example
int integers (whole numbers)
42, -3, 18, 20493, 0
double real numbers 7.35, -19.83423, 18.0
char single characters 'a', 'X', '3', '\n'
boolean logical values true, false
Variations of int: byte, short, long
Variations of double: float
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JAVA’S ARITHMETIC OPERATORS
Operator Meaning Example Result
+ addition 2 + 2 4
– subtraction 53 – 18 35
* multiplication 3 * 8 24
/ division 4.8 / 2.0 2.4
% mod (remainder)
19 % 5 4
Most behave exactly like you would expect them to in math class, but we’ll learn about the exceptions soon.
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EXPRESSIONS
An expression is a simple value or a set of operations that produces a value.
Simplest expressions are literals of the data types we know. E.g. 27, “Seattle... Yay!", -1.7, false
More complex expressions can use operators and parentheses. E.g.:
5 * 2 7 - 3 * (1.3 – (5.7 – 3))
System.out.println( 5 * 2 / 3 + 6 );
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FLOATING-POINT DIVISION
When dividing double or float values, it’s just like math class, but with some rounding errors here and there…
5.0 / 2.0 = 2.5
10.0 / 3.0 = 3.3333333333333335 (rounding error!)
4.0 / 5.0 = 0.8
8.0 / 3.0 * 3.0 = 8.0
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INTEGER DIVISION… WEIRD…
When dividing integers, we keep the whole part, but discard the fractional part.
5 / 2 = 2 not 2.5
10 / 3 = 3 not 3.333…
4 / 5 = 0 not 0.8
8 / 3 * 3 =
?2 * 3 = ?6 not 8!
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INTEGER MOD (%)
The mod operator computes the remainder of a division
6 / 4 = 1, but it would have had a remainder 2
Therefore, 6 % 4 = 2
20 % 7 = 15 % 4 =
13857 % 2 = 13856 % 2 =
8374 % 10 = 8374 % 100 =
36 % 6 = 7 % 9 =
6 3
1 0
4 74
0 7
1010
In your notebook…
1. Write four expressions using only % and / that will get me the four individual digits of 7382.
a. 7382
b. 7382
c. 7382
d. 7382
*** Will your expressions work for other four-digit numbers? ***/ 1000 % 10
/ 100 % 10
/ 10 % 10
THINK, PAIR, SHARE…
= 2
= 8
= 3
= 7
?????
?????
?????
% 10
?????
1111
OPERATOR PRECEDENCE
Usually, we evaluate expressions left-to-right, but certain operations take precedence over others and get evaluated first.
Parentheses can always override precedence.
Precedence table:
Description Operators
unary operators +, -
multiplicative operators *, /, %
additive operators +, -
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PRECEDENCE EXAMPLES
2 + 2 * 5 = 12 not 20
3 * 3 + 2 * 2 = 13 not 22
7 + 5 / 2 * 3 – 4 = 9 not 14
+3 * -4 = -12
3 + -4 = -1
3 - -4 = 7
1313
MIXING TYPES
When doing an operation on an int and a double, the int gets promoted to a double.
1 * 4.682 = 4.682
7 / 2.0 = 3.5
5 * 1.0 / 2 = 3.0
7.0 / 2 – 7 / 2 =
?3.5 – 3 = ?0.5
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CASTING
You can explicitly convert a value from one data type to another by casting.
(double) 99 = 99.0
(int) 2.5 = 2
((double) 7) / 2 = 3.5
(int) 2.5 * 3.0 = 6.0
(int) (2.5 * 3.0) = 7
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IN YOUR NOTEBOOK…
4.0 / 2 * 9 / 2
2.0 * 9 / 2
18.0 / 2
9.0
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IN YOUR NOTEBOOK…
12 / 7 * 4.4 * 2 / 4
1 * 4.4 * 2 / 4
4.4 * 2 / 4
8.8 / 4
2.2
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IN YOUR NOTEBOOK…
9 / 2.0 + 7 / 3 – 3.0 / 2
4.5 + 7 / 3 – 3.0 / 2
4.5 + 2 – 3.0 / 2
4.5 + 2 – 1.5
6.5 – 1.5
5.0
1818
IN YOUR NOTEBOOK…
53 / 5 / (0.6 + 1.4) / 2 + 13 / 2
53 / 5 / 2.0 / 2 + 13 / 2
10 / 2.0 / 2 + 13 / 2
5.0 / 2 + 13 / 2
2.5 + 13 / 2
2.5 + 6
8.5