Introduction to Primitives Overview Today we will discuss The eight primitive types especially int and double Declaring the types of variables Operations on primitives The assignment statement How to print results Primitives Primitives are the basic data values There are eight types of primitives boolean used for true and false values char used for single characters letters etc byte short int long four different kinds of integer whole number values float double two different kinds of decimal numbers numbers with a decimal point int The most important integer type is int An int is a whole number no decimal point Numbers occupy memory in the computer Larger numeric types require more memory byte 1 byte short 2 bytes int 4 bytes long 8 bytes An int can be between about two billion two thousand million and negative two billion If you just write a number such as 25 Java assumes it is an int Hence it is easier to work with int values than with the other integer types byte short and long Use int in preference to other integer types byte and short A byte can be between 128 and 127 A short can be 32768 to 32767 Why these numbers These are round numbers in binary for example 0111 1111 1111 1111 is binary for 32767 1000 0000 0000 0000 is binary for 32768 The first bit is the sign bit a 1 means it s a negative number Use byte or short only when You know the numbers are all small There are millions of numbers to remember Extra syntax is needed will be discussed later long long integers are for when two billion isn t large enough for your needs A long can be as long as about 19 digits A long occupies twice as much space as an int Arithmetic on long values is slower Use long only when you need really big numbers Extra syntax is needed will be discussed later Even larger numbers are available in Java but they are objects not primitives double A double represents a real number Also sometimes called floating point These are numbers with a decimal point A double has about 15 digits of accuracy If you just write a real number such as 1 37 Java assumes it is a double Hence it is easier to work with double values than with float values Use double in preference to float float float is the other kind of real or floating point number float has about 8 digits of accuracy Arithmetic with float is not faster Use float only to save space when there are millions of numbers involved Extra syntax is needed will be discussed later An aside approximations Integers are precise but real numbers are always approximate inaccurate Computers always use the binary system internally Many numbers that can be expressed precisely in decimal cannot be represented precisely in binary For example the numbers 1 1 1 2 1 3 and 1 4 can only be approximated in binary Two numbers that look the same may actually be subtly different Never test floating point numbers for equality Only test for larger or smaller or for not larger or not smaller Giving names to numbers Sometimes you know what a number is You have 10 fingers There are 24 hours in a day is 3 141592653589793238 Numbers written like this are called literals You can use literals any place in Java that you can use a number Sometimes you need to use names instead classSize myBankBalance myAge speedometerReading Names like this are called variables The value of a variable may change Sometimes names are simply more convenient for example Math PI instead of 3 141592653589793238 Variables Before you use a variable you must declare it tell Java what type it is int double char There are two reasons for this Different types require different amounts of space So Java can prevent you from doing something meaningless adding 5 to someone s name or multiplying two dates together Before you use a variable you must also define it tell Java what value it has It makes no sense to print out your bankBalance or to add 100 00 to your bankBalance if you don t have a meaningful well defined initial value for bankBalance to start with You might assign an initial value to your variable or compute a value or read a value in but you have to get one somehow Declaring variables You declare variables like this int classSize double myBankBalance When you declare a variable to be a primitive type Java automatically finds space for it The amount of space Java needs to find depends on the type of the variable Think of a variable as a specially shaped box designed to hold a value of a particular type An int variable is four bytes long and there s a special place for the sign bit A float variable is also four bytes long but the bits are used differently some are used to tell where the decimal point goes Giving values to variables A variable is just a name for some value You have to supply the actual value somehow Java tries to prevent you from using a variable that you haven t given a value You can assign values like this classSize 57 myBankBalance 123 01 no Initializing variables You can give a variable an initial value when you declare it int classSize 30 double myBankBalance 0 0 You can change the value of a variable many times classSize 57 myBankBalance myBankBalance 50 00 Arithmetic Primitives have operations defined for them int and double have many defined operations including for addition for subtraction for multiplication Old computers did not have the character for division Order of precedence Operations with higher precedence are done before operations with lower precedence Multiplication and division have higher precedence than addition and subtraction 2 3 4 is 14 not 20 Operations of equal precedence are done left to right 10 5 1 is 4 not 6 Parentheses Operations inside parentheses are done first 2 3 4 is 20 Parentheses are done from the inside out 24 3 10 6 is 24 3 4 is 24 12 is 2 Parentheses can be used where not needed 2 3 4 is the same as 2 3 4 and cannot be used as parentheses Assignment statements An assignment statement has the form variable expression Examples price 0 69 The expression can be as simple as a single literal or variable area pi radius radius classSize classSize 1 This means add one to the value in classSize Printing out results part 1 In Java print really means display in a window on the screen Printing on actual paper is much harder There are two commands for printing System out print x Displays x System out println x Pronounced printline Displays x then goes to the next line Printing out results part 2 Examples System out print The sum of x and y is System out println x y
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