What is the actual meaning of primitive in java?

Why java called primitive data "TYPE" ?

16 Answers 16

up vote 51 down vote accepted

In Java, every variable has a type declared in the source code. There are two kinds of types: reference types and primitive types. Reference types are references to objects. Primitive types directly contain values. There are 8 primitive types:

  • byte
  • short
  • int
  • long
  • char
  • float
  • double
  • boolean
  • 3
    also, the reference to the Object are passed by value. – Sufiyan Ghori Jan 12 '15 at 14:41
  • 2
    @sufiyan: correct, but what does that have to do with this question? – Michael Borgwardt Jan 12 '15 at 14:44
  • 2
    nothing in particular, i just want the future readers not to get confused with this statement "references to objects.", since a lot of beginners starts to assume that Java is pass-by-reference based on the statement "Reference types are references to objects". – Sufiyan Ghori Jan 12 '15 at 15:16

A primitive type is predefined by the language and is named by a reserved keyword. Primitive values do not share state with other primitive values. The eight primitive data types supported by the Java programming language are:

byte: The byte data type is an 8-bit signed two's complement integer. It has a minimum value of -128 and a maximum value of 127 (inclusive). The byte data type can be useful for saving memory in large arrays, where the memory savings actually matters. They can also be used in place of int where their limits help to clarify your code; the fact that a variable's range is limited can serve as a form of documentation.

short: The short data type is a 16-bit signed two's complement integer. It has a minimum value of -32,768 and a maximum value of 32,767 (inclusive). As with byte, the same guidelines apply: you can use a short to save memory in large arrays, in situations where the memory savings actually matters.

int: By default, the int data type is a 32-bit signed two's complement integer, which has a minimum value of -231 and a maximum value of 231-1. In Java SE 8 and later, you can use the int data type to represent an unsigned 32-bit integer, which has a minimum value of 0 and a maximum value of 232-1. Use the Integer class to use int data type as an unsigned integer. See the section The Number Classes for more information. Static methods like compareUnsigned, divideUnsigned etc have been added to the Integer class to support the arithmetic operations for unsigned integers.

long: The long data type is a 64-bit signed two's complement integer. The signed long has a minimum value of -263 and a maximum value of 263-1. In Java SE 8 and later, you can use the long data type to represent an unsigned 64-bit long, which has a minimum value of 0 and a maximum value of 264-1. The unsigned long has a minimum value of 0 and maximum value of 264-1. Use this data type when you need a range of values wider than those provided by int. The Long class also contains methods like compareUnsigned, divideUnsigned etc to support arithmetic operations for unsigned long.

float: The float data type is a single-precision 32-bit IEEE 754 floating point. Its range of values is beyond the scope of this discussion, but is specified in the Floating-Point Types, Formats, and Values section of the Java Language Specification. As with the recommendations for byte and short, use a float (instead of double) if you need to save memory in large arrays of floating point numbers. This data type should never be used for precise values, such as currency. For that, you will need to use the java.math.BigDecimal class instead. Numbers and Strings covers BigDecimal and other useful classes provided by the Java platform.

double: The double data type is a double-precision 64-bit IEEE 754 floating point. Its range of values is beyond the scope of this discussion, but is specified in the Floating-Point Types, Formats, and Values section of the Java Language Specification. For decimal values, this data type is generally the default choice. As mentioned above, this data type should never be used for precise values, such as currency.

boolean: The boolean data type has only two possible values: true and false. Use this data type for simple flags that track true/false conditions. This data type represents one bit of information, but its "size" isn't something that's precisely defined.

char: The char data type is a single 16-bit Unicode character. It has a minimum value of '\u0000' (or 0) and a maximum value of '\uffff' (or 65,535 inclusive).

  • thank you. what do you mean by "share state"? – BKSpurgeon Oct 27 '16 at 21:24

From the Java Language Specification, Chapter 4. Types, Values, and Variables:

The Java programming language is a statically typed language, which means that every variable and every expression has a type that is known at compile time.

The Java programming language is also a strongly typed language, because types limit the values that a variable [...] can hold or that an expression can produce, limit the operations supported on those values, and determine the meaning of the operations. Strong static typing helps detect errors at compile time.

The types of the Java programming language are divided into two categories: primitive types and reference types. The primitive types [...] are the boolean type and the numeric types. The numeric types are the integral types byte, short, int, long, and char, and the floating-point types float and double. The reference types [...] are class types, interface types, and array types. There is also a special null type. An object [...] is a dynamically created instance of a class type or a dynamically created array. The values of a reference type are references to objects. All objects, including arrays, support the methods of class Object [...].

There are reference types, primitives types and void

For each primitive types (and void) there is a wrapper type which defines a constant called TYPE which have the class of the primitive type.

A compiler way to get a class for a primitive type is to use the .class notation. e.g.

Class<Integer> intClass = int.class; // == Integer.TYPE
Class<Void> voidClass = void.class; // == VOID.TYPE

What do people mean by "Types"?

In the real world you have different types of vehicles, for example. Each serve a distinct purpose. You have sports cars for driving fast, utes for carrying tools, trucks for transporting lots of goods, and limousines for travelling in luxury. In the same way, in Java, you can have different types of data which serve different purposes e.g. you have numbers (which are used to add/subtract etc), you can have "strings" which are used to communicate words and letters. You cannot use letters to add - that just does not make sense, nor could you use numbers to write a sentence. You gotta use the right data type to do whatever you want to do.

Primtives vs reference types - what does it mean? What's the difference?

Now there are some "types" of data which are basic. These are already created by the boffins at Redmond/Sun. These are called "primitive" java types, and they store the values within themselves. What does that mean? It's best explained by example:

Example of a primitive type

If I gave you a $50 note, then the note in and of itself is worth $50. The value is stored in the note itself.

Primitives Juxtaposed with Reference Types

Now imagine that instead of giving you $50 I give you an piece of paper which has on it an address to a safe deposit box in my bank in Switzerland. The piece of paper i gave you is not worth $50 in and of itself, but it points to an address where you can get your $50. This piece of paper is basically a "reference" type, because it doesn't store any values within and in and of itself, it merely points to certain addresses. But I can give you an address to anything: planes, castles, rainforrests: anything!

Summary

You can't just hand someone a plane or a Shinkansen train from your back pocket: you just hand them an address to it. But if you have $50, or any type of currency: the actual substance is in your back pocket. You're not gonna give them a treasure map to your $50 note.

That in an nutshell is the difference between primitive and reference types.

I hope it helps.

Primitive types in Java are none-class types. They only store values.

double d = 3.0;
d.intValue();  //compiler error!
Double d2 = new Double(3.0);
d2.intValue();  //works!

They are non class types which only hold a value. While passing a primitive variable, you are passing the value itself instead of the reference of the value.

Primitive types are not classes, but can be used to store values like numbers and characters. •byte •short •int •long •char •float •double •boolean

Any data type built-in to a programming language is called primitive data type. Words primitive or built-in or basic data types are used interchangeably by authors. Primitive data types in Java are provided by the Java programming language as a basic building block and for that they are called primitive types to Java. Java also allows programmers to define their own types (user defined types). For primitive types Java has built-in support. Primitive types are predefined by the Java language and are named by a reserved keywords. Java supports 8 built-in data types and their basic behavior and supported operations cannot be modified by programmers.

java support basic data type int, double, float etc. total eight. these are the primitive type data or basic type of your data.

boolean,char,byte,short,int,long,double,float

Actual meaning of primitive is whether datatypes are classes or not.Java is not a pure object oriented language because in java datatypes are not primitives means datatypes are not classes.

Eg:- int a; a=10;

/*Integer a=new Integer();
     a=10;
*/not possible

while in c# datatypes are classes and thats why it is pure object oriented language

There are two types of data type, Primitive and Object reference. Primitive data types are not object, they just only store the actual values, whereas object reference variable store the address of the object they refer to.

In Java, every variable has a type declared in the source code. There are two kinds of types: reference types and primitive types. Reference types are references to objects. Primitive types directly contain values. There are 8 primitive types:

  1. byte
  2. short
  3. int
  4. long
  5. char
  6. float
  7. double
  8. boolean

The eight primitive data types that are supported by Java Programming Language:

  • byte - It is 8-bit signed two's complement integer. It has a minimum value of -128 and a maximum value of 127.

  • short - It is a 16-bit signed two's complement integer. It has a minimum value of -32,768 and a maximum value of 32,767.

For detailed explanation Click Here

There are two divisions in data types which are primitives and reference . The primitives will represent the following

  • Numbers
  • Boolean
  • Float
  • Double
  • Char

Under the numbers we have

  1. Byte: -128 to 127
  2. Short: -32,768 to 32,767
  3. Int: -2^31 to 2^31
  4. Long: -2^63 to 2^63 - 1

These will represent numbers and have different memory allocations to save memory we can use it efficiently. Among int and long we have signed & unsigned. Unsigned starts with min=0.

In Java has two kinds of type,

  • Primitive types
  • Reference types

Primitive types

Primitive types directly contain values.

int i = 24;

There are 8 primitive types,

  1. byte
  2. short
  3. int
  4. long
  5. char
  6. float
  7. double
  8. boolean

Reference types

Reference types are references to objects. When you create new Test object inside the Test.java class there is reference type

Test t = new Test();

Specially String is a reference type. It's not a primitive type. There are two way create String object.

String s = "abc";

String y = new String("abc");

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