For example why can you do:
int n = 9;
Integer n = 9;
And you can do:
int is a primitive type. Variables of type
int store the actual binary value for the integer you want to represent.
int.parseInt("1") doesn't make sense because
int is not a class and therefore doesn't have any methods.
Integer is a class, no different from any other in the Java language. Variables of type
Integer store references to
Integer objects, just as with any other reference (object) type.
Integer.parseInt("1") is a call to the static method
parseInt from class
Integer (note that this method actually returns an
int and not an
To be more specific,
Integer is a class with a single field of type
int. This class is used where you need an
int to be treated like any other object, such as in generic types or situations where you need nullability.
Note that every primitive type in Java has an equivalent wrapper class:
Wrapper classes inherit from Object class, and primitive don't. So it can be used in collections with Object reference or with Generics.
Since java 5 we have autoboxing, and the conversion between primitive and wrapper class is done automatically. Beware, however, as this can introduce subtle bugs and performance problems; being explicit about conversions never hurts.
An Integer is pretty much just a wrapper for the primitive type int. It allows you to use all the functions of the Integer class to make life a bit easier for you.
If you're new to Java, something you should learn to appreciate is the Java documentation. For example, anything you want to know about the Integer Class is documented in detail.
This is straight out of the documentation for the Integer class:
The Integer class wraps a value of the primitive type int in an object. An object of type Integer contains a single field whose type is int.
An int variable holds a 32 bit signed integer value. An Integer (with capital I) holds a reference to an object of (class) type Integer, or to null.
Java automatically casts between the two; from Integer to int whenever the Integer object occurs as an argument to an int operator or is assigned to an int variable, or an int value is assigned to an Integer variable. This casting is called boxing/unboxing.
If an Integer variable referencing null is unboxed, explicitly or implicitly, a NullPointerException is thrown.
(In the above text, the term "variable" means local variable, field or parameter)
Integer refers to wrapper type in Java whereas
int is a primitive type. Everything except primitive data types in Java is implemented just as objects that implies Java is a highly qualified pure object-oriented programming language. If you need, all primitives types are also available as wrapper types in Java. You can have some performance benefit with primitive types, and hence wrapper types should be used only when it is necessary.
In your example as below.
Integer n = 9;
9 is being auto-boxed (
unboxing occurs automatically from
java 5 onwards) to
Integer and therefore you can use the statement like that and also
Integer n = new Integer(9). This is actually achieved through the statement
int is a primitive type and not an object. That means that there are no methods associated with it. Integer is an object with methods (such as parseInt).
With newer java there is functionality for auto boxing (and unboxing). That means that the compiler will insert Integer.valueOf(int) or integer.intValue() where needed. That means that it is actually possible to write
Integer n = 9;
which is interpreted as
Integer n = Integer.valueOf(9);
In Java int is a primitive data type while Integer is a Helper class, it is use to convert for one data type to other.
double doubleValue = 156.5d; Double doubleObject = new Double(doubleValue); Byte myByteValue = doubleObject.byteValue (); String myStringValue = doubleObject.toString();
Primitive data types are store the fastest available memory where the Helper class is complex and store in heap memory.
reference from "David Gassner" Java Essential Training.
This is taken from Java: The Complete Reference, Ninth Edition
Java uses primitive types (also called simple types), such as int or double, to hold the basic data types supported by the language. Primitive types, rather than objects, are used for these quantities for the sake of performance. Using objects for these values would add an unacceptable overhead to even the simplest of calculations. Thus, the primitive types are not part of the object hierarchy, and they do not inherit Object.
Despite the performance benefit offered by the primitive types, there are times when you will need an object representation. For example, you can’t pass a primitive type by reference to a method. Also, many of the standard data structures implemented by Java operate on objects, which means that you can’t use these (object specific) data structures to store primitive types. To handle these (and other) situations, Java provides type wrappers, which are classes that encapsulate a primitive type within an object.
Wrapper classes relate directly to Java’s autoboxing feature. The type wrappers are Double, Float, Long, Integer, Short, Byte, Character, and Boolean. These classes offer a wide array of methods that allow you to fully integrate the primitive types into Java’s object hierarchy.
int is a primitive type that represent an integer. whereas
Integer is an Object that wraps
Integer object gives you more functionality, such as converting to hex, string, etc.
You can also use OOP concepts with
Integer. For example, you can use Integer for generics (i.e.
To optimize the Java code runtime,
int primitive type(s) has been added including
bool etc. but they come along with there wrapper classes so that if needed you can convert and use them as standard Java object along with many utility that comes as their member functions (such as
int is a primitive data type while
Integer is a Reference or Wrapper Type (Class) in Java.
java 1.5 which introduce the concept of autoboxing and unboxing you can initialize both
Integer like this.
int a= 9 Integer a = 9 // both valid After Java 1.5.
Integer is a Class defined in
jdk library and
parseInt() is a static method belongs to
Integer.parseInt("1"); is possible in java. but
int is primitive type (assume like a keyword) in java. So, you can't call