So my coder friend hates using the static coding. Yet my Java program is full of it to link between classes, and I have a lot of them!
Is it worth rewriting the whole code to remove the static method?
Is there any advantage of using one over the other?
1. An instance variable is one per Object, every object has its own copy of instance variable.
Eg:
public class Test{
int x = 5;
}
Test t1 = new Test();
Test t2 = new Test();
Both t1 and t2 will have its own copy of x.
2. A static variable is one per Class, every object of that class shares the same Static variable.
Eg:
public class Test{
public static int x = 5;
}
Test t1 = new Test();
Test t2 = new Test();
Both t1 and t2 will have the exactly one x to share between them.
3. A static variable is initialized when the JVM loads the class.
4. A static method cannot access Non-static variable or method.
5. Static methods along with Static variables can mimic a Singleton Pattern, but IT'S NOT THE RIGHT WAY, as in when there are lots of classes, then we can't be sure about the class loading order of JVM, and this may create a problem.
static is for the cases where you don't want to have copy for each instance
instance variables are for the cases where you want separate copy for each instance of object.
Based on business cases, which one to use may change.
If you have too many static functions and variables it can lead to a more functional approach rather than true OO. Also if you have public static variable then you replicate global variable which are not good. Keeping track of them is a nightmare.
Generally my rule is to use instance variables if you can and only have static variables and functions if it really is generic over a class rather than an object
This is quite a good answer to a similar questions
Java: when to use static methods
Rather than just linking to methods consider using the new operation to create a new object and access the method from that in a non static way.
before
public void myMethod(){
Time.setTime(Time.getTime() + 20);
System.out.println(Time.getTime());
}
after
public void myMethod(){
Time t = new Time();
t.setTime(t.getTime() + 20);
System.out.println(t.getTime());
}
Any state that is held in these methods will now be the to instance of time you have created. You could also share the variable t accross other methods if you needed to.
Garbage Collection - static fields live much longer then instance fields.
From a logic point of view, static fields are ONLy suppose to be shared among every single instance - if it is truly your case then no problem of course.
Are you talking about static methods or static properties?
As far as static methods are concerned, there is only one way to abuse them, and that is when you define methods that take an object instance as a parameter. You should never need to do that and in my view doing so is poor coding practice. Here is an example:
static int add(ThisClass a, ThisClass b) {
return a.value + b.value;
}
If you are talking about static variables in the class, you are basically into the subject of "singletons" which is where there is intended to be only one instance of a particular class. Singletons are subject to a lot of abuse. They are used by many class libraries (think JDNI and the logging classes) but if an application makes extensive use of them it can be a sign of a poorly structured program. That is probably what your friend is bitching about.
Instance and Static variable:
Answer to your Question: I would say it is worth to use static variable to save memory allocation.
Memory allocation:
For static variable only one memory location is allocated irespective to no of object created and for Instance variable each object one memory location allocated
Now consider this example, consider you are working on companies internal project where you have to create 1M object to Employee class and some property to the Employee class are eid, ename, ecompany now Important thing is that all employees are working in XYZ company so value to the property ecompany is gonna be "XYZ" irrespective of Employee.
Now you know the situation, value to the property ecompany is gonna be XYZ for 1 Million Object.
Now you decide you want to declare ecomapny property as static or instance considering memory allocation
if you declare it as a static then minimum memory allocated to ecompany will be only 48 bytes which very less compare to memory needed to store 1 Million instance variable. 100000 * 48 bytes = 48 Million bytes.
When you use static objects (except for the case of singleton) you're actually implementing functional programming combined with global variables. If you do that a lot - you should reconsider either your design or using Java (maybe you should use a functional programing language such as list, scheme etc).
Pro Static
Once a static member is called from the inside or the outside of the class, then the static constructor of the class is called. The "static object" will live through the whole session, hence you will win in performance.
Con Static
Static members cannot have states, hence they cannot talk to non-static members of the class.
Example
If we consider the BigInteger class, this class would gain if some of the parts were made into static members.
An instance of the class represent (as expected) a big integer.
However, the main methods add and multiply are not static (which they should be in a better world), which is bad for performance.
Hence, in practice one should not be afraid of mixes between static and non-static.
I don't like using static variables or methods because they have no real inheritance. This makes it more difficult to mock for testing. Using instances gives you the flexibility of full polymorphism. On the other hand, sometimes static variables are necessary, for example with a global cache. Static methods can be a benefit if they provide helper methods for classes/objects/primitives which you cannot access or extend. These helper methods are so simple they don't need inheritance. For example java.util.Arrays class or java.util.Collections.
Related
I am wondering when to use static methods? Say if I have a class with a few getters and setters, a method or two, and I want those methods only to be invokable on an instance object of the class. Does this mean I should use a static method?
Example:
Obj x = new Obj();
x.someMethod();
...or:
Obj.someMethod(); // Is this the static way?
I'm rather confused!
One rule-of-thumb: ask yourself "Does it make sense to call this method, even if no object has been constructed yet?" If so, it should definitely be static.
So in a class Car you might have a method:
double convertMpgToKpl(double mpg)
...which would be static, because one might want to know what 35mpg converts to, even if nobody has ever built a Car. But this method (which sets the efficiency of one particular Car):
void setMileage(double mpg)
...can't be static since it's inconceivable to call the method before any Car has been constructed.
(By the way, the converse isn't always true: you might sometimes have a method which involves two Car objects, and still want it to be static. E.g.:
Car theMoreEfficientOf(Car c1, Car c2)
Although this could be converted to a non-static version, some would argue that since there isn't a "privileged" choice of which Car is more important, you shouldn't force a caller to choose one Car as the object you'll invoke the method on. This situation accounts for a fairly small fraction of all static methods, though.
Define static methods in the following scenarios only:
If you are writing utility classes and they are not supposed to be changed.
If the method is not using any instance variable.
If any operation is not dependent on instance creation.
If there is some code that can easily be shared by all the instance methods, extract that code into a static method.
If you are sure that the definition of the method will never be changed or overridden. As static methods can not be overridden.
There are some valid reasons to use static methods:
Performance: if you want some code to be run, and don't want to instantiate an extra object to do so, shove it into a static method. The JVM also can optimize static methods a lot (I think I've once read James Gosling declaring that you don't need custom instructions in the JVM, since static methods will be just as fast, but couldn't find the source - thus it could be completely false). Yes, it is micro-optimization, and probably unneeded. And we programmers never do unneeded things just because they are cool, right?
Practicality: instead of calling new Util().method(arg), call Util.method(arg), or method(arg) with static imports. Easier, shorter.
Adding methods: you really wanted the class String to have a removeSpecialChars() instance method, but it's not there (and it shouldn't, since your project's special characters may be different from the other project's), and you can't add it (since Java is somewhat sane), so you create an utility class, and call removeSpecialChars(s) instead of s.removeSpecialChars(). Sweet.
Purity: taking some precautions, your static method will be a pure function, that is, the only thing it depends on is its parameters. Data in, data out. This is easier to read and debug, since you don't have inheritance quirks to worry about. You can do it with instance methods too, but the compiler will help you a little more with static methods (by not allowing references to instance attributes, overriding methods, etc.).
You'll also have to create a static method if you want to make a singleton, but... don't. I mean, think twice.
Now, more importantly, why you wouldn't want to create a static method? Basically, polymorphism goes out of the window. You'll not be able to override the method, nor declare it in an interface (pre-Java 8). It takes a lot of flexibility out from your design. Also, if you need state, you'll end up with lots of concurrency bugs and/or bottlenecks if you are not careful.
After reading Misko's articles I believe that static methods are bad from a testing point of view. You should have factories instead(maybe using a dependency injection tool like Guice).
how do I ensure that I only have one of something
only have one of something
The problem of “how do I ensure that I
only have one of something” is nicely
sidestepped. You instantiate only a
single ApplicationFactory in your
main, and as a result, you only
instantiate a single instance of all
of your singletons.
The basic issue with static methods is they are procedural code
The basic issue with static methods is
they are procedural code. I have no
idea how to unit-test procedural code.
Unit-testing assumes that I can
instantiate a piece of my application
in isolation. During the instantiation
I wire the dependencies with
mocks/friendlies which replace the
real dependencies. With procedural
programing there is nothing to "wire"
since there are no objects, the code
and data are separate.
A static method is one type of method which doesn't need any object to be initialized for it to be called. Have you noticed static is used in the main function in Java? Program execution begins from there without an object being created.
Consider the following example:
class Languages
{
public static void main(String[] args)
{
display();
}
static void display()
{
System.out.println("Java is my favorite programming language.");
}
}
Static methods in java belong to the class (not an instance of it). They use no instance variables and will usually take input from the parameters, perform actions on it, then return some result. Instances methods are associated with objects and, as the name implies, can use instance variables.
No, static methods aren't associated with an instance; they belong to the class. Static methods are your second example; instance methods are the first.
If you apply static keyword with any method, it is known as static method.
A static method belongs to the class rather than object of a class.
A static method invoked without the need for creating an instance of a class.
static method can access static data member and can change the value of it.
A static method can be accessed just using the name of a class dot static name . . . example : Student9.change();
If you want to use non-static fields of a class, you must use a non-static method.
//Program of changing the common property of all objects(static field).
class Student9{
int rollno;
String name;
static String college = "ITS";
static void change(){
college = "BBDIT";
}
Student9(int r, String n){
rollno = r;
name = n;
}
void display (){System.out.println(rollno+" "+name+" "+college);}
public static void main(String args[]){
Student9.change();
Student9 s1 = new Student9 (111,"Indian");
Student9 s2 = new Student9 (222,"American");
Student9 s3 = new Student9 (333,"China");
s1.display();
s2.display();
s3.display();
} }
O/P: 111 Indian BBDIT
222 American BBDIT
333 China BBDIT
Static methods are not associated with an instance, so they can not access any non-static fields in the class.
You would use a static method if the method does not use any fields (or only static fields) of a class.
If any non-static fields of a class are used you must use a non-static method.
Static methods should be called on the Class, Instance methods should be called on the Instances of the Class. But what does that mean in reality? Here is a useful example:
A car class might have an instance method called Accelerate(). You can only Accelerate a car, if the car actually exists (has been constructed) and therefore this would be an instance method.
A car class might also have a count method called GetCarCount(). This would return the total number of cars created (or constructed). If no cars have been constructed, this method would return 0, but it should still be able to be called, and therefore it would have to be a static method.
Use a static method when you want to be able to access the method without an instance of the class.
Actually, we use static properties and methods in a class, when we want to use some part of our program should exists there until our program is running. And we know that, to manipulate static properties, we need static methods as they are not a part of instance variable. And without static methods, to manipulate static properties is time consuming.
Static:
Obj.someMethod
Use static when you want to provide class level access to a method, i.e. where the method should be callable without an instance of the class.
Static methods don't need to be invoked on the object and that is when you use it. Example: your Main() is a static and you don't create an object to call it.
Static methods and variables are controlled version of 'Global' functions and variables in Java. In which methods can be accessed as classname.methodName() or classInstanceName.methodName(), i.e. static methods and variables can be accessed using class name as well as instances of the class.
Class can't be declared as static(because it makes no sense. if a class is declared public, it can be accessed from anywhere), inner classes can be declared static.
Static methods can be used if
One does not want to perform an action on an instance (utility methods)
As mentioned in few of above answers in this post, converting miles to kilometers, or calculating temperature from Fahrenheit to Celsius and vice-versa. With these examples using static method, it does not need to instantiate whole new object in heap memory. Consider below
1. new ABCClass(double farenheit).convertFarenheitToCelcium()
2. ABCClass.convertFarenheitToCelcium(double farenheit)
the former creates a new class footprint for every method invoke, Performance, Practical. Examples are Math and Apache-Commons library StringUtils class below:
Math.random()
Math.sqrt(double)
Math.min(int, int)
StringUtils.isEmpty(String)
StringUtils.isBlank(String)
One wants to use as a simple function. Inputs are explictly passed, and getting the result data as return value. Inheritence, object instanciation does not come into picture. Concise, Readable.
NOTE:
Few folks argue against testability of static methods, but static methods can be tested too! With jMockit, one can mock static methods. Testability. Example below:
new MockUp<ClassName>() {
#Mock
public int doSomething(Input input1, Input input2){
return returnValue;
}
};
I found a nice description, when to use static methods:
There is no hard and fast, well written rules, to decide when to make a method static or not, But there are few observations based upon experience, which not only help to make a method static but also teaches when to use static method in Java. You should consider making a method static in Java :
If a method doesn't modify state of object, or not using any instance variables.
You want to call method without creating instance of that class.
A method is good candidate of being static, if it only work on arguments provided to it e.g. public int factorial(int number){}, this method only operate on number provided as argument.
Utility methods are also good candidate of being static e.g. StringUtils.isEmpty(String text), this a utility method to check if a String is empty or not.
If function of method will remain static across class hierarchy e.g. equals() method is not a good candidate of making static because every Class can redefine equality.
Source is here
Static methods are the methods in Java that can be called without creating an object of class. It is belong to the class.
We use static method when we no need to be invoked method using instance.
A static method has two main purposes:
For utility or helper methods that don't require any object state.
Since there is no need to access instance variables, having static
methods eliminates the need for the caller to instantiate the object
just to call the method.
For the state that is shared by all
instances of the class, like a counter. All instance must share the
same state. Methods that merely use that state should be static as
well.
You should use static methods whenever,
The code in the method is not dependent on instance creation and is
not using any instance variable.
A particular piece of code is to be shared by all the instance methods.
The definition of the method should not be changed or overridden.
you are writing utility classes that should not be changed.
https://www.tutorialspoint.com/When-to-use-static-methods-in-Java
In eclipse you can enable a warning which helps you detect potential static methods. (Above the highlighted line is another one I forgot to highlight)
I am wondering when to use static methods?
A common use for static methods is to access static fields.
But you can have static methods, without referencing static variables. Helper methods without referring static variable can be found in some java classes like java.lang.Math
public static int min(int a, int b) {
return (a <= b) ? a : b;
}
The other use case, I can think of these methods combined with synchronized method is implementation of class level locking in multi threaded environment.
Say if I have a class with a few getters and setters, a method or two, and I want those methods only to be invokable on an instance object of the class. Does this mean I should use a static method?
If you need to access method on an instance object of the class, your method should should be non static.
Oracle documentation page provides more details.
Not all combinations of instance and class variables and methods are allowed:
Instance methods can access instance variables and instance methods directly.
Instance methods can access class variables and class methods directly.
Class methods can access class variables and class methods directly.
Class methods cannot access instance variables or instance methods directly—they must use an object reference. Also, class methods cannot use the this keyword as there is no instance for this to refer to.
Whenever you do not want to create an object to call a method in your code just declare that method as static. Since the static method does not need an instance to be called with but the catch here is not all static methods are called by JVM automatically. This privilege is enjoyed only by the main() "public static void main[String... args]" method in java because at Runtime this is the method Signature public "static" void main[] sought by JVM as an entry point to start execution of the code.
Example:
public class Demo
{
public static void main(String... args)
{
Demo d = new Demo();
System.out.println("This static method is executed by JVM");
//Now to call the static method Displ() you can use the below methods:
Displ(); //By method name itself
Demo.Displ(); //By using class name//Recommended
d.Displ(); //By using instance //Not recommended
}
public static void Displ()
{
System.out.println("This static method needs to be called explicitly");
}
}
Output:-
This static method is executed by JVM
This static method needs to be called explicitly
This static method needs to be called explicitly
This static method needs to be called explicitly
The only reasonable place to use static methods are probably Math functions, and of course main() must be static, and maybe small factory-methods. But logic should not be kept in static methods.
public class Main {
void sum(int a, int b) {
int c = a + b;
System.out.println(c);
}
public static void main(String args[]) {
Main ob = new Main();
ob.sum(10, 125);
}
}
In the above code there is no instance variable, but I have read that if a method is an instance method it should access instance variable. So is 'sum' an instance method?
sum is an instance method here, because it's not static and requires an instance of the object. You create your instance here:
Main ob = new Main();
In this particular case sum could indeed be made static, slightly simplifying the code by not requiring an instance.
I have read that if a method is an instance method it should access instance variable
I suspect what you were reading is suggesting that if a method doesn't interact with the instance at all then it probably should be static. There may be mention of the term "pure function" in the text somewhere.
I wouldn't go so far as to say that all potentially static methods everywhere should be made static as a universal rule. It really comes down to the semantics of the object itself. Since the object you have here has very little semantic context, this one tiny example could easily go either way.
But suppose you expanded your object to also include methods for subtract, multiply, divide, etc. As the object expands, suppose one or more of those additional methods did use instance variables. It would be a jarring experience to have an object with multiple semantically-similar methods, some of which are static and some of which are not.
Rather than focus on any particular rule that someone gives you, focus on what you are intending to build as your object. If you think that it should be static, make it as such. If you feel that it shouldn't, then don't. If you're unsure, then as an exercise implement both and see which you prefer in that particular case.
Looking to the future plans for what you're intending to build is important, because the more code you have relying on your object throughout the application the harder it will be to change from static to instance or vice-versa.
Yes, 'sum' an instance method because any non-static method is an instance method.
Moreover, It is not necessary that an instance method should access instance variable.
The correct statement is "if a method is an instance method it can access instance variable.
I am wondering when to use static methods? Say if I have a class with a few getters and setters, a method or two, and I want those methods only to be invokable on an instance object of the class. Does this mean I should use a static method?
Example:
Obj x = new Obj();
x.someMethod();
...or:
Obj.someMethod(); // Is this the static way?
I'm rather confused!
One rule-of-thumb: ask yourself "Does it make sense to call this method, even if no object has been constructed yet?" If so, it should definitely be static.
So in a class Car you might have a method:
double convertMpgToKpl(double mpg)
...which would be static, because one might want to know what 35mpg converts to, even if nobody has ever built a Car. But this method (which sets the efficiency of one particular Car):
void setMileage(double mpg)
...can't be static since it's inconceivable to call the method before any Car has been constructed.
(By the way, the converse isn't always true: you might sometimes have a method which involves two Car objects, and still want it to be static. E.g.:
Car theMoreEfficientOf(Car c1, Car c2)
Although this could be converted to a non-static version, some would argue that since there isn't a "privileged" choice of which Car is more important, you shouldn't force a caller to choose one Car as the object you'll invoke the method on. This situation accounts for a fairly small fraction of all static methods, though.
Define static methods in the following scenarios only:
If you are writing utility classes and they are not supposed to be changed.
If the method is not using any instance variable.
If any operation is not dependent on instance creation.
If there is some code that can easily be shared by all the instance methods, extract that code into a static method.
If you are sure that the definition of the method will never be changed or overridden. As static methods can not be overridden.
There are some valid reasons to use static methods:
Performance: if you want some code to be run, and don't want to instantiate an extra object to do so, shove it into a static method. The JVM also can optimize static methods a lot (I think I've once read James Gosling declaring that you don't need custom instructions in the JVM, since static methods will be just as fast, but couldn't find the source - thus it could be completely false). Yes, it is micro-optimization, and probably unneeded. And we programmers never do unneeded things just because they are cool, right?
Practicality: instead of calling new Util().method(arg), call Util.method(arg), or method(arg) with static imports. Easier, shorter.
Adding methods: you really wanted the class String to have a removeSpecialChars() instance method, but it's not there (and it shouldn't, since your project's special characters may be different from the other project's), and you can't add it (since Java is somewhat sane), so you create an utility class, and call removeSpecialChars(s) instead of s.removeSpecialChars(). Sweet.
Purity: taking some precautions, your static method will be a pure function, that is, the only thing it depends on is its parameters. Data in, data out. This is easier to read and debug, since you don't have inheritance quirks to worry about. You can do it with instance methods too, but the compiler will help you a little more with static methods (by not allowing references to instance attributes, overriding methods, etc.).
You'll also have to create a static method if you want to make a singleton, but... don't. I mean, think twice.
Now, more importantly, why you wouldn't want to create a static method? Basically, polymorphism goes out of the window. You'll not be able to override the method, nor declare it in an interface (pre-Java 8). It takes a lot of flexibility out from your design. Also, if you need state, you'll end up with lots of concurrency bugs and/or bottlenecks if you are not careful.
After reading Misko's articles I believe that static methods are bad from a testing point of view. You should have factories instead(maybe using a dependency injection tool like Guice).
how do I ensure that I only have one of something
only have one of something
The problem of “how do I ensure that I
only have one of something” is nicely
sidestepped. You instantiate only a
single ApplicationFactory in your
main, and as a result, you only
instantiate a single instance of all
of your singletons.
The basic issue with static methods is they are procedural code
The basic issue with static methods is
they are procedural code. I have no
idea how to unit-test procedural code.
Unit-testing assumes that I can
instantiate a piece of my application
in isolation. During the instantiation
I wire the dependencies with
mocks/friendlies which replace the
real dependencies. With procedural
programing there is nothing to "wire"
since there are no objects, the code
and data are separate.
A static method is one type of method which doesn't need any object to be initialized for it to be called. Have you noticed static is used in the main function in Java? Program execution begins from there without an object being created.
Consider the following example:
class Languages
{
public static void main(String[] args)
{
display();
}
static void display()
{
System.out.println("Java is my favorite programming language.");
}
}
Static methods in java belong to the class (not an instance of it). They use no instance variables and will usually take input from the parameters, perform actions on it, then return some result. Instances methods are associated with objects and, as the name implies, can use instance variables.
No, static methods aren't associated with an instance; they belong to the class. Static methods are your second example; instance methods are the first.
If you apply static keyword with any method, it is known as static method.
A static method belongs to the class rather than object of a class.
A static method invoked without the need for creating an instance of a class.
static method can access static data member and can change the value of it.
A static method can be accessed just using the name of a class dot static name . . . example : Student9.change();
If you want to use non-static fields of a class, you must use a non-static method.
//Program of changing the common property of all objects(static field).
class Student9{
int rollno;
String name;
static String college = "ITS";
static void change(){
college = "BBDIT";
}
Student9(int r, String n){
rollno = r;
name = n;
}
void display (){System.out.println(rollno+" "+name+" "+college);}
public static void main(String args[]){
Student9.change();
Student9 s1 = new Student9 (111,"Indian");
Student9 s2 = new Student9 (222,"American");
Student9 s3 = new Student9 (333,"China");
s1.display();
s2.display();
s3.display();
} }
O/P: 111 Indian BBDIT
222 American BBDIT
333 China BBDIT
Static methods are not associated with an instance, so they can not access any non-static fields in the class.
You would use a static method if the method does not use any fields (or only static fields) of a class.
If any non-static fields of a class are used you must use a non-static method.
Static methods should be called on the Class, Instance methods should be called on the Instances of the Class. But what does that mean in reality? Here is a useful example:
A car class might have an instance method called Accelerate(). You can only Accelerate a car, if the car actually exists (has been constructed) and therefore this would be an instance method.
A car class might also have a count method called GetCarCount(). This would return the total number of cars created (or constructed). If no cars have been constructed, this method would return 0, but it should still be able to be called, and therefore it would have to be a static method.
Use a static method when you want to be able to access the method without an instance of the class.
Actually, we use static properties and methods in a class, when we want to use some part of our program should exists there until our program is running. And we know that, to manipulate static properties, we need static methods as they are not a part of instance variable. And without static methods, to manipulate static properties is time consuming.
Static:
Obj.someMethod
Use static when you want to provide class level access to a method, i.e. where the method should be callable without an instance of the class.
Static methods don't need to be invoked on the object and that is when you use it. Example: your Main() is a static and you don't create an object to call it.
Static methods and variables are controlled version of 'Global' functions and variables in Java. In which methods can be accessed as classname.methodName() or classInstanceName.methodName(), i.e. static methods and variables can be accessed using class name as well as instances of the class.
Class can't be declared as static(because it makes no sense. if a class is declared public, it can be accessed from anywhere), inner classes can be declared static.
Static methods can be used if
One does not want to perform an action on an instance (utility methods)
As mentioned in few of above answers in this post, converting miles to kilometers, or calculating temperature from Fahrenheit to Celsius and vice-versa. With these examples using static method, it does not need to instantiate whole new object in heap memory. Consider below
1. new ABCClass(double farenheit).convertFarenheitToCelcium()
2. ABCClass.convertFarenheitToCelcium(double farenheit)
the former creates a new class footprint for every method invoke, Performance, Practical. Examples are Math and Apache-Commons library StringUtils class below:
Math.random()
Math.sqrt(double)
Math.min(int, int)
StringUtils.isEmpty(String)
StringUtils.isBlank(String)
One wants to use as a simple function. Inputs are explictly passed, and getting the result data as return value. Inheritence, object instanciation does not come into picture. Concise, Readable.
NOTE:
Few folks argue against testability of static methods, but static methods can be tested too! With jMockit, one can mock static methods. Testability. Example below:
new MockUp<ClassName>() {
#Mock
public int doSomething(Input input1, Input input2){
return returnValue;
}
};
I found a nice description, when to use static methods:
There is no hard and fast, well written rules, to decide when to make a method static or not, But there are few observations based upon experience, which not only help to make a method static but also teaches when to use static method in Java. You should consider making a method static in Java :
If a method doesn't modify state of object, or not using any instance variables.
You want to call method without creating instance of that class.
A method is good candidate of being static, if it only work on arguments provided to it e.g. public int factorial(int number){}, this method only operate on number provided as argument.
Utility methods are also good candidate of being static e.g. StringUtils.isEmpty(String text), this a utility method to check if a String is empty or not.
If function of method will remain static across class hierarchy e.g. equals() method is not a good candidate of making static because every Class can redefine equality.
Source is here
Static methods are the methods in Java that can be called without creating an object of class. It is belong to the class.
We use static method when we no need to be invoked method using instance.
A static method has two main purposes:
For utility or helper methods that don't require any object state.
Since there is no need to access instance variables, having static
methods eliminates the need for the caller to instantiate the object
just to call the method.
For the state that is shared by all
instances of the class, like a counter. All instance must share the
same state. Methods that merely use that state should be static as
well.
You should use static methods whenever,
The code in the method is not dependent on instance creation and is
not using any instance variable.
A particular piece of code is to be shared by all the instance methods.
The definition of the method should not be changed or overridden.
you are writing utility classes that should not be changed.
https://www.tutorialspoint.com/When-to-use-static-methods-in-Java
In eclipse you can enable a warning which helps you detect potential static methods. (Above the highlighted line is another one I forgot to highlight)
I am wondering when to use static methods?
A common use for static methods is to access static fields.
But you can have static methods, without referencing static variables. Helper methods without referring static variable can be found in some java classes like java.lang.Math
public static int min(int a, int b) {
return (a <= b) ? a : b;
}
The other use case, I can think of these methods combined with synchronized method is implementation of class level locking in multi threaded environment.
Say if I have a class with a few getters and setters, a method or two, and I want those methods only to be invokable on an instance object of the class. Does this mean I should use a static method?
If you need to access method on an instance object of the class, your method should should be non static.
Oracle documentation page provides more details.
Not all combinations of instance and class variables and methods are allowed:
Instance methods can access instance variables and instance methods directly.
Instance methods can access class variables and class methods directly.
Class methods can access class variables and class methods directly.
Class methods cannot access instance variables or instance methods directly—they must use an object reference. Also, class methods cannot use the this keyword as there is no instance for this to refer to.
Whenever you do not want to create an object to call a method in your code just declare that method as static. Since the static method does not need an instance to be called with but the catch here is not all static methods are called by JVM automatically. This privilege is enjoyed only by the main() "public static void main[String... args]" method in java because at Runtime this is the method Signature public "static" void main[] sought by JVM as an entry point to start execution of the code.
Example:
public class Demo
{
public static void main(String... args)
{
Demo d = new Demo();
System.out.println("This static method is executed by JVM");
//Now to call the static method Displ() you can use the below methods:
Displ(); //By method name itself
Demo.Displ(); //By using class name//Recommended
d.Displ(); //By using instance //Not recommended
}
public static void Displ()
{
System.out.println("This static method needs to be called explicitly");
}
}
Output:-
This static method is executed by JVM
This static method needs to be called explicitly
This static method needs to be called explicitly
This static method needs to be called explicitly
The only reasonable place to use static methods are probably Math functions, and of course main() must be static, and maybe small factory-methods. But logic should not be kept in static methods.
I am new to Java and recently I have studied about static variables. I got to know that for a static variable memory is allocated only once. This means that it will save a lot of memory.My question is that if static variables saves memory, why not declare every variable as static. This will save a lot of memory while creating an application. Pardon me if this seems a silly question, but actually I am just a bit curious.
It's the basics of OOP. Look at an example:
class Person {
public String name = "Foo";
}
Field name is not static, it means that objects of class Person will not share it and each person will have it's own name. And when you change one's person name others will stay unaffected. But if you make it static:
class Person {
public static String name = "Foo";
}
It means, that all persons share the same name which is kind of strange, do you agree?)
The point on creating attributes/variables is that you'll want them as a "feature" for the object. For example, if you have a class "Car", maybe you'll want a variable to reference the color of the car.
The problem is that every instance of "Car" (in real world it'll be each different car) has a value, so each has to be an "independent" variable.
You can use static variables for those ones that are shared by all the objects of this class. For example, a counter to determine how many cars are there. This variable belongs to the class called "Car", but not to any specific instance of that class.
Static variable are created per class level. It is not created when an Object of the class is created. For every instance or object of the class there is only one value of a static member variable. This defeats the purpose of having objects and creating an application around objects.
Yes, it would be allocated memory once in the life cycle and is known as class variable. A class variable can be accessed directly with the class, without the need to create an instance. This would mean that it can be accessed from anywhere and everywhere. Also, memory allocation would mean that even if the variable is not used at many places in the code it would stay in the memory forever as long as the program is running and would take up unnecessary space.
I have many programs that declare objects at the top my class. This object will only be modified from within its own class, and there will never be more than one instance of this class running at the same time. Is there any benefit to declaring the objects as static?
public class MyClass {
private Map<String, Object> myMap; // any reason to make this static?
// constructor and other code here
}
Declaring Variables as static makes the variable shared among all objects of the class ( in your example MyClass)
another thing that you can make static methods that return the variable without creating an object of the class
MyClass.method();
sometimes this makes more sense than create an object of MyClass then call the Method, like the Math class
one side issue:
if you want to have only one instance of MyClass, checkout Singleton Design Pattern which insure only on instance of the class
The one reason for making members static is constants. public static final Sting SOME_CONSTANT = "amazing"; is way easier to access statically than though an instance.
Reasons to not use static members is testing (how to easily mock a static member?) or (specifically with a map) thread safity.
Is there any benefit to declaring the objects as static?
Not really, no.
Certainly, there is no performance benefit. This is because statics are actually stored in (hidden) static frame objects that live in the heap. Ultimately, the JIT will generate native code for fetching a static variable that is no faster than an object variable fetch.
You could argue that it is more convenient to use a static to share some data structure "globally" within an application. But that convenience has some significant disadvantages. The biggest ones are that statics make testing harder, and they make code reuse harder.
However, you shouldn't confuse the general case with the specific case where the static holds or refers to an immutable value or data structure; e.g. like a String constant or a constant mapping. These can be justified on both design and practical grounds; e.g.
public static final String THE_ANSWER = "Forty two";
private static final Map<String, Integer> SCORES;
static {
Map<String, Integer> map = new HashMap<>();
tmp.put("perfect", 100);
tmp.put("average", 50);
tmp.put("fail", 20);
SCORE = Collections.unmodifiableMap(map);
}
This is fine ... so long as there is no possibility that different (current or future) use-cases require different values / mappings / whatever. If that is a possibility, then static could be harmful.