What's the advantage of using getters and setters - that only get and set - instead of simply using public fields for those variables?

If getters and setters are ever doing more than just the simple get/set, I can figure this one out very quickly, but I'm not 100% clear on how:

public String foo;

is any worse than:

private String foo;
public void setFoo(String foo) { this.foo = foo; }
public String getFoo() { return foo; }

Whereas the former takes a lot less boilerplate code.

closed as primarily opinion-based by user177800, Machavity, Paul Roub, Steve, too honest for this site Nov 13 '17 at 15:07

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.

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    @Dean J: Duplicate with many other questions: stackoverflow.com/search?q=getters+setters – Asaph Oct 14 '09 at 18:26
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    Of course, both are equally bad when the object doesn't need a property to be changed. I'd rather make everything private, and then add getters if useful, and setters if needed. – Tordek Oct 14 '09 at 18:29
  • 24
    Google "accessors are evil" – OMG Ponies Oct 14 '09 at 18:45
  • 34
    "Accessors are evil" if you happen to be writing functional code or immutable objects. If you happen to be writing stateful mutable objects, then they are pretty essential. – Christian Hayter Oct 14 '09 at 19:10
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    Tell, don't ask. pragprog.com/articles/tell-dont-ask – Dave Jarvis Oct 14 '09 at 22:18

38 Answers 38


I can think of one reason why you wouldn't just want everything public.

For instance, variable you never intended to use outside of the class could be accessed, even irdirectly via chain variable access (i.e. object.item.origin.x ).

By having mostly everything private, and only the stuff you want to extend and possibly refer to in subclasses as protected, and generally only having static final objects as public, then you can control what other programmers and programs can use in the API and what it can access and what it can't by using setters and getters to access the stuff you want the program, or indeed possibly other programmers who just happen to use your code, can modify in your program.

  • A clear example of this is when setting one attribute's value affects one or more other attribute values. Trivial example: Say you store the radius of a circle Using circ.set_radius()` doesn't really achieve anything setting radius directly through circ.radius doesn't. However, get_diameter(), get_circumference() and get_area() can perform calculations based on radius. Without getters, you have to perform the calculations yourself and check that you've got them right. – Agi Hammerthief Dec 18 '14 at 20:37

Getters and setters coming from data hiding. Data Hiding means We are hiding data from outsiders or outside person/thing cannot access our data.This is a useful feature in OOP.

As a example:

If you create a public variable, you can access that variable and change value in anywhere(any class). But if you create as private that variable cannot see/access in any class except declared class.

public and private are access modifiers.

So how can we access that variable outside:

This is the place getters and setters coming from. You can declare variable as private then you can implement getter and setter for that variable.


private String name;

public String getName(){
   return this.name;

public void setName(String name){
   this.name= name;


When anyone want to access or change/set value to balance variable, he/she must have permision.

//assume we have person1 object
//to give permission to check balance

//to give permission to set balance

You can set value in constructor also but when later on when you want to update/change value, you have to implement setter method.

  • your getBalance/setBalance aren't getter/setter if they have other code, are they? Also why expose balance? Wouldn't it be safer to have an applyPayment or applyDebt that allowed balance checking and maybe a memo field to say where the payment was from? Hey! I just improved your design AND removed the setter and getter. That's the thing about setters/getters, it pretty much always improves your code to remove them, not that they are "Wrong", just that they nearly always lead to worse code. Properties (as in C#), by the way, have exactly the same issue. – Bill K May 1 '17 at 16:57

I wanted to post a real world example I just finished up:

background - I hibernate tools to generate the mappings for my database, a database I am changing as I develop. I change the database schema, push the changes and then run hibernate tools to generate the java code. All is well and good until I want to add methods to those mapped entities. If I modify the generated files, they will be overwritten every time I make a change to the database. So I extend the generated classes like this:

package com.foo.entities.custom
class User extends com.foo.entities.User{
     public Integer getSomething(){
         return super.getSomething();             
     public void setSomething(Integer something){

What I did above is override the existing methods on the super class with my new functionality (something+1) without ever touching the base class. Same scenario if you wrote a class a year ago and want to go to version 2 without changing your base classes (testing nightmare). hope that helps.

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    "What I did above is override the existing methods on the super class with my new functionality." With functionality that we all hope was already properly documented for the old interface, right? Otherwise you just violated the LSP and introduced a silent breaking change that would have been caught by the compiler if there were no getters/setters in sight. – R. Martinho Fernandes Aug 24 '12 at 14:39
  • @R.MartinhoFernandes "... and then run hibernate tools to generate the java code" this isn't a case of changing the behavior of some class, this is a work around to a shitty tool. Perhaps the contract (which in this case is in the subclass) always was for that "surprise". Could be an argument for has-a instead of is-a though. – Phil Oct 29 '13 at 19:15
  • I fail to see what you achieve by not using the superclass' properties directly. – Agi Hammerthief Dec 18 '14 at 20:59

I will let the code speak for itself:

Mesh mesh = new Mesh();
BoundingVolume vol = new BoundingVolume();
mesh.boundingVolume = vol;
vol.mesh = mesh;

Do you like it? Here is with the setters:

Mesh mesh = new Mesh();
BoundingVolume vol = new BoundingVolume();
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    You did not answer the question which was: "What's the advantage of using getters and setters - that only get and set ..." Your example is not this case, and therefor you answer does not apply to this question. – AgilePro Oct 28 '14 at 0:33
  • I think the semantics of the given code samples are totally different. The first sample also creates a circular reference: mesh.boundingVolume.mesh == mesh – Hubert Grzeskowiak Aug 1 '16 at 9:58

If you want a readonly variable but don't want the client to have to change the way they access it, try this templated class:

template<typename MemberOfWhichClass, typename primative>                                       
class ReadOnly {
    friend MemberOfWhichClass;
    template<typename number> inline bool   operator==(const number& y) const { return x == y; } 
    template<typename number> inline number operator+ (const number& y) const { return x + y; } 
    template<typename number> inline number operator- (const number& y) const { return x - y; } 
    template<typename number> inline number operator* (const number& y) const { return x * y; }  
    template<typename number> inline number operator/ (const number& y) const { return x / y; } 
    template<typename number> inline number operator<<(const number& y) const { return x << y; }
    template<typename number> inline number operator^(const number& y) const  { return x^y; }
    template<typename number> inline number operator~() const                 { return ~x; }
    template<typename number> inline operator number() const                  { return x; }
    template<typename number> inline number operator= (const number& y) { return x = y; }       
    template<typename number> inline number operator+=(const number& y) { return x += y; }      
    template<typename number> inline number operator-=(const number& y) { return x -= y; }      
    template<typename number> inline number operator*=(const number& y) { return x *= y; }      
    template<typename number> inline number operator/=(const number& y) { return x /= y; }      
    primative x;                                                                                

Example Use:

class Foo {
    ReadOnly<Foo, int> cantChangeMe;

Remember you'll need to add bitwise and unary operators as well! This is just to get you started

  • Please note that the question was asked without a specific language in mind. – Hubert Grzeskowiak Aug 1 '16 at 9:59

One relatively modern advantage of getters/setters is that is makes it easier to browse code in tagged (indexed) code editors. E.g. If you want to see who sets a member, you can open the call hierarchy of the setter.

On the other hand, if the member is public, the tools don't make it possible to filter read/write access to the member. So you have to trudge though all uses of the member.


Although not common for getter and setter, the use of these methods can also be used in AOP/proxy pattern uses. eg for auditing variable you can use AOP to audit update of any value. Without getter/setter it's not possible except changing the code everywhere. Personaly I have never used AOP for that, but it shows one more advantage of using getter/setter.


This is a good question with even better answers. As there are a lot of them, I will just put there a little more This example is based on C#, just a useful piece of code. Validating data in the brackets were already explained.

public class foo
    public int f1 { get; set; }             // A classic GS
    public int f2 { get; private set; }     // A GS with public read access, the write is only on the private level
    public int f3 { private get; set; }     // A GS where "You can set, but you can't get" outside the class
    public int f4 { get; set; } = 10;       // A GS with default value, this is a NEW feature of C# 6.0 / .NET 4.6
  • In Java you don't have getters and setters like that. What you do have is Project Lombok which uses annotations to much the same effect. So if you want this niceness but in Java and not C#, then you know where to go. :) – Haakon Løtveit Dec 16 '15 at 13:37

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