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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.


Compiling the list up here at the top of what seemed winners to me, from the viewpoint of a Java web dev:

  1. When you realize you need to do more than just set and get the value, you don't have to change every file in the codebase.
  2. You can perform validation here.
  3. You can change the value being set.
  4. You can hide the internal representation. getAddress() could actually be getting several fields for you.
  5. You've insulated your public interface from changes under the sheets.
  6. Some libraries expect this. Reflection, serialization, mock objects.
  7. Inheriting this class, you can override default functionality.
  8. You can have different access levels for getter and setter.
  9. Lazy loading.
  10. People can easily tell you didn't use Python.
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4  
@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
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Google "accessors are evil" –  OMG Ponies Oct 14 '09 at 18:45
15  
"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
10  
Tell, don't ask. pragprog.com/articles/tell-dont-ask –  Dave Jarvis Oct 14 '09 at 22:18
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28 Answers

up vote 242 down vote accepted

There are actually many good reasons to consider using accessors rather than directly exposing fields of a class - beyond just the argument of encapsulation and making future changes easier.

Here are the some of the reasons I am aware of:

  • Encapsulation of behavior associated with getting or setting the property - this allows additional functionality (like validation) to be added more easily later.
  • Hiding the internal representation of the property while exposing a property using an alternative representation.
  • Insulating your public interface from change - allowing the public interface to remain constant while the implementation changes without affecting existing consumers.
  • Controlling the lifetime and memory management (disposal) semantics of the property - particularly important in non-managed memory environments (like C++ or Objective-C).
  • Providing a debugging interception point for when a property changes at runtime - debugging when and where a property changed to a particular value can be quite difficult without this in some languages.
  • Improved interoperability with libraries that are designed to operate against property getter/setters - Mocking, Serialization, and WPF come to mind.
  • Allowing inheritors to change the semantics of how the property behaves and is exposed by overriding the getter/setter methods.
  • Allowing the getter/setter to be passed around as lambda expressions rather than values.
  • Getters and setters can allow different access levels - for example the get may be public, but the set could be protected.
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25  
Tell, don't ask. pragprog.com/articles/tell-dont-ask –  Dave Jarvis Oct 14 '09 at 22:17
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+1. Just to add: Allowing lazy loading. Allowing copy on write. –  Aurélien Vallée Oct 16 '09 at 23:41
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-1, because getters and setters buy you next to nothing over public data ("It is hard for me to imagine an evolution of a system that would let you keep the interface of get and set, but be able to change the implementation." Alexander Stepanov) and promote a style that leads to "quasi classes" (Conrad Weisert), which are an abomination onto OO. –  sbi Aug 23 '12 at 19:45
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@sbi: One thing that is bought by using a property setter, even in a well-designed framework, is the ability to have an object notify another when a property changes. –  supercat Aug 23 '12 at 21:48
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@supercat: However, I am not, generally, promoting public data. Notification of other objects can just as well be done from real methods providing a significant abstraction on a mere data container with (more or less) public data fields. Instead of plane.turnTo(dir); plane.setSpeed(spd); plane.setTargetAltitude(alt); plane.getBreaks().release(); I want to say plane.takeOff(alt). What inner data fields need to be changed in order to put the plane into the takingOff mode is none of my concerns. And what other objects (breaks) the method notifies I don't want to know either. –  sbi Aug 24 '12 at 9:35
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Because 2 weeks (months, years) from now when you realize that your setter needs to do more than just set the value, you'll also realize that the property has been used directly in 238 other classes :-)

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I'm sitting and starting at a 500k line app where it's never been needed. That said, if it's needed once, it'd start causing a maintenance nightmare. Good enough for a checkmark for me. –  Dean J Oct 14 '09 at 18:24
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I can only envy you and your app :-) That said, it really depends on your software stack as well. Delphi, for example (and C# - I think?) allows you to define properties as 1st class citizens where they can read / write a field directly initially but - should you need it - do so via getter / setter methods as well. Mucho convenient. Java, alas, does not - not to mention the javabeans standard which forces you to use getters / setters as well. –  ChssPly76 Oct 14 '09 at 18:27
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@LBushkin - assuming your code will not be consumed publicly. –  UpTheCreek Oct 14 '09 at 19:05
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sounds like pre-mature optimization –  Casey Jun 15 '12 at 21:31
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The question you need to ask when you wonder whether to implement getters and setters is: Why would users of a class need to access the class' innards at all? It doesn't really matter whether they do it directly or shielded by a thin pseudo layer — if users need to access implementation details, then that's a sign that the class doesn't offer enough of an abstraction. See also this comment. –  sbi Aug 23 '12 at 21:13
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A public field is not worse than a getter/setter pair that does nothing except returning the field and assigning to it. First, it's clear that (in most languages) there is no functional difference. Any difference must be in other factors, like maintainability or readability.

An oft-mentioned advantage of getter/setter pairs, isn't. There's this claim that you can change the implementation and your clients don't have to be recompiled. Supposedly, setters let you add functionality like validation later on and your clients don't even need to know about it. However, adding validation to a setter is a change to its preconditions, a violation of the previous contract, which was, quite simply, "you can put anything in here, and you can get that same thing later from the getter".

So, now that you broke the contract, changing every file in the codebase is something you should want to do, not avoid. If you avoid it you're making the assumption that all the code assumed the contract for those methods was different.

If that should not have been the contract, then the interface was allowing clients to put the object in invalid states. That's the exact opposite of encapsulation If that field could not really be set to anything from the start, why wasn't the validation there from the start?

This same argument applies to other supposed advantages of these pass-through getter/setter pairs: if you later decide to change the value being set, you're breaking the contract. If you override the default functionality in a derived class, in a way beyond a few harmless modifications (like logging or other non-observable behaviour), you're breaking the contract of the base class. That is a violation of the Liskov Substitutability Principle, which is seen as one of the tenets of OO.

If a class has these dumb getters and setters for every field, then it is a class that has no invariants whatsoever, no contract. Is that really object-oriented design? If all the class has is those getters and setters, it's just a dumb data holder, and dumb data holders should look like dumb data holders:

class Foo {
public:
    int DaysLeft;
    int ContestantNumber;
}

Adding pass-through getter/setter pairs to such a class adds no value. Other classes should provide meaningful operations, not just operations that fields already provide. That's how you can define and maintain useful invariants.

Client: "What can I do with an object of this class?"
Designer: "You can read and write several variables."
Client: "Oh... cool, I guess?"

There are reasons to use getters and setters, but if those reasons don't exist, making getter/setter pairs in the name of false encapsulation gods is not a good thing. Valid reasons to make getters or setters include the things often mentioned as the potential changes you can make later, like validation or different internal representations. Or maybe the value should be readable by clients but not writable (for example, reading the size of a dictionary), so a simple getter is a nice choice. But those reasons should be there when you make the choice, and not just as a potential thing you may want later. This is an instance of YAGNI (You Ain't Gonna Need It).

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There is a counter example, and that is when the 'public' field is a large object. By enforcing the use of get/set for this large object, you can later decide to actually store this large object in a cache, as the same values are often used a lot. To the outside world you would maintain the same behaviour, set complex object, get complex object. Internally however, you have now avoided storing the same value many times, instead just storing some sort of index. I will concede though that planning for such a change, but not just doing it in the first place is probably a much worse idea. –  thecoshman May 3 '13 at 10:06
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I also think you are only arguing against 'dumb' pass through getters and setts, ones that perform no validation or transformation of the data at all. Obviously if you need to ensure that a value is not set to null, or if it is you create a default object, then you have that as part of your public contract, just like if you allow it to be set to null and the value will be got as null. Maintaining the public interface is important, and if all that is is dumb get/set, then they really do serve no purpose... apart from make it look to your BHB that you have done more work then you really have. –  thecoshman May 3 '13 at 10:11
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Great answer (+1). My only criticism is that it took me several reads to figure out how "validation" in the final paragraph differed from "validation" in the first few (which you threw out in the latter case but promoted in the former); adjusting the wording might help in that regard. –  Lightness Races in Orbit Jul 6 '13 at 21:12
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This is a great answer but alas the current era has forgotten what "information hiding" is or what it is for. They never read about immutability and in their quest for most-agile, never drew that state-transition-diagram that defined what the legal states of an object were and thus what were not. –  Darrell Teague Nov 6 '13 at 14:58
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Well, It seems like the right place to quote an amusing post titled "Slutty Types" from Davy Brion's blog.

Slutty Types are types which:

  1. give you access to their privates without too many difficulties
  2. don’t really care about your intentions, or if they do, aren’t very clear on that
  3. occasionally seem like a good short-term fix
  4. can be used in a variety of ways, with different outcomes and none of them are guaranteed
  5. can not to be trusted
  6. really need to be tested
  7. will burn you sooner or later if you’re not careful
  8. become even more of a mess during the aging process

It's just another funny way to tell you why you should use encapsulation.

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I see this as an argument against getters/setters, which fit all those negative arguments very well, and do not deliver enough encapsulation. –  sbi Aug 23 '12 at 21:16
    
This is a great example regarding the need for information-hiding and encapsulation. Protect your members! –  Darrell Teague Nov 6 '13 at 15:25
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There are many reasons. My favorite one is when you need to change the behavior or regulate what you can set on a variable. For instance, lets say you had a setSpeed(int speed) method. But you want that you can only set a maximum speed of 100. You would do something like:

public void setSpeed(int speed) {
  if ( speed > 100 ) {
    this.speed = 100;
  } else {
    this.speed = speed;
  }
}

Now what if EVERYWHERE in your code you were using the public field and then you realized you need the above requirement? Have fun hunting down every usage of the public field instead of just modifying your setter.

My 2 cents :)

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Hunting down every usage of the public field shouldn't be that hard. Make it private and let the compiler find them. –  Nathan Fellman Oct 14 '09 at 18:57
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that's true of course, but why make it any harder than it was designed to be. The get/set approach is still the better answer. –  Hardryv Oct 14 '09 at 19:05
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Unless other projects also use that public field, ie if you share your library to external sources –  PostMan Oct 14 '09 at 20:36
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Tracking things down shouldn't be a problem in this day and age; I use an IDE. The type of projects I work on aren't ever shared to external sources. –  Dean J Oct 14 '09 at 20:39
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@Nathan: Finding other usages isn't the problem. Changing them all is. –  Graeme Perrow Nov 7 '09 at 22:09
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One advantage of accessors and mutators is that you can perform validation.

For example, if foo was public, I could easily set it to null and then someone else could try to call a method on the object. But it's not there anymore! With a setFoo method, I could ensure that foo was never set to null.

Accessors and mutators also allow for encapsulation - if you aren't supposed to see the value once its set (perhaps it's set in the constructor and then used by methods, but never supposed to be changed), it will never been seen by anyone. But if you can allow other classes to see or change it, you can provide the proper accessor and/or mutator.

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Lots of people talk about the advantages of getters and setters but I want to play devil's advocate. Right now I'm debugging a very large program where the programmers decided to make everything getters and setters. That might seem nice, but its a reverse-engineering nightmare.

Say you're looking through hundreds of lines of code and you come across this:

person.name = "Joe";

It's a beautifully simply piece of code until you realize its a setter. Now, you follow that setter and find that it also sets person.firstName, person.lastName, person.isHuman, person.hasReallyCommonFirstName, and calls person.update(), which sends a query out to the database, etc. Oh, that's where your memory leak was occurring.

Understanding a local piece of code at first glance is an important property of good readability that getters and setters tend to break. That is why I try to avoid them when I can, and minimize what they do when I use them.

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Yes. Currently refactoring a large codebase, and this has been a nightmare. The getters and setters do way too much, including calling other very busy getters and setters that end up reducing the readability to nothing. Validation is a great reason for using accessors, but using them to do much more than that seems to remove any potential benefit. –  Fadecomic May 14 '12 at 19:56
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This is argument against syntactic sugar, not against setters in general. –  Phil Oct 29 '13 at 19:02
    
True and true but moreover, it points how why individual property setters open the door for invalid states with absolutely no remedy for ensuring the integrity of any given object that allows the abstraction to leak. –  Darrell Teague Nov 6 '13 at 15:26
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Depends on your language. You've tagged this "object-oriented" rather than "Java", so I'd like to point out that ChssPly76's answer is language-dependent. In Python, for instance, there is no reason to use getters and setters. If you need to change the behavior, you can use a property, which wraps a getter and setter around basic attribute access. Something like this:

class Simple(object):
   def _get_value(self):
       return self._value -1

   def _set_value(self, new_value):
       self._value = new_value + 1

   def _del_value(self):
       self.old_values.append(self._value)
       del self._value

   value = property(_get_value, _set_value, _del_value)
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Yes, I've said as much in a comment below my answer. Java is not the only language to use getters / setters as a crutch just like Python is not the only language able to define properties. The main point, however, still remains - "property" is not the same "public field". –  ChssPly76 Oct 14 '09 at 18:40
    
@ChssPly76: but the main reason for using getters and setters is to prevent having to change the interface when you want to add more functionality, which means that it's perfectly acceptable--idiomatic even--to use public fields until such functionality is needed. –  jcdyer Oct 15 '09 at 13:35
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@jcd - not at all. You're defining your "interface" (public API would be a better term here) by exposing your public fields. Once that's done, there's no going back. Properties are NOT fields because they provide you with a mechanism to intercept attempts to access fields (by routing them to methods if those are defined); that is, however, nothing more than syntax sugar over getter / setter methods. It's extremely convenient but it doesn't alter the underlying paradigm - exposing fields with no control over access to them violates the principle of encapsulation. –  ChssPly76 Oct 15 '09 at 21:09
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@ChssPly76—I disagree. I have just as much control as if they were properties, because I can make them properties whenever I need to. There is no difference between a property that uses boilerplate getters and setters, and a raw attribute, except that the raw attribute is faster, because it utilizes the underlying language, rather than calling methods. Functionally, they are identical. The only way encapsulation could be violated is if you think parentheses (obj.set_attr('foo')) are inherently superior to equals signs (obj.attr = 'foo'). Public access is public access. –  jcdyer Oct 16 '09 at 15:27
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@jcdyer as much control yes, but not as much readability, others often wrongly assume that obj.attr = 'foo' just sets the variable without anything else happening –  Timo Huovinen Aug 10 '13 at 9:49
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I spent quite a while thinking this over for the Java case, and I believe the real reasons are:

  1. Code to the interface, not the implementation
  2. Interfaces only specify methods, not fields

In other words, the only way you can specify a field in an interface is by providing a method for writing a new value and a method for reading the current value.

Those methods are the infamous getter and setter....

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Okay, second question; in the case where it's a project where you're not exporting source to anyone, and you have full control of the source... are you gaining anything with getters and setters? –  Dean J Nov 9 '09 at 15:22
    
In any non-trivial Java project you need to code to interfaces in order to make things manageable and testable (think mockups and proxy objects). If you use interfaces you need getters and setters. –  Thorbjørn Ravn Andersen Nov 9 '09 at 18:13
    
The intent about interfaces is right but I think folks are missing the OO concepts about state-management and invariant states. Field-level getters/setters are not the only way to work through an interface and commonly break OO best-practices. Many times immutability is the right answer, creating and object in one valid state and then transitioning it to ANOTHER valid state through state-transition related methods or constructing new instances of the objects in different states versus illegally mutating one field value through a setter. –  Darrell Teague Nov 6 '13 at 15:32
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Don't use getters setters unless needed for your current delivery I.e. Don't think too much about what would happen in the future, if any thing to be changed its a change request in most of the production applications, systems.

Think simple, easy, add complexity when needed.

I would not take advantage of ignorance of business owners of deep technical know how just because I think it's correct or I like the approach.

I have massive system written without getters setters only with access modifiers and some methods to validate n perform biz logic. If you absolutely needed the. Use anything.

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Well i just want to add that even if sometimes they are necessary for the encapsulation and security of your variables/objects, if we want to code a real Object Oriented Program, then we need to STOP OVERUSING THE ACCESSORS, cause sometimes we depend a lot on them when is not really necessary and that makes almost the same as if we put the variables public.

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Thanks, that really clarified my thinking. Now here is (almost) 10 (almost) good reasons NOT to use getters and setters:

  1. When you realize you need to do more than just set and get the value, you can just make the field private, which will instantly tell you where you've directly accessed it.
  2. Any validation you perform in there can only be context free, which validation rarely is in practice.
  3. You can change the value being set - this is an absolute nightmare when the caller passes you a value that they [shock horror] want you to store AS IS.
  4. You can hide the internal representation - fantastic, so you're making sure that all these operations are symmetrical right?
  5. You've insulated your public interface from changes under the sheets - if you were designing an interface and weren't sure whether direct access to something was OK, then you should have kept designing.
  6. Some libraries expect this, but not many - reflection, serialization, mock objects all work just fine with public fields.
  7. Inheriting this class, you can override default functionality - in other words you can REALLY confuse callers by not only hiding the implementation but making it inconsistent.

The last three I'm just leaving (N/A or D/C)...

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I think the crucial argument is that, "if you were designing an interface and weren't sure whether direct access to something was OK, then you should have kept designing." That is the most important problem with getters/setters: They reduce a class to a mere container of (more or less) public fields. In real OOP, however, an object is more than a container of data fields. It encapsulates state and algorithms to manipulate that state. What's crucial about this statement is that the state is supposed to be encapsulated and only to be manipulated by the algorithms provided by the object. –  sbi Aug 24 '12 at 9:29
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One of the basic principals of OO design: Encapsulation!

It gives you many benefits, one of which being that you can change the implementation of the getter/setter behind the scenes but any consumer of that value will continue to work as long as the data type remains the same.

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The encapsulation getters and setters offer are laughably thin. See here. –  sbi Aug 23 '12 at 21:14
    
If your public interface states that 'foo' is of type 'T' and can be set to anything, you can never change that. You can not latter decide to make it of type 'Y', nor can you impose rules such as size constraints. Thus if you have public get/set that do nothing much set/get, you are gaining nothing that a public field will not offer and making it more cumbersome to use. If you have a constraint, such as the object can be set to null, or the value has to be within a range, then yes, a public set method would be required, but you still present a contract from setting this value that can't change –  thecoshman May 3 '13 at 10:17
    
Why can't a contract change? –  Phil Oct 29 '13 at 20:04
1  
Why should things keep on compiling if contracts change? –  R. Martinho Fernandes Oct 30 '13 at 11:06
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One aspect I missed in the answers so far, the access specification:

  • for members you have only one access specification for both setting and getting
  • for setters and getters you can fine tune it and define it separately
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It can be useful for lazy-loading. Say the object in question is stored in a database, and you don't want to go get it unless you need it. If the object is retrieved by a getter, then the internal object can be null until somebody asks for it, then you can go get it on the first call to the getter.

I had a base page class in a project that was handed to me that was loading some data from a couple different web service calls, but the data in those web service calls wasn't always used in all child pages. Web services, for all of the benefits, pioneer new definitions of "slow", so you don't want to make a web service call if you don't have to.

I moved from public fields to getters, and now the getters check the cache, and if it's not there call the web service. So with a little wrapping, a lot of web service calls were prevented.

So the getter saves me from trying to figure out, on each child page, what I will need. If I need it, I call the getter, and it goes to find it for me if I don't already have it.

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We use getters and setters:

  • for reusability
  • to perform validation in later stages of programming

Getter and setter methods are public interfaces to access private class members.


Encapsulation mantra

The encapsulation mantra is to make fields private and methods public.

Getter Methods: We can get access to private variables.

Setter Methods: We can modify private fields.

Even though the getter and setter methods do not add new functionality, we can change our mind come back later to make that method

  • better;
  • safer; and
  • faster.

Anywhere a value can be used, a method that returns that value can be added. Instead of:

int x = 1000 - 500

use

int x = 1000 - class_name.getValue();

In layman's terms

Representation of "Person" class

Suppose we need to store the details of this Person. This Person has the fields name, age and sex. Doing this involves creating methods for name, age and sex. Now if we need create another person, it becomes necessary to create the methods for name, age, sex all over again.

Instead of doing this, we can create a bean class(Person) with getter and setter methods. So tomorrow we can just create objects of this Bean class(Person class) whenever we need to add a new person (see the figure). Thus we are reusing the fields and methods of bean class, which is much better.

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In languages which don't support "properties" (C++, Java) or require recompilation of clients when changing fields to properties (C#), using get/set methods is easier to modify. For example, adding validation logic to a setFoo method will not require changing the public interface of a class.

In languages which support "real" properties (Python, Ruby, maybe Smalltalk?) there is no point to get/set methods.

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Re: C#. If you add functionality to a get/set wouldn't that require recompilation anyway? –  steamer25 Oct 14 '09 at 19:11
    
@steamer25: sorry, mis-typed. I meant that clients of the class will have to be recompiled. –  John Millikin Oct 14 '09 at 19:14
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Adding validation logic to a setFoo method will not require changing the interface of a class at the language level, but it does change the actual interface, aka contract, because it changes the preconditions. Why would one want the compiler to not treat that as a breaking change when it is? –  R. Martinho Fernandes Sep 26 '12 at 5:57
    
@R.MartinhoFernandes how does one fix this "broken" problem? The compiler can't tell if it's breaking or not. This is only a concern when you are writing libraries for others, but you're making it out as universal zOMG here be dragons! –  Phil Oct 29 '13 at 19:33
    
Requiring recompilation, as mentioned in the answer, is one way the compiler can make you aware of a possible breaking change. And almost everything I write is effectively "a library for others", because I don't work alone. I write code that has interfaces that other people in the project will use. What's the difference? Hell, even if I will be the user of those interfaces, why should I hold my code to lower quality standards? I don't like working with troublesome interfaces, even if I'm the one writing them. –  R. Martinho Fernandes Oct 30 '13 at 11:02
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One other use (in languages that support properties) is that setters and getters can imply that an operation is non-trivial. Typically, you want to avoid doing anything that's computationally expensive in a property.

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Getter and setter methods are accessor methods, meaning that they are generally a public interface to change private class members. You use getter and setter methods to define a property. You access getter and setter methods as properties outside the class, even though you define them within the class as methods. Those properties outside the class can have a different name from the property name in the class.

There are some advantages to using getter and setter methods, such as the ability to let you create members with sophisticated functionality that you can access like properties. They also let you create read-only and write-only properties.

Even though getter and setter methods are useful, you should be careful not to overuse them because, among other issues, they can make code maintenance more difficult in certain situations. Also, they provide access to your class implementation, like public members. OOP practice discourages direct access to properties within a class.

When you write classes, you are always encouraged to make as many as possible of your instance variables private and add getter and setter methods accordingly. This is because there are several times when you may not want to let users change certain variables within your classes. For example, if you have a private static method that tracks the number of instances created for a specific class, you don't want a user to modify that counter using code. Only the constructor statement should increment that variable whenever it's called. In this situation, you might create a private instance variable and allow a getter method only for the counter variable, which means users are able to retrieve the current value only by using the getter method, and they won't be able to set new values using the setter method. Creating a getter without a setter is a simple way of making certain variables in your class read-only.

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I will let the code speak for itself:

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

Do you like it? Here is with the setters:

Mesh mesh = new Mesh();
BoundingVolume vol = new BoundingVolume();
mesh.setBoundingVolume(vol);
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From a object orientation design standpoint both alternatives can be damaging to the maintenance of the code by weakening the encapsulation of the classes. For a discussion you can look into this excellent article: http://typicalprogrammer.com/?p=23

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Code evolves. private is great for when you need data member protection. Eventually all classes should be sort of "miniprograms" that have a well-defined interface that you can't just screw with the internals of.

That said, software development isn't about setting down that final version of the class as if you're pressing some cast iron statue on the first try. While you're working with it, code is more like clay. It evolves as you develop it and learn more about the problem domain you are solving. During development classes may interact with each other than they should (dependency you plan to factor out), merge together, or split apart. So I think the debate boils down to people not wanting to religiously write

int getVar() const { return var ; }

So you have:

doSomething( obj->getVar() ) ;

Instead of

doSomething( obj->var ) ;

Not only is getVar() visually noisy, it gives this illusion that gettingVar() is somehow a more complex process than it really is. How you (as the class writer) regard the sanctity of var is particularly confusing to a user of your class if it has a passthru setter -- then it looks like you're putting up these gates to "protect" something you insist is valuable, (the sanctity of var) but yet even you concede var's protection isn't worth much by the ability for anyone to just come in and set var to whatever value they want, without you even peeking at what they are doing.

So I program as follows (assuming an "agile" type approach -- ie when I write code not knowing exactly what it will be doing/don't have time or experience to plan an elaborate waterfall style interface set):

1) Start with all public members for basic objects with data and behavior. This is why in all my C++ "example" code you'll notice me using struct instead of class everywhere.

2) When an object's internal behavior for a data member becomes complex enough, (for example, it likes to keep an internal std::list in some kind of order), accessor type functions are written. Because I'm programming by myself, I don't always set the member private right away, but somewhere down the evolution of the class the member will be "promoted" to either protected or private.

3) Classes that are fully fleshed out and have strict rules about their internals (ie they know exactly what they are doing, and you are not to "fuck" (technical term) with its internals) are given the class designation, default private members, and only a select few members are allowed to be public.

I find this approach allows me to avoid sitting there and religiously writing getter/setters when a lot of data members get migrated out, shifted around, etc. during the early stages of a class's evolution.

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Additionally, this is to "future-proof" your class. In particular, changing from a field to a property is an ABI break, so if you do later decide that you need more logic than just "set/get the field", then you need to break ABI, which of course creates problems for anything else already compiled against your class.

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I suppose that changing the behaviour of the getter or setter isn't a breaking change then. </sarcasm> –  R. Martinho Fernandes Sep 26 '12 at 5:54
    
@R.MartinhoFernandes doesn't always have to be. TBYS –  Phil Oct 29 '13 at 19:10
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In an object oriented language the methods, and their access modifiers, declare the interface for that object. Between the constructor and the accessor and mutator methods it is possible for the developer to control access to the internal state of an object. If the variables are simply declared public then there is no way to regulate that access.

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I would just like to throw the idea of annotation : @getter and @setter. With @getter, you should be able to obj = class.field but not class.field = obj. With @setter, vice versa. With @getter and @setter you should be able to do both. This would preserve encapsulation and reduce the time by not calling trivial methods at runtime.

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It would be implemented at runtime with "trivial methods". Actually, probably non-trivial. –  Phil Oct 29 '13 at 19:11
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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){
         something+=1;
         super.setSomething(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
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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.

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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;
public:
    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; }
protected:
    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 {
public:
    ReadOnly<Foo, int> cantChangeMe;
};

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

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protected by Abhijit Jan 27 at 3:02

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