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I am a Java programmer who is new to the corporate world. Recently I've developed an application using Groovy and Java. All through the code I've used quite a good number of statics. I was asked by the senior technical lot to cut down on the number of statics used. I've googled about the same, and I find that many programmers are fairly against using static variables.

I find static variables more convenient to use. And I presume that they are efficient too (please correct me if I am wrong), because if I had to make 10,000 calls to a function within a class, I would be glad to make the method static and use a straightforward class.methodCall() on it instead of cluttering the memory with 10,000 instances of the class, right?

Moreover statics reduce the inter-dependencies on the other parts of the code. They can act as perfect state holders. Adding to this I find that statics are widely implemented in some languages like Smalltalk and Scala. So why is this oppression for statics prevalent among programmers (especially in the world of Java)?

PS: please do correct me if my assumptions about statics are wrong.

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Just for the sake of saying, there are no static variables or methods on Smalltalk or Scala, exactly because static methods and variables are against the OOP principles. –  Maurício Linhares Aug 11 '11 at 13:17
At least one statement you make is rather curious: "statics reduce the inter-dependencies on the other parts of the code". In general they tighten the dependencies. The code where the call is made is bound very tightly to the called code. No abstraction between, direct dependency. –  Arne Aug 11 '11 at 13:27
Good question... more of a Programmers.SE Questions tho? –  WernerCD Aug 11 '11 at 16:50
Your second paragraph is about an entirely different subject, namely static methods. –  Paul Aug 11 '11 at 17:40
Functional programming also frowns down upon global state as well. If you ever (and you should) get into FP one day, be prepared to ditch the notion of global state. –  new123456 Aug 11 '11 at 18:40

23 Answers 23

up vote 310 down vote accepted

Static variables represent global state. That's hard to reason about and hard to test: if I create a new instance of an object, I can reason about its new state within tests. If I use code which is using static variables, it could be in any state - and anything could be modifying it.

I could go on for quite a while, but the bigger concept to think about is that the tighter the scope of something, the easier it is to reason about. We're good at thinking about small things, but it's hard to reason about the state of a million line system if there's no modularity. This applies to all sorts of things, by the way - not just static variables.

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That lately seems to be an argument, whether code testable or not. It's a rather flawed reasoning. The argument should be 'good design', and usually good design is testable. But not the other way around: "I can't test it therefor it must be bad design." Don't get me wrong though, I agree with your post in general. –  M Platvoet Aug 11 '11 at 14:20
@M Platvoet: I would say that given a choice between two otherwise equally valid designs, the testable one is superior. Being testable certainly doesn't equate to being well designed, but I've rarely come across untestable good designs, and I think they're sufficiently rare that I have no problem in making testability a general purpose contributing indicator towards good design. –  Jon Skeet Aug 11 '11 at 14:23
@M Platvoet - Testability affects both maintainability and reliability, and I would consider those major factors in the quality of design. They're not the only factors, surely, but IMHO the cost of any given code is a combination of machine cycles, developer cycles, and user cycles. Testability hits two of those three. –  Justin Morgan Aug 16 '11 at 19:05
@M Platvoet - Testability also tends to affect reusability, since a decoupled class is generally easier to reuse. –  TrueWill Aug 19 '11 at 3:15
M Platvoet - I don't agree with your first comment here. I think if something can't be tested, then it IS bad design; because if I can't test it, I can't know that it works. Would you buy a car if the salesperson told you "The design of this model prevents it from being tested, so I don't know if it actually runs"? Testability is so crucial for software (as well as cars), that competent design DEMANDS that it be included. –  David Wallace Dec 30 '11 at 10:48

Its not very object oriented: One reason statics might be considered "evil" by some people is they are contrary the object-oriented paradigm. In particular, it violates the principle that data is encapsulated in objects (that can be extended, information hiding, etc). Statics, in the way you are describing using them, are essentially to use them as a global variable to avoid dealing with issues like scope. However, global variables is one of the defining characteristics of procedural or imperative programming paradigm, not a characteristic of "good" object oriented code. This is not to say the procedural paradigm is bad, but I get the impression your supervisor expects you to be writing "good object oriented code" and you're really wanting to write "good procedural code".

There are many gotchyas in Java when you start using statics that are not always immediately obvious. For example, if you have two copies of your program running in the same VM, will they shre the static variable's value and mess with the state of each other? Or what happens when you extend the class, can you override the static member? Is your VM running out of memory because you have insane numbers of statics and that memory cannot be reclaimed for other needed instance objects?

Object Lifetime: Additionally, statics have a lifetime that matches the entire runtime of the program. This means, even once you're done using your class, the memory from all those static variables cannot be garbage collected. If, for example, instead, you made your variables non-static, and in your main() function you made a single instance of your class, and then asked your class to execute a particular function 10,000 times, once those 10,000 calls were done, and you delete your references to the single instance, all your static variables could be garbage collected and reused.

Prevents certain re-use: Also, static methods cannot be used to implement an interface, so static methods can prevent certain object oriented features from being usable.

Other Options: If efficiency is your primary concern, there might be other better ways to solve the speed problem than considering only the advantage of invocation being usually faster than creation. Consider whether the transient or volatile modifiers are needed anywhere. To preserve the ability to be inlined, a method could be marked as final instead of static. Method parameters and other variables can be marked final to permit certain compiler optimiazations based on assumptions about what can change those variables. An instance object could be reused multiple times rather than creating a new instance each time. There may be compliler optimization switches that should be turned on for the app in general. Perhaps, the design should be set up so that the 10,000 runs can be multi-threaded and take advantage of multi-processor cores. If portablity isn't a concern, maybe a native method would get you better speed than your statics do.

If for some reason you do not want multiple copies of an object, the singleton design pattern, has advantages over static objects, such as thread-safety (presuming your singleton is coded well), permitting lazy-initialization, guaranteeing the object has been properly initialized when it is used, sub-classing, advantages in testing and refactoring your code, not to mention, if at some point you change your mind about only wanting one instance of an object it is MUCH easier to remove the code to prevent duplicate instances than it is to refactor all your static variable code to use instance variables. I've had to do that before, its not fun, and you end up having to edit a lot more classes, which increases your risk of introducing new bugs...so much better to set things up "right" the first time, even if it seems like it has its disadvantages. For me, the re-work required should you decide down the road you need multiple copies of something is probably one of most compelling reasons to use statics as infrequently as possible. And thus I would also disagree with your statement that statics reduce inter-dependencies, I think you will end up with code that is more coupled if you have lots of statics that can be directly accessed, rather than an object that "knows how to do something" on itself.

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I like your answer, I think it focuses on the right tradeoffs to consider around statics rather than some of the red herrings like concurrency and scope. And +1 for singletons, a better question really might have been when to use static variables/methods vs singletons... –  studgeek Aug 17 '11 at 19:57
Even though the singleton itself might be thread-safe (e.g. by using synchronized methods), it doesn't mean the calling code is free of race conditions with respect to the singleton state. –  André Caron Aug 17 '11 at 20:07
Also, statics are not against the OOP paradigm. A lot of OOP fanatics will tell you that the class is an object, and the static method is a method of the class object, rather than it's instances. This phenomenon is less present in Java. Other languages, such as Python allow you to use classes as variables and you can access static methods as methods of that object. –  André Caron Aug 17 '11 at 20:10
+1 for explaining "object lifetime" of static variables. –  Mechanical snail Aug 26 '11 at 5:51
I like this answer... Very well explained. Thank you! :D –  dicenice Aug 8 '13 at 4:17

Evil is a subjective term.

You don't control statics in terms of creation and destruction. They live at the behest of the program loading and unloading.

Since statics live in one space, all threads wishing to use them must go through access control that you have to manage. This means that programs are more coupled and this change is harder to envisage and manage (like J Skeet says). This leads to problems of isolating change impact and thus affects how testing is managed.

These are the two main issues I have with them.

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Good answer. I think you've highlighted the two main points. –  Noldorin Aug 11 '11 at 18:36

No. Global states are not evil per se. But we have to see your code to see if you used it properly. It is quite possible that a newbie abuses global states; just like he would abuses every language feature.

Global states are absolute necessity. We cannot avoid global states. We cannot avoid reasoning about global states. - If we care to understand our application semantics.

People who try to get rid of global states for the sake of it, inevitably end up with a much more complex system - and the global states are still there, cleverly/idiotically disguised under many layers of indirections; and we still have to reason about global states, after unwrapping all the indirections.

Like the Spring people who lavishly declare global states in xml and think somehow it's superior.

@Jon Skeet if I create a new instance of an object now you have two things to reason about - the state within the object, and the state of the environment hosting the object.

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"I have two things to reason about". Not if I make my test only dependent on the object state. Which is easier, the less global state I have. –  DJClayworth Aug 11 '11 at 18:13
Dependency injection has nothing to do with global state or global visibility- even the container itself is not global. Compared to "normal" code, the only extra thing that a container-managed object is visible to is to the container itself. In fact, DI is very commonly used to avoid the Singleton Pattern. –  Floegipoky Nov 27 '13 at 21:50

There are 2 main problems with static variables:

  • Thread Safety - static resources are by definition not thread-safe
  • Code Implicity - You do not know when a static variables is instantiated and whether or not it will be instantiated before another static variable
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I think Jon Skeet was refering the same comment that you posted. –  RG-3 Aug 16 '11 at 19:07
I don't get the Thread Safety point, i think that nothing is thread safe unless you make it so. This does not seem to be related to static things at all, please correct me if i'm missing something. –  Zmaster Aug 23 '11 at 11:49
@Zmaster - While it is true that thread-safety is not an issue exclusive to static variables, because by their definition they are to be called from and by different contexts, they are more prune to them –  sternr Aug 23 '11 at 13:53
@sternr I understand what you mean, event if "different contexts" is not necessarely equal to "different threads". But it is true that thread-safety needs often to be taken into account with static resources. You should consider clarifying the sentence. –  Zmaster Aug 23 '11 at 16:11

If you are using the ‘static’ keyword without the ‘final’ keyword, this should be a signal to carefully consider your design. Even the presence of a ‘final’ is not a free pass, since a mutable static final object can be just as dangerous.

I would estimate somewhere around 85% of the time I see a ‘static’ without a ‘final’, it is WRONG. Often, I will find strange workarounds to mask or hide these problems.

Please don’t create static mutables. Especially Collections. In general, Collections should be initialized when their containing object is initialized and should be designed so that they are reset or forgotten about when their containing object is forgotten.

Using statics can create very subtle bugs which will cause sustaining engineers days of pain. I know, because I’ve both created and hunted these bugs.

If you would like more details, please read on…

Why Not Use Statics?

There are many issues with statics, including writing and executing tests, as well as subtle bugs that are not immediately obvious.

Code that relies on static objects can’t be easily unit tested, and statics can’t be easily mocked (usually).

If you use statics, it is not possible to swap the implementation of the class out in order to test higher level components. For example, imagine a static CustomerDAO that returns Customer objects it loads from the database. Now I have a class CustomerFilter, that needs to access some Customer objects. If CustomerDAO is static, I can’t write a test for CustomerFilter without first initializing my database and populating useful information.

And database population and initialization takes a long time. And in my experience, your DB initialization framework will change over time, meaning data will morph, and tests may break. IE, imagine Customer 1 used to be a VIP, but the DB initialization framework changed, and now Customer 1 is no longer VIP, but your test was hard-coded to load Customer 1…

A better approach is to instantiate a CustomerDAO, and pass it into the CustomerFilter when it is constructed. (An even better approach would be to use Spring or another Inversion of Control framework.

Once you do this, you can quickly mock or stub out an alternate DAO in your CustomerFilterTest, allowing you to have more control over the test,

Without the static DAO, the test will be faster (no db initialization) and more reliable (because it won’t fail when the db initialization code changes). For example, in this case ensuring Customer 1 is and always will be a VIP, as far as the test is concerned.

Executing Tests

Statics cause a real problem when running suites of unit tests together (for example, with your Continuous Integration server). Imagine a static map of network Socket objects that remains open from one test to another. The first test might open a Socket on port 8080, but you forgot to clear out the Map when the test gets torn down. Now when a second test launches, it is likely to crash when it tries to create a new Socket for port 8080, since the port is still occupied. Imagine also that Socket references in your static Collection are not removed, and (with the exception of WeakHashMap) are never eligible to be garbage collected, causing a memory leak.

This is an over-generalized example, but in large systems, this problem happens ALL THE TIME. People don’t think of unit tests starting and stopping their software repeatedly in the same JVM, but it is a good test of your software design, and if you have aspirations towards high availability, it is something you need to be aware of.

These problems often arise with framework objects, for example, your DB access, caching, messaging, and logging layers. If you are using Java EE or some best of breed frameworks, they probably manage a lot of this for you, but if like me you are dealing with a legacy system, you might have a lot of custom frameworks to access these layers.

If the system configuration that applies to these framework components changes between unit tests, and the unit test framework doesn’t tear down and rebuild the components, these changes can’t take effect, and when a test relies on those changes, they will fail.

Even non-framework components are subject to this problem. Imagine a static map called OpenOrders. You write one test that creates a few open orders, and checks to make sure they are all in the right state, then the test ends. Another developer writes a second test which puts the orders it needs into the OpenOrders map, then asserts the number of orders is accurate. Run individually, these tests would both pass, but when run together in a suite, they will fail.

Worse, failure might be based on the order in which the tests were run.

In this case, by avoiding statics, you avoid the risk of persisting data across test instances, ensuring better test reliability.

Subtle Bugs

If you work in high availability environment, or anywhere that threads might be started and stopped, the same concern mentioned above with unit test suites can apply when your code is running on production as well.

When dealing with threads, rather than using a static object to store data, it is better to use an object initialized during the thread’s startup phase. This way, each time the thread is started, a new instance of the object (with a potentially new configuration) is created, and you avoid data from one instance of the thread bleeding through to the next instance.

When a thread dies, a static object doesn’t get reset or garbage collected. Imagine you have a thread called “EmailCustomers”, and when it starts it populates a static String collection with a list of email addresses, then begins emailing each of the addresses. Lets say the thread is interrupted or canceled somehow, so your high availability framework restarts the thread. Then when the thread starts up, it reloads the list of customers. But because the collection is static, it might retain the list of email addresses from the previous collection. Now some customers might get duplicate emails.

An Aside: Static Final

The use of “static final” is effectively the Java equivalent of a C #define, although there are technical implementation differences. A C/C++ #define is swapped out of the code by the pre-processor, before compilation. A Java “static final” will end up memory resident on the stack. In that way, it is more similar to a “static const” variable in C++ than it is to a #define.


I hope this helps explain a few basic reasons why statics are problematic up. If you are using a modern Java framework like Java EE or Spring, etc, you may not encounter many of these situations, but if you are working with a large body of legacy code, they can become much more frequent.

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if I had to make 10,000 calls to a function within a class, I would be glad to make the method static and use a straightforward class.methodCall() on it instead of cluttering the memory with 10,000 instances of the class, Right?

You have to balance the need for encapsulating data into an object with a state, versus the need of simply computing the result of a function on some data.

Moreover statics reduce the inter-dependencies on the other parts of the code.

So does encapsulation. In large applications, statics tend to produce spaghetti code and don't easily allow refactoring or testing.

The other answers also provide good reasons against excessive use of statics.

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Static variables are generally considered bad because they represent global state and are therefore much more difficult to reason about. In particular, they break the assumptions of object-oriented programming. In object-oriented programming, each object has its own state, represented by instance (non-static) variables. Static variables represent state across instances which can be much more difficult to unit test. This is mainly because it is more difficult to isolate changes to static variables to a single test.

That being said, it is important to make a distinction between regular static variables (generally considered bad), and final static variables (AKA constants; not so bad).

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"Static variables represent state across classes" ... I think you mean "static variables represent state across instances"? +1 for "final static AKA constants, not so bad". Since the value can't change, anything that depends on it at one point in time can't implicitly change its behavior at a later time -- the value is the same. –  Jared Updike Aug 16 '11 at 18:11
"Static variables represent state across instances" is a much better way of stating it. I've edited my answer. –  Jack Edmonds Aug 16 '11 at 18:57

In my opinion it's hardly ever about performance, it's about design. I don't consider the use of static methods wrong as apposed of the use of static variables (but I guess you are actually talking about method calls).

It's simply about how to isolate logic and give it a good place. Sometimes that justifies using static methods of which java.lang.Math is a good example. I think when you name most of your classes XxxUtil or Xxxhelper you'd better reconsider your design.

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Pure side effect free static methods are perfectly fine IMO. But global mutable state rarely is and I interpret the OP as talking about global state. –  CodesInChaos Aug 11 '11 at 16:56
@CodeInChaos totally agree. I find the OP is not entirely clear on the difference between static methods and vars. –  M Platvoet Aug 11 '11 at 17:04

Since no one* has mentioned it: concurrency. Static variables can surprise you if you have multiple threads reading and writing to the static variable. This is common in web applications (e.g., ASP.NET) and it can cause some rather maddening bugs. For example, if you have a static variable that is updated by a page, and the page is requested by two people at "nearly the same time", one user may get the result expected by the other user, or worse.

statics reduce the inter-dependencies on the other parts of the code. They can act as perfect state holders

I hope you're prepared to use locks and deal with contention.

*Actually, Preet Sangha mentioned it.

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Instance variables have no thread-safety advantages over statics, they are all unprotected variables. Instead, it all comes down to how you protect the code that accesses those variables. –  studgeek Aug 17 '11 at 20:01
I didn't quite make that claim, but for the sake of discussion: separation is a form of protection. Thread states are separated; global state is not. An instance variable doesn't need protection unless it's explicitly shared between threads; a static variable is always shared by all threads in the process. –  Justin M. Keyes Aug 17 '11 at 21:27
I wish thread-static variables were more of a first-class concept, since they can be very useful for safely making information available to a wrapped subroutine call without having to pass that information through every layer of wrapping. For example, if an object had methods to render it to the thread's current graphics context, and there were methods to save/restore the current graphics context, using those could often be cleaner than having to pass the graphics context through every method call. –  supercat Mar 8 '14 at 21:40

Yet another reason: fragility.

If you have a class, most people expect to be able to create it and use it at will.

You can document it's not the case, or protect against it (singleton/factory pattern) - but that's extra work, and therefore an additional cost. Even then, in a big company, chances are someone will try at some point to use your class without fully paying attention to all the nice comments or the factory.

If you're using static variables a lot, that will break. Bugs are expensive.

Between a .0001% performance improvement and robustness to change by potentially clueless developers, in a lot of cases robustness is the good choice.

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It might be suggested that in most cases where you use a static variable, you really want to be using the singleton pattern.

The problem with global states is that sometimes what makes sense as global in a simpler context, needs to be a bit more flexible in a practical context, and this is where the singleton pattern becomes useful.

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The issue of 'Statics being evil' is more of an issue about global state. The appropriate time for a variable to be static, is if it does not ever have more than one state; IE tools that should be accessible by the entire framework and always return the same results for the same method calls are never 'evil' as statics. As to your comment:

I find static variables more convenient to use. And I presume that they are efficient too

Statics are the ideal and efficient choice for variables/classes that do not ever change.

The problem with global state is the inherent inconsistency that it can create. Documentation about unit tests often address this issue, since any time there is a global state that can be accessed by more than multiple unrelated objects, your unit tests will be incomplete, and not 'unit' grained. As mentioned in this article about global state and singletons, if object A and B are unrelated (as in one is not expressly given reference to another), then A should not be able to affect the state of B.

There are some exceptions to the ban global state in good code, such as the clock. Time is global, and--in some sense--it changes the state of objects without having a coded relationship.

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"Time is global" -- there are other ways to model time in computing systems than to have it be some implicit, global thing that changes on its own. cf. this survey: "Modeling Time in Computing: A Taxonomy and a Comparative Survey" @ arxiv.org/abs/0807.4132 –  Jared Updike Aug 16 '11 at 18:17

Static variables most importantly creates problem with security of data (any time changed,anyone can change,direct access without object, etc.)

For further info read this Thanks.

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My $.02 is that several of these answers are confusing the issue, rather than saying "statics are bad" I think its better to talk about scoping and instances.

What I would say is that a static is a "class" variables - it represenst a value that is shared across all instances of that class. Typically it should be scoped that way as well (protected or private to class and its instances).

If you plan to put class-level behavior around it and expose it to other code, then a singleton may be a better solution to support changes in the future (as @Jessica suggested). This is because you can use interfaces at the instance/singleton level in ways that you can not use at the class level - in particular inheritance.

Some thoughts on why I think some of the aspects in other answers are not core to the question...

Statics are not "global". In Java scoping is controlled separately from static/instance.

Concurrency is no less dangerous for statics than instance methods. It's still state that needs to be protected. Sure you may have 1000 instances with an instance variable each and only one static variable, but if the code accessing either isn't written in a thread-safe way you are still screwed - it just may take a little longer for you to realize it.

Managing life cycle is an interesting argument, but I think it's a less important one. I don't see why its any harder to manage a pair of class methods like init()/clear() than the creation and destroying of a singleton instance. In fact, some might say a singleton is a little more complicated due to GC.

PS, In terms of Smalltalk, many of its dialects do have class variables, but in Smalltalk classes are actually instances of Metaclass so they are really are variables on the Metaclass instance. Still, I would apply the same rule of thumb. If they are being used for shared state across instances then ok. If they are supporting public functionality you should look at a Singleton. Sigh, I sure do miss Smalltalk....

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There's nothing wrong with static variables per se. It's just the Java syntax that's broken. Each Java class actually defines two structures- a singleton object which encapsulates static variables, and an instance. Defining both in the same source block is pure evil, and results in a code that's hard to read. Scala did that right.

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I find static variables more convenient to use. And I presume that they are efficient too (Please correct me if I am wrong) because if I had to make 10,000 calls to a function within a class, I would be glad to make the method static and use a straightforward class.methodCall() on it instead of cluttering the memory with 10,000 instances of the class, Right?

I see what you think, but a simple Singleton pattern will do the same without having to instantiate 10 000 objects.

static methods can be used, but only for functions that are related to the object domain and do not need or use internal properties of the object.


public class WaterContainer {
    private int size;
    private int brand;

    public static int convertToGallon(int liters)...

    public static int convertToLiters(int gallon)...

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A classical singleton (i.e. one which is accessed by Class.Instance) is barely better than a static variable. It's slightly more testable, but still much worse than designs where you just happen to create a single instance instead of building your code on the assumption there is only one. –  CodesInChaos Aug 11 '11 at 16:59
Not sure i understand your comment! i was responding to the OP about what he stated in italic about instancing 10 000 objects. I don't understand why you compare a singleton and a static variable? What i understand from what you wrote is that Singleton is bad design...! I guess i misunderstand you, since the Spring Framework make by default all the beans Singleton ;-) –  Cygnusx1 Aug 11 '11 at 17:20
A classic singleton(that has Class.Instance) that carries mutable state is bad design IMO. In that case I strongly prefer a design where I get the singletons I need to use passed as parameter into the class that uses them (typically with the help of DI). Logically immutable classic singletons are fine IMO. –  CodesInChaos Aug 11 '11 at 18:04

All the answers above show why statics are bad. The reason they are evil is because it gives the false impression that you are writing object oriented code, when in fact you are not. That is just plain evil.

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But does rigidly considering your code to follow some arbitrary standard paradigm actually make the code better, or are we complaining to avoid just writing code that works? –  Dessix Machina Aug 16 '11 at 18:32
Yes it does make it better, because it makes it more manageable in the future, more easier to understand, and more explicit. –  blockhead Aug 17 '11 at 3:23
Why is it evil not to write OO code? and why doesn't Bjarne Stroustrup agree with you? to name just one ... –  EJP Nov 3 '13 at 8:59
I didn't say its evil not to write OO code. I said its evil to think you are writing OO code, when all you are is disguising globals behind static methods and properties. Please re-read what I wrote. –  blockhead Nov 3 '13 at 9:58

a) Reason about programs.

If you have a small- to midsize-program, where the static variable Global.foo is accessed, the call to it normally comes from nowhere - there is no path, and therefore no timeline, how the variable comes to the place, where it is used. Now how do I know who set it to its actual value? How do I know, what happens, if I modify it right now? I have grep over the whole source, to collect all accesses, to know, what is going on.

If you know how you use it, because you just wrote the code, the problem is invisible, but if you try to understand foreign code, you will understand.

b) Do you really only need one?

Static variables often prevent multiple programs of the same kind running in the same JVM with different values. You often don't foresee usages, where more than one instance of your program is useful, but if it evolves, or if it is useful for others, they might experience situations, where they would like to start more than one instance of your program.

Only more or less useless code which will not be used by many people over a longer time in an intensive way might go well with static variables.

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everything (can:) have its purpose, if you have bunch of threads that needs to share/cache data and also all accessible memory (so you dont split into contexts within one JVM) the static is best choice

-> of course you can force just one instance, but why?
i find many of the comments in this thread evil, not the statics ;)

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Seems to me that you're asking about static variables but you also point out static methods in your examples.

Static variables are not evil - they have its adoption as global variables like constants in most cases combined with final modifier, but as it said don't overuse them.

Static methods aka utility method. It isn't generally a bad practice to use them but major concern is that they might obstruct testing.

As a example of great java project that use a lot of statics and do it right way please look at Play! framework. There is also discussion about it in SO.

Static variables/methods combined with static import are also widely used in libraries that facilitate declarative programming in java like: make it easy or Hamcrest. It wouldn't be possible without a lot of static variables and methods.

So static variables (and methods) are good but use them wisely!

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There are two main questions in your post.

First, about static variables. Static variables are completelly unnecesary and it's use can be avoided easily. In OOP languajes in general, and in Java particularlly, function parameters are pased by reference, this is to say, if you pass an object to a funciont, you are passing a pointer to the object, so you dont need to define static variables since you can pass a pointer to the object to any scope that needs this information. Even if this implies that yo will fill your memory with pointers, this will not necesary represent a poor performance because actual memory pagging systems are optimized to handle with this, and they will maintain in memory the pages referenced by the pointers you passed to the new scope; usage of static variables may cause the system to load the memory page where they are stored when they need to be accessed (this will happen if the page has not been accesed in a long time). A good practice is to put all that static stuf together in some little "configuration clases", this will ensure the system puts it all in the same memory page.

Second, about static methods. Static methods are not so bad, but they can quickly reduce performance. For example, think about a method that compares two objects of a class and returns a value indicating which of the objects is bigger (tipical comparison method) this method can be static or not, but when invoking it the non static form will be more eficient since it will have to solve only two references (one for each object) face to the three references that will have to solve the static version of the same method (one for the class plus two, one for each object). But as I say, this is not so bad, if we take a look at the Math class, we can find a lot of math functions defined as static methods. This is really more eficient than putting all these methods in the class defining the numbers, because most of them are rarelly used and including all of them in the number class will cause the class to be very complex and consume a lot of resources unnecesarilly.

In concluson: Avoid the use of static variables and find the correct performance equilibrium when dealing with static or non static methods.

PS: Sorry for my english.

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Static members/methods are used as in helper classes say like Math or in constants classes. which helps other objects to utilize Strings or useful functions for which you do not need to create object but invoked using Class name. Example – singleton objects are invoked using a static function.


Static members are part of class and thus remain in memory till application terminates and can’t be ever garbage collected. Using excess of static members sometime predicts that you fail to design your product and trying to cop of with static / procedural programming. It denotes that object oriented design is compromised. This can result in memory over flow. Also there are certain disadvantages if you make any method static in Java for example you can not override any static method in Java so it makes testing harder you can not replace that method with mock. Since static method maintains global state they can create subtle bug in concurrent environment which is hard to detect and fix.

Things to remember:

The static variable will be part of the class definition rather than on the heap. However static variables are useful when you know there will be accesses to the object from multiple places. Access to static resources is not thread safe. You might get weird/unpredictable results in a threaded environment. But if your only reading the static value then using threads for it is fine.

How Static Breaks encapsulation:

The technical implementation of them is to allow state to be maintained across all instances of a class. The problem is that this is intrinsically not OOP because it disregards encapsulation. If a variable can be altered by any instance of a class then the fundamental principle behind encapsulation/information hiding is lost entirely: An object is no longer in complete control of its state. Its state now relies on variables which are essentially global. Which we know is bad. Even private static variables maintain state at a global level but simply limit its access. Any instance of the object can alter the static variable which causes ambiguity as individual instances of the object no longer have control over their own state. State changes can arbitrarily happen without knowledge of an object which relies on that state which is problematic because the object may not work correctly when this happens. Much as it’s often said that “Inheritance breaks encapsulation” statics do this in a far more severe way: By not just exposing internal implementation but also by exposing internal state.

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