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I've been running checkstyle over my code and I've run into the ExplicitInitializationCheck rule. At the moment, I'm not sure why that is a bad thing.

The rule states:

Checks if any class or object member explicitly initialized to default for its type value (null for object references, zero for numeric types and char and false for boolean.

Rationale: each instance variable gets initialized twice, to the same value. Java initializes each instance variable to its default value (0 or null) before performing any initialization specified in the code. So in this case, x gets initialized to 0 twice, and bar gets initialized to null twice. So there is a minor inefficiency. This style of coding is a hold-over from C/C++ style coding, and it shows that the developer isn't really confident that Java really initializes instance variables to default values.


Doesn't an explicit initialization, even if its the default value, make the code more readable? Is it possible that the default values could change over JDK versions, or JVM providers? Also, isn't this something that the HotSpot or even the compiler would correct as well?

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I disagree with the coding style presented here. The performance gain on this would be negligible. The readability however, is priceless. –  Cruncher Nov 12 '13 at 20:23
Sometimes eclipse will force me to initialize a variable to the default value, giving the compiler error: The local variable may not have been initialized. –  popovitsj Nov 12 '13 at 20:29
Part of the problem with reading "convention over configuration" code is that often the convention is poorly documented. Not true in this case, but even so the explicit specification costs nothing and makes the code more readable, and more important, makes the developer's intention explicit. When I read code without explicit initialization I always wonder if the developer really meant to do that or just forgot. –  Jim Garrison Nov 12 '13 at 20:29
Another thing that my be worth mentioning here is redundancy on a similar case: initializing generic objects. While in older versions of Java, you had to specify the type twice (SomeGeneric<SomeType> myGeneric = new SomeGeneric<SomeType>();), you can now use emtpy brackats in the actual initialisation: SomeGeneric<SomeType> myGeneric = new SomeGeneric<>();). In THAT case, I'd agree with the convention: don't specify it twice. But in that case, there isn't even a performance issue - so it's just about readability again. –  Johannes H. Nov 12 '13 at 20:31
@popovitsj Local variables in methods do need to be initialized as Java does not provide a default value. Instance variables, however, are provided with default values and do not need to be initialized. –  GriffeyDog Nov 12 '13 at 20:32

5 Answers 5

up vote 10 down vote accepted

Assigning default values is redundant code and falls under the "code clutter" group of style issues.

The default values for types are defined in the language specification - they are not going to change, so it's safe to rely on them.

Also, you're not adding any clarity by assigning default values, because they are pretty obvious defaults: zero for primitives, null for objects.

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Redundant code is not necessarily bad code. –  Cruncher Nov 12 '13 at 20:27
Obviously IDE developers are also not confident in Java so they give warnings and notations about explicitly uninitialized values :) . –  Aleksandar Nov 12 '13 at 20:28
It's hard enough to read somebody else's code. If they make their initialization intentions explicit it helps future maintainers. –  Jim Garrison Nov 12 '13 at 20:31
@Alexander.S: We're not talking about uninitialized values here. IDEs are right to complain about them: unititialized values should be avoided. But in our case, we're talking about variables that get their default values assigned automatically (like object properties). No IDE I know complains about that. –  Johannes H. Nov 12 '13 at 20:32
@Alexander.S they are not uninitialized, they are initialized to their default values. Perhaps you are confusing n stances variables (what the question is about) with local variables, which require explicit initialization. –  Bohemian Nov 12 '13 at 20:36

I think it is bad too, after encountering some concurrency bugs.

The default initial writes happens-before everything else, so it's simpler to analyze them.

However, an explicit initialization, usually in constructor, is a write that you have to reason about w.r.t. other read/write in a concurrent environment. It's an extra work that's better avoided.

If the instance variable is volatile, the reason to avoid an extra write is stronger, since an extra volatile write isn't cheap, and it has more impact on concurrency semantics.

In this example,

class Foo
    int i; // w0: default write to 0

    int get()
        i=42;     // w2
        return i; // r2

get() will always return 42. w0 happens-before w2, therefore it is always shadowed, r2 will not see w0.

However if we add an explicit initialization

class Foo

             // w0: default write to 0
    int i=0; // w1: explicit write

    int get()
        i=42;     // w2
        return i; // i2

if the instance is shared through unsafe publication, i2 could see w1, i.e. get() may return 0. This is because w1 does not happens-before w2.

P.S. Zeroing is not a trivial problem. Should we zero a big chunk of memory first, then allocate objects on the zeroed chunk? Or should we allocate an object first (with random RAM values), then zero the region within the object? There's no easy answer.

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Is this concurrency issue documented anywhere? –  monksy Nov 12 '13 at 20:55
Yes but if your concurrent code has unsafe publication bugs, then those are your real problem, not the (correct) means of initialization. –  Thomas Nov 12 '13 at 21:40
unsafe publication is not necessarily a bug. also, Foo might be required to be robust under unsafe publication. –  bayou.io Nov 12 '13 at 21:42
unsafe publication is not necessarily a bug. - Well, I would be hard pressed to come up with reasons why it's not a bug. Compare, for instance, Goetz, Bloch, Lea et. al.: "Java Concurrency in Practice" –  Thomas Nov 12 '13 at 22:02
well, Doug Lea's concurrent utilities are all robust under unsafe publication - not by accident no less, he carefully maintained that (unspoken) property. –  bayou.io Nov 12 '13 at 22:07

The only time I saw assigning a default value to cause problem is with inheritance.

Take this example :

public interface PanelInterface {


public class MyPanel extends JPanel implements PanelInterface {


public abstract class AClass {
  private PanelInterface panel;
  public AClass() {
    panel = createPanel();

  protected abstract PanelInterface createPanel();

public class ChildAClass extends AClass {
  MyPanel myPanel = null;
  protected PanelInterface createPanel() {
    myPanel = new MyPanel();
    return myPanel;

The line MyPanel myPanel = null; will be called after createPanel() is called from AClass constructor when creating a new ChildAClass. Assigning explicitly a default value will cause the myPanel variable to become null.

Without the explicit assignation, the value of myPanel will stay as wanted.

I personnally don't think it's code clutter but the problems that it can create might be worth not doing it at all.

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valid point, thought the bigger problem here is that the super constructor invokes something that may alter subclass state, which is generally a bad idea. still, it's better to avoid a write if it's not necessary. –  bayou.io Nov 12 '13 at 21:34
True, but here, the problem is that an overridable method is called from the constructor. There is a PMD rule to help prevent this bug. –  Thomas Nov 12 '13 at 21:53
@Thomas I'm ok with a super constructor calling a stateless virtual method. –  bayou.io Nov 12 '13 at 22:00

I think the ExplicitInitialization check can safely be turned off. Explicitly stating the value to which something is initialized is a good thing. It helps readability, and may even help some less proficient readers of your code. Those are sometimes the majority of people reading your code in real life.

Also, there is practically no performance gain.

Whether or not it's clutter is in the eye of the beholder - I don't think so personally. But if you decide to go with this rule, be sure to apply it consistently throughout all your application's code.

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I think it is bad because it is

code clutter. Performance gain on this is not significant.

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Its considered to be a "performance loss" .. but could you expand your argument a bit more? –  monksy Nov 12 '13 at 20:56

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