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The idiom I use the most when programming in Java is to test if object != null before I use it. This is to avoid a NullPointerException. I find the code very ugly and it becomes unreadable.

Is there a good alternative to this?

Update: Pan, I was not clear with my question. I want to address the necessity to test every object if you want to access a field or method of this object. For example:

...
if (someobject != null) {
    someobject.doCalc();
}
...

In this case I will avoid a NullPointerException, and I don't know exactly if the object is null or not. So my code get splattered with these tests.

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5  
@Shervin I don't think anything like that is planned. –  Tom Hawtin - tackline Jul 29 '10 at 15:23
54  
@Shervin Encouraging nulls makes the code less understandable and less reliable. –  Tom Hawtin - tackline Aug 2 '10 at 9:17
22  
This would be comparable to the Groovy elvis operator: groovy.codehaus.org/… Java would be a much better language with something like this. –  Richard Aug 23 '10 at 13:01
12  
The Elvis operators were proposed but it looks like it won't be in Java 7. Too bad, ?. ?: and ?[] are incredible time savers. –  Scott Feb 25 '11 at 2:46
29  
Not using null is superior to most other suggestions here. Throw exceptions, don't return or allow nulls. BTW - 'assert' keyword is useless, because it's disabled by default. Use an always-enabled failure mechanism –  iangreen Jun 8 '12 at 19:40

46 Answers 46

Wherever you pass an array or a Vector, initialise these to empty ones, instead of null. - This way you can avoid lots of checking for null and all is good :)

public class NonNullThing {

   Vector vectorField = new Vector();

   int[] arrayField = new int[0];

   public NonNullThing() {

      // etc

   }

}
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You can use interceptor before method call.That is what aspect oriented programming focus on.Suppose M1(Object test) is method and M2 is method where we apply aspect before method call.M2(Object test2).If test2!=null then call M1 otherwise do other thing.It works for all method with whom you want to apply aspect for .If you want to apply aspect for instance field and constructor you can use aspectJ.Spring can also be best choice for method aspect.

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If ( "bar".equals(foo) ) { // ... } I do agree with this, because you get the string not the parameter which is we do not know about the value.

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This is the most common error occurred for most of the developers.

We have number of ways to handle this.

Approach 1:

org.apache.commons.lang.Validate //using apache framework notNull(Object object, String message)

Approach 2:

if(someObject!=null){ // simply checking against null }

Approach 3:

@isNull @Nullable // using annotation based validation

Approach 4: // by writing static method and calling it across whereever we needed to check the validation

static T isNull(someObject e){
if(e == null){ throw new NullPointerException(); } return e; }

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I highly disregard answers that suggest using the null objects. This pattern will break the contract and bury problems deeper and deeper instead of solving them, not mentioning that it will create another pile of boilerplate code that will require future maintenance.

In reality if something returned from a method can be null, there should an earlier call that ensures that. For example if a GUI component is meant to have a background or not, the "getBakckground()" method should return null if it has no, but for the sake of explicity there should be a call to a method "hasBackground()" if the other code has to depend on whether it has or doesn't have a background.

Also keep in mind that calling noop methods everytime by Java is wastefull in terms of performance. Java VM cannot optimize dynamic dispatch, when objects types are only known at runtime. It's a lot better to do a simple null check inside th "hasBackground()" method, instead of constructing and returning a lot of null objects, and then calling their actuall noop functions, or functions which in turn return another null object.

On the other side, if a GUI component is said to always have a background the call to it's "getBackground()" method should always yield an exception, e.g. "ComponentNotYetAssembledException".

This will make things a lot cleaner. It will force the algorithms to be more readable and predictable.

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I prefer this

public void simpleFunc(SomeObject someObject){
    someObject = someObject != null ? someObject : new SomeObject(null);
    someObject.doSomething();
}

Of course in my example SomeObject handles gracefully a null parameter. For example logging such event and doing nothing more.

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First of all we cant really remove all null conditions. We can use reduce them using @NotNull and @Nullable annotations (as mentioned already). but this needs to be backed by some framework. This is where OVal can help.

The basic idea is object/parameters/constructor should always satisfy precondition. you can have whole lot of preconditions such as Nullable NotNull and OVal would take care that object should be in consistent state when invoked.

I guess OVal internally uses AspectJ to validate the preconditions.

@Guarded 
public class BusinessObject 
{
  public BusinessObject(@NotNull String name)
  { 
    this.name = name;
  }

  ... 
}

for example

// throws a ConstraintsViolatedException because parameter name is null 
BusinessObject bo = new  BusinessObject(null);
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The way to avoid unnecessary null-checks is simple to state:

You need to know which variables can be null, and which cannot, and you need to be confident about which category a given variable fall into.

But, although it can be stated simply enough, achieving it is harder. The key lies in the confident part, because how can you be sure that a variable can't be null?

There are no quick-fix, easy answers to this, but here are some pointers:

  1. Clean code. The most important thing for being able to reason about the behaviour of a piece of code is that it is written in a matter that is easy to understand. Name your variables based on what they represent, name your methods after what they do, apply the Single responsibility principle (the S in SOLID: http://en.wikipedia.org/wiki/SOLID_(object-oriented_design), it means that each piece of code should have a single responsibility, and do this and nothing else). Once your code is clean, it is much easier to reason about it, also across multiple tiers/layers of code. With messy code, trying to understand what a method does might make you forget why you are reading the method in the first place. (Tip: Read "Clean Code" by Robert C. Martin)

  2. Avoid returning null values. If a null value would keep your program from functioning correctly, throw an exception instead (make sure to add the appropriate error-handling.) Cases where returning a null value might be acceptable is for instance trying to fetch an object from the database. In these cases, write code that handles the null values, and make a note behind your ear that here we have something that might return null. Handle returned null values as close to the caller of the method returning null as possible (don't just blindly pass it back up the call-chain.)

  3. Never EVER pass explicit null values as parameters (at least not across classes). If you are ever in a position where passing a null-parameter is the only option, creating a new method that does not have this parameter is the way to go.

  4. Validate your input! Identify the "entry-points" to your application. They can everything from webservices, REST-services, remote EJB classes, controllers, etc. For each method in these entry-points, ask yourself: "Will this method execute correctly if this parameter is null?" If the answer is no, add Validate.notNull(someParam, "Can't function when someParam is null!");. This will throw an IllegalArgumentException if the required parameter is missing. The good thing about this type of validation in the entry-points, is that you can then easily assume in the code being executed from the entry-point, that this variable will never be null! Also, if this fails, being at the entry-point, debugging is made a lot easier than it would if you just got a NullPointerException deep down in your code, since a failure like this can only mean one thing: The client didn't send you all the required information. In most cases you want to validate all input parameters, if you find yourself in a position where you need to allow a lot of null-values, it might be a sign of a badly designed interface, which needs refactoring/additions to suite the needs of the clients.

  5. When working with Collections, return an empty one rather than null!

  6. When working with a database, utilize not null-constraints. In that way, you'll know that a value read from the database cannot be null, and you won't have to check for it.

  7. Structure your code and stick with it. Doing this allows you to make assumptions about the behaviour of the code, for instance if all input to your application is validated, then you can assume that these values will never be null.

  8. If you are not already doing it, write automated tests of your code. By writing tests, you will reason about your code, and you will also become more confident that it does what it's supposed to. Also, automated tests guards you from blunders during refactoring, by letting you know immediatly that this piece of code is not doing what it used to.

You still have to null-check of course, but it can trimmed down to the bare minimum (i.e. the situation where know you might be getting a null-value, instead of everywhere just to be sure.) When it comes to null-checks, i actually prefer to use the ternary operator (but use with care, when you start nesting them they come really messy.)

public String nullSafeToString(final Object o) {
    return o != null ? o.toString() : "null";
}
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I find Guava Preconditions to be very useful in this case. I don't like leaving nulls to null pointer exception since the only way to understand NPE is by locating the line number. line numbers in production version and development version can be different.

Using Guava Preconditions I can check null parameters and define meaningful exception message in one line.

for example

Preconditions.checkNotNull(paramVal,"method foo received null paramVal");

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You can also use the Checker Framework (with JDK 7 and beyond) to statically check for null values. This might solve a lot of problems, but requires running an extra tool that currently only works with OpenJDK AFAIK. http://types.cs.washington.edu/checker-framework/

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Ok, I now this has been technically answered a million times but I have to say this because this is an un-ending discussion with java programmers.

Sorry but I disagree will almost all of above. The reason we have to be testing for null in JAVA is because must JAVA programmers don’t know how to handle memory.

I say this because I have a long experience programming in C++ and we don’t do this. In other words, you don’t need to. And note that, in java, if you hit a dangling pointer you get a normal exception; in C++ this exception normally is not catch and terminates the program.

Don’t want to do this? Then follow some simple rules ala C/C++.

Don’t instantiate things so easily, think that every "new" can get you in lots of trouble and FOLLOW these simple rules.

A class shall access memory in only 3 ways ->

1) It can "HAVE" class members, and they will follow these rules:

  1. ALL "HAS" members are created "new" in the constructor.
  2. You will close /de allocate in destructor or equivalent close() function in java for that same class and in NO other.

This means that you need to have in mind (just like java does) who is the owner or parent of each resource and respect that ownership. An object is only deleted by the class who created it. Also ->

2) Some members will be "USED" but not own or "HAVE". This are "OWN" in another class and passed as arguments to the constructor. Since these are owned by another class, we will NEVER delete or close this, only the parent can.

3) A method in a class can also instantiate local objects for internal use which will NEVER pass out side of the class, or they should have been normal "has" objects.

Finally for all this to work, you need to have a disciplined design with classes in hierarchy form and making no cycles.

Under this design, AND following the above rules, there is no way that a child class in a hierarchy design will ever access a pointer which was destroyed, because that means that a parent was destroyed before a child, which the hierarchical acyclic design will not allow it.

Finally, also remember when starting your system you should build from top to bottom of the hierarchy and destroy bottom to top. - You will never have a null pointer anywhere, or someone is violating the rules.

I hope this helps. I had helped me for years and it is of my "no exceptions" rule, no matter if compiled or interpreted code.

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1  
Agreed, albeit only conceptually. Yeah, one should HAVE A PLAN. But then you need programmers who CAN MAKE PLANS and have the ability to think logically and develop and maintain consistent patterns. And then there are employers whose main focus is money and wages ;-). And then start having a look at the JPA spec to get an impression of what constitutes a consistent pattern/plan and what it requires to develop and/or document it. –  user1050755 Mar 7 '13 at 1:19
1  
This answer is relevant for C++ but not for a garbage collected language like Java. –  artbristol Sep 14 '13 at 17:08

We have been using Apache libraries (Apache Commons) for this issue.

ObjectUtils.equals(object, null)

or

CollectionUtils.isEmpty(myCollection);

or

StringUtils.isEmpty("string");

I like the previous answer before, as a practice, of providing initial default values or empty sets for collections to minimize the need.

These can be simple uses that keep you from having NullPointerException or using an empty collection. This doesnt answer the question for what to do with the null object, but these provide some checks for basic validations of the object or collection.

Hope this helps.

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My answer is: For utility classes, you can check that parameters are not null. In all other cases you may not have to . use encapsulation as much as possible, thus reducing the places you feel tempted to check for null.

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Another suggestion is to program defensively - where your classes/functions provide default values that are known and safe, and where null is reserved for true errors/exceptions.

For example, instead of functions that return Strings returning null when there is a problem (say converting a number to a string), have them return an empty String (""). You still have to test the return value before proceeding, but there would be no special cases for exceptions. An additional benefit of this style of programming is that your program will be able to differentiate and respond accordingly between normal operations and exceptions.

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Here is my approach ..

class MyObjectHandler
{
public static final int EXCEPTION = (-3);
public static final int INACCESSIBLE = (-2);

public static int doSomething (MyObject obj, MyObjectParameter [] input)
{
    int returnValue= 0;

    try
    {
        if (obj != null)
        {
            returnValue = obj.doSomething(input);
        }
        else
        {
            returnValue = MyObjectHandler.INACCESSIBLE;
        }
    }
    catch (Exception e)
    {
        e.printStack();
        returnValue = MyObjectHandler.EXCEPTION;
    }
    finally
    {
        return returnValue;
    }
}

..

}

Then your code will be just like:

import xx.xx.xx.MyObjectHandler;
import xx.xx.xx.MyObjectParameter;

class Test
{

    public static void main ()
    {

        MyObject obj = null;

        MyObjectHandler.doSomething(obj, null);

    }

    ..

}
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Download groovy, set up groovy, download groovy eclipse plugin, and change file.java to file.groovy. Then :

     String u;
     if(u){} //casted auto to false,
     else{}

Just like php/javascript. Then continue to program in regular java and its java++.

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1  
"Just Like php/javascript" ~ That's what I'm trying to avoid. –  Eddie B Jan 30 at 20:26

protected by Mr. Alien May 11 '13 at 21:47

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