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I work with Java all day long. The most used idiom (code snippet) I'm programming in Java, is to test if an 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 avoid this code snippet?

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.

Nevertheless thanks a lot for your answers, I got a bunch of new insight.

share|improve this question
5  
@Shervin I don't think anything like that is planned. –  Tom Hawtin - tackline Jul 29 '10 at 15:23
53  
@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
27  
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

45 Answers 45

up vote 1159 down vote accepted

This to me sounds like a reasonably common problem that junior to intermediate developers tend to face at some point: they either don't know or don't trust the contracts they are participating in and defensively overcheck for nulls. Additionally, when writing their own code, they tend to rely on returning nulls to indicate something thus requiring the caller to check for nulls.

To put this another way, there are two instances where null checking comes up:

  1. Where null is a valid response in terms of the contract; and

  2. Where it isn't a valid response.

(2) is easy. Either use assert statements (assertions) or allow failure (for example, NullPointerException). Assertions are a highly-underused Java feature that was added in 1.4. The syntax is:

assert *<condition>*

or

assert *<condition>* : *<object>*

where <object>'s toString() output will be included in the error.

An assert statement throws an Error (AssertionError) if the condition is not true. By default, Java ignores assertions. You can enable assertions by passing the option -ea to the JVM. You can enable and disable assertions for individual classes and packages. This means that you can validate code with the assertions while developing and testing, and disable them in a production environment, although my testing has shown next to no performance impact from assertions.

Not using assertions in this case is OK because the code will just fail, which is what will happen if you use assertions. The only difference is that with assertions it might happen sooner, in a more-meaningful way and possibly with extra information, which may help you to figure out why it happened if you weren't expecting it.

(1) is a little harder. If you have no control over the code you're calling then you're stuck. If null is a valid response, you have to check for it.

If it's code that you do control, however (and this is often the case), then it's a different story. Avoid using nulls as a response. With methods that return collections, it's easy: return empty collections (or arrays) instead of nulls pretty much all the time.

With non-collections it might be harder. Consider this as an example: if you have these interfaces:

public interface Action {
  void doSomething();
}

public interface Parser {
  Action findAction(String userInput);
}

where Parser takes raw user input and finds something to do, perhaps if you're implementing a command line interface for something. Now you might make the contract that it returns null if there's no appropriate action. That leads the null checking you're talking about.

An alternative solution is to never return null and instead use the Null Object pattern:

public class MyParser implements Parser {
  private static Action DO_NOTHING = new Action() {
    public void doSomething() { /* do nothing */ }
  };

  public Action findAction(String userInput) {
    // ...
    if ( /* we can't find any actions */ ) {
      return DO_NOTHING;
    }
  }
}

Compare:

Parser parser = ParserFactory.getParser();
if (parser == null) {
  // now what?
  // this would be an example of where null isn't (or shouldn't be) a valid response
}
Action action = parser.findAction(someInput);
if (action == null) {
  // do nothing
} else {
  action.doSomething();
}

to

ParserFactory.getParser().findAction(someInput).doSomething();

which is a much better design because it leads to more concise code.

That said, perhaps it is entirely appropriate for the findAction() method to throw an Exception with a meaningful error message -- especially in this case where you are relying on user input. It would be much better for the findAction method to throw an Exception than for the calling method to blow up with a simple NullPointerException with no explanation.

try{
    ParserFactory.getParser().findAction(someInput).doSomething();
} catch(ActionNotFoundException anfe) {
    userConsole.err(anfe.getMessage());
}

Or if you think the try/catch mechanism is too ugly, rather than Do Nothing your default action should provide feedback to the user.

public Action findAction(final String userInput){
    /* Code to return requested Action if found */
    return new Action(){
        public void doSomething(){
            userConsole.err("Action not found: "+userInput);
        }
    }
}
share|improve this answer
388  
I disagree with your statements for the DO_NOTHING action. If the find action method cannot find an action, then returning null is the right thing to do. You've "found" an action in your code which isn't really found, which violates the principle of the method, to find a useable action. –  MetroidFan2002 Nov 7 '08 at 18:36
159  
I agree that null is overused in Java, especially with lists. So many apis would be better if they return an empty list/array/collection instead of null. Many times, null is used where an exception should be thrown instead. An exception should be thrown if the parser can't parse. –  Laplie Nov 14 '08 at 1:53
31  
In your 'getParser' example, I think I would argue that an exception should have been thrown if 'null' was going to be returned unless you can somehow construct a valid argument for why returning null is NOT an 'exceptional' case. –  imaginaryboy Apr 2 '09 at 15:05
71  
The latter example here is, IIRC, the Null Object design pattern. –  SnOrfus Jul 23 '09 at 4:26
34  
@Cshah (and MetroidFan2002). Simple, put that into the contract and then it is clear that a non-found returned action will do nothing. If this is important information to the caller, then provide a way to discover that it was a non-found action (i.e. provide a method to check if the result was the DO_NOTHING object). Alternatively, if action should normally be found then you still should not return null but instead throw an exception specifically indicating that condition - this still results in better code. If desired, provide a separate method returning boolean to check if action exists. –  Kevin Brock Mar 5 '10 at 12:25

If you use (or planning to use) JetBrains Idea, a Java ide, you can use some particular annotations developed by them.

Basically, you've got @Nullable and @NotNull.

You can use in method and parameters, like this:

@NotNull public static String helloWorld() {
    return "Hello World";
}

or

@Nullable public static String helloWorld() {
    return "Hello World";
}

The second example won't compile (in Idea).

When you use the first HelloWorld() function in another piece of code:

public static void main(String[] args)
{
    if(helloWorld() != null) {
        System.out.println(helloWorld());
    } 
}

Now the idea compiler will tell you that the check is useless, since the HelloWorld() function won't return null, ever.

Using parameter

void someMethod(@NotNull someParameter) { }

if you write something like:

someMethod(null);

This won't compile.

Last example using @Nullable

@Nullable iWantToDestroyEverything() { return null; }

Doing this

iWantToDestroyEverything().something();

And you can be sure that this won't happen. :)

It's a nice way to let the compiler check something more than it usually does and to enforce your contracts to be stronger. Unfortunately, it's not supported by all the compilers.

In IntelliJ 10.5 and on, they added support for any other @Nullable @NotNull implementations.

http://blogs.jetbrains.com/idea/2011/03/more-flexible-and-configurable-nullublenotnull-annotations/

share|improve this answer
66  
@NotNull, @Nullable and other nullness annotations are part of JSR 305. You can also use them to detect potential problems with tools like FindBugs. –  Jacek S May 8 '10 at 16:33
15  
I find it strangely annoying that the @NotNull & @Nullable interfaces live in the package com.sun.istack.internal. (I guess I associate com.sun with warnings about using a proprietary API.) –  Jonik Jun 30 '11 at 23:33
10  
code portability goes null with jetbrains.I would think twice(square) before tying down to ide level.Like Jacek S said they are part of JSR any way which I thought was JSR303 by the way. –  Java Ka Baby Sep 8 '11 at 9:39
6  
Eclipse 3.8/4.2 will also be getting support for null checks in its compiler –  hertzsprung May 18 '12 at 9:02
20  
The good thing about annotations, which @NotNull and @Nullable are is that they nicely degrade when the source code is built by a system that doesn't understand them. So, in effect, the argument that the code is not portable may be invalid - if you use a system that supports and understands these annotations, you get the added benefit of stricter error checking, otherwise you get less of it but your code should still build fine, and the quality of your running program is THE SAME, because these annotations were not enforced at runtime anyway. Besides, all compilers are custom ;-) –  amn Mar 20 '13 at 9:49

If null-values is not allowed

If your method called externally, start with something like this:

public void method(Object object) {
  if (object == null) {
    throw new IllegalArgumentException("...");
  }

In the rest of that method, you know that it's not null.

If it is an internal method (not part of an api), just document that it cannot be null, and that's it. Example:

public String getFirst3Chars(String text) {
  return text.subString(0, 3);
}

However, if your method just passes the value on, and the next method passes on etc. it could get problematic. In that case you may want to check the argument as above.

If null is allowed

This really depends. If find that I often do something like this:

if (object == null) {
  // something
} else {
  // something else
}

So I branch, and do two completely different things. There is no ugly code snippet, because I really need to do two different things depending on the data. For example, should I work on the input, or should I calculate a good default value?


It's actually rare for me to use the idiom "if (object != null && ...".

It may be easier to give you examples, if you show examples of where you typically use the idiom.

share|improve this answer
42  
What's the point in throwing IllegalArgumentException? I think NullPointerException would be clearer, and that would also be thrown if you don't do the null-check yourself. I'd either use assert or nothing at all. –  Axel Aug 9 '11 at 16:47
11  
It's unlikely that every other value than null is acceptable. You could have IllegalArgumentException, OutOfRageException etc etc. Sometimes this makes sense. Other times you end up creating a lot of exception classes that doesn't add any value, then you just use IllegalArgumentException. It doesn't makes sense to have one exception for null-input, and another one for everything else. –  myplacedk Aug 15 '11 at 12:26
3  
Yes, I agree to fail-fast-principle, but in the example given above, the value is not passed on, but is the object on which a method shall be called. So it fails equallys fast, and adding a null check just to throw an exception that would be thrown anyway at the same time and place doesn't seem to make debugging any easier. –  Axel Aug 22 '11 at 11:20
3  
I agree with @Axel in that IllegalArgumentException implies (as I use it anyway) that a precondition for the argument does not hold as it pertains to a constraint on the parameter. A null parameter is usually just "a general error in programming" and not an application/API specific constraint. To maintain a defensive fail-fast strategy, there's nothing stopping anyone for checking for a null and throwing a NullPointerException... which exactly conveys what happened, namely, "you didn't program it right" :) –  charstar Dec 3 '11 at 9:54
1  
throw new IllegalArgumentException("object==null") –  Thorbjørn Ravn Andersen Apr 20 '13 at 23:35

Wow, I almost hate to add another answer when we have 57 different ways to recommend the NullObject pattern, but I think that some people interested in this question may like to know that there is a proposal on the table for Java 7 to add "null-safe handling"—a streamlined syntax for if-not-equal-null logic.

The example given by Alex Miller looks like this:

public String getPostcode(Person person) {  
  return person?.getAddress()?.getPostcode();  
}  

The ?. means only de-reference the left identifier if it is not null, otherwise evaluate the remainder of the expression as null. Some people, like Java Posse member Dick Wall and the voters at Devoxx really love this proposal, but there is opposition too, on the grounds that it will actually encourage more use of null as a sentinel value.


Update: An official proposal for a null-safe operator in Java 7 has been submitted under Project Coin. The syntax is a little different than the example above, but it's the same notion.


Update: The null-safe operator proposal didn't make it into Project Coin. So, you won't be seeing this syntax in Java 7.

share|improve this answer
10  
I think this is wrong. There should be a way to specify that a given variable is ALWAYS non-null. –  Thorbjørn Ravn Andersen May 26 '09 at 11:54
4  
Update: the proposal will not make Java7. See blogs.sun.com/darcy/entry/project_coin_final_five . –  Boris Terzic Aug 29 '09 at 18:56
2  
But on the same page, see the link to types.cs.washington.edu/jsr308 for info about using the Checker framework to add the @Nullable and @NonNull type annotations in Java 7. –  Ogre Psalm33 Dec 10 '10 at 13:00
4  
Interesting idea but the choice of syntax is absurd; I don't want a codebase full of question marks pinned into every joint. –  Rob May 16 '12 at 11:51
1  
This operator exists in Groovy, so those who want to use it still have that as an option. –  Muhd Feb 15 '13 at 22:53

If undefined values are not permitted:

You might configure your IDE to warn you about potential null dereferencing. E.g. in Eclipse, see Preferences > Java > Compiler > Errors/Warnings/Null analysis.

If undefined values are permitted:

If you want to define a new API where undefined values make sense, use the Option Pattern (may be familiar from functional languages). It has the following advantages:

  • It is stated explicitly in the API whether an input or output exists or not.
  • The compiler forces you to handle the "undefined" case.
  • Option is a monad, so there is no need for verbose null checking, just use map/foreach/getOrElse or a similar combinator to safely use the value (example).

Java 8 has a built-in Optional class (recommended); for earlier versions, there are library alternatives, for example Guava's Optional or FunctionalJava's Option. But like many functional-style patterns, using Option in Java (even 8) results in quite some boilerplate, which you can reduce using a less verbose JVM language, e.g. Scala or Xtend.

If you have to deal with an API which might return nulls, you can't do much in Java. Xtend and Groovy have the Elvis operator ?: and the null-safe dereference operator ?., but note that this returns null in case of a null reference, so it just "defers" the proper handling of null.

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15  
Indeed, the Option pattern is awesome. Some Java equivalents exist. Guava contains a limited version of this called Optional which leaves out most of the functional stuff. In Haskell, this pattern is called Maybe. –  Ben Hardy May 20 '11 at 18:31
5  
An Optional class will be available in Java 8 –  Pierre Henry Apr 25 '13 at 14:59
1  
...and it doesn't (yet) have map nor flatMap: download.java.net/jdk8/docs/api/java/util/Optional.html –  thSoft Apr 25 '13 at 15:28
1  
The Optional pattern doesn't solve anything; instead of one potentially null object, now you have two. –  Boann Nov 4 '13 at 4:15

Only for this situation - Avoiding checking for null before a string compare:

if ( foo.equals("bar") ) {
 // ...
}

will result in a NullPointerException if foo doesn't exist.

You can avoid that if you compare your Strings like this:

if ( "bar".equals(foo) ) {
 // ...
}
share|improve this answer
16  
I agree - only in that situation. I can't stand programmers that have taken this to the next unnecessary level and write if (null != myVar)... just looks ugly to me and serves no purpose! –  Alex Worden May 23 '11 at 18:14
11  
This is a particular example, probably the most used, of a general good practice: if you know it, always do <object that you know that is not null>.equals(<object that might be null>);. It works for other methods other than equals if you know the contract and those methods can handle null parameters. –  Stef Sep 23 '11 at 1:20
1  
This is the first example I have seen of Yoda Conditions that actually makes sense –  Erin Drummond Sep 30 '13 at 19:37

Depending on what kind of objects you are checking you may be able to use some of the classes in the apache commons such as: apache commons lang and apache commons collections

Example:

String foo;
...
if( StringUtils.isBlank( foo ) ) {
   ///do something
}

or (depending on what you need to check):

String foo;
...
if( StringUtils.isEmpty( foo ) ) {
   ///do something
}

The StringUtils class is only one of many; there are quite a few good classes in the commons that do null safe manipulation.

Here follows an example of how you can use null vallidation in JAVA when you include apache library(commons-lang-2.4.jar)

public DOCUMENT read(String xml, ValidationEventHandler validationEventHandler) {
    **Validate.notNull(validationEventHandler,"ValidationHandler not Injected");**
    return read(new StringReader(xml), true, validationEventHandler);
}

And if you are using Spring, Spring also has the same functionality in its package, see library(spring-2.4.6.jar)

Example on how to use this static classf from spring(org.springframework.util.Assert)

Assert.notNull(validationEventHandler,"ValidationHandler not Injected");
share|improve this answer
4  
Also you can use the more generic version from Apache Commons, quite useful at the start of methods to check params I find. Validate.notNull( object, "object must not be null"); commons.apache.org/lang/apidocs/org/apache/commons/lang/… –  monojohnny Jan 14 '10 at 13:57
  • If you consider an object should not be null (or it is a bug) use an assert.
  • If your method doesn't accept null params say it in the javadoc and use an assert.

You have to check for object != null only if you want to handle the case where the object may be null...

There is a proposal to add new annotations in Java7 to help with null / notnull params: http://tech.puredanger.com/java7/#jsr308

share|improve this answer

I'm a fan of "fail fast" code. Ask yourself - are you doing something useful in the case where the parameter is null? If you don't have a clear answer for what your code should do in that case... I.e. it should never be null in the first place, then ignore it and allow a NullPointerException to be thrown. The calling code will make just as much sense of an NPE as it would an IllegalArgumentException, but it'll be easier for the developer to debug and understand what went wrong if an NPE is thrown rather than your code attempting to execute some other unexpected contingency logic - which ultimately results in the application failing anyway.

share|improve this answer

The google collections framework offers a good and elegant way to achieve the null check.

There is a method in a library class like this:

static <T> T checkNotNull(T e){
   if(e == null){
      throw new NullPointerException();
   }
   return e;
}

And the usage is (with import static):

...
void foo(int a, Person p){
   if(checkNotNull(p).getAge() > a){
      ...
   }else{
      ...
   }
}
...

or in your example:

checkNotNull(someobject).doCalc();
share|improve this answer
56  
mmm, what is the difference? p.getAge() would throw the same NPE with less overhead and a clearer stack trace. What am I missing? –  mysomic May 18 '09 at 23:26
13  
It is better to throw an IllegalArgumentException("e == null") in your example as it clearly indicates that it is a programmer-intended exception (along with enough information to actually allow the maintainer to identify the problem). NullPointerExceptions should be reserved for the JVM, as it then clearly indicates that this was unintentional (and usually happens somewhere hard to identify) –  Thorbjørn Ravn Andersen May 26 '09 at 11:56
4  
This is now part of Google Guava. –  Steven Benitez Feb 13 '11 at 20:55
16  
Smells like over-engineering to me. Just let the JVM throw an NPE and don't clutter your code with this junk. –  Alex Worden Apr 23 '12 at 19:11
5  
I like it and open most methods and constructors with explicit checks on the arguments; if there is an error, methods always fail on the first few lines and I know the offending reference without finding something like getThing().getItsThing().getOtherThing().wowEncapsulationIsBroken().setLol("hi"‌​); –  Cory Kendall Nov 22 '12 at 6:26

Rather than Null Object Pattern -- which has its uses -- you might consider situations where the null object is a bug.

When the exception is thrown, examine the stack trace and work through the bug.

share|improve this answer
12  
Problem is that usually you loose context as the NullPointerException does not indicate WHICH variable was null, and you may have several "."-operations on the line. Using "if (foo == null) throw new RuntimeException("foo == null")" allows you to state explicitly WHAT was wrong, giving your stack trace much more value to those who have to fix it. –  Thorbjørn Ravn Andersen Oct 31 '09 at 9:02

Sometimes, you have methods that operate on its parameters that define a symmetric operation: a.f(b); <-> b.f(a);

If you know b can never be null, you can just swap it. most useful for equals: instead of foo.equals("bar"); better do "bar".equals(foo);,

share|improve this answer
1  
@Supericy Basically yes, but equals (or whatever method) has to check for null anyway. Or state explicitly that it does not. –  Angelo Fuchs Jul 30 '13 at 7:26

Java 7 has a new java.util.Objects utility class on which there is a requireNonNull() method. All this does is throw a NullPointerException if its argument is null, but it cleans up the code a bit. Example:

Objects.requireNonNull(someObject);
someObject.doCalc();

The method is most useful for checking just before an assignment in a constructor, where each use of it can save three lines of code:

Parent(Child child) {
   if (child == null) {
      throw new NullPointerException("child");
   }
   this.child = child;
}

becomes

Parent(Child child) {
   this.child = Objects.requireNonNull(child, "child");
}
share|improve this answer
5  
Actually, your example constitutes code bloat: the first line is superfluous because the NPE would be thrown in the second line. ;-) –  user1050755 Mar 7 '13 at 1:21
1  
True. A better example would be if the second line were doCalc(someObject). –  Stuart Marks Mar 7 '13 at 5:23
4  
It's not just code bloat. Better to check up front than halfway through a method that causes side effects or uses time/space. –  Robert Grant Sep 26 '13 at 11:33

Ultimately, the only way to completely solve this problem is by using a different programming language:

  • In Objective-C, you can do the equivalent of invoking a method on nil, and absolutely nothing will happen. This makes most null checks unnecessary but can make errors much harder to diagnose.
  • In Nice, a Java-derivated language, there are two versions of all types: a potentially-null version and a not-null version. You can only invoke methods on not-null types. Potentially-null types can be converted to not-null types through explicit checking for null. This makes it much easier to know where null checks are necessary and where they aren't.
share|improve this answer

With Java 8 come the new java.util.Optional class that arguably solves some of the problem. One can at least say that it improves the readability of the code, and in the case of public API's make the API's contract clearer to the client developer.

They work like that :

An optional object for a given type (Fruit) is created as the return type of a method. It can be empty or contain a Fruit object :

public static Optional<Fruit> find(String name, List<Fruit> fruits) {
   for(Fruit fruit : fruits) {
      if(fruit.getName().equals(name)) {
         return Optional.of(fruit);
      }
   }
   return Optional.empty();
}

No look at this code where we search a list of Fruit (fruits) for a given Fruit instance :

Optional<Fruit> found = find("lemon", fruits);
if(found.isPresent()) {
   Fruit fruit = found.get();
   String name = fruit.getName();
}

You can use the map() operator to perform a computation on--or extract a value from--an optional object. orElse() lets you provide a fallback for missing values.

Optional<Fruit> found = find("lemon", fruits);
Optional<String> name = found.map(f -> f.getName());
String nameOrNull = name.orElse(null);

Of course, the check for null/empty value is still necessary, but at least the developer is conscious that the value might be empty and the risk of forgetting to check is limited.

In an API built from scratch using Optional whenever a return value might be empty, and returning a plain object only when it cannot be null (convention), the client code might abandon null checks on simple object return values...

Of course Optional could also be used as method argument, perhaps a better way to indicate optional arguments than 5 or 10 overloading methods in some cases.

Optional offers other convenient methods, such as orElse that allow the use of a default value, and ifPresent that woks with lamba expressions.

I invite you te read this article (my main source for writing this answer) in which the NullPointerException (and in general null pointer) problematic as well as the (partial) solution brought by Optional are well explained : http://java.dzone.com/articles/java-optional-objects

share|improve this answer
3  
Google's guava has an optional implimention for Java 6+. –  Bradley Gottfried May 27 '13 at 17:30
1  
It's very important to emphasise that using Optional only with ifPresent() does not add much value above normal null checking. It's core value is that it is a monad that can be used in function chains of map/flapMap, which achieves results similar to the Elvis operator in Groovy mentioned elsewhere. Even without this usage, though, I find the orElse/orElseThrow syntax also very useful. –  Cornel Masson Oct 9 at 14:57

Asking that question points out that you may be interested in error handling strategies. Your team's architect should decide how to work errors. There are several ways to do this:

  1. allow the Exceptions to ripple through - catch them at the 'main loop' or in some other managing routine.

  2. check for error conditions and handle them appropriately

Sure do have a look at Aspect Oriented Programming, too - they have neat ways to insert if( o == null ) handleNull() into your bytecode.

share|improve this answer

In addition to using assert you can use the following :

if (someobject == null) {
    // handle null here then move on.
}

This is slightly better than :

if (someobject != null) {
    .....
    .....



    .....
}
share|improve this answer
2  
Mh, why that? Please don't feel any defensive, I'd just like to learn more about Java :) –  Matthias Meid Aug 17 '10 at 5:54
9  
@Mudu As a general rule, I prefer the expression in an if statement to be a more "positive" statement, rather than a "negative" one. So if I saw if (!something) { x(); } else { y(); } I would be inclined to refactor it as if (something) { y(); } else { x(); } (though one could argue that != null is the more positive option...). But more importantly, the important part of the code is not wrapped inside {}s and you have one level less of indentation for most of the method. I don't know if that was fastcodejava's reasoning but that would be mine. –  MatrixFrog Jun 22 '11 at 0:05

Common "problem" in Java indeed.

First, my thoughts on this:

I consider that it is bad to "eat" something when NULL was passed where NULL isn't a valid value. If you're not exiting the method with some sort of error then it means nothing went wrong in your method which is not true. Then you probably return null in this case, and in the receiving method you again check for null, and it never ends, and you end up with "if != null", etc..

So, imho, null must be a critical error which prevents further execution (i.e. where null is not a valid value).

The way I solve this problem is this:

First, I follow this convetion:

  1. all public methods / API always check for null its arguments

  2. all private methods do not check for null since they are controlled methods (just let die with NPE in case it wasn't handled above)

  3. the only other methods which do not check for null are utility methods. They are public, but if you call them for some reason, you know what parameters you pass. This is like trying to boil water in the kettle without providing water...

And finally, in the code, the first line of the public method goes like this:

ValidationUtils.getNullValidator().addParam(plans, "plans").addParam(persons, "persons").validate();

note that addParam() returns self, so that you can add more params to check.

method validate() will throw checked ValidationException if any of the params is null (checked or unchecked is more a design/taste issue, but my ValidationException is checked).

void validate() throws ValidationException;

The message will contain the following text if, for example, "plans" is null:

"Illegal argument value null is encountered for parameter [plans]"

As you can see, 2nd value in the addParam() method (string) is needed for the user message, because you cannot easily detect passed-in variable name, even with reflection (not subject of this post anyway...).

And yes, we know that beyond this line we will no longer encounter a null value so we just safely invoke methods on those objects.

This way, code is clean, easy maintainable and readable.

share|improve this answer
  1. Null is not a 'problem'. It is integral part of complete modeling tool set. Software aims to model complexity of the world and null bears its burden. Null indicates 'No data' or 'Unknown' in java and the like. So it is appropriate to use nulls for these purposes. I don't prefer 'Null object' pattern, I think it rise Who will guard the guards problem.
    If you ask me what is the name of my girlfriend I'll tell you that I have no girlfriend. In 'java language' I'll return null. Some other 'business logic' could consider it necessary to throw a meaningful exception to indicate some problem that can't be (or don't want to be) solved right there and delegate it somewhere higher in the stack.
  2. For 'unknown question' give 'unknown answer'. Checking arguments for null once inside method before usage relieves multiple callers from checking them before call.

    public Photo getPhotoOfThePerson(Person person) {
        if (person == null)
            return null;
        // grabbing some resources or intensive calculation
        // using person object anyhow
    }
    

    previous leads to normal logic flow to get no photo of non-existent girlfriend from my photo library.

    getPhotoOfThePerson(me.getGirlfriend())  
    

    and fits with new coming java api (looking forward)

    getPhotoByName(me.getGirlfriend()?.getName())
    
  3. NullPointerException is subclass of an Exception. Thus it is a form of Throwable that indicates conditions that a reasonable application might want to catch (javadoc)! To utilize The first most advantage of Exceptions and separate Error-Handling Code from 'Regular' Code (according to creators of java) it is appropriate, as for me, to catch NullPointerException.

    public Photo getGirlfriendPhoto() {
        try {
            return appContext.getPhotoDataSource().getPhotoByName(me.getGirlfriend().getName());
        } catch (NullPointerException e) {
            return null;
        }
    }
    

    Questions could arise:

    q. What if getPhotoDataSource() return null?
    a. It is up to business logic. If I fail to find photo album I'll show you no photos. What if appContext is not initialized?.. This method's business logic put up with this. If some logic should be more strict then throwing an exception it is part of business logic and explicit check for null should be used (case 4). New Java Null-safe API fits better here to specify selectively what implies and what does not imply to be initialized to be fail-fast in case of programmer errors.

    q. Redundant code could be executed and unnecessary resources could be grabbed.
    a. It could take place if getPhotoByName() would try to open DB connection, create PreparedStatement and use person name as SQL parameter at last. Approach for unknown question give unknown answer (case 2) works here. Before grabbing resources method should check parameters and return 'unknown' result if need.

    q. This approach have performance penalty due to try closure opening.
    a. Software should be easy to understand and modify firstly. Only after this one could think about performance only if needed! and where needed! (source, and many others).

    PS. This approach will be as reasonable to use as Separate Error-Handling Code from "Regular" Code principle is reasonable to use in some place. Consider next example:

    public SomeValue calculateSomeValueUsingSophisticatedLogic(Predicate predicate) {
        try {
            Result1 result1 = performSomeCalculation(predicate);
            Result2 result2 = performSomeOtherCalculation(result1.getSomeProperty());
            Result3 result3 = performThirdCalculation(result2.getSomeProperty());
            Result4 result4 = performLastCalculation(result3.getSomeProperty());
            return result4.getSomeProperty();
        } catch (NullPointerException e) {
            return null;
        }
    }
    
    public SomeValue calculateSomeValueUsingSophisticatedLogic(Predicate predicate) {
        SomeValue result = null;
        if (predicate != null) {
            Result1 result1 = performSomeCalculation(predicate);
            if (result1 != null && result1.getSomeProperty() != null) {
                Result2 result2 = performSomeOtherCalculation(result1.getSomeProperty());
                if (result2 != null && result2.getSomeProperty() != null) {
                    Result3 result3 = performThirdCalculation(result2.getSomeProperty());
                    if (result3 != null && result3.getSomeProperty() != null) {
                        Result4 result4 = performLastCalculation(result3.getSomeProperty());
                        if (result4 != null) {
                            result = result4.getSomeProperty();
                        }
                    }
                }
            }
        }
        return result;
    }
    
  4. Check for 'No data' only if business logic implies.

    public void updatePersonPhoneNumber(Long personId, String phoneNumber) {
        if (personId == null)
            return;
        DataSource dataSource = appContext.getStuffDataSource();
        Person person = dataSource.getPersonById(personId);
        if (person != null) {
            person.setPhoneNumber(phoneNumber);
            dataSource.updatePerson(person);
        } else {
            Person = new Person(personId);
            person.setPhoneNumber(phoneNumber);
            dataSource.insertPerson(person);
        }
    }
    

    and

    public void updatePersonPhoneNumber(Long personId, String phoneNumber) {
        if (personId == null)
            return;
        DataSource dataSource = appContext.getStuffDataSource();
        Person person = dataSource.getPersonById(personId);
        if (person == null)
            throw new SomeReasonableUserException("What are you thinking about ???");
        person.setPhoneNumber(phoneNumber);
        dataSource.updatePerson(person);
    }
    

    If appContext or dataSource are not initialized NullPointerException reveals programmer error somewhere in initialization stuff and it should be fixed exactly there. Current methods business logic implies these to be ready for use.

share|improve this answer
6  
I'd downvote if I had the reputation. Not only is null not necessary, it's a hole in the type system. Assigning a Tree to a List is a type error because trees are not values of type List; by that same logic, assigning null should be a type error because null is not a value of type Object, or any useful type for that matter. Even the man that invented null considers it his "billion-dollar mistake". The notion of "a value that might be a value of type T OR nothing" is its own type, and should be represented as such (e.g. Maybe<T> or Optional<T>). –  Doval Nov 20 '13 at 15:57

just don't ever use null, don't allow it

in my classes, most fields and local vars have a non-null default values, and I add contract statements (always-on asserts) everywhere in the code to make sure this is being enforced (since it's more succinct, and more expressive than letting it come up as a NPE and then having to resolve the line number, etc).

once i adopted this practice, I noticed that the problems seemed to fix themselves, you'd catch things much earlier in the development process just by accident and realize you had a weak spot.. and more importantly.. it helps encapsulate different modules' concerns, different modules can 'trust' each other, and no more littering the code with if = null else constructs!

this is defensive program and results in much cleaner code in the long run. always sanitize the data, e.g. here by enforcing rigid standards, and the problems go away.

class C {
    private final MyType mustBeSet;
    public C(MyType mything) { 
       mustBeSet=Contract.notNull(mything);
    }
   private String name = "<unknown>";
   public void setName(String s) {
      name = Contract.notNull(s);
   }
}


class Contract {
    public static <T> T notNull(T t) { if (t == null) { throw new ContractException("argument must be non-null"); return t; }  
}

the contracts are like mini-unit tests which are always running, even in production, and when things fail, you know why, rather than a random NPE you have to somehow figure out

share|improve this answer
2  
The problem with this approach is that if name is never set, it has the value "<unknown>", which behaves like a set value. Now let's say I need to check if name was never set (unknown), I have to do a string comparison against the special value "<unknown>". –  Steve Kuo Dec 17 '13 at 7:02

Guava, a very useful core library by Google, has a nice and useful API to avoid nulls. I find UsingAndAvoidingNullExplained very helpful.

As explained in the wiki:

Optional<T> is a way of replacing a nullable T reference with a non-null value. An Optional may either contain a non-null T reference (in which case we say the reference is "present"), or it may contain nothing (in which case we say the reference is "absent"). It is never said to "contain null."

Usage:

Optional<Integer> possible = Optional.of(5);
possible.isPresent(); // returns true
possible.get(); // returns 5
share|improve this answer

I like articles from Nat Pryce, here are the links:

In the articles there is also a link to a git repository for a java Maybe Type which i find interesting, but I don't think it alone could decrease the checking code bloat. After doing some research on the Internet, I think != null code bloat could be decreased mainly by carefull design

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May I answer it more generally!

We usually face this issue when the methods get the parameters in the way we not expected (bad method call is programmer's fault). For example: you expect to get an object, instead you get a null. You expect to get an String with at least one character, instead you get an empty String ...

So there is no difference between:

if(object == null){
   //you called my method badly!

}

or

if(str.length() == 0){
   //you called my method badly again!
}

They both want to make sure that we received valid parameters, before we do any other functions.

As mentioned in some other answers, to avoid above problems you can follow the Design by contract pattern. Please see http://en.wikipedia.org/wiki/Design_by_contract.

To implement this pattern in java, you can use core java annotations like javax.annotation.NotNull or use more sophisticated libraries like Hibernate Validator.

Just a sample:

getCustomerAccounts(@NotEmpty String customerId,@Size(min = 1) String accountType)

Now you can safely develop the core function of your method without needing to check input parameters, they guard your methods from unexpected parameters.

You can go a step further and make sure that only valid pojos could be created in your application. (sample from hibernate validator site)

public class Car {

   @NotNull
   private String manufacturer;

   @NotNull
   @Size(min = 2, max = 14)
   private String licensePlate;

   @Min(2)
   private int seatCount;

   // ...
}
share|improve this answer

I've tried the NullObjectPattern but for me is not always the best way to go. There are sometimes when a "no action" is not appropiate.

NullPointerException is a Runtime exception that means it's developers fault and with enough experience it tells you exactly where is the error.

Now to the answer:

Try to make all your attributes and its accessors as private as possible or avoid to expose them to the clients at all. You can have the argument values in the constructor of course, but by reducing the scope you don't let the client class pass an invalid value. If you need to modify the values, you can always create a new object. You check the values in the constructor only once and in the rest of the methods you can be almost sure that the values are not null.

Of course, experience is the better way to understand and apply this suggestion.

Byte!

share|improve this answer
  1. Never initialise variables to null.
  2. If (1) is not possible, initialise all collections and arrays to empty collections/arrays.

Doing this in your own code and you can avoid != null checks.

Most of the time null checks seem to guard loops over collections or arrays, so just initialise them empty, you won't need any null checks.

// Bad
ArrayList<String> lemmings;
String[] names;

void checkLemmings() {
    if (lemmings != null) for(lemming: lemmings) {
        // do something
    }
}



// Good
ArrayList<String> lemmings = new ArrayList<String>();
String[] names = {};

void checkLemmings() {
    for(lemming: lemmings) {
        // do something
    }
}

There is a tiny overhead in this, but it's worth it for cleaner code and less NullPointerExceptions.

share|improve this answer
2  
+1 This I agree with. You should never return half initialized objects. Jaxb related code and bean code is notiroius for this. It is bad practice. All collections should be initialized, and all objects should exist with (ideally) no null references. Consider a object that has a collection in it. Checking that the object is not null, that the collection is not null and that the collection does not contain null objects is unreasonable and foolish. –  GGB667 Sep 23 '13 at 14:52

you can use FindBugs , they also have an eclipse plugin) that helps you find duplicate null checks (among other things), but keep in mind that sometimes you should opt for defensive programming. There is also Contracts for Java which may be helpful.

share|improve this answer

One more alternative:

The following simple function helps to hide the null-check (I don't know why, but I haven't found it as part of the some common library):

public static <T> boolean isNull(T argument) {
    return (argument == null);
}

You could now write

if (!isNull(someobject)) {
    someobject.doCalc();
}

which is IMO a better way of expressing != null.

share|improve this answer
4  
If you're constantly going to negate the return value, wouldn't it be better to simply write a function isNotNull? Doesn't that more clearly indicate your intent? –  TMN Nov 22 '11 at 20:07
10  
I fail to see how this is more concise than "someobject != null". –  user1050755 Mar 7 '13 at 1:27
public static <T> T ifNull(T toCheck, T ifNull){
       if(toCheck == null){
           return ifNull;
       }
       return toCheck;
}
share|improve this answer
2  
What's wrong with this method, I think @tltester just want to give a default value if the it's null, which make sense. –  Sawyer Aug 17 '11 at 5:42

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

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