190

Is there a Java equivalent of SQL's COALESCE function? That is, is there any way to return the first non-null value of several variables?

e.g.

Double a = null;
Double b = 4.4;
Double c = null;

I want to somehow have a statement that will return the first non-null value of a, b, and c - in this case, it would return b, or 4.4. (Something like the sql method - return COALESCE(a,b,c)). I know that I can do it explicitly with something like:

return a != null ? a : (b != null ? b : c)

But I wondered if there was any built-in, accepted function to accomplish this.

2
  • 3
    You shouldn't need a function like this as you geneally wouldn't calculate 'c' if 'b' has the answer you want. i.e. you wouldn't build a list of possible answers only to keep one. May 6, 2010 at 21:26
  • Caveat: Not all RDBMS short circuit on COALESCE. Oracle only recently started doing it.
    – Adam Gent
    Apr 30, 2012 at 19:41

13 Answers 13

278

Apache Commons Lang 3

ObjectUtils.firstNonNull(T...)

Java 8 Stream

Stream.of(T...).filter(Objects::nonNull).findFirst().orElse(null)

3
  • 3
    I was looking for the same but for strings, and found out that there are SpringUtils.firstNonBlank(T...) and SpringUtils.firstNonBlank(T...) methods.
    – kodlan
    Jul 29, 2020 at 17:23
  • 2
    Note that both methods listed here introduce performance implications due to extra objects allocation, unlike simple ternary operator or Guava's MoreObjects.firstNonNull.
    – Vadzim
    Nov 10, 2020 at 8:51
  • 1
    Stream.of(null,"a") will not work since the of function is annotated with @NonNull
    – pyropunk51
    Jul 8, 2021 at 7:02
129

No, there isn't.

The closest you can get is:

public static <T> T coalesce(T ...items) {
    for(T i : items) if(i != null) return i;
    return null;
}

For efficient reasons, you can handle the common cases as follows:

public static <T> T coalesce(T a, T b) {
    return a == null ? b : a;
}
public static <T> T coalesce(T a, T b, T c) {
    return a != null ? a : (b != null ? b : c);
}
public static <T> T coalesce(T a, T b, T c, T d) {
    return ...
}
6
  • 3
    the efficiency reasons that i mentioned above is that an array allocation will happen each time you invoke the var arg version of the method. this could be wasteful for hand-fulls of items, which i suspect will be common usage.
    – les2
    May 4, 2010 at 18:54
  • Cool. Thanks. In that case I'll probably stick to the nested conditional operators in this case as it's the only time it has to be used and the user-defined method would be overkill...
    – froadie
    May 4, 2010 at 18:55
  • 8
    I still would pull it out into a private helper method rather than leave a "scary looking" conditional block in the code - "what does that do?" that way, if you ever do need to use it again, you can use the refactoring tools in your IDE to move the method to the utility class. having the named method helps to document the intent of the code, which is always a good thing, IMO. (and the overhead of the non var-args version is probably barely measurable.)
    – les2
    May 4, 2010 at 19:07
  • 12
    Watch out: In coalesce(a, b), if b is a complex expression and a is not null, b is still evaluated. This is not the case for the ?: conditional operator. See this answer.
    – Pang
    Dec 26, 2012 at 9:48
  • 1
    this requires every argument to be precalculated before the call to coalesce, pointless for performance reasons
    – Ivan G.
    Jun 20, 2013 at 9:07
66

If there are only two references to test and you are using Java 8, you could use

Object o = null;
Object p = "p";
Object r = Optional.ofNullable( o ).orElse( p );
System.out.println( r );   // p

If you import static Optional the expression is not too bad.

Unfortunately your case with "several variables" is not possible with an Optional-method. Instead you could use:

Object o = null;
Object p = null;
Object q = "p";

Optional<Object> r = Stream.of( o, p, q ).filter( Objects::nonNull ).findFirst();
System.out.println( r.orElse(null) );   // p
1
  • Possible without the use of optional: Object default = "some value"; Object res = ((res = getSomeNullable()) != null) ? res : default; May 4, 2021 at 9:35
64

If there are only two variables to check and you're using Guava, you can use MoreObjects.firstNonNull(T first, T second).

4
  • 57
    Objects.firstNonNull only takes two arguments; there is no varargs equivalent in Guava. Also, it throws a NullPointerException if both args are null -- this may or may not be desirable.
    – user1114009
    Dec 23, 2011 at 21:25
  • 2
    Good comment, Jake. This NullPointerException often restricts Objects.firstNonNull usage. However, it's Guava's approach to avoid nulls at all. Jan 10, 2014 at 14:22
  • 4
    That method is now deprecated, and the recommended alternative is MoreObjects.firstNonNull Feb 17, 2015 at 0:58
  • 1
    If NPE is undesired, then see this answer
    – OrangeDog
    Jun 9, 2016 at 10:11
26

Following on from LES2's answer, you can eliminate some repetition in the efficient version, by calling the overloaded function:

public static <T> T coalesce(T a, T b) {
    return a != null ? a : b;
}
public static <T> T coalesce(T a, T b, T c) {
    return a != null ? a : coalesce(b,c);
}
public static <T> T coalesce(T a, T b, T c, T d) {
    return a != null ? a : coalesce(b,c,d);
}
public static <T> T coalesce(T a, T b, T c, T d, T e) {
    return a != null ? a : coalesce(b,c,d,e);
}
3
  • 5
    +1 for pretty. Not sure about the efficiency benefits over the simple loop, but if you're going to eke out any tiny efficiency this way, it might as well be pretty. May 4, 2010 at 19:08
  • 3
    this way makes it much less painful and less error prone to write the overloaded variants!
    – les2
    May 10, 2010 at 18:45
  • 3
    The point of the efficient version was to not waste memory allocating an array by using varargs. Here, you're wasting memory by creating a stack frame for each nested coalesce() call. Calling coalesce(a, b, c, d, e) creates up to 3 stack frames to calculate.
    – Luke
    Sep 23, 2016 at 0:20
12

This situation calls for some preprocessor. Because if you write a function (static method) which picks the first not null value, it evaluates all items. It is problem if some items are method calls (may be time expensive method calls). And this methods are called even if any item before them is not null.

Some function like this

public static <T> T coalesce(T ...items) …

should be used but before compiling into byte code there should be a preprocessor which find usages of this „coalesce function“ and replaces it with construction like

a != null ? a : (b != null ? b : c)

Update 2014-09-02:

Thanks to Java 8 and Lambdas there is possibility to have true coalesce in Java! Including the crucial feature: particular expressions are evaluated only when needed – if earlier one is not null, then following ones are not evaluated (methods are not called, computation or disk/network operations are not done).

I wrote an article about it Java 8: coalesce – hledáme neNULLové hodnoty – (written in Czech, but I hope that code examples are understandable for everyone).

2
  • 1
    Nice article - it would be nice to have it English, though.
    – quantum
    Oct 9, 2014 at 21:41
  • 1
    There's something about that blog page that doesn't work with Google Translate. :-( May 14, 2015 at 23:28
6

You can try this:

public static <T> T coalesce(T... t) {
    return Stream.of(t).filter(Objects::nonNull).findFirst().orElse(null);
}

Based on this response

5

With Guava you can do:

Optional.fromNullable(a).or(b);

which doesn't throw NPE if both a and b are null.

EDIT: I was wrong, it does throw NPE. The correct way as commented by Michal Čizmazia is:

Optional.fromNullable(a).or(Optional.fromNullable(b)).orNull();
2
  • 1
    Hey, it does: java.lang.NullPointerException: use Optional.orNull() instead of Optional.or(null) Aug 28, 2013 at 3:15
  • 1
    This does the trick: Optional.fromNullable(a).or(Optional.fromNullable(b)).orNull() Aug 28, 2013 at 3:28
5

Since Java 9 there is builtin Objects.requireNonNullElse method for two parameter coalesce. That was the most useful for me.

1
4

Just for completness, the "several variables" case is indeed possible, though not elegant at all. For example, for variables o, p, and q:

Optional.ofNullable( o ).orElseGet(()-> Optional.ofNullable( p ).orElseGet(()-> q ) )

Please note the use of orElseGet() attending to the case that o, p, and q are not variables but expressions either expensive or with undesired side-effects.

In the most general case coalesce(e[1],e[2],e[3],...,e[N])

coalesce-expression(i) ==  e[i]  when i = N
coalesce-expression(i) ==  Optional.ofNullable( e[i] ).orElseGet(()-> coalesce-expression(i+1) )  when i < N

This can generate expressions excessively long. However, if we are trying to move to a world without null, then v[i] are most probably already of type Optional<String>, as opposed to simply String. In this case,

result= o.orElse(p.orElse(q.get())) ;

or in the case of expressions:

result= o.orElseGet(()-> p.orElseGet(()-> q.get() ) ) ;

Furthermore, if you are also moving to a functional-declarative style, o, p, and q should be of type Supplier<String> like in:

Supplier<String> q= ()-> q-expr ;
Supplier<String> p= ()-> Optional.ofNullable(p-expr).orElseGet( q ) ;
Supplier<String> o= ()-> Optional.ofNullable(o-expr).orElseGet( p ) ;

And then the whole coalesce reduces simply to o.get().

For a more concrete example:

Supplier<Integer> hardcodedDefaultAge= ()-> 99 ;
Supplier<Integer> defaultAge= ()-> defaultAgeFromDatabase().orElseGet( hardcodedDefaultAge ) ;
Supplier<Integer> ageInStore= ()-> ageFromDatabase(memberId).orElseGet( defaultAge ) ;
Supplier<Integer> effectiveAge= ()-> ageFromInput().orElseGet( ageInStore ) ;

defaultAgeFromDatabase(), ageFromDatabase(), and ageFromInput() would already return Optional<Integer>, naturally.

And then the coalesce becomes effectiveAge.get() or simply effectiveAge if we are happy with a Supplier<Integer>.

IMHO, with Java 8 we will see more and more code structured like this, as it's extremely self-explainatory and efficient at the same time, especially in more complex cases.

I do miss a class Lazy<T> that invokes a Supplier<T> only one time, but lazily, as well as consistency in the definition of Optional<T> (i.e. Optional<T>-Optional<T> operators, or even Supplier<Optional<T>>).

4

How about using suppliers when you want to avoid evaluating some expensive method?

Like this:

public static <T> T coalesce(Supplier<T>... items) {
for (Supplier<T> item : items) {
    T value = item.get();
    if (value != null) {
        return value;
    }
    return null;
}

And then using it like this:

Double amount = coalesce(order::firstAmount, order::secondAmount, order::thirdAmount)

You can also use overloaded methods for the calls with two, three or four arguments.

In addition, you could also use streams with something like this:

public static <T> T coalesce2(Supplier<T>... s) {
    return Arrays.stream(s).map(Supplier::get).filter(Objects::nonNull).findFirst().orElse(null);
}
2
  • Why wrap the first argument in a Supplier if it will be inspected anyway? For the sake of uniformity?
    – Inego
    Sep 20, 2019 at 9:14
  • This might be a bit old, but for completeness' sake: the approach by @Triqui does not necessarily evaluate all the parameters passed to coalesce - that's the point of the parameters being of type Supplier. They are evaluated only when get() is called - if the first parameter matches the criteria, the rest need not be evaluated.
    – filpa
    Nov 18, 2021 at 9:31
0

How about:

firstNonNull = FluentIterable.from(
    Lists.newArrayList( a, b, c, ... ) )
        .firstMatch( Predicates.notNull() )
            .or( someKnownNonNullDefault );

Java ArrayList conveniently allows null entries and this expression is consistent regardless of the number of objects to be considered. (In this form, all the objects considered need to be of the same type.)

-2
Object coalesce(Object... objects)
{
    for(Object o : object)
        if(o != null)
            return o;
    return null;
}
4
  • 2
    God I hate generics. I saw what yours meant right off the bat. I had to look at @LES2's twice to figure out that he was doing the same thing (and probably "better")! +1 for clarity
    – Bill K
    May 4, 2010 at 18:51
  • Yeah, generics are the way to go. But I'm not all that familiar with the intricacies.
    – Eric
    May 4, 2010 at 19:05
  • 11
    Time to learn generics :-). There is little difference between @LES2's example and this, other than T instead of Object. -1 for building a function which will force casting the return value back to Double. Also for naming a Java method in all-caps, which may be fine in SQL, but isn't good style in Java.
    – Avi
    May 4, 2010 at 19:13
  • 1
    I realize that all-caps is bad practice. I was just showing the OP how to write a function under the name they requested. Agreed, the cast back to Double is far from ideal. I just wasn't aware that static functions could be given type parameters. I thought it was just classes.
    – Eric
    May 4, 2010 at 20:18

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