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The Java API docs say the following about Collections.addAll

The behavior of this convenience method is identical to that of c.addAll(Arrays.asList(elements)), but this method is likely to run significantly faster under most implementations.

So if I understand correctly, a) is slower than b):

a)

Collection<Integer> col = new ArrayList<Integer>();
col.addAll(Arrays.asList(1, 2, 3, 4, 5));

b)

Collection<Integer> col = new ArrayList<Integer>();
// Collections.addAll(col, Arrays.asList(1, 2, 3, 4, 5)); <-- won't compile
Collections.addAll(col, 1, 2, 3, 4, 5);

Can anyone explain to me, why that is?

edited: corrected code example. thx to polygenelubricants

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4 Answers 4

up vote 34 down vote accepted

Let's take a closer look at the two of them:

// a)
col.addAll(Arrays.asList(1, 2, 3, 4, 5));

Here's what happens:

  1. varags + autoboxing creates Integer[]
  2. Arrays.asList creates a List<Integer> backed by the array
  3. addAll iterates over a Collection<Integer> using Iterator<Integer>
// b)
Collections.addAll(col, 1, 2, 3, 4, 5);

Here's what happens:

  1. varargs + autoboxing creates Integer[]
  2. addAll iterates over an array (instead of an Iterable<Integer>)

We can see now that b) may be faster because:

  • Arrays.asList call is skipped, i.e. no intermediary List is created.
  • Since the elements are given in an array (thanks to varargs mechanism), iterating over them may be faster than using Iterator.

That said, unless profiling shows otherwise, the difference isn't likely to be "significant". Do not optimize prematurely. While Java Collection Framework classes may be slower than arrays, they perform more than adequately for most applications.

API links

See also

Related questions


Summary

  • If you're adding elements from an array, you can use Collections.addAll(col, arr)
    • Remember that varargs are also done using arrays
  • If you're adding elements from a Collection, use col.addAll(otherCol)
    • Do NOT e.g. Collections.addAll(col, otherCol.toArray())
      • Such roundabout way is likely to be slower!
  • It's not that one is supremely faster than the other
    • It's about skipping unnecessary steps given the current situation
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1  
You're right... I corrected the question. –  dertoni Jul 27 '10 at 13:15
1  
new edit: I think now everyone can understand your answer with regard to my errors. :-) –  dertoni Jul 27 '10 at 13:36
    
My personal opinion is that the documentation is slightly confusing in that regard, as I fail to see how the implementation of that method has anything to do with it. It is the usage of the method, and the fact that you don't have to package up the data in an extra step that makes it faster. Or is there something else about the method that makes it faster as well? –  Lasse V. Karlsen Jul 27 '10 at 13:47
    
Sadly, the code in (b) only works with literal integers; autoboxing won't convert an array. For example, "int[] arr = {...create array...}; Collections.addAll(col, arr);" will fail because Integer and 'int' aren't in an inheritance hierarchy. –  Ti Strga Aug 26 '13 at 19:48

The only reason it might be faster is that it avoids the call to Arrays.asList which should be relatively cheap since it just wraps the array. Some Collection implementations, for example LinkedList convert the passed collection back to an array before adding the elements, causing additional overhead.

On the other hand, ArrayList.addAll allocates the needed space once before adding any elements and so should be much faster when Collections.addAll requires multiple resizing of the backing array.

In summary, Collections.addAll could be faster when repeatedly adding only a few elements to a collection, but I doubt that this case would ever be a performance bottleneck.

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There's also the iteration factor, i.e. iterating over an array T[] (which is what varargs is in Java) vs iterating over a Collection<E>, i.e. an Iterable<E> through its Iterator<E>. –  polygenelubricants Jul 27 '10 at 13:52
    
for the particular case of an ArrayList, you can always al.ensureCapacity(al.size() + array.length) first. Though yes, probably not going to be enough of a bottleneck that one would want to make a field an ArrayList instead of a List. –  Carl Jul 27 '10 at 13:55
    
@Carl: Effective Java 2nd Edition, Item 52: Refer to objects by their interfaces. You should generally not have a field declared as an ArrayList instead of a List. –  polygenelubricants Jul 27 '10 at 13:57
    
+1 for pointing out the specific addAll implementation quirks of ArrayList and LinkedList. –  polygenelubricants Jul 27 '10 at 14:21
    
@polygenelubricants: my comment says that already, if perhaps not as specifically. Legitmate performance concerns can be a reason to violate that particular piece of EJ advice - again, I doubt that's the case here. –  Carl Jul 27 '10 at 15:53

(Let's build on SE Platform 6)

It all depends on actual collection implementation. In your example we have

Collection<Integer> col = new ArrayList<Integer>();

and addAll method in ArrayList is overriden. No iterations whatsoever. Here's the source:

public boolean addAll(Collection<? extends E> c) {
Object[] a = c.toArray();
    int numNew = a.length;
ensureCapacity(size + numNew);  // Increments modCount
    System.arraycopy(a, 0, elementData, size, numNew);
    size += numNew;
return numNew != 0;
}

As you might notice c.toArray() also depends on actual implementation. Again, in your case Arrays.asList() results in ArrayList which one's version of toArray() method looks like this:

public Object[] toArray() {
    return Arrays.copyOf(elementData, size);
}

This static method is based on System.arraycopy

So actually what we deal here with is two calls of System.arraycopy which is not that bad actually because it's a native method, specifically optimized for current operation system.

So, to sum it all up in Mr. polygenelubricants' style:

  1. varags + autoboxing creates Integer[]
  2. Arrays.asList creates an ArrayList<Integer>
  3. ArrayList.addAll calls System.arraycopy(size)x2, size = 5

In your case of 5 objects in the array Collections.addAll is of cource faster. BUT irrelevant with such a small array size. On the other hand if it was, say, 100k elements in an array then col.addAll(Arrays.asList(...)) is much more efficient 'cause with native method it is a single memcpy/memmove we dealing with as opposed to 100k iterations/copy operations.

And again, it all depends on collection's implementation. LinkedList for example will iterate over it as was expected.

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Here are the (approximate) associated time complexity cost functions for each of the steps mentioned by @polygenelubricants:

a) 3 iterations over arguments list ~= C(3N)

b) 2 iterations over arguments list ~= C(2N)

Clearly they are both O(N) but approach b) saves ~N comparisons over approach a). Hopefully this is helpful to anyone who was interested in a quantitative explanation.

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