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I wonder what is the best way to implement a "for-each" loop over an ArrayList or every kind of List.

Which of the followings implementations is the best and why? Or is there a best way?

Thank you for your help.


List values = new ArrayList();

values.add("one"); values.add("two"); values.add("three"); ...

//#0
for(String value : values) { ... }

//#1
for(int i = 0; i < values.size(); i++) { String value = values.get(i); ... }

//#2
for(Iterator it = values.iterator(); it.hasNext(); ) { String value = it.next(); ... }

//#3
Iterator it = values.iterator(); while (it.hasNext()) { String value = (String) it.next(); ... }

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possibly related: stackoverflow.com/questions/99164/… –  Ben Voigt Dec 5 '10 at 0:16

5 Answers 5

up vote 11 down vote accepted

#3 has a disadvantage because the scope of the iterator it extends beyond the end of the loop. The other solutions don't have this problem.

#2 is exactly the same as #0, except #0 is more readable and less prone to error.

#1 is (probably) less efficient because it calls .size() every time through the loop.

#0 is usually best because:

  • it is the shortest
  • it is least prone to error
  • it is idiomatic and easy for other people to read at a glance
  • it is efficiently implemented by the compiler
  • it does not pollute your method scope (outside the loop) with unnecessary names
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A very clear answer. Thank you very much. –  Michaël Dec 5 '10 at 0:23
    
Nice answer. However, #1 is required when updating (if not just mutating the current item or building the results as a new list) and comes with the index. Since the List<> is an ArrayList<> in this case, the get() (and size()) is O(1), but that isn't the same for all List-contract types. –  user166390 Dec 5 '10 at 0:36

The short answer is to use version 0. Take a peek at the section title Use Enhanced For Loop Syntax at Android's documentation for Designing for Performance. That page has a bunch of goodies and is very clear and concise.

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That is for android but in this question there is no Android TAG, and also it depends in what you need at the end. –  Jorge Aguilar Aug 28 '12 at 23:14

#0 is the easiest to read, in my opinion, but #2 and #3 will work just as well. There should be no performance difference between those three.

In almost no circumstances should you use #1. You state in your question that you might want to iterate over "every kind of List". If you happen to be iterating over a LinkedList then #1 will be n^2 complexity: not good. Even if you are absolutely sure that you are using a list that supports efficient random access (e.g. ArrayList) there's usually no reason to use #1 over any of the others.

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It's not true that #1 should never be used. It is the only way to change the cell of a List that pass, although the time complexity (which is not implied with List) must be considered. –  user166390 Dec 5 '10 at 0:39
    
Change the cell? What do you mean? –  Cameron Skinner Dec 5 '10 at 0:40
    
for (int i = 0; i < x.size(); i++) { x.set(i, i * 2); } Granted that's a silly example and in many cases just creating a new List is better. Also, it might be more appropriate to restrict to ArrayList in such cases. But it is a counter to never. –  user166390 Dec 5 '10 at 0:41
    
+1 For mentioning the potential complexity though :-) –  user166390 Dec 5 '10 at 0:43
    
Right. Fair enough. Although I'd still suggest using a ListIterator and it's set method in preference. Then it will still efficiently work with non-random-access lists. –  Cameron Skinner Dec 5 '10 at 0:44

In response to this comment from the OP.

However, #1 is required when updating (if not just mutating the current item or building the results as a new list) and comes with the index. Since the List<> is an ArrayList<> in this case, the get() (and size()) is O(1), but that isn't the same for all List-contract types.

Lets look at these issues:

It is certainly true that get(int) is not O(1) for all implementations of the List contract. However, AFAIK, size() is O(1) for all List implementations in java.util. But you are correct that #1 is suboptimal for many List implementations. Indeed, for lists like LinkedList where get(int) is O(N), the #1 approach results in a O(N^2) list iteration.

In the ArrayList case, it is a simple matter to manually hoist the call to size(), assigning it to a (final) local variable. With this optimization, the #1 code is significantly faster than the other cases ... for ArrayLists.

Your point about changing the list while iterating the elements raises a number of issues:

  • If you do this with a solution that explicitly or implicitly uses iterators, then depending on the list class you may get ConcurrentModificationExceptions. If you use one of the concurrent collection classes, you won't get the exception, but the javadocs state that the iterator won't necessarily return all of the list elements.

  • If you do this using the #1 code (as is) then, you have a problem. If the modification is performed by the same thread, you need to adjust the index variable to avoid missing entries, or returning them twice. Even if you get everything right, a list entry concurrently inserted before the current position won't show up.

  • If the modification in the #1 case is performed by a different thread, it hard to synchronize properly. The core problem is that get(int) and size() are separate operations. Even if they are individually synchronized, there is nothing to stop the other thread from modifying the list between a size and get call.

In short, iterating a list that is being concurrently modified is tricky, and should be avoided ... unless you really know what you are doing.

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#0 is the most readable one. It and #2 and #3 all compile down to the almost the byte-code, and have the same performance. But readility counts.

The comments below pretty much coverf #1. I'll say it briefly: it is pretty much the least readable one.

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And what about #1? –  Michaël Dec 5 '10 at 0:14
    
#1 is performance effective when you are using ArrayList only. Before using it you have to ask yourself question: "do I really need indexes?" –  Petro Semeniuk Dec 5 '10 at 0:16
    
#1 will obviously use different bytecode, because it grabs elements of the array by incrementing an int and passing the results to the get method of the String, whereas the others create an iterator for the string and call its next method. Repeatedly using get is slow for any container that doesn't use an array for its backing storage (i.e. ArrayList), since you "forget your place" in the list and have to search from the beginning again each time. –  Karl Knechtel Dec 5 '10 at 0:16
    
Maybe not, #2 and #3 almost compile down to the same but the variable scope of it is left hanging in #3. I am not sure what the compiler does but it my treat them differently, especially if it is used again later. –  Andrew White Dec 5 '10 at 0:18
    
You are both right. Depending on the actual usage, and with a bit of luck, JIT can make them the same bytecode. But you are right, it is not the default. Edited to be more precise. –  Daniel Ribeiro Dec 8 '10 at 21:43

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