# why is enhanced for loop efficient than normal for loop

I read that enhanced for loop is efficient than normal for loop here:

http://developer.android.com/guide/practices/performance.html#foreach

when i searched for the difference between their efficiency, all i found is...in case of normal for loop we need an extra step to find out the length of the array or size etc..,

``````for(Integer i : list){
....
}

int n = list.size();
for(int i=0; i < n; ++i){
....
}
``````

but is this the only reason enhanced for loop is better than normal for loop...in that case better use the normal for loop because of the slight complexity in understanding the enhanced for loop.

check this for an interesting issue: http://www.coderanch.com/t/258147/java-programmer-SCJP/certification/Enhanced-Loop-Vs-Loop

Can any one please explain the internal implementation of these two types of for loops....or explain other reasons to use enhanced for loop

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If you "read something" somewhere, it's best to cite it when possible. –  cheeken Jul 19 '12 at 6:59
i read it here...but there was not any explanation why it is so: developer.android.com/guide/practices/performance.html#foreach –  Archie.bpgc Jul 19 '12 at 7:01
"To summarize: use the enhanced for loop by default, but consider a hand-written counted loop for performance-critical ArrayList iteration." That says the opposite of what you read: For ArrayList, the second alternative is faster. –  Thilo Jul 19 '12 at 7:03
@Archie.bpgc: actually, there is an explanation: "`zero()` is slowest, because the JIT can't yet optimize away the cost of getting the array length once for every iteration through the loop.". That looks like an explanation to me. –  Joachim Sauer Jul 19 '12 at 7:24
leave the zero()...its the worst way of looping...but what about one()?? my question is one() and two() have no difference while looping through arrays(in case of java)...but in android better i use two() even for arrays?? –  Archie.bpgc Jul 19 '12 at 7:30
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It's a bit of an oversimplification to say that the enhanced for loop is more efficient. It can be, but in many cases it's almost exactly the same as an old-school loop.

The first thing to note is that for collections the enhanced for loop uses an `Iterator`, so if you manually iterate over a collection using an `Iterator` then you should have pretty much the same performance than the enhanced for loop.

One place where the enhanced for loop is faster than a naively implemented traditional loop is something like this:

``````LinkedList<Object> list = ...;

// Loop 1:
int size = list.size();
for (int i = 0; i<size; i++) {
Object o = list.get(i);
/// do stuff
}

// Loop 2:
for (Object o : list) {
// do stuff
}

// Loop 3:
Iterator<Object> it = list.iterator();
while (it.hasNext()) {
Object o = it.next();
// do stuff
}
``````

In this case Loop 1 will be slower than both Loop 2 and Loop 3, because it will have to (partially) traverse the list in each iteration to find the element at position `i`. Loop 2 and 3, however will only ever step one element further in the list, due to the use of an `Iterator`. Loop 2 and 3 will also have pretty much the same performance since Loop 3 is pretty much exactly what the compiler will produce when you write the code in Loop 2.

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thank you for such an elegant explanation –  Archie.bpgc Jul 19 '12 at 7:13
@Joachim, the difference, eventually seems to Random access and Serial access of the collection in the example quoted. For an array, both the loop types will behave the same. –  Santosh Jul 19 '12 at 7:21
but in the link here developer.android.com/guide/practices/… gives the example of an Array...so according to you explanation we dont need to use foreach when traversing an array right?? –  Archie.bpgc Jul 19 '12 at 7:21
@Santosh: that's correct. –  Joachim Sauer Jul 19 '12 at 7:22
@Archie.bpgc: first of all: Android is different from "Java". The Dalvik VM is not (yet) as good at optimizing as the HotSpot VM, so there will be some places where performance suggestions for Android differ from "normal" Java. This is one such case. Read the documentation precisely: especially the examples `one`, `two` and `three` will probably be quite similar in performance on a "normal" JVM. –  Joachim Sauer Jul 19 '12 at 7:24

I read that enhanced for loop is efficient than normal for loop.

Actually sometimes its less efficient for the program, but most of the time its exactly the same.

Its more efficient for the developer, which is often far more important

A for-each loop is particularly useful when iterating over a collection.

``````List<String> list =
for(Iterator<String> iter = list.iterator(); list.hasNext(); ) {
String s = list.next();
``````

is more easily written as (but does the same thing as, so its no more efficient for the program)

``````List<String> list =
for(String s: list) {
``````

Using the "old" loop is slightly more efficient when access a randomly accessible collection by index.

``````List<String> list = new ArrayList<String>(); // implements RandomAccess
for(int i=0, len = list.size(); i < len; i++) // doesn't use an Iterator!
``````

Using a for-each loop on a collection always uses an Iterator which is slightly less efficient for random access lists.

AFAIK, use a for-each loop is never more efficient for the program, but like I said the efficiency of the developer is often far more important.

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can you please explain about the implementation (where they differ) or examples of cases in which one is more efficient than the other?? –  Archie.bpgc Jul 19 '12 at 7:00
As someone else points out above, a poorly written old school for loop can be less efficient that the new for-each. So now you know of a case where a for-each loop IS more efficient for the program. –  Uncle Iroh Mar 1 at 5:33
@UncleIroh Using a for-each loop means you are less likely to write something inefficient. However, if you know what you are doing, the byte code for-each generates is exactly the same as you you might write yourself, but is a short hand. From a byte code level there is no way to tell the difference for sure (expect the generated local variable names are a give away). Well written code will be the same in both cases. If you have an ArrayList, an indexed for loop is slightly more efficient than using a for-each, which uses an iterator. –  Peter Lawrey Mar 1 at 17:24

The for-each uses the Iterator interface. I doubt that it is more efficient than the "old" style. The Iterator also needs to check the size of the list.

It should be faster for non-random-access collections like LinkedList, but then the comparison is unfair. You would not have used to second implementation (with slow indexed access) anyway.

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The foreach loop is as efficient as this kind of loop:

``````for (Iterator<Foo> it = list.iterator(); it.hasNext(); ) {
Foo foo = it.next();
...
}
``````

because it's strictly equivalent.

If you iterate through a list using

``````int size = list.size();
for (int i = 0; i < size; i++) {
Foo foo = list.get(i);
...
}
``````

Then the foreach loop will have an equivalent performance as your loop, but only for ArrayList. In case of a LinkedList, your loop will have abysmal performance, because at each iteratioon, it will have to traverse all the nodes of the list until it gets to the `i`th element.

The foreach loop (or the loop based on an iterator, which is the same), doesn't have this problem, since the iterator keeps a reference to the current node and simply goes to the next at each iteration. It's the bast choice, because it works fine with all types of lists. It also expresses the intent more clearly, and is safer because you don't risk to increment the index inside the loop, or use the wrong index in case of nested loops.

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you mean they have the same efficiency but when using loops on linked list or something like that...normal for loop traverses recursively, where as foreach loop traverses iteratively?? –  Archie.bpgc Jul 19 '12 at 7:08
It's not recursive vs. iterative. It's just that the `get()` operation, on a linked list, consists in starting from the first node, and get the next one until index i. It's a O(n) operation rather than O(1) in the case of an ArrayList. Getting the next element from an iterator is always O(1). Whether the list is an ArrayList or a LinkedList doesn't matter: the performance is as good as it can be. –  JB Nizet Jul 19 '12 at 7:14
If you're using `LinkedList` (intensively) then you are likely to have abysmal performance anyway. –  Tom Hawtin - tackline Jul 19 '12 at 7:41