From the book: Effective Java (2nd Edition) by Joshua Bloch
The for-each loop, introduced in release 1.5, gets rid of the clutter and the opportunity for error by hiding the iterator or index
variable completely. The resulting idiom applies equally to
collections and arrays:
// The preferred idiom for iterating over collections and arrays
for (Element e : elements) {
doSomething(e);
}
When you see the colon (:), read it as “in.” Thus, the loop above reads as “for each element e in elements.” Note that there is no
performance penalty for using the for-each loop, even for arrays. In
fact, it may offer a slight performance advantage over an ordinary for
loop in some circumstances, as it computes the limit of the array
index only once. While you can do this by hand (Item 45), programmers
don’t always do so.
Here is a comparison from http://developer.android.com/training/articles/perf-tips.html#Loops:
static class Foo {
int mSplat;
}
Foo[] mArray = ...
public void zero() {
int sum = 0;
for (int i = 0; i < mArray.length; ++i) {
sum += mArray[i].mSplat;
}
}
public void one() {
int sum = 0;
Foo[] localArray = mArray;
int len = localArray.length;
for (int i = 0; i < len; ++i) {
sum += localArray[i].mSplat;
}
}
public void two() {
int sum = 0;
for (Foo a : mArray) {
sum += a.mSplat;
}
}
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.
one() is faster. It pulls everything out into local variables,
avoiding the lookups. Only the array length offers a performance
benefit.
two() is fastest for devices without a JIT, and indistinguishable from
one() for devices with a JIT. It uses the enhanced for loop syntax
introduced in version 1.5 of the Java programming language.
So, you should use the enhanced for loop by default, but consider a
hand-written counted loop for performance-critical ArrayList
iteration.
