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Which of these is more efficient? :

ArrayList<Integer> list = new ArrayList<Integer>();
for(int a : list){
   log.i(tag, a + "");
}

SparseIntArray list2 = new SparseIntArray();
int count = list2.size();
for(int j = 0; j < count; j++) {
   log.i(tag, list2.get(j) + "");
}

Or, is there a faster way to read the contents of the list?

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1  
check this: developer.android.com/guide/practices/design/… –  idiottiger Mar 13 '12 at 3:20
2  
Would the second one even work if there are gaps between indexes? The docs say list2.size() returns the number of key/value pairs, not the highest index. Meaning, if your map had two entries ({100=>100, 200=>200}), wouldn't you never see them...? –  cHao Mar 13 '12 at 3:21
    
@cHao correct, it will not necessarily iterate over all the values (unless previous code was written that way, which is not enforceable), and additionally, any missing keys in range will just return 0, meaning log.i(tag, "0") may be called a lot. –  Chet Mar 13 '12 at 3:34
    
@cHao , i know , just a example , i default it is no gaps inside –  rex Mar 13 '12 at 4:27
    
@Chet, yeah .i know if the size is the highest value , it will call too much –  rex Mar 13 '12 at 4:28
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3 Answers

up vote 14 down vote accepted

Efficiency, in this case, is irrelevant, since those two do completely different things.

I think you realize that your ArrayList example iterates through all the elements of the array-list.

What you don't realize is that your SparseIntArray example does not iterate through all the elements of the sparse-integer-array, because the keys of a sparse-integer-array do not range from zero to array-size-minus-one. Rather, its keys are arbitrary integers. A sparse-integer-array has as much in common, interface-wise, with HashMap<Integer, Integer> as with ArrayList<Integer>.

(This, by the way, relates to a general rule of software design: it is better for your code to be correct than efficient. You can always take correct, clean code and find ways to improve its performance; but it's very hard to take fast, buggy code and find ways to make it correct.)

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+1 for answering first and mentioning similarity with HashMap. –  Chet Mar 13 '12 at 3:26
1  
+1 for the beautiful quotation about correct>efficient code. –  Josephus Villarey Mar 13 '12 at 3:42
    
@ruakh , i think so , thanks for your comment , i think in my case use arraylist as normal is better . –  rex Mar 13 '12 at 4:40
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SparseIntArrays map integers to integers. Unlike a normal array of integers, there can be gaps in the indices. It is intended to be more efficient than using a HashMap to map Integers to Integers.

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For-each loops like your first example are almost always preferable when you don't need an index variable for other reasons.

Edit: ArrayLists would iterate more efficiently (in your example, repeatedly calling "get") than SparseIntArray because lookups are constant time as opposed to logarithmic time. This will depend a bit on your use case though--if your keys are sparse then SparseIntArray will save you a lot of memory space.

I would point out that the SparseIntArray can have gaps in the indicies, meaning that looping over every value between 0 and Size is not only inefficient, but it will also return 0 for every missing index, which is probably not your intended behavior.

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Actually, a lookup in SparseIntArray requires logarithmic time, since it uses binary search. And for every "missing index" inside the range [0, size), there is an extra index outside that range, that the loop will never reach, because size is the number of elements, rather than being related to the greatest index in the array. (See developer.android.com/reference/android/util/…, java2s.com/Open-Source/Android/android-core/…) –  ruakh Mar 13 '12 at 3:45
    
@ruakh oh , thanks , i just miss that point , thank you very much XD . –  rex Mar 13 '12 at 4:41
    
@ruakh Very interesting. I had only guessed at implementation. Considering SparseIntArray is supposed to be more efficient than HashMap, but it actually has higher algorithmic time. –  Chet Mar 13 '12 at 11:56
1  
It has higher algorithmic time, but much less overhead (no boxing and unboxing of int to Integer, no series of calculations to distribute hash-codes properly, and so on). So while there's necessarily some size above which a HashMap<Integer, Integer> will perform better, I'd expect SparseIntArray to be faster up to (if I may make a random guess) somewhere between 100 and 2000 elements. This also depends, of course, on how the map is used. Modifications of a SparseIntArray are comparatively quite expensive (since they involve insertion into a sorted array), while conversely, iteration –  ruakh Mar 13 '12 at 12:10
    
over a SparseIntArray is inherently cheaper (since the elements are densely packed into arrays). –  ruakh Mar 13 '12 at 12:11
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