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As the title says, I am trying to add a list of integers using the functional programming paradigm. So, no mutation at all. This is a homework assignment, and the method definition has been set by my professor, and that is part of why I am stuck, this is what I have so far:

public static Integer sum(final List<Integer> values) {
     if(values.size() == 1) {
             return values.get(0);
     else {
             List<Integer> tempList;
             tempList = values.subList(0, values.size() - 1);
             return sum(tempList);

I can only return a List, and cannot modify it in any way after its creation, and have no access to a constructor due to the generic List being used. I may be going about this in the wrong way, I'm trying to think of a way to add the last two values in the list and place that sum in the last spot of a new list that is one index shorter. If you see a better way to do this or can push me toward the answer I would appreciate it, its homework so not looking for a completed code block. Thanks in advance.

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Do you have to use recursion? If not, see the reply by Bohemian. It is the most logical solution. – farfareast Nov 28 '12 at 19:21
Yes, I must use recursion. – Jake Sellers Nov 28 '12 at 19:25
Note that your code will cause an exception for empty lists. Usually the sum function is defined with the empty list as the base case - not lists of size 1. – sepp2k Nov 28 '12 at 19:36
up vote 4 down vote accepted

Your else branch should include the first number in the list. Besides, you should fix the second argument in your call to List.sublist. The two parameters of List.sublist(fromIndex, toIndex) specify a sublist. fromIndex in inclusive but toIndex is exclusive.

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Didn't he say he was not looking for a completed code block? :) – NPE Nov 28 '12 at 19:17
Good call! I updated the answer. – reprogrammer Nov 28 '12 at 19:20
(+1) Nice hints. My only comments is that "the first number" isn't quite consistent with the code he already has (should be the last). – NPE Nov 28 '12 at 19:22
repro, I got a look at your code for about 2 seconds before you edited it heh. Two questions: what does sum(list) do and can you be a little more specific on what is wrong with my sublist? Thanks. – Jake Sellers Nov 28 '12 at 19:23
@JakeSellers If you really want to look at his code, the full revision history of his answer is here: – Colin D Nov 28 '12 at 19:25


Oh I see - you want a recursive solution. Try this one-liner, which technically doesn't even use an if statement:

public static Integer sum(final List<Integer> values) {
     return values.isEmpty() ? 0 : values.get(0) + sum(subList(1, values.size());

this would probably get you a score of 9/10. For full marks, you would need to add null safety:

public static Integer sum(final List<Integer> values) {
     return values == null || values.isEmpty() ? 0 : values.get(0) + sum(subList(1, values.size());

Full disclosure, previously I had this:

You have too much code!

public static Integer sum(final List<Integer> values) {
     int total = 0;
     for (int i : values) {
         total += i;
     return total;

fyi, auto-boxing converts smoothly between int and Integer

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I didn't vote either way, but he did say using the functional programming paradigm. I don't think a for loop counts. :) – NPE Nov 28 '12 at 19:21
You're using a mutable variable in your code (total). That is not what was asked for. – sepp2k Nov 28 '12 at 19:21
Yes, all assignment statements and loops are invalid. – Jake Sellers Nov 28 '12 at 19:24
@NPE i see... so edited – Bohemian Nov 28 '12 at 19:28
Thank you very much for the help, very elegant code. :) – Jake Sellers Nov 28 '12 at 19:38

Your original answer is very close.

Hint: You're getting a sublist that consists of the original list minus the last element, but you just throw that last element away - you never use it's value. Perhaps it should be somewhere included in the sum of the sublist? (answer = yes)

Also, I'd probably throw in at the top of the method:

if (values == null || values.isEmpty())
  return null;
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The sum of an empty list of integers is traditionally known as 0, rather than null. Nulls cause enough problems without returning them for perfectly well-specified input values. – Ben Nov 28 '12 at 22:33
I might be convinced that an empty list would return 0 (although not yet convinced), I certainly wouldn't return 0 for a null list. Either returning null or throwing an IAE would likely be better. – splungebob Nov 29 '12 at 14:19
The empty sum is 0. If you think of multiplication as repeated addition, 3 * x is x + x + x. So adding together 0 xs should correspond to 0 * x. Similarly the empty product is 1 (x^0 = 1), the empty disjunction (|| a list of booleans) is false, and the empty conjunction (&& a list of booleans) is true. Something as generic as a sum operation really ought to be consistent with the standard mathematical definition of sum. I agree that null is not an empty list, but rather an ill-defined one, and doesn't have a well-defined sum. – Ben Nov 29 '12 at 20:25

Adding a list in Haskell, as a way to see the obvious solutions. sum is a foldr with addition:

 sum xs = foldr (+) 0 xs

Inline foldr

 sum xs = go (+) 0 xs
         go _ z []     =  z
         go f z (x:xs) =  f x (go f z xs)

Specialize to (+)

 sum xs = go xs
         go []     = 0
         go (x:xs) = x + (go xs)

Inline go to get our final answer:

 sum []     = 0
 sum (x:xs) = x + sum xs

so that's the basic recursive solution. It works just as well for empty lists or lists with one or more elements. You can translate it directly to Java (my Java is super rusty):

 public static Integer sum(final List<Integer> xs) {
     if(xs.size() == 0) {
         return 0;
     } else {
         return xs.get(0) + sum(subList(1, xs.size());
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