-1

I was just doing a warm up, and I stumbled upon this:

http://codingbat.com/prob/p145416

The difference between the three methods is how I add to the start parameter in the recursive calls.

I initially solved it with the second function listed, however it gave me the notorious stackoverflow error. The first one does not give me a stackoverflow error. Is there something wrong with this site, or is there a difference 1 and 2 i.e. a subtle piece of the Java language?

public boolean groupSum(int start, int[] nums, int target) {
    if (start >= nums.length) 
        return (target == 0);

    return groupSum(start+1, nums, target - nums[start]) || groupSum(start+1,      
       nums, target);
}

------------ These cause stack over flow errors --------------

public boolean groupSum(int start, int[] nums, int target) {
    if (start >= nums.length) 
        return (target == 0);

    return groupSum(start++, nums, target - nums[start]) || groupSum(start++,      
       nums, target);
}

public boolean groupSum(int start, int[] nums, int target) {
    if (start >= nums.length) 
        return (target == 0);

    return groupSum(++start, nums, target - nums[start]) || groupSum(++start,      
       nums, target);
}
5
  • There's nothing mysterious a stackoverflow error, it just means that your recursive method never stopped. Why? Probably for a wrong design of the base case. Also, please don't say this only happens in Java, it could happen on other programming languages as well. May 31, 2013 at 5:52
  • Also I realize how inane these functions are since they have a complexity of O(2^n). I am doing a warm up for an interview and need practice with recursion.
    – LLL
    May 31, 2013 at 5:52
  • All three functions have the same base case. They only differ in how I add to start. I will clarify the question.
    – LLL
    May 31, 2013 at 5:53
  • Something to do with postincrement operator getting evaluated after the statement is completed?
    – midhunhk
    May 31, 2013 at 5:53
  • Hey, you can delete it yourself..
    – Mordechai
    May 31, 2013 at 6:15

2 Answers 2

4

This is a notoriously subtle bug. Take a look at this recursive call:

groupSum(start++, nums, target - nums[start])

Notice that you are passing start++ as the first parameter. This uses the postfix ++ operator, which does the following:

  • Increment start, then
  • Return the value that start used to have.

In other words, this will update the local copy of start to be start + 1, then pass the old value of start into the recursive call. This means that start never changes from call to call, so the base case never triggers, hence the stack overflow. You can confirm this by putting a System.out.println statement at the top of your function.

There may be other issues here, but I suspect this is your culprit.

Hope this helps!

6
  • This doesn't explain why it fails on ++start :)
    – LLL
    May 31, 2013 at 5:58
  • @LuiggiMendoza Not true. ++start returns start+1 so it should not recurse infinitely.
    – Patashu
    May 31, 2013 at 5:58
  • @Patashu you're right. Now evaluating the cause of ++start giving a SOE. May 31, 2013 at 6:00
  • @Luiggi Mendoza It won't and it can't, try it yourself.
    – Patashu
    May 31, 2013 at 6:01
  • 2
    @Patashu its supposed to not throw SOE (no need to try it in code btw). The problem is of other kind: ArrayIndexOutOfBoundsException, and this really seems ok because you use ++start and the you evaluate nums[start] just after start has increased its value on 1. I'm just very tired (1 a.m. here) and not thinking clearly. May 31, 2013 at 6:03
1

++start (known as pre-increment) evaluates to start+1. start++ (known as post-increment, as in the increment is done AFTER evaluation) evaluates to start. Both of them set the value in the variable to start+1 as a side-effect of evaluation. So, when you do start++ you pass start to the next call of the method, which passes start to the next call of the method... you never reach the base case and you recurse infinitely.

8
  • Using ++start also causes a stackoverflow. I thought the same thing initially. It may just be a bug on the site.
    – LLL
    May 31, 2013 at 5:55
  • @LLL I don't believe it. (I also don't believe it could be a bug on the site. It would be using the same compiler as you.)
    – Patashu
    May 31, 2013 at 5:56
  • I gave you the link to the site ;) I am really good at finding bugs. It is a curse.
    – LLL
    May 31, 2013 at 5:57
  • @LLL In my experience 'being really good at finding bugs' means 'really good at accidentally typing something other than what they came up with in their head and not realizing what happened'. Unless you're working with someone else's buggy code, expect compilers to work, well tested widely used libraries to just work, etc.
    – Patashu
    May 31, 2013 at 5:58
  • I agree with some of what you said, and that's why I am on here. This is a bit perplexing. The creator of the site could be using an old version of Java.
    – LLL
    May 31, 2013 at 6:03

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