# Find the minimum element missing from sequence of non-negative integers

I need to find the minimum missing element from a sequence of non-negative integers.

ex: I have: `0 5 10 4 3 1`

``````The missing element is 2.
``````

In above sequence missing elements are 2 6 7 8 9 . The minimum among them is 2 so answer is 2.

Brute force . I will sort the sequence and get the minimum element in nlogn .I am looking for better solution. Any help ?

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Missing with respect to what? Please provide more information. –  Shamim Hafiz Sep 20 '10 at 10:52
Missing wrt to sequence. –  TopCoder Sep 20 '10 at 10:55
@Gunner : I added more explanation for my example. –  TopCoder Sep 20 '10 at 10:57

In ISO C99:

``````unsigned least_absent(unsigned seq_sz, unsigned seq[seq_sz])
{
bool tab[seq_sz];
memset(tab, 0, sizeof(tab));
for(unsigned i=0; i<seq_sz; i++)
if(seq[i] < seq_sz)
tab[seq[i]] = true;
for(unsigned i=0; i<seq_sz; i++)
if(!tab[i])
return i;
return seq_sz;
}
``````

This is O(n) time, O(n) memory.

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Can be done in O(n) with a hash table, which means O(n) additional memory:

1. Insert the numbers to a hash table, done in O(n).
2. Go from zero to the list's maximum, and check whether the number exists. The first number that does not exist is the answer. This is also done in O(n).
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``````list = sort(list)
last_element = list[0]
for(i = 1; i < list.size; ++i){
if(list[i] - last_element > 1)
return last_element + 1 // return the next number after last_element
last_element = list[i]
}
return -1 // return -1 if unable to find a number
``````
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Pseudocode:

``````for(int i = 0 ; i < Int.MAX ; i++)
{
if(i is not in list)
{
return i
}
}
``````

Of course it may be possible to optimise this, but as an initial draft, in order to get your tests passing (you do have tests, right), its a very simple solution, which will give you confidence taht your tests are correct, freeing you up to optimise if needed.

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It will take o(n*2) to find max integer in this case. Is that correct ? –  TopCoder Sep 20 '10 at 10:59
Yup, that looks about right. But my mantra is always 'First make it correct, then, if needed, make it fast' –  PaulJWilliams Sep 20 '10 at 11:00

No need for sorting.

1. Go over the list and find the 2 smallest valuse, which the difference between them is bigger than 1. (O(N)).

2. Print the (least value was found)+1.

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How do you do 1. in O(n) time? –  sth Sep 20 '10 at 11:00
what will be the complexity in this case. nlogn min heap will give me min element. Is that correct ? –  TopCoder Sep 20 '10 at 11:02
I'd be surprised if this were better than a sort. At best I think it would be equivalent. It's not as simple as it sounds because you'd need to keep track of multiple value pairs in case the gap in the lower pair was filed later in the sequence. –  Andrew Cooper Sep 20 '10 at 11:06

Simplest approach I can think of is to sort the list and then look through it for the first gap.

I'm not sure there's anything much simpler. Even if you parse the list somehow without actually sorting it you're going to need to keep track of the gaps you've found along the way and then eliminate them as you go. I think it's probably logically equivalent to a sort algorithm anyway. Could be wrong.

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First sort the elements. Then start finding the numbers in your sequence like:

``````for (int i=0; i<numbers.length; i++) {
if (numbers[i] != i ) {
System.out.println("Missing number is: " + i); break;
}
}
``````
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QuickSort can also be a candidate here for sorting. Or Insertion Sort. –  Faisal Feroz Sep 20 '10 at 11:05
You are assuming that a value cannot appear more than once, in the input sequence. –  barjak Sep 20 '10 at 12:11
in that case the question should specifically specify that :-) –  Faisal Feroz Sep 20 '10 at 12:19
rather - at an interview, you should ask relevant questions or state your assumptions... –  Tony D Sep 20 '10 at 17:02

Pseudocode :

``````a is the array
s is a sorted set (examples : a binary search tree, or a red/black tree)

insert 0 in s
for each v in a
remove v from s
insert v+1 in s

result is min(s)
``````
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Oups, that does't work. {2, 1, 0} yields a bad result... –  barjak Sep 20 '10 at 11:32
1. Sort the array (`O(NlogN)` worst-case for mergesort)
2. Loop from the beginning, until a difference of more than 1 between two adjacent elements is encountered. (`O(N)` worst-case)
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