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# Find the first “missing” number in a sorted list

Let's say I have the continuous range of integers `[0, 1, 2, 4, 6]`, in which the `3` is the first "missing" number. I need an algorithm to find this first "hole". Since the range is very large (containing perhaps `2^32` entries), efficiency is important. The range of numbers is stored on disk; space efficiency is also a main concern.

What's the best time and space efficient algorithm?

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When I saw "hole" I thought you had misspelled "whole". – Mark Byers Jul 8 '12 at 19:13
Why do you need a binary search? Just iterate with an incrmenting counter; as soon as you get a mismatch, you've found your missing number. – Oliver Charlesworth Jul 8 '12 at 19:14
Similar question: stackoverflow.com/questions/11367088/… – biziclop Jul 8 '12 at 19:16

## 9 Answers

Use binary search. If a range of numbers has no hole, then the difference between the end and start of the range will also be the number of entries in the range.

You can therefore begin with the entire list of numbers, and chop off either the first or second half based on whether the first half has a gap. Eventually you will come to a range with two entries with a hole in the middle.

The time complexity of this is `O(log N)`. Contrast to a linear scan, whose worst case is `O(N)`.

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This works in the case where there's only 1 missing number, but does it generalise? – Oliver Charlesworth Jul 8 '12 at 19:18
Sure; if `l[end] - l[start]` is not equal to `end - start`, then the difference is the number of gaps. By using "does the first half contain a gap" as the predicate you binary search on, you will narrow in on only the first one. – phs Jul 8 '12 at 19:31
Yes, you're right! +1 then. – Oliver Charlesworth Jul 8 '12 at 19:34

Based on the approach suggested by @phs above, here's the C code to do that:-

``````int find_missing_num_bs (int arr[], int len)
{
int i = 0;
int first,middle,last;

first = 0;
last = len-1;
middle = (first+last)/2;

while (first < last) {
if ((arr[middle]-arr[first]) != (middle - first)) {
/* there is a hole in the first half */
if ((middle-first) == 1 && (arr[middle]-arr[first] > 1)) {
return (arr[middle]-1);
}
last = middle;
}
else if ((arr[last]-arr[middle]) != (last-middle)) {
/* there is a hole in the second half */
if ((last-middle) == 1 && (arr[last]-arr[middle] > 1)) {
return (arr[middle]+1);
}
first = middle;
}
else
return -1;

middle = (first+last)/2;
}

/* there is no hole */
return -1;
}
``````
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Since numbers from 0 to n - 1 are sorted in an array, the first numbers should be same as their indexes. That's to say, the number 0 is located at the cell with index 0, the number 1 is located at the cell with index 1, and so on. If the missing number is denoted as m. Numbers less then m are located at cells with indexes same as values.

The number m + 1 is located at a cell with index m, The number m + 2 is located at a cell with index m + 1, and so on. We can see that, the missing number m is the first cell whose value is not identical to its value.

Therefore, it is required to search in an array to find the first cell whose value is not identical to its value. Since the array is sorted, we could find it in O(lg n) time based on the binary search algorithm as implemented below:

``````int getOnceNumber_sorted(int[] numbers)
{
int length = numbers.length
int left = 0;
int right = length - 1;
while(left <= right)
{
int middle = (right + left) >> 1;
if(numbers[middle] != middle)
{
if(middle == 0 || numbers[middle - 1] == middle - 1)
return middle;
right = middle - 1;
}
else
left = middle + 1;
}

return -1;
}
``````

This solution is borrowed from my blog: http://codercareer.blogspot.com/2013/02/no-37-missing-number-in-array.html.

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Based on algorithm provided by @phs

``````int findFirstMissing(int array[], int start , int end){

if(end<=start+1){
return start+1;
}
else{

int mid = start + (end-start)/2;

if((array[mid] - array[start]) != (mid-start))
return findFirstMissing(array, start, mid);
else
return findFirstMissing(array, mid+1, end);

}
}
``````
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Have you considered a run-length encoding? That is, you encode the first number as well as the count of numbers that follow it consecutively. Not only can you represent the numbers used very efficiently this way, the first hole will be at the end of the first run-length encoded segment.

To illustrate with your example:

``````[0, 1, 2, 4, 6]
``````

Would be encoded as:

``````[0:3, 4:1, 6:1]
``````

Where x:y means there is a set of numbers consecutively starting at x for y numbers in a row. This tells us immediately that the first gap is at location 3. Note, however, that this will be much more efficient when the assigned addresses are clustered together, not randomly dispersed throughout the range.

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if the list is sorted, I'd iterate over the list and do something like this Python code:

``````missing = []
check = 0
for n in numbers:
if n > check:
# all the numbers in [check, n) were not present
missing += range(check, n)
check = n + 1

# now we account for any missing numbers after the last element of numbers
if check < MAX:
missing += range(check, MAX + 1)
``````

if lots of numbers are missing, you might want to use @Nathan's run-length encoding suggestion for the `missing` list.

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``````Array: [1,2,3,4,5,6,8,9]
Index: [0,1,2,3,4,5,6,7]

int findMissingEmementIndex(int a[], int start, int end)
{
int mid = (start + end)/2;

if( Math.abs(a[mid] - a[start]) != Math.abs(mid - start) ){

if(  Math.abs(mid - start) == 1 && Math.abs(a[mid] - a[start])!=1 ){
return start +1;
}
else{
return findMissingElmementIndex(a,start,mid);
}

}
else if( a[mid] - a[end] != end - start){

if(  Math.abs(end - mid) ==1 && Math.abs(a[end] - a[mid])!=1 ){
return mid +1;
}
else{
return findMissingElmementIndex(a,mid,end);
}
}
else{
return No_Problem;
}
}
``````
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i got one algorithm for finding the missing number in the sorted list. its complexity is logN.

``````        public int execute2(int[] array) {
int diff = Math.min(array[1]-array[0], array[2]-array[1]);
int min = 0, max = arr.length-1;
boolean missingNum = true;
while(min<max) {
int mid = (min + max) >>> 1;
int leftDiff = array[mid] - array[min];
if(leftDiff > diff * (mid - min)) {
if(mid-min == 1)
return (array[mid] + array[min])/2;
max = mid;
missingNum = false;
continue;
}
int rightDiff = array[max] - array[mid];
if(rightDiff > diff * (max - mid)) {
if(max-mid == 1)
return (array[max] + array[mid])/2;
min = mid;
missingNum = false;
continue;
}
if(missingNum)
break;
}
return -1;
}
``````
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I see the code - can you describe what it does? There have been eight older answers: which is most similar, and how does yours differ? – greybeard Mar 27 at 8:59
I posted this algo bcz the above solutions were not coming out of loop. I tried it.. if your series do not have any missing numbers the while loop will continue to run.. that's y i put that missingNum switch .. to break out of the while loop... – Vrajendra Singh Mandloi Mar 27 at 10:32

Missing

``````Number=(1/2)(n)(n+1)-(Sum of all elements in the array)
``````

Here `n` is the size of `array+1`.

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