# Checking a series of numbers for consistency

I maintain an array of integers. It is important that at all times the integers in this array are in sequence from 0. For example, if there are 5 integers in the array, their values must be 0, 1, 2, 3, 4 (though in any order).

I would like to design a simple, efficient method that checks this. It will return true if the array contains all positive integers in sequence from 0 to array.count - 1.

I would love to hear some different ideas for handling this!

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If you need to be sure, you can't do any better than going through each element in the array and checking. So just count from 0 to the array's length minus one, and check that what's in position `i` of the array is in fact the value `i`. (The only "optimization" there is is to return false whenever you encounter an element that's not what it should be, instead of continuing the count). Edit: Oh and, Mathias makes a good point: What's the point of keeping this array anyway? You know well how to compute every natural number below `n`, so why keep them all stored? – gspr Mar 25 '12 at 17:17
What do you use the array for? Wouldn't it be easier to maintain the upper bound of the array, and iterate over integers? – Mathias Mar 25 '12 at 17:19
I use the array to populate a tableview. The numbers are sort orders. I drop items in and out of sections in different ways, and just want a method that ensures I am setting the sort orders correctly, so that after I move an item in/out of a section, there are no gaps etc. I will post what I am currently doing - I think it fits with your suggestions. Was just wondering if there was a craftier way (I was looking at summing the numbers and comparing to a fibonacci sequence for example - probably wouldn't be as efficient but might be fun). – Ben Packard Mar 25 '12 at 18:15
@gspr - I don't care much about the order, so I am using containsObject rather than objectForIndex – Ben Packard Mar 25 '12 at 18:22

This isn't too different from your itemsSequencedCorrectlyInSet: method, but it uses a mutable index set which will be faster than doing -[NSSet containsObject:]. Probably not an issue until you've got thousands of table rows. Anyway, the key insight here is that the Pigeonhole Principle says if you've got N integers less than N and none is duplicated, then you have each of 0...N-1 exactly once.

``````-(BOOL)listIsValid:(NSArray*)list
{
NSMutableIndexSet* seen = [NSMutableIndexSet indexSet];

for ( NSNumber* number in list )
{
NSUInteger n = [number unsignedIntegerValue];

if ( n >= [array count] || [seen containsIndex:n] )
return NO;

}

return YES;
}
``````
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Since I mentioned 'efficient' in my question, and this seems the most pragmatic, I'll go with it. Thanks! – Ben Packard Mar 26 '12 at 19:05

Or, given the integers `[0..N-1]` if you raise 2 to the power of each in turn the sum will be `-1+2^N`. This is not a property that any other set of N integers has.

I offer this as an alternative, making no claim about suitability, performance or efficiency, and I recognise that there will be problems as N gets large.

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That's the spirit - how cool, thanks :) – Ben Packard Mar 25 '12 at 19:23
@GregS: right ! And I've corrected my shoddy answer. – High Performance Mark Mar 25 '12 at 19:52

Basically what you want to test is if your array is a permutation of `[0...n-1]`. There are easy algorithms for this that are `O(n)` in both time and memory. See for example this PDF file.

Sometimes I use a very simple check that is `O(n)` in time and `O(1)` in memory. It can in theory return false positives, but it is a good way to find most mistakes. It is based on the following facts:

``````0 + 1 + 2 + ... + n-1 == n * (n-1) / 2
0 + 1² + 2² + ... + (n-1)² == n * (n-1) * (2 * n - 1) / 6
``````

I don't know objective-c, but the code would look like this in C#:

``````bool IsPermutation(int[] array)
{
long length = array.Length;
long total1 = 0;
long total2 = 0;

for (int i = 0; i<length; i++)
{
total1 += array[i];
total2 += (long)array[i] * array[i];
}

return
2 * total1 == length * (length - 1) &&
6 * total2 == length * (length - 1) * (2 * length - 1);
}
``````
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Here's my current implementation (testSet is a set of NSNumbers) -

``````    - (BOOL)itemsSequencedCorrectlyInSet:(NSSet *)testSet{
for (NSInteger i = 0; i < testSet.count; i++) {
if (![testSet containsObject:[NSNumber numberWithInteger:i]]) {
return NO;
}
}

return YES;
}
``````
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