# How can I check that a sequence of indices of type int are contiguous?

I have a Column class which has an Index property of type int.

If I have a collection of Column objects, I am looking for a way to test if their indices are contiguous. By contiguous I mean that the indices are next to each other, so if ordered by value they are 1 apart from the next and previous Index.

There can be any number of column objects.

So, for example:

• 10,11,12,13 => true

• 3,5,7 => false

• 1,2,4 => false

## Edit

While these examples are of ordered indices, I would like a solution that takes an unordered set of indices.

I feel sure there is probably a neat Linq way of solving this, but I cannot see it.

Expressed in code:

public class Column
{
public int Index { get; set; }
}

class Program
{
static void Main(string[] args)
{
// Example set of columns 1
List<Column> columns1 = new List<Column>()
{
new Column(){Index = 10},
new Column(){Index = 11},
new Column(){Index = 12},
new Column(){Index = 13},
};

// Example set of columns 2
List<Column> columns2 = new List<Column>()
{
new Column(){Index = 3},
new Column(){Index = 5},
new Column(){Index = 7},
};

// Example set of columns 3
List<Column> columns3 = new List<Column>()
{
new Column(){Index = 1},
new Column(){Index = 2},
new Column(){Index = 4},
};

var result1 = IndicesAreContiguos(columns1); // => true
var result2 = IndicesAreContiguos(columns2); // => false
var result3 = IndicesAreContiguos(columns3); // => false
}

public bool IndicesAreContiguos(IEnumerable<Column> columns)
{
// ....???
}

}

• "ordered by value they are 1 apart from the next and previous Index." - that sounds like you know how to do it already. – Enigmativity Mar 26 at 5:42
• @Enigmativity Sorry, perhaps I should have been a bit more specific. I appreciate that I could write some long, pedestrian code which might do the job, but I was looking for a more succinct solution. – Cleve Mar 26 at 5:51
• Why did you tag [morelinq]? – Enigmativity Mar 26 at 5:54
• All your examples are already ordered. You should probably be more specific about the expected output for e.g. 1,3,2 – Jonas Høgh Mar 26 at 5:59
• @Cleve, just updated another solution, let me know what you think ;) – Clint Mar 26 at 6:30

Give this a go:

public static bool IndicesAreContiguos(IEnumerable<Column> columns)
{
var ordered = columns.Select(x => x.Index).OrderBy(x => x).ToArray();
return ordered.Skip(1).Zip(ordered, (x, y) => x - y).All(z => z == 1);
}


This is literally "ordered by value they are 1 apart from the next and previous Index."

• Really like this! Thanks for your help. – Cleve Mar 26 at 6:20
• it's a good solution, but there are caveats. Index will have to be unique for this to work; and it does a sort, so it disregards the order of the passed columns. – Brett Caswell Mar 26 at 6:39
• Also be aware that ToArray will mean a much higher memory consumption than a for loop for large inputs. – Jonas Høgh Mar 26 at 7:01
• @JonasHøgh - Yes, but your comparing two different parts of the computation here. The .ToArray() is only there to ensure the computation of the OrderBy only occurs once. Without it we're forced to sort the list twice. And possibly worse, two different iterations of the source might return different numbers. This algorithm relies on the input being stable. The .ToArray() doesn't replace the foreach in the non-LINQ approach. That's the job of the .Zip operator. – Enigmativity Mar 26 at 8:25
• @JonasHøgh - All good points. I'd rather take the .ToArray hit on the OrderBy. But overall I like Fabio's answer the best. – Enigmativity Mar 26 at 10:37

With math you can create a function which will handle unordered collections with only one iteration over collection.

public static bool IsConsecutive(this IEnumerable<int> values)
{
return values
.Aggregate((Sum: 0, Min: int.MaxValue, Max: int.MinValue, Count: 0),
(total, value) =>
{
total.Count += 1;
total.Sum += value;
total.Min = total.Min > value ? value : total.Min;
total.Max = total.Max < value ? value : total.Max;

},
(total) =>
{
var difference = total.Max - total.Min + 1;
var expectedSum = (total.Count * (total.Min + total.Max)) / 2;

return difference == total.Count && expectedSum == total.Sum;
});
}


Solution is based on the formula of sum of consecutive integers (Gauss's Formula) But because formula can be applied for consecutive integers with step other than 1 (for example 2, 4, 6, 8), we added check that step is only one by calculating difference between min and max values and comparing it with the quantity of values.

Usage

var values = new[] { 10, 12, 13, 15, 14, 11 };

if (values.IsConsecutive())
{
// Do something
}

• With loops you can create a function that is 4 lines long and iterate the collection only once! This is neat, but could maybe do with some comments so the next guy can understand it ;) – Caius Jard Mar 26 at 7:12
• @CaiusJard, feel free to rewrite it with the loop. It will not change an end result. – Fabio Mar 26 at 7:14
• it's a good answer to include.. remember the upvote is used by the community reflect on support of these answers - it's reasonable to include distinctive alternatives that may not appear desirable. – Brett Caswell Mar 26 at 7:18
• I'll point out that one can pass in the delegates to the aggregate function.. there is an appeal to it over using loops as a control flow. – Brett Caswell Mar 26 at 7:19
• Very nice answer, @Fabio. – Enigmativity Mar 26 at 8:27

You don't need LINQ for this

public bool IsContig(int[] arr) {
for(int i = 1; i<arr.Length;i++)
if(arr[i] - arr[i-1] != 1)
return false;
return true;
}


LINQ is a hammer, but not every problem is a nail

(Edit: to accept an unordered set of indices, then consider a modification that sorts the array first. Again, LINQ isn't necessary; Array.Sort would work)

If a sequence of 1,2,3,2,3,2,3,4,3,2,3,4,5,4,5 is contiguous, improve the IF to allow for a result of -1 too

• "it does make it harder to understand the code" - I almost always find it the other way around. The non-LINQ solution you posted is more obtuse to me. – Enigmativity Mar 26 at 6:53
• Also, the LINQ solution that you provided is different from the implementation of your IsContig method. This LINQ solution, ordered.Skip(1).Zip(ordered, (x, y) => x - y).All(z => z == 1), is pretty much the equivalent of your IsContig - it also short-circuits on the first failing indice pair. – Enigmativity Mar 26 at 6:55
• Your claim that this loops appraoch is "Pretty much equivalent" to yours is nowhere near; one uses simple loops that a freshman who's halfway through coding 101 could understand; the other will have that same freshman reaching for google/so wondering what they heck it's doing. I appreciate that you're talking about "under the hood" but on the surface, my advice remains: go for the simple solution, not the perfect one; one day it won't be you maintaining this code – Caius Jard Mar 26 at 7:07
• I still say that the LINQ approach is the simple solution. To roll your own is like suggesting that baking your own bread is the simple solution compared to buying a loaf at the supermarket. – Enigmativity Mar 26 at 8:22
• @CaiusJard that's only true because some barbarian decided to teach coding 101 in an imperative language ;) – Jonas Høgh Mar 26 at 9:35

One way would be to create a range from min to max and compare that to the existing indices:

public static bool IndicesAreContiguos(IEnumerable<Column> columns)
{
var orderedIndices = columns.Select(c => c.Index).OrderBy(i => i);
if (orderedIndices.Distinct().Count() != columns.Count()) return false;  // Optional.

int min = columns.Min(c => c.Index);
int max = columns.Max(c => c.Index);

return Enumerable.Range(min, max - min + 1).SequenceEqual(orderedIndices);
}

• What happens if the input wasn't already ordered? – Enigmativity Mar 26 at 5:53
• @Enigmativity I'm using DistinctBy because if the list contains duplicates, there's no need to create the range and compare the sequence. "what happens if the input wasn't already ordered?" I could've sworn that I added an OrderBy. Fixed! – Ahmed Abdelhameed Mar 26 at 5:57
• It's nicer, but now you're sorting twice and iterating the original sequence a minimum of twice and a maximum of 5 times. – Enigmativity Mar 26 at 6:59