# Merge elements in IEnumarable according to a conditon

I was looking for some fast and efficient method do merge items in array. This is my scenario. The collection is sorted by From. Adjacent element not necessarily differ by 1, that is there can be gaps between the last To and the next From, but they never overlap.

``````var list = new List<Range>();
list.Add(new Range() { From = 0, To = 1, Category = "AB" });
list.Add(new Range() { From = 2, To = 3, Category = "AB" });
list.Add(new Range() { From = 4, To = 5, Category = "AB" });
list.Add(new Range() { From = 6, To = 8, Category = "CD" });
list.Add(new Range() { From = 9, To = 11, Category = "AB" }); // 12 is missing, this is ok
list.Add(new Range() { From = 13, To = 15, Category = "AB" });
``````

I would like the above collection to be merged in such way that the first three (this number can vary, from at least 2 elements to as many as the condition is satisfied) elements become one element. Cannot merge elements with different category.

``````new Range() { From = 0, To = 5, Category = "AB" };
``````

So that the resulting collection would have 4 elements total.

``````0 - 5    AB
6 - 8    CD
9 - 11   AB // no merging here, 12 is missing
13 - 15  AB
``````

I have a very large collection with over 2.000.000 items and I would like to this as efficiently as possible. Any ideas?

Thank you.

-
Is the list already sorted in such a way that adjacent ranges are next to each other and in the right order in the list? –  Ronald Wildenberg Aug 15 '10 at 14:24
And I assume that in your example, the first two ranges can only be merged because they have the same category and a To and From that differ at most 1? If the first range ends at 2 they can not be merged? –  Ronald Wildenberg Aug 15 '10 at 14:36
Correct. Notice number 12 is missing, and the elements are not merged. Also, there can be more consecutive elements to merge, not just only 2. The merging would stop if there's a gap (withing the same category). I added more examples to clarify this in the original code. –  Tomislav Markovski Aug 15 '10 at 14:42
I’m confused. You asked for a solution that is “as efficient as possible” but you accepted the generic, delegate-based solution, which is going to be slower. I would be delighted if you could explain in a comment on my answer why you think it was deficient, so that I can learn for the future. Thanks! –  Timwi Aug 15 '10 at 15:18

Here's a generic, reusable solution rather than an ad hoc, specific solution. (Updated based on comments)

``````IEnumerable<T> Merge<T>(this IEnumerable<T> coll,
Func<T,T,bool> canBeMerged, Func<T,T,T>mergeItems)
{
using(IEnumerator<T> iter = col.GetEnumerator())
{
if (iter.MoveNext())
{
T lhs = iter.Current;
while(iter.MoveNext())
{
T rhs = iter.Current;
if (canBeMerged(lhs, rhs)
lhs=mergeItems(lhs, rhs);
else
{
yield return lhs;
lhs= rhs;
}
}
yield return lhs;
}
}
}
``````

You will have to provide method to determine if the item can be merged, and to merge them. These really should be part of your Range class, so it would be called like them:

``````list.Merge((l,r)=> l.IsFollowedBy(r), (l,r)=> l.CombineWith(r));
``````

If you don't have these method, then you would have to call it like:

``````list.Merge((l,r)=> l.Category==r.Category && l.To +1 == r.From,
(l,r)=> new Range(){From = l.From, To=r.To, Category = l.Category});
``````
-
Nice, general solution. The only problem I have is that you are using `GetEnumerator()` without a `using`... –  Timwi Aug 15 '10 at 14:50
Why was this downvoted? It works, it's generic, and it returns a nice IEnumerable<T> usable in real-time (as the merge is happening.) –  Kirk Woll Aug 15 '10 at 14:52
@Timwi: I'm not sure what you are getting at. `IEnumerator` does not imply `IDisposable`. –  James Curran Aug 15 '10 at 14:57
@James, take a look at all the implementations in class Enumerable. (And take a look at the declaration of IEnumerator<T>: public interface IEnumerator<T> : IDisposable, IEnumerator) –  Kirk Woll Aug 15 '10 at 15:02
@James, `IEnumerator<T>` implements `IDisposable`... check MSDN ;) msdn.microsoft.com/en-us/library/78dfe2yb.aspx –  Thomas Levesque Aug 15 '10 at 15:02

Well, from the statement of the problem I think it is obvious that you cannot avoid iterating through the original collection of 2 million items:

``````var output = new List<Range>();
var currentFrom = list[0].From;
var currentTo = list[0].To;
var currentCategory = list[0].Category;
for (int i = 1; i < list.Count; i++)
{
var item = list[i];
if (item.Category == currentCategory && item.From == currentTo + 1)
currentTo = item.To;
else
{
output.Add(new Range { From = currentFrom, To = currentTo,
Category = currentCategory });
currentFrom = item.From;
currentTo = item.To;
currentCategory = item.Category;
}
}
output.Add(new Range { From = currentFrom, To = currentTo,
Category = currentCategory });
``````

I’d be interested to see if there is a solution more optimised for performance.

Edit: I assumed that the input list is sorted. If it is not, I recommend sorting it first instead of trying to fiddle this into the algorithm. Sorting is only O(n log n), but if you tried to fiddle it in, you easily get O(n²), which is worse.

``````list.Sort((a, b) => a.From < b.From ? -1 : a.From > b.From ? 1 : 0);
``````

As an aside, I wrote this solution because you asked for one that is performance-optimised. To this end, I didn’t make it generic, I didn’t use delegates, I didn’t use Linq extension methods, and I used local variables of primitive types and tried to avoid accessing object fields as much as possible.

-
Yes, I would need this // or maybe you need: // if (item.Category == currentCategory && item.From == currentTo + 1) I changed the question description a bit and added explanation that I only need to merge if the elements are consecutive. –  Tomislav Markovski Aug 15 '10 at 14:36
OK, fixed. ———— –  Timwi Aug 15 '10 at 14:41
This method works as well, and is as fast as the generic solution answer below. Both produced identical results with the same speed. Thank you. –  Tomislav Markovski Aug 15 '10 at 15:25
I ran my code with 2 million entries through all of the 4 answers proposed here and all of them completed in exactly the same time with identical results, 5 seconds. I'm really sorry, but I can only accept one answer. –  Tomislav Markovski Aug 15 '10 at 15:37
Thanks for explaining. I’m surprised that it would be the same speed, but since you ran it, I believe you. If it is really the same speed, then the answer you accepted is definitely better because it is reusable. –  Timwi Aug 15 '10 at 15:38

Here's another one :

``````IEnumerable<Range> Merge(IEnumerable<Range> input)
{
input = input.OrderBy(r => r.Category).ThenBy(r => r.From).ThenBy(r => r.To).ToArray();
var ignored = new HashSet<Range>();
foreach (Range r1 in input)
{
if (ignored.Contains(r1))
continue;

Range tmp = r1;
foreach (Range r2 in input)
{
if (tmp == r2 || ignored.Contains(r2))
continue;

Range merged;
if (TryMerge(tmp, r2, out merged))
{
tmp = merged;
}
}
yield return tmp;
}
}

bool TryMerge(Range r1, Range r2, out Range merged)
{
merged = null;
if (r1.Category != r2.Category)
return false;
if (r1.To + 1 < r2.From || r2.To + 1 < r1.From)
return false;
merged = new Range
{
From = Math.Min(r1.From, r2.From),
To = Math.Max(r1.To, r2.To),
Category = r1.Category
};
return true;
}
``````

You could use it directly:

``````var mergedList = Merge(list);
``````

But that would be very inefficient it you have many items as the complexity is O(n²). However, since only items in the same category can be merged, you can group them by category and merge each group, then flatten the result:

``````var mergedList = list.GroupBy(r => r.Category)
.Select(g => Merge(g))
.SelectMany(g => g);
``````
-
Thank you, worked well. –  Tomislav Markovski Aug 15 '10 at 15:50

Assuming that the list is sorted -and- the ranges are non overlapping, as you have stated in the question, this will run in O(n) time:

``````var flattenedRanges = new List<Range>{new Range(list.First())};

foreach (var range in list.Skip(1))
{
if (flattenedRanges.Last().To + 1 == range.From && flattenedRanges.Last().Category == range.Category)
flattenedRanges.Last().To = range.To;
else
}
``````

This is assuming you have a copy-constructor for `Range`

EDIT: Here's an in-place algorithm:

``````    for (int i = 1; i < list.Count(); i++)
{
if (list[i].From == list[i - 1].To+1  && list[i-1].Category == list[i].Category)
{
list[i - 1].To = list[i].To;
list.RemoveAt(i--);
}
}
``````

EDIT:

Added the category check, and fixed the inplace version.

-
① This solution trashes the input collection. I assumed that the input collection should stay intact. ② This solution forgets to compare the categories. –  Timwi Aug 15 '10 at 14:35
@ Timwi: It is a minor change to use a for-loop with indices instead. –  Ani Aug 15 '10 at 14:38
@Ani: Huh? You’re modifying the objects from the input collection, how does a minor change with a for loop fix that? –  Timwi Aug 15 '10 at 14:39
@ Timwi: Ok I will write it. –  Ani Aug 15 '10 at 14:41
@Ani: Whether you use a `for` loop or `foreach` makes no difference. You are trashing the input collection either way. –  Timwi Aug 15 '10 at 14:44