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If I have, for example the following List<int>s

{ 1, 2, 3, 4 } //list1
{ 2, 3, 5, 6 } //list2
{ 3, 4, 5 }    //listN

What is the best way to retrieve the following corresponding List<int?>s?

{    1, 2,    3,    4,    null, null } //list1
{ null, 2,    3,    null, 5,    6    } //list2
{ null, null, 3,    4,    5,    null } //listN
share|improve this question
Iterate from 1 to 6 and check for each item if it's in the input list. Since the input list is sorted, you can do this in O(n). – dtb Nov 22 '12 at 13:34
What is the use of such a list where index-1 == value? – L.B Nov 22 '12 at 13:35
@L.B.: I'm not sure what the use of this but in all fairness sometimes the value is null, not index. – Chris Nov 22 '12 at 13:36
The use of low int values was just for easy readability by way of example and should not be considered as the actual data to be used! – dav_i Nov 22 '12 at 13:38
@dav_i: perhaps you could explain your use case? At the moment you look like rather than having your new lists you are better off having a function that just takes a list and an index and generates the result (by just saying originalList.Contains(index+1) or similar. This will of course work for generating the full list too through a loop but seems much simpler not to generate the full lists... – Chris Nov 22 '12 at 13:41
up vote 6 down vote accepted

I'm posting the solution we discussed in chat. I had an unoptimized version using Linq for all things loopy/filtering:

However, I suspect it won't be too performant because of all the enumerator classes created, and the collections being instantiated/modified along the way.

So I took the time to optimize it into handwritten loops with an administration to keep track of active iterators instead of modifying the iters collection. Here it is:

See http://ideone.com/FuZIDy for full live demo.

Note I assume the lists are pre-ordered by DefaultComparer<T>, since I use Linq'sMin() extension method without a custom comparer

public static IEnumerable<IEnumerable<T>> AlignSequences<T>(this IEnumerable<IEnumerable<T>> sequences)
    var iters = sequences
        .Select((s, index) => new { active=true, index, enumerator = s.GetEnumerator() })

    var isActive = iters.Select(it => it.enumerator.MoveNext()).ToArray();
    var numactive = isActive.Count(flag => flag);

        while (numactive > 0)
            T min = iters
                .Where(it => isActive[it.index])
                .Min(it => it.enumerator.Current);

            var row = new T[iters.Count()];

            for (int j = 0; j < isActive.Length; j++)
                if (!isActive[j] || !Equals(iters[j].enumerator.Current, min)) 

                row[j] = min;
                if (!iters[j].enumerator.MoveNext())
                    isActive[j] = false;
                    numactive -= 1;
            yield return row;
        foreach (var iter in iters) iter.enumerator.Dispose();

Use it like this:

public static void Main(string[] args)
    var list1 = new int?[] { 1, 2, 3, 4, 5 };
    var list2 = new int?[] { 3, 4, 5, 6, 7 };
    var list3 = new int?[] { 6, 9, 9 };

    var lockstep = AlignSequences(new[] { list1, list2, list3 });

    foreach (var step in lockstep)
        Console.WriteLine(string.Join("\t", step.Select(i => i.HasValue ? i.Value.ToString() : "null").ToArray()));

It prints (for demo purposes I print the results sideways):

1       null    null
2       null    null
3       3       null
4       4       null
5       5       null
null    6       6
null    7       null
null    null    9
null    null    9

Note: You might like to change the interface to accept arbitrary number of lists, instead of a single sequence of sequences:

public static IEnumerable<IEnumerable<T>> AlignSequences<T>(params IEnumerable<T>[] sequences)

That way you could just call

var lockstep = AlignSequences(list1, list2, list3);
share|improve this answer

Here's another approach using List.BinarySearch.

sample data:

var list1 = new List<int>() { 1, 2, 3, 4 };
var list2 = new List<int>() { 2, 3, 5, 6, 7, 8 }; 
var list3 = new List<int>() { 3, 4, 5 };
var all   = new List<List<int>>() { list1, list2, list3 };

calculate min/max and all nullable-lists:

int min = all.Min(l => l.Min());
int max = all.Max(l => l.Max());
// start from smallest number and end with highest, fill all between
int count = max - min + 1;  

List<int?> l1Result = new List<int?>(count);
List<int?> l2Result = new List<int?>(count);
List<int?> l3Result = new List<int?>(count);

foreach (int val in Enumerable.Range(min, count))
    if (list1.BinarySearch(val) >= 0)
        l1Result.Add(new Nullable<int>());

    if (list2.BinarySearch(val) >= 0)
        l2Result.Add(new Nullable<int>());

    if (list3.BinarySearch(val) >= 0)
        l3Result.Add(new Nullable<int>());


Console.WriteLine(string.Join(",", l1Result.Select(i => !i.HasValue ? "NULL" : i.Value.ToString())));
Console.WriteLine(string.Join(",", l2Result.Select(i => !i.HasValue ? "NULL" : i.Value.ToString())));
Console.WriteLine(string.Join(",", l3Result.Select(i => !i.HasValue ? "NULL" : i.Value.ToString())));

1,      2,      3,      4,      NULL,   NULL,   NULL,   NULL
NULL,   2,      3,      NULL,   5,      6,      7,      8
NULL,   NULL,   3,      4,      5,      NULL,   NULL,   NULL


share|improve this answer
+1 - note that this indeed incurs the cost of storing the aligned lists in full. Just a note in case it matters (in case of large lists) – sehe Nov 22 '12 at 14:51
okay, I just read it a little more closely: this depends on both min and max, ignores the fact that the lists be pre-sorted. The all list serves no actual purpose (Math.Max() would be a lot faster). It might traverse a lot more indices then are present, resulting in highly sparse output (imagine 6 would not have in in any list, or list2 contained 91467?). It is hardcoded for 3 input lists, and the input type of int?. Not to mention you'll be doing 3*(max-min+1) binary searches which are unnecesarry. – sehe Nov 22 '12 at 16:22
@sehe: Ok, the Min/Max part is unnecessary. I's more efficient to look only at the first index of each list for min and at the last for max. I could use Enumerable.Concat instead to get all. But we're talking of milliseconds, i wanted to keep the code readable. Mabe i have understood the question differently. My interpretation: take the smallest number and the highest number of all lists, look into each list for every number in this range and see it exists in that list, if not add int? otherwise the actual value. – Tim Schmelter Nov 22 '12 at 16:36
@sehe: Note also that OP's desired result are three List<int?>(in this example). So consider an example where the first list is Enumerable.Empty<int>().ToList() and the second contains 1M items, the correct result would be two List<int?> where each list has 1M elements. – Tim Schmelter Nov 22 '12 at 16:42
Fair point, about the output presentation. Of course, that'd be trivially extracted from my lazy version, as opposed to vice versa. Anyways, I feel you didn't get the points I was trying to make: http://ideone.com/00DMux – sehe Nov 22 '12 at 18:14

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