61

If I have an IEnumerable like:

string[] items = new string[] { "a", "b", "c", "d" };

I would like to loop thru all the pairs of consecutive items (sliding window of size 2). Which would be

("a", "b"), ("b", "c"), ("c", "d")

My solution was is this

    public static IEnumerable<Pair<T, T>> Pairs(IEnumerable<T> enumerable) {
        IEnumerator<T> e = enumerable.GetEnumerator(); e.MoveNext();
        T current = e.Current;
        while ( e.MoveNext() ) {
            T next = e.Current;
            yield return new Pair<T, T>(current, next);
            current = next;
        }
    }
   
 // used like this :
 foreach (Pair<String,String> pair in IterTools<String>.Pairs(items)) {
    System.Out.PrintLine("{0}, {1}", pair.First, pair.Second)
 }

When I wrote this code, I wondered if there are already functions in the .NET framework that do the same thing and do it not just for pairs but for any size tuples. IMHO there should be a nice way to do this kind of sliding window operations.

I use C# 2.0 and I can imagine that with C# 3.0 (using LINQ) there are more and nicer ways to do this, but I'm primarily interested in C# 2.0 solutions. Though, I will also appreciate C# 3.0 solutions.

3

15 Answers 15

62

In .NET 4 this becomes even easier:-

var input = new[] { "a", "b", "c", "d", "e", "f" };
var result = input.Zip(input.Skip(1), (a, b) => Tuple.Create(a, b));
4
  • 25
    It's worth mentioning that this evaluates input twice - not a problem for an array, but if it's lazily-evaluated that could be expensive.
    – dahlbyk
    Aug 18, 2012 at 1:52
  • 8
    Also, the second argument to Zip can be passed as a method group: …input.Zip(input.Skip(1), Tuple.Create);
    – Jay
    Mar 11, 2015 at 17:32
  • 4
    I just did this in a unit test, just to see the difference. With Enumerable.Range(0, count) as the iterator, I had to increase the count to ~1 million before the delay was noticeable, and ~10 million before it was slow enough to bother me. Still, @dahlbyk's solution elegantly avoids this, so I'd use that any day. (The whole point of extension methods is to be able to hide the not-extremely-readable code away from sight, so priorities here should be straightforward...). Nov 8, 2016 at 17:13
  • 2
    @Jay, and since .NET Core 3.0 (from 2019) there is an overload that skips that argument entirely, so var result = input.Zip(input.Skip(1));. Feb 6, 2023 at 20:14
47

Rather than require a tuple (pair) type, why not just accept a selector:

public static IEnumerable<TResult> Pairwise<TSource, TResult>(this IEnumerable<TSource> source, Func<TSource, TSource, TResult> resultSelector)
{
    TSource previous = default(TSource);

    using (var it = source.GetEnumerator())
    {
        if (it.MoveNext())
            previous = it.Current;

        while (it.MoveNext())
            yield return resultSelector(previous, previous = it.Current);
    }
}

Which allows you to skip the intermediate object if you want:

string[] items = new string[] { "a", "b", "c", "d" };
var pairs = items.Pairwise((x, y) => string.Format("{0},{1}", x, y));

foreach(var pair in pairs)
    Console.WriteLine(pair);

Or you can use an anonymous type:

var pairs = items.Pairwise((x, y) => new { First = x, Second = y });

Update: I just implemented this on a real project and used C# 7.0 ValueTuple instead:

public static IEnumerable<(T, T)> Pairwise<T>(this IEnumerable<T> source)
{
    var previous = default(T);
    using (var it = source.GetEnumerator())
    {
        if (it.MoveNext())
            previous = it.Current;

        while (it.MoveNext())
            yield return (previous, previous = it.Current);
    }
}
6
  • 3
    I wonder about the execution order in yield return …(previous, previous = …). Does the C# language guarantee that the first argument will be prepared before the second argument is evaluated? Jan 27, 2013 at 9:28
  • I'm reasonably certain it does, but I have to check the spec to be sure.
    – dahlbyk
    Jan 28, 2013 at 17:46
  • 4
    Yes it does, see section 7.4.1 of the C# spec. "During the run-time processing of a function member invocation, the expressions or variable references of an argument list are evaluated in order, from left to right, as follows:..." Jul 13, 2013 at 21:57
  • 1
    Just wanted to chime in that I've done some performance analysis of this version and using a Queue with Dequeue/Peek and the Zip method. The Queue method is actually twice as fast as the GetEnumerator method and 6 times faster than Zip, and I consider it more readable than both. e.g. var queue = new Queue<T>(enumerable); while(queue.Count() > 1){ yield return func(queue.Dequeue,queue.Peek); }
    – Novaterata
    Sep 24, 2014 at 13:29
  • Very interesting... can you post your benchmark to a Gist or something?
    – dahlbyk
    Sep 24, 2014 at 20:35
12

The easiest way is to use ReactiveExtensions

using System.Reactive;
using System.Reactive.Linq;

and make yourself an extension method to kit bash this together

public static IEnumerable<IList<T>> Buffer<T>(this IEnumerable<T> seq, int bufferSize, int stepSize)
{
    return seq.ToObservable().Buffer(bufferSize, stepSize).ToEnumerable();
}
1
6

Just for convenience, here is a selector-less version of @dahlbyk's answer.

public static IEnumerable<Tuple<T, T>> Pairwise<T>(this IEnumerable<T> enumerable)
{
    var previous = default(T);

    using (var e = enumerable.GetEnumerator())
    {
        if (e.MoveNext())
            previous = e.Current;

        while (e.MoveNext())
            yield return Tuple.Create(previous, previous = e.Current);
    }
}
1
  • 1
    I think this is even cleaner than the original. In modern C# this can be used as: foreach (var (previous, next) in Enumerable.Range(0, 10).PairWise()) Console.WriteLine(previous + "-" + next); Nov 8, 2019 at 13:44
5

A little late to the party, but as an alternative to all these extension methods, one might use an actual "sliding" Collection to hold (and discard) the data.

Here is one I ended up making today:

public class SlidingWindowCollection<T> : ICollection<T>
{
    private int _windowSize;
    private Queue<T> _source;

    public SlidingWindowCollection(int windowSize)
    {
        _windowSize = windowSize;
        _source = new Queue<T>(windowSize);
    }

    public void Add(T item)
    {
        if (_source.Count == _windowSize)
        {
            _source.Dequeue();
        }
        _source.Enqueue(item);
    }

    public void Clear()
    {
        _source.Clear();
    }

    ...and just keep forwarding all other ICollection<T> methods to _source.
}

Usage:

int pairSize = 2;
var slider = new SlidingWindowCollection<string>(pairSize);
foreach(var item in items)
{
    slider.Add(item);
    Console.WriteLine(string.Join(", ", slider));
}
4

Here is my solution using a Stack. It is short and concise.

string[] items = new string[] { "a", "b", "c", "d" };

Stack<string> stack = new Stack<string>(items.Reverse());

while(stack.Count > 1)
{
  Console.WriteLine("{0},{1}", stack.Pop(), stack.Peek());
}

You can take the same concept and use a queue which avoids the need for reversing the items and is even simpler:

var queue = new Queue<string>(items);

while (queue.Count > 1)
{
   Console.WriteLine("{0},{1}", queue.Dequeue(), queue.Peek());
}

A short word about performance:

I believe it's important to realize that unless you know that a task is causing a bottleneck in your real application, it's probably not worth working out what the truly fastest way of doing is. Instead, write the code which does the job for you. Also, use code you can remember, so it easily flows out of your hand the next time you need it.

Nevertheless, in case you care for some performance data for 10.000.000 random strings:

Run #1
  InputZip             00:00:00.7355567
  PairwiseExtension    00:00:00.5290042
  Stack                00:00:00.6451204
  Queue                00:00:00.3245580
  ForLoop              00:00:00.7808004
  TupleExtension       00:00:03.9661995

Run #2
  InputZip             00:00:00.7386347
  PairwiseExtension    00:00:00.5369850
  Stack                00:00:00.6910079
  Queue                00:00:00.3246276
  ForLoop              00:00:00.8272945
  TupleExtension       00:00:03.9415258

Tested using Jon Skeet's micro benchmarking tool.

If you want to take a look at the source for the test go here: gist here

7
  • this is very inefficient, especially if the collection has lots of elements. Your space complexity is O(n) instead of O(1). Your time complexity is also O(n) as other solutions here, but still slower by a constant factor. Nov 8, 2019 at 13:28
  • This isn't about premature optimization. You are doing more work than necessary with more code. This is just bad design. Nov 8, 2019 at 17:30
  • Well, some of the better solutions on this page are generics methods that are ready to use and can be copy - pasted into a project with some minor parameter checking. Yours is just a 3 lines idea. And not a good one. You're increasing space complexity from very palatable O(1) to mediocre O(n) and doubling execution time at zero gain in anything. Nov 8, 2019 at 19:05
  • 3
    Indeed the string.format was influencing the results - i copy / pasted the original solutions - fixed that and changed all types to ValueTuple (good suggestion) also switched the test to use James Holwell's solution. Looking at the results, I don't think it is fair to call any of the given solutions "inefficient" Nov 9, 2019 at 16:55
  • 1
    upvoted for the effort to test this. Still don't like your O(n) space solution :D Nov 9, 2019 at 19:07
2

Something like this:

public static IEnumerable<TResult> Pairwise<T, TResult>(this IEnumerable<T> enumerable, Func<T, T, TResult> selector)
{
    var previous = enumerable.First();
    foreach (var item in enumerable.Skip(1))
    {
        yield return selector(previous, item);
        previous = item;
    }
}
2

Expanding on the previous answer to avoid of O(n2) approach by explicitly using the passed iterator:

public static IEnumerable<IEnumerable<T>> Tuples<T>(this IEnumerable<T> input, int groupCount) {
  if (null == input) throw new ArgumentException("input");
  if (groupCount < 1) throw new ArgumentException("groupCount");

  var e = input.GetEnumerator();

  bool done = false;
  while (!done) {
    var l = new List<T>();
    for (var n = 0; n < groupCount; ++n) {
      if (!e.MoveNext()) {
        if (n != 0) {
          yield return l;
        }
        yield break;
      }
      l.Add(e.Current);
    }
    yield return l;
  }
}

For C# 2, before extension methods, drop the "this" from the input parameter and call as a static method.

1
  • 2
    This doesn't return the result the question asks for. Enumerable.Range(1, 5).Tuples(2) returns {{1, 2}, {3, 4}, {5}} instead of the desired {{1, 2}, {2, 3}, {3, 4}, {4, 5}} that is a sliding window.
    – Sammy S.
    Apr 27, 2016 at 8:11
2

Forgive me if I'm overlooking something, but why not something simple, like a for loop?:

public static List <int []> ListOfPairs (int [] items)
{
    List <int> output = new List <int>();
    for (int i=0; i < items.Length-1; i++)
    {
        Int [] pair = new int [2];
        pair [0]=items [i];
        pair [1]=items [i+1];
        output.Add (pair);
    }
    return output;
}
1

C# 3.0 solution (sorry:)

public static IEnumerable<IEnumerable<T>> Tuples<T>(this IEnumerable<T> sequence, int nTuple)
{
    if(nTuple <= 0) throw new ArgumentOutOfRangeException("nTuple");

    for(int i = 0; i <= sequence.Count() - nTuple; i++)
        yield return sequence.Skip(i).Take(nTuple);
}

This isn't the most performant in the world, but it's sure pleasant to look at.

Really, the only thing making this a C# 3.0 solution is the .Skip.Take construct, so if you just change that to adding the elements in that range to a list instead, it should be golden for 2.0. That said, it's still not performant.

2
  • 7
    Not the most performant? This is an O(n*n) implementation! For a small 10 item list, the entire list was traversed 20 times Feb 23, 2009 at 14:58
  • 2
    That's true, but it's also two lines of (real) code and is an obviously simple implementation. It's up to the OP to decide whether he needs a fast solution -- maybe he only needs this operation on lists of a couple dozen items.
    – mqp
    Feb 23, 2009 at 15:04
0

Alternate Pairs implementation, using last pair to store previous value:

static IEnumerable<Pair<T, T>> Pairs( IEnumerable<T> collection ) {
  Pair<T, T> pair = null;
  foreach( T item in collection ) {
    if( pair == null )
      pair = Pair.Create( default( T ), item );
    else
      yield return pair = Pair.Create( pair.Second, item );
  }
}

Simple Window implementation (only safe for private use, if caller does not save returned arrays; see note):

static IEnumerable<T[]> Window( IEnumerable<T> collection, int windowSize ) {
  if( windowSize < 1 )
    yield break;

  int index = 0;
  T[] window = new T[windowSize];
  foreach( var item in collection ) {
    bool initializing = index < windowSize;

    // Shift initialized window to accomodate new item.
    if( !initializing )
      Array.Copy( window, 1, window, 0, windowSize - 1 );

    // Add current item to window.
    int itemIndex = initializing ? index : windowSize - 1;
    window[itemIndex] = item;

    index++;
    bool initialized = index >= windowSize;
    if( initialized )
      //NOTE: For public API, should return array copy to prevent 
      // modifcation by user, or use a different type for the window.
      yield return window;
  }
}

Example use:

for( int i = 0; i <= items.Length; ++i ) {
  Console.WriteLine( "Window size {0}:", i );
  foreach( string[] window in IterTools<string>.Window( items, i ) )
    Console.WriteLine( string.Join( ", ", window ) );
  Console.WriteLine( );
}
0

The F# Seq module defines the pairwise function over IEnumerable<T>, but this function is not in the .NET framework.

If it were already in the .NET framework, instead of returning pairs it would probably accept a selector function due to the lack of support for tuples in languages like C# and VB.

var pairs = ns.Pairwise( (a, b) => new { First = a, Second = b };

I don't think any of the answers here really improve on your simple iterator implementation, which seemed the most natural to me (and the poster dahlbyk by the looks of things!) too.

1
  • lack of support for tuples in languages like C# and VB - back then in 2010 ? Seems available already. Mar 18 at 11:26
0

I created a slightly modified version of the late-2020-updated code in @dahlbyk's answer. It is better suited for projects with nullable reference types enabled (<Nullable>enable</Nullable>). I also added basic docs.

/// <summary>
/// Enumerates over tuples of pairs of the elements from the original sequence. I.e. { 1, 2, 3 } becomes { (1, 2), (2, 3) }. Note that { 1 } becomes { }.
/// </summary>
public static IEnumerable<(T, T)> Pairwise<T>(this IEnumerable<T> source)
{
    using var it = source.GetEnumerator();
        
    if (!it.MoveNext())
        yield break;

    var previous = it.Current;

    while (it.MoveNext())
        yield return (previous, previous = it.Current);
}
0

This will make a single pass through the IEnumerable.

items.Aggregate(new List<string[]>(), (list, next) => { if (list.Count > 0) list[^1][1] = next; list.Add(new[] { next, next }); return list; }, (list) => { list.RemoveAt(list.Count -1); return list; });
13
  • 1
    The last chuck might have a single element, in which case your code will fail with an ArgumentOutOfRangeException. Feb 4, 2023 at 17:50
  • @TheodorZoulias you are correct. Depending on how much control you have over the contents of your items you might have to take unintended number of items into account by using the ElementAtOrDefault method. When you increase the Chunk you will have to use ElementAtOrDefault method for all subsequent index after the 0. Feb 4, 2023 at 19:08
  • 1
    I think that this expression is preferable: pairs.Length > 1 ? pairs[1] : default. The ElementAtOrDefault will allocate an enumerator for each chuck, and the Chuck operator allocates an array per chunk already. Feb 4, 2023 at 19:20
  • 1
    After reading the question more carefully, your answer does not produce the required output. The OP wants ("a", "b"), ("b", "c"), ("c", "d"), not ("a", "b"), ("c", "d"). Feb 5, 2023 at 15:18
  • 1
    Now (revision 5) you are enumerating the source multiple times, like in the flawed Ian Mercer's answer. An enumerable sequence might be deferred, and return different results each time (and different number of results). You can't assume that it is backed by a materialized collection. Feb 6, 2023 at 20:23
-1

New C# language allows to do something like this:

        var pairlist = new (string, string)[] { ("a", "b"), ("b", "c"), ("c", "d") };

        foreach (var pair in pairlist)
        {
            //do something with pair.Item1 & pair.Item2

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