What is the quickest (and least resource intensive) to compare two massive (>50.000 items) and as a result have two lists like the ones below:

  1. items that show up in the first list but not in the second
  2. items that show up in the second list but not in the first

Currently I'm working with the List or IReadOnlyCollection and solve this issue in a linq query:

var list1 = list.Where(i => !list2.Contains(i)).ToList();
var list2 = list2.Where(i => !list.Contains(i)).ToList();

But this doesn't perform as good as i would like. Any idea of making this quicker and less resource intensive as i need to process a lot of lists?

12 Answers 12


Use Except:

var firstNotSecond = list1.Except(list2).ToList();
var secondNotFirst = list2.Except(list1).ToList();

I suspect there are approaches which would actually be marginally faster than this, but even this will be vastly faster than your O(N * M) approach.

If you want to combine these, you could create a method with the above and then a return statement:

return !firstNotSecond.Any() && !secondNotFirst.Any();
  • 6
    This is really a huge performance gain! Thanks for this answer. – Frank Oct 9 '12 at 8:57
  • 2
    I'm wondering for two huge lists, is it useful to sort before compare? or inside Except extension method, the list passed in is sorted already. – Larry Oct 10 '12 at 8:59
  • 8
    @Larry: It's not sorted; it builds a hash set. – Jon Skeet Oct 10 '12 at 9:14
  • 2
    @PranavSingh: It will work for anything that has appropriate equality - so if your custom type overrides Equals(object) and/or implements IEquatable<T> it should be fine. – Jon Skeet Apr 8 '16 at 9:46
  • 2
    @k2ibegin: It uses the default equality comparer, which will use an IEquatable<T> implementation or the object.Equals(object) method. It sounds like you should create a new question with a minimal reproducible example - we can't really diagnose things in comments. – Jon Skeet Sep 5 '17 at 12:45

More efficient would be using Enumerable.Except:

var inListButNotInList2 = list.Except(list2);
var inList2ButNotInList = list2.Except(list);

This method is implemented by using deferred execution. That means you could write for example:

var first10 = inListButNotInList2.Take(10);

It is also efficient since it internally uses a Set<T> to compare the objects. It works by first collecting all distinct values from the second sequence, and then streaming the results of the first, checking that they haven't been seen before.

  • 1
    Hmm. Not quite deferred. I'd say partially deferred. A complete Set<T> is built from the second sequence (i.e. it's fully iterated and stored), then items that can be added from the first sequence are yielded. – spender Oct 9 '12 at 8:44
  • 2
    @spender, that's like saying that execution of Where is partially deferred because in list.Where(x => x.Id == 5) the value of the number 5 is stored at the start, rather than executed lazily. – jwg Jan 20 '14 at 14:35

If you want the results to be case insensitive, the following will work:

List<string> list1 = new List<string> { "a.dll", "b1.dll" };
List<string> list2 = new List<string> { "A.dll", "b2.dll" };

var firstNotSecond = list1.Except(list2, StringComparer.OrdinalIgnoreCase).ToList();
var secondNotFirst = list2.Except(list1, StringComparer.OrdinalIgnoreCase).ToList();

firstNotSecond would contain b1.dll

secondNotFirst would contain b2.dll


Not for this Problem, but here's some code to compare lists for equal and not! identical objects:

public class EquatableList<T> : List<T>, IEquatable<EquatableList<T>> where    T : IEquatable<T>

/// <summary>
/// True, if this contains element with equal property-values
/// </summary>
/// <param name="element">element of Type T</param>
/// <returns>True, if this contains element</returns>
public new Boolean Contains(T element)
    return this.Any(t => t.Equals(element));

/// <summary>
/// True, if list is equal to this
/// </summary>
/// <param name="list">list</param>
/// <returns>True, if instance equals list</returns>
public Boolean Equals(EquatableList<T> list)
    if (list == null) return false;
    return this.All(list.Contains) && list.All(this.Contains);
  • Wonder if there is a simpler way to do what this does, but in just a function... – Kaitlyn Sep 6 '15 at 13:53
  • This is what you need to be able to compare custom data types. Then use Except – Pranav Singh Apr 8 '16 at 9:45
  • You can probably do better with sortable types. This runs in O(n^2), while you can do O(nlogn). – yuvalm2 Feb 8 '18 at 16:06

try this way:

var difList = list1.Where(a => !list2.Any(a1 => a1.id == a.id))
            .Union(list2.Where(a => !list1.Any(a1 => a1.id == a.id)));
  • 12
    This suffers from horrible performance, requiring a scan of the second list for every item in the first. Not downvoting because it works, but it's as bad as the original code. – spender Oct 9 '12 at 8:46

I have used this code to compare two list which has million of records.

This method will not take much time

    //Method to compare two list of string
    private List<string> Contains(List<string> list1, List<string> list2)
        List<string> result = new List<string>();

        result.AddRange(list1.Except(list2, StringComparer.OrdinalIgnoreCase));
        result.AddRange(list2.Except(list1, StringComparer.OrdinalIgnoreCase));

        return result;
using System.Collections.Generic;
using System.Linq;

namespace YourProject.Extensions
    public static class ListExtensions
        public static bool SetwiseEquivalentTo<T>(this List<T> list, List<T> other)
            where T: IEquatable<T>
            if (list.Except(other).Any())
                return false;
            if (other.Except(list).Any())
                return false;
            return true;

Sometimes you only need to know if two lists are different, and not what those differences are. In that case, consider adding this extension method to your project. Note that your listed objects should implement IEquatable!


public sealed class Car : IEquatable<Car>
    public Price Price { get; }
    public List<Component> Components { get; }

    public override bool Equals(object obj)
        => obj is Car other && Equals(other);

    public bool Equals(Car other)
        => Price == other.Price
            && Components.SetwiseEquivalentTo(other.Components);

    public override int GetHashCode()
        => Components.Aggregate(
            (code, next) => code ^ next.GetHashCode()); // Bitwise XOR

Whatever the Component class is, the methods shown here for Car should be implemented almost identically.

It's very important to note how we've written GetHashCode. In order to properly implement IEquatable, Equals and GetHashCode must operate on the instance's properties in a logically compatible way.

Two lists with the same contents are still different objects, and will produce different hash codes. Since we want these two lists to be treated as equal, we must let GetHashCode produce the same value for each of them. We can accomplish this by delegating the hashcode to every element in the list, and using the standard bitwise XOR to combine them all. XOR is order-agnostic, so it doesn't matter if the lists are sorted differently. It only matters that they contain nothing but equivalent members.

Note: the strange name is to imply the fact that the method does not consider the order of the elements in the list. If you do care about the order of the elements in the list, this method is not for you!


If only combined result needed, this will work too:

var set1 = new HashSet<T>(list1);
var set2 = new HashSet<T>(list2);
var areEqual = set1.SetEquals(set2);

where T is type of lists element.


Enumerable.SequenceEqual Method

Determines whether two sequences are equal according to an equality comparer. MS.Docs

Enumerable.SequenceEqual(list1, list2);

This works for all primitive data types. If you need to use it on custom objects you need to implement IEqualityComparer

Defines methods to support the comparison of objects for equality.

IEqualityComparer Interface

Defines methods to support the comparison of objects for equality. MS.Docs for IEqualityComparer


May be its funny, but works for me

string.Join("",List1) != string.Join("", List2)

  • as it's written here it would not even work for List<string> or List<int>, as for example the two lists 11;2;3 and 1;12;3 would be identical since you don't join the strings with some unique separator that isn't a possible item in the list. Apart from that, concatenating strings for a list with a lot of items is probably a performance killer. – SwissCoder Oct 5 '17 at 12:29
  • @SwissCoder: You are wrong, this is not a performacne killer for string. If you have two list with 50.000 strings (each of length 3) this algorithm needs 3 ms on my machine. The accepted answere needs 7. I think the trick is Jibz only needs one string comparision. Of course he has to add a unique separator. – user1027167 Feb 22 '18 at 12:30
  • @user1027167: Im not talking about comparing strings directly (as this is also not the question). Calling the .ToString() method of all the objects in a List with 50.000 objects can create a huge string, depending how it's implemented. I don't think that's the way to go. Then it's also risky to rely on a character or string being "unique", the code would not really be reusable like that. – SwissCoder Feb 22 '18 at 13:02
  • Ok that's true. The questioner asked for the quickest way without giving the datatype of his lists. Probably this answere is the quickest way for the use case of the questioner. – user1027167 Feb 22 '18 at 13:47

This is the best solution you'll found

var list3 = list1.Where(l => list2.ToList().Contains(l));
  • This is actually very bad because it creates a new List<T> for each element in list1. Also the result is called list3 when it's not a List<T>. – Wai Ha Lee Jan 15 at 8:03

I think this is a simple and easy way to compare two lists element by element


tmp = []

for i in range(len(x)) and range(len(y)):
    if x[i]>y[i]:

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