What is the proper way to do set subtraction using Linq? I have a List of 8000+ banks where I want to remove a portion of those based on the routing number. The portion is in another List and routing number is the key property to both. Here is a simplification:

public class Bank
    public string RoutingNumber { get; set; }
    public string Name { get; set; }

var removeThese = new List<string>() { "111", "444", "777" };

var banks = new List<Bank>()
    new Bank() { RoutingNumber = "111", Name = "First Federal" },
    new Bank() { RoutingNumber = "222", Name = "Second Federal" },
    new Bank() { RoutingNumber = "333", Name = "Third Federal" },
    new Bank() { RoutingNumber = "444", Name = "Fourth Federal" },
    new Bank() { RoutingNumber = "555", Name = "Fifth Federal" },
    new Bank() { RoutingNumber = "666", Name = "Sixth Federal" },
    new Bank() { RoutingNumber = "777", Name = "Seventh Federal" },
    new Bank() { RoutingNumber = "888", Name = "Eight Federal" },
    new Bank() { RoutingNumber = "999", Name = "Ninth Federal" },

var query = banks.Remove(banks.Where(x => removeThese.Contains(x.RoutingNumber)));
  • 2
    +1 for actually asking a well rounded question. Sep 25, 2013 at 9:53
  • 2
    Such nice concise answers, I regret being able to accept only one. Thanks to all. Sep 25, 2013 at 10:08
  • Do you want to remove that banks from the list as mentioned or do you want to know which banks need to be removed suggested by your code in the last line? Sep 25, 2013 at 10:14
  • Remove from banks. Several people, including yourself, gave acceptable answers and they all work. Sep 25, 2013 at 10:23

6 Answers 6


This should do the trick:

var toRemove = banks.Where(x => removeThese.Contains(x.RoutingNumber)).ToList();
var query = banks.RemoveAll(x => toRemove.Contains(x));

The first step is to make sure that you don't have to re-run that first query over and over again, whenever banks changes.

This should work too:

var query = banks.Except(toRemove);

as your second line.


Tim Schmelter pointed out that for Except to work, you need to override Equals and GetHashCode.

So you could implement it like so:

public override string ToString()
   ... any serialization will do, for instance JSON or CSV or XML ...
   ... OR any serialization that identifies the object quickly, such as:
   return "Bank: " + this.RoutingNumber;

public override bool Equals(System.Object obj)
    return ((obj is Bank) && (this.ToString().Equals(obj.ToString()));

public override int GetHashCode()
    return this.ToString().GetHashCode();
  • 1
    banks.Except(toRemove) works only if Bank overrides Equals and GetHashCode. Sep 25, 2013 at 10:12
  • Interesting, I will have to learn how to implement this approach. It could produce cleaner code, I would think. Sep 25, 2013 at 10:25
  • 2
    You should check if they have the same RoutingNumber since that seem to be the identifier. I would also not use ToString in Equals and GetHashCode since that might change in future (f.e. for debugging purposes) and you forget that you have to change it here also. In general ToString is unrelated to Equals/GetHashCode. But you should check first if the other object is a Bank at all since that is most important. Sep 25, 2013 at 10:36
  • @TimSchmelter: A good quick serialization in ToString() would lead to the implementation above where Equals and GetHashCode can rely on the unicity and identifying quality of the ToString() implementation. If just checking the RoutingNumber is in this case a good implementation for Equals, then obviously that would be a lot faster. But still, the solution as outlined above will do the trick.
    – Roy Dictus
    Sep 25, 2013 at 11:00
  • 1
    -1: Your proposed implementation of Equals / GetHashCode is disastrous, and it only works partially (e.g.: if I have a string instance that contains the ToString() serialization of Bank, then they will compare as Equal according Bank.Equals, but not according to String.Equals). Also, defining a serialization format in ToString is a lot more work than writing simple, usual Equals and GetHashCode implementations. Sep 25, 2013 at 11:04

Generally it's less work to just pull out the ones you need rather than deleting the ones you don't i.e.

var query = myList.Where(x => !removeThese.Contains(x.RoutingNumber));

Filtering of this type is generally done with generic LINQ constructs:

banks = banks.Where(bank => !removeThese.Contains(bank.RoutingNumber)).ToList();

In this specific case you can also use List<T>.RemoveAll to do the filtering in-place, which will be faster:

banks.RemoveAll(bank => removeThese.Contains(bank.RoutingNumber));

Also, for performance reasons, if the amount of routing numbers to remove is large you should consider putting them into a HashSet<string> instead.


Either use the Linq extension methods Where and ToList to create a new list or use List.RemoveAll which is more efficient since it modifies the original list:

banks = banks.Where(x => !removeThese.Contains(x.RoutingNumber)).ToList();
banks.RemoveAll(x => removeThese.Contains(x.RoutingNumber));

Of course you have to reverse the condition since the former keeps what Where leaves and the latter removes what the predicate in RemoveAll returns.

  • Would using Any() be more efficient than using Contains()? Or would it be the same?
    – Bob.
    Sep 25, 2013 at 11:22
  • @Bob.: (nearly) the same, both stop as soon as they found one, similar to a break in a loop. Contains is more readable but works only if the underlying type(in this case of the RoutingNumber) overrides Equals. Sep 25, 2013 at 11:37
  • 1
    @Bob. Also, with Any you would have to give a lambda arrow as argument. That would mean two nested lambdas. The compiler would have to generate a real method for your second lambda, and create a delegate instance whose Method was the MethodInfo of that generated method, and whose Target was an instance of some compiler-generated nested class. So it would be a bit more complex under the hood. Still very fast, though, so readability is also important. Sep 25, 2013 at 15:28
  • 1
    And note that the second solution really uses no Linq at all (the Contains is an instance method on List<>), so it is a true .NET 2.0 solution (except that => was not in the C# syntax when .NET 2.0 was young). Sep 25, 2013 at 15:30

Have you tried using RemoveAll()?

var query = banks.RemoveAll(p => removeThese.Contains(p.RoutingNumber));

This will remove the any values from banks where a matching record is present in removeThese.

query will contain the number of records removed from the list.

Note: The orginal variable banks will be updated directly by this query; a reassignment is not required.

  • You should explain what query is afterwards. It is an integer giving the number of banks that were actually removed. Sep 25, 2013 at 15:21
  • @JeppeStigNielsen I have expanded the answer. Thanks for your input.
    – Kami
    Sep 25, 2013 at 15:55

You can use RemoveAll()

var removedIndexes = banks.RemoveAll(x => removeThese.Contains(x.RoutingNumber));


banks = banks.Where(bank => !removeThese.Contains(bank.RoutingNumber)).ToList();
  • No, it does not use Linq. The methods List<>.RemoveAll and List<>.Contains are not a part of Linq. Note that your query is just an integer. Sep 25, 2013 at 15:32
  • @JeppeStigNielsen thanks for correcting us all. It was something I wrote on this page without executing. It just shows how much I trust debugging/intellisense and other tools I use when coding C#.
    – Filip
    Sep 26, 2013 at 6:51

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