I have two instances of IEnumerable<T>
(with the same T
). I want a new instance of IEnumerable<T>
which is the concatenation of both.
Is there a built-in method in .NET to do that or do I have to write it myself?
I have two instances of IEnumerable<T>
(with the same T
). I want a new instance of IEnumerable<T>
which is the concatenation of both.
Is there a built-in method in .NET to do that or do I have to write it myself?
Yes, LINQ to Objects supports this with Enumerable.Concat
:
var together = first.Concat(second);
NB: Should first
or second
be null you would receive a ArgumentNullException
. To avoid this & treat nulls as you would an empty set, use the null coalescing operator like so:
var together = (first ?? Enumerable.Empty<string>()).Concat(second ?? Enumerable.Empty<string>()); //amending `<string>` to the appropriate type
using System.Linq
namespace at the top of code file to see the desired extension method in the IDE intellisense.
The Concat
method will return an object which implements IEnumerable<T>
by returning an object (call it Cat) whose enumerator will attempt to use the two passed-in enumerable items (call them A and B) in sequence. If the passed-in enumerables represent sequences which will not change during the lifetime of Cat, and which can be read from without side-effects, then Cat may be used directly. Otherwise, it may be a good idea to call ToList()
on Cat
and use the resulting List<T>
(which will represent a snapshot of the contents of A and B).
Some enumerables take a snapshot when enumeration begins, and will return data from that snapshot if the collection is modified during enumeration. If B is such an enumerable, then any change to B which occurs before Cat has reached the end of A will show up in Cat's enumeration, but changes which occur after that will not. Such semantics may likely be confusing; taking a snapshot of Cat can avoid such issues.
I know this is a relatively old post, but if you wanted to concatenate multiple IEnumerable's, I use the following
var joinedSel = new[] { first, second, third }.Where(x => x != null).SelectMany(x => x);
This eliminates any null IEnumerable's and allows for multiple concatenations.
You can use below code for your solution:-
public void Linq94()
{
int[] numbersA = { 0, 2, 4, 5, 6, 8, 9 };
int[] numbersB = { 1, 3, 5, 7, 8 };
var allNumbers = numbersA.Concat(numbersB);
Console.WriteLine("All numbers from both arrays:");
foreach (var n in allNumbers)
{
Console.WriteLine(n);
}
}
Based off of craig1231's answer, I've created some extension methods...
public static IEnumerable<T> JoinLists<T>(this IEnumerable<T> list1, IEnumerable<T> list2)
{
var joined = new[] { list1, list2 }.Where(x => x != null).SelectMany(x => x);
return joined ?? Enumerable.Empty<T>();
}
public static IEnumerable<T> JoinLists<T>(this IEnumerable<T> list1, IEnumerable<T> list2, IEnumerable<T> list3)
{
var joined = new[] { list1, list2, list3 }.Where(x => x != null).SelectMany(x => x);
return joined ?? Enumerable.Empty<T>();
}
public static IEnumerable<T> JoinMany<T>(params IEnumerable<T>[] array)
{
var final = array.Where(x => x != null).SelectMany(x => x);
return final ?? Enumerable.Empty<T>();
}
In the meantime C#12 introduced the spread operator "..". You you can apply that on any IEnumerable easily
IEnumerable<int> enumerableA = [1,2];
IEnumerable<int> enumerableB = [3,4];
IEnumerable<int> merged = [ ..enumerableA, ..enumerableB ];
// The answer that I was looking for when searching
public void Answer()
{
IEnumerable<YourClass> first = this.GetFirstIEnumerableList();
// Assign to empty list so we can use later
IEnumerable<YourClass> second = new List<YourClass>();
if (IwantToUseSecondList)
{
second = this.GetSecondIEnumerableList();
}
IEnumerable<SchemapassgruppData> concatedList = first.Concat(second);
}