There is no AddRange()
method for IList<T>
.
How can I add a list of items to an IList<T>
without iterating through the items and using the Add()
method?
If you look at the C# source code for List<T>, I think List<T>.AddRange() has optimizations that a simple loop doesn't address. So, an extension method should simply check to see if the IList<T> is a List<T>, and if so use its native AddRange().
Poking around the source code, you see the .NET folks do similar things in their own LINQ extensions for things like .ToList() (if it is a list, cast it... otherwise create it).
public static class IListExtension
{
public static void AddRange<T>(this IList<T> list, IEnumerable<T> items)
{
if (list == null) throw new ArgumentNullException(nameof(list));
if (items == null) throw new ArgumentNullException(nameof(items));
if (list is List<T> asList)
{
asList.AddRange(items);
}
else
{
foreach (var item in items)
{
list.Add(item);
}
}
}
}
list
to List<T>
two times here. One of which could be optimized away with the as
keyword.
if (list is List<T> castedList) { castedList.AddRange(items); }
Jun 18, 2019 at 10:43
AddRange
is defined on List<T>
, not the interface.
You can declare the variable as List<T>
instead of IList<T>
or cast it to List<T>
in order to gain access to AddRange
.
((List<myType>)myIList).AddRange(anotherList);
This is not good practice (see comments below), as an IList<T>
might not be a List<T>
, but some other type that implemented the interface and may very well not have an AddRange
method - in such a case, you will only find out when your code throws an exception at runtime.
So, unless you know for certain that the type is indeed a List<T>
, you shouldn't try to use AddRange
.
One way to do so is by testing the type with the is or as operators (since C# 7).
if(myIList is List<T>)
{
// can cast and AddRange
}
else
{
// iterate with Add
}
List<T>
(or, if this is not a good choice for you, do the cast where you need to AddRange
to keep it localized - it is a very low cost operation).
InvalidCastException
if used on anything other than List<T>
(array, for instance).
You could do something like this:
IList<string> oIList1 = new List<string>{"1","2","3"};
IList<string> oIList2 = new List<string>{"4","5","6"};
IList<string> oIList3 = oIList1.Concat(oIList2).ToList();
So, basically you would use the Concat()
extension and ToList()
to get a similar functionality as AddRange()
.
Enumerable.Concat
is implemented by System.Linq.Enumerable
and that method's return value is IEnumerable<TSource>
, so I believe it shouldn't be cast back to IList<TSource>
- it might return something else due to implementation details that we don't know without checking the source code - even though, there's no guarantee it won't change - so special attention must be taken when supporting multiple .NET versions.
You could also write an extension method like this:
internal static class EnumerableHelpers
{
public static void AddRange<T>(this IList<T> collection, IEnumerable<T> items)
{
foreach (var item in items)
{
collection.Add(item);
}
}
}
Usage:
IList<int> collection = new MyCustomList(); //Or any other IList except for a fixed-size collection like an array
var items = new[] {1, 4, 5, 6, 7};
collection.AddRange(items);
Which is still iterating over items, but you don't have to write the iteration or cast every time you call it.
Another answer using LINQ, provided the thing you're adding is a List<T>
or you are able to call ToList()
on it:
IEnumerable<string> toAdd = new string[] {"a", "b", "c"};
IList<string> target = new List<string>();
toAdd.ToList().ForEach(target.Add);
IList don't has AddRange() ,but has Concat() which combine yours collection
IList<T>.Concat(IEnumerable<T>)
returns the concatenated sequence as an enumerable so leaves the list untouched. That may or may not be the desired result.