This is part of the collection initializer syntax in .NET. You can use this syntax on any collection you create as long as:
What happens is the default constructor is called, and then Add(...)
is called for each member of the initializer.
Thus, these two blocks are roughly identical:
List<int> a = new List<int> { 1, 2, 3 };
And
List<int> temp = new List<int>();
temp.Add(1);
temp.Add(2);
temp.Add(3);
List<int> a = temp;
You can call an alternate constructor if you want, for example to prevent over-sizing the List<T>
during growing, etc:
// Notice, calls the List constructor that takes an int arg
// for initial capacity, then Add()'s three items.
List<int> a = new List<int>(3) { 1, 2, 3, }
Note that the Add()
method need not take a single item, for example the Add()
method for Dictionary<TKey, TValue>
takes two items:
var grades = new Dictionary<string, int>
{
{ "Suzy", 100 },
{ "David", 98 },
{ "Karen", 73 }
};
Is roughly identical to:
var temp = new Dictionary<string, int>();
temp.Add("Suzy", 100);
temp.Add("David", 98);
temp.Add("Karen", 73);
var grades = temp;
So, to add this to your own class, all you need do, as mentioned, is implement IEnumerable
(again, preferably IEnumerable<T>
) and create one or more Add()
methods:
public class SomeCollection<T> : IEnumerable<T>
{
// implement Add() methods appropriate for your collection
public void Add(T item)
{
// your add logic
}
// implement your enumerators for IEnumerable<T> (and IEnumerable)
public IEnumerator<T> GetEnumerator()
{
// your implementation
}
IEnumerator IEnumerable.GetEnumerator()
{
return GetEnumerator();
}
}
Then you can use it just like the BCL collections do:
public class MyProgram
{
private SomeCollection<int> _myCollection = new SomeCollection<int> { 13, 5, 7 };
// ...
}
(For more information, see the MSDN)