To extend the solutions hinted by other contributors, I provide an answer that uses IEnumerable. It might not be optimized but it works quite well.
public static class IEnumerableExt
{
public static void Deconstruct<T>(this IEnumerable<T> seq, out T first, out IEnumerable<T> rest)
{
first = seq.FirstOrDefault();
rest = seq.Skip(1);
}
public static void Deconstruct<T>(this IEnumerable<T> seq, out T first, out T second, out IEnumerable<T> rest)
=> (first, (second, rest)) = seq;
public static void Deconstruct<T>(this IEnumerable<T> seq, out T first, out T second, out T third, out IEnumerable<T> rest)
=> (first, second, (third, rest)) = seq;
public static void Deconstruct<T>(this IEnumerable<T> seq, out T first, out T second, out T third, out T fourth, out IEnumerable<T> rest)
=> (first, second, third, (fourth, rest)) = seq;
public static void Deconstruct<T>(this IEnumerable<T> seq, out T first, out T second, out T third, out T fourth, out T fifth, out IEnumerable<T> rest)
=> (first, second, third, fourth, (fifth, rest)) = seq;
}
Then just use these deconstructors like this:
var list = new[] { 1, 2, 3, 4 };
var (a, b, rest1) = list;
var (c, d, e, f, rest2) = rest1;
Console.WriteLine($"{a} {b} {c} {d} {e} {f} {rest2.Any()}");
// Output: 1 2 3 4 0 0 False
IEnumerable<T>
, because in order to get the first and second elements you need to start iterating. You could wrap the resultingIEnumerator<T>
in anIEnumerable<T>
, but you'd only be able to iterate over it once. If you don't mind it being copied to aList<T>
, that would work, but that's pretty inefficient...IEnumerable<T>
(without re-enumeration problems that @JonSkeet mentions). Your code would then just bevar (a, (b, rest)) = someArray;