In the C++ Standard Template Library (STL), it is possible for example to create a vector consisting of multiple copies of the same element, using this constructor:

std::vector<double> v(10, 2.0);

This would create a vector of 10 doubles, initially set to 2.0.

I want to do a similar thing in C#, more specifically creating an array of n doubles with all elements initialized to the same value x.

I have come up with the following one-liner, relying on generic collections and LINQ:

double[] v = new double[n].Select(item => x).ToArray();

However, if an outsider would read this code I don't think it would be immediately apparent what the code actually does. I am also concerned about the performance, I suppose it would be faster to initialize the array elements via a for loop (although I haven't checked). Does anybody know of a cleaner and/or more efficient way to perform this task?


6 Answers 6


What about this?

double[] v = Enumerable.Repeat(x, n).ToArray();

EDIT: I just did a small benchmark; to create 1000 arrays of 100000 elements each, using a loop is about 3 times faster that Enumerable.Repeat.



So if performance is critical, you should prefer the loop.

  • Thanks, Thomas, the Enumerable.Repeat method was new to me. Thanks also for the benchmark; I did the same thing myself just now out of curiosity, and reached about the same conclusion. Sep 5, 2011 at 13:30
  • @Thomas @Anders: The ToArray first creates a List, then fills it and then creates the final array using the size of the List. This is probably the reason why it's so much slower (and why if possible I prefer to use the ToList instead of the ToArray)
    – xanatos
    Sep 5, 2011 at 20:22
  • 1
    @xanatos, no, it's not what ToArray does; look at the implementation with Reflector or another decompiler... The problem is that the number of elements is not known initially, so it starts with a small array, fills it, creates a bigger array and copy the items from the smaller one, fills the bigger array, etc. It involves a lot of array creation and copy, which is why it's so slow. And ToArray is not noticeably slower that ToList... actually they probably have roughly the same performance characteristics Sep 5, 2011 at 21:30
  • @Thomas While technically it internally uses a structure called Buffer<T>, if the source isn't a ICollection<T> the Buffer<T> works exactly as I've said. Look at the Buffer Constructor and to the Buffer.ToArray
    – xanatos
    Sep 6, 2011 at 4:38
  • @xanatos, I just checked again; there's no trace of a List<T> in the Buffer<T> structure... Sep 6, 2011 at 8:43
var arr = Enumerable.Repeat(x, n).ToArray();

Personally, I'd just use a regular array loop, though:

var arr = new double[n];
for(int i = 0 ; i < arr.Length ; i++) arr[i] = x;

More characters, but the array is demonstrably the right size from the outset - no iterative growth List<T>-style and final copy back. Also; simply more direct - and the JIT can do a lot to optimise the for(int i = 0 ; i < arr.Length ; i++) pattern (for arrays).

  • Thanks, Mark, I was not aware of Enumerable.Repeat. And yes, as also pointed out by Thomas, the for loop seem to give the best performance. Sep 5, 2011 at 13:30

Later versions of .NET have introduced an Array.Fill method. See usage:

double[] v = new double[n];
Array.Fill(v, 2.0);
double[] theSameValues = Enumerable.Repeat(2.0, 10).ToArray();
  • Thanks, sllev, I was not aware of this method before. Sep 5, 2011 at 13:32

the for each (or better the classic for) is always much faster than using Linq. You should use the Linq expression only if it makes the code more readable

  • Thanks, Massimiliano. Yes, it was quite apparent when I did my own benchmarking that the for loop is preferable from a performance point-of-view. In the end, this is probably where I will land. Sep 5, 2011 at 13:34


Imports System.Linq

Dim n As Integer = 10

Dim colorArray = New Color(n - 1) {}.[Select](Function(item) Color.White).ToArray()

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