21

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?

38

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.

Repeat 
00:00:18.6875488 

Loop 
00:00:06.1628806 

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. – Anders Gustafsson Sep 5 '11 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 '11 at 20:22
  • @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 – Thomas Levesque Sep 5 '11 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 '11 at 4:38
  • @xanatos, I just checked again; there's no trace of a List<T> in the Buffer<T> structure... – Thomas Levesque Sep 6 '11 at 8:43
7
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. – Anders Gustafsson Sep 5 '11 at 13:30
1
double[] theSameValues = Enumerable.Repeat(2.0, 10).ToArray();
  • Thanks, sllev, I was not aware of this method before. – Anders Gustafsson Sep 5 '11 at 13:32
-1

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. – Anders Gustafsson Sep 5 '11 at 13:34
-2

In VB.NET

Imports System.Linq

Dim n As Integer = 10

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

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