For multidimensional arrays Array.CreateInstance can be used to create non-zero index based arrays, but if you try that for a 1-dimensional arrays (vectors) as in e.g.:

public double[] myArray = (double[])Array.CreateInstance(typeof(double), new int[1] { 12 }, new int[1] { 1 });

this will fail at run-time when the cast from the the multidimensional Array to a single-dimensional array fails

"Unable to cast object of type 'System.Double[*]' to type 'System.Double[]'"

Now I could just create a zero based array and ignore the first value, or work with offsets etc., but am I overlooking some c# syntactic magic that allows for non zero based vectors?


I'll take Eric Lippert's word for it if he says "There's no obvious way to make a non-zero-based array in C#"

  • 3
    You could make a simple wrapper struct that wraps a zero-based array and has an indexer that does what you want -- adds or subtracts the right offset. Apr 20 '11 at 15:08
  • 1
    Hi, I disagree with Genady's answer (that you flagged as "Most Correct"). Could you please see the Answer I just added, and unflag Genady's answer, as it is not correct.
    – mike
    Nov 4 '15 at 18:30

You can make a non-zero-based array in C#, but the useage of it is kind-of obnoxious. It is definitly not a simple substitute for a normal (i.e., zero-based single dimentional) array.

        // Create the array.
        Array myArray = Array.CreateInstance(typeof(double), new int[1] { 12 }, new int[1] { 1 });

        // Fill the array with random values.
        Random rand = new Random();
        for (int index = myArray.GetLowerBound(0); index <= myArray.GetUpperBound(0); index++)
            myArray.SetValue(rand.NextDouble(), index);

        // Display the values.
        for (int index = myArray.GetLowerBound(0); index <= myArray.GetUpperBound(0); index++)
            Console.WriteLine("myArray[{0}] = {1}", index, myArray.GetValue(index));

The GetValue/SetValue syntax that is required for this is uglier than subtracting one from a vector index at each occurance.

If a value type is stored in the array, then it will be stored in consecutive position just as in a regular array, but the getter and setter will require boxing of the values (unless there is some compiler magic that I am not aware of). And the getter will usually require a cast (just to make it even uglier).

    double myValue = (double)myArray.GetValue(index);

Also note that the correct comparison for GetUpperBound is <=, unlike Length which is compared with <.

  • 1
    Oh gosh, that's awful. I tried this in a LINQ context. The compiler accepts this particular constructor with two int[], but then the resulting Array object doesn't have any magical LINQ methods. (At least on .NET 4.) Thanks for sharing anyway. Sep 2 '13 at 13:19
  • @StéphaneGourichon In order to use LINQ, you need to cast the Array type into IEnumerable<T>. LINQ is no magic. It is a mere set of type extensions. Feb 20 '19 at 16:47
  • While the code works on my machine, when I use debug mode, locals, and expand the array name, I get "..." instead a list of indexed values as with arrays defined in the normal way....Strange!
    – NoChance
    Nov 25 '20 at 15:02

Non-Zero based arrays DO exist in C, and there IS a way to create a 1's (or whatever) based array.

I fully agree that they are messy, and they should not be used for anything other than legacy stuff, but they are ESSENTIAL to interact with old COM libraries.

The most common place to run into this is working with the Microsoft.Office.Interop.Excel.Range object in the Excel library which still uses the old DCOM interface underneath.


/// <summary>
    /// Makes the equivalent of a local Excel range that can be populated 
    ///  without leaving .net
    /// </summary>
    /// <param name="iRows">number of rows in the table</param>
    /// <param name="iCols">number of columns in the table</param>
    /// <returns>a 1's based, 2 dimensional object array which can put back to Excel in one DCOM call.</returns>
    public static object[,] NewObjectArray(int iRows, int iCols)

        int[] aiLowerBounds = new int[] { 1, 1 };
        int[] aiLengths = new int[] { iRows, iCols};

        return (object[,])Array.CreateInstance(typeof(object), aiLengths, aiLowerBounds);


In this case, the reason this code is necessary is each DCOM call to excel is a cross-process call, and if you were to access cells one-at-a-time, you'd incur huge overhead, (either retrieving or setting values). An Excel range is a 1's based 2 dimensional array, and if one creates the array, and populates it locally, it can be pushed to excel in one cross-process call, creating an enormous performance improvement.

  • 3
    Thank you, Excel is exactly where I has this issue now.
    – CodeMonkey
    Sep 21 '18 at 7:33

If anybody is still looking for a one-based array implementation, here is a one-dimensional generic one-based array, which is just a wrapper type on a regular array:


There is also a two-dimensional version, but no higher dimensional versions as of yet (this code was written to support Excel, so 2D was all that was needed):


Both of these types have test written for them in an associated test project under the same repo:


Disclaimer: these repos are hosted on my personal GitHub account and are open source.


All arrays in C# are zero based. As far as I know there is no way to create a 1 based array. Imagine what kind of a mess would have happened if that was possible. Here is a similar thread which explains the issue with more details - C#: Nonzero-based arrays are not CLS-compliant

  • 2
    actually, you can create 1-based arrays in c#, see topvoted answer below.
    – Brann
    Feb 4 '13 at 13:17
  • @GenadySergeev I agree having two kinds of arrays would be a mess. But pascal-style arrays where the base index can be anything at all are actually quite useful and not messy. Funny how the world works. Jun 28 '14 at 14:47
  • 6
    I down-voted this because it is a dangerously incorrect answer. Dot Net framework supports non-zero based arrays in order to maintain legacy compatibility with old COM/DCOM components. In particular the necessary local copy of an Excel.Range object requires a 1's based 2-dimensional array. Arrays can be dimensioned non-zero using Array.CreateInstance() docs here: msdn.microsoft.com/en-us/library/x836773a(v=vs.110).aspx
    – mike
    Oct 21 '15 at 1:21
  • In fact the COM Interop of Excel returns a non zero based multidimensional array when you access Worksheet.UsedRange.Value. Feb 25 '16 at 8:57
  • 3
    Utterly wrong statement. See the answer by Jeffrey L Whitledge. Feb 20 '19 at 16:38

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