I'm still trying to find a fast way of how to convert a generic array of type TOutput to another array of type TInput. All my arrays are always of a numeric datatype, but since C# has no type constraint to Numeric as often requested, I currently have to live with this constraint. The suggested methods, like casting to an object before, seems to slow down my cast tremendously. Currently I have a large if/else construct that check for a type and cast to a defined type using pointer arithmetic, but this is way to large to handle for the future. Parallel.For seems a good way to get rid of pointers and to speed up thing, but still the C# generic constraints seem to be a problem, but still the Tout in the code below is a problem. Here's my code:

```
public static OutputType[] Cast<InputType, OutputType>(InputType[] inputArray_in)
{
var aRange = Partitioner.Create(0, inputArray_in.Length);
OutputType[] aResult = new OutputType[inputArray_in.Length];
Parallel.ForEach(aRange, (r) =>
{
for (int i = r.Item1; i < r.Item2; i++)
{
aResult[i] = (OutputType)(inputArray_in[i]);
}
});
return aResult;
}
```

Example:

```
float[] A = { 0.1f, 0.2f, 0.6f };
int []B = Cast<float, int>(A);
```

In all cases my array types are numerical values (float, short, double,...) and most of the time, the arrays are about 512x512 images, but in a stack of about 1000 slices in a volume. Do you see any chance to have a simple way of performing this?

Test Code

```
public static class CastTest
{
delegate double[] CastMethod(int[] input);
public static unsafe double[] Cast1(int[] input)
{
int N = input.Length;
double[] output = new double[N];
for (int i = 0; i < N; i++) output[i] = (double)(input[i]);
return output;
}
public static unsafe double[] Cast2(int[] input)
{
int N = input.Length;
double[] output = new double[N];
fixed (double* output_pinned = output)
{
double* outp = output_pinned;
fixed (int* input_pinned = input)
{
int* inp = input_pinned;
for (int i = 0; i < N; i++, inp++, outp++) *outp = (double)(*inp);
}
return output;
}
}
public static unsafe double[] Cast3(int[] input)
{
int N = input.Length;
double[] output = new double[N];
fixed (double* output_pinned = output)
{
double* outp = output_pinned;
fixed (int* input_pinned = input)
{
int* inp = input_pinned;
for (int i = 0; i < N; i++) outp[i] = (double)(inp[i]);
}
return output;
}
}
public static unsafe double[] Cast4(int[] input)
{
int N = input.Length;
double[] output = new double[N];
fixed (double* output_pinned = output)
{
fixed (int* input_pinned = input)
{
for (int i = 0; i < N; i++) output_pinned[i] = (double)(input_pinned[i]);
}
}
return output;
}
public static unsafe double[] Cast5(int[] input)
{
return Array.ConvertAll<int, double>(input, x => (double)x);
}
public static double[] Cast6(int[] input)
{
var aRange = Partitioner.Create(0, input.Length);
int N = input.Length;
double[] output = new double[N];
Parallel.ForEach(aRange, (r) =>
{
for (int i = r.Item1; i < r.Item2; i++) output[i] = (double)(input[i]);
});
return output;
}
public unsafe static double[] Cast7(int[] input)
{
var aRange = Partitioner.Create(0, input.Length);
int N = input.Length;
double[] output = new double[N];
Parallel.ForEach(aRange, (r) =>
{
fixed (double* output_pinned = output)
{
double* outp = output_pinned + r.Item1;
fixed (int* input_pinned = input)
{
int* inp = input_pinned + r.Item1;
for (int i = r.Item1; i < r.Item2; i++, outp++, inp++) *outp = (double)(*inp);
}
}
});
return output;
}
public unsafe static double[] Cast8(int[] input)
{
var result = (from m in input.AsParallel() select (double)m).ToArray();
return result;
}
public static double[] Cast9(int[] input)
{
return (from m in input select (double)m).ToArray();
}
public static double[] Cast10(int[] input)
{
return (from m in input.AsParallel() select (double)m).ToArray();
}
public static double[] Cast11(int[] input)
{
return new List<double>(input.Select(p => (double)p)).ToArray();
}
static int[] A = new int[100000];
const int runs = 10000;
public static void StartTest()
{
TestMethod("1", Cast1);
TestMethod("2", Cast2);
TestMethod("3", Cast3);
TestMethod("4", Cast4);
TestMethod("5", Cast5);
TestMethod("6", Cast6);
TestMethod("7", Cast7);
TestMethod("8", Cast8);
TestMethod("9", Cast9);
TestMethod("10", Cast10);
TestMethod("11", Cast11);
}
static void TestMethod(string Name, CastMethod method)
{
var timer = Stopwatch.StartNew();
for (int i = 0; i < runs; i++) { double[] res = method(A); }
timer.Stop();
Console.WriteLine(String.Format("{0}: {1}ms", Name, timer.ElapsedMilliseconds));
}
}
```

Thank you Martin

`InputType`

,`OutputType`

and`Tout`

might be ? – Marc Gravell♦ Mar 14 '12 at 8:14