Unsafe performance C# , remove long being cast to int to access array index

Question

Hi I got following code in C# unsafe where array is fixed

array[(int)(index)]

index is long (and has to be long for some reasons).. so I need to cast it to int in order to get access to array element. Is there a way to use pointers or some other combination of actions in unsafe code to prevent this cast cause index can have long value of 1 for example (and never exceeds int value obv).. I feel that maybe unsafe pointers addition could prevent it from happening. I also feel this cast is not for free..and performance is the issue here. (exactly this line) I also think its not possible but I ask just in case im mistaken.

Ok ill give some more detail , im doing some required logical operations on long preIndex like

value = array[(int)((preIndex & mask ) >> 10)]

those operations are required and code is fairly minimalistic already. Only thing I can find to be optimizable is this cast from long to int, cause bitwise operations are required.

Thanks

Answer 1

In unchecked context (the default), the cast will just discard the unneeded MSBs, so there isn't a performance penalty. In checked context, it will throw an exception if the index range exceeds int.MaxValue.

Answer 2

Yes there is a trivial cost converting from long to int, but I'm very sure that a: it won't matter in any sane code and b: it is unavoidable (arrays are accessed via int index; period). To show the won't matter:

static class Program
{
    static int GetSize() { return 10000; }
    static void Main() {

        int size = GetSize();
        int[] someData = new int[size];

        var watchInt32 = Stopwatch.StartNew();
        for (int i = 0; i < 5000; i++)
        {
            for (int j = 0; j < size; j++)
            {
                someData[j]++;
            }
        }
        for (int j = 0; j < size; j++) someData[j] = 0;
        watchInt32.Stop();
        long lSize = size;
        var watchInt64 = Stopwatch.StartNew();
        for (int i = 0; i < 5000; i++)
        {
            for (long j = 0; j < lSize; j++)
            {
                someData[j]++;
            }
        }
        watchInt64.Stop();

        Console.WriteLine("{0}ms vs {1}ms over {2} iterations",
            (int)watchInt32.ElapsedMilliseconds,
            (int)watchInt64.ElapsedMilliseconds, 5000 * size);
    }
}

I get:

162ms vs 215ms over 50000000 iterations

So unless your code does nothing except array access, this just isn't going to matter. At all. In any significant way.

Answer 3

I don't think you have to worry about a possible performance impact due to the conversion. Just look at the machine code generated by the JIT, they are identical for both the int and the long index:

x86, release mode, int index:

        var val = arr[idx];
00000059  cmp         ebx,dword ptr [edx+4] 
0000005c  jae         00000078 
0000005e  mov         esi,dword ptr [edx+ebx*4+8] 

x86, release mode, casted long index:

        var val = arr[(int)idx];
0000005f  cmp         ebx,dword ptr [edx+4] 
00000062  jae         00000081 
00000064  mov         esi,dword ptr [edx+ebx*4+8]

x64, release mode, int index:

        var val = arr[idx];
00000060  movsxd      rcx,ebx 
00000063  mov         rax,qword ptr [rdi+8] 
00000067  cmp         rcx,3 
0000006b  jae         0000000000000080 
0000006d  mov         ecx,dword ptr [rdi+rcx*4+10h] 

x64, release mode, long index:

        var val = arr[(int)idx];
00000061  movsxd      rcx,ebx 
00000064  mov         rax,qword ptr [rdi+8] 
00000068  cmp         rcx,3 
0000006c  jae         0000000000000080 
0000006e  mov         ecx,dword ptr [rdi+rcx*4+10h]

As Daniel Gehriger pointed out, the conv.i4 IL instruction doesn't need to be considered in the machine code, the 32 MSBs are simply dropped.

Answer 4

int count = 10000000;
            object [] a = new object[count];

            Stopwatch s1 = Stopwatch.StartNew();
            for (long i = 0; i < count; i++)
                a[i] = new object();
            s1.Stop();

            Stopwatch s2 = Stopwatch.StartNew();
            for (int i = 0; i < count; i++)
                a[i] = new object();
            s2.Stop();       



            Debug.WriteLine(s1.ElapsedTicks + "  " + s2.ElapsedTicks);

3362502 3115428

So there is no significant impact.

Answer 5

The performance issue you see from that line is from the index lookup - is it a regular array, like object[] ? or did you implement the index property?