3

Is there a way to remove the array bounds check in C#?

here is what I want to achieve:

public static int F(int[] M, int i) 
{
    return M[i]; // I can guarantee that [i] will never be outside of [0, M.Length]
}

Before this function call I have a logic which already does check for the bounds (with some extra logic into it). The thing I want to remove are following lines:

Program.F(Int32[], Int32)
    L0000: sub rsp, 0x28
    L0004: cmp edx, [rcx+8]           ; I don't need this line
    L0007: jae short L0015            ; I don't need this line
    L0009: movsxd rax, edx
    L000c: mov eax, [rcx+rax*4+0x10]
    L0010: add rsp, 0x28
    L0014: ret
    L0015: call 0x00007ffc8877bc70    ; I don't need this line
    L001a: int3                       ; I don't need this line

Question

Is there a way of removing those instructions?

Note

  • I tried to put an if check with a hope that the compiler will get that but it made the situation even worse.
public static int G(int[] M, int i) 
{
    if (i >= 0 && i < M.Length)
        return M[i];

    return -1;
}

this generates:

Program.G(Int32[], Int32)
    L0000: sub rsp, 0x28
    L0004: test edx, edx
    L0006: jl short L001f
    L0008: mov eax, [rcx+8]
    L000b: cmp eax, edx
    L000d: jle short L001f
    L000f: cmp edx, eax
    L0011: jae short L0029
    L0013: movsxd rax, edx
    L0016: mov eax, [rcx+rax*4+0x10]
    L001a: add rsp, 0x28
    L001e: ret
    L001f: mov eax, 0xffffffff
    L0024: add rsp, 0x28
    L0028: ret
    L0029: call 0x00007ffc8877bc70
    L002e: int3

as you can see it didn't help.

  • What I can do is: using unsafe:
public static unsafe int H(int* M, int i) 
{
    return M[i];
}

this generates what I was looking for:

Program.H(Int32*, Int32)
    L0000: movsxd rax, edx
    L0003: mov eax, [rcx+rax*4]
    L0006: ret

But I sadly can't enable unsafe for my project. Is there a solution in "non-unsafe" world?

10
  • Have you profiled the code and concluded that the bounds check actually slows things down considerably? stackoverflow.com/questions/16713076/…
    – trenki
    Apr 4, 2021 at 8:38
  • @trenki yep, the unsafe version is faster, than the regular one. But as I said It'll be hard for me to enable unsafe in my project. It is also hard to include the benchmark because it has lot of dependencies and clearing them out and including them into my question would take too much time (+ I don't think that changing the code would give us accurate results here).
    – user12722843
    Apr 4, 2021 at 8:43
  • Does this answer your question? Array bounds check efficiency in .net 4 and above
    – tymtam
    Apr 4, 2021 at 8:58
  • Such short method gets inlined during compilation and there's no overhead SharpLab.
    – JL0PD
    Apr 4, 2021 at 9:15
  • 1
    @Hrant. You're correct. I'm not used to read asm so didn't catch it. Done some benchmarking 1_000_000 ints: direct sum 0 .. ar.Length took 803μs, fsum length - 1 .. 0 891μs and without check optimizations 0 .. length 918μs on my PC
    – JL0PD
    Apr 4, 2021 at 10:01

1 Answer 1

2

Actually there's the way. Stumbled upon it in csFastFloat repository.

Idea here is to use MemoryMarshall.GetArrayDataReference to get reference to first item in array and then add shift to get actual value:

[MethodImpl(MethodImplOptions.AggressiveInlining)]
static T FastAccessValue<T>(T[] ar, int index)
{
       ref T tableRef = ref MemoryMarshal.GetArrayDataReference(ar);
       return Unsafe.Add(ref tableRef, (nint)index);
}

which is safe(?) equivalent of unsafe version

[MethodImpl(MethodImplOptions.AggressiveInlining)]
static unsafe T FastAccessValueUnsafe<T>(T[] ar, int index) where T : unmanaged
{
     fixed(T* ptr = ar)
     {
         return ptr[index];
     }
}

without limitation to only unmanaged structs.

With unsafe access it's even performs 10% faster on large data (over million items)

public int SumUnsafe(int[] ints, int length)
{
    int sum = 0;
    for (int i = 0; i < length; i++)
    {
        sum += FastAccessValue(ints, i);
    }
    return sum;
}
public int SumDirect(int[] ints, int length)
{
    int sum = 0;
    for (int i = 0; i < ints.Length; i++)
    {
        sum += ints[i];
    }
    return sum;
}
Method ints length Mean Error StdDev Code Size
SumDirect Int32[100000] 100000 80.13 μs 0.748 μs 0.700 μs 29 B
SumUnsafe Int32[100000] 100000 81.99 μs 0.535 μs 0.446 μs 33 B
SumDirect Int32[1000000] 1000000 854.73 μs 5.216 μs 4.624 μs 29 B
SumUnsafe Int32[1000000] 1000000 795.10 μs 2.680 μs 2.238 μs 33 B
SumDirect Int32[10000000] 10000000 10,104.72 μs 27.199 μs 22.712 μs 29 B
SumUnsafe Int32[10000000] 10000000 9,126.06 μs 30.329 μs 26.886 μs 33 B

Benchmark located in this gist

19
  • But slower over smaller array sizes, and also large code-size? What asm does they compile to? Doing the addressing mode manually? Apr 6, 2021 at 5:11
  • 1
    @PeterCordes It adds two dead-end operations: cmp and mov pastebin.com/dzRJdLR4
    – JL0PD
    Apr 6, 2021 at 5:19
  • I think you forgot to use your second param length in your loop. It'll make a difference as discussed in comments.
    – user12722843
    Apr 6, 2021 at 5:22
  • @Hrant It was intentional to show difference between ideal for JIT code and unsafe one
    – JL0PD
    Apr 6, 2021 at 5:23
  • 1
    @PeterCordes if he would've used the param length (which was my original example) then we should get more efficient behavior here. Correct me if I'm wrong.
    – user12722843
    Apr 6, 2021 at 5:50

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