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To explain: I have array of ints as input. I need to convert it to array of bytes, where 1 int = 4 bytes (big endian). In C++, I can easily just cast it and then access to the field as if it was byte array, without copying or counting the data - just direct access. Is this possible in C#? And in C# 2.0?

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Is your application going to be running on a platform which is natively big endian? If not then you'll need to copy the bytes to do the conversion at least. – M.Babcock Jan 7 '12 at 20:51
up vote 5 down vote accepted

Yes, using unsafe code:

int[] arr =...
fixed(int* ptr = arr) {
    byte* ptr2 = (byte*)ptr;
    // now access ptr2[n]

If the compiler complains, add a (void*):

    byte* ptr2 = (byte*)(void*)ptr;
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Just tested it, and the compiler doesn't complain. (At least using C#4) – CodesInChaos Jan 7 '12 at 20:56
@CodeInChaos cheers; I'm on iPad - somewhat lacking in both csc and gmcs... – Marc Gravell Jan 7 '12 at 20:58

You can create a byte[] 4 times the size of your int[] lenght. Then, you iterate trough your integer array & get the byte array from:


Next you copy the 4 bytes from this function to the correct offset (i * 4) using Buffer.BlockCopy.

BitConverter Buffer.BlockCopy

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Have a look at the BitConverter class. You could iterate through the array of int, and call BitConverter.GetBytes(Int32) to get a byte[4] for each one.

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This copies the data, though – Marc Gravell Jan 7 '12 at 20:50
There is no way to access data without copying it. In fact, "access" and "copy" are essentially synonymous in this context. Even just i as an rvalue, the minimum possible way to access a variable, copies its value. – David Schwartz Jan 7 '12 at 20:53
So? Not often do people want to use unsafe code. – Jonathon Reinhart Jan 7 '12 at 20:54
@David no, ref i doesn't copy the value :p – Marc Gravell Jan 7 '12 at 20:57
A new allocation per read is pretty expensive, and unfortunately BitConverter doesn't offer an overload that reuses an existing array. – CodesInChaos Jan 7 '12 at 21:14

If you write unsafe code, you can fix the array in memory, get a pointer to its beginning, and cast that pointer.

  fixed(int* pi=arr)
    byte* pb=(byte*)pi;

An array in .net is prefixed with the number of elements, so you can't safely convert between int[] and byte[] that points to the same data. You can cast between uint[] and int[] (at least as far as .net is concerned, the support for this feature in C# itself is a bit inconsistent).

There is also a union based trick to reinterpret cast references, but I strongly recommend not using it.

The usual way to get individual integers from a byte array in native-endian order is BitConverter, but its relatively slow. Manual code is often faster. And of course it doesn't support the reverse conversion.

One way to manually convert assuming little-endian (managed about 400 million reads per second on my 2.6GHz i3):

byte GetByte(int[] arr, int index)
  uint elem=(uint)arr[index>>2];
  return (byte)(elem>>( (index&3)* 8));

I recommend manually writing code that uses bitshifting to access individual bytes if you want to go with managed code, and pointers if you want the last bit of performance.

You also need to be careful about endianness issues. Some of these methods only support native endianness.

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The bit shifting is very well noted. In particular, some platforms don't even allow unsafe. – Marc Gravell Jan 7 '12 at 21:02

The simplest way in type-safe managed code is to use:

byte[] result = new byte[intArray.Length * sizeof(int)];
Buffer.BlockCopy(intArray, 0, result, 0, result.Length);

That doesn't quite do what I think your question asked, since on little endian architectures (like x86 or ARM), the result array will end up being little endian, but I'm pretty sure the same is true for C++ as well.

If you can use unsafe{}, you have other options:

  fixed(byte* result = (byte*)(void*)intArray){
    // Do stuff with result.
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I think BlockCopy uses native endianness, and not little-endian. Of course the CLR typically runs on little-endian architectures, so the difference rarely matters in practice. – CodesInChaos Jan 7 '12 at 21:19
@CodeInChaos, yeah--quite right. My wording was a little sloppy. I really meant to contrast the little-endianness that results from his likely platform choice with the OP's requirement for a big-endian result. I've fixed the wording to make things slightly more clear. – sblom Jan 9 '12 at 21:59

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