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How would I go about removing a number of bytes from a byte array?

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4  
Another flawed SO question, we've been getting a lot of them lately. Distinguished by a single sentence question that doesn't do much to explain the title. By far the best approach is to not do it. Many methods that take an array have an overload that take an offset and length. There's even a dedicated class for it: ArraySegment<T>. Whether that would help you is quite unclear from your question. Probably not. –  Hans Passant Mar 27 '10 at 21:30

4 Answers 4

up vote 18 down vote accepted

EDIT: As nobugz's comment (and Reed Copsey's answer) mentions, if you don't actually need the result as a byte array, you should look into using ArraySegment<T>:

ArraySegment<byte> segment = new ArraySegment<byte>(full, 16, full.Length - 16);

Otherwise, copying will be necessary - arrays always have a fixed size, so you can't "remove" the first 16 bytes from the existing array. Instead, you'll have to create a new, smaller array and copy the relevant data into it.

Zach's suggestion is along the right lines for the non-LINQ approach, but it can be made simpler (this assumes you already know the original array is at least 16 bytes long):

byte[] newArray = new byte[oldArray.Length - 16];
Buffer.BlockCopy(oldArray, 16, newArray, 0, newArray.Length);

or

byte[] newArray = new byte[oldArray.Length - 16];
Array.Copy(oldArray, 16, newArray, 0, newArray.Length);

I suspect Buffer.BlockCopy will be slightly faster, but I don't know for sure.

Note that both of these could be significantly more efficient than the LINQ approach if the arrays involved are big: the LINQ approach requires each byte to be individually returned from an iterator, and potentially intermediate copies to be made (in the same way as adding items to a List<T> needs to grow the backing array periodically). Obviously don't micro-optimise, but it's worth checking if this bit of code is a performance bottleneck.

EDIT: I ran a very "quick and dirty" benchmark of the three approaches. I don't trust the benchmark to distinguish between Buffer.BlockCopy and Array.Copy - they were pretty close - but the LINQ approach was over 100 times slower.

On my laptop, using byte arrays of 10,000 elements, it took nearly 10 seconds to perform 40,000 copies using LINQ; the above approaches took about 80ms to do the same amount of work. I upped the iteration count to 4,000,000 and it still only took about 7 seconds. Obviously the normal caveats around micro-benchmarks apply, but this is a pretty significat difference.

Definitely use the above approach if this is in a code path which is important to performance :)

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+1, buffering is definitely more efficient for large arrays. –  Zach Johnson Mar 27 '10 at 21:32
    
What's the difference between Buffer.BlockCopy and Array.Copy when used with byte arrays? –  dtb Mar 27 '10 at 21:42
    
@dtb: I don't expect there to be any functional difference in this case. Buffer.BlockCopy is a bit more restrictive - I suspect it's implemented in a lower-level manner, but I don't know the details. –  Jon Skeet Mar 27 '10 at 21:44
1  
@Jon Skeet: It sounds like from the documentation on Buffer.BlockCopy, msdn.microsoft.com/en-us/library/system.buffer.blockcopy.aspx, that it is intended for use where you may copy overlapping sections. From the docs: "As its name suggests, the BlockCopy method copies a block of bytes as a whole, rather than copying one byte at a time. Therefore, if src and dst reference the same array, and the range from srcOffset + count -1 overlaps the range from dstOffset + count - 1, the values of the overlapping bytes are not overwritten before they are copied to the destination." –  Zach Johnson Mar 27 '10 at 21:56
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@Zach: It's intended to cope with overlapping sections, but I doubt that it copies twice if it doesn't need to. –  Jon Skeet Mar 27 '10 at 23:49

You could do this:

using System.Linq

// ...

var newArray = oldArray.Skip(numBytes).ToArray();
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I will also mention - depending on how you plan to use the results, often, an alternative approach is to use ArraySegment<T> to just access the remaining portion of the array. This prevents the need to copy the array, which can be more efficient in some usage scenarios:

ArraySegment<byte> segment = new ArraySegment<byte>(originalArray, 16, originalArray.Length-16);

// Use segment how you'd use your array...  
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If you can't use Linq, you could do it this way:

byte[] myArray = // however you acquire the array

byte[] newArray = new byte[myArray.Length - 16];

for (int i = 0; i < newArray.Length; i++)
{
    newArray[i] = myArray[i + 16];
}

// newArray is now myArray minus the first 16 bytes

You'll also need to handle the case where the array is less than 16 bytes long.

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