It's not exactly clear what you want, but I'm guessing you want a "view" onto an array of bytes. In .Net 4.5, you can do this with
var a = new byte;
var s = new ArraySegment<Byte>(a, 9, 90);
((IList<Byte>)s) = 10;
Console.WriteLine(a); // writes "10"
Write90Bytes method could return an
ArraySegment<Byte> and then you could operate on that as a view into the underlying array, which would avoid the copy. Note, however, that
ArraySegment<T> is a
System.ValueType, which means casting it to
IList<T> will incur a boxing penalty.
If performance is critical and you need to avoid copying, you might also consider using pointers in an unsafe context, which means your
Write90Bytes method could return a
Byte* and you could then index into the array that way.
EDIT: now that I see your edit, you can't just return a value from a function "into" the memory location of an array. You'd need to pass the original array as an argument.
EDIT 2: you can't do what you are asking. The
ComputeHash function returns an array which it itself allocates. The only way you could do what you want is if
ComputeHash took the array as a parameter. Consider:
// previously defined...
byte bigTargetBytes = new byte;
// This method doesn't really exist, but if it did it would look like this
sha256.ComputeHash(sourcebytes, bigTargetBytes, offset);
Although in .Net there are specific restrictions on memory allocation due to it being a managed runtime, this is a common pattern in any programming language. In C/C++ development, there is a protocol used where either you pass in a pre-allocated array with an offset and maxlength to write to, or you allow the function to return an allocated memory which you are then given the responsibility to free (unless you are being called back from a framework). You can't just return a value into an existing buffer.
Do note however, that just copying 20 bytes from a GC array allocated by the
ComputeHash value is a very trivial operation, which the runtime handles very efficiently. Unless you are very sensitive to microsecond level pauses from time to time, you won't notice the difference between the actual copy and your hypothetical implementation.