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I'm porting a process over to Java. There's already working versions in C# and C++.

I have a section in C# that I do Marshal.Copy(...) to convert 64 ulongs to 512 bytes and that line in C++ I use memmove(...) to do the same thing. What is available in Java to achieve the same result? I need the same binary information in the same order just as bytes instead of longs.


The reason I'm porting to Java is to take advantage of the portability that Java naturally has. I would not like to use native code.

Another thing. Since Java doesn't contain unsigned values, then I need to change what I'm requesting by just a little. I would like to attain the 8 unsigned byte values from each of the 64 longs (ulongs in C# and C++) so that I can use those values at indices in arrays later. This needs to happen thousands of times so the fastest way would be the best way.

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1 Answer 1

up vote 20 down vote accepted

ByteBuffer works well for this: just put in 64 long values and get a byte[] out using the array() method. The ByteOrder class can handle endian issues effectively. For example, incorporating the approach suggested in a comment by wierob:

private static byte[] xform(long[] la, ByteOrder order) {
    ByteBuffer bb = ByteBuffer.allocate(la.length * 8);
    return bb.array();

Addendum: The resulting byte[] components are signed, 8-bit values, but Java arrays require nonnegative integer index values. Casting a byte to an int will result in sign extension, but masking the higher order bits will give the unsigned value of byte b:

int i = (int) b & 0xFF;

This answer elaborates on the applicable operator precedence rules. This related answer demonstrates a similar approach for double values.

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+1 You don't even need the loop: bb.asLongBuffer().put(la); – wierob Feb 6 '10 at 12:02
Thank you! Your suggestion is easier to read and potentially more efficient. – trashgod Feb 6 '10 at 18:04

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