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I have a need to convert an Int32 value to a 3-byte (24-bit) integer. Endianness remains the same (little), but I cannot figure out how to move the sign appropriately. The values are already constrained to the proper range, I just can't figure out how to convert 4 bytes to 3. Using C# 4.0. This is for hardware integration, so I have to have 24-bit values, cannot use 32 bit.

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What type do you plan on storing the 24-bit integer in? – The Scrum Meister Feb 7 '11 at 6:17
A byte array would be just fine. I will be outputting the 3 bytes across a serial connection, so as long as I can get it into bytes, I'm good to go. – drharris Feb 7 '11 at 6:18
That third line won't do anything (i & 0xffffff is always positive). Also, you might want to follow the second part of Joe's answer that works on systems with different endiannesses; the code you have will work for now but will break in unusual ways if you ever try to run it on a PowerPC or MIPS, for example. – Jeremiah Willcock Feb 7 '11 at 7:08
Sorry, my actual code involves setting a bool flag when negative. I neglected to realize that line 2 would then make it positive, and so line 3 would never activate. The point was to test the original number for negative. I will update the answer accordingly. And I am accounting for endianness, but I'll make a note in the solution that you should do so. – drharris Feb 7 '11 at 7:11
I simply removed my addendum altogether. Any interested party should read the answers. Assuming the 32-bit value is already constrained to the range of a 24-bit integer, the negative sign will always carry over to the 24-bit due to two's complement. All that is left is checking for endianness when you retrieve the byte array. I tried to overcomplicate things. :) – drharris Feb 7 '11 at 7:19
up vote 1 down vote accepted

If you want to do that conversion, just remove the top byte of the four-byte number. Two's complement representation will take care of the sign correctly. If you want to keep the 24-bit number in an Int32 variable, you can use v & 0xFFFFFF to get just the lower 24 bits. I saw your comment about the byte array: if you have space in the array, write all four bytes of the number and just send the first three; that is specific to little-endian systems, though.

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Thanks for the info. I'm still not convinced about the sign, since it's typically held within the most significant bit. For example, try the code Console.Write(-42 & 0xffffff);. Or am I missing something here? – drharris Feb 7 '11 at 6:44
It will just keep the lowest three bytes, which are unsigned (since you are right about the sign bit being in the top byte). However, even with the mask, 42 and -42 will produce different results after the AND operation. – Jeremiah Willcock Feb 7 '11 at 6:46
So, I can do int bit24 = bit32 & 0xffffff;, and then do bit24 |= 0x800000; if it tests for negative? Basically resetting that sign bit manually? – drharris Feb 7 '11 at 6:48
You would want to do if (bit24 & 0x800000) bit32 = (bit24 | 0xFF000000); else bit32 = bit24; to restore the sign bit (since all of the top bits need to be set to keep the value when changing to 32 bits). For a 24-bit number, the sign bit is in a different place than for a 32-bit number. – Jeremiah Willcock Feb 7 '11 at 6:50
My bad. I neglected to actually look at the hex for these answers. It turns out that for negative numbers in 32-bit, that the proper bit for 24-bit will indeed always be set due to two's complement (assuming the values are indeed constrained to the range of 24 bit). I've tested the full range of negative values in 32-bit, and it's always the case, so simply masking by 0xffffff will always work. – drharris Feb 7 '11 at 7:15

Found this:

int myInt = 800;
byte[] myByteArray = System.BitConverter.GetBytes(myInt);

sounds like you just need to get the last 3 elements of the array.


as Jeremiah pointed out, you'd need to do something like

int myInt = 800;
byte[] myByteArray = System.BitConverter.GetBytes(myInt);

if (BitConverter.IsLittleEndian) {
    // get the first 3 elements
} else {
    // get the last 3 elements
share|improve this answer
Note that the documentation says that the result of GetBytes is in the system's native endianness, so there would need to be a test for that to be portable. I think you meant "first 3 elements" rather than "last 3" for little-endian, too. – Jeremiah Willcock Feb 7 '11 at 6:25
good point, but doesn't all 3 answers have the same flaw? or does v & 0xFFFFFF work because the logic is handled in a lower level? – Joe Feb 7 '11 at 6:30
What flaw? Requiring a little-endian system? All of the solutions that write to a byte array seem to require endianness-checking; v & 0xFFFFFF is done within a 32-bit word, without needing to know how that is represented as bytes. – Jeremiah Willcock Feb 7 '11 at 6:32
Looking at the docs some more, BinaryReader and BinaryWriter are always little-endian, regardless of the system. There is also a solution at… that allows the endianness to be set. – Jeremiah Willcock Feb 7 '11 at 6:36
Looking at the newest change to your answer, I think it's still backwards: you want the first 3 elements for little-endian and the last 3 for big-endian. – Jeremiah Willcock Feb 7 '11 at 6:37

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