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I would like an elegant, efficient means of taking any unsigned integer and converting it into the smallest byte array it will fit into. For example:

250 = byte[1]
2000 = byte[2]
80000 = byte[3]

so that I can write:

var foo = getBytes(bar);

and foo will be of different lengths depending on the value of bar. How would I do that?

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up vote 2 down vote accepted

You can do it like this, as an extension method:

public static byte[] ToByteArray(this int value) {
     var bytes = Enumerable
                     .Range(0, sizeof(int))
                     .Select(index => index * 8)
                     .Select(shift => (byte)((value >> shift) & 0x000000ff))
                     .SkipWhile(b => b == 0x00)
     return bytes;


int j = 2000;
var bytes = j.ToByteArray();
for(int index = 0; index < bytes.Length; index++) {
    Console.WriteLine("{0:x}", bytes[index]);



And replacing j = 2000 by j = 80000 in the above gives


And replacing j = 2000 by j = 250 in the above gives

share|improve this answer
Elegant... I like it. How well do you think it will perform? – Jeremy Holovacs Nov 7 '11 at 14:38
It's definitely not the fastest, but unless you're doing this in a very tight loop, it's probably fast enough. Only you can know if this meets your performance requirements. – jason Nov 7 '11 at 14:40
@Jeremy - Can you explain what makes this answer more elegant than the one posted by thecoop? What does 'elegant' mean when it comes to code? – Chris Dunaway Nov 7 '11 at 17:13
I would say doing blocks of if statements to explicitly cover every possibility is not elegant... it's effective, and may be fast, but I don't think it's elegant. – Jeremy Holovacs Nov 7 '11 at 17:33
I don't disagree, but I see that phrase a lot when it comes to code and was just pondering what exactly is "elegant code"? Is it code that is short and easy to maintain? Does it have to be short? I presume it must perform well to be considered elegant. What are the traits that make code elegant? – Chris Dunaway Nov 10 '11 at 18:07

There's no single method you can use, but you can do it quite easily (warning - not tested)

byte[] bytes;

if ((i & 0xffffff00)==0) {
    bytes = new byte[] { (byte)i };
else if ((i & 0xffff0000)==0) {
    bytes = new byte[] { (byte)(i & 0xff), (byte)((i & 0xff00) >> 8) };
else if ((i & 0xff000000)==0) {
    bytes = new byte[] { (byte)(i & 0xff), (byte)((i & 0xff00) >> 8), (byte)((i & 0xff0000) >> 16) };
else {
    bytes = BitConverter.GetBytes(i);
share|improve this answer
bleh... yeah but that's what I'm trying to avoid. I'm hoping for something a bit more elegant than that sort of brute force method. – Jeremy Holovacs Nov 7 '11 at 14:30

This will get you all the bytes:

static byte[] GetBytes(uint bar)
        return BitConverter.GetBytes(bar).Reverse().SkipWhile(c => c == 0).Reverse().ToArray();
share|improve this answer
well, I'll want the bits in there too, but this is clean. I like it. – Jeremy Holovacs Nov 7 '11 at 14:45
@JeremyHolovacs The second one will do what you want – Oskar Kjellin Nov 7 '11 at 14:45
-1, sorry, but the first returns 1 if the int is 0xff000000 (you want all 4 bytes in this instance). The second will return all 4 bytes, whether needed or not. Sorry again mate. – Binary Worrier Nov 7 '11 at 14:47
@BinaryWorrier The last one will work for your example? It's not that big of deal to make it trim the size of the array if needed – Oskar Kjellin Nov 7 '11 at 14:52
@OskarKjellin the second one will not work, this will bring back a 4-byte array per – Jeremy Holovacs Nov 7 '11 at 14:55

You can probably just hard code the boundary points, but if you want a more dynamic approach, you could use something like this:

byte[] getBytes(uint bar) {
    if (bar == 0) return new byte[0];

    return getBytes(bar / 256)
            .Concat(Enumerable.Repeat((byte)(bar % 256), 1))
share|improve this answer
+1 for the uint, I need to address that in my question. – Jeremy Holovacs Nov 7 '11 at 14:40
@JeremyHolovacs Be aware of – Oskar Kjellin Nov 7 '11 at 14:44
interesting, but negatives are out of scope for the question: As I recall from my comp sci days, a negative 32-bit int will always be 4 bytes. – Jeremy Holovacs Nov 7 '11 at 14:52
@JeremyHolovacs Most often you would just throw an exception in that case – Oskar Kjellin Nov 7 '11 at 14:53
Well that may not be an error condition; my point was, I will know how long that byte array needs to be (always 4) for every negative int32, but I may not need/ want 4 bytes for a positive int when one will do. That's why I'm saying it's out of my question's scope. – Jeremy Holovacs Nov 7 '11 at 15:10

It is appropriate for long type as well (the only change is "byte?[4]" to "byte?[8]", and declaration of course).

static byte[] ToArray(int num) 
    byte?[] b = new byte?[4];
    int i = 0;

    do b[i++] = (byte)num;
    while ((num = num >> 8) > 0);

    byte[] result = new byte[i];
    for (int j = 0; j < i; j++)
        result[j] = b[j].Value;

    return result;
share|improve this answer
private byte[] GetBytes(int number)
    if (number < 0) 
        throw new ArgumentException("Can not be less than zero", "number");

    int numberOfBits = 0;
    while (number > 0)
        number = number >> 1;

    int reminder = 0;
    int numberofBytes = Math.DivRem(numberOfBits, 8, out reminder);
    numberofBytes = reminder > 0 ? numberofBytes + 1 : numberofBytes;
    return new byte[numberofBytes];
share|improve this answer

This should be reasonably fast, and it only allocates exactly as much space as it needs to.

static byte[] getBytes(long a)
    int k=0;
    for (long b=a; b!=0; b>>=8) k++;
    byte[] res = new byte[k];
    for (k=0; a!=0; a>>=8)
        res[res.Length-(++k)] = (byte)(a&0xFF);
    return res;
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