# BigInteger.toByteArray() returning strange value in java

I am experimenting with BigIntegers with random values.

``````BigInteger bi1 = new BigInteger("365375409332725729550921208179070754913983135742");
BigInteger bi2 = new BigInteger("386718480727050819604290866521372728863001258687");

byte[] bytesBi1 = bi1.toByteArray();
byte[] bytesBi2 = bi2.toByteArray();
``````

The first one is the one which produces a strange value. The second is ok.

Can someone explain to me what I am doing wrong ?

Edit

Here're the results:

``````bytesBi1 = [63, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -2]
bytesBi2 = [67, -67, 14, 113, -94, 16, -120, 82, 84, 95, -127, -124, -90, -33, 29, -102, 90, 125, -86, -65]
``````
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What do you mean with "strange value". Could you please elaborate on that an maybe show some code. Cheers! –  SimonSez Mar 18 '12 at 23:24
Do you mean it gives negative numbers in the array? If so, this is because the byte in Java is signed byte. –  Eng.Fouad Mar 18 '12 at 23:34
I edited the post to include the result. I do not understand why bytesBi1 have this value. –  Remi Wilde Mar 18 '12 at 23:56
Well, in hexadecimal, the value would be 0x3ffffff(some more ff)fe. What exactly is strange here? This is like numbers of the form `x^2 - 2` for positive x look like. –  Ingo Mar 19 '12 at 0:05
@RemiWilde I am very curious. Were did you get the String data for bi1? What program generated that String? How did you happen to use that particular sequence of numbers? –  Java42 Mar 19 '12 at 0:15

`BigInteger`'s `toByteArray()` method returns the two's complement representation of the number.

The values you're getting are in fact the correct two's complement representation of the numbers you put in.

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This is the hex internal representation of `bi1`, you can see it in the debugger

``````mag[0] = 3FFFFFFF
mag[1] = FFFFFFFF
mag[2] = FFFFFFFF
mag[3] = FFFFFFFF
mag[4] = 00000001
``````

If you split each dwords in 4 bytes and you take the two's complement of each bytes,
eg for the first line : `mag[0] = 3F,FF,FF,FF` wich turns into `63, -1 ,-1,-1` in decimal notation