# byte[] to unsigned BigInteger?

Motivation: I would like to convert hashes (MD5/SHA1 etc) into decimal integers for the purpose of making barcodes in Code128C. For simplicity, I prefer all the resulting (large) numbers to be positive.

I am able to convert byte[] to BigInteger in C#...
Sample from what I have so far:

``````byte[] data;
byte[] result;
BigInteger biResult;

result = shaM.ComputeHash(data);
biResult = new BigInteger(result);
``````

But (rusty CS here) am I correct that a byte array can always be interpreted in two ways: A: as a signed number B: as an unsigned number

Is it possible to make an UNSIGNED BigInteger from a byte[] in C#?

Should I simply prepend a 0x00 (zero byte) to the front of the byte[]?

EDIT: Thank you to AakashM, Jon and Adam Robinson, appending a zero byte achieved what I needed.\

EDIT2: The main thing I should have done was to read the detailed doc of the BigInteger(byte[]) constructor, then I would have seen the sections about how to restrict to positive numbers by appending the zero byte.

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you should mark an accepted answer –  Hernán Eche May 3 '12 at 17:19

The remarks for the `BigInteger` constructor state that you can make sure any `BigInteger` created from a `byte[]` is unsigned if you append a `00` byte to the end of the array before calling the constructor.

Note: the `BigInteger` constructor expects the array to be in little-endian order. Keep that in mind if you expect the resulting `BigInteger` to have a particular value.

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But (rusty CS here) am I correct that a byte array can always be interpreted in two ways: A: as a signed number B: as an unsigned number

What's more correct is that all numbers (by virtue of being stored in the computer) are basically a series of bytes, which is what a byte array is. It's not true to say that a byte array can always be interpreted as a signed or unsigned version of a particular numeric type, as not all numeric types have signed and unsigned versions. Floating point types generally only have signed versions (there's no `udouble` or `ufloat`), and, in this particular instance, there is no unsigned version of `BigInteger`.

So, in other words, no, it's not possible, but since `BigInteger` can represent an arbitrarily large integer value, you're not losing any range by virtue of its being signed.

As to your second question, you would need to append `0x00` to end end of the array, as the `BigInteger` constructor parses the values in little-endian byte order.

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Examining the documentation for the relevant `BigInteger` constructor, we see:

The individual bytes in the value array should be in little-endian order, from lowest-order byte to highest-order byte

[...]

The constructor expects positive values in the byte array to use sign-and-magnitude representation, and negative values to use two's complement representation. In other words, if the highest-order bit of the highest-order byte in value is set, the resulting BigInteger value is negative. Depending on the source of the byte array, this may cause a positive value to be misinterpreted as a negative value.

[...]

To prevent positive values from being misinterpreted as negative values, you can add a zero-byte value to the end of the array.

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