# VB.Net - Converting multi-byte hex values to decimal

Facebook and Stack Exchange are now working together to support the Facebook developer community. Facebook engineers participate here along with the best Facebook developers in the world. If you have a technical question about Facebook, this is the best place to ask.

How would I convert the two individual byte values (in hex) to a decimal value representing the concatenated hex values? For example, if I have the

``````Dim byte1 As Byte = &H99
Dim byte2 As Byte = &H99

' I want the decimal representation of the hex value "9999"
' (byte1.ToString + byte2.ToString) which should be "39321"
``````

Currently I use the following code:

``````Dim decVal as integer
decVal = Val("&H" + Hex\$(byte1).ToString + Hex\$(byte2).ToString)
``````

However, when I use this, the value (decVal) comes out to "-26215"

What am I doing wrong in the conversion here?

-
 So I guess, I'm wondering if somebody could explain to me why my method doesn't work? What is causing a negative value to be returned in the case I presented? – GregH Apr 26 '11 at 0:15

Try the following:

``````decVal = byte1 * 256 + byte2
``````

Your problem is when you call Val("&H9999"), if you use `CInt("&H9999")` or `Integer.Parse("9999", System.Globalization.NumberStyles.HexNumber)` you would get the correct answer (in this case at least)

If you look at the output from:

``````decVal = Val("&H9999")
Console.WriteLine(decVal.ToString("X"))
``````

you get `FFFF9999`

I'm not sure why this is happening, but I would see this as a reason not to use the Val function to parse hexadecimal strings

-

@Patrick McDonald has a good inline way of doing it and if that's what you're looking for then I recommend using that. But I can't resist not giving you the overly complicated but cross-platform and expanded versions. One thing to note, you are asking to convert bytes in big-endian mode which is a very important topic to understand if you're playing with bytes.

Both functions below take a param array and perform conversions but in two different ways. One handles an arbitrarily large byte array (bound only by platform restrictions) and the other uses the built-in converter class that reads byte arrays.

Once again, let me stress the "overly complicated" part.

``````Private Shared Function ConvertBytes2(ByVal ParamArray bytes() As Byte) As UInt32
''//Reverse the array order
Dim NewBytes = bytes.Reverse().ToList().ToArray()
''//Our return value
Dim Dec As UInt32 = 0
''//Temporary value for bit shifting
Dim T As UInt32
''//Loop through the bytes from left to right
For I = (NewBytes.Count - 1) To 0 Step -1
''//Grab the byte
T = NewBytes(I)
''//Shift it and add to our return value
Dec += T << (8 * I)
Next
Return Dec
End Function
Private Shared Function ConvertBytes1(ByVal ParamArray bytes() As Byte) As UInt32
''//We want to read the bytes in big-endian order but BitConverter works in little-endian mode on most Windows systems (but not all) so convert if needed
Dim NewBytes() As Byte
If BitConverter.IsLittleEndian Then
NewBytes = bytes.Reverse().ToList().ToArray()
Else
NewBytes = bytes
End If
''//Our return value
Dim Dec As UInt32
''//BitConverter can return UIn16, 32 or 64, we're only supporting 16 and 32 below
If NewBytes.Count = 2 Then
Dec = BitConverter.ToUInt16(NewBytes, 0)
ElseIf NewBytes.Count = 4 Then
Dec = BitConverter.ToUInt32(NewBytes, 0)
Else
''//Invalid number of bytes sent
Throw New ArgumentOutOfRangeException("bytes")
End If
Return Dec
End Function

Dim Byte1 As Byte = &HA
Dim Byte2 As Byte = &H99
''//&h0A99 = 2,713

Trace.WriteLine(ConvertBytes1(Byte1, Byte2))
Trace.WriteLine(ConvertBytes2(Byte1, Byte2))
``````
-