Follow-Up available:There's a follow-up with further details, see Convert MBF to IEEE.

I've got some legacy data which is still in use, reading the binary files is not the problem, the number format is. All floating point numbers are saved in MBF format (Single *and* Double). I've found a topic about that on the MSDN boards but that one only deals with Single values. I'd also would like to stay away from API-Calls as far as I can.

Does anyone have a solution for Doubles?

**Edit:** Just in case somebody needs it, here is the VB.NET Code (it's `Option Strict`

compliant) I ended up with (feel free to convert it to C# and edit it in):

```
''' <summary>Converts a MBF Single to an IEEE Single</summary>
''' <param name="src">The MBF Single value</param>
''' <returns>The converted IEEE Single value</returns>
''' <remarks>Here can find some further information about this topic: http://en.wikipedia.org/wiki/Microsoft_Binary_Format http://support.microsoft.com/kb/140520</remarks>
Public Shared Function MTIS(ByVal src As Single) As Single
Return MTIS(BitConverter.GetBytes(src), 0)
End Function
''' <summary>Converts a MBF Single to an IEEE Single</summary>
''' <param name="src">The source array</param>
''' <param name="startIndex">The start index at which the Single starts</param>
''' <returns>The converted IEEE Single value</returns>
''' <remarks>Here can find some further information about this topic: http://en.wikipedia.org/wiki/Microsoft_Binary_Format http://support.microsoft.com/kb/140520</remarks>
Public Shared Function MTIS(ByVal src() As Byte, ByVal startIndex As Integer) As Single
Dim mbf(3) As Byte
Dim ieee(3) As Byte
Array.Copy(src, startIndex, mbf, 0, 4)
If mbf(3) <> 0 Then
Dim sign As Byte = mbf(2) And ToByte(&H80)
Dim exp As Byte = mbf(3) - ToByte(2) ' -1-128-127 '
ieee(3) = ieee(3) Or sign
ieee(3) = ieee(3) Or exp >> 1
ieee(2) = ieee(2) Or exp << 7
ieee(2) = ieee(2) Or mbf(2) And ToByte(&H7F)
ieee(1) = mbf(1)
ieee(0) = mbf(0)
End If
Return BitConverter.ToSingle(ieee, 0)
End Function
''' <summary>Converts a MBF Double to a IEEE Double</summary>
''' <param name="src">The MBF Double value</param>
''' <returns>The converted IEEE Double value</returns>
''' <remarks>Here can find some further information about this topic: http://en.wikipedia.org/wiki/Microsoft_Binary_Format http://support.microsoft.com/kb/140520</remarks>
Public Shared Function MTID(ByVal src As Double) As Double
Return MTID(BitConverter.GetBytes(src), 0)
End Function
''' <summary>Converts a MBF Double to a IEEE Double</summary>
''' <param name="src">The source array</param>
''' <param name="startIndex">The start index at which the Double starts</param>
''' <returns>The converted IEEE Double value</returns>
''' <remarks>Here can find some further information about this topic: http://en.wikipedia.org/wiki/Microsoft_Binary_Format http://support.microsoft.com/kb/140520</remarks>
Public Shared Function MTID(ByVal src() As Byte, ByVal startIndex As Integer) As Double
Dim mbf(7) As Byte
Dim ieee(7) As Byte
Array.Copy(src, startIndex, mbf, 0, 8)
If mbf(7) <> 0 Then
Dim sign As Byte = mbf(6) And ToByte(&H80)
Dim exp As Int16 = mbf(7) - 128S - 1S + 1023S
ieee(7) = ieee(7) Or sign
ieee(7) = ieee(7) Or ToByte(exp >> 4 And &HFF)
ieee(6) = ieee(6) Or ToByte(exp << 4 And &HFF)
For i As Integer = 6 To 1 Step -1
mbf(i) <<= 1
mbf(i) = mbf(i) Or mbf(i - 1) >> 7
Next
mbf(0) <<= 1
For i As Integer = 6 To 1 Step -1
ieee(i) = ieee(i) Or mbf(i) >> 4
ieee(i - 1) = ieee(i - 1) Or mbf(i) << 4
Next
ieee(0) = ieee(0) Or mbf(0) >> 4
End If
Return BitConverter.ToDouble(ieee, 0)
End Function
```