Microsoft KB Archive/210571

= ACC2000: How to Convert Unsigned Integers to Long Integers =

Article ID: 210571

Article Last Modified on 10/11/2006

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APPLIES TO


 * Microsoft Access 2000 Standard Edition

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This article was previously published under Q210571



Advanced: Requires expert coding, interoperability, and multiuser skills.



SUMMARY
There are situations in which calling functions from external dynamic-link libraries (dlls) returns a 2-byte unsigned integer. Visual Basic for Applications does not support this data type. So that Access can correctly evaluate this data type, you need to convert it from an unsigned integer to a Long Integer data type.



MORE INFORMATION
Microsoft provides programming examples for illustration only, without warranty either expressed or implied. This includes, but is not limited to, the implied warranties of merchantability or fitness for a particular purpose. This article assumes that you are familiar with the programming language that is being demonstrated and with the tools that are used to create and to debug procedures. Microsoft support engineers can help explain the functionality of a particular procedure, but they will not modify these examples to provide added functionality or construct procedures to meet your specific requirements. The Integer data type has a range of -32,768 to 32,767. An unsigned integer has a range of 0 to 65,536.

Access uses the most significant bit to set the sign of the value. Therefore, when a value exceeds 32,767, bit 16 is set to reflect a negative number. To evaluate an unsigned integer, you must manually adjust bit 16.

There are two methods to convert to and from the unsigned integer type to the Long Integer data type. The first method uses basic arithmetic (65,536 is subtracted or added to the unsigned integer). The second uses bit-wise operators. The arithmetic method works as well as the bit-wise method; however, the arithmetic method may be more readable, while the bit-wise method may be faster when executed repetitively.

Open a new module or a previously created module and enter the following code: '************************************************************* 'Declarations section of the module. '*************************************************************

Option Explicit

'============================================================= ' Arithmetic Method: ' -- ' Create the following ar_ConvertFromUnsignedInteger& (Uint%) '   and ar_ConvertToUnsignedInteger% (Bytes&) function in the '   Module. This first function reads in an unsigned integer '   and returns the converted value as a long. The second '   function reads in a long and returns an unsigned integer. '=============================================================

Function ar_ConvertFromUnsignedInteger& (Uint%) If Uint% < 0 Then ar_ConvertFromUnsignedInteger& = Uint% + 65536 Else ar_ConvertFromUnsignedInteger% = Uint% End If End Function

Function ar_ConvertToUnsignedInteger% (Bytes&) If Bytes& > 32767 Then ar_ConvertToUnsignedInteger% = Bytes& - 65536 Else ar_ConvertToUnsignedInteger% = Bytes& End If End Function

'============================================================= ' Bitwise Method: ' --- ' Create the following bw_ConvertFromUnsignedInteger& (Uint%) '   and bw_ConvertToUnsignedInteger% (Bytes&) function in the '   Module. This first function reads in an unsigned integer '   and returns the converted value as a long. The second '   function reads in a long and returns an unsigned integer. '   The message box statement in the second function is used '   to prevent an overflow message when the value passed to '    the function is greater than 64 kilobytes. ' To illustrate what is taking place in the first bitwise function: '   Uint% equals -23584, a value returned from an external dynamic '   link library that is an unsigned integer and must be '    converted to an long: '       1010001111100000 (-23584) '    AND   11111111111111 (7FFF) '       '          10001111100000 (41952) '=============================================================

Function bw_ConvertToUnsignedInteger% (Bytes&) Dim x%  If Bytes& > 65535 Then MsgBox "You passed a value larger than 65535" Exit Function End If

x% = Bytes& And &H7FFF bw_ConvertToUnsignedInteger% = x% Or -(Bytes& And &H8000) End Function

Function bw_ConvertFromUnsignedInteger& (Uint%) bw_ConvertFromUnsignedInteger& = Uint% And &HFFFF&

'- ' The &HFFFF& requires the & at the end of the hex number. This '   qualifies the hex number as 32-bit versus 16-bit. '-

End Function

Examples of Using These Functions
An external dynamic-link library requires and returns an unsigned integer. The Declare statement looks like the following: Declare Function External_Call% Lib "your.dll" (ByVal ValueToPass%) The Declare statement uses Integer data types because Access does not support unsigned integers. However, the external dynamic-link library returns an unsigned integer that must be converted; therefore, the code may appear as follows:

x% = External_Call(bw_ConvertToUnsignedInteger%(41952)) y& = bw_ConvertFromUnsignedInteger&(x%)

