DOCUMENT:Q171583 04-MAY-2001 [vbwin] TITLE :HOWTO: Fill a 32-bit VBA Array of UDType via a Visual C++ DLL PRODUCT :Microsoft Visual Basic for Windows PROD/VER:WINDOWS:4.0,5.0,7.0,97; winnt:4.0 OPER/SYS: KEYWORDS:kbinterop kbAccess kbExcel KbVBA kbVBp400 kbVBp500 kbVC400 kbPowerPt kbWord kbGrpDSVBDB ====================================================================== ------------------------------------------------------------------------------- The information in this article applies to: - Microsoft Visual Basic Control Creation Edition for Windows, version 5.0 - Microsoft Visual Basic Learning Edition for Windows, version 5.0 - Microsoft Visual Basic Professional Edition for Windows, version 5.0 - Microsoft Visual Basic Enterprise Edition for Windows, version 5.0 - Microsoft Visual Basic Standard Edition, 32-bit, for Windows, version 4.0 - Microsoft Visual Basic Professional Edition, 32-bit, for Windows, version 4.0 - Microsoft Visual Basic Enterprise Edition, 32-bit, for Windows, version 4.0 - Microsoft Access for Windows 95, version 7.0 - Microsoft Access 97 - Microsoft Excel 97 for Windows - Microsoft PowerPoint 97 for Windows - Microsoft Word 97 for Windows - Microsoft Visual C++, version 4.0 ------------------------------------------------------------------------------- SUMMARY ======= This article provides sample DLL code in Microsoft Visual C++ 4.x that illustrates how to fill a 32-bit VBA array of a user-defined type (UDT) containing fixed-length strings with data. It also provides VBA code that defines the equivalent structure and how to pass the array to the DLL. MORE INFORMATION ================ The VB4DLL.TXT file that ships with Visual Basic 4.0 describes both passing a variable of UDT to a DLL and passing an array of String (SAFEARRAY of BSTR) to a DLL, but does not discuss passing an array of UDTs. This article provides an example of a Visual Basic program passing an array of UDTs to a C++ DLL and filling the array with data in the DLL. NOTE: This article does not address: - Resizing the array. - UDTs that contain variable length strings, Objects, or Variants. - Multi-dimension arrays. Issues ------ 1. When passing an array of UDTs with string elements, the strings are not converted from UNICODE to ANSI as when passing a variable of UDT. 2. Elements of a UDT in Visual Basic use a 4-byte alignment. The default Visual C++ alignment is on 8-byte boundaries, so you have to explicitly set a smaller alignment. 3. In Visual Basic, UNICODE strings are implemented as an array of bytes; in Visual C++, they are implemented as an array of unsigned short int. This means that Visual Basic aligns UNICODE characters on 1-byte boundaries and Visual C++ aligns them on 2-byte boundaries. Because of this, your Visual C++ code has to specify 1-byte alignment as opposed to 4-byte alignment if you have any fixed-length strings in your UDT. With the 1-byte alignment, you will have to add filler fields in your Visual C++ struct to fix the alignment of other types on a 4-byte boundary. 4. Visual C++ mangles function names. You will need to build a .DEF file to make the names readable by Visual Basic. Table of Visual Basic Structure Alignment in SAFEARRAYS: Type Alignment Size Byte 1 byte 1 byte String * n 1 byte 2 bytes per UNICODE character Integer 2 bytes 2 bytes Boolean 2 bytes 2 bytes String 4 bytes 4 byte pointer - UNICODE data not in structure Long 4 bytes 4 bytes Single 4 bytes 4 bytes Double 4 bytes 8 bytes Currency 4 bytes 8 bytes Date 4 bytes 8 bytes Variant 4 bytes 16 bytes - may point to data not in structure Object 4 bytes 4 byte pointer - object not in structure Visual Basic passes arrays as the OLE SAFEARRAY type. This type contains a header structure that contains the following information: unsigned short cDims; // Count of dimensions unsigned short fFeatures; // Flags unsigned long cbElements; // Size of an element of the array unsigned long cLocks; // Lock count void HUGEP* pvData; // Pointer to the data SAFEARRAYBOUND rgsabound[n]; // One bound for each dimension The SAFEARRAYBOUND type contains the following elements: unsigned long cElements; // Number of elements in this dimension long lLbound; // Lower bound The Visual C++ code can read the SAFEARRAY structure and get a pointer to the data (pvData), which contains contiguous data items, and read the SAFEARRAYBOUND structure to determine the number of elements passed. WARNING: ANY USE BY YOU OF THE CODE PROVIDED IN THIS ARTICLE IS AT YOUR OWN RISK. Microsoft provides this code "as is" without warranty of any kind, either express or implied, including but not limited to the implied warranties of merchantability and/or fitness for a particular purpose. Step-by-Step Example -------------------- 1. Create a new Project Workspace of Dynamic-Link Library type and save as TestType. 2. Create a Text file and save as TestType.DEF. Add the file to the project: LIBRARY TestType EXPORTS FillUDTSafeArray FillUDTVariable 3. Create a Text file and save as TestType.CPP. Add the file to the project: #include #include #pragma pack(1) typedef struct { short f1; short filler_1; long f2; BYTE f3; WCHAR f4; BYTE filler_2; float f5; } MyStruct; void _stdcall FillUDTVariable(MyStruct * ms) { ms->f1 = 2001; ms->f2 = 20012001; ms->f3 = 255; ms->f4 = L'A'; ms->f5 = 200.1f; } void _stdcall FillUDTSafeArray(LPSAFEARRAY FAR * ppsa) { MyStruct * pdata; unsigned int i; pdata = (MyStruct*)((*ppsa)->pvData); for (i=0;i<((*ppsa)->rgsabound->cElements);i++,pdata++) FillUDTVariable(pdata); } 4. Build the DLL. 5. In your VBA application, add a Module with the following code: (You will need to explicitly specify the path of the DLL or move the DLL to the system directory, application directory, or elsewhere on the path.) Option Explicit Type My_VarUDT F1 As Integer F2 As Long F3 As Byte F4(0 To 1) As Byte ' to avoid UNICODE/ANSI conversion F5 As Single End Type Type My_ArrayUDT F1 As Integer F2 As Long F3 As Byte F4 As String * 1 F5 As Single End Type Declare Sub FillUDTVariable Lib "TestType.DLL" (A As My_VarUDT) Declare Sub FillUDTSafeArray Lib "TestType.DLL" (A() As My_ArrayUDT) Sub Test() Dim A As Long, B As My_VarUDT, C As String, D(3) As My_ArrayUDT Debug.Print "---Variable of My_VarUDT-------" FillUDTVariable B With B C = .F4 Debug.Print .F1, .F2, .F3, C; "("; .F4(0); .F4(1); ")", .F5 End With Debug.Print "---Safe array of My_ArrayUDT-------" FillUDTSafeArray D() For A = 0 To 3 With D(A) Debug.Print .F1, .F2, .F3, .F4; "("; AscB(MidB(.F4, 1, 1)); Debug.Print AscB(MidB(.F4, 2, 1)); ")", .F5 End With Next A End Sub 6. Save your VBA project and test the code by typing "Test" (without the quotation marks) in the Immediate Window. The output should appear as follows: ---Variable of My_VarUDT------- 2001 20012001 255 A( 65 0 ) 200.1 ---Safe array of My_ArrayUDT------- 2001 20012001 255 A( 65 0 ) 200.1 2001 20012001 255 A( 65 0 ) 200.1 2001 20012001 255 A( 65 0 ) 200.1 2001 20012001 255 A( 65 0 ) 200.1 NOTE: The My_VarUDT example is included to illustrate avoiding the normal UNICODE/ANSI conversion that happens when calling a DLL and passing a single variable. This conversion does not happen when passing the entire array, so can use STRING * 1 in the My_ArrayUDT as opposed to passing a byte array. REFERENCES ========== Microsoft Visual C++ Help on SAFEARRAY and related reading Microsoft Visual Basic file: VB4DLL.TXT Additional reference material for extending these examples to include Variant types can be found at: http://msdn.microsoft.com/isapi/msdnlib.idc?theURL=/library/techart/msdn_intro.htm Additional query words: ====================================================================== Keywords : kbinterop kbAccess kbExcel KbVBA kbVBp400 kbVBp500 kbVC400 kbPowerPt kbWord kbGrpDSVBDB Technology : kbVCsearch kbVC400 kbWordSearch kbVBSearch kbExcelSearch kbAudDeveloper kbAccessSearch kbPowerPtSearch kbWord97 kbWord97Search kbZNotKeyword6 kbAccess97 kbPowerPt97 kbZNotKeyword2 kbVB500Search kbVBA500Search kbVBA500 kbVB500 kbAccess97Search kbAccess95Search kbExcel97Search kbPowerPt97Search kbVB400Search kbVB400 kbZNotKeyword3 kbAccess700 Version : WINDOWS:4.0,5.0,7.0,97; winnt:4.0 Issue type : kbhowto ============================================================================= THE INFORMATION PROVIDED IN THE MICROSOFT KNOWLEDGE BASE IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND. MICROSOFT DISCLAIMS ALL WARRANTIES, EITHER EXPRESS OR IMPLIED, INCLUDING THE WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL MICROSOFT CORPORATION OR ITS SUPPLIERS BE LIABLE FOR ANY DAMAGES WHATSOEVER INCLUDING DIRECT, INDIRECT, INCIDENTAL, CONSEQUENTIAL, LOSS OF BUSINESS PROFITS OR SPECIAL DAMAGES, EVEN IF MICROSOFT CORPORATION OR ITS SUPPLIERS HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGES SO THE FOREGOING LIMITATION MAY NOT APPLY. Copyright Microsoft Corporation 2001.