Microsoft KB Archive/169496: Difference between revisions

From BetaArchive Wiki
m (Text replacement - ">" to ">")
m (Text replacement - """ to """)
Line 248: Line 248:
<pre class="codesample">  #import <msado15.dll>            \  
<pre class="codesample">  #import <msado15.dll>            \  
   no_namespace                    \  
   no_namespace                    \  
   rename( &quot;EOF&quot;, &quot;adoEOF&quot; )
   rename( "EOF", "adoEOF" )
                 </pre>
                 </pre>
<br />
<br />
Line 304: Line 304:


       #import <msado15.dll>                            \  
       #import <msado15.dll>                            \  
               rename_namespace(&quot;AdoNS&quot;) rename( &quot;EOF&quot;, &quot;adoEOF&quot; )
               rename_namespace("AdoNS") rename( "EOF", "adoEOF" )


       void ADOOnly( void )
       void ADOOnly( void )
Line 337: Line 337:
=== Forward References and Typedefs ===
=== Forward References and Typedefs ===


Forward References and Typedefs are created through the use of struct __declspec(uuid(&quot;...&quot;)) on the GUID for any Dual Interface, Interface, and CoClass defined in the typelib.<br />
Forward References and Typedefs are created through the use of struct __declspec(uuid("...")) on the GUID for any Dual Interface, Interface, and CoClass defined in the typelib.<br />
<br />
<br />


<pre class="fixed_text">  ...
<pre class="fixed_text">  ...
   struct __declspec(uuid(&quot;00000274-0000-0010-8000-00aa006d2ea4&quot;))
   struct __declspec(uuid("00000274-0000-0010-8000-00aa006d2ea4"))
   /* dual interface */ _Connection;
   /* dual interface */ _Connection;
   ...
   ...
   struct __declspec(uuid(&quot;00000275-0000-0010-8000-00aa006d2ea4&quot;))
   struct __declspec(uuid("00000275-0000-0010-8000-00aa006d2ea4"))
   /* interface */ ICADOConnection;
   /* interface */ ICADOConnection;
   ...
   ...
Line 381: Line 381:
   ...
   ...


   struct __declspec(uuid(&quot;00000274-0000-0010-8000-00aa006d2ea4&quot;))
   struct __declspec(uuid("00000274-0000-0010-8000-00aa006d2ea4"))
   _Connection : _ADO
   _Connection : _ADO
   {
   {
Line 415: Line 415:
<br />
<br />


<pre class="codesample">  bstrConnect = SysAllocString( L&quot;DSN=AdoDemo;UID=admin;PWD=sa&quot; );
<pre class="codesample">  bstrConnect = SysAllocString( L"DSN=AdoDemo;UID=admin;PWD=sa" );
   p->ConnectionString = bstrConnect;
   p->ConnectionString = bstrConnect;
                 </pre>
                 </pre>
Line 433: Line 433:


       if( !FAILED( hr ) )
       if( !FAILED( hr ) )
         hr = pConn->Open( L&quot;pubs&quot;, L&quot;sa&quot;, L&quot;&quot; );
         hr = pConn->Open( L"pubs", L"sa", L"" );
                 </pre>
                 </pre>
<br />
<br />

Revision as of 10:05, 21 July 2020

Article ID: 169496

Article Last Modified on 3/2/2005



APPLIES TO

  • Microsoft ActiveX Data Objects 1.0, when used with:
    • Microsoft Visual C++ 4.2 Enterprise Edition
    • Microsoft Visual C++ 5.0 Enterprise Edition
    • Microsoft Visual C++ 6.0 Enterprise Edition
    • Microsoft Visual C++ 4.2 Professional Edition
    • Microsoft Visual C++ 5.0 Professional Edition
    • Microsoft Visual C++ 6.0 Professional Edition
    • Microsoft Visual C++ 6.0 Standard Edition
  • Microsoft ActiveX Data Objects 1.5, when used with:
    • Microsoft Visual C++ 4.2 Enterprise Edition
    • Microsoft Visual C++ 5.0 Enterprise Edition
    • Microsoft Visual C++ 6.0 Enterprise Edition
    • Microsoft Visual C++ 4.2 Professional Edition
    • Microsoft Visual C++ 5.0 Professional Edition
    • Microsoft Visual C++ 6.0 Professional Edition
    • Microsoft Visual C++ 6.0 Standard Edition
  • Microsoft ActiveX Data Objects 2.0, when used with:
    • Microsoft Visual C++ 4.2 Enterprise Edition
    • Microsoft Visual C++ 5.0 Enterprise Edition
    • Microsoft Visual C++ 6.0 Enterprise Edition
    • Microsoft Visual C++ 4.2 Professional Edition
    • Microsoft Visual C++ 5.0 Professional Edition
    • Microsoft Visual C++ 6.0 Professional Edition
    • Microsoft Visual C++ 6.0 Standard Edition
  • Microsoft ActiveX Data Objects 2.1, when used with:
    • Microsoft Visual C++ 4.2 Enterprise Edition
    • Microsoft Visual C++ 5.0 Enterprise Edition
    • Microsoft Visual C++ 6.0 Enterprise Edition
    • Microsoft Visual C++ 4.2 Professional Edition
    • Microsoft Visual C++ 5.0 Professional Edition
    • Microsoft Visual C++ 6.0 Professional Edition
    • Microsoft Visual C++ 6.0 Standard Edition
  • Microsoft ActiveX Data Objects 2.5, when used with:
    • Microsoft Visual C++ 4.2 Enterprise Edition
    • Microsoft Visual C++ 5.0 Enterprise Edition
    • Microsoft Visual C++ 6.0 Enterprise Edition
    • Microsoft Visual C++ 4.2 Professional Edition
    • Microsoft Visual C++ 5.0 Professional Edition
    • Microsoft Visual C++ 6.0 Professional Edition
    • Microsoft Visual C++ 6.0 Standard Edition
  • Microsoft ActiveX Data Objects 2.6, when used with:
    • Microsoft Visual C++ 4.2 Enterprise Edition
    • Microsoft Visual C++ 5.0 Enterprise Edition
    • Microsoft Visual C++ 6.0 Enterprise Edition
    • Microsoft Visual C++ 4.2 Professional Edition
    • Microsoft Visual C++ 5.0 Professional Edition
    • Microsoft Visual C++ 6.0 Professional Edition
    • Microsoft Visual C++ 6.0 Standard Edition
  • Microsoft Data Access Components 2.7



This article was previously published under Q169496

SUMMARY

The #import directive in Visual C++ offers a powerful new mechanism for manipulating OLE servers. When used with ActiveX Data Objects (ADO), #import can simplify getting at your data. This article discusses what is necessary to take advantage of #import with ADO.

MORE INFORMATION

Before You Instantiate Any Classes Created by #import

It's important to initialize OLE before creating any instances of classes created by #import. For example, the following code is safe, as it declares a #import smart pointer, initializes OLE, and then instantiates the smart pointer:

   // Declare smart pointer of Recordset
    _RecordsetPtr     p;

   void main( void )
   {
      // Initialize OLE.
      ::CoInitialize(NULL);

      // Instantiate smart pointer.
      HRESULT hr = p.CreateInstance( __uuidof( Recordset ) );

      ...
   }
                

The next code sample, however, is not safe and generates an unhandled exception. The global smart pointer p is both declared and instantiated (by virtue of passing a specific uuid in the constructor):

// Declare & instantiate smart pointer of Recordset
    _RecordsetPtr     p( __uuidof( _Recordset ) );

   void main( void )
   {
      // Initialize OLE
      ::CoInitialize(NULL);

      ...
   }
                

Because p is a global variable, it is instantiated before CoInitialize is ever called in main(). You can correct this with the following code snippet :

struct InitOle {
      InitOle()  { ::CoInitialize(NULL); }
      ~InitOle() { ::CoUninitialize();   }
    } _init_InitOle_;

   // Declare & instantiate smart pointer of Recordset
    _RecordsetPtr     p( __uuidof( _Recordset ) );

   ...
                

An instance of the struct InitOle is declared, and instantiated before p, and, therefore, initializes OLE in it's constructor. Without this kind of fail-safe, you will see the following error message:

Unhandled exception in [Program] (KERNEL32.DLL): 0xE06D7363
Microsoft C++ Exception.

Correct Implementation of #import

It is important to invoke ADO correctly in your program, or you can have compiler errors. The following code demonstrates the correct way to use #import with Msado10.dll the MSADO15.dll:

   #import <msado15.dll>            \ 
   no_namespace                     \ 
  rename( "EOF", "adoEOF" )
                


Error Handling

With ADO, you may get an error in the HRESULT returned from an ADO method, you may get an exception raised by #import generated classes, and for either condition the ADO Errors Collection may be populated. In order to get at the Errors Collection you need a valid connection object. For more information please see the following article in the Microsoft Knowledge Base:

169498 INFO: Extracting Error Information from ADO in VC++ with #import


ADO and Dbdaoint.h

Attempts to mix ADO (through #import) and either MFC DAO or the DAO SDK in the same implementation file, as follows:

  #include <afxdao.h>  // MFC DAO
   // -or-
  #include <dbdao.h>   // DAO SDK

  #import <msado15.dll> no_namespace ...
                


Generates the following six errors:

error C2011: 'EditModeEnum' : 'enum' type redefinition
error C2011: 'LockTypeEnum' : 'enum' type redefinition
error C2011: 'FieldAttributeEnum' : 'enum' type redefinition
error C2011: 'DataTypeEnum' : 'enum' type redefinition
error C2011: 'ParameterDirectionEnum' : 'enum' type redefinition
error C2011: 'RecordStatusEnum' : 'enum' type redefinition


While very nearly identical in content, the actual values in each enumerated type differ between what is required by ADO and what is required by DAO. You have several options to work around this:

  • Separate ADO and DAO code into separate .cpp files. Keep the use of #import or #include <afxdao.h/dbdao.h> in separate implementation files as well.
  • Modify the #import statement to create a namespace for anything generated for ADO. This means you will have to reference the namespace when referencing an ADO object as shown in the two functions below. The first shows how to use ADO exclusively within a function. The second shows how to mix-and-match ADO and DAO objects. This is possible only by explicitly referencing the ADO namespace for any ADO class or enumerated type:

       #include <afxdao.h>
    
          #import <msado15.dll>                            \ 
                  rename_namespace("AdoNS") rename( "EOF", "adoEOF" )
    
          void ADOOnly( void )
          {
              using namespace AdoNS;
    
              _RecordsetPtr   prs;
    
              // Generates Compile Errors:
              CDaoRecordset   rs;
          }
    
          void MixAdoAndDao( void )
          {
              AdoNS::_RecordsetPtr  prs;
    
              // Compiles just fine
              CDaoRecordset   drs;
          }
                            

Dissecting and using Msado105.tlh/Msado15.tli --------------------------------------------

  1. import generates two files, Msado105.tlh and Msado15.tli off of the typelib contained within Msado15.dll. The structure of the .tlh file can be broken out as follows:
  • Forward References and Typedefs
  • Smart Pointer Typedef and Declarations
  • Type Library Items

Each is described in detail below.

Forward References and Typedefs

Forward References and Typedefs are created through the use of struct __declspec(uuid("...")) on the GUID for any Dual Interface, Interface, and CoClass defined in the typelib.

   ...
   struct __declspec(uuid("00000274-0000-0010-8000-00aa006d2ea4"))
   /* dual interface */ _Connection;
   ...
   struct __declspec(uuid("00000275-0000-0010-8000-00aa006d2ea4"))
   /* interface */ ICADOConnection;
   ...
   struct /* coclass */ Connection;
   ...
                

Not all interfaces, such as Connection, have multiple implementations. This depends on the typelib, but for ADO most interfaces are dual and not implemented as interface or coclass.

Smart Pointer TypeDef Declarations

For Interfaces and Dual Interfaces, smart pointers are declared, which greatly simplifies using the interface:

   ...
   _COM_SMARTPTR_TYPEDEF(_Connection, __uuidof(_Connection));
   ...
   _COM_SMARTPTR_TYPEDEF(ICADOConnection, __uuidof(ICADOConnection));
   ...
                

Note that no smart pointer was declared for the coclass Connection interface.

Type Library Items

This includes any enumerated types defined in the typelib, as well implementation of the smart pointers and typelib items:

enum CursorTypeEnum
   {
      adOpenUnspecified = -1,
      adOpenForwardOnly = 0,
      adOpenKeyset = 1,
      adOpenDynamic = 2,
      adOpenStatic = 3
   };

   ...

   struct __declspec(uuid("00000274-0000-0010-8000-00aa006d2ea4"))
   _Connection : _ADO
   {
      // 
      // Property data.
      // 
      _declspec(property(get=GetConnectionString,
                         put=PutConnectionString))
      _bstr_t ConnectionString;
      ...

      // 
      // Wrapper methods for error-handling.
      // 
      _bstr_t GetConnectionString ( );
      void PutConnectionString (
          _bstr_t pbstr );
      ...

      // 
      // Raw methods provided by interface.
      // 
      virtual HRESULT __stdcall get_ConnectionString (
          BSTR * pbstr ) = 0;
      virtual HRESULT __stdcall put_ConnectionString (
          BSTR pbstr ) = 0;
      ...
   };
                

In the preceding code fragment, the Property Data section uses declspec to declare get and put methods for ConnectionString. The Wrapper methods section provides methods created by #import, which wrap these methods, and raise an _com_error exception if they are not successful. The Raw Methods section declares the actual method that is invoked by the interface.

While you could call GetConnectionString or PutConnectionString, it is really unnecessary. Since ConnectionString is a property you would reference it as follows:

   bstrConnect = SysAllocString( L"DSN=AdoDemo;UID=admin;PWD=sa" );
   p->ConnectionString = bstrConnect;
                



The actual implementation of GetConnectionString/PutConnectionString can be found in the Msado15.tli file.

When it comes time to use the Connection object in your code, you would use an instance of the smart pointer for the dual interface defined in Msado15.tlh as follows:

   _ConnectionPtr p;
   bstrConnect
   HRESULT           hr = S_OK;
   _ConnectionPtr    pConn;

   hr = pConn.CreateInstance( __uuidof( Connection ) );

      if( !FAILED( hr ) )
         hr = pConn->Open( L"pubs", L"sa", L"" );
                



Where pubs is an ODBC data source.

#import and Explicitly Calling Release()

The advantage of #import is that it takes care of AddRef, QueryInterface, and Release for you automatically. However, if you decide to start calling Release() explicitly, you can create problems for yourself.

Within _com_ptr_t is a member variable, m_pInterface. As #import is a very thin wrapper, it makes no distinction with m_pInterface after the object is actually released, versus just decrementing its reference count without actually destroying the object. By explicitly calling Release()--without very explicitly calling AddRef() to balance it--#import will gladly try to release an object that doesn't exist, creating interesting side effects and crashing behavior.

Best advice, you did not AddRef() it (or at least no need to), do not release it either.

REFERENCES

  • Inside Com by Dale Rogerson ISBN 1-57231-349-8
  • The OLE-COM Object Viewer (Oleview.exe) that ships with Visual C++ for examining the contents of a typelib.
  • Visual C++ online documentation: search on #import

For additional information, click the article numbers below to view the articles in the Microsoft Knowledge Base:

182389 FILE: Adovcbm.exe ADO 1.5 with #import and Getrows/Bookmarks


184968 FILE: Adovcsp.exe Demonstrates Using Stored Procedures with ADO


186387 SAMPLE: Ado2atl.exe Returns ADO Interfaces from COM


181733 FILE: Adovcbtd.exe #import Using UpdateBatch and CancelBatch


166112 PRB: Conflict with EOF when using #import with ADO


168354 INFO: Underlying OLE and OLEDB Provider Errors Are Exposed Through ADO



Additional query words: s_mfc

Keywords: kbinfo kbdatabase kbcode kbusage KB169496