Microsoft KB Archive/172339

= PRB: Explaining "Record is deleted" error accessing ODBC table =

Article ID: 172339

Article Last Modified on 1/9/2006

-

APPLIES TO


 * Microsoft Visual Basic 4.0 Professional Edition
 * Microsoft Visual Basic 5.0 Professional Edition
 * Microsoft Visual Basic 6.0 Professional Edition
 * Microsoft Visual Basic 4.0 Enterprise Edition
 * Microsoft Visual Basic 5.0 Enterprise Edition
 * Microsoft Visual Basic 6.0 Enterprise Edition

-



This article was previously published under Q172339



SYMPTOMS
Error 3167 "Record is Deleted" is a common error when using the Data Access Objects (DAO) or a data control to access ODBC tables. This is due to the way that the Microsoft Jet Database Engine manipulates its cursor for the recordset. It is not limited to DAO. Similar errors can be raised by any engine that maintains a cursor. The ODBC cursor library and servers themselves can and will raise similar errors. Understanding why and how these errors are caused requires a knowledge of resultset and cursor behavior.



CAUSE
The "Record is Deleted" error (error 3167) is a byproduct of the Jet engine's keyset cursor for the dynaset type recordset. A keyset cursor is fixed in membership, but there is nothing stopping another user from deleting a row in the underlying table that you have selected in your keyset. When you attempt to get the data or update the data in a deleted row, the "Record is Deleted" error message is generated. Again, this behavior is not limited to the Jet engine, but can occur in any keyset cursor.

This is not the only cause of the error. There are several other causes that are far more subtle and depend on the keyset implementation. Because the Jet engine uses a keyset based on a unique index in the underlying tables, it is possible to get this error if something changes the index information. When the fields that the keyset is built from are changed in the underlying table for a given record, the Jet engine is not able to find the record to read or update the data and raises the "Record is Deleted" error. In most cases the Jet engine knows that the indexed fields changed in the underlying table if it made the changes, but the following could change the indexed fields without the Jet engine being aware of it:


 * Other users. Other users may change the values in the indexed fields. When the Jet engine is unable to find that record based on the value that it is storing, it raises an error.
 * Triggers. Triggers can change the values in the indexed fields. Since a trigger changes the values from what the Jet engine thinks it put in there, the cached keyset value and the actual value in the table differ. When the Jet engine tries to fetch the record, it will raise an error.
 * Null and Empty String behavior. Many databases automatically change data if necessary without alerting the Jet engine. For example, if the user were to add a record where the indexed column was a varchar and the user submitted a "" value for that field, SQL Server would change the "" into a space (" ") and not alert the Jet engine. The Jet engine would then try to find that record with "", fail to do so and raise the "Record is Deleted" error.
 * Functions. Many indexed fields are updated with server functions such as GetDate. These can change the indexed data without the Jet engine knowing it.
 * Indexes on non-standard datatypes or floating point datatypes. Some server datatypes have no ODBC or Jet engine equivalent datatype. In most cases, the Recordset is created as read-only, but sometimes it is not. Rounding or conversion errors on the datatypes can cause the error as well.



RESOLUTION
Proper table structure and recordset creation is all that is usually needed. Where this is not possible, there are a few alternatives:


 * Use SQL statements to do the updating and deleting and use read-only snapshot type recordsets to view the data. Refresh the recordset as needed.
 * Refresh the recordset after every edit or addnew or execute operation that affects the data in the recordset. The Jet engine will rebuild the keyset with the updated information.
 * Remove triggers, functions, and so forth from the ODBC table and perform those actions manually.



STATUS
This behavior is by design. Keyset cursors behave in this manner. Since the Jet engine implements a keyset cursor, it is subject to the limitations of the cursor.



MORE INFORMATION
A resultset is the set of records obtained from an SQL query (generally a SELECT statement). A cursor is a way of maintaining position in a resultset, but is often thought of as the combination of the resultset and the actual cursor.

Cursors (as they apply to ODBC and most database servers) are either Forward Only or Scrollable. A Forward Only cursor is a very simple cursor. You can move forward only one row at a time. Scrollable cursors allow you to move back and forth through the cursor, optionally allowing for exact positioning, determining position, finding records, and so forth. Scrollable cursors can optionally be Block cursors in that the cursor can fetch records a block at a time. The block of data is often referred to as a rowset. Cursors can also be Static, Dynamic, Keyset, or Mixed.

A Static cursor is a cursor in which membership, order, and values are fixed upon opening. The data appears to be static. It may change in the underlying tables, but the cursor is unaware of the changes until it is refreshed.

A Dynamic cursor is exactly the opposite. The membership, order and values are completely dynamic. The data reflects what is currently in the underlying tables at that moment (usually limited by some refresh rate).

A Keyset cursor is a cursor that is fixed in membership and order, but not in values. A keyset cursor gets its name because a set of keys (bookmarks) that point to the data in the tables is created. Think of it as an array of pointers to the actual data for each record in the tables.

A Mixed cursor is a mix of Dynamic and Keyset cursors. It is essentially a cursor where the keyset does not contain all of the rows of the resultset (to save on memory). Therefore, there is a rowsetsize that is the size of the block of data fetched, a keysetsize that is the size of the keyset, and a resultsetsize that is the size of the entire resultset. The cursor is mixed because it is keyset within the current keyset, but dynamic outside of the current keyset.

In regards to ODBC there are two classifications of cursors, Client-side (ODBC)and Server-side. Client-side cursors are maintained on the client's system and Server-side cursors are maintained on the server. Client-side cursors cannot realistically be dynamic.

Due to bandwidth limitations and other factors, client-side cursors are generally limited to Forward Only, Static, and Keyset. Server-side cursors can be of any type.

The Jet engine creates and maintains its own cursors for ODBC recordsets. It does not rely on the ODBC cursor library cursors or server-side cursors. It does this so that it can provide the updatability of dynaset type recordsets and allow SQL statements that span multiple Access, ISAM, or ODBC databases. It provides the following cursors:

  Recordset Type       Cursor Type ---  Table                Dynamic (MDB and IISAM only; not available for                        ODBC)

SnapShot            Static read-only Dynaset             Keyset

A Note About Jet's Keyset Cursor Implementation
The Jet engine creates a keyset for the cursor based on a unique index on the table. It queries the database for information on the table to find a unique index. If one is not found, a non-unique keyset cursor (dynaset type recordset) will be built, but it will be read-only. This is because Jet updates records via an UPDATE statement using the key fields to limit the changes to a single record. If the table does not have a unique index, Jet cannot ensure that an update affects only a single record.

Other cursor libraries, like the ODBC cursor library, use more sophisticated updating schemes that can handle tables without indexes, but are more complex and error prone.

(c) Microsoft Corporation 1997, All Rights Reserved. Contributions by Troy Cambra, Microsoft Corporation

Additional query words: kbVBp500 kbVBp600 kbdse kbDSupport kbVBp kbRDO kbODBC kbVBp400

Keywords: kbprb KB172339

-

[mailto:TECHNET@MICROSOFT.COM Send feedback to Microsoft]

© Microsoft Corporation. All rights reserved.