Table hints (Transact-SQL)
Applies to: SQL Server Azure SQL Database Azure SQL Managed Instance SQL database in Microsoft Fabric
Table hints are used to override the default behavior of the query optimizer during the data manipulation language (DML) statement. You can specify a locking method, one or more indexes, a query-processing operation such as a table scan or index seek, or other options. Table hints are specified in the FROM clause of the DML statement and affect only the table or view referenced in that clause.
Caution
Because the SQL Server query optimizer typically selects the best execution plan for a query, we recommend that hints be used only as a last resort by experienced developers and database administrators.
Applies to:
Transact-SQL syntax conventions
Syntax
WITH ( <table_hint> [ [ , ] ...n ] )
<table_hint> ::=
{ NOEXPAND
| INDEX ( <index_value> [ , ...n ] ) | INDEX = ( <index_value> )
| FORCESEEK [ ( <index_value> ( <index_column_name> [ , ... ] ) ) ]
| FORCESCAN
| HOLDLOCK
| NOLOCK
| NOWAIT
| PAGLOCK
| READCOMMITTED
| READCOMMITTEDLOCK
| READPAST
| READUNCOMMITTED
| REPEATABLEREAD
| ROWLOCK
| SERIALIZABLE
| SNAPSHOT
| SPATIAL_WINDOW_MAX_CELLS = <integer_value>
| TABLOCK
| TABLOCKX
| UPDLOCK
| XLOCK
}
<table_hint_limited> ::=
{
KEEPIDENTITY
| KEEPDEFAULTS
| HOLDLOCK
| IGNORE_CONSTRAINTS
| IGNORE_TRIGGERS
| NOLOCK
| NOWAIT
| PAGLOCK
| READCOMMITTED
| READCOMMITTEDLOCK
| READPAST
| REPEATABLEREAD
| ROWLOCK
| SERIALIZABLE
| SNAPSHOT
| TABLOCK
| TABLOCKX
| UPDLOCK
| XLOCK
}
Arguments
WITH ( <table_hint> ) [ [ , ] ...n ]
With some exceptions, table hints are supported in the FROM clause only when the hints are specified with the WITH keyword. Table hints also must be specified with parentheses.
Important
Omitting the WITH keyword is a deprecated feature: This feature will be removed in a future version of SQL Server. Avoid using this feature in new development work, and plan to modify applications that currently use this feature.
The following table hints are allowed with and without the WITH
keyword: NOLOCK
, READUNCOMMITTED
, UPDLOCK
, REPEATABLEREAD
, SERIALIZABLE
, READCOMMITTED
, TABLOCK
, TABLOCKX
, PAGLOCK
, ROWLOCK
, NOWAIT
, READPAST
, XLOCK
, SNAPSHOT
, and NOEXPAND
. When these table hints are specified without the WITH
keyword, the hints should be specified alone. For example:
FROM t (TABLOCK)
When the hint is specified with another option, the hint must be specified with the WITH keyword:
FROM t WITH (TABLOCK, INDEX(myindex))
We recommend using commas between table hints.
Important
Separating hints by spaces rather than commas is a deprecated feature: This feature will be removed in a future version of SQL Server. Avoid using this feature in new development work, and plan to modify applications that currently use this feature.
NOEXPAND
Specifies that any indexed views aren't expanded to access underlying tables when the query optimizer processes the query. The query optimizer treats the view like a table with clustered index. NOEXPAND
applies only to indexed views. For more information, see Using NOEXPAND.
INDEX ( <index_value> [ , ...n ] ) | INDEX = ( <index_value> )
The INDEX()
syntax specifies the names or IDs of one or more indexes to be used by the query optimizer when it processes the statement. The alternative INDEX =
syntax specifies a single index value. Only one index hint per table can be specified.
If a clustered index exists, INDEX(0)
forces a clustered index scan, and INDEX(1)
forces a clustered index scan or seek. If no clustered index exists, INDEX(0)
forces a table scan, and INDEX(1)
is interpreted as an error.
If multiple indexes are used in a single hint list, the duplicates are ignored, and the rest of the listed indexes are used to retrieve the rows of the table. The order of the indexes in the index hint is significant. A multiple index hint also enforces index ANDing, and the query optimizer applies as many conditions as possible on each index accessed. If the collection of hinted indexes don't include all columns referenced by the query, a fetch is performed to retrieve the remaining columns after the SQL Server Database Engine retrieves all the indexed columns.
Note
When an index hint referring to multiple indexes is used on the fact table in a star join, the optimizer ignores the index hint and returns a warning message. Also, index ORing is not allowed for a table with an index hint specified.
The maximum number of indexes in the table hint is 250 nonclustered indexes.
KEEPIDENTITY
Applicable only in an INSERT statement when the BULK option is used with OPENROWSET.
Specifies that identity value or values in the imported data file are to be used for the identity column. If KEEPIDENTITY isn't specified, the identity values for this column are verified but not imported, and the query optimizer automatically assigns unique values based on the seed and increment values specified during table creation.
Important
If the data file does not contain values for the identity column in the table or view, and the identity column is not the last column in the table, you must skip the identity column. For more information, see Use a Format File to Skip a Data Field (SQL Server). If an identity column is skipped successfully, the query optimizer automatically assigns unique values for the identity column into the imported table rows.
For an example that uses this hint in an INSERT ... SELECT * FROM OPENROWSET(BULK...)
statement, see Keep Identity Values When Bulk Importing Data (SQL Server).
For information about checking the identity value for a table, see DBCC CHECKIDENT (Transact-SQL).
KEEPDEFAULTS
Applicable only in an INSERT statement when the BULK option is used with OPENROWSET.
Specifies insertion of a table column's default value, if any, instead of NULL when the data record lacks a value for the column.
For an example that uses this hint in an INSERT ... SELECT * FROM OPENROWSET(BULK...) statement, see Keep Nulls or Use Default Values During Bulk Import (SQL Server).
FORCESEEK [ ( <index_value> ( <index_column_name> [ , ...n ] ) ) ]
Specifies that the query optimizer uses only an index seek operation as the access path to the data in the table or view.
Note
Starting with SQL Server 2008 R2 (10.50.x) Service Pack 1, index parameters can also be specified. In that case, the query optimizer considers only index seek operations through the specified index using at least the specified index columns.
index_value
The index name or index ID value. The index ID 0 (heap) can't be specified. To return the index name or ID, query the
sys.indexes
catalog view.index_column_name
The name of the index column to include in the seek operation. Specifying
FORCESEEK
with index parameters is similar to usingFORCESEEK
with anINDEX
hint. However, you can achieve greater control over the access path used by the query optimizer by specifying both the index to seek on and the index columns to consider in the seek operation. The optimizer may consider additional columns if needed. For example, if a nonclustered index is specified, the optimizer may choose to use clustered index key columns in addition to the specified columns.
The FORCESEEK
hint can be specified in the following ways.
Syntax | Example | Description |
---|---|---|
Without an index or INDEX hint |
FROM dbo.MyTable WITH (FORCESEEK) |
The query optimizer considers only index seek operations to access the table or view through any relevant index. |
Combined with an INDEX hint |
FROM dbo.MyTable WITH (FORCESEEK, INDEX (MyIndex)) |
The query optimizer considers only index seek operations to access the table or view through the specified index. |
Parameterized by specifying an index and index columns | FROM dbo.MyTable WITH (FORCESEEK (MyIndex (col1, col2, col3))) |
The query optimizer considers only index seek operations to access the table or view through the specified index using at least the specified index columns. |
When using the FORCESEEK
hint (with or without index parameters), consider the following guidelines:
- The hint can be specified as a table hint or as a query hint. For more information about query hints, see Query Hints (Transact-SQL).
- To apply
FORCESEEK
to an indexed view, theNOEXPAND
hint must also be specified. - The hint can be applied at most once per table or view.
- The hint can't be specified for a remote data source. Error 7377 is returned when
FORCESEEK
is specified with an index hint and error 8180 is returned whenFORCESEEK
is used without an index hint. - If
FORCESEEK
causes no plan to be found, error 8622 is returned.
When FORCESEEK
is specified with index parameters, the following guidelines and restrictions apply:
- The hint can't be specified for a table that is the target of an INSERT, UPDATE, or DELETE statement.
- The hint can't be specified in combination with either an
INDEX
hint or anotherFORCESEEK
hint. - At least one column must be specified and it must be the leading key column.
- Additional index columns can be specified, however, key columns can't be skipped. For example, if the specified index contains the key columns
a
,b
, andc
, valid syntax would includeFORCESEEK (MyIndex (a))
andFORCESEEK (MyIndex (a, b)
. Invalid syntax would includeFORCESEEK (MyIndex (c))
andFORCESEEK (MyIndex (a, c)
. - The order of column names specified in the hint must match the order of the columns in the referenced index.
- Columns that aren't in the index key definition can't be specified. For example, in a nonclustered index, only the defined index key columns can be specified. Clustered key columns that are automatically included in the index can't be specified, but may be used by the optimizer.
- An xVelocity memory optimized columnstore index can't be specified as an index parameter. Error 366 is returned.
- Modifying the index definition (for example, by adding or removing columns) may require modifications to the queries that reference that index.
- The hint prevents the optimizer from considering any spatial or XML indexes on the table.
- The hint can't be specified in combination with the
FORCESCAN
hint. - For partitioned indexes, the partitioning column implicitly added by SQL Server can't be specified in the
FORCESEEK
hint.
Caution
Specifying FORCESEEK
with parameters limits the number of plans that can be considered by the optimizer more than when specifying FORCESEEK
without parameters. This may cause a Plan cannot be generated
error to occur in more cases. In a future release, internal modifications to the query optimizer may allow more plans to be considered.
FORCESCAN
Applies to: SQL Server 2008 R2 (10.50.x) Service Pack 1 and later versions
Specifies that the query optimizer uses only an index scan operation as the access path to the referenced table or view. The FORCESCAN
hint can be useful for queries in which the optimizer underestimates the number of affected rows and chooses a seek operation rather than a scan operation. When this occurs, the amount of memory granted for the operation is too small and query performance is affected.
FORCESCAN
can be specified with or without an INDEX
hint. When combined with an index hint, (INDEX = index_name, FORCESCAN
), the query optimizer considers only scan access paths through the specified index, when accessing the referenced table. FORCESCAN
can be specified with the index hint INDEX(0)
to force a table scan operation on the base table.
For partitioned tables and indexes, FORCESCAN
is applied after partitions have been eliminated through query predicate evaluation. This means that the scan is applied only to the remaining partitions and not to the entire table.
The FORCESCAN
hint has the following restrictions:
- The hint can't be specified for a table that is the target of an INSERT, UPDATE, or DELETE statement.
- The hint can't be used with more than one index hint.
- The hint prevents the query optimizer from considering any spatial or XML indexes on the table.
- The hint can't be specified for a remote data source.
- The hint can't be specified in combination with the
FORCESEEK
hint.
HOLDLOCK
Equivalent to SERIALIZABLE
. For more information, see SERIALIZABLE
later in this article. HOLDLOCK
applies only to the table or view for which it is specified and only for the duration of the transaction defined by the statement that it is used in. HOLDLOCK
can't be used in a SELECT statement that includes the FOR BROWSE
option.
IGNORE_CONSTRAINTS
Applicable only in an INSERT statement when the BULK option is used with OPENROWSET.
Specifies that any constraints on the table are ignored by the bulk-import operation. By default, INSERT checks Unique Constraints and Check Constraints and Primary and Foreign Key Constraints. When IGNORE_CONSTRAINTS is specified for a bulk-import operation, INSERT must ignore these constraints on a target table. You can't disable UNIQUE, PRIMARY KEY, or NOT NULL constraints.
You might want to disable CHECK and FOREIGN KEY constraints if the input data contains rows that violate constraints. By disabling the CHECK and FOREIGN KEY constraints, you can import the data and then use Transact-SQL statements to clean up the data.
However, when CHECK and FOREIGN KEY constraints are ignored, each ignored constraint on the table is marked as is_not_trusted in the sys.check_constraints or sys.foreign_keys catalog view after the operation. At some point, you should check the constraints on the whole table. If the table wasn't empty before the bulk import operation, the cost of revalidating the constraint may exceed the cost of applying CHECK and FOREIGN KEY constraints to the incremental data.
IGNORE_TRIGGERS
Applicable only in an INSERT statement when the BULK option is used with OPENROWSET.
Specifies that any triggers defined on the table are ignored by the bulk-import operation. By default, INSERT applies triggers.
Use IGNORE_TRIGGERS only if your application doesn't depend on any triggers and maximizing performance is important.
NOLOCK
Equivalent to READUNCOMMITTED
. For more information, see READUNCOMMITTED
later in this article.
Note
For UPDATE or DELETE statements: This feature will be removed in a future version of SQL Server. Avoid using this feature in new development work, and plan to modify applications that currently use this feature.
NOWAIT
Instructs the Database Engine to return a message as soon as a lock is encountered on the table. NOWAIT
is equivalent to specifying SET LOCK_TIMEOUT 0
for a specific table. The NOWAIT
hint doesn't work when the TABLOCK
hint is also included. To terminate a query without waiting when using the TABLOCK
hint, preface the query with SET LOCK_TIMEOUT 0;
instead.
PAGLOCK
Takes page locks either where individual locks are ordinarily taken on rows or keys, or where a single table lock is ordinarily taken. By default, uses the lock mode appropriate for the operation. When specified in transactions operating at the SNAPSHOT
isolation level, page locks aren't taken unless PAGLOCK
is combined with other table hints that require locks, such as UPDLOCK
and HOLDLOCK
.
READCOMMITTED
Specifies that read operations comply with the rules for the READ COMMITTED isolation level by using either locking or row versioning. If the database option READ_COMMITTED_SNAPSHOT
is OFF, the Database Engine acquires shared locks as data is read and releases those locks when the read operation is completed. If the database option READ_COMMITTED_SNAPSHOT
is ON, the Database Engine doesn't acquire locks and uses row versioning. For more information about isolation levels, see SET TRANSACTION ISOLATION LEVEL (Transact-SQL).
Note
For UPDATE or DELETE statements: This feature will be removed in a future version of SQL Server. Avoid using this feature in new development work, and plan to modify applications that currently use this feature.
READCOMMITTEDLOCK
Specifies that read operations comply with the rules for the READ COMMITTED isolation level by using locking. The Database Engine acquires shared locks as data is read, and releases those locks when the read operation is completed, regardless of the setting of the READ_COMMITTED_SNAPSHOT
database option. For more information about isolation levels, see SET TRANSACTION ISOLATION LEVEL (Transact-SQL). This hint can't be specified on the target table of an INSERT statement; error 4140 is returned.
READPAST
Specifies that the Database Engine not read rows that are locked by other transactions. When READPAST
is specified, row-level locks are skipped, but page-level locks aren't skipped. That is, the Database Engine skips past the rows instead of blocking the current transaction until the locks are released. For example, assume table T1
contains a single integer column with the values of 1, 2, 3, 4, 5. If transaction A changes the value of 3 to 8 but hasn't yet committed, SELECT * FROM T1 (READPAST)
yields values 1, 2, 4, 5. READPAST
is primarily used to reduce locking contention when implementing a work queue that uses a SQL Server table. A queue reader that uses READPAST
skips past queue entries locked by other transactions to the next available queue entry, without having to wait until the other transactions release their locks.
READPAST
can be specified for any table referenced in an UPDATE or DELETE statement, and any table referenced in a FROM clause. When specified in an UPDATE statement, READPAST
is applied only when reading data to identify which records to update, regardless of where in the statement it is specified. READPAST
can't be specified for tables in the INTO clause of an INSERT statement. Update or delete operations that use READPAST
may block when reading foreign keys or indexed views, or when modifying secondary indexes.
READPAST
can only be specified in transactions operating at the READ COMMITTED or REPEATABLE READ isolation levels. When specified in transactions operating at the SNAPSHOT
isolation level, READPAST
must be combined with other table hints that require locks, such as UPDLOCK
and HOLDLOCK
.
The READPAST
table hint can't be specified when the READ_COMMITTED_SNAPSHOT
database option is set to ON and either of the following conditions is true:
- The transaction isolation level of the session is READ COMMITTED.
- The
READCOMMITTED
table hint is also specified in the query.
To specify the READPAST
hint in these cases, remove the READCOMMITTED
table hint if present, and include the READCOMMITTEDLOCK
table hint in the query.
READUNCOMMITTED
Specifies that dirty reads are allowed. No shared locks are issued to prevent other transactions from modifying data read by the current transaction, and exclusive locks set by other transactions don't block the current transaction from reading the locked data. Allowing dirty reads can cause higher concurrency, but at the cost of reading data modifications that then are rolled back by other transactions. This may generate errors for your transaction, present users with data that was never committed, or cause users to see records twice (or not at all).
READUNCOMMITTED
and NOLOCK
hints apply only to data locks. All queries, including those with READUNCOMMITTED
and NOLOCK
hints, acquire Sch-S (schema stability) locks during compilation and execution. Because of this, queries are blocked when a concurrent transaction holds a Sch-M (schema modification) lock on the table. For example, a data definition language (DDL) operation acquires a Sch-M lock before it modifies the schema information of the table. Any concurrent queries, including those running with READUNCOMMITTED
or NOLOCK
hints, are blocked when attempting to acquire a Sch-S lock. Conversely, a query holding a Sch-S lock blocks a concurrent transaction that attempts to acquire a Sch-M lock.
READUNCOMMITTED
and NOLOCK
can't be specified for tables modified by insert, update, or delete operations. The SQL Server query optimizer ignores the READUNCOMMITTED
and NOLOCK
hints in the FROM clause that apply to the target table of an UPDATE or DELETE statement.
Note
Support for use of the READUNCOMMITTED
and NOLOCK
hints in the FROM clause that apply to the target table of an UPDATE or DELETE statement will be removed in a future version of SQL Server. Avoid using these hints in this context in new development work, and plan to modify applications that currently use them.
You can minimize locking contention while protecting transactions from dirty reads of uncommitted data modifications by using either of the following:
- The READ COMMITTED isolation level with the
READ_COMMITTED_SNAPSHOT
database option set ON. - The
SNAPSHOT
isolation level.
For more information about isolation levels, see SET TRANSACTION ISOLATION LEVEL (Transact-SQL).
Note
If you receive the error message 601 when READUNCOMMITTED
is specified, resolve it as you would a deadlock error (error message 1205), and retry your statement.
REPEATABLEREAD
Specifies that a scan is performed with the same locking semantics as a transaction running at REPEATABLE READ isolation level. For more information about isolation levels, see SET TRANSACTION ISOLATION LEVEL (Transact-SQL).
ROWLOCK
Specifies that row locks are taken when page or table locks are ordinarily taken. When specified in transactions operating at the SNAPSHOT
isolation level, row locks aren't taken unless ROWLOCK
is combined with other table hints that require locks, such as UPDLOCK
and HOLDLOCK
. ROWLOCK
can't be used with a table that has a clustered columnstore index. The following example returns error 651 to the application.
UPDATE [dbo].[FactResellerSalesXL_CCI] WITH (ROWLOCK)
SET UnitPrice = 50
WHERE ProductKey = 150;
SERIALIZABLE
Equivalent to HOLDLOCK
. Makes shared locks more restrictive by holding them until a transaction is completed, instead of releasing the shared lock as soon as the required table or data page is no longer needed, whether the transaction has been completed or not. The scan is performed with the same semantics as a transaction running at the SERIALIZABLE
isolation level. For more information about isolation levels, see SET TRANSACTION ISOLATION LEVEL (Transact-SQL).
SNAPSHOT
Applies to: SQL Server 2014 (12.x) and later versions
The memory-optimized table is accessed under SNAPSHOT
isolation. SNAPSHOT
can only be used with memory-optimized tables (not with disk-based tables), as seen in the following example. For more information, see Introduction to Memory-Optimized Tables.
SELECT *
FROM dbo.Customers AS c WITH (SNAPSHOT)
LEFT JOIN dbo.[Order History] AS oh
ON c.customer_id=oh.customer_id;
SPATIAL_WINDOW_MAX_CELLS = <integer_value>
Applies to: SQL Server 2012 (11.x) and later versions
Specifies the maximum number of cells to use for tessellating a geometry or geography object. <integer_value> is a value between 1 and 8192.
This option allows for fine-tuning of query execution time by adjusting the tradeoff between primary and secondary filter execution time. A larger number reduces secondary filter execution time, but increases primary execution filter time and a smaller number decreases primary filter execution time, but increase secondary filter execution. For denser spatial data, a higher number should produce a faster execution time by giving a better approximation with the primary filter and reducing secondary filter execution time. For more sparse data, a lower number decreases the primary filter execution time.
This option works for both manual and automatic grid tessellations.
TABLOCK
Specifies that the acquired lock is applied at the table level. The type of lock that is acquired depends on the statement being executed. For example, a SELECT statement may acquire a shared lock. By specifying TABLOCK
, the shared lock is applied to the entire table instead of at the row or page level. If HOLDLOCK
is also specified, the table lock is held until the end of the transaction.
When importing data into a heap by using the INSERT INTO <target_table> SELECT <columns> FROM <source_table>
statement, you can enable minimal logging and optimal locking for the statement by specifying the TABLOCK
hint for the target table. In addition, the recovery model of the database must be set to simple or bulk-logged. The TABLOCK
hint also enables parallel inserts to heaps or clustered columnstore indexes. For more information, see INSERT (Transact-SQL).
When used with the OPENROWSET bulk rowset provider to import data into a table, TABLOCK
enables multiple clients to concurrently load data into the target table with optimized logging and locking. For more information, see Prerequisites for Minimal Logging in Bulk Import.
TABLOCKX
Specifies that an exclusive lock is taken on the table.
UPDLOCK
Specifies that update locks are to be taken and held until the transaction completes. UPDLOCK
takes update locks for read operations only at the row-level or page-level. If UPDLOCK
is combined with TABLOCK
, or a table-level lock is taken for some other reason, an exclusive (X) lock is taken instead.
When UPDLOCK
is specified, the READCOMMITTED
and READCOMMITTEDLOCK
isolation level hints are ignored. For example, if the isolation level of the session is set to SERIALIZABLE
and a query specifies (UPDLOCK
, READCOMMITTED
), the READCOMMITTED
hint is ignored and the transaction is run using the SERIALIZABLE
isolation level.
XLOCK
Specifies that exclusive locks are to be taken and held until the transaction completes. If specified with ROWLOCK
, PAGLOCK
, or TABLOCK
, the exclusive locks apply to the appropriate level of granularity.
Remarks
The table hints are ignored if the table isn't accessed by the query plan. This may be caused by the optimizer choosing not to access the table at all, or because an indexed view is accessed instead. In the latter case, accessing an indexed view can be prevented by using the OPTION (EXPAND VIEWS) query hint.
All lock hints are propagated to all the tables and views that are accessed by the query plan, including tables and views referenced in a view. Also, SQL Server performs the corresponding lock consistency checks.
Lock hints ROWLOCK
, UPDLOCK
, AND XLOCK
that acquire row-level locks may place locks on index keys rather than the actual data rows. For example, if a table has a nonclustered index, and a SELECT statement using a lock hint is handled by a covering index, a lock is acquired on the index key in the covering index rather than on the data row in the base table.
If a table contains computed columns that are computed by expressions or functions accessing columns in other tables, the table hints aren't used on those tables and aren't propagated. For example, a NOLOCK
table hint is specified on a table in the query. This table has computed columns that are computed by a combination of expressions and functions that access columns in another table. The tables referenced by the expressions and functions don't use the NOLOCK
table hint when accessed.
SQL Server doesn't allow for more than one table hint from each of the following groups for each table in the FROM clause:
- Granularity hints:
PAGLOCK
,NOLOCK
,READCOMMITTEDLOCK
,ROWLOCK
,TABLOCK
, orTABLOCKX
. - Isolation level hints:
HOLDLOCK
,NOLOCK
,READCOMMITTED
,REPEATABLEREAD
,SERIALIZABLE
.
Filtered index hints
A filtered index can be used as a table hint, but will cause the query optimizer to generate error 8622 if it doesn't cover all of the rows that the query selects. The following is an example of an invalid filtered index hint. The example creates the filtered index FIBillOfMaterialsWithComponentID
and then uses it as an index hint for a SELECT statement. The filtered index predicate includes data rows for ComponentIDs 533, 324, and 753. The query predicate also includes data rows for ComponentIDs 533, 324, and 753 but extends the result set to include ComponentIDs 855 and 924, which aren't in the filtered index. Therefore, the query optimizer can't use the filtered index hint and generates error 8622. For more information, see Create Filtered Indexes.
IF EXISTS (SELECT name FROM sys.indexes
WHERE name = N'FIBillOfMaterialsWithComponentID'
AND object_id = OBJECT_ID(N'Production.BillOfMaterials'))
DROP INDEX FIBillOfMaterialsWithComponentID
ON Production.BillOfMaterials;
GO
CREATE NONCLUSTERED INDEX "FIBillOfMaterialsWithComponentID"
ON Production.BillOfMaterials (ComponentID, StartDate, EndDate)
WHERE ComponentID IN (533, 324, 753);
GO
SELECT StartDate, ComponentID FROM Production.BillOfMaterials
WITH(INDEX (FIBillOfMaterialsWithComponentID))
WHERE ComponentID in (533, 324, 753, 855, 924);
GO
The query optimizer won't consider an index hint if the SET options don't have the required values for filtered indexes. For more information, see CREATE INDEX (Transact-SQL).
Use NOEXPAND
NOEXPAND
applies only to indexed views. An indexed view is a view with a unique clustered index created on it. If a query contains references to columns that are present both in an indexed view and base tables, and the query optimizer determines that using the indexed view provides the best method for executing the query, the query optimizer uses the index on the view. This functionality is called indexed view matching. Prior to SQL Server 2016 (13.x) Service Pack 1, automatic use of an indexed view by the query optimizer is supported only in specific editions of SQL Server. Since, all editions support automatic use of an indexed view. Azure SQL Database and Azure SQL Managed Instance also support automatic use of indexed views without specifying the NOEXPAND
hint.
For more information, see Query processing architecture guide.
For a list of features supported by the editions of SQL Server on Windows, see:
- Editions and supported features of SQL Server 2022
- Editions and supported features of SQL Server 2019
- Editions and supported features of SQL Server 2017
- Editions and supported features of SQL Server 2016
However, for the query optimizer to consider indexed views for matching, or use an indexed view that is referenced with the NOEXPAND
hint, the following SET options must be set to ON.
- ANSI_NULLS
- ANSI_PADDING
- ANSI_WARNINGS
- ARITHABORT 1
- CONCAT_NULL_YIELDS_NULL
- QUOTED_IDENTIFIER
1 ARITHABORT is implicitly set to ON when ANSI_WARNINGS is set to ON. Therefore, you don't have to manually adjust this setting.
Also, the NUMERIC_ROUNDABORT option must be set to OFF.
To force the query optimizer to use an index for an indexed view, specify the NOEXPAND
option. This hint can be used only if the view is also named in the query. SQL Server doesn't provide a hint to force a particular indexed view to be used in a query that doesn't name the view directly in the FROM clause. However, the query optimizer considers using indexed views, even if they aren't referenced directly in the query. The SQL Server Database Engine will only automatically create statistics on an indexed view when a NOEXPAND
table hint is used. Omitting this hint can lead to execution plan warnings about missing statistics that can't be resolved by creating statistics manually.
During query optimization, the Database Engine uses view statistics that were created automatically or manually when the query references the view directly and the NOEXPAND
hint is used.
Use a table hint as a query hint
Table hints can also be specified as a query hint by using the OPTION (TABLE HINT) clause. We recommend using a table hint as a query hint only in the context of a plan guide. For ad hoc queries, specify these hints only as table hints. For more information, see Query Hints (Transact-SQL).
Permissions
The KEEPIDENTITY, IGNORE_CONSTRAINTS, and IGNORE_TRIGGERS hints require ALTER
permissions on the table.
Examples
A. Use the TABLOCK hint to specify a locking method
The following example specifies that a shared lock is taken on the Production.Product
table in the AdventureWorks2022 database and is held until the end of the UPDATE statement.
UPDATE Production.Product
WITH (TABLOCK)
SET ListPrice = ListPrice * 1.10
WHERE ProductNumber LIKE 'BK-%';
GO
B. Use the FORCESEEK hint to specify an index seek operation
The following example uses the FORCESEEK
hint without specifying an index to force the query optimizer to perform an index seek operation on the Sales.SalesOrderDetail
table in the AdventureWorks2022 database.
SELECT *
FROM Sales.SalesOrderHeader AS h
INNER JOIN Sales.SalesOrderDetail AS d WITH (FORCESEEK)
ON h.SalesOrderID = d.SalesOrderID
WHERE h.TotalDue > 100
AND (d.OrderQty > 5 OR d.LineTotal < 1000.00);
GO
The following example uses the FORCESEEK
hint with an index to force the query optimizer to perform an index seek operation on the specified index and index column.
SELECT h.SalesOrderID, h.TotalDue, d.OrderQty
FROM Sales.SalesOrderHeader AS h
INNER JOIN Sales.SalesOrderDetail AS d
WITH (FORCESEEK (PK_SalesOrderDetail_SalesOrderID_SalesOrderDetailID (SalesOrderID)))
ON h.SalesOrderID = d.SalesOrderID
WHERE h.TotalDue > 100
AND (d.OrderQty > 5 OR d.LineTotal < 1000.00);
GO
C. Use the FORCESCAN hint to specify an index scan operation
The following example uses the FORCESCAN
hint to force the query optimizer to perform a scan operation on the Sales.SalesOrderDetail
table in the AdventureWorks2022 database.
SELECT h.SalesOrderID, h.TotalDue, d.OrderQty
FROM Sales.SalesOrderHeader AS h
INNER JOIN Sales.SalesOrderDetail AS d
WITH (FORCESCAN)
ON h.SalesOrderID = d.SalesOrderID
WHERE h.TotalDue > 100
AND (d.OrderQty > 5 OR d.LineTotal < 1000.00);