Export (0) Print
Expand All
Expand Minimize

DELETE (Transact-SQL)

Removes one or more rows from a table or view in SQL Server 2008.

Topic link iconTransact-SQL Syntax Conventions


[ WITH common_table_expression [ ,...n ] ]
DELETE 
    [ TOP (expression ) [ PERCENT ] ] 
    [ FROM ] 
    { { table_alias
      | <object> 
      | rowset_function_limited 
      [ WITH (table_hint_limited [ ...n ] ) ] } 
      | @table_variable
    }
    [ OUTPUT Clause ]
    [ FROMtable_source [ ,...n ] ] 
    [ WHERE { search_condition 
            | { [ CURRENT OF 
                   { { [ GLOBAL ] cursor_name } 
                       | cursor_variable_name 
                   } 
                ]
              }
            } 
    ] 
    [ OPTION (Query Hint [ ,...n ] ) ] 
[; ]

<object> ::=
{ 
    [ server_name.database_name.schema_name. 
      | database_name. [ schema_name ] . 
      | schema_name.
    ]
    table_or_view_name 
}

WITH common_table_expression

Specifies the temporary named result set, also known as common table expression, defined within the scope of the DELETE statement. The result set is derived from a SELECT statement. For more information, see WITH common_table_expression (Transact-SQL).

TOP ( expression) [ PERCENT ]

Specifies the number or percent of random rows that will be deleted. expression can be either a number or a percent of the rows. The rows referenced in the TOP expression used with DELETE are not arranged in any order.

Parentheses delimiting expression in TOP are required in INSERT, UPDATE, MERGE, and DELETE statements. For more information, see TOP (Transact-SQL).

FROM

An optional keyword that can be used between the DELETE keyword and the target object.

table_alias

The alias specified in the FROM table_source clause representing the table or view from which the rows are to be deleted.

server_name

The name of the linked server on which the table or view is located. server_name can be specified as a linked server name, or by using the OPENDATASOURCE function.

When server_name is specified as a linked server, database_name and schema_name are required. When server_name is specified with OPENDATASOURCE, database_name and schema_name may not apply to all data sources and is subject to the capabilities of the OLE DB provider that accesses the remote object. For more information, see Distributed Queries.

database_name

The name of the database.

schema_name

The name of the schema to which the table or view belongs.

table_or view_name

The name of the table or view from which the rows are to be removed.

The view referenced by table_or_view_name must be updatable and reference exactly one base table in the FROM clause of the view. For more information about updatable views, see CREATE VIEW (Transact-SQL).

rowset_function_limited

Either the OPENQUERY or OPENROWSET function, subject to provider capabilities. For more information about the capabilities required by the provider, see UPDATE and DELETE Requirements for OLE DB Providers.

WITH (table_hint_limited [... n] )

Specifies one or more table hints that are allowed for a target table. The WITH keyword and the parentheses are required. NOLOCK and READUNCOMMITTED are not allowed. For more information about table hints, see Table Hints (Transact-SQL).

@table_variable

Specifies a table variable.

<OUTPUT_Clause>

Returns deleted rows, or expressions based on them, as part of the delete operation. The OUTPUT clause is not supported in any DML statements targeting local partitioned views, distributed partitioned views, remote tables or remote views. For more information, see OUTPUT Clause (Transact-SQL).

FROM table_source

Specifies an additional FROM clause that can be used to join the target table_or view_name with <table_source> to identify rows to be removed. This Transact-SQL extension to DELETE can be used instead of a subquery in the WHERE clause.

For more information, see FROM (Transact-SQL).

WHERE

Specifies the conditions used to limit the number of rows to be deleted. If a WHERE clause is not supplied, DELETE removes all the rows from the table.

There are two forms of delete operations based on what is specified in the WHERE clause:

  • Searched deletes specify a search condition to qualify the rows to delete. For example, WHERE column_name = value.

  • Positioned deletes use the CURRENT OF clause to specify a cursor. The delete operation occurs at the current position of the cursor. This can be more accurate than a searched DELETE statement that uses a WHERE search_condition clause to qualify the rows to be deleted. A searched DELETE statement deletes multiple rows if the search condition does not uniquely identify a single row.

search_condition

Specifies the restricting conditions for the rows to be deleted. There is no limit to the number of predicates that can be included in a search condition. For more information, see Search Condition (Transact-SQL).

CURRENT OF

Specifies that the DELETE is performed at the current position of the specified cursor.

GLOBAL

Specifies that cursor_name refers to a global cursor.

cursor_name

The name of the open cursor from which the fetch is made. If both a global and a local cursor with the name cursor_name exist, this argument refers to the global cursor if GLOBAL is specified; otherwise, it refers to the local cursor. The cursor must allow updates.

cursor_variable_name

The name of a cursor variable. The cursor variable must reference a cursor that allows updates.

OPTION (query_hint [ ,... n] )

Keywords that indicate that optimizer hints are used to customize the way the Database Engine processes the statement. For more information, see Query Hints (Transact-SQL).

To delete all the rows in a table, use TRUNCATE TABLE. TRUNCATE TABLE is faster than DELETE and uses fewer system and transaction log resources.

Use the @@ROWCOUNT function to return the number of deleted rows to the client application. For more information, see @@ROWCOUNT (Transact-SQL).

Using SET ROWCOUNT will not affect DELETE statements in the next release of SQL Server. Do not use SET ROWCOUNT with DELETE statements in new development work, and modify applications that currently use it to use the TOP syntax.

You can implement error handling for the DELETE statement by specifying the statement in a TRY…CATCH construct. For more information, see Using TRY...CATCH in Transact-SQL.

The DELETE statement may fail if it violates a trigger or tries to remove a row referenced by data in another table with a FOREIGN KEY constraint. If the DELETE removes multiple rows, and any one of the removed rows violates a trigger or constraint, the statement is canceled, an error is returned, and no rows are removed.

When a DELETE statement encounters an arithmetic error (overflow, divide by zero, or a domain error) occurring during expression evaluation, the Database Engine handles these errors as if SET ARITHABORT is set ON. The rest of the batch is canceled, and an error message is returned.

DELETE can be used in the body of a user-defined function if the object modified is a table variable.

When you delete a row that contains a FILESTREAM column, you also delete its underlying file system files. The underlying files are removed by the FILESTREAM garbage collector. For more information, see Managing FILESTREAM Data by Using Transact-SQL.

The FROM clause cannot be specified in a DELETE statement that references, either directly or indirectly, a view with an INSTEAD OF trigger defined on it. For more information about INSTEAD OF triggers, see CREATE TRIGGER (Transact-SQL).

When TOP is used with DELETE, the referenced rows are not arranged in any order and the ORDER BY clause can not be directly specified in this statement. If you need to use TOP to delete rows in a meaningful chronological order, you must use TOP together with an ORDER BY clause in a subselect statement. See the Examples section that follows in this topic.

TOP cannot be used in a DELETE statement against partitioned views.

The setting of the SET ROWCOUNT option is ignored for DELETE statements against remote tables and local and remote partitioned views.

When rows are deleted from a heap the Database Engine may use row or page locking for the operation. As a result, the pages made empty by the delete operation remain allocated to the heap. When empty pages are not deallocated, the associated space cannot be reused by other objects in the database. To delete rows in a heap and deallocate pages, use one of the following methods.

  • Specify the TABLOCK hint in the DELETE statement. Using the TABLOCK hint causes the delete operation to take a shared lock on the table instead of a row or page lock. This allows the pages to be deallocated. For more information about the TABLOCK hint, see Table Hints (Transact-SQL).

  • Use TRUNCATE TABLE if all rows are to be deleted from the table.

  • Create a clustered index on the heap before deleting the rows. You can drop the clustered index after the rows are deleted. This method is more time consuming than the previous methods and uses more temporary resources.

For more information about locking, see Locking in the Database Engine.

The DELETE statement is always fully logged.

DELETE permissions are required on the target table. SELECT permissions are also required if the statement contains a WHERE clause.

DELETE permissions default to members of the sysadmin fixed server role, the db_owner and db_datawriter fixed database roles, and the table owner. Members of the sysadmin, db_owner, and the db_securityadmin roles, and the table owner can transfer permissions to other users.

Category

Featured syntax elements

Basic syntax

DELETE

Specifying Rows to be Deleted

WHERE clause • TOP • FROM clause and subqueries • cursor • WITH common table expression

Specifying target objects other than standard tables

Views • table variables

Deleting rows into a remote table

Linked server • OPENQUERY rowset function • OPENDATASOURCE rowset function

Overriding the default behavior of the query optimizer by using hints

Table hints

Capturing the results of the DELETE statement

OUTPUT clause

Using DELETE in Other Statements

Stored Procedure • MERGE

Examples in this section demonstrate the basic functionality of the DELETE statement using the minimum required syntax.

The following example deletes all rows from the SalesPersonQuotaHistory table because a WHERE clause is not used to limit the number of rows deleted.

USE AdventureWorks;
GO
DELETE FROM Sales.SalesPersonQuotaHistory;
GO


Examples in this section demonstrate ways to limit the number of rows deleted.

A. Using the WHERE clause to limit rows

The following example deletes all rows from the ProductCostHistory table in which the value in the StandardCost column is more than 1000.00.

USE AdventureWorks;
GO
DELETE FROM Production.ProductCostHistory
WHERE StandardCost > 1000.00;
GO


B. Using the TOP clause

You can use the TOP clause to limit the number of rows that are deleted in a DELETE statement. When a TOP (n) clause is used with DELETE, the delete operation is performed on a random selection of n number of rows.

The following example deletes 2.5 percent of the rows (27 rows) in the ProductInventory table.

USE AdventureWorks;
GO
DELETE TOP (2.5) PERCENT 
FROM Production.ProductInventory;
GO


The following example deletes 20 random rows from the PurchaseOrderDetail table that have due dates that are earlier than July 1, 2002.

USE AdventureWorks;
GO
DELETE TOP (20) 
FROM Purchasing.PurchaseOrderDetail
WHERE DueDate < '20020701';
GO


If you have to use TOP to delete rows in a meaningful chronological order, you must use TOP together with ORDER BY in a subselect statement. The following example deletes the 10 rows of the PurchaseOrderDetail table that have the earliest due dates. To ensure that only 10 rows are deleted, the column specified in the subselect statement (PurchaseOrderID) is the primary key of the table. Using a nonkey column in the subselect statement may result in the deletion of more than 10 rows if the specified column contains duplicate values.

USE AdventureWorks;
GO
DELETE FROM Purchasing.PurchaseOrderDetail
WHERE PurchaseOrderDetailID IN
   (SELECT TOP 10 PurchaseOrderDetailID 
    FROM Purchasing.PurchaseOrderDetail 
    ORDER BY DueDate ASC);
GO


C. Using a cursor to delete the current row

The following example deletes a single row from the EmployeePayHistory table using a cursor named complex_cursor. The delete operation affects only the single row currently fetched from the cursor.

USE AdventureWorks;
GO
DECLARE complex_cursor CURSOR FOR
    SELECT a.EmployeeID
    FROM HumanResources.EmployeePayHistory AS a
    WHERE RateChangeDate <> 
         (SELECT MAX(RateChangeDate)
          FROM HumanResources.EmployeePayHistory AS b
          WHERE a.EmployeeID = b.EmployeeID) ;
OPEN complex_cursor;
FETCH FROM complex_cursor;
DELETE FROM HumanResources.EmployeePayHistory
WHERE CURRENT OF complex_cursor;
CLOSE complex_cursor;
DEALLOCATE complex_cursor;
GO


D. Using a subquery and using the Transact-SQL FROM extension

The following example shows the Transact-SQL extension used to delete records from a base table that is based on a join or correlated subquery. The first DELETE statement shows the ISO-compatible subquery solution, and the second DELETE statement shows the Transact-SQL extension. Both queries remove rows from the SalesPersonQuotaHistory table based on the year-to-date sales stored in the SalesPerson table.

-- SQL-2003 Standard subquery

USE AdventureWorks;
GO
DELETE FROM Sales.SalesPersonQuotaHistory 
WHERE SalesPersonID IN 
    (SELECT SalesPersonID 
     FROM Sales.SalesPerson 
     WHERE SalesYTD > 2500000.00);
GO


-- Transact-SQL extension
USE AdventureWorks;
GO
DELETE FROM Sales.SalesPersonQuotaHistory 
FROM Sales.SalesPersonQuotaHistory AS spqh
    INNER JOIN Sales.SalesPerson AS sp
    ON spqh.SalesPersonID = sp.SalesPersonID
WHERE sp.SalesYTD > 2500000.00;
GO


E. Using a common table expression

The following example deletes only the rows returned by the common table expression.

Examples in this section demonstrate how to delete rows by specifying a view or table variable.

Examples in this section demonstrate how to delete rows into a remote target table by using a linked server or a rowset function to reference the remote table.

Examples in this section demonstrate how to use table hints and query hints to temporarily override the default behavior of the query optimizer when processing the DELETE statement.

Caution noteCaution

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.

The following example specified the table hint READPAST. When READPAST is specified, both row-level and page-level locks are skipped, which causes the Database Engine to not read rows and pages that are locked by other transactions. For more information, see Table Hints (Transact-SQL).

USE AdventureWorks;
GO
DELETE TOP(1) dbo.DatabaseLog WITH (READPAST)
OUTPUT deleted.*
WHERE DatabaseLogID = 7;
GO


Examples in this section demonstrate how to use the OUTPUT Clause to return information from, or expressions based on, each row affected by an DELETE statement. These results can be returned to the processing application for use in such things as confirmation messages, archiving, and other such application requirements.

A. Using DELETE with the OUTPUT clause

The following example shows how to save the results of a DELETE statement into a table variable.

USE AdventureWorks;
GO
DELETE Sales.ShoppingCartItem
OUTPUT DELETED.* 
WHERE ShoppingCartID = 20621;

--Verify all rows in the table that match the WHERE clause have been deleted.
SELECT COUNT(*) AS [Rows in Table] FROM Sales.ShoppingCartItem WHERE ShoppingCartID = 20621;
GO


B. Using OUTPUT with from_table_name in a DELETE statement

The following example deletes rows in the ProductProductPhoto table based on search criteria defined in the FROM clause of the DELETE statement. The OUTPUT clause returns columns from the table being deleted, DELETED.ProductID, DELETED.ProductPhotoID, and columns from the Product table. This is used in the FROM clause to specify the rows to delete.

USE AdventureWorks;
GO
DECLARE @MyTableVar table (
    ProductID int NOT NULL, 
    ProductName nvarchar(50)NOT NULL,
    ProductModelID int NOT NULL, 
    PhotoID int NOT NULL);

DELETE Production.ProductProductPhoto
OUTPUT DELETED.ProductID,
       p.Name,
       p.ProductModelID,
       DELETED.ProductPhotoID
    INTO @MyTableVar
FROM Production.ProductProductPhoto AS ph
JOIN Production.Product as p 
    ON ph.ProductID = p.ProductID 
    WHERE p.ProductModelID BETWEEN 120 and 130;

--Display the results of the table variable.
SELECT ProductID, ProductName, ProductModelID, PhotoID 
FROM @MyTableVar
ORDER BY ProductModelID;
GO


Community Additions

ADD
Show:
© 2014 Microsoft