DELETE
Purpose
Use the DELETE
statement to remove rows from:
-
An unpartitioned or partitioned table
-
The unpartitioned or partitioned base table of a view
-
The unpartitioned or partitioned container table of a writable materialized view
-
The unpartitioned or partitioned master table of an updatable materialized view
Prerequisites
For you to delete rows from a table, the table must be in your own schema or you must have the DELETE
object privilege on the table.
For you to delete rows from an updatable materialized view, the materialized view must be in your own schema or you must have the DELETE
object privilege on the materialized view.
For you to delete rows from the base table of a view, the owner of the schema containing the view must have the DELETE
object privilege on the base table. Also, if the view is in a schema other than your own, then you must have the DELETE
object privilege on the view.
The DELETE
ANY
TABLE
system privilege also allows you to delete rows from any table or table partition or from the base table of any view.
To delete rows from an object on a remote database, you must also have the READ
or SELECT
object privilege on the object.
If the SQL92_SECURITY
initialization parameter is set to TRUE
and the DELETE
operation references table columns, such as the columns in a where_clause
, then you must also have the SELECT
object privilege on the object from which you want to delete rows.
You cannot delete rows from a table if a function-based index on the table has become invalid. You must first validate the function-based index.
Syntax
delete::=
(DML_table_expression_clause::=, where_clause::=, returning_clause::=, error_logging_clause::=)
DML_table_expression_clause::=
(partition_extension_clause::=, subquery::=, subquery_restriction_clause::=, table_collection_expression::=)
partition_extension_clause::=
subquery_restriction_clause::=
table_collection_expression::=
where_clause::=
returning_clause::=
error_logging_clause::=
Semantics
hint
Specify a comment that passes instructions to the optimizer on choosing an execution plan for the statement.
See Also:
"Hints" for the syntax and description of hints
from_clause
Use the FROM
clause to specify the database objects from which you are deleting rows.
The ONLY
syntax is relevant only for views. Use the ONLY
clause if the view in the FROM
clause belongs to a view hierarchy and you do not want to delete rows from any of its subviews.
DML_table_expression_clause
Use this clause to specify the objects from which data is being deleted.
schema
Specify the schema containing the table or view. If you omit schema
, then Oracle Database assumes the table or view is in your own schema.
table | view | materialized view | subquery
Specify the name of a table, view, materialized view, or the column or columns resulting from a subquery, from which the rows are to be deleted.
When you delete rows from an updatable view, Oracle Database deletes rows from the base table.
You cannot delete rows from a read-only materialized view. If you delete rows from a writable materialized view, then the database removes the rows from the underlying container table. However, the deletions are overwritten at the next refresh operation. If you delete rows from an updatable materialized view that is part of a materialized view group, then the database also removes the corresponding rows from the master table.
If table
or the base table of view
or the master table of materialized_view
contains one or more domain index columns, then this statement executes the appropriate indextype delete routine.
See Also:
Oracle Database Data Cartridge Developer's Guide for more information on these routines
Issuing a DELETE
statement against a table fires any DELETE
triggers defined on the table.
All table or index space released by the deleted rows is retained by the table and index.
partition_extension_clause
Specify the name or partition key value of the partition or subpartition targeted for deletes within the object.
You need not specify the partition name when deleting values from a partitioned object. However, in some cases, specifying the partition name is more efficient than a complicated where_clause
.
dblink
Specify the complete or partial name of a database link to a remote database where the object is located. You can delete rows from a remote object only if you are using Oracle Database distributed functionality.
Note:
Starting with Oracle Database 12c Release 2 (12.2), the DELETE
statement accepts remote LOB locators as bind variables. Refer to the “Distributed LOBs” chapter in Oracle Database SecureFiles and Large Objects Developer's Guide for more information.
See Also:
"References to Objects in Remote Databases" for information on referring to database links and "Deleting Rows from a Remote Database: Example"
If you omit dblink
, then the database assumes that the object is located on the local database.
subquery_restriction_clause
The subquery_restriction_clause
lets you restrict the subquery in one of the following ways:
WITH READ ONLY
Specify WITH READ ONLY
to indicate that the table or view cannot be updated.
WITH CHECK OPTION
Specify WITH CHECK OPTION
to indicate that Oracle Database prohibits any changes to the table or view that would produce rows that are not included in the subquery. When used in the subquery of a DML statement, you can specify this clause in a subquery in the FROM
clause but not in subquery in the WHERE
clause.
CONSTRAINT constraint
Specify the name of the CHECK OPTION
constraint. If you omit this identifier, then Oracle automatically assigns the constraint a name of the form SYS_C
n
, where n is an integer that makes the constraint name unique within the database.
See Also:
table_collection_expression
The table_collection_expression
lets you inform Oracle that the value of collection_expression
should be treated as a table for purposes of query and DML operations. The collection_expression
can be a subquery, a column, a function, or a collection constructor. Regardless of its form, it must return a collection value—that is, a value whose type is nested table or varray. This process of extracting the elements of a collection is called collection unnesting.
The optional plus (+) is relevant if you are joining the TABLE
collection expression with the parent table. The + creates an outer join of the two, so that the query returns rows from the outer table even if the collection expression is null.
Note:
In earlier releases of Oracle, when collection_expression
was a subquery, table_collection_expression
was expressed as THE
subquery
. That usage is now deprecated.
You can use a table_collection_expression
in a correlated subquery to delete rows with values that also exist in another table.
See Also:
collection_expression
Specify a subquery that selects a nested table column from the object from which you are deleting.
Restrictions on the dml_table_expression_clause Clause
This clause is subject to the following restrictions:
-
You cannot execute this statement if
table
or the base or master table ofview
ormaterialized_view
contains any domain indexes markedIN_PROGRESS
orFAILED.
-
You cannot insert into a partition if any affected index partitions are marked
UNUSABLE
. -
You cannot specify the
ORDER
BY
clause in the subquery of theDML_table_expression_clause
. -
You cannot delete from a view except through
INSTEAD
OF
triggers if the defining query of the view contains one of the following constructs:- A set operator
- A
DISTINCT
operator - An aggregate or analytic function
- A
GROUP
BY
,ORDER
BY
,MODEL
,CONNECT
BY
, orSTART
WITH
clause - A collection expression in a
SELECT
list - A subquery in a
SELECT
list - A subquery designated
WITH READ ONLY
- Joins, with some exceptions, as documented in Oracle Database Administrator's Guide
If you specify an index, index partition, or index subpartition that has been marked UNUSABLE
, then the DELETE
statement will fail unless the SKIP_UNUSABLE_INDEXES
initialization parameter has been set to true
.
See Also:
t_alias
Provide a correlation name for the table, view, materialized view, subquery, or collection value to be referenced elsewhere in the statement. This alias is required if the DML_table_expression_clause
references any object type attributes or object type methods. Table aliases are generally used in DELETE
statements with correlated queries.
where_clause
Use the where_clause
to delete only rows that satisfy the condition. The condition can reference the object from which you are deleting and can contain a subquery. You can delete rows from a remote object only if you are using Oracle Database distributed functionality. Refer to Conditions for the syntax of condition
.
If this clause contains a subquery
that refers to remote objects, then the DELETE
operation can run in parallel as long as the reference does not loop back to an object on the local database. However, if the subquery
in the DML_table_expression_clause
refers to any remote objects, then the DELETE
operation will run serially without notification. Refer to the parallel_clause in the CREATE
TABLE
documentation for additional information.
If you omit dblink
, then the database assumes that the table or view is located on the local database.
If you omit the where_clause
, then the database deletes all rows of the object.
returning_clause
This clause lets you return values from deleted columns, and thereby eliminate the need to issue a SELECT
statement following the DELETE
statement.
The returning clause retrieves the rows affected by a DML statement. You can specify this clause for tables and materialized views and for views with a single base table.
When operating on a single row, a DML statement with a returning_clause
can retrieve column expressions using the affected row, rowid, and REFs
to the affected row and store them in host variables or PL/SQL variables.
When operating on multiple rows, a DML statement with the returning_clause
stores values from expressions, rowids, and REFs
involving the affected rows in bind arrays.
expr
Each item in the expr
list must be a valid expression syntax.
INTO
The INTO
clause indicates that the values of the changed rows are to be stored in the variable(s) specified in data_item
list.
data_item
Each data_item
is a host variable or PL/SQL variable that stores the retrieved expr
value.
For each expression in the RETURNING
list, you must specify a corresponding type-compatible PL/SQL variable or host variable in the INTO
list.
Restrictions on the RETURNING Clause
The following restrictions apply to the RETURNING
clause:
-
The
expr
is restricted as follows:-
For
UPDATE
andDELETE
statements eachexpr
must be a simple expression or a single-set aggregate function expression. You cannot combine simple expressions and single-set aggregate function expressions in the samereturning_clause
. ForINSERT
statements, eachexpr
must be a simple expression. Aggregate functions are not supported in anINSERT
statementRETURNING
clause. -
Single-set aggregate function expressions cannot include the
DISTINCT
keyword.
-
-
If the
expr
list contains a primary key column or otherNOT
NULL
column, then the update statement fails if the table has aBEFORE
UPDATE
trigger defined on it. -
You cannot specify the
returning_clause
for a multitable insert. -
You cannot use this clause with parallel DML or with remote objects.
-
You cannot retrieve
LONG
types with this clause. -
You cannot specify this clause for a view on which an
INSTEAD
OF
trigger has been defined.
See Also:
-
Oracle Database PL/SQL Language Reference for information on using the
BULK
COLLECT
clause to return multiple values to collection variables
error_logging_clause
The error_logging_clause
has the same behavior in DELETE
statement as it does in an INSERT
statement. Refer to the INSERT
statement error_logging_clause for more information.
Examples
Deleting Rows: Examples
The following statement deletes all rows from the sample table oe.product_descriptions
where the value of the language_id
column is AR
:
DELETE FROM product_descriptions WHERE language_id = 'AR';
The following statement deletes from the sample table hr.employees
purchasing clerks whose commission rate is less than 10%:
DELETE FROM employees WHERE job_id = 'SA_REP' AND commission_pct < .2;
The following statement has the same effect as the preceding example, but uses a subquery:
DELETE FROM (SELECT * FROM employees) WHERE job_id = 'SA_REP' AND commission_pct < .2;
Deleting Rows from a Remote Database: Example
The following statement deletes specified rows from the locations
table owned by the user hr
on a database accessible by the database link remote
:
DELETE FROM hr.locations@remote WHERE location_id > 3000;
Deleting Nested Table Rows: Example
For an example that deletes nested table rows, refer to "Table Collections: Examples".
Deleting Rows from a Partition: Example
The following example removes rows from partition sales_q1_1998
of the sh.sales
table:
DELETE FROM sales PARTITION (sales_q1_1998) WHERE amount_sold > 1000;
Using the RETURNING Clause: Example
The following example returns column salary
from the deleted rows and stores the result in bind variable :bnd1
. The bind variable must already have been declared.
DELETE FROM employees WHERE job_id = 'SA_REP' AND hire_date + TO_YMINTERVAL('01-00') < SYSDATE RETURNING salary INTO :bnd1;
Deleting Data from a Table: Example
The following statements create a table named product_price_history and insert data into it:
CREATE TABLE product_price_history ( product_id INTEGER NOT NULL, price INTEGER NOT NULL, currency_code VARCHAR2(3 CHAR) NOT NULL, effective_from_date DATE NOT NULL, effective_to_date DATE, CONSTRAINT product_price_history_pk PRIMARY KEY (product_id, currency_code, effective_from_date) ) PARTITION BY RANGE (effective_from_date) ( PARTITION p0 VALUES less than (DATE'2015-01-02'), PARTITION p1 VALUES less than (DATE'2015-01-03'), PARTITION p2 VALUES less than (DATE'2015-01-04') ); INSERT INTO product_price_history WITH prices AS ( SELECT 1, 100, 'USD', DATE'2015-01-01', DATE'2015-01-02' FROM dual UNION ALL SELECT 1, 60, 'GBP', DATE'2015-01-01', DATE'2015-01-02' FROM dual UNION ALL SELECT 1, 110, 'EUR', DATE'2015-01-01', DATE'2015-01-02' FROM dual UNION ALL SELECT 1, 101, 'USD', DATE'2015-01-02', DATE'2015-01-03' FROM dual UNION ALL SELECT 1, 62, 'GBP', DATE'2015-01-02', DATE'2015-01-03' FROM dual UNION ALL SELECT 1, 109, 'EUR', DATE'2015-01-02', DATE'2015-01-03' FROM dual UNION ALL SELECT 1, 105, 'USD', DATE'2015-01-03', NULL FROM dual UNION ALL SELECT 1, 61, 'GBP', DATE'2015-01-03', NULL FROM dual UNION ALL SELECT 1, 107, 'EUR', DATE'2015-01-03', NULL FROM dual UNION ALL SELECT 2, 30, 'USD', DATE'2015-01-01', DATE'2015-01-03' FROM dual UNION ALL SELECT 2, 33, 'USD', DATE'2015-01-03', NULL FROM dual UNION ALL SELECT 3, 100, 'GBP', DATE'2015-01-03', NULL FROM dual ) SELECT * FROM prices;
The following statement deletes the rows from the table product_price_history where product_id is 3:
DELETE FROM product_price_history WHERE product_id = 3;
The following procedure deletes the rows from the product_price_history where product_id is 2 and effective_to_date is NULL:
DECLARE currency product_price_history.currency_code%TYPE; BEGIN DELETE product_price_history WHERE product_id = 2 AND effective_to_date IS NULL returning currency_code INTO currency; dbms_output.Put_line(currency); END; USD
The following statement deletes the rows from the table product_price_history where currency_code is ‘EUR’:
DELETE (SELECT * FROM product_price_history) WHERE currency_code = 'EUR';
The following statement uses a subquery to delete rows from product_price_history:
DELETE product_price_history pp WHERE (product_id, currency_code, effective_from_date) IN (SELECT product_id, currency_code, Max(effective_from_date) FROM product_price_history GROUP BY product_id, currency_code);
The following statement uses partitions to delete rows from product_price_history:
DELETE product_price_history partition (p1);
The following statement displays the table information:
SELECT * FROM product_price_history; PRODUCT_ID PRICE CUR EFFECTIVE EFFECTIVE ---------- ---------- --- --------- --------- 1 100 USD 01-JAN-15 02-JAN-15 1 60 GBP 01-JAN-15 02-JAN-15
The following statement deletes all rows from product_price_history:
DELETE product_price_history;
Live SQL:
View and run a related example on Oracle Live SQL at Deleting Data from a Table