Oracle® Database SQL Reference 10g Release 1 (10.1) Part Number B10759-01 |
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Purpose
Use the ALTER
TABLE
statement to alter the definition of a nonpartitioned table, a partitioned table, a table partition, or a table subpartition. For object tables or relational tables with object columns, use ALTER
TABLE
to convert the table to the latest definition of its referenced type after the type has been altered.
See Also:
|
Additional Topics:
Prerequisites
The table must be in your own schema, or you must have ALTER
object privilege on the table, or you must have ALTER
ANY
TABLE
system privilege.
If you are not the owner of the table, then you need the DROP
ANY
TABLE
privilege in order to use the drop_table_partition
or truncate_table_partition
clause.
You must also have space quota in the tablespace in which space is to be acquired in order to use the add_table_partition
, modify_table_partition
, move_table_partition
, and split_table_partition
clauses.
To enable a unique or primary key constraint, you must have the privileges necessary to create an index on the table. You need these privileges because Oracle Database creates an index on the columns of the unique or primary key in the schema containing the table.
To enable or disable triggers, the triggers must be in your schema or you must have the ALTER
ANY
TRIGGER
system privilege.
To use an object type in a column definition when modifying a table, either that object must belong to the same schema as the table being altered, or you must have either the EXECUTE
ANY
TYPE
system privilege or the EXECUTE
schema object privilege for the object type.
Syntax
Note: You must specify some clause aftertable . That is, none of the clauses after table are required, but you must specify at least one of them. |
Groups of ALTER TABLE syntax:
After each clause you will find links to its component subclauses.
(physical_attributes_clause ::=, logging_clause::=, table_compression ::=, supplemental_table_logging ::=, allocate_extent_clause ::=, deallocate_unused_clause ::= , shrink_clause ::=, upgrade_table_clause ::=, records_per_block_clause ::=, parallel_clause::=, row_movement_clause::=, alter_iot_clauses::=)
(alter_overflow_clause ::=, alter_mapping_table_clauses ::=)
(segment_attributes_clause::=)
(physical_attributes_clause ::=, logging_clause::=)
(segment_attributes_clause::=, allocate_extent_clause ::=, deallocate_unused_clause ::=)
(segment_attributes_clause::=)
(allocate_extent_clause ::=, deallocate_unused_clause ::=)
(add_column_clause ::=, modify_column_clauses ::=, drop_column_clause ::=, rename_column_clause ::=, modify_collection_retrieval ::=, modify_LOB_storage_clause::=, alter_varray_col_properties::=)
(inline_constraint
and inline_ref_constraint
: constraint::=, column_properties ::=,)
(inline_constraint
: constraint::=)
(constraint_state
: constraint::=)
(inline_constraint
, inline_ref_constraint
, out_of_line_constraint
, out_of_line_ref_constraint
: constraint::=)
(supplemental_log_grp_clause::=, supplemental_id_key_clause::=)
(segment_attributes_clause::=, index_org_table_clause ::=, external_data_properties::=)
(substitutable_column_clause::=)
(storage_clause::=, logging_clause::=)
(storage_clause::=, logging_clause::=, allocate_extent_clause ::=, deallocate_unused_clause ::=)
(LOB_storage_clause::=, varray_col_properties::=)
(add_column_clause ::=, modify_column_clauses ::=, drop_column_clause ::=, drop_constraint_clause ::=, parallel_clause::=)
(modify_table_default_attrs ::=, set_subpartition_template ::=, modify_table_partition ::=, modify_table_subpartition::=, move_table_partition ::=, move_table_subpartition::=, add_table_partition::=, coalesce_table_partition::=, drop_table_partition ::=, drop_table_subpartition ::=, rename_partition_subpart::=, truncate_partition_subpart::=, split_table_partition ::=, split_table_subpartition ::=, merge_table_partitions ::=, merge_table_subpartitions ::=, exchange_partition_subpart ::=
(segment_attributes_clause::=, table_compression ::=, key_compression::=, LOB_parameters::=, alter_overflow_clause ::=)
(list_values_clause::=, partitioning_storage_clause::=)
(modify_range_partition::=, modify_hash_partition::=, modify_list_partition::=)
(partition_attributes::=, update_index_clauses::=, alter_mapping_table_clauses ::=)
(partition_attributes::=, add_hash_subpartition ::=, parallel_clause , alter_mapping_table_clauses ::=)
(partition_attributes::=, add_list_subpartition::=)
(modify_hash_subpartition::=, modify_list_subpartition ::=)
(table_partition_description::=, update_index_clauses::=, parallel_clause::=)
(subpartition_spec::=, update_index_clauses::=, parallel_clause::=)
(range_values_clause::=, table_partition_description::=, update_index_clauses::=)
(partitioning_storage_clause::=, update_index_clauses::=, parallel_clause::=)
(list_values_clause::=, table_partition_description::=, update_index_clauses::=)
(update_index_clauses::=, parallel_clause::=)
(
update_index_clauses::=, parallel_clause::=)
(update_index_clauses::=, parallel_clause::=)
(update_index_clauses::=, parallel_clause::=)
(partition_spec::=, update_index_clauses::=, parallel_clause::=)
(subpartition_spec::=, update_index_clauses::=, parallel_clause::=)
(partition_spec::=, update_index_clauses::=, parallel_clause::=)
(subpartition_spec::=, parallel_clause::=)
(update_index_clauses::=, parallel_clause::=)
(physical_attributes_clause ::=, logging_clause::=, allocate_extent_clause ::=, deallocate_unused_clause ::=, shrink_clause ::=, table_compression ::=, modify_LOB_parameters::=)
(subpartition_spec::=, update_index_clauses::=, parallel_clause::=)
(subpartition_spec::=, update_index_clauses::=)
(allocate_extent_clause ::=, deallocate_unused_clause ::=, shrink_clause ::=, modify_LOB_parameters::=)
(allocate_extent_clause ::=, deallocate_unused_clause ::=, shrink_clause ::=, modify_LOB_parameters::=)
(segment_attributes_clause::=, table_compression ::=, key_compression::=, LOB_storage_clause::=, varray_col_properties::=)
(table_partition_description::=)
(list_values_clause::=, partitioning_storage_clause::=)
(segment_attributes_clause::=, table_compression ::=, index_org_table_clause ::=, LOB_storage_clause::=, varray_col_properties::=)
(using_index_clause::=, exceptions_clause ::=,)
(create_index::=, index_properties::=)
(global_partitioned_index::=, local_partitioned_index ::=—part of CREATE
INDEX
, index_attributes::=, domain_index_clause
: not supported in using_index_clause
)
(physical_attributes_clause ::=, logging_clause::=, key_compression::=, parallel_clause
: not supported in using_index_clause
)
Semantics
Many clauses of the ALTER
TABLE
statement have the same functionality they have in a CREATE
TABLE
statement. For more information on such clauses, please see CREATE TABLE .
Note: Operations performed by theALTER TABLE statement can cause Oracle Database to invalidate procedures and stored functions that access the table. For information on how and when the database invalidates such objects, see Oracle Database Concepts. |
Specify the schema containing the table. If you omit schema
, then Oracle Database assumes the table is in your own schema.
Specify the name of the table to be altered.
Note: If you alter a table that is a master table for one or more materialized views, then Oracle Database marks the materialized viewsINVALID . Invalid materialized views cannot be used by query rewrite and cannot be refreshed. For information on revalidating a materialized view, see ALTER MATERIALIZED VIEW . |
You can modify, drop columns from, or rename a temporary table. However, for a temporary table you cannot:
Add columns of nested table type. You can add columns of other types.
Specify referential integrity (foreign key) constraints for an added or modified column.
Specify the following clauses of the LOB_storage_clause
for an added or modified LOB column: TABLESPACE
, storage_clause
, logging_clause
, allocate_extent_clause
, or deallocate_unused_clause
.
Specify the physical_attributes_clause
, nested_table_col_properties
, parallel_clause
, allocate_extent_clause
, deallocate_unused_clause
, or any of the index organized table clauses.
Exchange partitions between a partition and a temporary table.
Specify the logging_clause
.
Specify MOVE.
You can add, drop, or modify the columns of an external table. However, for an external table you cannot:
Add a LONG
, LOB, or object type column or change the datatype of an external table column to any of these datatypes.
Add a constraint to an external table.
Modify the storage parameters of an external table.
Specify the logging_clause
.
Specify MOVE
.
Use the alter_table_clauses
to modify a database table.
The physical_attributes_clause
lets you change the value of the PCTFREE
, PCTUSED
, and INITRANS
parameters and storage characteristics. Please refer to physical_attributes_clause and storage_clause for a full description of these parameters and characteristics.
You cannot specify the PCTUSED
parameter for the index segment of an index-organized table.
If you attempt to alter the storage attributes of tables in locally managed tablespaces, then Oracle Database raises an error. However, if some segments of a partitioned table reside in a locally managed tablespace and other segments reside in a dictionary-managed tablespace, then the database alters the storage attributes of the segments in the dictionary-managed tablespace but does not alter the attributes of the segments in the locally managed tablespace, and does not raise an error.
For segments with automatic segment-space management, the database ignores attempts to change the PCTUSED
setting. If you alter the PCTFREE
setting, then you must subsequently run the DBMS_REPAIR.SEGMENT_FIX_STATUS
procedure to implement the new setting on blocks already allocated to the segment.
The values you specify in this clause affect the table as follows:
For a nonpartitioned table, the values you specify override any values specified for the table at create time.
For a range-, list-, or hash-partitioned table, the values you specify are the default values for the table and the actual values for every existing partition, overriding any values already set for the partitions. To change default table attributes without overriding existing partition values, use the modify_table_default_attrs
clause.
For a composite-partitioned table, the values you specify are the default values for the table and all partitions of the table and the actual values for all subpartitions of the table, overriding any values already set for the subpartitions. To change default partition attributes without overriding existing subpartition values, use the modify_table_default_attrs
clause with the FOR
PARTITION
clause.
Use the logging_clause
to change the logging attribute of the table. Thelogging_clause
specifies whether subsequent ALTER
TABLE
... MOVE
and ALTER
TABLE
... SPLIT
operations will be logged or not logged.
When used with the modify_table_default_attrs
clause, this clause affects the logging attribute of a partitioned table.
See Also:
|
The table_compression
clause is valid only for heap-organized tables. Use this clause to instruct Oracle Database whether to compress data segments to reduce disk and memory use. The COMPRESS
keyword enables table compression. The NOCOMPRESS
keyword disables table compression.
Note: The first time a table is altered in such a way that compressed data will be added, all bitmap indexes and bitmap index partitions on that table must be markedUNUSABLE . |
See Also:
|
Use the supplemental_table_logging
clause to add or drop a redo log group or one or more supplementally logged columns in a redo log group.
In the ADD
clause, use supplemental_log_grp_clause
to create named supplemental log group. Use the supplemental_id_key_clause
to create system-generated log group.
On the DROP
clause, use GROUP
log_group
syntax to drop a named supplemental log group and use the supplemental_id_key_clause
to drop a system-generated log group.
The supplemental_log_grp_clause
and the supplemental_id_key_clause
have the same semantics in CREATE
TABLE
and ALTER
TABLE
statements. For full information on these clauses, please refer to supplemental_log_grp_clause and supplemental_id_key_clause in the documentation on CREATE
TABLE
.
See Also: Oracle Data Guard Concepts and Administration for information on supplemental redo log groups |
Use the allocate_extent_clause
to explicitly allocate a new extent for the table, the partition or subpartition, the overflow data segment, the LOB data segment, or the LOB index.
You cannot allocate an extent for a temporary table or for a range- or composite-partitioned table.
See Also: allocate_extent_clause for a full description of this clause and "Allocating Extents: Example" |
Use the deallocate_unused_clause
to explicitly deallocate unused space at the end of the table, partition or subpartition, overflow data segment, LOB data segment, or LOB index and make the space available for other segments in the tablespace.
See Also: deallocate_unused_clause for a full description of this clause and "Deallocating Unused Space: Example" |
The shrink clause lets you manually shrink space in a table, index-organized table, index, partition, subpartition, materialized view, or materialized view log. This clause is valid only for segments in tablespaces with automatic segment management. By default, Oracle Database compacts the segment, adjusts the high water mark, and releases the recuperated space immediately.
Compacting the segment requires row movement. Therefore, you must enable row movement for the object you want to shrink before specifying this clause. Further, if your application has any rowid-based triggers, you should disable them before issuing this clause.
If you specify COMPACT
, then Oracle Database only defragments the segment space and compacts the table rows for subsequent release. The database does not readjust the high water mark and does not release the space immediately. You must issue another ALTER
TABLE
... SHRINK
SPACE
statement later to complete the operation. This clause is useful if you want to accomplish the shrink operation in two shorter steps rather than one longer step.
For an index or index-organized table, specifying ALTER
[INDEX
| TABLE
] ... SHRINK
SPACE
COMPACT
is equivalent to specifying ALTER
[INDEX
| TABLE
... COALESCE
. The shrink_clause
can be cascaded (please refer to the CASCADE
clause, which follows) and compacts the segment more densely than does a coalesce operation, which can improve performance. However, if you do not wish to release the unused space, then you can use the appropriate COALESCE
clause.
If you specify CASCADE
, then Oracle Database performs the same operations on all dependent objects of table
, including secondary indexes on index-organized tables.
You cannot specify this clause for a cluster, a clustered table, or any object with a LONG
column.
Segment shrink is not supported for LOB segments even if CASCADE
is specified.
Segment shrink is not supported for tables with function-based indexes.
This clause does not shrink mapping tables or overflow segments of index-organized tables, even if you specify CASCADE
.
You cannot shrink a table that is the master table of an ON
COMMIT
materialized view. Rowid materialized views must be rebuilt after the shrink operation.
The CACHE
and NOCACHE
clauses have the same semantics in CREATE
TABLE
and ALTER
TABLE
statements. For complete information on these clauses, please refer to "CACHE | NOCACHE | CACHE READS" in the documentation on CREATE
TABLE
. If you omit both of these clauses in an ALTER
TABLE
statement, then the existing value is unchanged.
The upgrade_table_clause
is relevant for object tables and for relational tables with object columns. It lets you instruct Oracle Database to convert the metadata of the target table to conform with the latest version of each referenced type. If table is already valid, then the table metadata remains unchanged.
Within this clause, you cannot specify object_type_col_properties
as a clause of column_properties
.
Specify INCLUDING
DATA
if you want Oracle Database to convert the data in the table to the latest type version format. You can define the storage for any new column while upgrading the table by using the column_properties and the LOB_partition_storage . This is the default.
You can convert data in the table at the time you upgrade the type by specifying CASCADE
INCLUDING
TABLE
DATA
in the dependent_handling_clause
of the ALTER
TYPE
statement. See dependent_handling_clause . For information on whether a table contains data based on an older type version, refer to the DATA_UPGRADED
column of the USER_TAB_COLUMNS
data dictionary view.
Specify NOT
INCLUDING
DATA
if you want Oracle Database to leave column data unchanged.
You cannot specify NOT
INCLUDING
DATA
if the table contains columns in Oracle8 release 8.0.x image format. To determine whether the table contains such columns, refer to the V80_FMT_IMAGE
column of the USER_TAB_COLUMNS
data dictionary view.
See Also:
|
The records_per_block_clause
lets you specify whether Oracle Database restricts the number of records that can be stored in a block. This clause ensures that any bitmap indexes subsequently created on the table will be as compressed as possible.
You cannot specify either MINIMIZE
or NOMINIMIZE
if a bitmap index has already been defined on table. You must first drop the bitmap index.
You cannot specify this clause for an index-organized table or a nested table.
Specify MINIMIZE
to instruct Oracle Database to calculate the largest number of records in any block in the table and to limit future inserts so that no block can contain more than that number of records.
Oracle recommends that a representative set of data already exist in the table before you specify MINIMIZE
. If you are using table compression (see table_compression ), then a representative set of compressed data should already exist in the table.
You cannot specify MINIMIZE
for an empty table.
Specify NOMINIMIZE
to disable the MINIMIZE
feature. This is the default.
This clause has the same semantics in CREATE
TABLE
and ALTER
TABLE
statements. For complete information on these clauses, please refer to row_movement_clause in the documentation on CREATE
TABLE
.
Use the RENAME
clause to rename table
to new_table_name
.
Note: Using this clause invalidates any dependent materialized views. For more information on materialized views, see CREATE MATERIALIZED VIEW and Oracle Data Warehousing Guide. |
See index_org_table_clause in the context of CREATE
TABLE
.
This clause is relevant only if table
is index organized. Specify COMPRESS
to instruct Oracle Database to combine the primary key index blocks of the index-organized table where possible to free blocks for reuse. You can specify this clause with the parallel_clause
.
The alter_overflow_clause
lets you change the definition of an index-organized table. Index-organized tables keep data sorted on the primary key and are therefore best suited for primary-key-based access and manipulation.
Note: When you add a column to an index-organized table, Oracle Database evaluates the maximum size of each column to estimate the largest possible row. If an overflow segment is needed but you have not specifiedOVERFLOW , then the database raises an error and does not execute the ALTER TABLE statement. This checking function guarantees that subsequent DML operations on the index-organized table will not fail because an overflow segment is lacking. |
Please refer to "PCTTHRESHOLD integer" in the documentation of CREATE
TABLE
.
Please refer to "INCLUDING column_name" in the documentation of CREATE
TABLE
.
The overflow_attributes
let you specify the overflow data segment physical storage and logging attributes to be modified for the index-organized table. Parameter values specified in this clause apply only to the overflow data segment.
The add_overflow_clause
lets you add an overflow data segment to the specified index-organized table. You can also use this clause to explicitly allocate an extent to or deallocate unused space from an existing overflow segment.
Use the STORE
IN
tablespace
clause to specify tablespace storage for the entire overflow segment. Use the PARTITION
clause to specify tablespace storage for the segment by partition.
For a partitioned index-organized table:
If you do not specify PARTITION
, then Oracle Database automatically allocates an overflow segment for each partition. The physical attributes of these segments are inherited from the table level.
If you wish to specify separate physical attributes for one or more partitions, then you must specify such attributes for every partition in the table. You need not specify the name of the partitions, but you must specify their attributes in the order in which they were created.
You can find the order of the partitions by querying the PARTITION_NAME
and PARTITION_POSITION
columns of the USER_IND_PARTITIONS
view.
If you do not specify TABLESPACE
for a particular partition, then the database uses the tablespace specified for the table. If you do not specify TABLESPACE
at the table level, then the database uses the tablespace of the partition primary key index segment.
See Also: allocate_extent_clause and deallocate_unused_clause for full descriptions of these clauses of theadd_overflow_clause |
The alter_mapping_table_clauses
is valid only if table
is index organized and has a mapping table.
Use the allocate_extent_clause
to allocate a new extent at the end of the mapping table for the index-organized table. Please refer to allocate_extent_clause for a full description of this clause.
Specify the deallocate_unused_clause
to deallocate unused space at the end of the mapping table of the index-organized table. Please refer to deallocate_unused_clause for a full description of this clause.
Oracle Database automatically maintains all other attributes of the mapping table or its partitions.
Specify COALESCE
to instruct Oracle Database to merge the contents of index blocks of the index the database uses to maintain the index-organized table where possible to free blocks for reuse. Please refer to the shrink_clause for information on the relationship between these two clauses.
Use these clauses to add, drop, or otherwise modify a column.
The add_column_clause
lets you add a column to a table.
See Also: CREATE TABLE for a description of the keywords and parameters of this clause and "Adding a Table Column: Example" |
If you add a column, then the initial value of each row for the new column is null unless you specify the DEFAULT
clause. In this case, Oracle Database updates each row in the new column with the value you specify for DEFAULT
. This update operation, in turn, fires any AFTER
UPDATE
triggers defined on the table.
Note: If a column has a default value, then you can use theDEFAULT clause to change the default to NULL , but you cannot remove the default value completely. That is, if a column has ever had a default value assigned to it, then the DATA_DEFAULT column of the USER_TAB_COLUMNS data dictionary view will always display either a default value or NULL . |
You can add an overflow data segment to each partition of a partitioned index-organized table.
You can add LOB columns to nonpartitioned and partitioned tables. You can specify LOB storage at the table and at the partition or subpartition level.
If you previously created a view with a query that used the SELECT
*
syntax to select all columns from table, and you now add a column to table
, then the database does not automatically add the new column to the view. To add the new column to the view, re-create the view using the CREATE
VIEW
statement with the OR
REPLACE
clause. Please refer to CREATE VIEW for more information.
You cannot add a LOB column to a cluster table.
If you add a LOB column to a hash-partitioned table, then the only attribute you can specify for the new partition is TABLESPACE
.
You cannot add a column with a NOT
NULL
constraint if table
has any rows unless you also specify the DEFAULT
clause.
If you specify this clause for an index-organized table, then you cannot specify any other clauses in the same statement.
Use the DEFAULT
clause to specify a default for a new column or a new default for an existing column. Oracle Database assigns this value to the column if a subsequent INSERT
statement omits a value for the column. If you are adding a new column to the table and specify the default value, then the database inserts the default column value into all rows of the table.
The datatype of the default value must match the datatype specified for the column. The column must also be large enough to hold the default value.
A DEFAULT
expression cannot contain references to other columns, the pseudocolumns CURRVAL
, NEXTVAL
, LEVEL
, and ROWNUM
, or date constants that are not fully specified.
The expression can be of any form except a scalar subquery expression.
Use inline_constraint
to add a constraint to the new column
This clause lets you describe a new column of type REF
. Please refer to constraint for syntax and description of this type of constraint, including restrictions.
The column_properties
determine the storage characteristics of an object type, nested table, varray, or LOB column.
This clause is valid only when you are adding a new object type column or attribute. To modify the properties of an existing object type column, use the modify_column_clauses
. The semantics of this clause are the same as for CREATE
TABLE
unless otherwise noted.
Use the object_type_col_properties
to specify storage characteristics for a new object column or attribute or an element of a collection column or attribute.
For complete information on this clause, please refer to object_type_col_properties in the documentation on CREATE
TABLE
.
The nested_table_col_properties
clause lets you specify separate storage characteristics for a nested table, which in turn lets you to define the nested table as an index-organized table. You must include this clause when creating a table with columns or column attributes whose type is a nested table. (Clauses within this clause that function the same way they function for parent object tables are not repeated here.)
For nested_item
, specify the name of a column (or a top-level attribute of the nested table object type) whose type is a nested table.
If the nested table is a multilevel collection, and the inner nested table does not have a name, then specify COLUMN_VALUE
in place of the nested_item
name.
For storage_table
, specify the name of the table where the rows of nested_item
reside. The storage table is created in the same schema and the same tablespace as the parent table.
You cannot specify the parallel_clause
.
You cannot specify CLUSTER
as part of the physical_properties
clause.
The varray_col_properties
clause lets you specify separate storage characteristics for the LOB in which a varray will be stored. If you specify this clause, then Oracle Database will always store the varray in a LOB, even if it is small enough to be stored inline. If varray_item
is a multilevel collection, then the database stores all collection items nested within varray_item
in the same LOB in which varray_item
is stored.
You cannot specify TABLESPACE
as part of LOB_parameters
for a varray column. The LOB tablespace for a varray defaults to the tablespace of the containing table.
Use the LOB_storage_clause
to specify the LOB storage characteristics for a newly added LOB column, partition, or subpartition, or when you are converting a LONG
column into a LOB column. You cannot use this clause to modify an existing LOB. Instead, you must use the modify_LOB_storage_clause
.
CACHE
READS
applies only to LOB storage. It indicates that LOB values are brought into the buffer only during read operations but not during write operations.
For LOB_item
, specify the LOB column name or LOB object attribute for which you are explicitly defining tablespace and storage characteristics that are different from those of the table.
For LOB_segname
, specify the name of the LOB data segment. You cannot use LOB_segname
if more than one LOB_item
is specified.
When you add a new LOB column, you can specify the logging attribute with CACHE
READS
, as you can when defining a LOB column at create time.
When you modify a LOB column from CACHE
or NOCACHE
to CACHE
READS,
or from CACHE
READS
to CACHE
or NOCACHE
, you can change the logging attribute. If you do not specify LOGGING
or NOLOGGING
, then this attribute defaults to the current logging attribute of the LOB column.
For existing LOBs, if you do not specify CACHE
, NOCACHE
, or CACHE
READS
, then Oracle Database retains the existing values of the LOB attributes.
The only parameter of LOB_parameters
you can specify for a hash partition or hash subpartition is TABLESPACE
.
Specify whether the LOB value is to be stored in the row (inline) or outside of the row (out of line). The LOB locator is always stored inline regardless of where the LOB value is stored.
ENABLE
specifies that the LOB value is stored inline if its length is less than approximately 4000 bytes minus system control information. This is the default.
DISABLE
specifies that the LOB value is stored out of line regardless of the length of the LOB value.
You cannot change STORAGE
IN
ROW
once it is set. Therefore, you cannot specify this clause as part of the modify_col_properties
clause. However, you can change this setting when adding a new column (add_column_clause ) or when moving the table (move_table_clause ).
Specify the number of bytes to be allocated for LOB manipulation. If integer
is not a multiple of the database block size, then Oracle Database rounds up (in bytes) to the next multiple. For example, if the database block size is 2048 and integer
is 2050, then the database allocates 4096 bytes (2 blocks).The maximum value is 32768 (32 K), which is the largest Oracle Database block size allowed. The default CHUNK
size is one Oracle Database block.
You cannot change the value of CHUNK
once it is set.
The value of CHUNK
must be less than or equal to the value of NEXT
(either the default value or that specified in the storage clause). If CHUNK
exceeds the value of NEXT
, then Oracle Database returns an error.
Specify the maximum percentage of overall LOB storage space to be used for maintaining old versions of the LOB. The default value is 10, meaning that older versions of the LOB data are not overwritten until 10% of the overall LOB storage space is used.
If the database is in automatic undo mode, then you can specify RETENTION
instead of PCTVERSION
to instruct Oracle Database to retain old versions of this LOB. This clause overrides any prior setting of PCTVERSION
.
You cannot specify RETENTION
if the database is running in manual undo mode. Please refer to LOB_parameters for a full description of the RETENTION
parameter.
If the database is in automatic undo mode, then you can use this clause to specify the number of freelist groups for this LOB. This clause overrides any prior setting of FREELIST
GROUPS
.
You cannot specify FREEPOOLS
if the database is running in manual undo mode. Please refer to LOB_parameters for a full description of the FREEPOOLS
parameter.
The LOB_partition_storage
clause lets you specify a separate LOB_storage_clause
or varray_col_properties
clause for each partition. You must specify the partitions in the order of partition position. You can find the order of the partitions by querying the PARTITION_NAME
and PARTITION_POSITION
columns of the USER_IND_PARTITIONS
view.
If you do not specify a LOB_storage_clause
or varray_col_properties
clause for a particular partition, then the storage characteristics are those specified for the LOB item at the table level. If you also did not specify any storage characteristics for the LOB item at the table level, then Oracle Database stores the LOB data partition in the same tablespace as the table partition to which it corresponds.
You can specify only one list of LOB_partition_storage
clauses in a single ALTER
TABLE
statement, and all LOB_storage_clauses
and varray_col_properties
clause must precede the list of LOB_partition_storage
clauses.
Please refer to the complete description of this clause in XMLType_column_properties in the documentation on CREATE
TABLE
.
Please refer to the complete description of this clause in XMLSchema_spec in the documentation on CREATE
TABLE
.
See Also:
|
Use the modify_column_clauses
to modify the properties of an existing column or the substitutability of an existing object type column.
Use this clause to modify the properties of the column. Any of the optional parts of the column definition (datatype, default value, or constraint) that you omit from this clause remain unchanged.
You can change the datatype of any column if all rows of the column contain nulls. However, if you change the datatype of a column in a materialized view container table, then Oracle Database invalidates the corresponding materialized view.
You can omit the datatype only if the statement also designates the column as part of the foreign key of a referential integrity constraint. The database automatically assigns the column the same datatype as the corresponding column of the referenced key of the referential integrity constraint.
You can always increase the size of a character or raw column or the precision of a numeric column, whether or not all the rows contain nulls. You can reduce the size of a datatype of a column as long as the change does not require data to be modified.The database scans existing data and returns an error if data exists that exceeds the new length limit.
You can modify a DATE
column to TIMESTAMP
or TIMESTAMP
WITH
LOCAL
TIME
ZONE
. You can modify any TIMESTAMP
WITH
LOCAL
TIME
ZONE
to a DATE
column.
Note: When you modify aTIMESTAMP WITH LOCAL TIME ZONE column to a DATE column, the fractional seconds and time zone adjustment data is lost.
|
If the table is empty, then you can increase or decrease the leading field or the fractional second value of a datetime or interval column. If the table is not empty, then you can only increase the leading field or fractional second of a datetime or interval column.
You can change a LONG
column to a CLOB
or NCLOB
column, and a LONG
RAW
column to a BLOB
column.
The modified LOB column inherits all constraints and triggers that were defined on the original LONG
column. If you wish to change any constraints, then you must do so in a subsequent ALTER
TABLE
statement.
If any domain indexes are defined on the LONG
column, then you must drop them before modifying the column to a LOB.
After the modification, you will have to rebuild all other indexes on all columns of the table.
See Also:
|
For CHAR
and VARCHAR2
columns, you can change the length semantics by specifying CHAR
(to indicate character semantics for a column that was originally specified in bytes) or BYTE
(to indicate byte semantics for a column that was originally specified in characters). To learn the length semantics of existing columns, query the CHAR_USED
column of the ALL_
, USER_
, or DBA_TAB_COLUMNS
data dictionary view.
See Also:
|
This clause lets you add a constraint to a column you are modifying. To change the state of existing constraints on existing columns, use the constraint_clauses
.
The LOB_storage_clause
is permitted within modify_col_properties
only if you are converting a LONG
column to a LOB column. In this case only, you can specify LOB storage for the column using the LOB_storage_clause
. However, you can specify only the single column as a LOB_item
. Default LOB storage attributes are used for any attributes you omit in the LOB_storage_clause
.
You cannot change the datatype of a LOB column.
You cannot modify a column of a table if a domain index is defined on the column. You must first drop the domain index and then modify the column.
You cannot modify the datatype or length of a column that is part of the partitioning or subpartitioning key of a table or index.
You can change a CHAR
column to VARCHAR2
(or VARCHAR
) and a VARCHAR2
(or VARCHAR
) column to CHAR
only if the BLANK_TRIMMING
initialization parameter is set to TRUE
and the column size stays the same or increases. If the BLANK_TRIMMING
initialization parameter is set to TRUE
, then you can also reduce the column size to any size greater than or equal to the maximum trimmed data value.
You cannot change a LONG
or LONG
RAW
column to a LOB if the table is part of a cluster. If you do change a LONG
or LONG
RAW
column to a LOB, then the only other clauses you can specify in this ALTER
TABLE
statement are the DEFAULT
clause and the LOB_storage_clause
.
You can specify the LOB_storage_clause
as part of modify_col_properties
only when you are changing a LONG
or LONG
RAW
column to a LOB
.
You cannot specify a column of datatype ROWID
for an index-organized table, but you can specify a column of type UROWID
.
You cannot change the datatype of a column to REF
.
Use this clause to set or change the substitutability of an existing object type column.
The FORCE
keyword drops any hidden columns containing typeid information or data for subtype attributes. You must specify FORCE
if the column or any attributes of its type are not FINAL
.
You can specify this clause only once in any ALTER
TABLE
statement.
You cannot modify the substitutability of a column in an object table if the substitutability of the table itself has been set.
You cannot specify this clause if the column was created or added using the IS
OF
TYPE
syntax, which limits the range of subtypes permitted in an object column or attribute to a particular subtype. Please refer to substitutable_column_clause in the documentation on CREATE
TABLE
for information on the IS
OF
TYPE
syntax.
You cannot change a varray column to NOT
SUBSTITUTABLE
, even by specifying FORCE
, if any of its attributes are nested object types that are not FINAL
.
The drop_column_clause
lets you free space in the database by dropping columns you no longer need or by marking them to be dropped at a future time when the demand on system resources is less.
If you drop a nested table column, then its storage table is removed.
If you drop a LOB column, then the LOB data and its corresponding LOB index segment are removed.
If you drop a BFILE
column, then only the locators stored in that column are removed, not the files referenced by the locators.
If you drop or mark unused a column defined as an INCLUDING
column, then the column stored immediately before this column will become the new INCLUDING
column.
Specify SET
UNUSED
to mark one or more columns as unused. Specifying this clause does not actually remove the target columns from each row in the table. That is, it does not restore the disk space used by these columns. Therefore, the response time is faster than when you execute the DROP
clause.
You can view all tables with columns marked UNUSED
in the data dictionary views USER_UNUSED_COL_TABS
, DBA_UNUSED_COL_TABS
, and ALL_UNUSED_COL_TABS
.
Unused columns are treated as if they were dropped, even though their column data remains in the table rows. After a column has been marked UNUSED
, you have no access to that column. A SELECT
*
query will not retrieve data from unused columns. In addition, the names and types of columns marked UNUSED
will not be displayed during a DESCRIBE
, and you can add to the table a new column with the same name as an unused column.
Note: Until you actually drop these columns, they continue to count toward the absolute limit of 1000 columns in a single table. However, as with all DDL statements, you cannot roll back the results of this clause. That is, you cannot issueSET USED counterpart to retrieve a column that you have SET UNUSED . Please refer to CREATE TABLE for more information on the 1000-column limit.
Also, if you mark a |
Specify DROP
to remove the column descriptor and the data associated with the target column from each row in the table. If you explicitly drop a particular column, then all columns currently marked UNUSED
in the target table are dropped at the same time.
When the column data is dropped:
All indexes defined on any of the target columns are also dropped.
All constraints that reference a target column are removed.
If any statistics types are associated with the target columns, then Oracle Database disassociates the statistics from the column with the FORCE
option and drops any statistics collected using the statistics type.
Note: If the target column is a parent key of a nontarget column, or if a check constraint references both the target and nontarget columns, then Oracle Database returns an error and does not drop the column unless you have specified theCASCADE CONSTRAINTS clause. If you have specified that clause, then the database removes all constraints that reference any of the target columns. |
Specify DROP
UNUSED
COLUMNS
to remove from the table all columns currently marked as unused. Use this statement when you want to reclaim the extra disk space from unused columns in the table. If the table contains no unused columns, then the statement returns with no errors.
Specify one or more columns to be set as unused or dropped. Use the COLUMN
keyword only if you are specifying only one column. If you specify a column list, then it cannot contain duplicates.
Specify CASCADE
CONSTRAINTS
if you want to drop all foreign key constraints that refer to the primary and unique keys defined on the dropped columns as well as all multicolumn constraints defined on the dropped columns. If any constraint is referenced by columns from other tables or remaining columns in the target table, then you must specify CASCADE
CONSTRAINTS
. Otherwise, the statement aborts and an error is returned.
The INVALIDATE
keyword is optional. Oracle Database automatically invalidates all dependent objects, such as views, triggers, and stored program units. Object invalidation is a recursive process. Therefore, all directly dependent and indirectly dependent objects are invalidated. However, only local dependencies are invalidated, because the database manages remote dependencies differently from local dependencies.
An object invalidated by this statement is automatically revalidated when next referenced. You must then correct any errors that exist in that object before referencing it.
Specify CHECKPOINT
if you want Oracle Database to apply a checkpoint for the DROP
COLUMN
operation after processing integer
rows; integer
is optional and must be greater than zero. If integer
is greater than the number of rows in the table, then the database applies a checkpoint after all the rows have been processed. If you do not specify integer
, then the database sets the default of 512. Checkpointing cuts down the amount of undo logs accumulated during the DROP
COLUMN
operation to avoid running out of undo space. However, if this statement is interrupted after a checkpoint has been applied, then the table remains in an unusable state. While the table is unusable, the only operations allowed on it are DROP
TABLE
, TRUNCATE
TABLE
, and ALTER
TABLE
DROP
... COLUMNS
CONTINUE
(described in sections that follow).
You cannot use this clause with SET
UNUSED
, because that clause does not remove column data.
Specify DROP
COLUMNS
CONTINUE
to continue the drop column operation from the point at which it was interrupted. Submitting this statement while the table is in a valid state results in an error.
Each of the parts of this clause can be specified only once in the statement and cannot be mixed with any other ALTER
TABLE
clauses. For example, the following statements are not allowed:
ALTER TABLE t1 DROP COLUMN f1 DROP (f2); ALTER TABLE t1 DROP COLUMN f1 SET UNUSED (f2); ALTER TABLE t1 DROP (f1) ADD (f2 NUMBER); ALTER TABLE t1 SET UNUSED (f3) ADD (CONSTRAINT ck1 CHECK (f2 > 0));
You can drop an object type column only as an entity. To drop an attribute from an object type column, use the ALTER
TYPE
... DROP
ATTRIBUTE
statement with the CASCADE
INCLUDING
TABLE
DATA
clause. Be aware that dropping an attribute affects all dependent objects. See DROP ATTRIBUTE for more information.
You can drop a column from an index-organized table only if it is not a primary key column. The primary key constraint of an index-organized table can never be dropped, so you cannot drop a primary key column even if you have specified CASCADE
CONSTRAINTS
.
You can export tables with dropped or unused columns. However, you can import a table only if all the columns specified in the export files are present in the table (that is, none of those columns has been dropped or marked unused). Otherwise, Oracle Database returns an error.
You cannot drop a column on which a domain index has been built.
You cannot drop a SCOPE
table constraint or a WITH
ROWID
constraint on a REF
column.
You cannot use this clause to drop:
A pseudocolumn, cluster column, or partitioning column. You can drop nonpartitioning columns from a partitioned table if all the tablespaces where the partitions were created are online and in read/write mode.
A column from: a nested table, an object table, or a table owned by SYS
.
Use the rename_column_clause
to rename a column of table
. The new column name must not be the same as any other column name in table
.
When you rename a column, Oracle Database handles dependent objects as follows:
Function-based indexes and check constraints that depend on the renamed column remain valid.
Dependent views, triggers, domain indexes, functions, procedures, and packages are invalidated. Oracle Database attempts to revalidate them when they are next accessed, but you may need to alter these objects with the new column name if revalidation fails.
You cannot combine this clause with any of the other column_clauses
in the same statement.
You cannot rename a column that is used to define a join index. Instead you must drop the index, rename the column, and re-create the index.
Use the modify_collection_retrieval
clause to change what Oracle Database returns when a collection item is retrieved from the database.
Specify the name of a column-qualified attribute whose type is nested table or varray.
Specify what Oracle Database should return as the result of a query:
LOCATOR
specifies that a unique locator for the nested table is returned.
VALUE
specifies that a copy of the nested table itself is returned.
The modify_LOB_storage_clause
lets you change the physical attributes of LOB_item
. You can specify only one LOB_item
for each modify_LOB_storage_clause
.
The REBUILD
FREEPOOLS
clause removes all the old data from the LOB column. This clause is useful only if you reverting to PCTVERSION
for management of LOBs. You might want to do this to manage older data blocks.
You cannot modify the value of the INITIAL
parameter in the storage_clause
when modifying the LOB storage attributes.
You cannot specify both the allocate_extent_clause
and the deallocate_unused_clause
in the same statement.
You cannot specify both the PCTVERSION
and RETENTION
parameters.
See Also: LOB_storage_clause (inCREATE TABLE ) for information on setting LOB parameters and "LOB Columns: Examples" |
The alter_varray_col_properties
clause lets you change the storage characteristics of an existing LOB in which a varray is stored.
You cannot specify the TABLESPACE
clause of LOB_parameters
as part of this clause. The LOB tablespace for a varray defaults to the tablespace of the containing table.
Use the constraint_clauses
to add a new constraint using out-of-line declaration, modify the state of an existing constraint, or drop a constraint. Please refer to constraint for a description of all the keywords and parameters of out-of-line constraints and constraint_state
.
The ADD
clause lets you add a new out-of-line constraint or out-of-line REF
constraint to the table.
The MODIFY
CONSTRAINT
clause lets you change the state of an existing constraint.
You cannot change the state of a NOT
DEFERRABLE
constraint to INITIALLY
DEFERRED
.
If you specify this clause for an index-organized table, then you cannot specify any other clauses in the same statement.
The RENAME
CONSTRAINT
clause lets you rename any existing constraint on table
. The new constraint name cannot be the same as any existing constraint on any object in the same schema. All objects that are dependent on the constraint remain valid.
The drop_constraint_clause
lets you drop an integrity constraint from the database. Oracle Database stops enforcing the constraint and removes it from the data dictionary. You can specify only one constraint for each drop_constraint_clause
, but you can specify multiple drop_constraint_clauses
in one statement.
Specify PRIMARY
KEY
to drop the primary key constraint of table
.
Specify UNIQUE
to drop the unique constraint on the specified columns.
If you drop the primary key or unique constraint from a column on which a bitmap join index is defined, then Oracle Database invalidates the index. See CREATE INDEX for information on bitmap join indexes.
Specify CONSTRAINT
constraint
to drop an integrity constraint other than a primary key or unique constraint.
Specify CASCADE
if you want all other integrity constraints that depend on the dropped integrity constraint to be dropped as well.
Specify KEEP
INDEX
or DROP
INDEX
to indicate whether Oracle Database should preserve or drop the index it has been using to enforce the PRIMARY
KEY
or UNIQUE
constraint.
You cannot drop a primary key or unique key constraint that is part of a referential integrity constraint without also dropping the foreign key. To drop the referenced key and the foreign key together, use the CASCADE
clause. If you omit CASCADE
, then Oracle Database does not drop the primary key or unique constraint if any foreign key references it.
You cannot drop a primary key constraint (even with the CASCADE
clause) on a table that uses the primary key as its object identifier (OID).
If you drop a referential integrity constraint on a REF
column, then the REF
column remains scoped to the referenced table.
You cannot drop the scope of a REF
column.
Use the alter_external_table_clause
to change the characteristics of an external table. This clause has no affect on the external data itself. The syntax and semantics of the parallel_clause
, enable_disable_clause
, external_data_properties
, and REJECT
LIMIT
clause are the same as described for CREATE
TABLE
. See the external_table_clause (in CREATE
TABLE
).
This clause lets you determine how the access driver validates the rows of an external table in subsequent queries. The default is PROJECT
COLUMN
REFERENCED
, which means that the access driver processes only those columns in the select list. If you specify PROJECT
COLUMN
ALL
, then the access driver processes all column values, regardless of which columns are selected, and validates only those rows with fully valid column entries. If any column value would raise an error, such as a datatype conversion error, the row is rejected even if that column was not referenced in the select list.
The ALL
setting guarantees consistent result sets. The REFERENCED
setting can result in different numbers of rows returned, depending on the columns referenced in subsequent queries, but is faster than the ALL
setting. If a subsequent query selects all columns of the external table, then the settings behave identically.
You cannot modify an external table using any clause outside of this clause.
You cannot add a LONG
, varray, or object type column to an external table, nor can you change the datatype of an external table column to any of these datatypes.
You cannot add a constraint to an external table.
You cannot modify the storage parameters of an external table.
The clauses in this section apply only to partitioned tables. You cannot combine partition operations with other partition operations or with operations on the base table in the same ALTER
TABLE
statement.
If you drop, exchange, truncate, move, modify, or split a partition on a table that is a master table for one or more materialized views, then existing bulk load information about the table will be deleted. Therefore, be sure to refresh all dependent materialized views before performing any of these operations.
If a bitmap join index is defined on table
, then any operation that alters a partition of table
causes Oracle Database to mark the index UNUSABLE
.
For additional information on partition operations on tables with an associated CONTEXT
domain index, please refer to Oracle Text Reference.
The storage of partitioned database entities in tablespaces of different block sizes is subject to several restrictions. Please refer to Oracle Database Administrator's Guide for a discussion of these restrictions.
The modify_table_default_attrs
clause lets you specify new default values for the attributes of table
. Partitions and LOB partitions you create subsequently will inherit these values unless you override them explicitly when creating the partition or LOB partition. Existing partitions and LOB partitions are not affected by this clause.
Only attributes named in the statement are affected, and the default values specified are overridden by any attributes specified at the individual partition or LOB partition level.
FOR
PARTITION
applies only to composite-partitioned tables. This clause specifies new default values for the attributes of partition
. Subpartitions and LOB subpartitions of partition
that you create subsequently will inherit these values unless you override them explicitly when creating the subpartition or LOB subpartition. Existing subpartitions are not affected by this clause.
PCTTHRESHOLD
, key_compression
, and the alter_overflow_clause
are valid only for partitioned index-organized tables. In addition, in the key_compression
clause, you cannot specify an integer after the COMPRESS
keyword. Key compression length can be specified only when you create the table.
You cannot specify the PCTUSED
parameter in segment_attributes
for the index segment of an index-organized table.
You can specify the key compression only if key compression is already specified at the table level.
Use the set_subpartition_template
clause to create or replace existing default list or hash subpartition definitions for each table partition. This clause is valid only for composite-partitioned tables. It replaces the existing subpartition template or creates a new template if you have not previously created one. Existing subpartitions are not affected, nor are existing local and global indexes. However, subsequent partitioning operations (such as add and merge operations) will use the new template.
You can drop an existing subpartition template by specifying ALTER
TABLE
table
SET
SUBPARTITION
TEMPLATE
()
.
Note: When you specify tablespace storage for the subpartition template, it does not override any tablespace storage you have specified explicitly for the partitions oftable . To specify tablespace storage for subpartitions, do one of these things:
|
Please refer to "Restrictions on Subpartition Templates" in the documentation on CREATE
TABLE
.
The modify_table_partition
clause lets you change the real physical attributes of a range, hash, or list partition. This clause optionally modifies the storage attributes of one or more LOB items for the partition. You can specify new values for physical attributes (with some restrictions, as noted in the sections that follow), logging, and
storage parameters.
You can also specify how Oracle Database should handle local indexes that become unusable as a result of the modification to the partition. See "UNUSABLE LOCAL INDEXES Clauses ".
In the partition_attribute
clause, the shrink_clause
lets you compact an individual partition segment. Please refer to shrink_clause for additional information on this clause.
For partitioned index-organized tables, you can also update the mapping table in conjunction with partition changes. See the alter_mapping_table_clauses .
When modifying a range partition, if table
is composite partitioned:
If you specify the allocate_extent_clause
, then Oracle Database allocates an extent for each subpartition of partition
.
If you specify the deallocate_unused_clause
, then Oracle Database deallocates unused storage from each subpartition of partition
.
Any other attributes changed in this clause will be changed in subpartitions of partition
as well, overriding existing values. To avoid changing the attributes of existing subpartitions, use the FOR
PARTITION
clause of modify_table_default_attrs.
If you specify UNUSABLE
LOCAL
INDEXES
, then you cannot specify any other clause of modify_range_partition
.
This clause is valid only for range-hash composite partitions. The add_hash_subpartition
clause lets you add a hash subpartition to partition
. Oracle Database populates the new subpartition with rows rehashed from the other subpartition(s) of partition
as determined by the hash function. For optimal load balancing, the total number of subpartitions should be a power of 2.
If you do not specify subpartition
, then Oracle Database assigns a name in the form SYS_SUBP
n
.
The list_values_clause
is not valid for this operation.
In the partitioning_storage_clause
, the only clause you can specify for subpartitions is the TABLESPACE
clause. If you do not specify TABLESPACE
, then the new subpartition will reside in the default tablespace of partition
.
Oracle Database adds local index partitions corresponding to the selected partition.
Oracle Database marks UNUSABLE
the local index partitions corresponding to the added partitions. The database invalidates any indexes on heap-organized tables. You can update these indexes during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
the add_list_subpartition
clause lets you add a list subpartition to partition. This clause is valid only for range-list composite partitions, and only if you have not already created a DEFAULT
subpartition.
If you do not specify subpartition
, then Oracle Database assigns a name in the form SYS_SUBP
n
.
The list_values_clause
is required in this operation, and the values you specify in the list_values_clause
cannot exist in any other subpartition of partition
. However, these values can duplicate values found in subpartitions of other partitions.
In the partitioning_storage_clause
, the only clause you can specify for subpartitions is the TABLESPACE
clause. If you do not specify TABLESPACE
, then Oracle Database stores the new subpartition in the default tablespace of partition
. If partition has no default tablespace, then the database uses the default tablespace of table. If table has no default tablespace, then the database uses the default tablespace of the user.
Oracle Database also adds a subpartition with the same value list to all local index partitions of the table. The status of existing local and global index partitions of table
are not affected.
You cannot specify this clause if you have already created a DEFAULT
subpartition for this partition. Instead you must split the DEFAULT
partition using the split_list_subpartition
clause.
When modifying a hash partition, in the partition_attributes
clause, you can specify only the allocate_extent_clause
and deallocate_unused_clause
. All other attributes of the partition are inherited from the table-level defaults except TABLESPACE
, which stays the same as it was at create time.
COALESCE
SUBPARTITION
applies only to hash subpartitions. Use the COALESCE
SUBPARTITION
clause if you want Oracle Database to select the last hash subpartition, distribute its contents into one or more remaining subpartitions (determined by the hash function), and then drop the last subpartition.
Oracle Database drops local index partitions corresponding to the selected partition.
Oracle Database marks UNUSABLE
the local index partitions corresponding to one or more absorbing partitions. The database invalidates any global indexes on heap-organized tables. You can update these indexes during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
If you specify UNUSABLE
LOCAL
INDEXES
, then you cannot specify any other clause of modify_hash_partition
.
If you update global indexes using the update_all_indexes_clause
, you can specify only the keywords UPDATE
INDEXES
, not the subclause.
When modifying a list partition, the following additional clauses are available:
If you specify UNUSABLE
LOCAL
INDEXES
, then you cannot specify any other clause of modify_list_partition
.
These clauses are valid only when you are modifying list partitions. Local and global indexes on the table are not affected by either of these clauses.
Use the ADD
VALUES
clause to extend the partition_value
list of partition
to include additional values. The added partition values must comply with all rules and restrictions listed in the list_partitioning of CREATE
TABLE
.
Use the DROP
VALUES
clause to reduce the partition_value
list of partition
by eliminating one or more partition_value
. When you specify this clause, Oracle Database checks to ensure that no rows with this value exist. If such rows do exist, then Oracle Database returns an error.
Note: ADD VALUES and DROP VALUES operations on a table with a DEFAULT list partition are enhanced if you have defined a local prefixed index on the table. |
You cannot add values to a default
list partition. If table
contains a default
partition and you attempt to add values to a nondefault partition, then Oracle Database will check that the values being added do not already exist in the default
partition. If the values do exist in the default
partition, then Oracle Database returns an error.
You cannot drop values from a default
partition.
This clause applies only to composite-partitioned tables.
The modify_hash_subpartition
clause lets you allocate or deallocate storage for an individual subpartition of table
. This clause is valid only for range-hash composite-partitioned tables.
The shrink_clause
lets you compact an individual subpartition segment. Please refer to shrink_clause for additional information on this clause.
You can also specify how Oracle Database should handle local indexes that become unusable as a result of the modification to the partition. See "UNUSABLE LOCAL INDEXES Clauses ".
The only modify_LOB_parameters
you can specify for subpartition
are the allocate_extent_clause
and deallocate_unused_clause
.
The modify_list_subpartition
clause lets you make the same changes to a list subpartition that you can make to a hash subpartition. In addition, it lets you add or remove values from the value list of a list subpartition. This clause is valid only for range-list composite-partitioned tables.
The shrink_clause
lets you compact an individual subpartition segment. Please refer to shrink_clause for additional information on this clause.
Specify ADD
VALUES
to extend the value list of subpartition
.
The values you specify cannot already exist in the value list of subpartition
or of any other subpartition of the same partition. However, the values can exist in the value lists of subpartitions of other partitions.
If you have defined a DEFAULT
subpartition, then Oracle Database verifies that none of the values you are adding exist in rows of the DEFAULT
subpartition. If the added values do exist in the DEFAULT
subpartition, then the statement fails.
Oracle Database adds corresponding values to the value list of any local index subpartitions. The status of local and global index partitions is not affected by this operation.
Specify DROP
VALUES
to remove one or more values from the value list of subpartition
.
The values you specify must be a subset of existing values in subpartition
.
You cannot use this clause to drop all values in a subpartition. Instead you must use an ALTER
TABLE
... DROP
SUBPARTITION
statement.
If subpartition
contains any rows containing one of the values being dropped, then the operation fails and Oracle Database returns an error. You must first delete any rows containing the values you wish to drop before reissuing the statement.
Oracle Database updates the value list of any corresponding local index subpartitions. The status of local and global index partitions is not affected by this operation.
You can also specify how Oracle Database should handle local indexes that become unusable as a result of the modification to the partition. See "UNUSABLE LOCAL INDEXES Clauses ".
The only modify_LOB_parameters
you can specify for subpartition
are the allocate_extent_clause
and deallocate_unused_clause
.
Use the move_table_partition
clause to move partition
to another segment. You can move partition data to another tablespace, recluster data to reduce fragmentation, or change create-time physical attributes.
If the table contains LOB columns, then you can use the LOB_storage_clause
to move the LOB data and LOB index segments associated with this partition. Only the LOBs named are affected. If you do not specify the LOB_storage_clause
for a particular LOB column, then its LOB data and LOB index segments are not moved.
Oracle Database moves local index partitions corresponding to the specified partition. If the moved partitions are not empty, then the database marks them UNUSABLE
. The database invalidates global indexes on heap-organized tables. You can update these indexes during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
When you move a LOB data segment, Oracle Database drops the old data segment and corresponding index segment and creates new segments even if you do not specify a new tablespace.
The move operation obtains its parallel attribute from the parallel_clause
, if specified. If not specified, the default parallel attributes of the table, if any, are used. If neither is specified, then Oracle Database performs the move serially.
Specifying the parallel_clause
in MOVE
PARTITION
does not change the default parallel attributes of table
.
Note: For index-organized tables, Oracle Database uses the address of the primary key, as well as its value, to construct logical rowids. The logical rowids are stored in the secondary index of the table. If you move a partition of an index-organized table, then the address portion of the rowids will change, which can hamper performance. To ensure optimal performance, rebuild the secondary index(es) on the moved partition to update the rowids. |
See Also: Oracle Database Concepts for more information on logical rowids and "Moving Table Partitions: Example" |
The MAPPING
TABLE
clause is relevant only for an index-organized table that already has a mapping table defined for it. Oracle Database moves the mapping table along with the moved index-organized table partition. The mapping table partition inherits the physical attributes of the moved index-organized table partition. This is the only way you can change the attributes of the mapping table partition. If you omit this clause, the mapping table partition retains its original attributes.
Oracle Database marks UNUSABLE
all corresponding bitmap index partitions.
Please refer to the mapping_table_clauses (in CREATE
TABLE
) for more information on this clause.
If partition
is a hash partition, then the only attribute you can specify in this clause is TABLESPACE
.
You cannot specify this clause for a partition containing subpartitions. However, you can move subpartitions using the move_table_subpartition_clause
.
Use the move_table_subpartition
clause to move subpartition
to another segment. If you do not specify TABLESPACE
, then the subpartition remains in the same tablespace.
If the subpartition is not empty, then Oracle Database marks UNUSABLE
all local index subpartitions corresponding to the subpartition being moved. You can update all indexes on heap-organized tables during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
If the table contains LOB columns, then you can use the LOB_storage_clause
to move the LOB data and LOB index segments associated with this subpartition. Only the LOBs specified are affected. If you do not specify the LOB_storage_clause
for a particular LOB column, then its LOB data and LOB index segments are not moved.
When you move a LOB data segment, Oracle Database drops the old data segment and corresponding index segment and creates new segments even if you do not specify a new tablespace.
In subpartition_spec
, the only clause of the partitioning_storage_clause
you can specify is the TABLESPACE
clause.
Use the add_table_partition
clause to add a hash, range, or list partition to table
.
Oracle Database adds to any local index defined on table
a new partition with the same name as that of the base table partition. If the index already has a partition with such a name, then Oracle Database generates a partition name of the form SYS_P
n
.
If table
is index organized, then Oracle Database adds a partition to any mapping table and overflow area defined on the table as well.
The add_range_partition_clause
lets you add a new range partition to the high end of a partitioned table (after the last existing partition). You can specify any create-time physical attributes for the new partition. If the table contains LOB columns, then you can also specify partition-level attributes for one or more LOB items.
If you do not specify a new partition_name
, then Oracle Database assigns a name of the form SYS_P
n
. If you add a range partition to a composite-partitioned table and do not describe the subpartitions, then the database assigns subpartition names as described in partition_level_subpartition.
If a domain index is defined on table
, then the index must not be marked IN_PROGRESS
or FAILED
.
A table can have up to 64K-1 partitions.
If the upper partition bound of each partitioning key in the existing high partition is MAXVALUE
, then you cannot add a partition to the table. Instead, use the split_table_partition
clause to add a partition at the beginning or the middle of the table.
The key_compression
and OVERFLOW
clauses are valid only for a partitioned index-organized table. You can specify OVERFLOW
only if the partitioned table already has an overflow segment. You can specify key compression only if key compression is enabled at the table level.
You cannot specify the PCTUSED
parameter for the index segment of an index-organized table.
Specify the upper bound for the new partition. The value_list
is a comma-delimited, ordered list of literal values corresponding to column_list
. The value_list
must collate greater than the partition bound for the highest existing partition in the table.
The partition_level_subpartition
clause (in table_partition_description
) is valid only for a composite-partitioned table. This clause lets you specify hash or list subpartitions for a new range-hash or range-list composite partition. This clause overrides any subpartition descriptions defined in subpartition_template
at the table level.
Please refer to partition_level_subpartition in the documentation of CREATE
TABLE
for additional notes on this clause. Please refer to CREATE TABLE for more information.
Oracle Database adds a new index partition with the same subpartition descriptions to all local indexes defined on table
. Global indexes defined on table
are not affected.
The add_hash_partition_clause
lets you add a new hash partition to the high end of a partitioned table. Oracle Database populates the new partition with rows rehashed from other partitions of table
as determined by the hash function. For optimal load balancing, the total number of partitions should be a power of 2.
You can specify a name for the partition, and optionally a tablespace where it should be stored. If you do not specify a name, then the database assigns a partition name of the form SYS_P
n
. If you do not specify TABLESPACE
, then the new partition is stored in the default tablespace of the table. Other attributes are always inherited from table-level defaults.
If this operation causes data to be rehashed among partitions, then the database marks UNUSABLE
any corresponding local index partitions. You can update all indexes on heap-organized tables during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
Use the parallel_clause
to specify whether to parallelize the creation of the new partition.
In table_partition_description
, you cannot specify partition_level_subpartition
.
The add_list_partition_clause
lets you add a new partition to table
using a new set of partition values. You can specify any create-time physical attributes for the new partition. If the table contains LOB columns, then you can also specify partition-level attributes for one or more LOB items.
When you add a list partition to a table, Oracle Database adds a corresponding index partition with the same value list to all local indexes defined on the table. Global indexes are not affected.
In table_partition_description
, you cannot specify partition_level_subpartition
.
You cannot add a list partition if you have already defined a DEFAULT
partition for the table. Instead you must use the split_table_partition
clause to split the DEFAULT
partition.
See Also:
|
COALESCE
applies only to hash partitions. Use the coalesce_table_partition
clause to indicate that Oracle Database should select the last hash partition, distribute its contents into one or more remaining partitions as determined by the hash function, and then drop the last partition.
Oracle Database drops local index partitions corresponding to the selected partition. The database marks UNUSABLE
the local index partitions corresponding to one or more absorbing partitions. The database invalidates any indexes on heap-organized tables. You can update all indexes during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
If you update global indexes using the update_all_indexes_clause
, then you can specify only the keywords UPDATE
INDEXES
, not the subclause.
The drop_table_partition
clause removes partition
, and the data in that partition, from a partitioned table. If you want to drop a partition but keep its data in the table, then you must merge the partition into one of the adjacent partitions.
If table
has LOB columns, then Oracle Database also drops the LOB data and LOB index partitions and any subpartitions corresponding to partition
.
If table
is index organized and has a mapping table defined on it, then the database drops the corresponding mapping table partition as well.
Oracle Database drops local index partitions and subpartitions corresponding to partition
, even if they are marked UNUSABLE
.
You can update indexes on table
during this operation using the update_index_clauses. If you specify the parallel_clause
with the update_index_clauses
, then the database parallelizes the index update, not the drop operation.
If you drop a range partition and later insert a row that would have belonged to the dropped partition, then the database stores the row in the next higher partition. However, if that partition is the highest partition, then the insert will fail, because the range of values represented by the dropped partition is no longer valid for the table.
You cannot drop a partition of a hash-partitioned table. Instead, use the coalesce_table_partition
clause.
If table
contains only one partition, then you cannot drop the partition. You must drop the table.
If you update global indexes using the update_index_clauses, then you can specify only the UPDATE
INDEXES
keywords but not the subclause.
Use this clause to drop a list subpartition from a range-list composite-partitioned table. Oracle Database deletes any rows in the dropped subpartition.
Oracle Database drops the corresponding subpartition of any local index. Other index subpartitions are not affected. Any global indexes are marked UNUSABLE
unless you specify the update_global_index_clause
or update_all_indexes_clause
.
You cannot drop a hash subpartition. Instead use the MODIFY
PARTITION
... COALESCE
SUBPARTITION
syntax.
You cannot drop the last subpartition of a partition. Instead use the drop_table_partition
clause.
If you update the global indexes, you cannot specify the optional subclause of the update_all_indexes_clause
.
Use the rename_table_partition
clause to rename a table partition or subpartition current_name
to new_name
. For both partitions and subpartitions, new_name
must be different from all existing partitions and subpartitions of the same table.
If table
is index organized, then Oracle Database assigns the same name to the corresponding primary key index partition as well as to any existing overflow partitions and mapping table partitions.
Specify TRUNCATE
PARTITION
to remove all rows from partition
or, if the table is composite partitioned, all rows from the subpartitions of partition
. Specify TRUNCATE
SUBPARTITION
to remove all rows from subpartition
. If table
is index organized, then Oracle Database also truncates any corresponding mapping table partitions and overflow area partitions.
If the partition or subpartition to be truncated contains data, then you must first disable any referential integrity constraints on the table. Alternatively, you can delete the rows and then truncate the partition.
If table
contains any LOB columns, then the LOB data and LOB index segments for this partition are also truncated. If table
is composite partitioned, then the LOB data and LOB index segments for the subpartitions of the partition are truncated.
If a domain index is defined on table
, then the index must not be marked IN_PROGRESS
or FAILED
, and the index partition corresponding to the table partition being truncated must not be marked IN_PROGRESS
.
For each partition or subpartition truncated, Oracle Database also truncates corresponding local index partitions and subpartitions. If those index partitions or subpartitions are marked UNUSABLE
, then the database truncates them and resets the UNUSABLE
marker to VALID
.
You can update global indexes on table
during this operation using the update_global_index_clause or the update_all_indexes_clause. If you specify the parallel_clause
with one of these clauses, then the database parallelizes the index update, not the truncate operation.
Specify DROP
STORAGE
to deallocate space from the deleted rows and make it available for use by other schema objects in the tablespace.
Specify REUSE
STORAGE
to keep space from the deleted rows allocated to the partition or subpartition. The space is subsequently available only for inserts and updates to the same partition or subpartition.
If you update global indexes using the update_all_indexes_clause
, then you can specify only the UPDATE
INDEXES
keywords, not the subclause.
The split_table_partition
clause lets you create, from current_partition
, two new partitions, each with a new segment and new physical attributes, and new initial extents. The segment associated with current_partition
is discarded.
The new partitions inherit all unspecified physical attributes from current_partition
.
Note: Oracle Database can optimize and speed upSPLIT PARTITION and SPLIT SUBPARTITION operations if specific conditions are met. Please refer to Oracle Database Administrator's Guide for information on optimizing these operations. |
If you split a DEFAULT
list partition, then the first of the resulting partitions will have the split values, and the second resulting partition will have the DEFAULT
value.
If table
is index organized, then Oracle Database splits any corresponding mapping table partition and places it in the same tablespace as the parent index-organized table partition. The database also splits any corresponding overflow area, and you can use the OVERFLOW
clause to specify segment attributes for the new overflow areas.
Oracle Database splits the corresponding local index partition, even if it is marked UNUSABLE
.The database marks UNUSABLE
, and you must rebuild, the local index partitions corresponding to the split partitions. The new index partitions inherit their attributes from the partition being split. The database stores the new index partitions in the default tablespace of the index partition being split. If that index partition has no default tablespace, then the database uses the tablespace of the new underlying table partitions.
If table
contains LOB columns, then you can use the LOB_storage_clause
to specify separate LOB storage attributes for the LOB data segments resulting from the split. The database drops the LOB data and LOB index segments of current_partition
and creates new segments for each LOB column, for each partition, even if you do not specify a new tablespace.
The AT
clause applies only to range partitions. Specify the new noninclusive upper bound for the first of the two new partitions. The value list must compare less than the original partition bound for current_partition
and greater than the partition bound for the next lowest partition (if there is one).
The VALUES
clause applies only to list partitions. Specify the partition values you want to include in the first of the two new partitions. Oracle Database creates the first new partition using the partition value list you specify and creates the second new partition using the remaining partition values from current_partition
. Therefore, the value list cannot contain all of the partition values of current_partition
, nor can it contain any partition values that do not already exist for current_partition
.
The INTO
clause lets you describe the two partitions resulting from the split. In partition_spec
, the keyword PARTITION
is required even if you do not specify the optional names and physical attributes of the two partitions resulting from the split. If you do not specify new partition names, then Oracle Database assigns names of the form SYS_P
n
. Any attributes you do not specify are inherited from current_partition
.
For range-hash composite-partitioned tables, if you specify subpartitioning for the new partitions, then you can specify only TABLESPACE
for the subpartitions. All other attributes are inherited from current_partition
. If you do not specify subpartitioning for the new partitions, then their tablespace is also inherited from current_partition
.
For range-list composite-partitioned tables, you cannot specify subpartitions for the new partitions at all (using the partition_level_subpartition
clause of table_partition_description
). The subpartitions of the split partition will inherit the number of subpartitions and value lists from current_partition
.
For all range-list composite-partitioned tables, and for range-hash composite-partitioned tables for which you do not specify subpartition names for the newly created subpartitions, the newly created subpartitions inherit their names from the parent partition as follows:
For those subpartitions in the parent partition with names of the form partition_name
underscore (_) subpartition_name
(for example, P1_SUBP1
), Oracle Database generates corresponding names in the newly created subpartitions using the new partition names (for example P1A_SUB1
and P1B_SUB1
).
For those subpartitions in the parent partition with names of any other form, Oracle Database generates subpartition names of the form SYS_SUBP
n
.
Oracle Database splits the corresponding partition in each local index defined on table
, even if the index is marked UNUSABLE
.
Oracle Database invalidates any indexes on heap-organized tables. You can update these indexes during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
The parallel_clause
lets you parallelize the split operation but does not change the default parallel attributes of the table.
You cannot specify this clause for a hash subpartition.
In subpartition_spec
, the only clause of partitioning_storage_clause
you can specify is TABLESPACE
.
Use this clause to split a list subpartition into two separate subpartitions with nonoverlapping value lists.
Note: Oracle Database can optimize and speed upSPLIT PARTITION and SPLIT SUBPARTITION operations if specific conditions are met. Please refer to Oracle Database Administrator's Guide for information on optimizing these operations. |
In the VALUES
clause, specify the subpartition values you want to include in the first of the two new subpartitions. You can specify NULL
if you have not already specified NULL
for another subpartition in the same partition. Oracle Database creates the first new subpartition using the subpartition value list you specify and creates the second new partition using the remaining partition values from the current subpartition. Therefore, the value list cannot contain all of the partition values of the current subpartition, nor can it contain any partition values that do not already exist for the current subpartition.
The INTO
clause lets you describe the two subpartitions resulting from the split. In subpartition_spec
, the keyword SUBPARTITION
is required even if you do not specify the optional names and attributes of the two new subpartitions. If you do not specify new subpartition names, or if you omit this clause entirely, then Oracle Database assigns names of the form SYS_SUBP
n
. Any attributes you do not specify are inherited from the current subpartition.
Oracle Database splits any corresponding local subpartition index, even if it is marked UNUSABLE
. The new index subpartitions inherit the names of the new table subpartitions unless those names are already held by index subpartitions. In that case, the database assigns new index subpartition names of the form SYS_SUBPn
. The new index subpartitions inherit physical attributes from the parent subpartition. However, if the parent subpartition does not have a default TABLESPACE
attribute, then the new subpartitions inherit the tablespace of the corresponding new table subpartitions.
Oracle Database invalidates indexes on heap-organized tables. You can update these indexes by using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
You cannot specify this clause for a hash subpartition.
In subpartition_spec
, the only clause of partitioning_storage_clause
you can specify is TABLESPACE
.
The merge_table_partitions
clause lets you merge the contents of two partitions of table
into one new partition and then drop the original two partitions.
The two partitions to be merged must be adjacent if they are range partitions. The new partition inherits the partition bound of the higher of the two original partitions.
List partitions need not be adjacent in order to be merged. When you merge two list partitions, the resulting partition value list is the union of the set of the two partition values lists of the partitions being merged. If you merge a DEFAULT
list partition with another list partition, then the resulting partition will be the DEFAULT
partition and will have the DEFAULT
value.
When you merge two range-list composite partitions, you cannot specify the partition_level_subpartition
. Oracle Database obtains the subpartitioning information from any subpartition template. If you have not specified a subpartition template, then the database creates one DEFAULT
subpartition.
Any attributes not specified in the segment_attributes_clause
are inherited from table-level defaults.
If you do not specify a new partition_name
, then Oracle Database assigns a name of the form SYS_P
n
. If the new partition has subpartitions, then the database assigns subpartition names as described in partition_level_subpartition.
Oracle Database drops local index partitions corresponding to the selected partitions and marks UNUSABLE
the local index partition corresponding to merged partition. The database also marks UNUSABLE
any global indexes on heap-organized tables. You can update all these indexes during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
You cannot specify this clause for a hash-partitioned table. Instead, use the coalesce_table_partition
clause.
The partition_level_subpartition
clause is valid only when you are merging range-hash composite partitions. This clause lets you specify subpartitioning attributes for the newly merged partition. Any attributes not specified in this clause are inherited from table-level values. If you do not specify this clause, then the new merged partition inherits subpartitioning attributes from table-level defaults.
If you omit this clause, then the new partition inherits the subpartition descriptions from any subpartition template you have defined. If you have not defined a subpartition template, then Oracle Database creates one subpartition in the newly merged partition.
Specify the parallel_clause
to parallelize the merge operation.
You cannot specify this clause for a range-list composite partition.
The merge_table_subpartitions
clause lets you merge the contents of two list subpartitions of table
into one new subpartition and then drop the original two subpartitions. The two subpartitions to be merged must belong to the same partition, but they do not have to be adjacent. The data in the resulting subpartition consists of the combined data from the merged subpartitions.
If you do not specify a new subpartition name, or if you omit the INTO
clause entirely, then Oracle Database assigns a name of the form SYS_SUBP
n
.
If you do specify the INTO
clause, then the keyword SUBPARTITION
in subpartition_spec
is required, you cannot specify the list_values_clause
, and the only clause you can specify in the partitioning_storage_clause
is the TABLESPACE
clause.
Any attributes you do not specify explicitly for the new subpartition are inherited from partition-level values. If you reuse one of the subpartition names for the new subpartition, then the new subpartition inherits values from the subpartition whose name is being reused rather than from partition-level default values.
Oracle Database merges corresponding local index subpartitions and marks the resulting index subpartition UNUSABLE
. The database also marks UNUSABLE
both partitioned and nonpartitioned global indexes on heap-organized tables. You can update all indexes during this operation using the update_index_clauses.
The update_index_clauses
are not needed, and is not valid, for partitioned index-organized tables. Index-organized tables are primary key based, so Oracle can keep global indexes USABLE
during operations that move data but do not change its value.
You cannot specify this clause for a hash subpartition.
Use the EXCHANGE
PARTITION
or EXCHANGE
SUBPARTITION
clause to exchange the data and index segments of:
One nonpartitioned table with:
one hash, list, or range partition
one hash or list subpartition
One hash-partitioned table with the hash subpartitions of a range partition of a range-hash composite-partitioned table
One list-partitioned table with the list subpartitions of a range partition of a range-list composite-partitioned table.
In all cases, the structure of the table and the partition or subpartition being exchanged, including their partitioning keys, must be identical. In the case of list partitions and subpartitions, the corresponding value lists must also match.
This clause facilitates high-speed data loading when used with transportable tablespaces.
If table
contains LOB columns, then for each LOB column Oracle Database exchanges LOB data and LOB index partition or subpartition segments with corresponding LOB data and LOB index segments of table
.
All of the segment attributes of the two objects (including tablespace and logging) are also exchanged.
All statistics of the table and partition are exchanged, including table, column, index statistics, and histograms. Oracle Database recalculates the aggregate statistics of the table receiving the new partition.
Oracle Database invalidates any global indexes on the objects being exchanged. You can update the global indexes on the table whose partition is being exchanged by using either the update_global_index_clause or the update_all_indexes_clause clause. For the update_all_indexes_clause
, you can specify only the keywords UPDATE
INDEXES
, not the subclause. Global indexes on the table being exchanged remain invalidated. If you specify the parallel_clause
with the either of these clauses, then the database parallelizes the index update, not the exchange operation.
Specify the table with which the partition or subpartition will be exchanged.
Specify INCLUDING
INDEXES
if you want local index partitions or subpartitions to be exchanged with the corresponding table index (for a nonpartitioned table) or local indexes (for a hash-partitioned table).
Specify EXCLUDING
INDEXES
if you want all index partitions or subpartitions corresponding to the partition and all the regular indexes and index partitions on the exchanged table to be marked UNUSABLE
.
Specify WITH
VALIDATION
if you want Oracle Database to return an error if any rows in the exchanged table do not map into partitions or subpartitions being exchanged.
Specify WITHOUT
VALIDATION
if you do not want Oracle Database to check the proper mapping of rows in the exchanged table.
Both tables involved in the exchange must have the same primary key, and no validated foreign keys can be referencing either of the tables unless the referenced table is empty.
When exchanging between a partitioned table and the range partition of a composite-partitioned table:
The partitioning key of the partitioned table must be identical to the subpartitioning key of the composite-partitioned table.
The number of partitions in the partitioned table must be identical to the number of subpartitions in the range partition of the composite-partitioned table.
If you are exchanging a list-partitioned table with a range-list partition of a composite-partitioned table, then the values list of the list partitions must exactly match the values list of the range-list subpartitions.
When exchanging partitioned index-organized tables:
The source and target table or partition must have their primary key set on the same columns, in the same order.
If key compression is enabled, then it must be enabled for both the source and the target, and with the same prefix length.
Both the source and target must be index organized.
Both the source and target must have overflow segments, or neither can have overflow segments. Also, both the source and target must have mapping tables, or neither can have a mapping table.
Both the source and target must have identical storage attributes for any LOB columns.
This clause is valid only if the partitioned table has been defined with a UNIQUE constraint, and that constraint must be in DISABLE
VALIDATE
state. Specify a table into which Oracle Database places the rowids of all rows violating the constraint. If you omit schema
, then the database assumes the exceptions table is in your own schema. If you omit this clause altogether, then the database assumes that the table is named EXCEPTIONS
. The exceptions table must be on your local database.
You can create the EXCEPTIONS
table using one of these scripts:
UTLEXCPT.SQL
uses physical rowids. Therefore it can accommodate rows from conventional tables but not from index-organized tables. (See the Note that follows.)
UTLEXPT1.SQL
uses universal rowids, so it can accommodate rows from both heap-organized and index-organized tables.
If you create your own exceptions table, then it must follow the format prescribed by one of these two scripts.
If you are collecting exceptions from index-organized tables based on primary keys (rather than universal rowids), then you must create a separate exceptions table for each index-organized table to accommodate its primary key storage. You create multiple exceptions tables with different names by modifying and resubmitting the script.
This clause is not valid exchanging subpartitions.
See Also:
|
These two clauses modify the attributes of local index partitions and index subpartitions corresponding to partition
, depending on whether you are modifying a partition or subpartition.
UNUSABLE
LOCAL
INDEXES
marks UNUSABLE
the local index partition or index subpartition associated with partition
.
REBUILD
UNUSABLE
LOCAL
INDEXES
rebuilds the unusable local index partition or index subpartition associated with partition
.
You cannot specify this clause with any other clauses of the modify_table_partition
clause.
You cannot specify this clause in the modify_table_partition
clause for a partition that has subpartitions. However, you can specify this clause in the modify_hash_subpartition
or modify_list_subpartition
clause.
Use the update_index_clauses
to update the indexes on table
as part of the table partitioning operation. When you perform DDL on a table partition, if an index is defined on table
, then Oracle Database invalidates the entire index, not just the partitions undergoing DDL. This clause lets you update the index partition you are changing during the DDL operation, eliminating the need to rebuild the index after the DDL.
Use this clause to update all indexes on table
.
This clause is valid only for operations on table partitions and affects only local indexes.
The index_partition_description
lets you specify physical attributes, tablespace storage, and logging for each partition of each local index. If you specify only the PARTITION
keyword, then Oracle Database updates the index partition as follows:
For operations on a single table partition (such as MOVE
PARTITION
and SPLIT
PARTITION
), the corresponding index partition inherits the attributes of the affected index partition. Oracle Database does not generate names for new index partitions, so any new index partitions resulting from this operation inherit their names from the corresponding new table partition.
For MERGE
PARTITION
operations, the resulting local index partition inherits its name from the resulting table partition and inherits its attributes from the local index.
For a composite-partitioned index, the index_subpartition_clause
lets you specify tablespace storage for each subpartition. Please refer to the index_subpartition_clause (in CREATE
INDEX
) for more information on this component of the update_index_partition
clause.
This clause is valid only for operations on subpartitions of composite-partitioned tables and affects only local indexes on composite-partitioned tables. It lets you specify tablespace storage for one or more subpartitions.
You cannot specify this clause for index-organized tables.
Use this clause to update only global indexes on table
. Oracle Database marks UNUSABLE
all local indexes on table
.
Specify UPDATE
GLOBAL
INDEXES
to update the global indexes defined on table
.
If the global index is a global domain index defined on a LOB column, then Oracle Database marks the domain index UNUSABLE
instead of updating it.
Specify INVALIDATE
GLOBAL
INDEXES
to invalidate the global indexes defined on table
.
If you specify neither, then Oracle Database invalidates the global indexes.
This clause is supported only for global indexes. It is not supported for index-organized tables. In addition, this clause updates only indexes that are USABLE
and VALID
. UNUSABLE
indexes are left unusable, and INVALID
global indexes are ignored.
The parallel_clause
lets you change the default degree of parallelism for queries and DML on the table.
For complete information on this clause, please refer to parallel_clause in the documentation on CREATE
TABLE
.
If table
contains any columns of LOB or user-defined object type, then subsequent INSERT
, UPDATE
, and DELETE
operations on table
are executed serially without notification. Subsequent queries, however, are executed in parallel.
If you specify the parallel_clause
in conjunction with the move_table_clause
, then the parallelism applies only to the move, not to subsequent DML and query operations on the table.
The move_table_clause
lets you relocate data of a nonpartitioned table or of a partition of a partitioned table into a new segment, optionally in a different tablespace, and optionally modify any of its storage attributes.
You can also move any LOB data segments associated with the table or partition using the LOB_storage_clause
and varray_col_properties
clause. LOB items not specified in this clause are not moved.
If you move the table to a different tablespace and the COMPATIBLE
parameter is set to 10.0 or higher, Oracle Database leaves the storage table of any nested table columns in the tablespace in which it was created. If COMPATIBLE
is set to any value less than 10.0, then the database silently moves the storage table to the new tablespace along with the table.
For an index-organized table, the index_org_table_clause
of the move_table_clause
lets you additionally specify overflow segment attributes. The move_table_clause
rebuilds the primary key index of the index-organized table. The overflow data segment is not rebuilt unless the OVERFLOW
keyword is explicitly stated, with two exceptions:
If you alter the values of PCTTHRESHOLD
or the INCLUDING
column as part of this ALTER
TABLE
statement, then the overflow data segment is rebuilt.
If you explicitly move any of out-of-line columns (LOBs, varrays, nested table columns) in the index-organized table, then the overflow data segment is also rebuilt.
The index and data segments of LOB columns are not rebuilt unless you specify the LOB columns explicitly as part of this ALTER
TABLE
statement.
This clause is valid only for index-organized tables. Specify ONLINE
if you want DML operations on the index-organized table to be allowed during rebuilding of the primary key index of the table.
You cannot combine this clause with any other clause in the same statement.
You cannot specify this clause for a partitioned index-organized table.
Parallel DML is not supported during online MOVE
. If you specify ONLINE
and then issue parallel DML statements, then Oracle Database returns an error.
Specify MAPPING
TABLE
if you want Oracle Database to create a mapping table if one does not already exist. If it does exist, then the database moves the mapping table along with the index-organized table, and marks any bitmapped indexes UNUSABLE
. The new mapping table is created in the same tablespace as the parent table.
Specify NOMAPPING
to instruct the database to drop an existing mapping table.
Please refer to mapping_table_clauses (in CREATE
TABLE
) for more information on this clause.
You cannot specify NOMAPPING
if any bitmapped indexes have been defined on table
.
Use the key_compression
clause to enable or disable key compression in an index-organized table.
COMPRESS
enables key compression, which eliminates repeated occurrence of primary key column values in index-organized tables. Use integer
to specify the prefix length (number of prefix columns to compress).
The valid range of prefix length values is from 1 to the number of primary key columns minus 1. The default prefix length is the number of primary key columns minus 1.
NOCOMPRESS
disables key compression in index-organized tables. This is the default.
Specify the tablespace into which the rebuilt index-organized table is to be stored.
If you specify MOVE
, then it must be the first clause in the ALTER
TABLE
statement, and the only clauses outside this clause that are allowed are the physical_attributes_clause
, the parallel_clause
, and the LOB_storage_clause
.
You cannot move a table containing a LONG
or LONG
RAW
column.
You cannot MOVE
an entire partitioned table (either heap or index organized). You must move individual partitions or subpartitions.
Notes Regarding LOBs: For any LOB columns you specify in amove_table_clause :
|
The enable_disable_clause
lets you specify whether and how Oracle Database should apply an integrity constraint. The DROP
and KEEP
clauses are valid only when you are disabling a unique or primary key constraint.
See Also:
|
Oracle Database permits DDL operations on a table only if the table can be locked during the operation. Such table locks are not required during DML operations.
Note: Table locks are not acquired on temporary tables. |
Specify ENABLE
TABLE
LOCK
to enable table locks, thereby allowing DDL operations on the table. All currently executing transactions must commit or roll back before Oracle Database enables the table lock.
Caution: Oracle Database waits until active DML transactions in the database have completed before locking the table. Sometimes the resulting delay is considerable. |
Specify DISABLE
TABLE
LOCK
to disable table locks, thereby preventing DDL operations on the table.
Use the ALL
TRIGGERS
clause to enable or disable all triggers associated with the table.
Specify ENABLE
ALL
TRIGGERS
to enable all triggers associated with the table. Oracle Database fires the triggers whenever their triggering condition is satisfied.
To enable a single trigger, use the enable_clause
of ALTER
TRIGGER
.
Specify DISABLE
ALL
TRIGGERS
to disable all triggers associated with the table. Oracle Database does not fire a disabled trigger even if the triggering condition is satisfied.
Examples
The following statement modifies nested table column ad_textdocs_ntab
in the sample table sh.print_media
so that when queried it returns actual values instead of locators:
ALTER TABLE print_media MODIFY NESTED TABLE ad_textdocs_ntab RETURN AS VALUE;
The following statement specifies parallel processing for queries to the sample table oe.customers
:
ALTER TABLE customers PARALLEL;
The following statement places in ENABLE
VALIDATE
state an integrity constraint named emp_manager_fk
in the employees
table:
ALTER TABLE employees ENABLE VALIDATE CONSTRAINT emp_manager_fk EXCEPTIONS INTO exceptions;
Each row of the employees
table must satisfy the constraint for Oracle Database to enable the constraint. If any row violates the constraint, then the constraint remains disabled. The database lists any exceptions in the table exceptions
. You can also identify the exceptions in the employees
table with the following statement:
SELECT e.* FROM employees e, exceptions ex WHERE e.rowid = ex.row_id AND ex.table_name = 'EMPLOYEES' AND ex.constraint = 'EMP_MANAGER_FK';
The following statement tries to place in ENABLE
NOVALIDATE
state two constraints on the employees
table:
ALTER TABLE employees ENABLE NOVALIDATE PRIMARY KEY ENABLE NOVALIDATE CONSTRAINT emp_last_name_nn;
This statement has two ENABLE
clauses:
The first places a primary key constraint on the table in ENABLE
NOVALIDATE
state.
The second places the constraint named emp_last_name_nn
in ENABLE
NOVALIDATE
state.
In this case, Oracle Database enables the constraints only if both are satisfied by each row in the table. If any row violates either constraint, then the database returns an error and both constraints remain disabled.
Consider a referential integrity constraint involving a foreign key on the combination of the areaco
and phoneno
columns of a hypothetical phone_calls
table. The foreign key references a unique key on the combination of the areaco
and phoneno
columns of the customers
table. The following statement disables the unique key on the combination of the areaco
and phoneno
columns of the customers
table:
ALTER TABLE customers DISABLE UNIQUE (areaco, phoneno) CASCADE;
The unique key in the customers
table is referenced by the foreign key in the phone_calls
table, so you must specify CASCADE
to disable the unique key. This clause disables the foreign key as well.
The following example creates the except_table
table to hold rows from the index-organized table hr.countries
that violate the primary key constraint:
EXECUTE DBMS_IOT.BUILD_EXCEPTIONS_TABLE ('hr', 'countries', 'except_table');
ALTER TABLE countries ENABLE PRIMARY KEY EXCEPTIONS INTO except_table;
To specify an exception table, you must have the privileges necessary to insert rows into the table. To examine the identified exceptions, you must have the privileges necessary to query the exceptions table.
The following statement defines and disables a CHECK
constraint on the employees
table:
ALTER TABLE employees ADD CONSTRAINT check_comp CHECK (salary + (commission_pct*salary) <= 5000) DISABLE;
The constraint check_comp
ensures that no employee's total compensation exceeds $5000. The constraint is disabled, so you can increase an employee's compensation above this limit.
The following statement enables all triggers associated with the employees
table:
ALTER TABLE employees ENABLE ALL TRIGGERS;
The following statement frees all unused space for reuse in table employees
, where the high water mark is above MINEXTENTS
:
ALTER TABLE employees DEALLOCATE UNUSED;
The following example renames the credit_limit
column of the sample table oe.customers
to credit_amount
:
ALTER TABLE customers RENAME COLUMN credit_limit TO credit_amount;
This statement illustrates the drop_column_clause
with CASCADE
CONSTRAINTS
. Assume table t1
is created as follows:
CREATE TABLE t1 ( pk NUMBER PRIMARY KEY, fk NUMBER, c1 NUMBER, c2 NUMBER, CONSTRAINT ri FOREIGN KEY (fk) REFERENCES t1, CONSTRAINT ck1 CHECK (pk > 0 and c1 > 0), CONSTRAINT ck2 CHECK (c2 > 0) );
An error will be returned for the following statements:
/* The next two statements return errors: ALTER TABLE t1 DROP (pk); -- pk is a parent key ALTER TABLE t1 DROP (c1); -- c1 is referenced by multicolumn -- constraint ck1
Submitting the following statement drops column pk
, the primary key constraint, the foreign key constraint, ri
, and the check constraint, ck1
:
ALTER TABLE t1 DROP (pk) CASCADE CONSTRAINTS;
If all columns referenced by the constraints defined on the dropped columns are also dropped, then CASCADE
CONSTRAINTS
is not required. For example, assuming that no other referential constraints from other tables refer to column pk
, then it is valid to submit the following statement without the CASCADE
CONSTRAINTS
clause:
ALTER TABLE t1 DROP (pk, fk, c1);
This statement modifies the INITRANS
parameter for the index segment of index-organized table hr.countries
:
ALTER TABLE countries INITRANS 4;
The following statement adds an overflow data segment to index-organized table countries
:
ALTER TABLE countries ADD OVERFLOW;
This statement modifies the INITRANS
parameter for the overflow data segment of index-organized table countries
:
ALTER TABLE countries OVERFLOW INITRANS 4;
The following statement splits the old partition sales_q4_2000
in the sample table sh.sales
, creating two new partitions, naming one sales_q4_2000b
and reusing the name of the old partition for the other:
ALTER TABLE sales SPLIT PARTITION SALES_Q4_2000 AT (TO_DATE('15-NOV-2000','DD-MON-YYYY')) INTO (PARTITION SALES_Q4_2000, PARTITION SALES_Q4_2000b);
Assume that the sample table pm.print_media
was range partitioned into partitions p1 and p2. (You would have to convert the LONG
column in print_media
to LOB before partitioning the table.) The following statement splits partition p2
of that table into partitions p2a
and p2b
:
ALTER TABLE print_media_part SPLIT PARTITION p2 AT (150) INTO (PARTITION p2a TABLESPACE omf_ts1 LOB ad_photo, ad_composite) STORE AS (TABLESPACE omf_ts2), PARTITION p2b LOB (ad_photo, ad_composite) STORE AS (TABLESPACE omf_ts2));
In both partitions p2a
and p2b
, Oracle Database creates the LOB segments for columns ad_photo
and ad_composite
in tablespace omb_ts2
. The LOB segments for the remaining columns in partition p2a are stored in tablespace omf_ts1. The LOB segments for the remaining columns in partition p2b remain in the tablespaces in which they resided prior to this ALTER
statement. However, the database creates new segments for all the LOB data and LOB index segments, even if they are not moved to a new tablespace.
The following statement adds a partition p3
to the print_media_part
table (see preceding example) and specifies storage characteristics for the BLOB
and CLOB
columns of that table:
ALTER TABLE print_media_part ADD PARTITION p3 VALUES LESS THAN (MAXVALUE) LOB (ad_photo, ad_composite) STORE AS (TABLESPACE omf_ts2) LOB (ad_sourcetext, ad_finaltext) STORE AS (TABLESPACE omf_ts1);
The LOB data and LOB index segments for columns ad_photo
and ad_composite
in partition p3
will reside in tablespace omf_ts2
. The remaining attributes for these LOB columns will be inherited first from the table-level defaults, and then from the tablespace defaults.
The LOB data segments for columns ad_source_text
and ad_finaltext
will reside in the omf_ts1
tablespace, and will inherit all other attributes from the table-level defaults and then from the tablespace defaults.
The following statements use the list partitioned table created in "List Partitioning Example". The first statement splits the existing default partition into a new south
partition and a default partition:
ALTER TABLE list_customers SPLIT PARTITION rest VALUES ('MEXICO', 'COLOMBIA') INTO (PARTITION south, PARTITION rest);
The next statement merges the resulting default partition with the asia
partition:
ALTER TABLE list_customers MERGE PARTITIONS asia, rest INTO PARTITION rest;
The next statement re-creates the asia
partition by splitting the default partition:
ALTER TABLE list_customers SPLIT PARTITION rest VALUES ('CHINA', 'THAILAND') INTO (PARTITION east, partition rest);
The following statement merges back into one partition the partitions created in "Splitting Table Partitions: Examples":
ALTER TABLE sales MERGE PARTITIONS sales_q4_2000, sales_q4_2000b INTO PARTITION sales_q4_2000;
The following statement drops partition p3
created in "Adding a Table Partition with a LOB: Examples":
ALTER TABLE print_media_part DROP PARTITION p3;
The following statement converts partition feb97
to table sales_feb97
without exchanging local index partitions with corresponding indexes on sales_feb97
and without verifying that data in sales_feb97
falls within the bounds of partition feb97
:
ALTER TABLE sales EXCHANGE PARTITION feb97 WITH TABLE sales_feb97 WITHOUT VALIDATION;
The following statement marks all the local index partitions corresponding to the nov96
partition of the sales
table UNUSABLE
:
ALTER TABLE sales MODIFY PARTITION nov96 UNUSABLE LOCAL INDEXES;
The following statement rebuilds all the local index partitions that were marked UNUSABLE
:
ALTER TABLE sales MODIFY PARTITION jan97 REBUILD UNUSABLE LOCAL INDEXES;
The following statement changes the MAXEXTENTS
and logging attributes for partition branch_ny
:
ALTER TABLE branch MODIFY PARTITION branch_ny STORAGE (MAXEXTENTS 75) LOGGING;
The following statement moves partition p2b
(from "Splitting Table Partitions: Examples") to tablespace omf_ts1
:
ALTER TABLE print_media_part MOVE PARTITION p2b TABLESPACE omf_ts1;
The following statement renames a table:
ALTER TABLE employees RENAME TO employee;
In the following statement, partition emp3
is renamed:
ALTER TABLE employee RENAME PARTITION emp3 TO employee3;
The following statement deletes all the data in the sys_p017
partition and deallocates the freed space:
ALTER TABLE deliveries TRUNCATE PARTITION sys_p017 DROP STORAGE;
The following statement splits partition sales_q1_2000
of the sample table sh.sales
and updates any global indexes defined on it:
ALTER TABLE sales SPLIT PARTITION sales_q1_2000 AT (TO_DATE('16-FEB-2000','DD-MON-YYYY')) INTO (PARTITION q1a_2000, PARTITION q1b_2000) UPDATE GLOBAL INDEXES;
The following statements create an object type, a corresponding object table with a primary-key-based object identifier, and a table having a user-defined REF
column:
CREATE TYPE emp_t AS OBJECT (empno NUMBER, address CHAR(30)); CREATE TABLE emp OF emp_t ( empno PRIMARY KEY) OBJECT IDENTIFIER IS PRIMARY KEY; CREATE TABLE dept (dno NUMBER, mgr_ref REF emp_t SCOPE is emp);
The next statements add a constraint and a user-defined REF
column, both of which reference table emp
ALTER TABLE dept ADD CONSTRAINT mgr_cons FOREIGN KEY (mgr_ref) REFERENCES emp; ALTER TABLE dept ADD sr_mgr REF emp_t REFERENCES emp;
The following statement adds a column named duty_pct
of datatype NUMBER
and a column named visa_needed
of datatype VARCHAR2
with a size of 3 and a CHECK
integrity constraint:
ALTER TABLE countries ADD (duty_pct NUMBER(2,2) CHECK (duty_pct < 10.5), visa_needed VARCHAR2(3));
The following statement increases the size of the duty_pct
column:
ALTER TABLE countries MODIFY (duty_pct NUMBER(3,2));
Because the MODIFY
clause contains only one column definition, the parentheses around the definition are optional.
The following statement changes the values of the PCTFREE
and PCTUSED
parameters for the employees
table to 30 and 60, respectively:
ALTER TABLE employees PCTFREE 30 PCTUSED 60;
The following example modifies the press_release
column of the sample table pm.print_media
from LONG
to CLOB
datatype:
ALTER TABLE print_media MODIFY (press_release CLOB);
The following statement allocates an extent of 5 kilobytes for the employees
table and makes it available to instance 4:
ALTER TABLE employees ALLOCATE EXTENT (SIZE 5K INSTANCE 4);
Because this statement omits the DATAFILE
parameter, Oracle Database allocates the extent in one of the datafiles belonging to the tablespace containing the table.
This statement modifies the min_price
column of the product_information
table so that it has a default value of 10:
ALTER TABLE product_information MODIFY (min_price DEFAULT 10);
If you subsequently add a new row to the product_information
table and do not specify a value for the min_price
column, then the value of the min_price
column is automatically 0:
INSERT INTO product_information (product_id, product_name, list_price) VALUES (300, 'left-handed mouse', 40.50); SELECT product_id, product_name, list_price, min_price FROM product_information WHERE product_id = 300; PRODUCT_ID PRODUCT_NAME LIST_PRICE MIN_PRICE ---------- -------------------- ---------- ---------- 300 left-handed mouse 40.5 10
To discontinue previously specified default values, so that they are no longer automatically inserted into newly added rows, replace the values with NULL
, as shown in this statement:
ALTER TABLE product_information MODIFY (min_price DEFAULT NULL);
The MODIFY
clause need only specify the column name and the modified part of the definition, rather than the entire column definition. This statement has no effect on any existing values in existing rows.
The following example adds a primary key constraint to the xwarehouses
table, created in "XMLType Examples":
ALTER TABLE xwarehouses ADD (PRIMARY KEY(XMLDATA."WarehouseID"));
Please refer to XMLDATA for information about this pseudocolumn.
The following statement renames the cust_fname_nn
constraint on the sample table oe.customers
to cust_firstname_nn
:
ALTER TABLE customers RENAME CONSTRAINT cust_fname_nn TO cust_firstname_nn;
The following statement drops the primary key of the departments
table:
ALTER TABLE departments DROP PRIMARY KEY CASCADE;
If you know that the name of the PRIMARY
KEY
constraint is pk_dept
, then you could also drop it with the following statement:
ALTER TABLE departments DROP CONSTRAINT pk_dept CASCADE;
The CASCADE
clause causes Oracle Database to drop any foreign keys that reference the primary key.
The following statement drops the unique key on the email
column of the employees
table:
ALTER TABLE employees DROP UNIQUE (email);
The DROP
clause in this statement omits the CASCADE
clause. Because of this omission, Oracle Database does not drop the unique key if any foreign key references it.
The following statement adds CLOB
column resume
to the employee
table and specifies LOB storage characteristics for the new column:
ALTER TABLE employees ADD (resume CLOB) LOB (resume) STORE AS resume_seg (TABLESPACE example);
To modify the LOB column resume
to use caching, enter the following statement:
ALTER TABLE employees MODIFY LOB (resume) (CACHE);
The following statement adds the nested table column skills
to the employee
table:
ALTER TABLE employees ADD (skills skill_table_type) NESTED TABLE skills STORE AS nested_skill_table;
You can also modify nested table storage characteristics. Use the name of the storage table specified in the nested_table_col_properties
to make the modification. You cannot query or perform DML statements on the storage table. Use the storage table only to modify the nested table column storage characteristics.
The following statement creates table vetservice
with nested table column client
and storage table client_tab
. Nested table vetservice
is modified to specify constraints:
CREATE TYPE pet_table AS OBJECT (pet_name VARCHAR2(10), pet_dob DATE); CREATE TABLE vetservice (vet_name VARCHAR2(30), client pet_table) NESTED TABLE client STORE AS client_tab; ALTER TABLE client_tab ADD UNIQUE (ssn);
The following statement adds a UNIQUE
constraint to nested table nested_skill_table
:
ALTER TABLE nested_skill_table ADD UNIQUE (a);
The following statement alters the storage table for a nested table of REF
values to specify that the REF
is scoped:
CREATE TYPE emp_t AS OBJECT (eno number, ename char(31)); CREATE TYPE emps_t AS TABLE OF REF emp_t; CREATE TABLE emptab OF emp_t; CREATE TABLE dept (dno NUMBER, employees emps_t) NESTED TABLE employees STORE AS deptemps; ALTER TABLE deptemps ADD (SCOPE FOR (column_value) IS emptab);
Similarly, to specify storing the REF
with rowid:
ALTER TABLE deptemps ADD (REF(column_value) WITH ROWID);
In order to execute these ALTER
TABLE
statements successfully, the storage table deptemps
must be empty. Also, because the nested table is defined as a table of scalars (REF
s), Oracle Database implicitly provides the column name COLUMN_VALUE
for the storage table.
See Also:
|
In the following statement assumes that an object type dept_t
has been previously defined. Now, create table staff
as follows:
CREATE TABLE staff (name VARCHAR(100), salary NUMBER, dept REF dept_t);
An object table offices
is created as:
CREATE TABLE offices OF dept_t;
The dept
column can store references to objects of dept_t
stored in any table. If you would like to restrict the references to point only to objects stored in the departments
table, then you could do so by adding a scope constraint on the dept
column as follows:
ALTER TABLE staff ADD (SCOPE FOR (dept) IS offices);
The preceding ALTER
TABLE
statement will succeed only if the staff
table is empty.
If you want the REF
values in the dept
column of staff
to also store the rowids, issue the following statement:
ALTER TABLE staff ADD (REF(dept) WITH ROWID);
For examples of defining integrity constraints with the ALTER
TABLE
statement, see the constraint .
For examples of changing the storage parameters of a table, see the storage_clause .