Oracle® Database SQL Language Reference 11g Release 2 (11.2) E41084-02 |
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Use the ALTER
INDEX
statement to change or rebuild an existing index.
See Also:
CREATE INDEX for information on creating an indexThe index must be in your own schema or you must have the ALTER
ANY
INDEX
system privilege.
To rebuild an online index in another user's schema, you must have the CREATE
ANY
INDEX
and CREATE
ANY
TABLE
system privileges.
To execute the MONITORING
USAGE
clause, the index must be in your own schema.
To modify a domain index, you must have EXECUTE
object privilege on the indextype of the index.
Object privileges are granted on the parent index, not on individual index partitions or subpartitions.
You must have tablespace quota to modify, rebuild, or split an index partition or to modify or rebuild an index subpartition.
See Also:
CREATE INDEX and Oracle Database Data Cartridge Developer's Guide for information on domain indexes(deallocate_unused_clause ::=, allocate_extent_clause ::=, shrink_clause::=, parallel_clause ::=, physical_attributes_clause ::=, logging_clause::=, rebuild_clause ::=, alter_index_partitioning ::=)
(The ODCI_parameters
are documented in Oracle Database Data Cartridge Developer's Guide.)
parallel_clause ::=
physical_attributes_clause ::=
rebuild_clause ::=
(parallel_clause ::=, physical_attributes_clause ::=, key_compression::=, logging_clause::=)
(The ODCI_parameters
are documented in Oracle Database Data Cartridge Developer's Guide. The XMLIndex_parameters_clause
is documented in Oracle XML DB Developer's Guide. )
(modify_index_default_attrs ::=, add_hash_index_partition ::=, modify_index_partition ::=, rename_index_partition::=, drop_index_partition ::=, split_index_partition::=, coalesce_index_partition ::=, modify_index_subpartition::=)
modify_index_default_attrs ::=
(physical_attributes_clause ::=, logging_clause::=)
(deallocate_unused_clause ::=, allocate_extent_clause ::=, physical_attributes_clause ::=, logging_clause::=, key_compression::=)
index_partition_description::=
(segment_attributes_clause::=, key_compression::=)
(physical_attributes_clause ::=, logging_clause::=)
Specify the schema containing the index. If you omit schema
, then Oracle Database assumes the index is in your own schema.
Specify the name of the index to be altered.
Restrictions on Modifying Indexes The modification of indexes is subject to the following restrictions:
If index
is a domain index, then you can specify only the PARAMETERS
clause, the RENAME
clause, the rebuild_clause
(with or without the PARAMETERS
clause), the parallel_clause
, or the UNUSABLE
clause. No other clauses are valid.
You cannot alter or rename a domain index that is marked LOADING
or FAILED
. If an index is marked FAILED
, then the only clause you can specify is REBUILD
.
See Also:
Oracle Database Data Cartridge Developer's Guide for information on theLOADING
and FAILED
states of domain indexesUse the deallocate_unused_clause
to explicitly deallocate unused space at the end of the index and make the freed space available for other segments in the tablespace.
If index
is range-partitioned or hash-partitioned, then Oracle Database deallocates unused space from each index partition. If index
is a local index on a composite-partitioned table, then Oracle Database deallocates unused space from each index subpartition.
Restrictions on Deallocating Space Deallocation of space is subject to the following restrictions:
You cannot specify this clause for an index on a temporary table.
You cannot specify this clause and also specify the rebuild_clause
.
Refer to deallocate_unused_clause for a full description of this clause.
KEEP integer The KEEP
clause lets you specify the number of bytes above the high water mark that the index will have after deallocation. If the number of remaining extents is less than MINEXTENTS
, then MINEXTENTS
is set to the current number of extents. If the initial extent becomes smaller than INITIAL
, then INITIAL
is set to the value of the current initial extent. If you omit KEEP
, then all unused space is freed.
Refer to ALTER TABLE for a complete description of this clause.
The allocate_extent_clause
lets you explicitly allocate a new extent for the index. For a local index on a hash-partitioned table, Oracle Database allocates a new extent for each partition of the index.
Restriction on Allocating Extents You cannot specify this clause for an index on a temporary table or for a range-partitioned or composite-partitioned index.
Refer to allocate_extent_clause for a full description of this clause.
Use this clause to compact the index segments. Specifying ALTER
INDEX
... SHRINK
SPACE
COMPACT
is equivalent to specifying ALTER
INDEX
... COALESCE
.
For complete information on this clause, refer to shrink_clause in the documentation on CREATE
TABLE
.
Restriction on Shrinking Index Segments You cannot specify this clause for for a bitmap join index or for a function-based index.
Use the PARALLEL
clause to change the default degree of parallelism for queries and DML on the index.
Restriction on Parallelizing Indexes You cannot specify this clause for an index on a temporary table.
For complete information on this clause, refer to parallel_clause in the documentation on CREATE
TABLE
.
See Also:
"Enabling Parallel Queries: Example"Use the physical_attributes_clause
to change the values of parameters for a nonpartitioned index, all partitions and subpartitions of a partitioned index, a specified partition, or all subpartitions of a specified partition.
See Also:
the physical attributes parameters in CREATE TABLE
"Modifying Real Index Attributes: Example" and "Changing MAXEXTENTS: Example"
Restrictions on Index Physical Attributes Index physical attributes are subject to the following restrictions:
You cannot specify this clause for an index on a temporary table.
You cannot specify the PCTUSED
parameter at all when altering an index.
You can specify the PCTFREE
parameter only as part of the rebuild_clause
, the modify_index_default_attrs
clause, or the split_index_partition
clause.
Use the storage_clause
to change the storage parameters for a nonpartitioned index, index partition, or all partitions of a partitioned index, or default values of these parameters for a partitioned index. Refer to storage_clause for complete information on this clause.
Use the logging_clause
to change the logging attribute of the index. If you also specify the REBUILD
clause, then this new setting affects the rebuild operation. If you specify a different value for logging in the REBUILD
clause, then Oracle Database uses the last logging value specified as the logging attribute of the index and of the rebuild operation.
An index segment can have logging attributes different from those of the base table and different from those of other index segments for the same base table.
Restriction on Index Logging You cannot specify this clause for an index on a temporary table.
See Also:
logging_clause for a full description of this clause
Oracle Database VLDB and Partitioning Guide for more information about parallel DML
These keywords are deprecated and have been replaced with LOGGING
and NOLOGGING
, respectively. Although RECOVERABLE
and UNRECOVERABLE
are supported for backward compatibility, Oracle strongly recommends that you use the LOGGING
and NOLOGGING
keywords.
RECOVERABLE
is not a valid keyword for creating partitioned tables or LOB storage characteristics. UNRECOVERABLE
is not a valid keyword for creating partitioned or index-organized tables. Also, it can be specified only with the AS
subquery clause of CREATE
INDEX
.
Use the rebuild_clause
to re-create an existing index or one of its partitions or subpartitions. If index is marked UNUSABLE
, then a successful rebuild will mark it USABLE
. For a function-based index, this clause also enables the index. If the function on which the index is based does not exist, then the rebuild statement will fail.
Note:
When you rebuild the secondary index of an index-organized table, Oracle Database preserves the primary key columns contained in the logical rowid when the index was created. Therefore, if the index was created with theCOMPATIBLE
initialization parameter set to less than 10.0.0, the rebuilt index will contain the index key and any of the primary key columns of the table that are not also in the index key. If the index was created with the COMPATIBLE
initialization parameter set to 10.0.0 or greater, then the rebuilt index will contain the index key and all the primary key columns of the table, including those also in the index key.Restrictions on Rebuilding Indexes The rebuilding of indexes is subject to the following restrictions:
You cannot rebuild an index on a temporary table.
You cannot rebuild a bitmap index that is marked INVALID
. Instead, you must drop and then re-create it.
You cannot rebuild an entire partitioned index. You must rebuild each partition or subpartition, as described for the PARTITION
clause.
You cannot specify the deallocate_unused_clause
in the same statement as the rebuild_clause
.
You cannot change the value of the PCTFREE
parameter for the index as a whole (ALTER
INDEX
) or for a partition (ALTER
INDEX
... MODIFY
PARTITION
). You can specify PCTFREE
in all other forms of the ALTER
INDEX
statement.
For a domain index:
You can specify only the PARAMETERS
clause (either for the index or for a partition of the index) or the parallel_clause
. No other rebuild clauses are valid.
You can rebuild an index only if the index is not marked IN_PROGRESS
.
You can rebuild an index partition only if the index is not marked IN_PROGRESS
or FAILED
and the partition is not marked IN_PROGRESS
.
You cannot rebuild a local index, but you can rebuild a partition of a local index (ALTER
INDEX
... REBUILD
PARTITION
).
For a local index on a hash partition or subpartition, the only parameter you can specify is TABLESPACE
.
You cannot rebuild an online index that is used to enforce a deferrable unique constraint.
Use the PARTITION
clause to rebuild one partition of an index. You can also use this clause to move an index partition to another tablespace or to change a create-time physical attribute.
The storage of partitioned database entities in tablespaces of different block sizes is subject to several restrictions. Refer to Oracle Database VLDB and Partitioning Guide for a discussion of these restrictions.
Restriction on Rebuilding Partitions You cannot specify this clause for a local index on a composite-partitioned table. Instead, use the REBUILD
SUBPARTITION
clause.
See Also:
Oracle Database VLDB and Partitioning Guide for more information about partition maintenance operations and "Rebuilding Unusable Index Partitions: Example"Use the SUBPARTITION
clause to rebuild one subpartition of an index. You can also use this clause to move an index subpartition to another tablespace. If you do not specify TABLESPACE
, then the subpartition is rebuilt in the same tablespace.
The storage of partitioned database entities in tablespaces of different block sizes is subject to several restrictions. Refer to Oracle Database VLDB and Partitioning Guide for a discussion of these restrictions.
Restriction on Modifying Index Subpartitions The only parameters you can specify for a subpartition are TABLESPACE
, ONLINE
, and the parallel_clause
.
Indicate whether the bytes of the index block are stored in reverse order:
REVERSE
stores the bytes of the index block in reverse order and excludes the rowid when the index is rebuilt.
NOREVERSE
stores the bytes of the index block without reversing the order when the index is rebuilt. Rebuilding a REVERSE
index without the NOREVERSE
keyword produces a rebuilt, reverse-keyed index.
Restrictions on Reverse Indexes Reverse indexes are subject to the following restrictions:
You cannot reverse a bitmap index or an index-organized table.
You cannot specify REVERSE
or NOREVERSE
for a partition or subpartition.
Use the parallel_clause
to parallelize the rebuilding of the index and to change the degree of parallelism for the index itself. All subsequent operations on the index will be executed with the degree of parallelism specified by this clause, unless overridden by a subsequent data definition language (DDL) statement with the parallel_clause
. The following exceptions apply:
If ALTER
SESSION
DISABLE
PARALLEL
DDL
was specified before rebuilding the index, then the index will be rebuilt serially and the degree of parallelism for the index will be changed to 1.
If ALTER
SESSION
FORCE
PARALLEL
DDL
was specified before rebuilding the index, then the index will be rebuilt in parallel and the degree of parallelism for the index will be changed to the value that was specified in the ALTER
SESSION
statement, or DEFAULT
if no value was specified.
Specify the tablespace where the rebuilt index, index partition, or index subpartition will be stored. The default is the default tablespace where the index or partition resided before you rebuilt it.
Specify COMPRESS
to enable key compression, which eliminates repeated occurrence of key column values. Use integer
to specify the prefix length (number of prefix columns to compress).
For unique indexes, the range of valid prefix length values is from 1 to the number of key columns minus 1. The default prefix length is the number of key columns minus 1.
For nonunique indexes, the range of valid prefix length values is from 1 to the number of key columns. The default prefix length is number of key columns.
Oracle Database compresses indexes that are nonunique or unique indexes of at least two columns. If you want to use compression for a partitioned index, then the index must have compression enabled at the index level.
Specify NOCOMPRESS
to disable key compression. This is the default.
Restriction on Key Compression You cannot specify COMPRESS
for a bitmap index.
Specify ONLINE
to allow DML operations on the table or partition during rebuilding of the index.
Restrictions on Online Indexes Online indexes are subject to the following restrictions:
Parallel DML is not supported during online index building. If you specify ONLINE
and subsequently issue parallel DML statements, then Oracle Database returns an error.
You cannot specify ONLINE
for a bitmap join index or a cluster index.
For a nonunique secondary index on an index-organized table, the number of index key columns plus the number of primary key columns that are included in the logical rowid in the index-organized table cannot exceed 32. The logical rowid excludes columns that are part of the index key.
Specify whether the ALTER
INDEX
... REBUILD
operation will be logged.
Refer to the logging_clause for a full description of this clause.
This clause is valid only for domain indexes in a top-level ALTER
INDEX
statement and in the rebuild_clause
. This clause specifies the parameter string that is passed uninterpreted to the appropriate ODCI indextype routine.
The maximum length of the parameter string is 1000 characters.
If you are altering or rebuilding an entire index, then the string must refer to index-level parameters. If you are rebuilding a partition of the index, then the string must refer to partition-level parameters.
If index
is marked UNUSABLE
, then modifying the parameters alone does not make it USABLE
. You must also rebuild the UNUSABLE
index to make it usable.
If you have installed Oracle Text, then you can rebuild your Oracle Text domain indexes using parameters specific to that product. For more information on those parameters, refer to Oracle Text Reference.
Restriction on the PARAMETERS Clause You can modify index partitions only if index
is not marked IN_PROGRESS
or FAILED
, no index partitions are marked IN_PROGRESS
, and the partition being modified is not marked FAILED
.
See Also:
Oracle Database Data Cartridge Developer's Guide for more information on indextype routines for domain indexes
CREATE INDEX for more information on domain indexes
This clause is valid only for XMLIndex indexes. This clause specifies the parameter string that defines the XMLIndex implementation.
The maximum length of the parameter string is 1000 characters.
If you are altering or rebuilding an entire index, then the string must refer to index-level parameters. If you are rebuilding a partition of the index, then the string must refer to partition-level parameters.
If index
is marked UNUSABLE
, then modifying the parameters alone does not make it USABLE
. You must also rebuild the UNUSABLE
index to make it usable.
See Also:
Oracle XML DB Developer's Guide for more information onXMLIndex
, including the syntax and semantics of the XMLIndex_parameters_clause
Restriction on the XMLIndex_paramaters_clause You can modify index partitions only if index
is not marked IN_PROGRESS
or FAILED
, no index partitions are marked IN_PROGRESS
, and the partition being modified is not marked FAILED
.
This clause is valid only for domain indexes. Use this clause to recompile an invalid domain index explicitly. This clause is useful primarily when the underlying indextype has been altered to support system-managed domain indexes, so that the existing domain index has been marked INVALID
. In this situation, this ALTER
INDEX
statement migrates the domain index from a user-managed domain index to a system-managed domain index.
See Also:
TheCREATE
INDEXTYPE
storage_table_clause and Oracle Database Data Cartridge Developer's Guide for information on creating system-managed domain indexesENABLE
applies only to a function-based index that has been disabled, either by an ALTER
INDEX
... DISABLE
statement, or because a user-defined function used by the index was dropped or replaced. This clause enables such an index if these conditions are true:
The function is currently valid.
The signature of the current function matches the signature of the function when the index was created.
The function is currently marked as DETERMINISTIC
.
Restrictions on Enabling Function-based Indexes The ENABLE
clause is subject to the following restrictions:
You cannot specify any other clauses of ALTER
INDEX
in the same statement with ENABLE
.
You cannot specify this clause for an index on a temporary table. Instead, you must drop and recreate the index. You can retrieve the creation DDL for the index using the DBMS_METADATA
package.
DISABLE
applies only to a function-based index. This clause lets you disable the use of a function-based index. You might want to do so, for example, while working on the body of the function. Afterward you can either rebuild the index or specify another ALTER
INDEX
statement with the ENABLE
keyword.
Specify UNUSABLE
to mark the index or index partition(s) or index subpartition(s) UNUSABLE
. The space allocated for an index or index partition or subpartition is freed immediately when the object is marked UNUSABLE
. An unusable index must be rebuilt, or dropped and re-created, before it can be used. While one partition is marked UNUSABLE
, the other partitions of the index are still valid. You can execute statements that require the index if the statements do not access the unusable partition. You can also split or rename the unusable partition before rebuilding it. Refer to CREATE
INDEX
... UNUSABLE for more information.
Restriction on Marking Indexes Unusable You cannot specify this clause for an index on a temporary table.
Use this clause to specify whether the index is visible or invisible to the optimizer. Refer to "VISIBLE | INVISIBLE" in CREATE
INDEX
for a full description of this clause.
Use this clause to rename an index. The new_index_name
is a single identifier and does not include the schema name.
Restriction on Renaming Indexes For a domain index, neither index
nor any partitions of index
can be marked IN_PROGRESS
or FAILED
.
See Also:
"Renaming an Index: Example"Specify COALESCE
to instruct Oracle Database to merge the contents of index blocks where possible to free blocks for reuse.
Restrictions on Coalescing Index Blocks Coalescing of index blocks is subject to the following restrictions:
You cannot specify this clause for an index on a temporary table.
Do not specify this clause for the primary key index of an index-organized table. Instead use the COALESCE
clause of ALTER
TABLE
.
See Also:
Oracle Database Administrator's Guide for more information on space management and coalescing indexes
COALESCE Clause for information on coalescing the space of an index-organized table
shrink_clause for an alternative method of compacting index segments
MONITORING USAGE | NOMONITORING USAGE
Use this clause to determine whether Oracle Database should monitor index use.
Specify MONITORING
USAGE
to begin monitoring the index. Oracle Database first clears existing information on index use, and then monitors the index for use until a subsequent ALTER
INDEX
... NOMONITORING
USAGE
statement is executed.
To terminate monitoring of the index, specify NOMONITORING
USAGE
.
To see whether the index has been used since this ALTER
INDEX
... NOMONITORING
USAGE
statement was issued, query the USED
column of the V$OBJECT_USAGE
dynamic performance view.
See Also:
Oracle Database Reference for information on the data dictionary and dynamic performance viewsUPDATE BLOCK REFERENCES Clause
The UPDATE
BLOCK
REFERENCES
clause is valid only for normal and domain indexes on index-organized tables. Specify this clause to update all the stale guess data block addresses stored as part of the index row with the correct database address for the corresponding block identified by the primary key.
For a domain index, Oracle Database executes the ODCIIndexAlter
routine with the alter_option
parameter set to AlterIndexUpdBlockRefs
. This routine enables the cartridge code to update the stale guess data block addresses in the index.
Restriction on UPDATE BLOCK REFERENCES You cannot combine this clause with any other clause of ALTER
INDEX
.
The partitioning clauses of the ALTER
INDEX
statement are valid only for partitioned indexes.
The storage of partitioned database entities in tablespaces of different block sizes is subject to several restrictions. Refer to Oracle Database VLDB and Partitioning Guide for a discussion of these restrictions.
Restrictions on Modifying Index Partitions Modifying index partitions is subject to the following restrictions:
You cannot specify any of these clauses for an index on a temporary table.
You can combine several operations on the base index into one ALTER
INDEX
statement (except RENAME
and REBUILD
), but you cannot combine partition operations with other partition operations or with operations on the base index.
Specify new values for the default attributes of a partitioned index.
Restriction on Modifying Partition Default Attributes The only attribute you can specify for a hash-partitioned global index or for an index on a hash-partitioned table is TABLESPACE
.
TABLESPACE Specify the default tablespace for new partitions of an index or subpartitions of an index partition.
logging_clause Specify the default logging attribute of a partitioned index or an index partition.
Refer to logging_clause for a full description of this clause.
FOR PARTITION Use the FOR
PARTITION
clause to specify the default attributes for the subpartitions of a partition of a local index on a composite-partitioned table.
Restriction on FOR PARTITION You cannot specify FOR
PARTITION
for a list partition.
See Also:
"Modifying Default Attributes: Example"Use this clause to add a partition to a global hash-partitioned index. Oracle Database adds hash partitions and populates them with index entries rehashed from an existing hash partition of the index, as determined by the hash function. If you omit the partition name, then Oracle Database assigns a name of the form SYS_P
n
. If you omit the TABLESPACE
clause, then Oracle Database places the partition in the tablespace specified for the index. If no tablespace is specified for the index, then Oracle Database places the partition in the default tablespace of the user, if one has been specified, or in the system default tablespace.
Use the modify_index_partition
clause to modify the real physical attributes, logging attribute, or storage characteristics of index partition partition
or its subpartitions. For a hash-partitioned global index, the only subclause of this clause you can specify is UNUSABLE
.
COALESCE Specify this clause to merge the contents of index partition blocks where possible to free blocks for reuse.
UPDATE BLOCK REFERENCES The UPDATE
BLOCK
REFERENCES
clause is valid only for normal indexes on index-organized tables. Use this clause to update all stale guess data block addresses stored in the secondary index partition.
Restrictions on UPDATE BLOCK REFERENCES This clause is subject to the following restrictions:
You cannot specify the physical_attributes_clause
for an index on a hash-partitioned table.
You cannot specify UPDATE
BLOCK
REFERENCES
with any other clause in ALTER
INDEX
.
Note:
If the index is a local index on a composite-partitioned table, then the changes you specify here will override any attributes specified earlier for the subpartitions of index, as well as establish default values of attributes for future subpartitions of that partition. To change the default attributes of the partition without overriding the attributes of subpartitions, useALTER
TABLE
... MODIFY
DEFAULT
ATTRIBUTES
FOR
PARTITION
.See Also:
"Marking an Index Unusable: Examples"UNUSABLE Clause This clause has the same function for index partitions that it has for the index as a whole. Refer to "UNUSABLE".
key_compression This clause is relevant for composite-partitioned indexes. Use this clause to change the compression attribute for the partition and every subpartition in that partition. Oracle Database marks each index subpartition in the partition UNUSABLE
and you must then rebuild these subpartitions. Key compression must already have been specified for the table before you can specify key compression for a partition. You can specify this clause only at the partition level. You cannot change the compression attribute for an individual subpartition.
You can use this clause for noncomposite index partitions. However, it is more efficient to use the rebuild_clause
for noncomposite partitions, which lets you rebuild and set the compression attribute in one step.
Use the rename_index_partition
clauses to rename index partition
or subpartition
to new_name
.
Restrictions on Renaming Index Partitions Renaming index partitions is subject to the following restrictions:
You cannot rename the subpartition of a list partition.
For a partition of a domain index, index
cannot be marked IN_PROGRESS
or FAILED
, none of the partitions can be marked IN_PROGRESS
, and the partition you are renaming cannot be marked FAILED
.
See Also:
"Renaming an Index Partition: Example"Use the drop_index_partition
clause to remove a partition and the data in it from a partitioned global index. When you drop a partition of a global index, Oracle Database marks the next index partition UNUSABLE
. You cannot drop the highest partition of a global index.
See Also:
"Dropping an Index Partition: Example"Use the split_index_partition
clause to split a partition of a global range-partitioned index into two partitions, adding a new partition to the index. This clause is not valid for hash-partitioned global indexes. Instead, use the add_hash_index_partition
clause.
Splitting a partition marked UNUSABLE
results in two partitions, both marked UNUSABLE
. You must rebuild the partitions before you can use them.
Splitting a usable partition results in two partitions populated with index data. Both new partitions are usable.
AT Clause Specify the new noninclusive upper bound for split_partition_1
. The value_list
must evaluate to less than the presplit partition bound for partition_name_old
and greater than the partition bound for the next lowest partition (if there is one).
INTO Clause Specify (optionally) the name and physical attributes of each of the two partitions resulting from the split.
See Also:
"Splitting a Partition: Example"This clause is valid only for hash-partitioned global indexes. Oracle Database reduces by one the number of index partitions. Oracle Database selects the partition to coalesce based on the requirements of the hash function. Use this clause if you want to distribute index entries of a selected partition into one of the remaining partitions and then remove the selected partition.
Use the modify_index_subpartition
clause to mark UNUSABLE
or allocate or deallocate storage for a subpartition of a local index on a composite-partitioned table. All other attributes of such a subpartition are inherited from partition-level default attributes.
Storing Index Blocks in Reverse Order: Example The following statement rebuilds index ord_customer_ix
(created in "Creating an Index: Example") so that the bytes of the index block are stored in reverse order:
ALTER INDEX ord_customer_ix REBUILD REVERSE;
Rebuilding an Index in Parallel: Example The following statement causes the index to be rebuilt from the existing index by using parallel execution processes to scan the old and to build the new index:
ALTER INDEX ord_customer_ix REBUILD PARALLEL;
Modifying Real Index Attributes: Example The following statement alters the oe.cust_lname_ix
index so that future data blocks within this index use 5 initial transaction entries:
ALTER INDEX oe.cust_lname_ix INITRANS 5;
If the oe.cust_lname_ix
index were partitioned, then this statement would also alter the default attributes of future partitions of the index. Partitions added in the future would then use 5 initial transaction entries and an incremental extent of 100K.
Enabling Parallel Queries: Example The following statement sets the parallel attributes for index upper_ix
(created in "Creating a Function-Based Index: Example") so that scans on the index will be parallelized:
ALTER INDEX upper_ix PARALLEL;
Renaming an Index: Example The following statement renames an index:
ALTER INDEX upper_ix RENAME TO upper_name_ix;
Marking an Index Unusable: Examples The following statements use the cost_ix
index, which was created in "Creating a Range-Partitioned Global Index: Example". Partition p1
of that index was dropped in "Dropping an Index Partition: Example". The first statement marks index partition p2
as UNUSABLE
:
ALTER INDEX cost_ix MODIFY PARTITION p2 UNUSABLE;
The next statement marks the entire index cost_ix
as UNUSABLE
:
ALTER INDEX cost_ix UNUSABLE;
Rebuilding Unusable Index Partitions: Example The following statements rebuild partitions p2
and p3
of the cost_ix
index, making the index once more usable: The rebuilding of partition p3
will not be logged:
ALTER INDEX cost_ix REBUILD PARTITION p2; ALTER INDEX cost_ix REBUILD PARTITION p3 NOLOGGING;
Changing MAXEXTENTS: Example The following statement changes the maximum number of extents for partition p3
and changes the logging attribute:
/* This example will fail if the tablespace in which partition p3 resides is locally managed. */ ALTER INDEX cost_ix MODIFY PARTITION p3 STORAGE(MAXEXTENTS 30) LOGGING;
Renaming an Index Partition: Example The following statement renames an index partition of the cost_ix
index (created in "Creating a Range-Partitioned Global Index: Example"):
ALTER INDEX cost_ix RENAME PARTITION p3 TO p3_Q3;
Splitting a Partition: Example The following statement splits partition p2
of index cost_ix
(created in "Creating a Range-Partitioned Global Index: Example") into p2a
and p2b
:
ALTER INDEX cost_ix SPLIT PARTITION p2 AT (1500) INTO ( PARTITION p2a TABLESPACE tbs_01 LOGGING, PARTITION p2b TABLESPACE tbs_02);
Dropping an Index Partition: Example The following statement drops index partition p1
from the cost_ix
index:
ALTER INDEX cost_ix DROP PARTITION p1;
Modifying Default Attributes: Example The following statement alters the default attributes of local partitioned index prod_idx
, which was created in "Creating an Index on a Hash-Partitioned Table: Example". Partitions added in the future will use 5 initial transaction entries:
ALTER INDEX prod_idx MODIFY DEFAULT ATTRIBUTES INITRANS 5;