ALTER MATERIALIZED VIEW
Purpose
A materialized view is a database object that contains the results of a query. The FROM clause of the query can name tables, views, and other materialized views. Collectively these source objects are called master tables (a replication term) or detail tables (a data warehousing term). This reference uses the term master tables for consistency. The databases containing the master tables are called the master databases.
Use the ALTER MATERIALIZED VIEW statement to modify an existing materialized view in one or more of the following ways:
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To change its storage characteristics
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To change its refresh method, mode, or time
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To alter its structure so that it is a different type of materialized view
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To enable or disable query rewrite
Note:
The keyword SNAPSHOT is supported in place of MATERIALIZED VIEW for backward compatibility.
See Also:
-
CREATE MATERIALIZED VIEW for more information on creating materialized views
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Oracle Database Administrator’s Guide for information on materialized views in a replication environment
-
Oracle Database Data Warehousing Guide for information on materialized views in a data warehousing environment
Prerequisites
The materialized view must be in your own schema, or you must have the ALTER ANY MATERIALIZED VIEW system privilege.
To enable a materialized view for query rewrite:
-
If all of the master tables in the materialized view are in your schema, then you must have the
QUERYREWRITEprivilege. -
If any of the master tables are in another schema, then you must have the
GLOBALQUERYREWRITEprivilege. -
If the materialized view is in another user's schema, then both you and the owner of that schema must have the appropriate
QUERYREWRITEprivilege, as described in the preceding two items. In addition, the owner of the materialized view must haveSELECTaccess to any master tables that the materialized view owner does not own.
To specify an edition in the evaluation_edition_clause or the unusable_editions_clause, you must have the USE privilege on the edition.
Syntax
alter_materialized_view::=
(physical_attributes_clause::=, modify_mv_column_clause::=, table_compression::=, inmemory_table_clause::=, LOB_storage_clause::=, modify_LOB_storage_clause::=, alter_table_partitioning::= (part of ALTER TABLE), parallel_clause::=, logging_clause::=, allocate_extent_clause::=, deallocate_unused_clause::=, shrink_clause::=, alter_iot_clauses::=, scoped_table_ref_constraint::=, alter_mv_refresh::=, evaluation_edition_clause::=, alter_query_rewrite_clause::=)
physical_attributes_clause::=
modify_mv_column_clause::=
table_compression::=
inmemory_table_clause::=
inmemory_attributes::=
(inmemory_memcompress::=, inmemory_priority::=, inmemory_distribute::=, inmemory_duplicate::=)
inmemory_memcompress::=
inmemory_priority::=
inmemory_distribute::=
inmemory_duplicate::=
inmemory_column_clause::=
LOB_storage_parameters::=
(TABLESPACE SET: not supported with ALTER MATERIALIZED VIEW, LOB_parameters::=, storage_clause::=)
LOB_parameters::=
modify_LOB_parameters::=
(storage_clause::=, LOB_retention_clause::=, LOB_compression_clause::=, logging_clause::=, allocate_extent_clause::=, shrink_clause::=, deallocate_unused_clause::=)
logging_clause::=
deallocate_unused_clause::=
shrink_clause::=
alter_iot_clauses::=
(index_org_table_clause::=, alter_overflow_clause::=, alter_mapping_table_clauses: not supported with materialized views)
index_org_table_clause::=
(mapping_table_clause: not supported with materialized views, prefix_compression: not supported for altering materialized views, index_org_overflow_clause::=)
index_org_overflow_clause::=
(segment_attributes_clause::=—part of ALTER TABLE)
alter_overflow_clause::=
(allocate_extent_clause::=, shrink_clause::=, deallocate_unused_clause::=)
add_overflow_clause::=
(segment_attributes_clause::=--part of ALTER TABLE)
evaluation_edition_clause::=
alter_query_rewrite_clause::=
Note:
You cannot specify only QUERY REWRITE. You must specify at least one of the following: ENABLE, DISABLE, or a subclause of the unusable_editions_clause.
unusable_editions_clause::=
Semantics
schema
Specify the schema containing the materialized view. If you omit schema, then Oracle Database assumes the materialized view is in your own schema.
materialized_view
Specify the name of the materialized view to be altered.
physical_attributes_clause
Specify new values for the PCTFREE, PCTUSED, and INITRANS parameters (or, when used in the USING INDEX clause, for the INITRANS parameter only) and the storage characteristics for the materialized view. Refer to ALTER TABLE for information on the PCTFREE, PCTUSED, and INITRANS parameters and to storage_clause for information about storage characteristics.
modify_mv_column_clause
Use this clause to encrypt or decrypt this column of the materialized view. Refer to the CREATE TABLE clause encryption_spec for information on this clause.
table_compression
Use the table_compression clause to instruct Oracle Database whether to compress data segments to reduce disk and memory use. Refer to the table_compression clause of CREATE TABLE for the full semantics of this clause.
inmemory_table_clause
Use the inmemory_table_clause to enable or disable the materialized view or its columns for the In-Memory Column Store (IM column store), or to change the In-Memory attributes for the materialized view or its columns. This clause has the same semantics here as it has for the ALTER TABLE statement. Refer to the inmemory_table_clause of ALTER TABLE for the full semantics of this clause.
LOB_storage_clause
The LOB_storage_clause lets you specify the storage characteristics of a new LOB. LOB storage behaves for materialized views exactly as it does for tables. Refer to the LOB_storage_clause (in CREATE TABLE) for information on the LOB storage parameters.
modify_LOB_storage_clause
The modify_LOB_storage_clause lets you modify the physical attributes of the LOB attribute LOB_item or the LOB object attribute. Modification of LOB storage behaves for materialized views exactly as it does for tables.
See Also:
The modify_LOB_storage_clause of ALTER TABLE for information on the LOB storage parameters that can be modified
alter_table_partitioning
The syntax and general functioning of the partitioning clauses for materialized views is the same as for partitioned tables. Refer to alter_table_partitioning in the documentation on ALTER TABLE.
Restriction on Altering Materialized View Partitions
You cannot specify the LOB_storage_clause or modify_LOB_storage_clause within any of the partitioning_clauses.
Note:
If you want to keep the contents of the materialized view synchronized with those of the master table, then Oracle recommends that you manually perform a complete refresh of all materialized views dependent on the table after dropping or truncating a table partition.
MODIFY PARTITION UNUSABLE LOCAL INDEXES
Use this clause to mark UNUSABLE all the local index partitions associated with partition.
MODIFY PARTITION REBUILD UNUSABLE LOCAL INDEXES
Use this clause to rebuild the unusable local index partitions associated with partition.
parallel_clause
The parallel_clause lets you change the default degree of parallelism for the materialized view.
For complete information on this clause, refer to parallel_clause in the documentation on CREATE TABLE.
logging_clause
Specify or change the logging characteristics of the materialized view. Refer to the logging_clause for a full description of this clause.
allocate_extent_clause
The allocate_extent_clause lets you explicitly allocate a new extent for the materialized view. Refer to the allocate_extent_clause for a full description of this clause.
deallocate_unused_clause
Use the deallocate_unused_clause to explicitly deallocate unused space at the end of the materialized view and make the freed space available for other segments. Refer to the deallocate_unused_clause for a full description of this clause.
shrink_clause
Use this clause to compact the materialized view segments. For complete information on this clause, refer to shrink_clause in the documentation on CREATE TABLE.
CACHE | NOCACHE
For data that will be accessed frequently, CACHE specifies that the blocks retrieved for this table are placed at the most recently used end of the LRU list in the buffer cache when a full table scan is performed. This attribute is useful for small lookup tables. NOCACHE specifies that the blocks are placed at the least recently used end of the LRU list. Refer to "CACHE | NOCACHE | CACHE READS" in the documentation on CREATE TABLE for more information about this clause.
alter_iot_clauses
Use the alter_iot_clauses to change the characteristics of an index-organized materialized view. The keywords and parameters of the components of the alter_iot_clauses have the same semantics as in ALTER TABLE, with the restrictions that follow.
Restrictions on Altering Index-Organized Materialized Views
You cannot specify the mapping_table_clause or the prefix_compression clause of the index_org_table_clause.
See Also:
index_org_table_clause of CREATE MATERIALIZED VIEW for information on creating an index-organized materialized view
USING INDEX Clause
Use this clause to change the value of INITRANS and STORAGE parameters for the index Oracle Database uses to maintain the materialized view data.
Restriction on the USING INDEX clause
You cannot specify the PCTUSED or PCTFREE parameters in this clause.
MODIFY scoped_table_ref_constraint
Use the MODIFY scoped_table_ref_constraint clause to rescope a REF column or attribute to a new table or to an alias for a new column.
Restrictions on Rescoping REF Columns
You can rescope only one REF column or attribute in each ALTER MATERIALIZED VIEW statement, and this must be the only clause in this statement.
alter_mv_refresh
Use the alter_mv_refresh clause to change the default method and mode and the default times for automatic refreshes. If the contents of the master tables of a materialized view are modified, then the data in the materialized view must be updated to make the materialized view accurately reflect the data currently in its master table(s). This clause lets you schedule the times and specify the method and mode for Oracle Database to refresh the materialized view.
See Also:
-
This clause only sets the default refresh options. For instructions on actually implementing the refresh, refer to Oracle Database Administrator’s Guide and Oracle Database Data Warehousing Guide.
-
Oracle Database Data Warehousing Guide to learn how to use refresh statistics to monitor the performance of materialized view refresh operations
Specify FAST for the fast refresh method, which performs the refresh according to the changes that have occurred to the master tables. The changes are stored either in the materialized view log associated with the master table (for conventional DML changes) or in the direct loader log (for direct-path INSERT operations).
For both conventional DML changes and for direct-path INSERT operations, other conditions may restrict the eligibility of a materialized view for fast refresh.
When you change the refresh method to FAST in an ALTER MATERIALIZED VIEW statement, Oracle Database does not perform this verification. If the materialized view is not eligible for fast refresh, then Oracle Database returns an error when you attempt to refresh this view.
See Also:
-
Oracle Database Administrator’s Guide for restrictions on fast refresh in replication environments
-
Oracle Database Data Warehousing Guide for restrictions on fast refresh in data warehouse environments
Specify COMPLETE for the complete refresh method, which is implemented by executing the defining query of the materialized view. If you specify a complete refresh, then Oracle Database performs a complete refresh even if a fast refresh is possible.
See Also:
Specify FORCE if, when a refresh occurs, you want Oracle Database to perform a fast refresh if one is possible or a complete refresh otherwise.
Specify ON COMMIT if you want a refresh to occur whenever Oracle Database commits a transaction that operates on a master table of the materialized view.
You cannot specify both ON COMMIT and ON DEMAND. If you specify ON COMMIT, then you cannot also specify START WITH or NEXT.
Restriction on ON COMMIT
This clause is supported only for materialized join views and single-table materialized aggregate views.
Specify ON DEMAND if you want the materialized view to be refreshed on demand by calling one of the three DBMS_MVIEW refresh procedures. If you omit both ON COMMIT and ON DEMAND, then ON DEMAND is the default.
You cannot specify both ON COMMIT and ON DEMAND. START WITH and NEXT take precedence over ON DEMAND. Therefore, in most circumstances it is not meaningful to specify ON DEMAND when you have specified START WITH or NEXT.
See Also:
-
Oracle Database PL/SQL Packages and Types Reference for information on these procedures
-
Oracle Database Data Warehousing Guide on the types of materialized views you can create by specifying
REFRESHONDEMAND
Specify START WITH date to indicate a date for the first automatic refresh time.
Specify NEXT to indicate a date expression for calculating the interval between automatic refreshes.
Both the START WITH and NEXT values must evaluate to a time in the future. If you omit the START WITH value, then Oracle Database determines the first automatic refresh time by evaluating the NEXT expression with respect to the creation time of the materialized view. If you specify a START WITH value but omit the NEXT value, then Oracle Database refreshes the materialized view only once. If you omit both the START WITH and NEXT values, or if you omit the alter_mv_refresh entirely, then Oracle Database does not automatically refresh the materialized view.
Specify WITH PRIMARY KEY to change a rowid materialized view to a primary key materialized view. Primary key materialized views allow materialized view master tables to be reorganized without affecting the ability of the materialized view to continue to fast refresh.
For you to specify this clause, the master table must contain an enabled primary key constraint and must have defined on it a materialized view log that logs primary key information.
See Also:
-
Oracle Database Administrator’s Guide for detailed information about primary key materialized views
This clause is not valid if your database is in automatic undo mode, because in that mode Oracle Database uses undo tablespaces instead of rollback segments. Oracle strongly recommends that you use automatic undo mode. This clause is supported for backward compatibility with replication environments containing older versions of Oracle Database that still use rollback segments.
For complete information on this clause, refer to CREATE MATERIALIZED VIEW ... "USING ROLLBACK SEGMENT Clause".
USING ... CONSTRAINTS Clause
This clause has the same semantics in CREATE MATERIALIZED VIEW and ALTER MATERIALIZED VIEW statements. For complete information, refer to "USING ... CONSTRAINTS Clause" in the documentation on CREATE MATERIALIZED VIEW.
evaluation_edition_clause
Use this clause to change the evaluation edition for the materialized view. This clause has the same semantics in CREATE MATERIALIZED VIEW and ALTER MATERIALIZED VIEW statements. For complete information on this clause, refer to evaluation_edition_clause in the documentation on CREATE MATERIALIZED VIEW.
Notes on Changing the Evaluation Edition of a Materialized View
The following notes apply when changing the evaluation edition of a materialized view:
-
If you change the evaluation edition of a refresh-on-commit materialized view, then Oracle Database performs a complete refresh of the materialized view unless you specify
CONSIDERFRESH. -
If you change the evaluation edition of a refresh-on-demand materialized view, then Oracle Database sets the staleness state of the materialized view to
STALEunless you specifyCONSIDERFRESH. -
For both refresh-on-commit and refresh-on-demand materialized views: If you change the evaluation edition and specify
CONSIDERFRESH, then Oracle Database does not update the staleness state of the materialized view and does not rebuild the materialized view. Therefore, you can specifyCONSIDERFRESHto indicate that, although the evaluation edition has changed, there is no difference in the results thatsubquerywill produce. If the materialized view is stale and in need of either a fast refresh or a complete refresh before this statement is issued, then the state will not be changed and the materialized view may contain bad data.
{ ENABLE | DISABLE } ON QUERY COMPUTATION
This clause lets you control whether the materialized view is a real-time materialized view or a regular materialized view.
-
Specify
ENABLEONQUERYCOMPUTATIONto convert a regular materialized view into a real-time materialized view by enabling on-query computation. -
Specify
DISABLEONQUERYCOMPUTATIONto convert a real-time materialized view into a regular materialized view by disabling on-query computation.
This clause has the same semantics in CREATE MATERIALIZED VIEW and ALTER MATERIALIZED VIEW statements. For complete information on this clause, refer to { ENABLE | DISABLE } ON QUERY COMPUTATION in the documentation on CREATE MATERIALIZED VIEW.
alter_query_rewrite_clause
Use this clause to specify whether the materialized view is eligible to be used for query rewrite.
ENABLE Clause
Specify ENABLE to enable the materialized view for query rewrite. If you currently specify, or previously specified, the unusable_editions_clause for the materialized view, then it is not enabled for query rewrite in the unusable editions.
See Also:
-
Oracle Database Data Warehousing Guide to learn how to use refresh statistics to monitor the performance of materialized view refresh operations
Restrictions on Enabling Materialized Views
Enabling materialized views is subject to the following restrictions:
-
If the materialized view is in an invalid or unusable state, then it is not eligible for query rewrite in spite of the
ENABLEmode. -
You cannot enable query rewrite if the materialized view was created totally or in part from a view.
-
You can enable query rewrite only if all user-defined functions in the materialized view are
DETERMINISTIC.See Also:
-
You can enable query rewrite only if expressions in the statement are repeatable. For example, you cannot include
CURRENT_TIMEorUSER.
See Also:
Oracle Database Data Warehousing Guide for more information on query rewrite
DISABLE Clause
Specify DISABLE if you do not want the materialized view to be eligible for use by query rewrite. If a materialized view is in the invalid state, then it is not eligible for use by query rewrite, whether or not it is disabled. However, a disabled materialized view can be refreshed.
unusable_editions_clause
Use this clause to specify the editions in which the materialized view is not eligible for query rewrite. This clause has the same semantics in CREATE MATERIALIZED VIEW and ALTER MATERIALIZED VIEW statements. For complete information on this clause, refer to unusable_editions_clause in the documentation on CREATE MATERIALIZED VIEW.
Cursors that use the materialized view for query rewrite and were compiled in an edition that is made unusable will be invalidated.
COMPILE
Specify COMPILE to explicitly revalidate a materialized view. If an object upon which the materialized view depends is dropped or altered, then the materialized view remains accessible, but it is invalid for query rewrite. You can use this clause to explicitly revalidate the materialized view to make it eligible for query rewrite.
If the materialized view fails to revalidate, then it cannot be refreshed or used for query rewrite.
See Also:
CONSIDER FRESH
This clause lets you manage the staleness state of a materialized view after changes have been made to its master tables. CONSIDER FRESH directs Oracle Database to consider the materialized view fresh and therefore eligible for query rewrite in the TRUSTED or STALE_TOLERATED modes.
Caution:
The CONSIDER FRESH clause also directs Oracle Database to no longer apply any rows in a materialized view log or Partition Change Tracking changes to the materialized view prior to the issuance of the CONSIDER FRESH clause. In other words, the pending changes will be ignored and deleted, not applied to the materialized view. This may result in the materialized view containing more or less data than the base table.
Because Oracle Database cannot guarantee the freshness of the materialized view, query rewrite in ENFORCED mode is not supported. This clause also sets the staleness state of the materialized view to UNKNOWN. The staleness state is displayed in the STALENESS column of the ALL_MVIEWS, DBA_MVIEWS, and USER_MVIEWS data dictionary views.
A materialized view is stale if changes have been made to the contents of any of its master tables. This clause directs Oracle Database to assume that the materialized view is fresh and that no such changes have been made. Therefore, actual updates to those tables pending refresh are purged with respect to the materialized view.
See Also:
-
Oracle Database Data Warehousing Guide for more information on query rewrite and the implications of performing partition maintenance operations on master tables
Examples
Automatic Refresh: Examples
The following statement changes the default refresh method for the sales_by_month_by_state materialized view (created in "Creating Materialized Aggregate Views: Example") to FAST:
ALTER MATERIALIZED VIEW sales_by_month_by_state REFRESH FAST;
The next automatic refresh of the materialized view will be a fast refresh provided it is a simple materialized view and its master table has a materialized view log that was created before the materialized view was created or last refreshed.
Because the REFRESH clause does not specify START WITH or NEXT values, Oracle Database will use the refresh intervals established by the REFRESH clause when the sales_by_month_by_state materialized view was created or last altered.
The following statement establishes a new interval between automatic refreshes for the sales_by_month_by_state materialized view:
ALTER MATERIALIZED VIEW sales_by_month_by_state REFRESH NEXT SYSDATE+7;
Because the REFRESH clause does not specify a START WITH value, the next automatic refresh occurs at the time established by the START WITH and NEXT values specified when the sales_by_month_by_state materialized view was created or last altered.
At the time of the next automatic refresh, Oracle Database refreshes the materialized view, evaluates the NEXT expression SYSDATE+7 to determine the next automatic refresh time, and continues to refresh the materialized view automatically once a week. Because the REFRESH clause does not explicitly specify a refresh method, Oracle Database continues to use the refresh method specified by the REFRESH clause of the CREATE MATERIALIZED VIEW or most recent ALTER MATERIALIZED VIEW statement.
CONSIDER FRESH: Example
The following statement instructs Oracle Database that materialized view sales_by_month_by_state should be considered fresh. This statement allows sales_by_month_by_state to be eligible for query rewrite in TRUSTED mode even after you have performed partition maintenance operations on the master tables of sales_by_month_by_state:
ALTER MATERIALIZED VIEW sales_by_month_by_state CONSIDER FRESH;
As a result of the preceding statement, any partition maintenance operations that were done to the base table since the last refresh of the materialized view will not be applied to the materialized view. For example, the add, drop, or change of data in a partition in the base table will not be reflected in the materialized view if CONSIDER FRESH is used before the next refresh of the materialized view. Refer to CONSIDER FRESH for more information.
See Also:
"Splitting Table Partitions: Examples" for a partitioning maintenance example that would require this ALTER MATERIALIZED VIEW example
Complete Refresh: Example
The following statement specifies a new refresh method, a new NEXT refresh time, and a new interval between automatic refreshes of the emp_data materialized view (created in "Periodic Refresh of Materialized Views: Example"):
ALTER MATERIALIZED VIEW emp_data REFRESH COMPLETE START WITH TRUNC(SYSDATE+1) + 9/24 NEXT SYSDATE+7;
The START WITH value establishes the next automatic refresh for the materialized view to be 9:00 a.m. tomorrow. At that point, Oracle Database performs a complete refresh of the materialized view, evaluates the NEXT expression, and subsequently refreshes the materialized view every week.
Enabling Query Rewrite: Example
The following statement enables query rewrite on the materialized view emp_data and implicitly revalidates it:
ALTER MATERIALIZED VIEW emp_data ENABLE QUERY REWRITE;
Primary Key Materialized View: Example
The following statement changes the rowid materialized view order_data (created in "Creating Rowid Materialized Views: Example") to a primary key materialized view. This example requires that you have already defined a materialized view log with a primary key on order_data.
ALTER MATERIALIZED VIEW order_data REFRESH WITH PRIMARY KEY;
Compiling a Materialized View: Example
The following statement revalidates the materialized view store_mv:
ALTER MATERIALIZED VIEW order_data COMPILE;