Oracle® Spatial User's Guide and Reference 10g Release 2 (10.2) Part Number B14255-03 |
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This chapter describes the SQL statements used when working with the spatial object data type. The statements are listed in Table 10-1.
Table 10-1 Spatial Index Creation and Usage Statements
Statement | Description |
---|---|
Alters specific parameters for a spatial index. |
|
Rebuilds a spatial index or a specified partition of a partitioned index. |
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Changes the name of a spatial index or a partition of a spatial index. |
|
Creates a spatial index on a column of type SDO_GEOMETRY. |
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Deletes a spatial index. |
This chapter focuses on using these SQL statements with spatial indexes. For complete reference information about any statement, see Oracle Database SQL Reference.
Bold italic text is often used in the Keywords and Parameters sections in this chapter to identify a grouping of keywords, followed by specific keywords in the group. For example, INDEX_PARAMS identifies the start of a group of index-related keywords.
Alters specific parameters for a spatial index.
ALTER INDEX [schema.]index PARAMETERS ('index_params [physical_storage_params]' )
[{ NOPARALLEL | PARALLEL [ integer ] }] ;
Value | Description |
---|---|
INDEX_PARAMS | Changes the characteristics of the spatial index. |
sdo_indx_dims | Specifies the number of dimensions to be indexed. For example, a value of 2 causes the first two dimensions to be indexed. Must be less than or equal to the number of actual dimensions (number of SDO_DIM_ELEMENT instances in the dimensional array that describes the geometry objects in the column). If the value is 3 or higher, the only Spatial operator that can be used on the indexed geometries is SDO_FILTER; the other operators described in Chapter 11 cannot be used. Data type is NUMBER. Default = 2. |
sdo_rtr_pctfree | Specifies the minimum percentage of slots in each index tree node to be left empty when the index is created. Slots that are left empty can be filled later when new data is inserted into the table. The value can range from 0 to 50. The default value is best for most applications; however, a value of 0 is recommended if no updates will be performed to the geometry column. Data type is NUMBER. Default = 10. |
PHYSICAL_STORAGE_PARAMS | Determines the storage parameters used for altering the spatial index data table. A spatial index data table is a standard Oracle table with a prescribed format. Not all physical storage parameters that are allowed in the STORAGE clause of a CREATE TABLE statement are supported. The following is a list of the supported subset. |
tablespace | Specifies the tablespace in which the index data table is created. This parameter is the same as TABLESPACE in the STORAGE clause of a CREATE TABLE statement. |
initial | Is the same as INITIAL in the STORAGE clause of a CREATE TABLE statement. |
next | Is the same as NEXT in the STORAGE clause of a CREATE TABLE statement. |
minextents | Is the same as MINEXTENTS in the STORAGE clause of a CREATE TABLE statement. |
maxextents | Is the same as MAXEXTENTS in the STORAGE clause of a CREATE TABLE statement. |
pctincrease | Is the same as PCTINCREASE in the STORAGE clause of a CREATE TABLE statement. |
{ NOPARALLEL | PARALLEL [ integer ] } | Controls whether serial (NOPARALLEL) execution or parallel (PARALLEL) execution is used for subsequent queries and DML operations that use the index. For parallel execution you can specify an integer value of degree of parallelism. See the Usage Notes for the CREATE INDEX statement for guidelines and restrictions that apply to the use of the PARALLEL keyword. Default = NOPARALLEL. (If PARALLEL is specified without an integer value, the Oracle database calculates the optimum degree of parallelism.) |
You must have EXECUTE privileges on the index type and its implementation type.
The spatial index to be altered is not marked in-progress.
Use this statement to change the parameters of an existing index.
See the Usage Notes for the CREATE INDEX statement for usage information about many of the other available parameters.
The following example modifies the tablespace for partition IP2 of the spatial index named BGI.
ALTER INDEX bgi MODIFY PARTITION ip2 PARAMETERS ('tablespace=TBS_3');
ALTER TABLE (clauses for partition maintenance) in Oracle Database SQL Reference
ALTER INDEX [schema.]index REBUILD
[PARAMETERS ('rebuild_params [physical_storage_params]' ) ]
[{ NOPARALLEL | PARALLEL [ integer ] }] ;
or
ALTER INDEX [schema.]index REBUILD ONLINE
[PARAMETERS ('rebuild_params [physical_storage_params]' ) ]
[{ NOPARALLEL | PARALLEL [ integer ] }] ;
or
ALTER INDEX [schema.]index REBUILD PARTITION partition
[PARAMETERS ('rebuild_params [physical_storage_params]' ) ];
Rebuilds a spatial index or a specified partition of a partitioned index.
Value | Description |
---|---|
REBUILD_PARAMS | Specifies in a command string the index parameters to use in rebuilding the spatial index. |
index_status=cleanup | For an online rebuild operation (ALTER INDEX REBUILD ONLINE), performs cleanup operations on tables associated with the older version of the index. |
layer_gtype | Checks to ensure that all geometries are of a specified geometry type. The value must be from the Geometry Type column of Table 2-1 in Section 2.2.1 (except that UNKNOWN_GEOMETRY is not allowed). In addition, specifying POINT allows for optimized processing of point data. Data type is VARCHAR2. |
sdo_dml_batch_size | Specifies the number of index updates to be processed in each batch of updates after a commit operation. The default value is 1000. For example, if you insert 3500 rows into the spatial table and then perform a commit operation, the updates to the spatial index table are performed in four batches of insert operations (1000, 1000, 1000, and 500). See the Usage Notes for the CREATE INDEX statement for more information. Data type is NUMBER. Default = 1000. |
sdo_indx_dims | Specifies the number of dimensions to be indexed. For example, a value of 2 causes the first two dimensions to be indexed. Must be less than or equal to the number of actual dimensions (number of SDO_DIM_ELEMENT instances in the dimensional array that describes the geometry objects in the column). If the value is 3 or higher, the only Spatial operator that can be used on the indexed geometries is SDO_FILTER; the other operators described in Chapter 11 cannot be used. Data type is NUMBER. Default = 2. |
sdo_rtr_pctfree | Specifies the minimum percentage of slots in each index tree node to be left empty when the index is created. Slots that are left empty can be filled later when new data is inserted into the table. The value can range from 0 to 50. Data type is NUMBER. Default = 10. |
PHYSICAL_STORAGE_PARAMS | Determines the storage parameters used for rebuilding the spatial index data table. A spatial index data table is a regular Oracle table with a prescribed format. Not all physical storage parameters that are allowed in the STORAGE clause of a CREATE TABLE statement are supported. The following is a list of the supported subset. |
tablespace | Specifies the tablespace in which the index data table is created. Same as TABLESPACE in the STORAGE clause of a CREATE TABLE statement. |
initial | Is the same as INITIAL in the STORAGE clause of a CREATE TABLE statement. |
next | Is the same as NEXT in the STORAGE clause of a CREATE TABLE statement. |
minextents | Is the same as MINEXTENTS in the STORAGE clause of a CREATE TABLE statement. |
maxextents | Is the same as MAXEXTENTS in the STORAGE clause of a CREATE TABLE statement. |
pctincrease | Is the same as PCTINCREASE in the STORAGE clause of a CREATE TABLE statement. |
{ NOPARALLEL | PARALLEL [ integer ] } | Controls whether serial (NOPARALLEL) execution or parallel (PARALLEL) execution is used for the rebuilding of the index and for subsequent queries and DML operations that use the index. For parallel execution you can specify an integer value of degree of parallelism. See the Usage Notes for the CREATE INDEX statement for guidelines and restrictions that apply to the use of the PARALLEL keyword. Default = NOPARALLEL. (If PARALLEL is specified without an integer value, the Oracle database calculates the optimum degree of parallelism.) |
You must have EXECUTE privileges on the index type and its implementation type.
The spatial index to be altered is not marked in-progress.
An ALTER INDEX REBUILD 'rebuild_params' statement rebuilds the index using supplied parameters. Spatial index creation involves creating and inserting index data, for each row in the underlying table column being spatially indexed, into a table with a prescribed format. All rows in the underlying table are processed before the insertion of index data is committed, and this requires adequate rollback segment space.
The ONLINE keyword rebuilds the index without blocking the index; that is, queries can use the spatial index while it is being rebuilt. However, after all queries issued during the rebuild operation have completed, you must clean up the old index information (in the MDRT tables) by entering a SQL statement in the following form:
ALTER INDEX [schema.]index REBUILD ONLINE PARAMETERS ('index_status=cleanup');
The following limitations apply to the use of the ONLINE keyword:
Only query operations are permitted while the index is being rebuilt. Insert, update, and delete operations that would affect the index are blocked while the index is being rebuilt.
You cannot use the ONLINE keyword for a rebuild operation if the index was created using the 'sdo_non_leaf_tbl=TRUE'
parameter.
You cannot use the ONLINE keyword for a partitioned spatial index.
The ALTER INDEX REBUILD statement does not use any previous parameters from the index creation. All parameters should be specified for the index you want to rebuild.
For more information about using the layer_gtype
keyword to constrain data in a layer to a geometry type, see Section 4.1.2.
With a partitioned spatial index, you must use a separate ALTER INDEX REBUILD statement for each partition to be rebuilt.
See also the Usage Notes for the CREATE INDEX statement for usage information about many of the available parameters and about the use of the PARALLEL keyword.
The following example rebuilds OLDINDEX and specifies the tablespace in which to create the index data table.
ALTER INDEX oldindex REBUILD PARAMETERS('tablespace=TBS_3');
ALTER TABLE and ALTER INDEX (clauses for partition maintenance) in Oracle Database SQL Reference
ALTER INDEX [schema.]index RENAME TO <new_index_name>;
ALTER INDEX [schema.]index PARTITION partition RENAME TO <new_partition_name>;
Changes the name of a spatial index or a partition of a spatial index.
Value | Description |
---|---|
new_index_name | Specifies the new name of the index. |
new_partition_name | Specifies the new name of the partition. |
You must have EXECUTE privileges on the index type and its implementation type.
The spatial index to be altered is not marked in-progress.
None.
The following example renames OLDINDEX to NEWINDEX.
ALTER INDEX oldindex RENAME TO newindex;
CREATE INDEX [schema.]index ON [schema.]table (column)
INDEXTYPE IS MDSYS.SPATIAL_INDEX
[PARAMETERS ('index_params [physical_storage_params]' )]
[{ NOPARALLEL | PARALLEL [ integer ] }];
Creates a spatial index on a column of type SDO_GEOMETRY.
Value | Description |
---|---|
INDEX_PARAMS | Determines the characteristics of the spatial index. |
geodetic | 'geodetic=FALSE' allows a non-geodetic index to be built on geodetic data, but with restrictions. (FALSE is the only acceptable value for this keyword.) See the Usage Notes for more information. Data type is VARCHAR2. |
layer_gtype | Checks to ensure that all geometries are of a specified geometry type. The value must be from the Geometry Type column of Table 2-1 in Section 2.2.1 (except that UNKNOWN_GEOMETRY is not allowed). In addition, specifying POINT allows for optimized processing of point data. Data type is VARCHAR2. |
sdo_dml_batch_size | Specifies the number of index updates to be processed in each batch of updates after a commit operation. The default value is 1000. For example, if you insert 3500 rows into the spatial table and then perform a commit operation, the updates to the spatial index table are performed in four batches of insert operations (1000, 1000, 1000, and 500). See the Usage Notes for more information. Data type is NUMBER. Default = 1000. |
sdo_indx_dims | Specifies the number of dimensions to be indexed. For example, a value of 2 causes the first two dimensions to be indexed. Must be less than or equal to the number of actual dimensions (number of SDO_DIM_ELEMENT instances in the dimensional array that describes the geometry objects in the column). If the value is 3 or higher, the only Spatial operator that can be used on the indexed geometries is SDO_FILTER; the other operators described in Chapter 11 cannot be used. Data type is NUMBER. Default = 2. |
sdo_non_leaf_tbl | 'sdo_non_leaf_tbl=TRUE' creates a separate index table (with a name in the form MDNT_...$) for nonleaf nodes of the index, in addition to creating an index table (with a name in the form MDRT_...$) for leaf nodes. 'sdo_non_leaf_tbl=FALSE' creates a single table (with a name in the form MDRT_...$) for both leaf nodes and nonleaf nodes of the index. See the Usage Notes for more information. Data type is VARCHAR2. Default = FALSE |
sdo_rtr_pctfree | Specifies the minimum percentage of slots in each index tree node to be left empty when the index is created. Slots that are left empty can be filled later when new data is inserted into the table. The value can range from 0 to 50. Data type is NUMBER. Default = 10. |
PHYSICAL_STORAGE_PARAMS | Determines the storage parameters used for creating the spatial index data table. A spatial index data table is a regular Oracle table with a prescribed format. Not all physical storage parameters that are allowed in the STORAGE clause of a CREATE TABLE statement are supported. The following is a list of the supported subset. |
tablespace | Specifies the tablespace in which the index data table is created. Same as TABLESPACE in the STORAGE clause of a CREATE TABLE statement. |
initial | Is the same as INITIAL in the STORAGE clause of a CREATE TABLE statement. |
next | Is the same as NEXT in the STORAGE clause of a CREATE TABLE statement. |
minextents | Is the same as MINEXTENTS in the STORAGE clause of a CREATE TABLE statement. |
maxextents | Is the same as MAXEXTENTS in the STORAGE clause of a CREATE TABLE statement. |
pctincrease | Is the same as PCTINCREASE in the STORAGE clause of a CREATE TABLE statement. |
work_tablespace | Specifies the tablespace for temporary tables used in creating the index. (Applies only to creating spatial R-tree indexes, and not to other types of indexes.) |
{ NOPARALLEL | PARALLEL [ integer ] } | Controls whether serial (NOPARALLEL) execution or parallel (PARALLEL) execution is used for the creation of the index and for subsequent queries and DML operations that use the index. For parallel execution you can specify an integer value of degree of parallelism. See the Usage Notes for more information about parallel index creation. Default = NOPARALLEL. (If PARALLEL is specified without an integer value, the Oracle database calculates the optimum degree of parallelism.) |
All current SQL CREATE INDEX prerequisites apply.
You must have EXECUTE privilege on the index type and its implementation type.
The USER_SDO_GEOM_METADATA view must contain an entry with the dimensions and coordinate boundary information for the table column to be spatially indexed.
For information about spatial indexes, see Section 1.7.
Before you create a spatial index, be sure that the rollback segment size and the SORT_AREA_SIZE parameter value are adequate, as described in Section 4.1.
If an R-tree index is used on linear referencing system (LRS) data and if the LRS data has four dimensions (three plus the M dimension), the sdo_indx_dims
parameter must be used and must specify 3 (the number of dimensions minus one), to avoid the default sdo_indx_dims
value of 2, which would index only the X and Y dimensions. For example, if the dimensions are X, Y, Z, and M, specify sdo_indx_dims=3
to index the X, Y, and Z dimensions, but not the measure (M) dimension. (The LRS data model, including the measure dimension, is explained in Section 7.2.)
A partitioned spatial index can be created on a partitioned table. See Section 4.1.4 for more information about partitioned spatial indexes, including benefits and restrictions.
A spatial index cannot be created on an index-organized table.
You can specify the PARALLEL keyword to cause the index creation to be parallelized. For example:
CREATE INDEX cola_spatial_idx ON cola_markets(shape) INDEXTYPE IS MDSYS.SPATIAL_INDEX PARALLEL;
For information about using the PARALLEL keyword, see the description of the parallel_clause
in the section on the CREATE INDEX statement in Oracle Database SQL Reference. In addition, the following notes apply to the use of the PARALLEL keyword for creating or rebuilding (using the ALTER INDEX REBUILD statement) spatial indexes:
The performance cost and benefits from parallel execution for creating or rebuilding an index depend on system resources and load. If the CPUs or disk controllers are already heavily loaded, you should not specify the PARALLEL keyword.
Specifying PARALLEL for creating or rebuilding an index on tables with simple geometries, such as point data, usually results in less performance improvement than on tables with complex geometries.
Other options available for regular indexes (such as ASC and DESC) are not applicable for spatial indexes.
Spatial index creation involves creating and inserting index data, for each row in the underlying table column being spatially indexed, into a table with a prescribed format. All rows in the underlying table are processed before the insertion of index data is committed, and this requires adequate rollback segment space.
If a tablespace name is provided in the parameters clause, the user (underlying table owner) must have appropriate privileges for that tablespace.
For more information about using the layer_gtype
keyword to constrain data in a layer to a geometry type, see Section 4.1.2.
The 'geodetic=FALSE'
parameter is not recommended, because much of the Oracle Spatial geodetic support will be disabled. This parameter should only be used if you cannot yet reindex the data. (For more information about geodetic and non-geodetic indexes, see Section 4.1.1.)
Moreover, if you specify 'geodetic=FALSE'
, ensure that the tolerance value stored in the USER_SDO_GEOM_METADATA view is what would be used for Cartesian data. That is, do not use meters for the units of the tolerance value, but instead use the number of decimal places in the data followed by a 5 (for example, 0.00005). This tolerance value will be used for spatial operators. When you use spatial functions that require a tolerance value with this data, use the function format that lets you specify a tolerance value, and specify the tolerance value in meters.
The sdo_dml_batch_size
parameter can improve application performance, because Spatial can preallocate system resources to perform multiple index updates more efficiently than successive single index updates; however, to gain the performance benefit, you must not perform commit operations after each insert operation or at intervals less than or equal to the sdo_dml_batch_size
value. You should not specify a value greater than 10000 (ten thousand), because the cost of the additional memory and other resources required will probably outweigh any marginal performance increase resulting from such a value.
Specifying 'sdo_non_leaf_tbl=TRUE'
can help query performance with large data sets if the entire R-tree table may not fit in the KEEP buffer pool. In this case, you must also cause Oracle to buffer the MDNT_...$ table in the KEEP buffer pool, for example, by using ALTER TABLE and specifying STORAGE (BUFFER_POOL KEEP). For partitioned indexes, the same sdo_non_leaf_tbl
value must be used for all partitions. Any physical storage parameters, except for tablespace
, are applied only to the MDRT_...$ table. The MDNT_...$ table uses only the tablespace
parameter, if specified, and default values for all other physical storage parameters.
If you are creating a function-based spatial index, the number of parameters must not exceed 32. For information about using function-based spatial indexes, see Section 9.2.
To determine if a CREATE INDEX statement for a spatial index has failed, check to see if the DOMIDX_OPSTATUS column in the USER_INDEXES view is set to FAILED. This is different from the case of regular indexes, where you check to see if the STATUS column in the USER_INDEXES view is set to FAILED.
If the CREATE INDEX statement fails because of an invalid geometry, the ROWID of the failed geometry is returned in an error message along with the reason for the failure.
If the CREATE INDEX statement fails for any reason, then the DROP INDEX statement must be used to clean up the partially built index and associated metadata. If DROP INDEX does not work, add the FORCE parameter and try again.
The following example creates a spatial R-tree index named COLA_SPATIAL_IDX.
CREATE INDEX cola_spatial_idx ON cola_markets(shape) INDEXTYPE IS MDSYS.SPATIAL_INDEX;
DROP INDEX [schema.]index [FORCE];
Deletes a spatial index.
Value | Description |
---|---|
FORCE | Causes the spatial index to be deleted from the system tables even if the index is marked in-progress or some other error condition occurs. |
You must have EXECUTE privileges on the index type and its implementation type.
Use DROP INDEX indexname FORCE to clean up after a failure in the CREATE INDEX statement.
The following example deletes a spatial index named OLDINDEX and forces the deletion to be performed even if the index is marked in-process or an error occurs.
DROP INDEX oldindex FORCE;