An indexed cluster must contain more than one table, and all of the tables in the cluster have one or more columns in common. Oracle Database stores together all the rows from all the tables that share the same cluster key.
In a hash cluster, which can contain one or more tables, Oracle Database stores together rows that have the same hash key value.
For information on existing clusters, query the
DBA_CLUSTERS data dictionary views.
To create a cluster in your own schema, you must have
CLUSTER system privilege. To create a cluster in another user's schema, you must have
CLUSTER system privilege. Also, the owner of the schema to contain the cluster must have either space quota on the tablespace containing the cluster or the
TABLESPACE system privilege.
Oracle Database does not automatically create an index for a cluster when the cluster is initially created. Data manipulation language (DML) statements cannot be issued against cluster tables in an indexed cluster until you create a cluster index with a
Specify the schema to contain the cluster. If you omit
schema, then Oracle Database creates the cluster in your current schema.
Specify is the name of the cluster to be created. The name must satisfy the requirements listed in "Database Object Naming Rules".
After you create a cluster, you add tables to it. A cluster can contain a maximum of 32 tables. Object tables and tables containing LOB columns or columns of the
Any* Oracle-supplied types cannot be part of a cluster. After you create a cluster and add tables to it, the cluster is transparent. You can access clustered tables with SQL statements just as you can access nonclustered tables.
Specify one or more names of columns in the cluster key. You can specify up to 16 cluster key columns. These columns must correspond in both data type and size to columns in each of the clustered tables, although they need not correspond in name.
You cannot specify integrity constraints as part of the definition of a cluster key column. Instead, you can associate integrity constraints with the tables that belong to the cluster.
Specify the data type of each cluster key column.
Restrictions on Cluster Data Types
Cluster data types are subject to the following restrictions:
You cannot specify a cluster key column of data type
REF, nested table, varray,
Any*Oracle-supplied types, or user-defined object type.
You can specify a column of type
ROWID, but Oracle Database does not guarantee that the values in such columns are valid rowids.
"Data Types" for information on data types
Use this clause to specify the data-bound collation for character data type columns in the cluster key.
column_collation_name, specify the collation as follows:
When creating an indexed cluster or a sorted hash cluster, you can specify one of the following collations:
When creating a hash cluster that is not sorted, you can specify any valid named collation or pseudo-collation.
If you omit this clause, then columns in the cluster key inherit the effective schema default collation of the schema containing the cluster. Refer to the DEFAULT_COLLATION clause of
SESSION for more information on the effective schema default collation.
The collations of cluster key columns must match the collations of the corresponding columns in the tables created in the cluster.
You can specify the
COLLATE clause only if the
COMPATIBLE initialization parameter is set to
12.2 or greater, and the
MAX_STRING_SIZE initialization parameter is set to
To change the collation of a cluster key column, you must recreate the cluster.
SORT keyword is valid only if you are creating a hash cluster. This clause instructs Oracle Database to sort the rows of the cluster on this column after applying the hash function when performing a DML operation. Doing so may improve response time during subsequent queries on the clustered data.
Restriction on Sorted Hash Clusters
Row dependency is not supported for sorted hash clusters.
physical_attributes_clause lets you specify the storage characteristics of the cluster. Each table in the cluster uses these storage characteristics as well. If you do not specify values for these parameters, then Oracle Database uses the following defaults:
INITRANS: 2 or the default value of the tablespace to contain the cluster, whichever is greater
Specify the amount of space in bytes reserved to store all rows with the same cluster key value or the same hash value. This space determines the maximum number of cluster or hash values stored in a data block. If
SIZE is not a divisor of the data block size, then Oracle Database uses the next largest divisor. If
SIZE is larger than the data block size, then the database uses the operating system block size, reserving at least one data block for each cluster or hash value.
The database also considers the length of the cluster key when determining how much space to reserve for the rows having a cluster key value. Larger cluster keys require larger sizes. To see the actual size, query the
KEY_SIZE column of the
USER_CLUSTERS data dictionary view. (This value does not apply to hash clusters, because hash values are not actually stored in the cluster.)
If you omit this parameter, then the database reserves one data block for each cluster key value or hash value.
INDEX to create an indexed cluster. In an indexed cluster, Oracle Database stores together rows having the same cluster key value. Each distinct cluster key value is stored only once in each data block, regardless of the number of tables and rows in which it occurs. If you specify neither
HASHKEYS, then Oracle Database creates an indexed cluster by default.
After you create an indexed cluster, you must create an index on the cluster key before you can issue any data manipulation language (DML) statements against a table in the cluster. This index is called the cluster index.
You cannot create a cluster index for a hash cluster, and you need not create an index on a hash cluster key.
HASHKEYS clause to create a hash cluster and specify the number of hash values for the hash cluster. In a hash cluster, Oracle Database stores together rows that have the same hash key value. The hash value for a row is the value returned by the hash function of the cluster.
Oracle Database rounds up the
HASHKEYS value to the nearest prime number to obtain the actual number of hash values. The minimum value for this parameter is 2. If you omit both the
INDEX clause and the
HASHKEYS parameter, then the database creates an indexed cluster by default.
When you create a hash cluster, the database immediately allocates space for the cluster based on the values of the
TABLE indicates that the cluster is a type of hash cluster containing only one table. This clause can provide faster access to rows in the table.
Restriction on Single-table Clusters
Only one table can be present in the cluster at a time. However, you can drop the table and create a different table in the same cluster.
HASH IS expr
Specify an expression to be used as the hash function for the hash cluster. The expression:
Must evaluate to a positive value
Must contain at least one column, with referenced columns of any data type as long as the entire expression evaluates to a number of scale 0. For example:
Cannot reference user-defined PL/SQL functions
Cannot reference the pseudocolumns
Cannot reference the user-related functions
USERor the datetime functions
Cannot evaluate to a constant
Cannot be a scalar subquery expression
Cannot contain columns qualified with a schema or object name (other than the cluster name)
If you omit the
IS clause, then Oracle Database uses an internal hash function for the hash cluster.
For information on existing hash functions, query the
DBA_CLUSTER_HASH_EXPRESSIONS data dictionary tables.
The cluster key of a hash column can have one or more columns of any data type. Hash clusters with composite cluster keys or cluster keys made up of noninteger columns must use the internal hash function.
Oracle Database Reference for information on the data dictionary views
parallel_clause lets you parallelize the creation of the cluster.
For complete information on this clause, refer to parallel_clause in the documentation on
NOROWDEPENDENCIES | ROWDEPENDENCIES
This clause has the same behavior for a cluster that it has for a table. Refer to "NOROWDEPENDENCIES | ROWDEPENDENCIES" in
TABLE for information.
CACHE | NOCACHE
CACHE if you want the blocks retrieved for this cluster to be placed at the most recently used end of the least recently used (LRU) list in the buffer cache when a full table scan is performed. This clause is useful for small lookup tables.
NOCACHE if you want the blocks retrieved for this cluster to be placed at the least recently used end of the LRU list in the buffer cache when a full table scan is performed. This is the default behavior.
NOCACHE has no effect on clusters for which you specify
KEEP in the
cluster_range_partitions clause to partition the cluster on ranges of values from the column list. When you add a table to a range-partitioned hash cluster, it is automatically partitioned on the same columns, with the same number of partitions, and on the same partition bounds as the cluster. Oracle Database assigns system-generated names to the table partitions.
cluster_range_partitions clause has the same semantics as the
range_partitions clause of
TABLE, except that here you cannot specify the
INTERVAL clause. For complete information, refer to range_partitions in the documentation on
Creating a Cluster: Example
The following statement creates a cluster named
personnel with the cluster key column
department, a cluster size of 512 bytes, and storage parameter values:
CREATE CLUSTER personnel (department NUMBER(4)) SIZE 512 STORAGE (initial 100K next 50K);
Cluster Keys: Example
The following statement creates the cluster index on the cluster key of
CREATE INDEX idx_personnel ON CLUSTER personnel;
After creating the cluster index, you can add tables to the index and perform DML operations on those tables.
Adding Tables to a Cluster: Example
The following statements create some departmental tables from the sample
hr.employees table and add them to the personnel cluster created in the earlier example:
CREATE TABLE dept_10 CLUSTER personnel (department_id) AS SELECT * FROM employees WHERE department_id = 10; CREATE TABLE dept_20 CLUSTER personnel (department_id) AS SELECT * FROM employees WHERE department_id = 20;
Hash Clusters: Examples
The following statement creates a hash cluster named
language with the cluster key column
cust_language, a maximum of 10 hash key values, each of which is allocated 512 bytes, and storage parameter values:
CREATE CLUSTER language (cust_language VARCHAR2(3)) SIZE 512 HASHKEYS 10 STORAGE (INITIAL 100k next 50k);
Because the preceding statement omits the
IS clause, Oracle Database uses the internal hash function for the cluster.
The following statement creates a hash cluster named
address with the cluster key made up of the columns
country_id, and uses a SQL expression containing these columns for the hash function:
CREATE CLUSTER address (postal_code NUMBER, country_id CHAR(2)) HASHKEYS 20 HASH IS MOD(postal_code + country_id, 101);
Single-Table Hash Clusters: Example
The following statement creates a single-table hash cluster named
cust_orders with the cluster key
customer_id and a maximum of 100 hash key values, each of which is allocated 512 bytes:
CREATE CLUSTER cust_orders (customer_id NUMBER(6)) SIZE 512 SINGLE TABLE HASHKEYS 100;
Range-Partitioned Hash Clusters: Example
The following statement creates a range-partitioned hash cluster named
sales with five range partitions based on the amount sold. The cluster key is made up of the columns
prod_id. The cluster uses the hash function
(amount_sold * 10 + prod_id) and has a maximum of 100000 hash key values, each of which is allocated 300 bytes.
CREATE CLUSTER sales (amount_sold NUMBER, prod_id NUMBER) HASHKEYS 100000 HASH IS (amount_sold * 10 + prod_id) SIZE 300 TABLESPACE example PARTITION BY RANGE (amount_sold) (PARTITION p1 VALUES LESS THAN (2001), PARTITION p2 VALUES LESS THAN (4001), PARTITION p3 VALUES LESS THAN (6001), PARTITION p4 VALUES LESS THAN (8001), PARTITION p5 VALUES LESS THAN (MAXVALUE));