Defines a new operator class.
Synopsis
CREATE OPERATOR CLASS <name> [DEFAULT] FOR TYPE <data_type>
USING <index_method> [ FAMILY <family_name> ] AS
{ OPERATOR <strategy_number> <operator_name> [ ( <op_type>, <op_type> ) ] [ FOR SEARCH | FOR ORDER BY <sort_family_name> ]
| FUNCTION <support_number> <funcname> (<argument_type> [, ...] )
| STORAGE <storage_type>
} [, ... ]
Description
CREATE OPERATOR CLASS
creates a new operator class. An operator class defines how a particular data type can be used with an index. The operator class specifies that certain operators will fill particular roles or strategies for this data type and this index method. The operator class also specifies the support procedures to be used by the index method when the operator class is selected for an index column. All the operators and functions used by an operator class must be defined before the operator class is created. Any functions used to implement the operator class must be defined as IMMUTABLE
.
CREATE OPERATOR CLASS
does not presently check whether the operator class definition includes all the operators and functions required by the index method, nor whether the operators and functions form a self-consistent set. It is the user’s responsibility to define a valid operator class.
You must be a superuser to create an operator class.
Parameters
name
The (optionally schema-qualified) name of the operator class to be defined. Two operator classes in the same schema can have the same name only if they are for different index methods.
DEFAULT
Makes the operator class the default operator class for its data type. At most one operator class can be the default for a specific data type and index method.
data_type
The column data type that this operator class is for.
index_method
The name of the index method this operator class is for. Choices are btree
, bitmap
, and gist
.
family_name
The name of the existing operator family to add this operator class to. If not specified, a family named the same as the operator class is used (creating it, if it doesn’t already exist).
strategy_number
The operators associated with an operator class are identified by strategy numbers, which serve to identify the semantics of each operator within the context of its operator class. For example, B-trees impose a strict ordering on keys, lesser to greater, and so operators like less than and greater than or equal to are interesting with respect to a B-tree. These strategies can be thought of as generalized operators. Each operator class specifies which actual operator corresponds to each strategy for a particular data type and interpretation of the index semantics. The corresponding strategy numbers for each index method are as follows:
Operation | Strategy Number |
---|---|
less than | 1 |
less than or equal | 2 |
equal | 3 |
greater than or equal | 4 |
greater than | 5 |
Operation | Strategy Number |
---|---|
strictly left of | 1 |
does not extend to right of | 2 |
overlaps | 3 |
does not extend to left of | 4 |
strictly right of | 5 |
same | 6 |
contains | 7 |
contained by | 8 |
does not extend above | 9 |
strictly below | 10 |
strictly above | 11 |
does not extend below | 12 |
sort_family_name
The name (optionally schema-qualified) of an existing btree
operator family that describes the sort ordering associated with an ordering operator.
If neither FOR SEARCH
nor FOR ORDER BY
is specified, FOR SEARCH
is the default.
operator_name
The name (optionally schema-qualified) of an operator associated with the operator class.
op_type
In an OPERATOR
clause, the operand data type(s) of the operator, or NONE
to signify a left-unary or right-unary operator. The operand data types can be omitted in the normal case where they are the same as the operator class’s data type.
In a FUNCTION
clause, the operand data type(s) the function is intended to support, if different from the input data type(s) of the function (for B-tree comparison functions and hash functions) or the class’s data type (for B-tree sort support functions and all functions in GiST, SP-GiST, and GIN operator classes). These defaults are correct, and so op_type need not be specified in FUNCTION
clauses, except for the case of a B-tree sort support function that is meant to support cross-data-type comparisons.
support_number
Index methods require additional support routines in order to work. These operations are administrative routines used internally by the index methods. As with strategies, the operator class identifies which specific functions should play each of these roles for a given data type and semantic interpretation. The index method defines the set of functions it needs, and the operator class identifies the correct functions to use by assigning them to the support function numbers as follows:
Function | Support Number |
---|---|
Compare two keys and return an integer less than zero, zero, or greater than zero, indicating whether the first key is less than, equal to, or greater than the second. | 1 |
Function | Support Number |
---|---|
consistent - determine whether key satisfies the query qualifier. | 1 |
union - compute union of a set of keys. | 2 |
compress - compute a compressed representation of a key or value to be indexed. | 3 |
decompress - compute a decompressed representation of a compressed key. | 4 |
penalty - compute penalty for inserting new key into subtree with given subtree’s key. | 5 |
picksplit - determine which entries of a page are to be moved to the new page and compute the union keys for resulting pages. | 6 |
equal - compare two keys and return true if they are equal. | 7 |
funcname
The name (optionally schema-qualified) of a function that is an index method support procedure for the operator class.
argument_types
The parameter data type(s) of the function.
storage_type
The data type actually stored in the index. Normally this is the same as the column data type, but some index methods (currently GiST and GIN) allow it to be different. The STORAGE
clause must be omitted unless the index method allows a different type to be used.
Notes
Because the index machinery does not check access permissions on functions before using them, including a function or operator in an operator class is the same as granting public execute permission on it. This is usually not an issue for the sorts of functions that are useful in an operator class.
The operators should not be defined by SQL functions. A SQL function is likely to be inlined into the calling query, which will prevent the optimizer from recognizing that the query matches an index.
Any functions used to implement the operator class must be defined as IMMUTABLE
.
Before Greenplum Database 6.0, the OPERATOR
clause could include a RECHECK
option. This option is no longer supported. Greenplum Database now determines whether an index operator is “lossy” on-the-fly at run time. This allows more efficient handling of cases where an operator might or might not be lossy.
Examples
The following example command defines a GiST index operator class for the data type _int4
(array of int4). See the intarray
contrib module for the complete example.
CREATE OPERATOR CLASS gist__int_ops
DEFAULT FOR TYPE _int4 USING gist AS
OPERATOR 3 &&,
OPERATOR 6 = (anyarray, anyarray),
OPERATOR 7 @>,
OPERATOR 8 <@,
OPERATOR 20 @@ (_int4, query_int),
FUNCTION 1 g_int_consistent (internal, _int4, int, oid, internal),
FUNCTION 2 g_int_union (internal, internal),
FUNCTION 3 g_int_compress (internal),
FUNCTION 4 g_int_decompress (internal),
FUNCTION 5 g_int_penalty (internal, internal, internal),
FUNCTION 6 g_int_picksplit (internal, internal),
FUNCTION 7 g_int_same (_int4, _int4, internal);
Compatibility
CREATE OPERATOR CLASS
is a Greenplum Database extension. There is no CREATE OPERATOR CLASS
statement in the SQL standard.
See Also
ALTER OPERATOR CLASS, DROP OPERATOR CLASS, CREATE FUNCTION
Parent topic: SQL Commands