Greenplum Database supports special-purpose data type entries that are collectively called pseudo-types. A pseudo-type cannot be used as a column data type, but it can be used to declare a function's argument or result type. Each of the available pseudo-types is useful in situations where a function's behavior does not correspond to simply taking or returning a value of a specific SQL data type.

Functions coded in procedural languages can use pseudo-types only as allowed by their implementation languages. The procedural languages all forbid use of a pseudo-type as an argument type, and allow only void and record as a result type.

A function with the pseudo-type record as a return data type returns an unspecified row type. The record represents an array of possibly-anonymous composite types. Since composite datums carry their own type identification, no extra knowledge is needed at the array level.

The pseudo-type void indicates that a function returns no value.

Note

Greenplum Database does not support triggers and the pseudo-type trigger.

The types anyelement, anyarray, anynonarray, and anyenum are pseudo-types called polymorphic types. Some procedural languages also support polymorphic functions using the types anyarray, anyelement, anyenum, and anynonarray.

The pseudo-type anytable is a Greenplum Database type that specifies a table expression—an expression that computes a table. Greenplum Database allows this type only as an argument to a user-defined function. See Table Value Expressions for more about the anytable pseudo-type.

For more information about pseudo-types, see the PostgreSQL documentation about Pseudo-Types.

Parent topic: Data Types

Polymorphic Types

Four pseudo-types of special interest are anyelement, anyarray, anynonarray, and anyenum, which are collectively called polymorphic types. Any function declared using these types is said to be a polymorphic function. A polymorphic function can operate on many different data types, with the specific data types being determined by the data types actually passed to it at runtime.

Polymorphic arguments and results are tied to each other and are resolved to a specific data type when a query calling a polymorphic function is parsed. Each position (either argument or return value) declared as anyelement is allowed to have any specific actual data type, but in any given call they must all be the same actual type. Each position declared as anyarray can have any array data type, but similarly they must all be the same type. If there are positions declared anyarray and others declared anyelement, the actual array type in the anyarray positions must be an array whose elements are the same type appearing in the anyelement positions. anynonarray is treated exactly the same as anyelement, but adds the additional constraint that the actual type must not be an array type. anyenum is treated exactly the same as anyelement, but adds the additional constraint that the actual type must be an enum type.

When more than one argument position is declared with a polymorphic type, the net effect is that only certain combinations of actual argument types are allowed. For example, a function declared as equal(*anyelement*, *anyelement*) takes any two input values, so long as they are of the same data type.

When the return value of a function is declared as a polymorphic type, there must be at least one argument position that is also polymorphic, and the actual data type supplied as the argument determines the actual result type for that call. For example, if there were not already an array subscripting mechanism, one could define a function that implements subscripting as subscript(*anyarray*, integer) returns *anyelement*. This declaration constrains the actual first argument to be an array type, and allows the parser to infer the correct result type from the actual first argument's type. Another example is that a function declared as myfunc(*anyarray*) returns *anyenum* will only accept arrays of enum types.

Note that anynonarray and anyenum do not represent separate type variables; they are the same type as anyelement, just with an additional constraint. For example, declaring a function as myfunc(*anyelement*, *anyenum*) is equivalent to declaring it as myfunc(*anyenum*, *anyenum*): both actual arguments must be the same enum type.

A variadic function (one taking a variable number of arguments) is polymorphic when its last parameter is declared as VARIADIC *anyarray*. For purposes of argument matching and determining the actual result type, such a function behaves the same as if you had declared the appropriate number of anynonarray parameters.

For more information about polymorphic types, see the PostgreSQL documentation about Polymorphic Arguments and Return Types.

Table Value Expressions

The anytable pseudo-type declares a function argument that is a table value expression. The notation for a table value expression is a SELECT statement enclosed in a TABLE() function. You can specify a distribution policy for the table by adding SCATTER RANDOMLY, or a SCATTER BY clause with a column list to specify the distribution key.

The SELECT statement is run when the function is called and the result rows are distributed to segments so that each segment runs the function with a subset of the result table.

For example, this table expression selects three columns from a table named customer and sets the distribution key to the first column:

TABLE(SELECT cust_key, name, address FROM customer SCATTER BY 1)

The SELECT statement may include joins on multiple base tables, WHERE clauses, aggregates, and any other valid query syntax.

The anytable type is only permitted in functions implemented in the C or C++ languages. The body of the function can access the table using the Greenplum Database Server Programming Interface (SPI) or the Greenplum Partner Connector (GPPC) API.

The anytable type is used in some user-defined functions in the VMware Greenplum Text API. The following GPText example uses the TABLE function with the SCATTER BY clause in the GPText function gptext.index() to populate the index mydb.mytest.articles with data from the messages table:

SELECT * FROM gptext.index(TABLE(SELECT * FROM mytest.messages 
          SCATTER BY distrib_id), 'mydb.mytest.messages');
        

For information about the function gptext.index(), see the VMware Greenplum Text documentation.

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