Enhanced SQL and other miscellaneous features v14

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EDB Postgres Advanced Server includes enhanced SQL functionality and other features that add flexibility and convenience.

COMMENT

In addition to allowing comments on objects supported by the PostgreSQL COMMENT command, EDB Postgres Advanced Server supports comments on other object types. The complete supported syntax is:

COMMENT ON
{
  AGGREGATE <aggregate_name> ( <aggregate_signature> ) |
  CAST (<source_type> AS <target_type>) |
  COLLATION <object_name> |
  COLUMN <relation_name>.<column_name> |
  CONSTRAINT <constraint_name> ON <table_name> |
  CONSTRAINT <constraint_name> ON DOMAIN <domain_name> |
  CONVERSION <object_name> |
  DATABASE <object_name> |
  DOMAIN <object_name> |
  EXTENSION <object_name> |
  EVENT TRIGGER <object_name> |
  FOREIGN DATA WRAPPER <object_name> |
  FOREIGN TABLE <object_name> |
  FUNCTION <func_name> ([[<argmode>] [<argname>] <argtype> [,...]])|
  INDEX <object_name> |
  LARGE OBJECT <large_object_oid> |
  MATERIALIZED VIEW <object_name> |
  OPERATOR <operator_name> (left_type, right_type) |
  OPERATOR CLASS <object_name> USING <index_method> |
  OPERATOR FAMILY <object_name> USING <index_method> |
  PACKAGE <object_name>
  POLICY <policy_name> ON <table_name> |
  [ PROCEDURAL ] LANGUAGE <object_name> |
  PROCEDURE <proc_name> [([[<argmode>] [<argname>] <argtype> [, ...]])]
  PUBLIC SYNONYM <object_name>
  ROLE <object_name> |
  RULE <rule_name> ON <table_name> |
  SCHEMA <object_name> |
  SEQUENCE <object_name> |
  SERVER <object_name> |
  TABLE <object_name> |
  TABLESPACE <object_name> |
  TEXT SEARCH CONFIGURATION <object_name> |
  TEXT SEARCH DICTIONARY <object_name> |
  TEXT SEARCH PARSER <object_name> |
  TEXT SEARCH TEMPLATE <object_name> |
  TRANSFORM FOR <type_name> LANGUAGE <lang_name> |
  TRIGGER <trigger_name> ON <table_name> |
  TYPE <object_name> |
  VIEW <object_name>
} IS <'text'>

Where aggregate_signature is:

* |
[ <argmode> ] [ <argname> ] <argtype> [ , ... ] |
[ [ <argmode> ] [ <argname> ] <argtype> [ , ... ] ]
ORDER BY [ <argmode> ] [ <argname> ] <argtype> [ , ... ]

Parameters

object_name

The name of the object on which you're commenting.

AGGREGATE aggregate_name (aggregate_signature)

Include the AGGREGATE clause to create a comment about an aggregate. aggregate_name specifies the name of an aggregate. aggregate_signature specifies the associated signature in one of the following forms:

* |
[ <argmode> ] [ <argname> ] <argtype> [ , ... ] |
[ [ <argmode> ] [ <argname> ] <argtype> [ , ... ] ]
ORDER BY [ <argmode> ] [ <argname> ] <argtype> [ , ... ]

Where argmode is the mode of a function, procedure, or aggregate argument. argmode can be IN, OUT, INOUT, or VARIADIC. The default is IN.

argname is the name of an aggregate argument.

argtype is the data type of an aggregate argument.

CAST (source_type AS target_type)

Include the CAST clause to create a comment about a cast. When creating a comment about a cast, source_type specifies the source data type of the cast, and target_type specifies the target data type of the cast.

COLUMN relation_name.column_name

Include the COLUMN clause to create a comment about a column. column_name specifies the name of the column to which the comment applies. relation_name is the table, view, composite type, or foreign table in which a column resides.

CONSTRAINT constraint_name ON table_name

CONSTRAINT constraint_name ON DOMAIN domain_name

Include the CONSTRAINT clause to add a comment about a constraint. When you're creating a comment about a constraint, constraint_name specifies the name of the constraint. table_name or domain_name specifies the name of the table or domain on which the constraint is defined.

FUNCTION func_name ([[argmode] [argname] argtype [, ...]])

Include the FUNCTION clause to add a comment about a function. func_name specifies the name of the function. argmode specifies the mode of the function. argmode can be IN, OUT, INOUT, or VARIADIC. The default is IN.

argname specifies the name of a function, procedure, or aggregate argument. argtype specifies the data type of a function, procedure, or aggregate argument.

large_object_oid

large_object_oid is the system-assigned OID of the large object about which you're commenting.

OPERATOR operator_name (left_type, right_type)

Include the OPERATOR clause to add a comment about an operator. operator_name specifies the optionally schema-qualified name of an operator on which you're commenting. left_type and right_type are the optionally schema-qualified data types of the operator's arguments.

OPERATOR CLASS object_name USING index_method

Include the OPERATOR CLASS clause to add a comment about an operator class. object_name specifies the optionally schema-qualified name of an operator on which you're commenting. index_method specifies the associated index method of the operator class.

OPERATOR FAMILY object_name USING index_method

Include the OPERATOR FAMILY clause to add a comment about an operator family. object_name specifies the optionally schema-qualified name of an operator family on which you're commenting. index_method specifies the associated index method of the operator family.

POLICY policy_name ON table_name

Include the POLICY clause to add a comment about a policy. policy_name specifies the name of the policy. table_name specifies the table that the policy is associated with.

PROCEDURE proc_name [([[argmode] [argname] argtype [, ...]])]

Include the PROCEDURE clause to add a comment about a procedure. proc_name specifies the name of the procedure. argmode specifies the mode of the procedure. argmode can be IN, OUT, INOUT, or VARIADIC. The default is IN.

argname specifies the name of a function, procedure, or aggregate argument. argtype specifies the data type of a function, procedure, or aggregate argument.

RULE rule_name ON table_name

Include the RULE clause to specify a comment on a rule. rule_name specifies the name of the rule. table_name specifies the name of the table on which the rule is defined.

TRANSFORM FOR type_name LANGUAGE lang_name

Include the TRANSFORM FOR clause to specify a comment on a TRANSFORM.

type_name specifies the name of the data type of the transform. lang_name specifies the name of the language of the transform.

TRIGGER trigger_name ON table_name

Include the TRIGGER clause to specify a comment on a trigger. trigger_name specifies the name of the trigger. table_name specifies the name of the table on which the trigger is defined.

text

The comment, written as a string literal, or NULL to drop the comment.

Note

Names of tables, aggregates, collations, conversions, domains, foreign tables, functions, indexes, operators, operator classes, operator families, packages, procedures, sequences, text search objects, types, and views can be schema qualified.

Example

This example adds a comment to a table named new_emp:

COMMENT ON TABLE new_emp IS 'This table contains information about new
employees.';

For more information about using the COMMENT command, see the PostgreSQL core documentation.

Output of function version()

The text string output of the version() function displays the name of the product, its version, and the host system on which it was installed.

For EDB Postgres Advanced Server, the version() output is in a format similar to the PostgreSQL community version. The first text word is PostgreSQL instead of EnterpriseDB as in EDB Postgres Advanced Server version 10 and earlier.

The general format of the version() output is:

PostgreSQL $PG_VERSION_EXT (EnterpriseDB EDB Postgres Advanced Server $PG_VERSION) on $host

So for the current EDB Postgres Advanced Server, the version string appears as follows:

edb@45032=#select version();
version
-----------------------------------------------------------------------------------------------
------------------------------------------------
PostgreSQL 14.0 (EnterpriseDB EDB Postgres Advanced Server 14.0.0) on x86_64-pc-linux-gnu, compiled by gcc 
(GCC) 4.8.5 20150623 (Red Hat 4.8.5-11), 64-bit
(1 row)

In contrast, for EDB Postgres Advanced Server 10, the version string was the following:

edb=# select version();
                                                version
------------------------------------------------------------------------------------------
-------------------
EnterpriseDB 10.4.9 on x86_64-pc-linux-gnu, compiled by gcc (GCC) 4.4.7 20120313 (Red Hat 
4.4.7-18), 64-bit
(1 row)

Logical decoding on standby

Logical decoding on a standby server allows you to create a logical replication slot on a standby server that can respond to API operations such as get, peek, and advance.

For more information about logical decoding, refer to the PostgreSQL core documentation.

For a logical slot on a standby server to work, you must set the hot_standby_feedback parameter to ON on the standby. The hot_standby_feedback parameter prevents VACCUM from removing recently dead rows that are required by an existing logical replication slot on the standby server. If a slot conflict occurs on the standby, the slots are dropped.

For logical decoding on a standby to work, you must set wal_level to logical on both the primary and standby servers. If you set wal_level to a value other than logical, then slots aren't created. If you set wal_level to a value other than logical on primary, and if existing logical slots are on standby, such slots are dropped. You can't create new slots.

When transactions are written to the primary server, the activity triggers the creation of a logical slot on the standby server. If a primary server is idle, creating a logical slot on a standby server might take noticeable time.

For more information about functions that support replication, see the PostgreSQL documentation. See also this logical decoding example.

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