ALTER TABLE

Changes the definition of a table.

Synopsis

  1. ALTER TABLE [ONLY] <name> RENAME [COLUMN] <column> TO <new_column>
  2. ALTER TABLE <name> RENAME TO <new_name>
  3. ALTER TABLE <name> SET SCHEMA <new_schema>
  4. ALTER TABLE [ONLY] <name> SET
  5. DISTRIBUTED BY (<column>, [ ... ] )
  6. | DISTRIBUTED RANDOMLY
  7. | WITH (REORGANIZE=true|false)
  8. ALTER TABLE [ONLY] <name> <action> [, ... ]
  9. ALTER TABLE <name>
  10. [ ALTER PARTITION { <partition_name> | FOR (RANK(<number>))
  11. | FOR (<value>) } [...] ] <partition_action>
  12. where <action> is one of:
  13. ADD [COLUMN] <column_name data_type> [ DEFAULT <default_expr> ]
  14. [<column_constraint> [ ... ]]
  15. [ ENCODING ( <storage_directive> [,...] ) ]
  16. DROP [COLUMN] <column> [RESTRICT | CASCADE]
  17. ALTER [COLUMN] <column> TYPE <type> [USING <expression>]
  18. ALTER [COLUMN] <column> SET DEFAULT <expression>
  19. ALTER [COLUMN] <column> DROP DEFAULT
  20. ALTER [COLUMN] <column> { SET | DROP } NOT NULL
  21. ALTER [COLUMN] <column> SET STATISTICS <integer>
  22. ADD <table_constraint>
  23. DROP CONSTRAINT <constraint_name> [RESTRICT | CASCADE]
  24. DISABLE TRIGGER [<trigger_name> | ALL | USER]
  25. ENABLE TRIGGER [<trigger_name> | ALL | USER]
  26. CLUSTER ON <index_name>
  27. SET WITHOUT CLUSTER
  28. SET WITHOUT OIDS
  29. SET (FILLFACTOR = <value>)
  30. RESET (FILLFACTOR)
  31. INHERIT <parent_table>
  32. NO INHERIT <parent_table>
  33. OWNER TO <new_owner>
  34. SET TABLESPACE <new_tablespace>

where partition_action is one of:

  1. ALTER DEFAULT PARTITION
  2. DROP DEFAULT PARTITION [IF EXISTS]
  3. DROP PARTITION [IF EXISTS] { <partition_name> |
  4. FOR (RANK(<number>)) | FOR (<value>) } [CASCADE]
  5. TRUNCATE DEFAULT PARTITION
  6. TRUNCATE PARTITION { <partition_name> | FOR (RANK(<number>)) |
  7. FOR (<value>) }
  8. RENAME DEFAULT PARTITION TO <new_partition_name>
  9. RENAME PARTITION { <partition_name> | FOR (RANK(<number>)) |
  10. FOR (<value>) } TO <new_partition_name>
  11. ADD DEFAULT PARTITION <name> [ ( <subpartition_spec> ) ]
  12. ADD PARTITION [<partition_name>] <partition_element>
  13. [ ( <subpartition_spec> ) ]
  14. EXCHANGE PARTITION { <partition_name> | FOR (RANK(<number>)) |
  15. FOR (<value>) } WITH TABLE <table_name>
  16. [ WITH | WITHOUT VALIDATION ]
  17. EXCHANGE DEFAULT PARTITION WITH TABLE <table_name>
  18. [ WITH | WITHOUT VALIDATION ]
  19. SET SUBPARTITION TEMPLATE (<subpartition_spec>)
  20. SPLIT DEFAULT PARTITION
  21. { AT (<list_value>)
  22. | START([<datatype>] <range_value>) [INCLUSIVE | EXCLUSIVE]
  23. END([<datatype>] <range_value>) [INCLUSIVE | EXCLUSIVE] }
  24. [ INTO ( PARTITION <new_partition_name>,
  25. PARTITION <default_partition_name> ) ]
  26. SPLIT PARTITION { <partition_name> | FOR (RANK(<number>)) |
  27. FOR (<value>) } AT (<value>)
  28. [ INTO (PARTITION <partition_name>, PARTITION <partition_name>)]

where partition_element is:

  1. VALUES (<list_value> [,...] )
  2. | START ([<datatype>] '<start_value>') [INCLUSIVE | EXCLUSIVE]
  3. [ END ([<datatype>] '<end_value>') [INCLUSIVE | EXCLUSIVE] ]
  4. | END ([<datatype>] '<end_value>') [INCLUSIVE | EXCLUSIVE]
  5. [ WITH ( <partition_storage_parameter>=<value> [, ... ] ) ]
  6. [ TABLESPACE <tablespace> ]

where subpartition_spec is:

  1. <subpartition_element> [, ...]

and subpartition_element is:

  1. DEFAULT SUBPARTITION <subpartition_name>
  2. | [SUBPARTITION <subpartition_name>] VALUES (<list_value> [,...] )
  3. | [SUBPARTITION <subpartition_name>]
  4. START ([<datatype>] '<start_value>') [INCLUSIVE | EXCLUSIVE]
  5. [ END ([<datatype>] '<end_value>') [INCLUSIVE | EXCLUSIVE] ]
  6. [ EVERY ( [<number | datatype>] '<interval_value>') ]
  7. | [SUBPARTITION <subpartition_name>]
  8. END ([<datatype>] '<end_value>') [INCLUSIVE | EXCLUSIVE]
  9. [ EVERY ( [<number | datatype>] '<interval_value>') ]
  10. [ WITH ( <partition_storage_parameter>=<value> [, ... ] ) ]
  11. [ TABLESPACE <tablespace> ]

where storage_parameter is:

  1. APPENDONLY={TRUE|FALSE}
  2. BLOCKSIZE={8192-2097152}
  3. ORIENTATION={COLUMN|ROW}
  4. COMPRESSTYPE={ZLIB|QUICKLZ|RLE_TYPE|NONE}
  5. COMPRESSLEVEL={0-9}
  6. FILLFACTOR={10-100}
  7. OIDS[=TRUE|FALSE]

Description

ALTER TABLE changes the definition of an existing table. There are several subforms:

  • ADD COLUMN — Adds a new column to the table, using the same syntax as CREATE TABLE. The ENCODING clause is valid only for append-optimized, column-oriented tables.

  • DROP COLUMN — Drops a column from a table. Note that if you drop table columns that are being used as the Greenplum Database distribution key, the distribution policy for the table will be changed to DISTRIBUTED RANDOMLY. Indexes and table constraints involving the column will be automatically dropped as well. You will need to say CASCADE if anything outside the table depends on the column (such as views).

  • ALTER COLUMN TYPE — Changes the data type of a column of a table. Note that you cannot alter column data types that are being used as distribution or partitioning keys. Indexes and simple table constraints involving the column will be automatically converted to use the new column type by reparsing the originally supplied expression. The optional USING clause specifies how to compute the new column value from the old. If omitted, the default conversion is the same as an assignment cast from old data type to new. A USING clause must be provided if there is no implicit or assignment cast from old to new type.

  • SET/DROP DEFAULT — Sets or removes the default value for a column. The default values only apply to subsequent INSERT commands. They do not cause rows already in the table to change. Defaults may also be created for views, in which case they are inserted into statements on the view before the view’s ON INSERT rule is applied.

  • SET/DROP NOT NULL — Changes whether a column is marked to allow null values or to reject null values. You can only use SET NOT NULL when the column contains no null values.

  • SET STATISTICS — Sets the per-column statistics-gathering target for subsequent ANALYZE operations. The target can be set in the range 1 to 1000, or set to -1 to revert to using the system default statistics target (default_statistics_target).

  • ADD table_constraint — Adds a new constraint to a table (not just a partition) using the same syntax as CREATE TABLE.

  • DROP CONSTRAINT — Drops the specified constraint on a table.

  • DISABLE/ENABLE TRIGGER — Deactivates or enables trigger(s) belonging to the table. A deactivated trigger is still known to the system, but is not executed when its triggering event occurs. For a deferred trigger, the enable status is checked when the event occurs, not when the trigger function is actually executed. One may deactivate or activate a single trigger specified by name, or all triggers on the table, or only user-created triggers. Deactivating or enabling constraint triggers requires superuser privileges.

    Note: triggers are not supported in Greenplum Database. Triggers in general have very limited functionality due to the parallelism of Greenplum Database.

  • CLUSTER ON/SET WITHOUT CLUSTER — Selects or removes the default index for future CLUSTER operations. It does not actually re-cluster the table. Note that CLUSTER is not the recommended way to physically reorder a table in Greenplum Database because it takes so long. It is better to recreate the table with CREATE TABLE AS and order it by the index column(s).

    Note: CLUSTER ON is not supported on append-optimized tables.

  • SET WITHOUT OIDS — Removes the OID system column from the table. Note that there is no variant of ALTER TABLE that allows OIDs to be restored to a table once they have been removed.

  • SET ( FILLFACTOR = value) / RESET (FILLFACTOR) — Changes the fillfactor for the table. The fillfactor for a table is a percentage between 10 and 100. 100 (complete packing) is the default. When a smaller fillfactor is specified, INSERT operations pack table pages only to the indicated percentage; the remaining space on each page is reserved for updating rows on that page. This gives UPDATE a chance to place the updated copy of a row on the same page as the original, which is more efficient than placing it on a different page. For a table whose entries are never updated, complete packing is the best choice, but in heavily updated tables smaller fillfactors are appropriate. Note that the table contents will not be modified immediately by this command. You will need to rewrite the table to get the desired effects.

  • SET DISTRIBUTED —Changes the distribution policy of a table. Changes to a hash distribution policy will cause the table data to be physically redistributed on disk, which can be resource intensive.

  • INHERIT parent_table / NO INHERIT parent_table — Adds or removes the target table as a child of the specified parent table. Queries against the parent will include records of its child table. To be added as a child, the target table must already contain all the same columns as the parent (it could have additional columns, too). The columns must have matching data types, and if they have NOT``NULL constraints in the parent then they must also have NOT NULL constraints in the child. There must also be matching child-table constraints for all CHECK constraints of the parent.

  • OWNER — Changes the owner of the table, sequence, or view to the specified user.

  • SET TABLESPACE — Changes the table’s tablespace to the specified tablespace and moves the data file(s) associated with the table to the new tablespace. Indexes on the table, if any, are not moved; but they can be moved separately with additional SET TABLESPACE commands. See also CREATE TABLESPACE. If changing the tablespace of a partitioned table, all child table partitions will also be moved to the new tablespace.

  • RENAME — Changes the name of a table (or an index, sequence, or view) or the name of an individual column in a table. There is no effect on the stored data. Note that Greenplum Database distribution key columns cannot be renamed.

  • SET SCHEMA — Moves the table into another schema. Associated indexes, constraints, and sequences owned by table columns are moved as well.

  • ALTER PARTITION | DROP PARTITION | RENAME PARTITION | TRUNCATE PARTITION | ADD PARTITION | SPLIT PARTITION | EXCHANGE PARTITION | SET SUBPARTITION TEMPLATE— Changes the structure of a partitioned table. In most cases, you must go through the parent table to alter one of its child table partitions.

Note: If you add a partition to a table that has subpartition encodings, the new partition inherits the storage directives for the subpartitions. For more information about the precedence of compression settings, see “Using Compression” in the Greenplum Database Administrator Guide.

You must own the table to use ALTER TABLE. To change the schema of a table, you must also have CREATE privilege on the new schema. To add the table as a new child of a parent table, you must own the parent table as well. To alter the owner, you must also be a direct or indirect member of the new owning role, and that role must have CREATE privilege on the table’s schema. A superuser has these privileges automatically.

Note: Memory usage increases significantly when a table has many partitions, if a table has compression, or if the blocksize for a table is large. If the number of relations associated with the table is large, this condition can force an operation on the table to use more memory. For example, if the table is a CO table and has a large number of columns, each column is a relation. An operation like ALTER TABLE ALTER COLUMN opens all the columns in the table allocates associated buffers. If a CO table has 40 columns and 100 partitions, and the columns are compressed and the blocksize is 2 MB (with a system factor of 3), the system attempts to allocate 24 GB, that is (40 ×100) × (2 ×3) MB or 24 GB.

Parameters

ONLY

Only perform the operation on the table name specified. If the ONLY keyword is not used, the operation will be performed on the named table and any child table partitions associated with that table.

name

The name (possibly schema-qualified) of an existing table to alter. If ONLY is specified, only that table is altered. If ONLY is not specified, the table and all its descendant tables (if any) are updated.

Note: Constraints can only be added to an entire table, not to a partition. Because of that restriction, the name parameter can only contain a table name, not a partition name.

column

Name of a new or existing column. Note that Greenplum Database distribution key columns must be treated with special care. Altering or dropping these columns can change the distribution policy for the table.

new_column

New name for an existing column.

new_name

New name for the table.

type

Data type of the new column, or new data type for an existing column. If changing the data type of a Greenplum distribution key column, you are only allowed to change it to a compatible type (for example, text to varchar is OK, but text to int is not).

table_constraint

New table constraint for the table. Note that foreign key constraints are currently not supported in Greenplum Database. Also a table is only allowed one unique constraint and the uniqueness must be within the Greenplum Database distribution key.

constraint_name

Name of an existing constraint to drop.

CASCADE

Automatically drop objects that depend on the dropped column or constraint (for example, views referencing the column).

RESTRICT

Refuse to drop the column or constraint if there are any dependent objects. This is the default behavior.

trigger_name

Name of a single trigger to deactivate or activate. Note that Greenplum Database does not support triggers.

ALL

Deactivate or activate all triggers belonging to the table including constraint related triggers. This requires superuser privilege.

USER

Deactivate or activate all user-created triggers belonging to the table.

index_name

The index name on which the table should be marked for clustering. Note that CLUSTER is not the recommended way to physically reorder a table in Greenplum Database because it takes so long. It is better to recreate the table with CREATE TABLE AS and order it by the index column(s).

FILLFACTOR

Set the fillfactor percentage for a table.

value

The new value for the FILLFACTOR parameter, which is a percentage between 10 and 100. 100 is the default.

DISTRIBUTED BY (column) | DISTRIBUTED RANDOMLY

Specifies the distribution policy for a table. Changing a hash distribution policy will cause the table data to be physically redistributed on disk, which can be resource intensive. If you declare the same hash distribution policy or change from hash to random distribution, data will not be redistributed unless you declare SET WITH (REORGANIZE=true).

REORGANIZE=true|false

Use REORGANIZE=true when the hash distribution policy has not changed or when you have changed from a hash to a random distribution, and you want to redistribute the data anyways.

parent_table

A parent table to associate or de-associate with this table.

new_owner

The role name of the new owner of the table.

new_tablespace

The name of the tablespace to which the table will be moved.

new_schema

The name of the schema to which the table will be moved.

parent_table_name

When altering a partitioned table, the name of the top-level parent table.

ALTER [DEFAULT] PARTITION

If altering a partition deeper than the first level of partitions, use ALTER PARTITION clauses to specify which subpartition in the hierarchy you want to alter. For each partition level in the table hierarchy that is above the target partition, specify the partition that is related to the target partition in an ALTER PARTITION clause.

DROP [DEFAULT] PARTITION

Drops the specified partition. If the partition has subpartitions, the subpartitions are automatically dropped as well.

TRUNCATE [DEFAULT] PARTITION

Truncates the specified partition. If the partition has subpartitions, the subpartitions are automatically truncated as well.

RENAME [DEFAULT] PARTITION

Changes the partition name of a partition (not the relation name). Partitioned tables are created using the naming convention: <parentname >_<level >_prt_<partition_name >.

ADD DEFAULT PARTITION

Adds a default partition to an existing partition design. When data does not match to an existing partition, it is inserted into the default partition. Partition designs that do not have a default partition will reject incoming rows that do not match to an existing partition. Default partitions must be given a name.

ADD PARTITION

partition_element - Using the existing partition type of the table (range or list), defines the boundaries of new partition you are adding.

name - A name for this new partition.

VALUES - For list partitions, defines the value(s) that the partition will contain.

START - For range partitions, defines the starting range value for the partition. By default, start values are INCLUSIVE. For example, if you declared a start date of ‘2016-01-01‘, then the partition would contain all dates greater than or equal to ‘2016-01-01‘. Typically the data type of the START expression is the same type as the partition key column. If that is not the case, then you must explicitly cast to the intended data type.

END - For range partitions, defines the ending range value for the partition. By default, end values are EXCLUSIVE. For example, if you declared an end date of ‘2016-02-01‘, then the partition would contain all dates less than but not equal to ‘2016-02-01‘. Typically the data type of the END expression is the same type as the partition key column. If that is not the case, then you must explicitly cast to the intended data type.

WITH - Sets the table storage options for a partition. For example, you may want older partitions to be append-optimized tables and newer partitions to be regular heap tables. See CREATE TABLE for a description of the storage options.

TABLESPACE - The name of the tablespace in which the partition is to be created.

subpartition_spec - Only allowed on partition designs that were created without a subpartition template. Declares a subpartition specification for the new partition you are adding. If the partitioned table was originally defined using a subpartition template, then the template will be used to generate the subpartitions automatically.

EXCHANGE [DEFAULT] PARTITION

Exchanges another table into the partition hierarchy into the place of an existing partition. In a multi-level partition design, you can only exchange the lowest level partitions (those that contain data).

The Greenplum Database server configuration parameter gp_enable_exchange_default_partition controls availability of the EXCHANGE DEFAULT PARTITION clause. The default value for the parameter is off. The clause is not available and Greenplum Database returns an error if the clause is specified in an ALTER TABLE command.

For information about the parameter, see Server Configuration Parameters.

Warning: Before you exchange the default partition, you must ensure the data in the table to be exchanged, the new default partition, is valid for the default partition. For example, the data in the new default partition must not contain data that would be valid in other leaf child partitions of the partitioned table. Otherwise, queries against the partitioned table with the exchanged default partition that are executed by GPORCA might return incorrect results.

WITH TABLE table_name - The name of the table you are swapping into the partition design. You can exchange a table where the table data is stored in the database. For example, the table is created with the CREATE TABLE command.

With the EXCHANGE PARTITION clause, you can also exchange a readable external table (created with the CREATE EXTERNAL TABLE command) into the partition hierarchy in the place of an existing leaf child partition. If you specify a readable external table, you must also specify the WITHOUT VALIDATION clause to skip table validation against the CHECK constraint of the partition you are exchanging.

Exchanging a leaf child partition with an external table is not supported if the partitioned table contains a column with a check constraint or a NOT NULL constraint.

Exchanging a partition with a partitioned table or a child partition of a partitioned table is not supported.

WITH | WITHOUT VALIDATION - Validates that the data in the table matches the CHECK constraint of the partition you are exchanging. The default is to validate the data against the CHECK constraint.

Warning: If you specify the WITHOUT VALIDATION clause, you must ensure that the data in table that you are exchanging for an existing child leaf partition is valid against the CHECK constraints on the partition. Otherwise, queries against the partitioned table might return incorrect results.

SET SUBPARTITION TEMPLATE

Modifies the subpartition template for an existing partition. After a new subpartition template is set, all new partitions added will have the new subpartition design (existing partitions are not modified).

SPLIT DEFAULT PARTITION

Splits a default partition. In a multi-level partition, only a range partition can be split, not a list partition, and you can only split the lowest level default partitions (those that contain data). Splitting a default partition creates a new partition containing the values specified and leaves the default partition containing any values that do not match to an existing partition.

AT - For list partitioned tables, specifies a single list value that should be used as the criteria for the split.

START - For range partitioned tables, specifies a starting value for the new partition.

END - For range partitioned tables, specifies an ending value for the new partition.

INTO - Allows you to specify a name for the new partition. When using the INTO clause to split a default partition, the second partition name specified should always be that of the existing default partition. If you do not know the name of the default partition, you can look it up using the pg_partitions view.

SPLIT PARTITION

Splits an existing partition into two partitions. In a multi-level partition, only a range partition can be split, not a list partition, and you can only split the lowest level partitions (those that contain data).

AT - Specifies a single value that should be used as the criteria for the split. The partition will be divided into two new partitions with the split value specified being the starting range for the latter partition.

INTO - Allows you to specify names for the two new partitions created by the split.

partition_name

The given name of a partition. The given partition name is the partitionname column value in the pg_partitions system view.

FOR (RANK(number))

For range partitions, the rank of the partition in the range.

FOR (‘value’)

Specifies a partition by declaring a value that falls within the partition boundary specification. If the value declared with FOR matches to both a partition and one of its subpartitions (for example, if the value is a date and the table is partitioned by month and then by day), then FOR will operate on the first level where a match is found (for example, the monthly partition). If your intent is to operate on a subpartition, you must declare so as follows: ALTER TABLE name ALTER PARTITION FOR ('2016-10-01') DROP PARTITION FOR ('2016-10-01');

Notes

The table name specified in the ALTER TABLE command cannot be the name of a partition within a table.

Take special care when altering or dropping columns that are part of the Greenplum Database distribution key as this can change the distribution policy for the table.

Greenplum Database does not currently support foreign key constraints. For a unique constraint to be enforced in Greenplum Database, the table must be hash-distributed (not DISTRIBUTED RANDOMLY), and all of the distribution key columns must be the same as the initial columns of the unique constraint columns.

Adding a CHECK or NOT NULL constraint requires scanning the table to verify that existing rows meet the constraint.

When a column is added with ADD COLUMN, all existing rows in the table are initialized with the column’s default value, or NULL if no DEFAULT clause is specified. Adding a column with a non-null default or changing the type of an existing column will require the entire table to be rewritten. This may take a significant amount of time for a large table; and it will temporarily require double the disk space.

You can specify multiple changes in a single ALTER TABLE command, which will be done in a single pass over the table.

The DROP COLUMN form does not physically remove the column, but simply makes it invisible to SQL operations. Subsequent insert and update operations in the table will store a null value for the column. Thus, dropping a column is quick but it will not immediately reduce the on-disk size of your table, as the space occupied by the dropped column is not reclaimed. The space will be reclaimed over time as existing rows are updated.

The fact that ALTER TYPE requires rewriting the whole table is sometimes an advantage, because the rewriting process eliminates any dead space in the table. For example, to reclaim the space occupied by a dropped column immediately, the fastest way is: ALTER TABLE table ALTER COLUMN anycol TYPE sametype; where anycol is any remaining table column and sametype is the same type that column already has. This results in no semantically-visible change in the table, but the command forces rewriting, which gets rid of no-longer-useful data.

If a table is partitioned or has any descendant tables, it is not permitted to add, rename, or change the type of a column in the parent table without doing the same to the descendants. This ensures that the descendants always have columns matching the parent.

To see the structure of a partitioned table, you can use the view pg_partitions. This view can help identify the particular partitions you may want to alter.

A recursive DROP COLUMN operation will remove a descendant table’s column only if the descendant does not inherit that column from any other parents and never had an independent definition of the column. A nonrecursive DROP COLUMN (ALTER TABLE ONLY ... DROP COLUMN) never removes any descendant columns, but instead marks them as independently defined rather than inherited.

The TRIGGER, CLUSTER, OWNER, and TABLESPACE actions never recurse to descendant tables; that is, they always act as though ONLY were specified. Adding a constraint can recurse only for CHECK constraints.

These ALTER PARTITION operations are supported if no data is changed on a partitioned table that contains a leaf child partition that has been exchanged to use an external table Otherwise, an error is returned.

  • Adding or dropping a column.
  • Changing the data type of column.

These ALTER PARTITION operations are not supported for a partitioned table that contains a leaf child partition that has been exchanged to use an external table:

  • Setting a subpartition template.
  • Altering the partition properties.
  • Creating a default partition.
  • Setting a distribution policy.
  • Setting or dropping a NOT NULL constraint of column.
  • Adding or dropping constraints.
  • Splitting an external partition.

Changing any part of a system catalog table is not permitted.

Examples

Add a column to a table:

  1. ALTER TABLE distributors ADD COLUMN address varchar(30);

Rename an existing column:

  1. ALTER TABLE distributors RENAME COLUMN address TO city;

Rename an existing table:

  1. ALTER TABLE distributors RENAME TO suppliers;

Add a not-null constraint to a column:

  1. ALTER TABLE distributors ALTER COLUMN street SET NOT NULL;

Add a check constraint to a table:

  1. ALTER TABLE distributors ADD CONSTRAINT zipchk CHECK
  2. (char_length(zipcode) = 5);

Move a table to a different schema:

  1. ALTER TABLE myschema.distributors SET SCHEMA yourschema;

Add a new partition to a partitioned table:

  1. ALTER TABLE sales ADD PARTITION
  2. START (date '2017-02-01') INCLUSIVE
  3. END (date '2017-03-01') EXCLUSIVE;

Add a default partition to an existing partition design:

  1. ALTER TABLE sales ADD DEFAULT PARTITION other;

Rename a partition:

  1. ALTER TABLE sales RENAME PARTITION FOR ('2016-01-01') TO
  2. jan08;

Drop the first (oldest) partition in a range sequence:

  1. ALTER TABLE sales DROP PARTITION FOR (RANK(1));

Exchange a table into your partition design:

  1. ALTER TABLE sales EXCHANGE PARTITION FOR ('2016-01-01') WITH
  2. TABLE jan08;

Split the default partition (where the existing default partition’s name is other) to add a new monthly partition for January 2017:

  1. ALTER TABLE sales SPLIT DEFAULT PARTITION
  2. START ('2017-01-01') INCLUSIVE
  3. END ('2017-02-01') EXCLUSIVE
  4. INTO (PARTITION jan09, PARTITION other);

Split a monthly partition into two with the first partition containing dates January 1-15 and the second partition containing dates January 16-31:

  1. ALTER TABLE sales SPLIT PARTITION FOR ('2016-01-01')
  2. AT ('2016-01-16')
  3. INTO (PARTITION jan081to15, PARTITION jan0816to31);

For a multi-level partitioned table that consists of three levels, year, quarter, and region, exchange a leaf partition region with the table region_new.

  1. ALTER TABLE sales ALTER PARTITION year_1 ALTER PARTITION quarter_4 EXCHANGE PARTITION region WITH TABLE region_new ;

In the previous command, the two ALTER PARTITION clauses identify which region partition to exchange. Both clauses are required to identify the specific partition to exchange.

Compatibility

The ADD, DROP, and SET DEFAULT forms conform with the SQL standard. The other forms are Greenplum Database extensions of the SQL standard. Also, the ability to specify more than one manipulation in a single ALTER TABLE command is an extension.

ALTER TABLE DROP COLUMN can be used to drop the only column of a table, leaving a zero-column table. This is an extension of SQL, which disallows zero-column tables.

See Also

CREATE TABLE, DROP TABLE

Parent topic: SQL Command Reference