Chapter 4 Migrating SQL Statements

This chapter explains how to migrate SQL statements.

4.1 Partitions

This section provides examples of migrating partitions.

4.1.1 Partition Tables

Description

Partitions split tables and indexes into smaller units for management.

The following example shows conversion of an Oracle database partition to child tables in PostgreSQL. All migration examples provided here are based on this table.

Example of tables created by partitioning inventory_table

| i_number
(product code) | i_name
(category) | i_quantity
(inventory quantity) | i_warehouse
(warehouse code) | | :---: | :--- | :---: | :---: | | SMALLINT
PRIMARY KEY | VARCHAR(20)
NOT NULL | INTEGER | SMALLINT | | 123 | refrigerator | 60 | 1 | | 124 | refrigerator | 75 | 1 | | 226 | refrigerator | 8 | 1 | | 227 | refrigerator | 15 | 1 | | 110 | television | 85 | 2 | | 111 | television | 90 | 2 | | 140 | cd player | 120 | 2 | | 212 | television | 0 | 2 | | 215 | Video | 5 | 2 | | 240 | cd player | 25 | 2 | | 243 | cd player | 14 | 2 | | 351 | Cd | 2500 | 2 |

Functional differences

  • Oracle database
    • Partition tables can be created.
  • PostgreSQL
    • Partition tables cannot be created.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword PARTITION and identify where CREATE TABLE is used to create a partition.
  2. Delete the PARTITION clause and following lines from the CREATE TABLE statement and create a table.
  3. Create a child table that inherits the table defined in step 1, and add table constraints to the split table for defining partition constraints.
  4. Define a trigger or rule so that data inserted to the table is assigned to the appropriate child table.

Migration example

The example below shows migration when partitions are created in inventory_table.

Oracle database PostgreSQL
CREATE TABLE inventory_table( 
 i_number SMALLINT PRIMARY KEY, 
 i_name VARCHAR2(20) NOT NULL, 
 i_quantity INTEGER, 
 i_warehouse SMALLINT ) 
 PARTITION BY LIST ( i_warehouse ) 
 ( PARTITION inventory_table_1 VALUES (1), 
 PARTITION inventory_table_2 VALUES (2) ); 
























CREATE TABLE inventory_table( 
 i_number SMALLINT PRIMARY KEY, 
 i_name VARCHAR(20) NOT NULL, 
 i_quantity INTEGER, 
 i_warehouse SMALLINT ); 
 CREATE TABLE inventory_table_1 
 (CHECK ( i_warehouse = 1 )) 
 INHERITS( inventory_table ); 
 CREATE TABLE inventory_table_2 
 (CHECK ( i_warehouse = 2 )) 
 INHERITS( inventory_table ); 
 ------------------------------------------------- 
 CREATE FUNCTION TABLE_INSERT_TRIGGER() 
 RETURNS TRIGGER AS $$ 
 BEGIN 
   IF ( NEW.i_warehouse = 1 ) THEN 
     INSERT INTO inventory_table_1 
 VALUES( NEW.*); 
   ELSIF ( NEW.i_warehouse = 2 ) THEN 
     INSERT INTO inventory_table_2 
 VALUES( NEW.*); 
 ELSE 
   RAISE EXCEPTION 'Data out of range.  Fix the TABLE_INSERT_TRIGGER() function!'; 
   END IF; 
   RETURN NULL; 
 END; 
 $$ LANGUAGE plpgsql; 
 ------------------------------------------------- 
 CREATE TRIGGER TABLE_INSERT_TRIGGER 
 BEFORE INSERT ON inventory_table 
 FOR EACH ROW 
 EXECUTE PROCEDURE TABLE_INSERT_TRIGGER();

4.1.2 PARTITION Clause in a SELECT Statement

Before a PARTITION clause in a SELECT statement can be migrated, the Oracle database partition must have been converted to child tables for PostgreSQL.

Description

A PARTITION clause treats only some partitions of the table (partition table) specified in the FROM clause as the targets of a query.

4.1.2.1 Queries Where a PARTITION Clause is Specified

Functional differences

  • Oracle database
    • A PARTITION clause can be specified.
  • PostgreSQL
    • A PARTITION clause cannot be specified.

Migration procedure

A PARTITION clause cannot be specified, so change the search target to a child table so that the same result is returned. Use the procedure below to perform migration. The migration sequence depends on whether a FOR clause is specified.

  1. Search for the keyword PARTITION and identify where it is specified in a SELECT statement.
  2. Change the table name specified in the FROM clause to the name of the child table corresponding to the partition specified in the PARTITION clause.
  3. Delete the PARTITION clause.

Migration example

The example below shows migration of a query that uses PARTITION.

Oracle database PostgreSQL
SELECT * 
 FROM inventory_table PARTITION( 
 inventory_table_1);
SELECT * 
 FROM inventory_table_1; 
 

4.1.2. Queries when FOR is Specified in a PARTITION Clause

Functional differences

  • Oracle database
    • FOR can be specified in a PARTITION clause.
  • PostgreSQL
    • A PARTITION clause cannot be specified.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword PARTITION and identify where it is specified in a SELECT statement.
  2. Move the value specified in the PARTITION clause to a WHERE clause, and replace it with a conditional expression that compares the value with the column name written in the partition definition.
  3. Delete the PARTITION clause.

Migration example

The example below shows migration when a PARTITION FOR clause is used to execute a query.

Oracle database PostgreSQL
SELECT * 
 FROM inventory_table PARTITION FOR (2);
SELECT * 
 FROM inventory_table WHERE i_warehouse = 2;

4.2 SELECT Statements

This section explains SELECT statements.

4.2.1 UNIQUE

Description

UNIQUE deletes duplicate rows from the selected list and displays the result.

Functional differences

  • Oracle database
    • UNIQUE can be specified in a select list.
  • PostgreSQL
    • UNIQUE cannot be specified in a select list. Specify DISTINCT instead.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword UNIQUE and identify where it is specified in the select list of the SELECT statement.
  2. Change UNIQUE in the SELECT statement to DISTINCT.

Migration example

The example below shows migration when UNIQUE is specified in a select list.

Oracle database PostgreSQL
SELECT UNIQUE i_name 
FROM inventory_table;
SELECT DISTINCT i_name 
FROM inventory_table;

4.2.2 Subqueries

Description

A subquery specifies a sub SELECT statement in the main SQL statement.

Functional differences

  • Oracle database
    • A subquery specified in a FROM clause can be executed even without an alias being specified for it.
  • PostgreSQL
    • A subquery specified in a FROM clause cannot be executed unless an alias is specified for it.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword SELECT and identify where a subquery is used.
  2. If the subquery is specified in a FROM clause and no alias is specified for it, specify an alias.

Migration example

The example below shows migration when a SELECT statement that uses a subquery is executed.

Oracle database PostgreSQL
SELECT * 
 FROM ( SELECT * FROM inventory_table 
 WHERE i_name = 'television' ) 
 WHERE i_quantity > 0; 
SELECT * 
 FROM ( SELECT * FROM inventory_table 
 WHERE i_name = 'television' ) AS foo 
 WHERE i_quantity > 0;

4.2.3 Hierarchical Queries

Description

If a table contains data that can associate its own records, a hierarchical query displays the result of associating those records.

4.2.3.1 Executing Hierarchical Queries

Functional differences

  • Oracle database
    • Hierarchical queries can be used.
  • PostgreSQL
    • Hierarchical queries cannot be used.

Migration procedure

Hierarchical queries cannot be used, so specify a recursive query that uses a WITH clause so that the same result is returned. Use the following procedure to perform migration:

  1. Search for the keyword CONNECT and identify where a hierarchical query is used.
  2. Check the following:
    • Target table of the hierarchical query
    • Column being used
    • Conditional expressions specified in the CONNECT BY clause
  3. Replace the hierarchical query with WITH clause syntax to match the format shown below.
  4. Change the table name specified in the FROM clause to the name of the query in the WITH clause, and delete the CONNECT BY clause.

~~~ WITH RECURSIVE queryName( columnUsed ) AS ( SELECT columnUsed FROM targetTableOfHierarchicalQuery UNION ALL SELECT columnUsed(qualified by n) FROM targetTableOfHierarchicalQuery n, queryName w WHERE conditionalExprOfConnectByClause(use w to qualify part qualified by PRIOR) ) ~~~

Migration example

The example below shows migration when a hierarchical query is executed.

Oracle database PostgreSQL
SELECT staff_id, name, manager_id 
 FROM staff_table 
 CONNECT BY PRIOR staff_id = manager_id; 







WITH RECURSIVE staff_table_w( staff_id, 
 name, 
 manager_id ) AS 
 ( SELECT staff_id, name, manager_id 
       FROM staff_table 
     UNION ALL 
     SELECT n.staff_id, n.name, n.manager_id 
       FROM staff_table n, staff_table_w w 
       WHERE w.staff_id = n.manager_id ) 
 SELECT staff_id, name, manager_id 
 FROM staff_table_w;
4.2.3.2 Hierarchical Query with Start Row

Functional differences

  • Oracle database
    • A START WITH clause can be specified in a hierarchical query to set start row conditions.
  • PostgreSQL
    • A START WITH clause cannot be specified.

Migration procedure

In a recursive query that uses a WITH clause, set a condition that is self-referencing so that the same result is returned. Use the following procedure to perform migration:

  1. Replace the hierarchical query with syntax that uses a recursive query (WITH clause).
  2. If a START WITH clause is specified, move the specified conditional expression to the WHERE clause of the first subquery specified in the WITH clause.
  3. Delete the START WITH clause.

Migration example

The example below shows migration when the start row is specified using a hierarchical query.

Oracle database PostgreSQL
SELECT staff_id, name, manager_id 
 FROM staff_table 
 START WITH staff_id = '1001' 
 CONNECT BY PRIOR staff_id = manager_id;







WITH RECURSIVE staff_table_w( staff_id, 
 name, 
 manager_id ) AS 
 ( SELECT staff_id, name, manager_id 
       FROM staff_table 
       WHERE staff_id = '1001' 
     UNION ALL 
     SELECT n.staff_id, n.name, n.manager_id 
       FROM staff_table n, staff_table_w w 
       WHERE w.staff_id = n.manager_id ) 
 SELECT staff_id, name, manager_id 
 FROM staff_table_w;
4.2.3.3 Hierarchical Query Displaying the Hierarchical Position of Each Row

Functional differences

  • Oracle database
    • Specifying a LEVEL pseudocolumn in the select list of a hierarchical query displays the hierarchical position of each row.
  • PostgreSQL
    • A LEVEL pseudocolumn cannot be specified.

Migration procedure

In a recursive query that uses a WITH clause, create a result column equivalent to the LEVEL pseudocolumn as the query result of the WITH clause so that the same result is returned. Use the following procedure to perform migration:

  1. Replace the hierarchical query with syntax that uses a recursive query (WITH clause).
  2. Add LEVEL to the column list of the query result of the WITH clause.
  3. Specify the following values as the select list of the subquery in the position corresponding to the LEVEL column:
    • Specify 1 in the first query.
    • Specify LEVEL + 1 in the next query. (LEVEL is a column of the recursive table.)
  4. Using a query, replace the portion where the LEVEL pseudocolumn is used with LEVEL (quoted identifier).

The following shows the conversion format containing the LEVEL pseudocolumn.

~~~ WITH RECURSIVE queryName( columnUsed, "LEVEL" ) AS ( SELECT columnUsed, 1 FROM targetTableOfHierarchicalQuery UNION ALL SELECT columnUsed(qualified by n), w."LEVEL" + 1 FROM targetTableOfHierarchicalQuery n, queryName w WHERE conditionalExprOfConnectByClause(use w to qualify part qualified by PRIOR) ) ~~~

Migration example

The example below shows migration when a hierarchical query is used for displaying the hierarchical position of each row.

Oracle database PostgreSQL
SELECT staff_id, name, manager_id, LEVEL 
 FROM staff_table 
 START WITH staff_id = '1001' 
 CONNECT BY PRIOR staff_id = manager_id; 











WITH RECURSIVE staff_table_w( staff_id, 
                name, 
                manager_id, 
                "LEVEL"  ) AS 
   ( SELECT staff_id, name, manager_id, 1 
       FROM staff_table 
       WHERE staff_id = '1001' 
     UNION ALL 
     SELECT n.staff_id, 
            n.name, 
            n.manager_id, 
            w."LEVEL" + 1 
       FROM staff_table n, staff_table_w w 
       WHERE w.staff_id = n.manager_id ) 
 SELECT staff_id, name, manager_id, "LEVEL"  
 FROM staff_table_w;
4.2.3.4 Hierarchical Query Displaying the Hierarchical Structure

Functional differences

  • Oracle database
    • Specifying SYS_CONNECT_BY_PATH in the select list of a hierarchical query displays the hierarchical structure.
  • PostgreSQL
    • SYS_CONNECT_BY_PATH cannot be specified.

Migration procedure

In a recursive query that uses a WITH clause, create an arithmetic expression that also uses the recursive query of the WITH clause so that the same result is returned. Use the following procedure to perform migration:

  1. Replace the hierarchical query with syntax that uses a recursive query (WITH clause).
  2. Add PATH to the column list of the query result of the WITH clause.
  3. Specify the following values for the select list of the subquery corresponding to the PATH column. The example here explains migration when a slash (/) is specified as the delimiter.
    • In the first query, specify the path to the values of the columns from the root to the node.
    • Specify m.PATH || '/' || n.columnName in the next query. (PATH is a recursive table column.)
  4. Using a query, replace the part where PATH is used, with PATH.

The following shows the conversion format containing PATH.

~~~ WITH RECURSIVE queryName( columnUsed, PATH ) AS ( SELECT columnUsed, '/' || columnName FROM targetTableOfHierarchicalQuery UNION ALL SELECT columnUsed(qualified by n), w.PATH || '/' || n.columnName FROM targetTableOfHierarchicalQuery n, queryName w WHERE conditionalExprOfConnectByClause ) ~~~

For conditionalExprOfConnectByClause, use w to qualify the part qualified by PRIOR.

Migration example

The example below shows migration when the hierarchical structure is displayed.

Oracle database PostgreSQL
SELECT staff_id,name,manager_id, 
 SYS_CONNECT_BY_PATH(name,'/') AS PATH  
 FROM staff_table 
 START WITH staff_id = '1001' 
 CONNECT BY PRIOR staff_id = manager_id; 










 WITH RECURSIVE staff_table_w( staff_id, 
                name, 
                manager_id, 
                 PATH) AS 
 ( SELECT staff_id,name,manager_id, '/' || name 
    FROM staff_table 
    WHERE staff_id = '1001' 
    UNION ALL 
    SELECT n.staff_id, 
               name, 
               n.manager_id, 
               w.PATH || '/' || n.name 
    FROM staff_table n,staff_table_w w 
    WHERE w.staff_id = n.manager_id ) 
 SELECT staff_id,name,manager_id, PATH 
 FROM staff_table_w;
4.2.3.5 Hierarchical Queries That Sort Each Hierarchy Level

Functional differences

  • Oracle database
    • Specifying an ORDER SIBLINGS BY clause in a hierarchical query enables sorting of each hierarchical level.
  • PostgreSQL
    • An ORDER SIBLINGS BY clause cannot be specified.

Migration procedure

Use the following procedure to perform migration:

  1. Replace the hierarchical query with syntax that uses a recursive query (WITH clause).
  2. In the syntax that uses a recursive query (WITH clause), add poskey to the column list of the query result of the WITH clause.
  3. Specify ROW_NUMBER() in the position corresponding to the poskey column. In the OVER clause, specify an ORDER BY clause that specifies the column of the ORDER SIBLINGS BY clause.
  4. Add siblings_pos to the column list of the query result of the WITH clause.
  5. Specify the following values as the select list of the subquery in the position corresponding to the siblings_pos column:
    • Specify ARRAY[poskey] in the first query.
    • Specify a concatenation of siblings_pos and poskey in the next query.
  6. Using a query, specify siblings_pos in the ORDER BY clause to perform a sort.

The following shows the conversion format containing sorting of each hierarchy level.

~~~ WITH RECURSIVE queryNameForPoskey( columnUsed, poskey ) AS ( SELECT columnUsed, ROW_NUMBER() OVER( ORDER BY columnNameSpecifiedInOrderSiblingsByClause ) FROM targetTableOfHierarchicalQuery ), WITH RECURSIVE queryName( columnUsed, siblings_pos ) AS ( SELECT columnUsed, ARRAY[poskey] FROM queryNameForPoskey UNION ALL SELECT columnUsed(qualified by n), w.siblings_pos || n.poskey FROM queryNameForPoskey n, queryName w WHERE conditionalExprOfConnectByClause(use w to qualify part qualified by PRIOR ) ) ~~~

Migration example

The example below shows migration when a hierarchical query is used to perform a sort in each hierarchy level.

Oracle database PostgreSQL
SELECT staff_id, name, manager_id 
  FROM staff_table 
  START WITH staff_id = '1001' 
  CONNECT BY PRIOR staff_id = manager_id 
  ORDER SIBLINGS BY name; 























 WITH RECURSIVE staff_table_pos ( staff_id, 
                name, 
                manager_id, 
                poskey ) AS 
 ( SELECT staff_id, 
          name, 
          manager_id, 
 ROW_NUMBER() OVER( ORDER BY name ) 
 FROM staff_table ), 
 staff_table_w ( staff_id, 
                 name, 
                 manager_id, 
 siblings_pos ) AS 
 ( SELECT staff_id, 
          name, 
          manager_id, 
          ARRAY[poskey] 
         FROM staff_table_pos 
         WHERE staff_id = '1001' 
       UNION ALL 
       SELECT n.staff_id, 
              n.name, 
              n.manager_id, 
              w.siblings_pos || n.poskey 
         FROM staff_table_pos n, staff_table_w w 
         WHERE w.staff_id = n.manager_id ) 
 SELECT staff_id, name, manager_id 
 FROM staff_table_w 
 ORDER BY siblings_pos;

4.2.4 MINUS

Description

MINUS finds the difference between two query results, that is, it returns rows that are in the first result set that are not in the second result set.

Functional differences

  • Oracle database
    • MINUS is specified to find the difference between two query results.
  • PostgreSQL
    • MINUS cannot be specified to find the difference between two query results. Specify EXCEPT instead.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword MINUS and identify where it is used.
  2. Change MINUS to EXCEPT.

Migration example

The example below shows migration when the set difference of query results is to be found.

Oracle database PostgreSQL
SELECT i_number, i_name FROM inventory_table 
  WHERE i_warehouse = 2 
 MINUS 
 SELECT i_number, i_name FROM inventory_table 
  WHERE i_name = 'cd';
SELECT i_number, i_name FROM inventory_table 
  WHERE i_warehouse = 2 
 EXCEPT 
 SELECT i_number, i_name FROM inventory_table 
  WHERE i_name = 'cd';

4.3 DELETE Statements

This section explains DELETE statements.

4.3.1 Omitting the FROM Keyword

Functional differences

  • Oracle database
    • The FROM keyword can be omitted from a DELETE statement.
  • PostgreSQL
    • The FROM keyword cannot be omitted from a DELETE statement.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword DELETE and identify where it is used.
  2. If the FROM keyword has been omitted from the DELETE statement, add it.

Migration example

The example below shows migration when the FROM keyword is omitted from a DELETE statement.

Oracle database PostgreSQL
DELETE inventory_table 
  WHERE i_name = 'cd player';
DELETE FROM inventory_table 
  WHERE i_name = 'cd player';

4.4 MERGE Statements

This section explains MERGE statements.

4.4.1 Executing MERGE Statements

Functional differences

  • Oracle database
    • MERGE statements can be used.
  • PostgreSQL
    • MERGE statements cannot be used.

Migration procedure

Use the following procedure to perform migration:

  1. Use an INSERT statement to specify the INSERT keyword that follows WHEN NOT MATCHED THEN in the MERGE statement.
  2. Use a SELECT statement after the lines added in step 1 to specify the SELECT statement that follows the USING clause of the MERGE statement.
  3. Use DO UPDATE in an ON CONFLICT clause of the INSERT statement specified in step 1 to specify the UPDATE keyword that follows WHEN MATCHED THEN in the MERGE statement.

Migration example

The example below shows how to migrate the MERGE statement.

Oracle database PostgreSQL
MERGE INTO new_inventory_table N 
 USING ( SELECT i_number, 
 i_name, 
 i_quantity, 
 i_warehouse 
 FROM inventory_table ) I 
 ON ( N.i_number = I.i_number ) 
 WHEN MATCHED THEN 
     UPDATE SET N.i_quantity = I.i_quantity 
 WHEN NOT MATCHED THEN 
     INSERT ( N.i_number, 
 N.i_name, 
 N.i_quantity, 
 N.i_warehouse ) 
     VALUES ( I.i_number, 
 I.i_name, 
 I.i_quantity, 
 I.i_warehouse );
INSERT INTO new_inventory_table AS N ( 
             i_number, 
             i_name, 
             i_quantity, 
             i_warehouse 
            ) 
 SELECT i_number, 
        i_name, 
        i_quantity, 
        i_warehouse 
 FROM inventory_table 
 ON CONFLICT (i_number) DO UPDATE 
 SET i_quantity = excluded.i_quantity; 




Note


In the migration example shown above, a primary key or unique key definition must have been specified in the column specified in the ON clause of the MERGE statement. If using a table for which a primary key or unique key definition is not specified in the column of the conditional expression, refer to the migration example provided in "Information" below.


Information


The example below shows migration when a primary key or unique key definition is not specified in the column specified in the ON clause of the MERGE statement.

Migration procedure

Use the following procedure to perform migration:

  1. Use a SELECT statement in a WITH query to specify the SELECT statement that follows the USING clause of the MERGE statement.
  2. Use an UPDATE statement in the WITH query to specify the UPDATE keyword that follows WHEN MATCHED THEN in the MERGE statement.
  3. Specify the INSERT keyword that follows the WHEN NOT MATCHED THEN clause of the MERGE statement as an INSERT statement following the WITH query.
  4. Specify NOT IN within the INSERT statement added in step 3 as an equivalent condition to the WHEN MATCHED THEN clause of the MERGE statement.

Migration example

The example below shows migration of a MERGE statement in which no primary key or unique key definition is specified.

Oracle database PostgreSQL
MERGE INTO new_inventory_table N 
 USING ( SELECT i_number, 
                i_name, 
                i_quantity, 
                i_warehouse 
 FROM inventory_table ) I 
 ON ( N.i_number = I.i_number ) 
 WHEN MATCHED THEN 
     UPDATE SET N.i_quantity = I.i_quantity 
 WHEN NOT MATCHED THEN 
     INSERT ( N.i_number, 
              N.i_name, 
              N.i_quantity, 
              N.i_warehouse ) 
     VALUES ( I.i_number, 
              I.i_name, 
              I.i_quantity, 
              I.i_warehouse );
WITH I AS ( 
 SELECT i_number, 
        i_name, 
        i_quantity, 
        i_warehouse 
 FROM inventory_table ), 
 U AS ( 
 UPDATE new_inventory_table AS N  
 SET i_quantity = I.i_quantity  
 FROM inventory_table I 
 WHERE N.i_number = I.i_number 
 RETURNING N.i_number ) 
 INSERT INTO new_inventory_table ( 
 SELECT * FROM I WHERE i_number NOT IN ( 
 SELECT i_number FROM U ) ); 



4.5 ALTER INDEX Statements

Description

An ALTER INDEX statement changes an index definition.

4.5.1 Restructuring an Index

Functional differences

  • Oracle database
    • A REBUILD clause can be specified in the ALTER INDEX statement to restructure an index.
  • PostgreSQL
    • A REBUILD clause cannot be specified in the ALTER INDEX statement. Use a REINDEX statement instead.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keywords ALTER and INDEX, and identify where they are used.
  2. If a REBUILD clause is specified, replace the ALTER INDEX statement with a REINDEX statement.

Migration example

The example below shows migration when an index is restructured.

Oracle database PostgreSQL
ALTER INDEX idx REBUILD;
REINDEX INDEX idx;

4.5.2 Restructuring an Index Where a Tablespace is Specified

Functional differences

  • Oracle database
    • A tablespace can be specified in a REBUILD clause.
  • PostgreSQL
    • A REBUILD clause cannot be used.

Migration procedure

The REBUILD statement for an index restructure is replaced with a REINDEX statement, but a tablespace cannot be specified in this statement. Therefore, move the tablespace before performing the index restructure. Use the following procedure to perform migration:

  1. Search for the keywords ALTER and INDEX, and identify where they are used.
  2. If both a REBUILD clause and a TABLESPACE clause are specified, replace the REBUILD clause of the ALTER INDEX statement with a SET clause.
  3. Add a REINDEX statement after the ALTER INDEX statement.

Migration example

The example below shows migration when a tablespace is specified for restructuring an index.

Oracle database PostgreSQL
ALTER INDEX idx REBUILD TABLESPACE tablespace1;
ALTER INDEX idx SET TABLESPACE tablespace1; 
 REINDEX INDEX idx;

4.5.3 Restructuring an Index Where a Free Space Percentage is Specified

Functional differences

  • Oracle database
    • PCTFREE can be specified in a REBUILD clause to specify a free space percentage for an index.
  • PostgreSQL
    • A REBUILD clause cannot be used.

Migration procedure

The REBUILD statement for an index restructure is replaced with a REINDEX statement, but a free space percentage cannot be specified in this statement. Therefore, change the index utilization rate so that an equivalent result is returned. Then restructure the index. Use the following procedure to perform migration:

  1. Search for the keywords ALTER and INDEX, and identify where they are used.
  2. If both a REBUILD clause and the PCTFREE keyword are specified, replace the REBUILD clause with a SET clause and change PCTFREE to FILLFACTOR. Use 100 - valueSpecifiedInPctfree as the set value.
  3. Add a REINDEX statement after the ALTER INDEX statement.

Migration example

The example below shows migration when a fill factor is specified for restructuring an index.

Oracle database PostgreSQL
ALTER INDEX idx REBUILD PCTFREE 10;
ALTER INDEX idx SET (FILLFACTOR=90); 
 REINDEX INDEX idx;

4.6 ALTER SESSION Statements

Description

An ALTER SESSION statement specifies and changes parameters per session.

4.6.1 Closing dblink

Functional differences

  • Oracle database
    • An ALTER SESSION statement is used to close dblink.
  • PostgreSQL
    • ALTER SESSION statements cannot be used. Use DBLINK_CLOSE instead.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keywords ALTER and SESSION, and identify where they are used.
  2. If a CLOSE DATABASE LINK clause is specified, delete the ALTER SESSION statement and replace it with a SELECT statement that calls DBLINK_CLOSE.

Migration example

The example below shows migration when dblink is closed.

Oracle database PostgreSQL
ALTER SESSION CLOSE DATABASE LINK dblink1;
SELECT DBLINK_CLOSE ( 'dblink1' );

4.6.2 Changing the Initialization Parameters

Functional differences

  • Oracle database
    • An ALTER SESSION statement is used to change the initialization parameters.
  • PostgreSQL
    • ALTER SESSION statements cannot be used. Use a SET statement instead to change the server parameters.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keywords ALTER and SESSION, and identify where they are used.
  2. Replace the ALTER SESSION statement with a SET statement. The table below lists the corresponding initialization parameters and server parameters.

Corresponding initialization parameters and server parameters

|Initialization parameter|Runtime configuration parameters of PostgreSQL| |:---|:---| | ENABLE_DDL_LOGGING | log_statement | | NLS_CURRENCY | lc_monetary | | NLS_DATE_FORMAT | DateStyle | | NLS_DATE_LANGUAGE | lc_time | | NLS_TIMESTAMP_FORMAT | lc_time | | NLS_TIMESTAMP_TZ_FORMAT | lc_time | | OPTIMIZER_INDEX_COST_ADJ | cpu_index_tuple_cost
seq_page_cost |

Migration example

The example below shows migration when the initialization parameters are changed.

Oracle database PostgreSQL
ALTER SESSION SET ENABLE_DDL_LOGGING = TRUE;
SET log_statement = 'DDL';

Note


The values that can be specified for server parameters may differ from those that can be specified for the initialization parameters. Refer to the manual provided by the vendor for the values that can be specified.


See


Refer to "Server Configuration" in "Server Administration" in the PostgreSQL Documentation for information on server parameters.


4.6.3 Setting Transaction Characteristics

Functional differences

  • Oracle database
    • An ALTER SESSION statement is used to set transaction characteristics.
  • PostgreSQL
    • ALTER SESSION statements cannot be used. Use a SET TRANSACTION statement instead.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keywords ALTER and SESSION, and identify where they are used.
  2. If SET ISOLATION_LEVEL is specified, replace the ALTER SESSION statement with a SET TRANSACTION statement.

Migration example

The example below shows migration when transaction characteristics are set.

Oracle database PostgreSQL
ALTER SESSION SET
 ISOLATION_LEVEL = SERIALIZABLE;
SET TRANSACTION 
 ISOLATION LEVEL SERIALIZABLE;

4.6.4 Migrating the Time Zone Setting

Functional differences

  • Oracle database
    • An ALTER SESSION statement is used to set the time zone.
  • PostgreSQL
    • ALTER SESSION statements cannot be used. Use a SET statement instead.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keywords ALTER and SESSION, and identify where they are used.
  2. If SET TIME_ZONE is specified, replace the ALTER SESSION statement with a SET statement.

Migration example

The example below shows migration when the time zone is set.

Oracle database PostgreSQL
ALTER SESSION SET TIME_ZONE = '+09:00';
SET TimeZone='Japan';

Note


Be sure to use the full time zone name when specifying the time zone in the TimeZone parameter of PostgreSQL.


4.7 GRANT Statements

Description

A GRANT statement defines access privileges.

4.7.1 Migratability of GRANT Statement Features

The following table indicates the migratability of the GRANT statement features provided by Oracle databases to PostgreSQL.

System privileges

|GRANT statement features of Oracle databases|Migratability|Remarks| |:---|:---:|:---| | Granting of system privileges | MR | PUBLIC cannot be specified for a grantee.
There are restrictions on the privileges that can be migrated. | | Granting of role (role) | YR | PUBLIC cannot be specified for a grantee. | | Granting of all system privileges (ALL PRIVILEGES) | Y | | | WITH ADMIN OPTION clause | MR | Only privileges that can be migrated with the GRANT statement. | | WITH DELEGATE OPTION clause | N | |

Object privileges

|GRANT statement features of Oracle databases|Migratability|Remarks| |:---|:---:|:---| | Granting of object privileges | YR | Columns can be specified.
There are restrictions on the privileges that can be migrated. | | Granting of all object privileges (ALL [PRIVILEGES]) | Y | Columns can be specified. | | Grantee Schema object | Y | | | Grantee User | N | | | Grantee Directory | N | | | Grantee Edition | N | | | Grantee Mining model | N | | | Grantee Java source | N | | | Grantee SQL translation profile | N | | | WITH HIERARCHY OPTION clause | N | | | WITH GRANT OPTION clause | Y | |

Program unit privileges

|GRANT statement features of Oracle databases|Migratability|Remarks| |:---|:---|:---| | Granting of program unit privileges | N | |

Y: Syntax can be migrated as is YR: Syntax can be migrated as is with restrictions MR: Modified syntax can be migrated with restrictions N: Cannot be migrated

4.7.2 Granting System Privileges

4.7.2.1 Granting Privileges for Operating Users and Roles

Functional differences

  • Oracle database
    • A GRANT statement is used to grant privileges for creating and changing users and roles.
  • PostgreSQL
    • A GRANT statement cannot be used to grant privileges for creating and changing users and roles. Use an ALTER ROLE statement instead.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword GRANT and identify where it is used.
  2. If privileges for creating and changing users and roles are granted, replace the GRANT statement with the ALTER ROLE statement. The table below lists the migratable user and role operation privileges.

Migratable user and role operation privileges

  • ROLES

|GRANT statement in Oracle database|Corresponding ALTER ROLE statement in PostgreSQL| |:---|:---:| |GRANT CREATE ROLE TO roleName
GRANT ALTER ANY ROLE TO roleName
GRANT DROP ANY ROLE TO roleName
GRANT ANY ROLE TO roleName | ALTER ROLE roleName CREATEROLE;|

  • USERS

|GRANT statement in Oracle database|Corresponding ALTER ROLE statement in PostgreSQL| |:---|:---:| |GRANT CREATE USER TO userName
GRANT ALTER USER TO userName
GRANT DROP USER TO userName|ALTER ROLE userName CREATEUSER|

Migration example

The example below shows migration when role creation privileges are granted.

Oracle database PostgreSQL
GRANT CREATE ROLE TO role1;
ALTER ROLE role1 CREATEROLE;

4.7.2.2 Granting Privileges for Creating Objects

Functional differences

  • Oracle database
    • A GRANT statement is used to grant creation privileges per object.
  • PostgreSQL
    • A GRANT statement is used to grant object creation privileges per schema or database.

Migration procedure

Use the following procedure to perform migration:

  1. Search for the keyword GRANT and identify where it is used.
  2. If creation privileges are granted per object, replace the GRANT statement with a GRANT statement that grants creation privileges per schema or database. The table below lists the migratable object creation privileges.

Migratable object creation privileges

|Object|GRANT statement in Oracle database|Corresponding ALTER ROLE statement in PostgreSQL| |:---|:---|:---| | MATERIALIZED VIEWS | GRANT CREATE MATERIALIZED VIEW TO userName | GRANT CREATE ON SCHEMA schemaName TO userName | | OPERATORS | GRANT CREATE OPERATOR TO userName | GRANT CREATE ON SCHEMA schemaName TO userName | | PROCEDURES | GRANT CREATE PROCEDURE TO userName | GRANT CREATE ON SCHEMA schemaName TO userName | | SEQUENCES | GRANT CREATE SEQUENCE TO userName | GRANT CREATE ON SCHEMA schemaName TO userName | | SESSIONS | GRANT CREATE SESSION TO userName | GRANT CONNECT ON DATABASE databaseName TO userName | | TABLES | GRANT CREATE TABLE TO userName | GRANT CREATE ON SCHEMA schemaName TO userName | | TRIGGERS | GRANT CREATE TRIGGER TO userName | GRANT CREATE ON SCHEMA schemaName TO userName | | TYPES | GRANT CREATE TYPE TO userName | GRANT CREATE ON SCHEMA schemaName TO userName | | VIEWS | GRANT CREATE VIEW TO userName | GRANT CREATE ON SCHEMA schemaName TO userName |

Migration example

The example below shows migration when table creation privileges are granted.

Oracle database PostgreSQL
GRANT CREATE TABLE TO user1;
GRANT CREATE ON SCHEMA scm1 TO user1;
4.7.2.3 Granting Roles (with Password Setting)

Functional differences

  • Oracle database
    • When a GRANT statement is used to assign a user to a role, a password can be set at the same time.
  • PostgreSQL
    • When a GRANT statement is used to assign a user to a role, a password cannot be set at the same time.

Migration procedure

To set a password, you must specify a separate CREATE USER or ALTER USER statement and set the password in that statement. Use the following procedure to perform migration:

  1. Search for the keyword GRANT and identify where it is used.
  2. If an IDENTIFIED BY clause is specified, check if the target user exists.
  3. If the user exists, use an ALTER USER statement to change the password. If the user does not exist, use a CREATE USER statement to create a new user and set a password.
  4. Delete the clause for granting a password from the GRANT statement.

Migration example

The example below shows migration when role1 is granted to user1.

Oracle database PostgreSQL
GRANT role1 TO user1 IDENTIFIED BY PASSWORD;
 CREATE USER user1 PASSWORD 'PASSWORD'; 
 GRANT role1 TO user1;

4.7.3 Granting Object Privileges

There is no difference in the syntax of GRANT statements with regard to object privileges that are migratable from an Oracle database. However, some object privileges cannot be used in PostgreSQL, so they must be changed to supported object privileges.

The table below lists the object privileges that can be migrated from an Oracle database to PostgreSQL.

Migratable object privileges

  • Materialized view privileges

|Name of object privilege|Change required|Remarks| |:---|:---:|:---| | READ | Yes | Change to SELECT. | | SELECT | No | If a FOR UPDATE clause is used in the SELECT statement, UPDATE privileges are also required. |

  • Operator privileges

|Name of object privilege|Change required|Remarks| |:---|:---:|:---| EXECUTE | Yes | In PostgreSQL, EXECUTE privileges must be granted to a function that implements operators.|

  • Procedure, function, and package privileges

|Name of object privilege|Change required|Remarks| |:---|:---:|:---| | EXECUTE | Yes | The FUNCTION keyword must be added before the function name. |

  • Sequence privileges

|Name of object privilege|Change required|Remarks| |:---|:---:|:---| | SELECT | Yes | Change to USAGE.
The SEQUENCE keyword must be added before the sequence name. |

  • Table privileges

|Name of object privilege|Change required|Remarks| |:---|:---:|:---| | DELETE | No | | | INSERT | No | | | READ | Yes | Change to SELECT. | | REFERENCES | No | | | SELECT | No | If a FOR UPDATE clause is used in the SELECT statement, UPDATE privileges are also required. | | UPDATE | No | |

  • View privileges

|Name of object privilege|Change required|Remarks| |:---|:---:|:---| | DELETE | No | | | INSERT | No | | | READ | Yes | Change to SELECT. | | REFERENCES | No | | | SELECT | No | If a FOR UPDATE clause is used in the SELECT statement, UPDATE privileges are also required. | | UPDATE | No | |