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Hierarchical and recursive queries in SQL

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A hierarchical query is a type of SQL query that handles hierarchical model data. They are special cases of more general recursive fixpoint queries, which compute transitive closures.

In standard SQL:1999 hierarchical queries are implemented by way of recursive common table expressions (CTEs). Unlike Oracle's earlier connect-by clause, recursive CTEs were designed with fixpoint semantics from the beginning.[1] Recursive CTEs from the standard were relatively close to the existing implementation in IBM DB2 version 2.[1] Recursive CTEs are also supported by Microsoft SQL Server (since SQL Server 2008 R2),[2] Firebird 2.1,[3] PostgreSQL 8.4+,[4] SQLite 3.8.3+,[5] IBM Informix version 11.50+, CUBRID, MariaDB 10.2+ and MySQL 8.0.1+.[6] Tableau has documentation describing how CTEs can be used. TIBCO Spotfire does not support CTEs, while Oracle 11g Release 2's implementation lacks fixpoint semantics.

Without common table expressions or connected-by clauses it is possible to achieve hierarchical queries with user-defined recursive functions.[7]

Common table expression

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A common table expression, or CTE, (in SQL) is a temporary named result set, derived from a simple query and defined within the execution scope of a SELECT, INSERT, UPDATE, or DELETE statement.

CTEs can be thought of as alternatives to derived tables (subquery), views, and inline user-defined functions.

Common table expressions are supported by Teradata (starting with version 14), IBM Db2, Informix (starting with version 14.1), Firebird (starting with version 2.1),[8] Microsoft SQL Server (starting with version 2005), Oracle (with recursion since 11g release 2), PostgreSQL (since 8.4), MariaDB (since 10.2), MySQL (since 8.0), SQLite (since 3.8.3), HyperSQL, Informix (since 14.10),[9] Google BigQuery, Sybase (starting with version 9), Vertica, H2 (experimental),[10] and many others. Oracle calls CTEs "subquery factoring".[11]

The syntax for a CTE (which may or may not be recursive) is as follows:

WITH [RECURSIVE] with_query [, ...]
SELECT ...

where with_query's syntax is:

query_name [ (column_name [,...]) ] AS (SELECT ...)

Recursive CTEs can be used to traverse relations (as graphs or trees) although the syntax is much more involved because there are no automatic pseudo-columns created (like LEVEL below); if these are desired, they have to be created in the code. See MSDN documentation[2] or IBM documentation[12][13] for tutorial examples.

The RECURSIVE keyword is not usually needed after WITH in systems other than PostgreSQL.[14]

In SQL:1999 a recursive (CTE) query may appear anywhere a query is allowed. It's possible, for example, to name the result using CREATE [RECURSIVE] VIEW.[15] Using a CTE inside an INSERT INTO, one can populate a table with data generated from a recursive query; random data generation is possible using this technique without using any procedural statements.[16]

Some Databases, like PostgreSQL, support a shorter CREATE RECURSIVE VIEW format which is internally translated into WITH RECURSIVE coding.[17]

An example of a recursive query computing the factorial of numbers from 0 to 9 is the following:

WITH recursive temp (n, fact) AS (
    SELECT 0,   1                                   -- Initial Subquery
  UNION ALL
    SELECT n+1, (n+1)*fact  FROM temp  WHERE n < 9  -- Recursive Subquery
)
SELECT * FROM temp;

CONNECT BY

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An alternative syntax is the non-standard CONNECT BY construct; it was introduced by Oracle in the 1980s.[18] Prior to Oracle 10g, the construct was only useful for traversing acyclic graphs because it returned an error on detecting any cycles; in version 10g Oracle introduced the NOCYCLE feature (and keyword), making the traversal work in the presence of cycles as well.[19]

CONNECT BY is supported by Snowflake, EnterpriseDB,[20] Oracle database,[21] CUBRID,[22] IBM Informix[23] and IBM Db2 although only if it is enabled as a compatibility mode.[24] The syntax is as follows:

SELECT select_list
FROM table_expression
[ WHERE ... ]
[ START WITH start_expression ]
CONNECT BY [NOCYCLE] { PRIOR child_expr = parent_expr | parent_expr = PRIOR child_expr }
[ ORDER SIBLINGS BY column1 [ ASC | DESC ] [, column2 [ ASC | DESC ] ] ... ]
[ GROUP BY ... ]
[ HAVING ... ]
...
For example,
SELECT LEVEL, LPAD (' ', 2 * (LEVEL - 1)) || ename "employee", empno, mgr "manager"
FROM emp START WITH mgr IS NULL
CONNECT BY PRIOR empno = mgr;

The output from the above query would look like:

 level |  employee   | empno | manager
-------+-------------+-------+---------
     1 | KING        |  7839 |
     2 |   JONES     |  7566 |    7839
     3 |     SCOTT   |  7788 |    7566
     4 |       ADAMS |  7876 |    7788
     3 |     FORD    |  7902 |    7566
     4 |       SMITH |  7369 |    7902
     2 |   BLAKE     |  7698 |    7839
     3 |     ALLEN   |  7499 |    7698
     3 |     WARD    |  7521 |    7698
     3 |     MARTIN  |  7654 |    7698
     3 |     TURNER  |  7844 |    7698
     3 |     JAMES   |  7900 |    7698
     2 |   CLARK     |  7782 |    7839
     3 |     MILLER  |  7934 |    7782
(14 rows)

Pseudo-columns

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  • LEVEL
  • CONNECT_BY_ISLEAF
  • CONNECT_BY_ISCYCLE
  • CONNECT_BY_ROOT

Unary operators

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The following example returns the last name of each employee in department 10, each manager above that employee in the hierarchy, the number of levels between manager and employee, and the path between the two:

SELECT
  ename                           "Employee",
  CONNECT_BY_ROOT ename           "Manager",
  LEVEL-1                         "Pathlen",
  SYS_CONNECT_BY_PATH(ename, '/') "Path"
FROM emp
WHERE LEVEL > 1 AND deptno = 10
CONNECT BY PRIOR empno = mgr
ORDER BY "Employee", "Manager", "Pathlen", "Path";

Functions

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  • SYS_CONNECT_BY_PATH

See also

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References

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  1. ^ a b Jim Melton; Alan R. Simon (2002). SQL:1999: Understanding Relational Language Components. Morgan Kaufmann. ISBN 978-1-55860-456-8.
  2. ^ a b Microsoft. "Recursive Queries Using Common Table Expressions". Retrieved 2009-12-23.
  3. ^ Helen Borrie (2008-07-15). "Firebird 2.1 Release Notes". Retrieved 2015-11-24.
  4. ^ "WITH Queries". 10 February 2022. PostgreSQL
  5. ^ "WITH Clause". SQLite
  6. ^ "MySQL 8.0 Labs: [Recursive] Common Table Expressions in MySQL (CTEs)". Archived from the original on 2019-08-16. Retrieved 2017-12-20. mysqlserverteam.com
  7. ^ Paragon corporation: Using PostgreSQL User-Defined Functions to solve the Tree Problem, February 15, 2004, accessed September 19, 2015
  8. ^ https://firebirdsql.org/file/documentation/reference_manuals/reference_material/Firebird-2.5-LangRef-Update.pdf [bare URL PDF]
  9. ^ possible before 14.10 with temp tables https://stackoverflow.com/questions/42579298/why-does-a-with-clause-give-a-syntax-error-on-informix
  10. ^ "Advanced".
  11. ^ Karen Morton; Robyn Sands; Jared Still; Riyaj Shamsudeen; Kerry Osborne (2010). Pro Oracle SQL. Apress. p. 283. ISBN 978-1-4302-3228-5.
  12. ^ "IBM Docs".
  13. ^ "IBM Docs".
  14. ^ Regina Obe; Leo Hsu (2012). PostgreSQL: Up and Running. O'Reilly Media. p. 94. ISBN 978-1-4493-2633-3.
  15. ^ Jim Melton; Alan R. Simon (2002). SQL:1999: Understanding Relational Language Components. Morgan Kaufmann. p. 352. ISBN 978-1-55860-456-8.
  16. ^ Don Chamberlin (1998). A Complete Guide to DB2 Universal Database. Morgan Kaufmann. pp. 253–254. ISBN 978-1-55860-482-7.
  17. ^ "Create View". 10 February 2022.
  18. ^ Benedikt, M.; Senellart, P. (2011). "Databases". In Blum, Edward K.; Aho, Alfred V. (eds.). Computer Science. The Hardware, Software and Heart of It. p. 189. doi:10.1007/978-1-4614-1168-0_10. ISBN 978-1-4614-1167-3.
  19. ^ Sanjay Mishra; Alan Beaulieu (2004). Mastering Oracle SQL. O'Reilly Media, Inc. p. 227. ISBN 978-0-596-00632-7.
  20. ^ Hierarchical Queries Archived 2008-06-21 at the Wayback Machine, EnterpriseDB
  21. ^ Hierarchical Queries, Oracle
  22. ^ "CUBRID Hierarchical Query". Archived from the original on 14 February 2013. Retrieved 11 February 2013.
  23. ^ Hierarchical Clause, IBM Informix
  24. ^ Jonathan Gennick (2010). SQL Pocket Guide (3rd ed.). O'Reilly Media, Inc. p. 8. ISBN 978-1-4493-9409-7.

Further reading

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Academic textbooks. Note that these cover only the SQL:1999 standard (and Datalog), but not the Oracle extension.

  • Abraham Silberschatz; Henry Korth; S. Sudarshan (2010). Database System Concepts (6th ed.). McGraw-Hill. pp. 187–192. ISBN 978-0-07-352332-3.
  • Raghu Ramakrishnan; Johannes Gehrke (2003). Database management systems (3rd ed.). McGraw-Hill. ISBN 978-0-07-246563-1. Chapter 24.
  • Hector Garcia-Molina; Jeffrey D. Ullman; Jennifer Widom (2009). Database systems: the complete book (2nd ed.). Pearson Prentice Hall. pp. 437–445. ISBN 978-0-13-187325-4.
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