1 / 44

Advanced SQL Programming

Advanced SQL Programming. Mark Holm Centerfield Technology. Goals. Introduce some useful advanced SQL programming techniques Show you how to let the database do more work to reduce programming effort Go over some basic techniques and tips to improve performance. 2. Notes.

betha
Download Presentation

Advanced SQL Programming

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Advanced SQLProgramming Mark Holm Centerfield Technology

  2. Goals • Introduce some useful advanced SQL programming techniques • Show you how to let the database do more work to reduce programming effort • Go over some basic techniques and tips to improve performance 2

  3. Notes • V4R3 and higher syntax used in examples • Examples show only a small subset of what can be done! 3

  4. Agenda • Joining files - techniques, do’s and don’ts • Query within a query - Subqueries • Stacking data - Unions • Simplifying data with Views • Referential Integrity and constraints • Performance, performance, performance 4

  5. Joining files • Joins are used to relate data from different tables • Data can be retrieved with one “open file” rather than many • Concept is identical to join logical files without an associated permanent object (except if the join is done with an SQL view) 5

  6. Join types • Inner Join • Used to find related data • Left Outer (or simply Outer) Join • Used to find related data and ‘orphaned’ rows • Exception Join • Used to only find ‘orphaned’ rows • Cross Join • Join all rows to all rows 6

  7. Sample tables Employee table Department table

  8. Inner Join • Method #1 - Using the WHERE Clause SELECT LastName, Division FROM Employee, Department WHERE Employee.Dept = Department.Dept • Method #2 - Using the JOIN Clause SELECT LastName, Division FROM Employee INNER JOIN Department ON Employee.Dept = Department.Dept NOTE: This method is useful if you need to influence the order of the tables are joined in for performance reasons. Only works on releases prior to V4R4. 8

  9. Results • Return list of employees that are in a valid department. • Employee ‘Smith’ is not returned because she is not in a department listed in the ‘Department’ table Result table 9

  10. Left Outer Join • Must use Join Syntax SELECT LastName, Area FROM Employee LEFT OUTER JOIN Department ON Employee.Dept = Department.Dept 10

  11. Results • Return list of employees even if they are not in a valid department • Employee ‘Smith’ has a NULL Area because it could not be associated with a valid Dept Result table 11

  12. Exception Join • Must use Join Syntax SELECT LastName, Area FROM Employee EXCEPTION JOIN Department ON Employee.Dept = Department.Dept 12

  13. Results • Return list of employees only if they are NOT in a valid department • Employee ‘Smith’ is only one without a valid department Result table 13

  14. WARNING! • The order tables are listed in the FROM clause is important • For OUTER and EXCEPTION joins, the database must join the tables in that order. • The result may be horrible performance…more on this topic later 14

  15. Observations • Joins provide one way to bury application logic in the database • Each join type has a purpose and can be used to not only get the data you want but identify “incomplete” information • With some exceptions, if joined properly performance should be at least as good as an application 15

  16. Subqueries • Subqueries are a powerful way to select only the data you need without separate statements. • Example: List employees making a higher than average salary 16

  17. Subquery Example SELECTFNAME, LNAME FROM EMPLOYEE WHERE SALARY > (SELECT AVG(SALARY) FROM EMPLOYEE) SELECTFNAME, LNAME FROM EMPLOYEE WHERE SALARY > (SELECT AVG(SALARY) FROM EMPLOYEE WHERE LNAME = ’JONES’) 17

  18. Subqueries - types • Correlated • Inner select refers to part of the outer (parent) select (multiple evaluations) • Non-Correlated • Inner select does not relate to outer query (one evaluation) 18

  19. Subquery Tips 1 • Subquery optimization (2nd statement will be faster) • SELECT name FROM employee WHERE salary > ALL (SELECT salary FROM salscale) • SELECT name FROM employee WHERE salary > (SELECT max(salary) FROM salscale) 19

  20. Subquery Tips 2 • Subquery optimization (2nd statement will be faster) • SELECT name FROM employee WHERE salary IN (SELECT salary FROM salscale) • SELECT name FROM employee WHERE EXISTS (SELECT salary FROM salscale WHERE employee.salid = salscale.salid) 20

  21. UNIONs • Unions provide a way to append multiple row sets files in one statement • Example: Process all of the orders from January and February SELECT * FROM JanOrders WHERE SKU = 199976 UNION SELECT * FROM FebOrders WHERE SKU = 199976 21

  22. Unions • Each SELECT statement that is UNIONed together must have the same number of result columns and have compatible types • Two forms of syntax • UNION ALL -- allow duplicate records • UNION -- return only distinct rows 22

  23. Views • Views provide a convenient way to permanently put SQL logic • Create once and use many times • Also make the database more understandable to users • Can put simple business rules into views to ensure consistency 23

  24. Views • Example: Make it easy for the human resources department to run a report that shows ‘new’ employees. CREATE VIEW HR/NEWBIES (EMPLOYEE_NAME, DEPARTMENT, HIRE_DATE)AS SELECTconcat(concat(strip(last_name),','),strip(first_name)), department, hire_date FROMHR/EMPLOYEE WHERE (year(current date)-year(hire_date)) < 2 24

  25. Performance • SQL performance is harder to predict and tune than native I/O. • SQL provides a powerful way to manipulate data but you have little control over HOW it does it. • Query optimizer takes responsibility for doing it ‘right’. 25

  26. Performance - diagnosis • Getting information about how the optimizer processed a query is crucial • Can be done via one or all of the following: • STRDBG: debug messages in job log • STRDBMON: optimizer info put in file • QAQQINI: can be used to force messages • CHGQRYA: messages put out when time limit set to 0 26

  27. Performance tips • Create indexes • Over columns that significantly limit data in WHERE clause • Over columns that join tables together • Over columns used in ORDER BY and GROUP BY clauses 27

  28. Performance tips • Create Encoded Vector Indexes (EVI’s) • Most useful in heavy query environments with a lot of data (e.g. large data warehouses) • Helps queries that process between 20-60% of a table’s data • Create over columns with a modest number of distinct values and those with data skew • EVI’s bridge the gap between traditional indexes and table scans 28

  29. Performance tips • Encourage optimizer to use indexes • Use keyed columns in WHERE clause if possible • Use ANDed conditions as much as possible • OPTIMIZE FOR n ROWS • Don’t do things that eliminate index use • Data conversion (binary-key = 1.5) • LIKE clause w/leading wildcard (NAME LIKE ‘%JOE’) 29

  30. Performance tips • Keep statements simple • Complex statements are much more difficult to optimize • Provide more opportunity for the optimizer to choose a sub-optimal plan of attack 30

  31. Performance tips • Enable DB2 to use parallelism • Query processed by many tasks (CPU parallelism) or by getting data from many disks at once (I/O parallelism) • CPU parallelism requires IBM’s SMP feature and a machine with multiple processors • Enabled via the QQRYDEGREE system value, CHGQRYA, or the QAQQINI file 31

  32. Other useful features • CASE clause - conditional calculations • ALIAS - access to multi-member files • Primary/Foreign keys - referential integrity • Constraints 32

  33. CASE • Conditional calculations with CASE SELECTWarehouse, Description, CASERegionCode WHEN'E'THEN'East Region' WHEN'S'THEN'South Region' WHEN'M'THEN'Midwest Region' WHEN'W'THEN'West Region' END FROMLocations 33

  34. CASE • Avoiding calculation errors (e.g. division by 0) SELECT Warehouse, Description, CASE NumInStock WHEN 0 THEN NULL ELSE CaseUnits/NumInStock END FROM Inventory 34

  35. ALIAS names • The CREATE ALIAS statement creates an alias on a table, view, or member of a database file. • CREATE ALIAS alias-name FOR table member • Example: Create an alias over the second member of a multi-member physical file • CREATE ALIAS February FOR MonthSales February 35

  36. Referential Integrity • Keeps two or more files in synch with each other • Ensures that children rows have parents • Can also be used to automatically delete children when parents are deleted 36

  37. Referential Integrity Rules • A row inserted into a child table must have a parent row (typically in another table). • Parent rules • A parent row can not be deleted if there are dependent children (Restrict rule) OR • All children are also deleted (Cascade rule) OR • All children’s foreign keys are changed (Set Null and Set Default rules) 37

  38. Primary key must be unique Primary Key Foreign Key Parent table Child table 38

  39. Referential Integrity syntax • ALTER TABLE Hr/Employee ADD CONSTRAINT EmpPK PRIMARY KEY (EmployeeId) • ALTER TABLE Hr/Department ADD CONSTRAINT EmpFK FOREIGN KEY (EmployeeId) REFERENCES Hr/Employee (EmployeeId) ON DELETE CASCADE ON UPDATE RESTRICT 39

  40. Check Constraints • Rules which limit the allowable values in one or more columns: CREATE TABLE Employee (FirstName CHAR(20), LastName CHAR(30), Salary CHECK (Salary>0 AND Salary<200000)) 40

  41. Check Constraints • Effectively does data checking at the database level. • Data checking done with display files or application logic can now be done at the database level. • Ensures that it is always done and closes “back doors” like DFU, ODBC, 3-rd party utilities…. 41

  42. Other resources • Database Design and Programming for DB2/400 - book by Paul Conte • SQL for Smarties - book by Joe Celko • SQL Tutorial - www.as400network.com • AS/400 DB2 web site at http://www.as400.ibm.com/db2/db2main.htm • Publications at http://publib.boulder.ibm.com/pubs/html/as400/ • Our web site at http://www.centerfieldtechnology.com 42

  43. Summary • SQL is a powerful way to access and process data • Used effectively, it can reduce the time it takes to build applications • Once tuned, it can perform very close (and sometimes better) than HLL’s alone 43

  44. Good Luck and Happy SQLing

More Related