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Techniques for Manipulating Relational Data

Techniques for Manipulating Relational Data. By Herbert A. Evans. Definition Terms. DDL (data definition language) - of a relational system is used to define the database’s attributes, tables, relationships, and indexes.

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Techniques for Manipulating Relational Data

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  1. Techniques for Manipulating Relational Data By Herbert A. Evans

  2. Definition Terms • DDL (data definition language) - of a relational system is used to define the database’s attributes, tables, relationships, and indexes. • DML (data manipulation language) – is used to extract, insert, and modify the information content of the database.

  3. What is SQL? • The DML that is of most interest to us is the SQL (Structured Query Language) • SQL specifies the manipulation of relations by describing the results of queries, but does not give specific strategies for executing queries.

  4. Requiring a Formal Model • We need a formal model that is sufficiently powerful to allow optimization of queries. • Relational algebra is that formal model!

  5. What does relational algebra operators do? • Reduce the number of tuples in a set by selecting those that satisfy some criteria (selection operators). • Reduce the size of each tuple in a set by eliminating specific attributes (projection operators). • Manipulate two similar sets of tuples by combining or comparing (set operators). • Increase the size of each tuple by adding attributes (join and product operations).

  6. Find all customers whose last name is “Doe”

  7. Using selection operator to solve the previous task • Relational algebra expression would be lastName=‘DOE’(Customer) • The new relation results from a selection that has the same attributes as the input relation, but may have fewer rows.

  8. Result of finding all customers whose last name is “Doe”

  9. Find all employees whose ssn is 376-77-0099 and who were employed after march 1, 1998

  10. Using selection operator to solve previous task • Relational algebra expression would be ssn=‘376-77-0099’ and date > ’01-mar-1999’(TimeCard) • The new relation results from a selection that has the same attributes as the input relation, but may have fewer rows.

  11. Result of finding all employees whose ssn is 376-77-0099 and who were employed after march 1, 1998

  12. List the first and last names of all customers

  13. Using Projection Operator to Solve Previous Task • Relational algebra expression would be lastName, firstName(Customer) • The equivalent SQL expression would be select lastName, firstName from Customer

  14. Result of listing the first and last names of all customers

  15. What are Set Operators? • When two relations have the same shape, that is, when the types of the attributes are the same, we can apply the usual set operators to the relations. • This includes union, intersection, and difference.

  16. Explanation of Set Operators • The union of two relations is a relation that contains the set of each tuple that is in at least one of the input relations. • The intersection of two relations is the set of all tuples that occur in both input relations. • The difference between two relations is the set of all tuples that are in the first relation but not in the second.

  17. Set Operator Examples

  18. Product Operators • The simplest product operator is the Cartesian Product. • It produces a tuple of the new relation for each combination of one tuple from the left operand and one tuple from the right operand.

  19. Employee x TimeCard

  20. Partial Result of Employee.ssn=TimeCard.ssn(Employee X TimeCard)

  21. Join operators • It is expressed as those rows in the product whose specified fields match. • It puts together related objects from two relations.

  22. Employee natural joinssn TimeCard

  23. Result of natural joinssn TimeCard

  24. Division Operator • It is used to find objects that match every element of another set of objects.

  25. Example of Division operator

  26. References • Riccardi, Greg. Principles of DATABASE SYSTEMS with Internet and Java Applications: Addision Wesley, 2001. • Dr. Lee’s relational algebra lecture

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