1 Lecture 6: Views Friday, January 17th, 2003. 2 Updating Views How can I insert a tuple into a table that doesn’t exist? Employee(ssn, name, department,

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Presentation transcript:

1 Lecture 6: Views Friday, January 17th, 2003

2 Updating Views How can I insert a tuple into a table that doesn’t exist? Employee(ssn, name, department, project, salary) CREATE VIEW Developers AS SELECT name, project FROM Employee WHERE department = “Development” CREATE VIEW Developers AS SELECT name, project FROM Employee WHERE department = “Development” INSERT INTO Developers VALUES(“Joe”, “Optimizer”) INSERT INTO Employee VALUES(NULL, “Joe”, NULL, “Optimizer”, NULL) If we make the following insertion: It becomes:

3 Non-Updatable Views CREATE VIEW Seattle-view AS SELECT seller, product, store FROM Person, Purchase WHERE Person.city = “Seattle” AND Person.name = Purchase.buyer CREATE VIEW Seattle-view AS SELECT seller, product, store FROM Person, Purchase WHERE Person.city = “Seattle” AND Person.name = Purchase.buyer How can we add the following tuple to the view? (“Joe”, “Shoe Model 12345”, “Nine West”) We need to add “Joe” to Person first, but we don’t have all its attributes

4 Answering Queries Using Views What if we want to use a set of views to answer a query. Why? –The obvious reason… –Answering queries over web data sources. Very cool stuff! (i.e., I did a lot of research on this).

5 Reusing a Materialized View Suppose I have only the result of SeattleView: SELECT buyer, seller, product, store FROM Person, Purchase WHERE Person.city = ‘Seattle’ AND Person.per-name = Purchase.buyer and I want to answer the query SELECT buyer, seller FROM Person, Purchase WHERE Person.city = ‘Seattle’ AND Person.per-name = Purchase.buyer AND Purchase.product=‘gizmo’. Then, I can rewrite the query using the view.

6 Query Rewriting Using Views Rewritten query: SELECT buyer, seller FROM SeattleView WHERE product= ‘gizmo’ Original query: SELECT buyer, seller FROM Person, Purchase WHERE Person.city = ‘Seattle’ AND Person.per-name = Purchase.buyer AND Purchase.product=‘gizmo’.

7 Another Example I still have only the result of SeattleView: SELECT buyer, seller, product, store FROM Person, Purchase WHERE Person.city = ‘Seattle’ AND Person.per-name = Purchase.buyer but I want to answer the query SELECT buyer, seller FROM Person, Purchase WHERE Person.city = ‘Seattle’ AND Person.per-name = Purchase.buyer AND Person.Phone LIKE ‘ %’.

8 And Now? I still have only the result of SeattleView: SELECT buyer, seller, product, store FROM Person, Purchase, Product WHERE Person.city = ‘Seattle’ AND Person.per-name = Purchase.buyer AND Purchase.product = Product.name but I want to answer the query SELECT buyer, seller FROM Person, Purchase WHERE Person.city = ‘Seattle’ AND Person.per-name = Purchase.buyer.

9 And Now? I still have only the result of: SELECT seller, buyer, Sum(Price) FROM Purchase WHERE Purchase.store = ‘The Bon’ Group By seller, buyer but I want to answer the query SELECT seller, Sum(Price) FROM Purchase WHERE Person.store = ‘The Bon’ Group By seller And what if it’s the other way around?

10 Finally… I still have only the result of: SELECT seller, buyer, Count(*) FROM Purchase WHERE Purchase.store = ‘The Bon’ Group By seller, buyer but I want to answer the query SELECT seller, Count(*) FROM Purchase WHERE Person.store = ‘The Bon’ Group By seller

11 The General Problem Given a set of views V1,…,Vn, and a query Q, can we answer Q using only the answers to V1,…,Vn? Why do we care? –We can answer queries more efficiently. –We can query data sources on the WWW in a principled manner. Many, many papers on this problem. The best performing algorithm: The MiniCon Algorithm, (Pottinger & (Ha)Levy, 2000).

12 Querying the WWW Assume a virtual schema of the WWW, e.g., –Course(number, university, title, prof, quarter) Every data source on the web contains the answer to a view over the virtual schema: UW database: SELECT number, title, prof FROM Course WHERE univ=‘UW’ AND quarter=‘2/02’ Stanford database: SELECT number, title, prof, quarter FROM Course WHERE univ=‘Stanford’ User query: find all professors who teach “database systems”

13 Constraints in SQL A constraint = a property that we’d like our database to hold The system will enforce the constraint by taking some actions: –forbid an update –or perform compensating updates

14 Constraints in SQL Constraints in SQL: Keys, foreign keys Attribute-level constraints Tuple-level constraints Global constraints: assertions The more complex the constraint, the harder it is to check and to enforce simplest Most complex

15 Keys OR: CREATE TABLE Product ( name CHAR(30) PRIMARY KEY, category VARCHAR(20)) CREATE TABLE Product ( name CHAR(30) PRIMARY KEY, category VARCHAR(20)) CREATE TABLE Product ( name CHAR(30), category VARCHAR(20) PRIMARY KEY (name)) CREATE TABLE Product ( name CHAR(30), category VARCHAR(20) PRIMARY KEY (name))

16 Keys with Multiple Attributes CREATE TABLE Product ( name CHAR(30), category VARCHAR(20), price INT, PRIMARY KEY (name, category)) CREATE TABLE Product ( name CHAR(30), category VARCHAR(20), price INT, PRIMARY KEY (name, category))

17 Other Keys CREATE TABLE Product ( productID CHAR(10), name CHAR(30), category VARCHAR(20), price INT, PRIMARY KEY (productID), UNIQUE (name, category)) CREATE TABLE Product ( productID CHAR(10), name CHAR(30), category VARCHAR(20), price INT, PRIMARY KEY (productID), UNIQUE (name, category)) There is at most one PRIMARY KEY; there can be many UNIQUE

18 Foreign Key Constraints CREATE TABLE Purchase ( prodName CHAR(30) REFERENCES Product(name), date DATETIME) CREATE TABLE Purchase ( prodName CHAR(30) REFERENCES Product(name), date DATETIME) prodName is a foreign key to Product(name) name must be a key in Product Referential integrity constraints

19 NameCategory Gizmogadget CameraPhoto OneClickPhoto ProdNameStore GizmoWiz CameraRitz CameraWiz ProductPurchase

20 Foreign Key Constraints OR (name, category) must be a PRIMARY KEY CREATE TABLE Purchase ( prodName CHAR(30), category VARCHAR(20), date DATETIME, FOREIGN KEY (prodName, category) REFERENCES Product(name, category) CREATE TABLE Purchase ( prodName CHAR(30), category VARCHAR(20), date DATETIME, FOREIGN KEY (prodName, category) REFERENCES Product(name, category)

21 NameCategory Gizmogadget CameraPhoto OneClickPhoto ProdNameStore GizmoWiz CameraRitz CameraWiz ProductPurchase What happens during updates ? Types of updates: In Purchase: insert/update In Product: delete/update

22 What happens during updates ? SQL has three policies for maintaining referential integrity: Reject violating modifications (default) Cascade: after a delete/update do a delete/update Set-null set foreign-key field to NULL READING ASSIGNEMNT: 7.1.5, 7.1.6

23 Constraints on Attributes and Tuples Constraints on attributes: NOT NULL-- obvious meaning... CHECK condition-- any condition ! Constraints on tuples CHECK condition

24 CREATE TABLE Purchase ( prodName CHAR(30) CHECK (prodName IN SELECT Product.name FROM Product), date DATETIME NOT NULL) CREATE TABLE Purchase ( prodName CHAR(30) CHECK (prodName IN SELECT Product.name FROM Product), date DATETIME NOT NULL) What is the difference from Foreign-Key ?

25 General Assertions CREATE ASSERTION myAssert CHECK NOT EXISTS( SELECT Product.name FROM Product, Purchase WHERE Product.name = Purchase.prodName GROUP BY Product.name HAVING count(*) > 200) CREATE ASSERTION myAssert CHECK NOT EXISTS( SELECT Product.name FROM Product, Purchase WHERE Product.name = Purchase.prodName GROUP BY Product.name HAVING count(*) > 200)

26 Final Comments on Constraints Can give them names, and alter later –Read in the book !!! We need to understand exactly when they are checked We need to understand exactly what actions are taken if they fail

27 Triggers in SQL A trigger contains an event, a condition, an action. Event = INSERT, DELETE, UPDATE Condition = any WHERE condition (may refer to the old and the new values) Action = more inserts, deletes, updates Many, many more bells and whistles... Read in the book (it only scratches the surface...)