Chapter 6: Introduction to SQL

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Chapter 6: Introduction to SQL Modern Database Management 11th Edition Jeffrey A. Hoffer, V. Ramesh, Heikki Topi April 13, 2014

Objectives Define terms Interpret history and role of SQL Define a database using SQL data definition language Write single table queries using SQL Establish referential integrity using SQL Discuss SQL:1999 and SQL:200n standards

SQL Overview Structured Query Language The standard for relational database management systems (RDBMS) RDBMS: A database management system that manages data as a collection of tables in which all relationships are represented by common values in related tables

History of SQL 1970–E. Codd develops relational database concept 1974-1979–System R with Sequel (later SQL) created at IBM Research Lab 1979–Oracle markets first relational DB with SQL 1986–ANSI SQL standard released 1989, 1992, 1999, 2003–Major ANSI standard updates Current–SQL is supported by most major database vendors

Purpose of SQL Standard Specify syntax/semantics for data definition and manipulation Define data structures and basic operations Enable portability of database definition and application modules Specify minimal (level 1) and complete (level 2) standards Allow for later growth/enhancement to standard

Benefits of a Standardized Relational Language Reduced training costs Productivity Application portability Application longevity Reduced dependence on a single vendor Cross-system communication

SQL Environment Catalog Schema Data Definition Language (DDL) A set of schemas that constitute the description of a database Schema The structure that contains descriptions of objects created by a user (base tables, views, constraints) Data Definition Language (DDL) Commands that define a database, including creating, altering, and dropping tables and establishing constraints Data Manipulation Language (DML) – our focus Commands that maintain and query a database Data Control Language (DCL) Commands that control a database, including administering privileges and committing data

Figure 6-1 A simplified schematic of a typical SQL environment, as described by the SQL: 200n standard

Fig 6-2 Query syntax Just a quick example to show sequence of clauses Display order can be specified here Fig 6-2 Query syntax Cond for records Cond for groups SELECT Major, AVERAGE(GPA) , ExpGraduateYr WHERE ExpGraduateYr = “2015” GROUP BY Major HAVING AVERAGE(GPA) >=3.0 ORDER BY Major Just a quick example to show sequence of clauses

SQL Data Types

Figure 6-4 DDL, DML, DCL, and the database development process

SQL Database Definition Data Definition Language (DDL) Major CREATE statements: CREATE SCHEMA–defines a portion of the database owned by a particular user CREATE TABLE–defines a new table and its columns CREATE VIEW–defines a logical table from one or more tables or views

Table Creation Steps in table creation: Identify data types for attributes Identify columns that can and cannot be null Identify columns that must be unique (candidate keys) Identify primary key–foreign key mates Determine default values Identify constraints on columns (domain specifications) Create the table and associated indexes Figure 6-5 General syntax for CREATE TABLE statement used in data definition language

The following slides create tables for this enterprise data model 14 The following slides create tables for this enterprise data model (from Chapter 1, Figure 1-3)

Figure 6-3: sample PVFC data 15

Figure 6-6 SQL database definition commands for Pine Valley Furniture Company (Oracle 11g) Overall table definitions

Column constraint: validation rule Defining attributes and their data types Column constraint: validation rule Constraint name Cnstr Type Field

Primary keys can never have NULL values Non-nullable specification Primary keys can never have NULL values Identifying primary key

Some primary keys are composite– composed of multiple attributes Non-nullable specifications Primary key Some primary keys are composite– composed of multiple attributes

Controlling the values in attributes Default value Domain constraint 

Identifying foreign keys and establishing relationships Primary key of parent table Foreign key of dependent table Constraint name Cnstr Type Field REFERENCES Tbl(Key)

Data Integrity Controls Referential integrity–constraint that ensures that foreign key values of a table must match primary key values of a related table in 1:M relationships Restricting: Deletes of primary records Updates of primary records Inserts of dependent records

Figure 6-7 Ensuring data integrity through updates Relational integrity is enforced via the primary-key to foreign-key match

Changing Tables ALTER TABLE statement allows you to change column specifications: Table Actions: Example (adding a new column with a default value): ADD COLUMN Name Type Default

Removing Tables DROP TABLE statement allows you to remove tables from your schema: DROP TABLE CUSTOMER_T

Insert Statement Adds one or more rows to a table Inserting into a table VALUE – “s” Sequence!!! Inserting a record that has some null attributes requires identifying the fields that actually get data INSERT INTO Table VALUES (value-list) (field-list) VALUES (value-list)

Insert Statement (cont) Inserting from another table A SUBSET from another table Interpretation?

Creating Tables with Identity Columns 28 Introduced with SQL:200n Inserting into a table does not require explicit customer ID entry or field list (No “001” as compared w slide #26) -- INSERT INTO CUSTOMER_T VALUES ( ‘Contemporary Casuals’, ‘1355 S. Himes Blvd.’, ‘Gainesville’, ‘FL’, 32601);

Delete Statement Removes rows from a table Delete certain rows DELETE FROM CUSTOMER_T WHERE CUSTOMERSTATE = ‘HI’; Delete all rows DELETE FROM CUSTOMER_T; Careful!!!

Update Statement Modifies data in existing rows Note: the WHERE clause may be a subquery (Chap 7) UPDATE Table-name SET Attribute = Value WHERE Criteria-to-apply-the-update

Recap of “three modifications” 31 Recap of “three modifications” KEY WORD / Change what SYNTAX / Example ALTER: INSERT: UPDATE:

Merge Statement Interpretation? 32 Merge Statement Interpretation? Makes it easier to update a table…allows combination of Insert and Update in one statement Useful for updating master tables with new data

Schema Definition Control processing/storage efficiency: Choice of indexes File organizations for base tables File organizations for indexes Data clustering Statistics maintenance Creating indexes Speed up random/sequential access to base table data Example CREATE INDEX NAME_IDX ON CUSTOMER_T(CUSTOMERNAME) This makes an index for the CUSTOMERNAME field of the CUSTOMER_T table

SELECT Example Find products with standard price less than $275 Every SESLECT statement returns a result table - Can be used as part of another query SELECT DISTINCT: no duplicate rows SELECT * : all columns selected Table 6-3: Comparison Operators in SQL

SELECT Example Using Alias The two alias have different usage: Alias is an alternative column or table name SELECT CUST.CUSTOMER_NAME AS NAME, CUST.CUSTOMER_ADDRESS FROM CUSTOMER_V [AS] CUST WHERE NAME = ‘Home Furnishings’; Note1: Specifying source table, P. 262 Note2: Use of alias, P. 263

Using expressions (PP. 263-264) 36 Using expressions (PP. 263-264) P. 264 ProductStandardPrice*1.1 AS Plus10Percent What does it look like what we learned in Access (in IS 312)? Observe the result on P. 264

SELECT Example Using a Function More functions: P. 264~5 SELECT Example Using a Function Using the COUNT aggregate function to find totals SELECT COUNT(*) FROM ORDERLINE_T WHERE ORDERID = 1004; Note 1: SELECT PRODUCT_ID, COUNT(*) FROM ORDER_LINE_V WHERE ORDER_ID = 1004; Note 2: COUNT (*) and COUNT - different P. 265 More exmpl: P. 266

SELECT Example Using functions What is average standard price for each product in inventory? SELECT AVG (STANDARD_PRICE) AS AVERAGE FROM PROCUCT_V; AVG, COUNT, MAX, MIN, SUM; LN, EXP, POWER, SQRT More functions – P. 264 Issues about set value and aggregates: 265-6 Wildcards: 267, top Null values, 268, top

Issues about set value and aggregates 39 Issues about set value and aggregates Last line on P. 265: SQL cannot return both a row value (such as ID) and a set value (such as COUNT/AVG/SUM of a group); users must run two separate queries, one that returns row info and one that returns set info SELECT S_ID FROM STUDENT SELECT AVG(GPA) FROM STUDENT SELECT S_ID, AVG(GPA) FROM STUDENT One of the above is not legitimate

SELECT Example–Boolean Operators AND, OR, and NOT Operators for customizing conditions in WHERE clause Note: the LIKE operator allows you to compare strings using wildcards. For example, the % wildcard in ‘%Desk’ indicates that all strings that have any number of characters preceding the word “Desk” will be allowed.

Figure 6-9 Boolean query without use of parentheses 41 Figure 6-9 Boolean query without use of parentheses

SELECT Example–Boolean Operators With parentheses…these override the normal precedence of Boolean operators Note: by default, the AND operator takes precedence over the OR operator. With parentheses, you can make the OR take place before the AND.

Figure 6-9 Boolean query with use of parentheses 43 Figure 6-9 Boolean query with use of parentheses

SELECT Example– Using distinct values Compare: SELECT ORDER_ID FROM ORDER_LINE_V; and – SELECT DISTINCT ORDER_ID But: SELECT DISTINCT ORDER_ID, ORDER_QUANTITY Compare three figures on 272 & 273

SELECT Example – Sorting Results with the ORDER BY Clause Sort the results first by STATE, and then within a state by the CUSTOMER NAME Can order by multiple fields: primary sort, 2ndry, … Note: the IN operator in this example allows you to include rows whose CustomerState value is either FL, TX, CA, or HI. It is more efficient than separate OR conditions. The opposite is NOT IN

SELECT Example– Categorizing Results Using the GROUP BY Clause For use with aggregate functions Scalar aggregate: single value returned from SQL query with aggregate function Vector aggregate: multiple values returned from SQL query with aggregate function (via GROUP BY) Note: you can use single-value fields with aggregate functions if they are included in the GROUP BY clause  Q: Can we do SELECT CustCity, COUNT(CustState)? One value for a group  “vector” Result: P. 275

single-value fields vs aggregate functions 47 single-value fields vs aggregate functions SELECT S_ID FROM STUDENT SELECT MAJOR, AVG(GPA) FROM STUDENT GROUP BY MAJOR SELECT S_ID, AVG(GPA) FROM STUDENT GROUP BY MAJOR One of the above is not legitimate. Compare Slide #39

SELECT Example– Qualifying Results by Categories Using the HAVING Clause For use with GROUP BY Like a WHERE clause, but it operates on groups (categories), not on individual rows. Here, only those groups with total numbers greater than 1 will be included in final result. See 275-276

SELECT Statement with Group by Used for queries on single or multiple tables Clauses of the SELECT statement: (Sequence!!) SELECT List the columns (and expressions) that should be returned from the query FROM Indicate the table(s) or view(s) from which data will be obtained WHERE Indicate the conditions under which a row will be included in the result GROUP BY Indicate categorization of results HAVING Indicate the conditions under which a category (group) will be included ORDER BY Sorts the result according to specified criteria Can have multiple sorts – primary, 2ndry, … Read closely PP. 275-276

Figure 6-10 SQL statement processing order (adapted from van der Lans, 2006 p.100)

HAVING clause The HAVING clause acts like a WHERE clause, but it identifies groups that meet a criterion, rather than rows. Therefore, you will usually see a HAVING clause … WHERE qualifies a set of rows, while HAVING qualifies a set of … Interpretation: example on P. 276

Using and Defining Views Views provide users controlled access to tables Base Table–table containing the raw data Dynamic View A “virtual table” created dynamically upon request by a user No data actually stored; instead data from base table made available to user Based on SQL SELECT statement on base tables or other views Materialized View Copy or replication of data Data actually stored Must be refreshed periodically to match the corresponding base tables

Sample CREATE VIEW View has a name View is based on a SELECT statement CHECK_OPTION works only for updateable views and prevents updates that would create rows not included in the view

Views Syntax of CREATE VIEW: CREATE VIEW view-name AS SELECT (that provides the rows and columns of the view) Example: CREATE VIEW ORDER_TOTALS_V AS SELECT PRODUCT_ID PRODUCT, SUM(STANDARD_PRICE*QUANTITY) TOTAL FROM INVOICE_V GROUP BY PRODUCT_ID;

Advantages of Views Simplify query commands Assist with data security (but don't rely on views for security, there are more important security measures) Enhance programming productivity Contain most current base table data Use little storage space Provide customized view for user Establish physical data independence

Disadvantages of Views Use processing time each time view is referenced May or may not be directly updateable

Addendum: Comparison of ALTER, INSERT, and UPDATE ALTER: changing the columns of the table ALTER TABLE CUSTOMER_T ADD COLUMN… INSERT: adding records based on the existing table INSERT INTO CUTTOME_T VALUES (… ) UPDATE: changing the values of some fields in existing records UPDATE PRODUCT_T SET …WHERE…