learnxinyminutes-docs/sql.html.markdown
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SQL learnsql.sql
Bob DuCharme
http://bobdc.com/
Th3G33k
https://github.com/Th3G33k

Structured Query Language (SQL) is an ISO/IEC 9075 standard language for creating and working with databases stored in a set of tables. Implementations usually add their own extensions to the language; Comparison of different SQL implementations is a good reference on product differences.

Implementations typically provide a command line prompt where you can enter the commands shown here interactively, and they also offer a way to execute a series of these commands stored in a script file. (Showing that youre done with the interactive prompt is a good example of something that isnt standardized--most SQL implementations support the keywords QUIT, EXIT, or both.)

Several of these sample commands assume that the MySQL employee sample database available on GitHub has already been loaded. The GitHub files are scripts of commands, similar to the relevant commands below, that create and populate tables of data about a fictional companys employees. The syntax for running these scripts will depend on the SQL implementation you are using. A utility that you run from the operating system prompt is typical.

-- Comments start with two hyphens. End each command with a semicolon.

/*
Multi-line comments
*/

-- SQL is not case-sensitive about keywords. The sample commands here
-- follow the convention of spelling them in upper-case because it makes
-- it easier to distinguish them from database, table, and column names.

-- Create and delete a database. Database and table names are case-sensitive.
CREATE DATABASE someDatabase;
DROP DATABASE someDatabase;

-- List available databases.
SHOW DATABASES;

-- Use a particular existing database.
USE employees;

-- Select all rows and columns from the current database's departments table.
-- Default activity is for the interpreter to scroll the results on your screen.
SELECT * FROM departments;

-- Retrieve all rows from the departments table,
-- but only the dept_no and dept_name columns.
-- Splitting up commands across lines is OK.
SELECT dept_no,
       dept_name FROM departments;

-- Retrieve all departments columns, but just 5 rows.
SELECT * FROM departments LIMIT 5;

-- Retrieve dept_name column values from the departments
-- table where the dept_name value has the substring 'en'.
SELECT dept_name FROM departments WHERE dept_name LIKE '%en%';

-- Retrieve all columns from the departments table where the dept_name
-- column starts with an 'S' and has exactly 4 characters after it.
SELECT * FROM departments WHERE dept_name LIKE 'S____';

-- Select title values from the titles table but don't show duplicates.
SELECT DISTINCT title FROM titles;

-- Same as above, but sorted (case-sensitive) by the title values.
-- The order can be specified by adding ASC (ascending) or DESC (descending).
-- If omitted, it will sort in ascending order by default.
SELECT DISTINCT title FROM titles ORDER BY title ASC;

-- Use the comparison operators (=, >, <, >=, <=, <>) and
-- the conditional keywords (AND, OR) to refine your queries.
SELECT * FROM departments WHERE dept_no = 'd001' OR dept_no = 'd002';

-- Same as above.
SELECT * FROM departments WHERE dept_no IN ('d001', 'd002');

-- Opposite of the above.
SELECT * FROM departments WHERE dept_no NOT IN ('d001', 'd002');

-- Select in a given range.
SELECT * from departments WHERE dept_no BETWEEN 'd001' AND 'd002';

-- Show the number of rows in the departments table.
SELECT COUNT(*) FROM departments;

-- Show the number of rows in the departments table that
-- have 'en' as a substring of the dept_name value.
SELECT COUNT(*) FROM departments WHERE dept_name LIKE '%en%';

-- Aggregate functions can be used, with GROUP BY, to compute a value
-- from a set of values. Most commonly used functions are:
-- MIN(), MAX(), COUNT(), SUM(), AVG().
-- Use HAVING to filter rows by aggregated values.

-- Retrieve the total number of employees, by department number,
-- with the condition of having more than 100 employees.
SELECT dept_no, COUNT(dept_no) FROM dept_emp GROUP BY dept_no
HAVING COUNT(dept_no) > 100;

-- Aliases, using the optional keyword AS, can be used for column/table names.
SELECT COUNT(A.*) AS total_employees, COUNT(B.*) total_departments
FROM employees AS A, departments B;

-- Common date format is "yyyy-mm-dd".
-- However, it can vary according to the implementation, the operating system, and the session's locale.
SELECT * FROM dept_manager WHERE from_date >= '1990-01-01';

-- A JOIN of information from multiple tables: the titles table shows
-- who had what job titles, by their employee numbers, from what
-- date to what date. Retrieve this information, but instead of the
-- employee number, use the employee number as a cross-reference to
-- the employees table to get each employee's first and last name
-- instead. (And only get 10 rows.)

SELECT employees.first_name, employees.last_name,
       titles.title, titles.from_date, titles.to_date
FROM titles INNER JOIN employees ON
       employees.emp_no = titles.emp_no LIMIT 10;

-- Combine the result of multiple SELECT.
-- UNION selects distinct rows, UNION ALL selects all rows.
SELECT * FROM departments WHERE dept_no = 'd001'
UNION
SELECT * FROM departments WHERE dept_no = 'd002';

-- SQL syntax order is:
-- SELECT _ FROM _ JOIN _ ON _ WHERE _ GROUP BY _ HAVING _ ORDER BY _ UNION

-- List all the tables in all the databases. Implementations typically provide
-- their own shortcut command to do this with the database currently in use.
SELECT * FROM INFORMATION_SCHEMA.TABLES
WHERE TABLE_TYPE='BASE TABLE';

-- Create a table called tablename1, with the two columns shown, for
-- the database currently in use. Lots of other options are available
-- for how you specify the columns, such as their datatypes.
CREATE TABLE tablename1 (fname VARCHAR(20), lname VARCHAR(20));

-- Insert a row of data into the table tablename1. This assumes that the
-- table has been defined to accept these values as appropriate for it.
INSERT INTO tablename1 VALUES('Richard','Mutt');

-- In tablename1, change the fname value to 'John'
-- for all rows that have an lname value of 'Mutt'.
UPDATE tablename1 SET fname='John' WHERE lname='Mutt';

-- Delete rows from the tablename1 table
-- where the lname value begins with 'M'.
DELETE FROM tablename1 WHERE lname LIKE 'M%';

-- Delete all rows from the tablename1 table, leaving the empty table.
DELETE FROM tablename1;

-- Remove the entire tablename1 table.
DROP TABLE tablename1;

Further Reading