SQL Fundamentals | SELECT Statement | Database Management

Introduction

SELECT statement, one of the most commonly used statements in SQL, is used to select data in a table. This lab will learn SELECT and how to apply it to real practices.

Learning Objective

SELECT Basic syntax
Mathem…


This content originally appeared on DEV Community and was authored by Labby

Introduction

MindMap

SELECT statement, one of the most commonly used statements in SQL, is used to select data in a table. This lab will learn SELECT and how to apply it to real practices.

Learning Objective

  • SELECT Basic syntax
  • Mathematical symbol conditions
  • AND OR IN
  • Wildcards
  • Sort
  • SQL built-in functions and calculations
  • Subqueries and joins queries

Preparation

Before we start, download relevant data tables and create a database named mysql_labex (3 tables: department, employee, project).

Start MySQL service and log in as root.

cd ~/project
sudo service mysql start
mysql -u root

There are two files create-database.sql and insert-data.sql, which are located in ~/project/.

Load data in the file. You need to enter the command in the MySQL console to build the database:

source ~/project/create-database.sql
source ~/project/insert-data.sql

In the database operating statements, the most frequently used, also considered the most important is the SELECT query. In previous labs, we've used SELECT * FROM table_name; statements in many places to see everything in a table. SELECT can be used with keywords of a variety of constraints, which encompass a variety of features. This lab will introduce these uses in detail.

Basic SELECT statement

The basic format of SELECT statement:

SELECT row name  FROM table name WHERE constraint;

If you want to query all contents of the table, then query the name of the column with an asterisk *, which represents all columns in the table will be queried. In most cases, we only need to see the specified column of a table, such as to see the name and age of the employee table:

USE mysql_labex;
SELECT name,age FROM employee;
MariaDB [mysql_labex]> SELECT name,age FROM employee;
+------+------+
| name | age  |
+------+------+
| Tom  |   26 |
| Jack |   24 |
| Rose |   22 |
| Jim  |   35 |
| Mary |   21 |
| Alex |   26 |
| Ken  |   27 |
| Rick |   24 |
| Joe  |   31 |
| Mike |   23 |
| Jobs | NULL |
| Tony | NULL |
+------+------+
12 rows in set (0.000 sec)

Mathmatical symbol conditions

SELECT statements often have WHERE constraints, used to achieve more accurate queries. WHERE constraints can have mathematical notation (=, <,>,>=, <=). We just queried the name and age, and now let's make a slight modification:

SELECT name,age FROM employee WHERE age>25;

Filter results with age over 25:

MariaDB [mysql_labex]> SELECT name,age FROM employee WHERE age>25;
+------+------+
| name | age  |
+------+------+
| Tom  |   26 |
| Jim  |   35 |
| Alex |   26 |
| Ken  |   27 |
| Joe  |   31 |
+------+------+
5 rows in set (0.000 sec)

Or find the name, age, and phone of an employee named Mary:

SELECT name,age,phone FROM employee WHERE name='Mary';

Result:

MariaDB [mysql_labex]> SELECT name,age,phone FROM employee WHERE name='Mary';
+------+------+--------+
| name | age  | phone  |
+------+------+--------+
| Mary |   21 | 100101 |
+------+------+--------+
1 row in set (0.000 sec)

"AND" & "OR"

We can have more than one constraints after WHERE, and based on the logical relationship of these conditions, we can use OR and AND to connect:

Filter - age is less than 25, or age is greater than 30

SELECT name,age FROM employee WHERE age<25 OR age>30;
MariaDB [mysql_labex]> SELECT name,age FROM employee WHERE age<25 OR age>30;
+------+------+
| name | age  |
+------+------+
| Jack |   24 |
| Rose |   22 |
| Jim  |   35 |
| Mary |   21 |
| Rick |   24 |
| Joe  |   31 |
| Mike |   23 |
+------+------+
7 rows in set (0.000 sec)

Filter - age is greater than 25, and age is less than 30

SELECT name,age FROM employee WHERE age>25 AND age<30;

If we need to include age 25 and 30, use age BETWEEN 25 AND 30 :

MariaDB [mysql_labex]> SELECT name,age FROM employee WHERE age>25 AND age<30;
+------+------+
| name | age  |
+------+------+
| Tom  |   26 |
| Alex |   26 |
| Ken  |   27 |
+------+------+
3 rows in set (0.000 sec)

MariaDB [mysql_labex]> SELECT name,age FROM employee WHERE age BETWEEN 25 AND 30;
+------+------+
| name | age  |
+------+------+
| Tom  |   26 |
| Alex |   26 |
| Ken  |   27 |
+------+------+
3 rows in set (0.000 sec)

IN & NOT IN

Keywords IN and NOT IN are used to filter results in a certain range. For instance, we want to find people in dpt3 or dpt4:

SELECT name,age,phone,in_dpt FROM employee WHERE in_dpt IN ('dpt3','dpt4');

For NOT IN, such as in the following command, we will get people not in dpt1 nor dpt3:

SELECT name,age,phone,in_dpt FROM employee WHERE in_dpt NOT IN ('dpt1','dpt3');
MariaDB [mysql_labex]> SELECT name,age,phone,in_dpt FROM employee WHERE in_dpt IN ('dpt3','dpt4');
+------+------+--------+--------+
| name | age  | phone  | in_dpt |
+------+------+--------+--------+
| Tom  |   26 | 119119 | dpt4   |
| Rose |   22 | 114114 | dpt3   |
| Rick |   24 | 987654 | dpt3   |
| Mike |   23 | 110110 | dpt4   |
| Tony | NULL | 102938 | dpt3   |
+------+------+--------+--------+
5 rows in set (0.000 sec)

MariaDB [mysql_labex]> SELECT name,age,phone,in_dpt FROM employee WHERE in_dpt NOT IN ('dpt1','dpt3');
+------+------+--------+--------+
| name | age  | phone  | in_dpt |
+------+------+--------+--------+
| Tom  |   26 | 119119 | dpt4   |
| Jack |   24 | 120120 | dpt2   |
| Mary |   21 | 100101 | dpt2   |
| Joe  |   31 | 110129 | dpt2   |
| Mike |   23 | 110110 | dpt4   |
| Jobs | NULL |  19283 | dpt2   |
+------+------+--------+--------+
6 rows in set (0.000 sec)

Wildcards

The keyword LIKE is used with wildcards in SQL statements, with wildcards representing unknown characters. Wildcards in SQL are _ and %. Which _ represents an unspecified character, %represents indefinite unspecified characters.

For example, if you only remember that the first four digits of the phone number are 1101 and the last two digits are forgotten, you can replace them with two _ wildcards:

SELECT name,age,phone FROM employee WHERE phone LIKE '1101__';

and here we have phone numbers starting with 1101:

MariaDB [mysql_labex]> SELECT name,age,phone FROM employee WHERE phone LIKE '1101__';
+------+------+--------+
| name | age  | phone  |
+------+------+--------+
| Joe  |   31 | 110129 |
| Mike |   23 | 110110 |
+------+------+--------+
2 rows in set (0.000 sec)

In another case, such as when you only remember the first letter of the name, and you do not know the length of the name, then use % wildcard instead of indefinite characters:

SELECT name,age,phone FROM employee WHERE name LIKE 'J%';

Here we have names starting with J:

MariaDB [mysql_labex]> SELECT name,age,phone FROM employee WHERE name LIKE 'J%';
+------+------+--------+
| name | age  | phone  |
+------+------+--------+
| Jack |   24 | 120120 |
| Jim  |   35 | 100861 |
| Joe  |   31 | 110129 |
| Jobs | NULL |  19283 |
+------+------+--------+
4 rows in set (0.000 sec)

Sort your results

In order to make queried results more organized and easy to follow, we might need to sort them by certain rules. ORDER BY comes in handy. By default, ORDER BY is in ascending arrangement, and by using ASC and DESC, we can also get results in ascending and descending order.

For example, we sort salary in a descending order, SQL statement:

SELECT name,age,salary,phone FROM employee ORDER BY salary DESC;
MariaDB [mysql_labex]> SELECT name,age,salary,phone FROM employee ORDER BY salary DESC;
+------+------+--------+--------+
| name | age  | salary | phone  |
+------+------+--------+--------+
| Jobs | NULL |   3600 |  19283 |
| Joe  |   31 |   3600 | 110129 |
| Ken  |   27 |   3500 | 654321 |
| Rick |   24 |   3500 | 987654 |
| Mike |   23 |   3400 | 110110 |
| Tony | NULL |   3400 | 102938 |
| Alex |   26 |   3000 | 123456 |
| Mary |   21 |   3000 | 100101 |
| Jim  |   35 |   3000 | 100861 |
| Rose |   22 |   2800 | 114114 |
| Jack |   24 |   2500 | 120120 |
| Tom  |   26 |   2500 | 119119 |
+------+------+--------+--------+
12 rows in set (0.000 sec)

SQL built-in functions and calculations

SQL allows the calculation of the data in the table. In this regard, SQL has five built-in functions that do the result of SELECT:

Function: COUNT SUM AVG MAX MIN
For: count numbers sum up average maximum value minimum value

The COUNT function can be used for any data type (because it is only a count), while SUM and AVG functions can only calculate numeric data types. MAX and MIN can be used for numeric, string, or datetime data types.

For example, when we want to calculate the maximum and minimum value of salary, we use a statement like this:

SELECT MAX(salary) AS max_salary,MIN(salary) FROM employee;

You may have noticed a tiny detail. Use AS keyword can rename value. E.g. Max value is renamed into max_salary:

MariaDB [mysql_labex]> SELECT MAX(salary) AS max_salary,MIN(salary) FROM employee;
+------------+-------------+
| max_salary | MIN(salary) |
+------------+-------------+
|       3600 |        2500 |
+------------+-------------+
1 row in set (0.000 sec)

Subqueries

The SELECT statements discussed above all involve data in only one table, but sometimes you have to process multiple tables to get the information you need. For example, you want to know a few projects done by the department where the employee named "Tom" is located. Employee information is stored in the employee table, but the project information is stored in the project table.

We can use subqueries to deal with such situations:

SELECT of_dpt,COUNT(proj_name) AS count_project FROM project
WHERE of_dpt IN
(SELECT in_dpt FROM employee WHERE name='Tom');
MariaDB [mysql_labex]> SELECT of_dpt,COUNT(proj_name) AS count_project FROM project
    -> WHERE of_dpt IN
    -> (SELECT in_dpt FROM employee WHERE name='Tom');
+--------+---------------+
| of_dpt | count_project |
+--------+---------------+
| dpt4   |             2 |
+--------+---------------+
1 row in set (0.000 sec)

Subqueries can also be extended to three, four or more layers.

Join

When dealing with multiple tables, the subquery is only useful when the results are from the same table. However, if you need to display data in two or more tables, you must use the join operation.

The basic idea is to connect two or more tables as a new table to operate, as follows:

SELECT id,name,people_num
FROM employee,department
WHERE employee.in_dpt = department.dpt_name
ORDER BY id;

This result is the number of employees in each department, where employee id and name from the employee table, people_num from the department table:

MariaDB [mysql_labex]> SELECT id,name,people_num
    -> FROM employee,department
    -> WHERE employee.in_dpt = department.dpt_name
    -> ORDER BY id;
+----+------+------------+
| id | name | people_num |
+----+------+------------+
|  1 | Tom  |         15 |
|  2 | Jack |         12 |
|  3 | Rose |         10 |
|  4 | Jim  |         11 |
|  5 | Mary |         12 |
|  6 | Alex |         11 |
|  7 | Ken  |         11 |
|  8 | Rick |         10 |
|  9 | Joe  |         12 |
| 10 | Mike |         15 |
| 11 | Jobs |         12 |
| 12 | Tony |         10 |
+----+------+------------+
12 rows in set (0.000 sec)

Another connection statement format is to use the JOIN ON syntax. The statement is the same as:

SELECT id,name,people_num
FROM employee JOIN department
ON employee.in_dpt = department.dpt_name
ORDER BY id;

Result is the same.

Summary

In this lab we learned the basic use of SELECT statement:

  • Basic syntax
  • Mathmatical symbol conditions
  • AND OR IN
  • Wildcards
  • Sort
  • SQL built-in functions and calculations
  • Sunqueries and connection queries

🚀 Practice Now: SQL's SELECT Statement

Want to Learn More?


This content originally appeared on DEV Community and was authored by Labby


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