This page walks you through some of the most essential CockroachDB SQL statements. For a complete list and related details, see SQL Statements.
Create a Database
CockroachDB comes with a single default system
database, which contains CockroachDB metadata and is read-only. To create a new database, use CREATE DATABASE
followed by a database name:
> CREATE DATABASE bank;
Database names must follow these identifier rules. To avoid an error in case the database already exists, you can include IF NOT EXISTS
:
> CREATE DATABASE IF NOT EXISTS bank;
When you no longer need a database, use DROP DATABASE
followed by the database name to remove the database and all its objects:
> DROP DATABASE bank;
Show Databases
To see all databases, use the SHOW DATABASES
statement:
> SHOW DATABASES;
+--------------------+
| Database |
+--------------------+
| bank |
| system |
+--------------------+
(2 rows)
Set the Default Database
To set the default database, use the SET
statement:
> SET DATABASE = bank;
When working with the default database, you do not need to reference it explicitly in statements. To see which database is currently the default, use the SHOW DATABASE
statement (note the singular form):
> SHOW DATABASE;
+----------+
| database |
+----------+
| bank |
+----------+
(1 row)
Create a Table
To create a table, use CREATE TABLE
followed by a table name, the column names, and the data type and constraint, if any, for each column:
> CREATE TABLE accounts (
id INT PRIMARY KEY,
balance DECIMAL
);
Table and column names must follow these rules. Also, when you do not explicitly define a primary key, CockroachDB will automatically add a hidden rowid
column as the primary key.
To avoid an error in case the table already exists, you can include IF NOT EXISTS
:
> CREATE TABLE IF NOT EXISTS accounts (
id INT PRIMARY KEY,
balance DECIMAL
);
To show all of the columns from a table, use SHOW COLUMNS FROM
followed by the table name:
> SHOW COLUMNS FROM accounts;
+---------+---------+-------+---------+-----------+
| Field | Type | Null | Default | Indices |
+---------+---------+-------+---------+-----------+
| id | INT | false | NULL | {primary} |
| balance | DECIMAL | true | NULL | {} |
+---------+---------+-------+---------+-----------+
(2 rows)
When you no longer need a table, use DROP TABLE
followed by the table name to remove the table and all its data:
> DROP TABLE accounts;
Show Tables
To see all tables in the active database, use the SHOW TABLES
statement:
> SHOW TABLES;
+----------+
| Table |
+----------+
| accounts |
| users |
+----------+
(2 rows)
To view tables in a database that's not active, use SHOW TABLES FROM
followed by the name of the database:
> SHOW TABLES FROM animals;
+-----------+
| Table |
+-----------+
| aardvarks |
| elephants |
| frogs |
| moles |
| pandas |
| turtles |
+-----------+
(6 rows)
Insert Rows into a Table
To insert a row into a table, use INSERT INTO
followed by the table name and then the column values listed in the order in which the columns appear in the table:
> INSERT INTO accounts VALUES (1, 10000.50);
If you want to pass column values in a different order, list the column names explicitly and provide the column values in the corresponding order:
> INSERT INTO accounts (balance, id) VALUES
(25000.00, 2);
To insert multiple rows into a table, use a comma-separated list of parentheses, each containing column values for one row:
> INSERT INTO accounts VALUES
(3, 8100.73),
(4, 9400.10);
Default values are used when you leave specific columns out of your statement, or when you explicitly request default values. For example, both of the following statements would create a row with balance
filled with its default value, in this case NULL
:
> INSERT INTO accounts (id) VALUES
(5);
> INSERT INTO accounts (id, balance) VALUES
(6, DEFAULT);
> SELECT * FROM accounts WHERE id in (5, 6);
+----+---------+
| id | balance |
+----+---------+
| 5 | NULL |
| 6 | NULL |
+----+---------+
(2 rows)
Create an Index
Indexes help locate data without having to look through every row of a table. They're automatically created for the primary key of a table and any columns with a Unique constraint.
To create an index for non-unique columns, use CREATE INDEX
followed by an optional index name and an ON
clause identifying the table and column(s) to index. For each column, you can choose whether to sort ascending (ASC
) or descending (DESC
).
> CREATE INDEX balance_idx ON accounts (balance DESC);
You can create indexes during table creation as well; just include the INDEX
keyword followed by an optional index name and the column(s) to index:
> CREATE TABLE accounts (
id INT PRIMARY KEY,
balance DECIMAL,
INDEX balance_idx (balance)
);
Show Indexes on a Table
To show the indexes on a table, use SHOW INDEX FROM
followed by the name of the table:
> SHOW INDEX FROM accounts;
+----------+-------------+--------+-----+---------+-----------+---------+----------+
| Table | Name | Unique | Seq | Column | Direction | Storing | Implicit |
+----------+-------------+--------+-----+---------+-----------+---------+----------+
| accounts | primary | true | 1 | id | ASC | false | false |
| accounts | balance_idx | false | 1 | balance | DESC | false | false |
| accounts | balance_idx | false | 2 | id | ASC | false | true |
+----------+-------------+--------+-----+---------+-----------+---------+----------+
(3 rows)
Query a Table
To query a table, use SELECT
followed by a comma-separated list of the columns to be returned and the table from which to retrieve the data:
> SELECT balance FROM accounts;
+----------+
| balance |
+----------+
| 10000.50 |
| 25000.00 |
| 8100.73 |
| 9400.10 |
| NULL |
| NULL |
+----------+
(6 rows)
To retrieve all columns, use the *
wildcard:
> SELECT * FROM accounts;
+----+----------+
| id | balance |
+----+----------+
| 1 | 10000.50 |
| 2 | 25000.00 |
| 3 | 8100.73 |
| 4 | 9400.10 |
| 5 | NULL |
| 6 | NULL |
+----+----------+
(6 rows)
To filter the results, add a WHERE
clause identifying the columns and values to filter on:
> SELECT id, balance FROM accounts WHERE balance > 9000;
+----+---------+
| id | balance |
+----+---------+
| 2 | 25000 |
| 1 | 10000.5 |
| 4 | 9400.1 |
+----+---------+
(3 rows)
To sort the results, add an ORDER BY
clause identifying the columns to sort by. For each column, you can choose whether to sort ascending (ASC
) or descending (DESC
).
> SELECT id, balance FROM accounts ORDER BY balance DESC;
+----+---------+
| id | balance |
+----+---------+
| 2 | 25000 |
| 1 | 10000.5 |
| 4 | 9400.1 |
| 3 | 8100.73 |
| 5 | NULL |
| 6 | NULL |
+----+---------+
(6 rows)
Update Rows in a Table
To update rows in a table, use UPDATE
followed by the table name, a SET
clause identifying the columns to update and their new values, and a WHERE
clause identifying the rows to update:
> UPDATE accounts SET balance = balance - 5.50 WHERE balance < 10000;
> SELECT * FROM accounts;
+----+----------+
| id | balance |
+----+----------+
| 1 | 10000.50 |
| 2 | 25000.00 |
| 3 | 8095.23 |
| 4 | 9394.60 |
| 5 | NULL |
| 6 | NULL |
+----+----------+
(6 rows)
If a table has a primary key, you can use that in the WHERE
clause to reliably update specific rows; otherwise, each row matching the WHERE
clause is updated. When there's no WHERE
clause, all rows in the table are updated.
Delete Rows in a Table
To delete rows from a table, use DELETE FROM
followed by the table name and a WHERE
clause identifying the rows to delete:
> DELETE FROM accounts WHERE id in (5, 6);
> SELECT * FROM accounts;
+----+----------+
| id | balance |
+----+----------+
| 1 | 10000.50 |
| 2 | 25000.00 |
| 3 | 8095.23 |
| 4 | 9394.60 |
+----+----------+
(4 rows)
Just as with the UPDATE
statement, if a table has a primary key, you can use that in the WHERE
clause to reliably delete specific rows; otherwise, each row matching the WHERE
clause is deleted. When there's no WHERE
clause, all rows in the table are deleted.
What's Next?
- Explore all SQL Statements
- Use the built-in SQL client to execute statements from a shell or directly from the command line
- Install the client driver for your preferred language and build an app
- Explore core CockroachDB features like automatic replication, rebalancing, and fault tolerance