The INSERT statement inserts one or more rows into a table. In cases where inserted values conflict with uniqueness constraints, the ON CONFLICT clause can be used to update rather than insert rows.
Performance Best Practices
- A single multi-row
INSERTstatement is faster than multiple single-rowINSERTstatements. To bulk-insert data into an existing table, use a multi-rowINSERTinstead of multiple single-rowINSERTstatements. - The
IMPORTstatement performs better thanINSERTwhen inserting rows into a new table. - In traditional SQL databases, generating and retrieving unique IDs involves using
INSERTwithSELECT. In CockroachDB, useRETURNINGclause withINSERTinstead. See Insert and Return Values for more details.
Required Privileges
The user must have the INSERT privilege on the table. To use ON CONFLICT DO UPDATE, the user must also have the UPDATE privilege on the table.
Synopsis
Parameters
| Parameter | Description |
|---|---|
common_table_expr |
See Common Table Expressions. |
table_name |
The table you want to write data to. |
AS table_alias_name |
An alias for the table name. When an alias is provided, it completely hides the actual table name. |
column_name |
The name of a column to populate during the insert. |
select_stmt |
A selection query. Each value must match the data type of its column. Also, if column names are listed after INTO, values must be in corresponding order; otherwise, they must follow the declared order of the columns in the table. |
DEFAULT VALUES |
To fill all columns with their default values, use DEFAULT VALUES in place of select_stmt. To fill a specific column with its default value, leave the value out of the select_stmt or use DEFAULT at the appropriate position. See the Insert Default Values examples below. |
RETURNING target_list |
Return values based on rows inserted, where target_list can be specific column names from the table, * for all columns, or computations using scalar expressions. See the Insert and Return Values example below.Within a transaction, use RETURNING NOTHING to return nothing in the response, not even the number of rows affected. |
ON CONFLICT clause
Normally, when inserted values
conflict with a UNIQUE constraint on one or more columns, CockroachDB
returns an error. To update the affected rows instead, use an ON
CONFLICT clause containing the column(s) with the unique constraint
and the DO UPDATE SET expression set to the column(s) to be updated
(any SET expression supported by the UPDATE
statement is also supported here, including those with WHERE
clauses). To prevent the affected rows from updating while allowing
new rows to be inserted, set ON CONFLICT to DO NOTHING. See the
Update Values ON CONFLICT and Do Not
Update Values ON CONFLICT
examples below.
If the values in the SET expression cause uniqueness conflicts,
CockroachDB will return an error.
As a short-hand alternative to the ON
CONFLICT clause, you can use the UPSERT
statement. However, UPSERT does not let you specify the column with
the unique constraint; it assumes that the column is the primary
key. Using ON CONFLICT is therefore more flexible.
Examples
All of the examples below assume you've already created a table accounts:
> CREATE TABLE accounts(
id INT DEFAULT unique_rowid(),
balance DECIMAL
);
Insert a Single Row
> INSERT INTO accounts (balance, id) VALUES (10000.50, 1);
> SELECT * FROM accounts;
+----+---------+
| id | balance |
+----+---------+
| 1 | 10000.5 |
+----+---------+
If you do not list column names, the statement will use the columns of the table in their declared order:
> SHOW COLUMNS FROM accounts;
+---------+---------+-------+----------------+
| Field | Type | Null | Default |
+---------+---------+-------+----------------+
| id | INT | false | unique_rowid() |
| balance | DECIMAL | true | NULL |
+---------+---------+-------+----------------+
> INSERT INTO accounts VALUES (2, 20000.75);
> SELECT * FROM accounts;
+----+----------+
| id | balance |
+----+----------+
| 1 | 10000.50 |
| 2 | 20000.75 |
+----+----------+
Insert Multiple Rows into an Existing Table
INSERT statements. As a performance best practice, we recommend batching multiple rows in one multi-row INSERT statement instead of using multiple single-row INSERT statements. Experimentally determine the optimal batch size for your application by monitoring the performance for different batch sizes (10 rows, 100 rows, 1000 rows). > INSERT INTO accounts (id, balance) VALUES (3, 8100.73), (4, 9400.10);
> SELECT * FROM accounts;
+----+----------+
| id | balance |
+----+----------+
| 1 | 10000.50 |
| 2 | 20000.75 |
| 3 | 8100.73 |
| 4 | 9400.10 |
+----+----------+
Insert Multiple Rows into a New Table
The IMPORT statement performs better than INSERT when inserting rows into a new table.
Insert from a SELECT Statement
> SHOW COLUMS FROM other_accounts;
+--------+---------+-------+---------+
| Field | Type | Null | Default |
+--------+---------+-------+---------+
| number | INT | false | NULL |
| amount | DECIMAL | true | NULL |
+--------+---------+-------+---------+
> INSERT INTO accounts (id, balance) SELECT number, amount FROM other_accounts WHERE id > 4;
> SELECT * FROM accounts;
+----+----------+
| id | balance |
+----+----------+
| 1 | 10000.5 |
| 2 | 20000.75 |
| 3 | 8100.73 |
| 4 | 9400.1 |
| 5 | 350.1 |
| 6 | 150 |
| 7 | 200.1 |
+----+----------+
Insert Default Values
> INSERT INTO accounts (id) VALUES (8);
> INSERT INTO accounts (id, balance) VALUES (9, DEFAULT);
> SELECT * FROM accounts WHERE id in (8, 9);
+----+---------+
| id | balance |
+----+---------+
| 8 | NULL |
| 9 | NULL |
+----+---------+
> INSERT INTO accounts DEFAULT VALUES;
> SELECT * FROM accounts;
+--------------------+----------+
| id | balance |
+--------------------+----------+
| 1 | 10000.5 |
| 2 | 20000.75 |
| 3 | 8100.73 |
| 4 | 9400.1 |
| 5 | 350.1 |
| 6 | 150 |
| 7 | 200.1 |
| 8 | NULL |
| 9 | NULL |
| 142933248649822209 | NULL |
+--------------------+----------+
Insert and Return Values
In this example, the RETURNING clause returns the id values of the rows inserted, which are generated server-side by the unique_rowid() function. The language-specific versions assume that you have installed the relevant client drivers.
RETURNING mirrors the behavior of MySQL's last_insert_id() function.query() method for statements that return results and an exec() method for statements that do not (e.g., Go), it's likely necessary to use the query() method for INSERT statements with RETURNING.> INSERT INTO accounts (id, balance)
VALUES (DEFAULT, 1000), (DEFAULT, 250)
RETURNING id;
+--------------------+
| id |
+--------------------+
| 190018410823680001 |
| 190018410823712769 |
+--------------------+
(2 rows)
# Import the driver.
import psycopg2
# Connect to the "bank" database.
conn = psycopg2.connect(
database='bank',
user='root',
host='localhost',
port=26257
)
# Make each statement commit immediately.
conn.set_session(autocommit=True)
# Open a cursor to perform database operations.
cur = conn.cursor()
# Insert two rows into the "accounts" table
# and return the "id" values generated server-side.
cur.execute(
'INSERT INTO accounts (id, balance) '
'VALUES (DEFAULT, 1000), (DEFAULT, 250) '
'RETURNING id'
)
# Print out the returned values.
rows = cur.fetchall()
print('IDs:')
for row in rows:
print([str(cell) for cell in row])
# Close the database connection.
cur.close()
conn.close()
The printed values would look like:
IDs:
['190019066706952193']
['190019066706984961']
# Import the driver.
require 'pg'
# Connect to the "bank" database.
conn = PG.connect(
user: 'root',
dbname: 'bank',
host: 'localhost',
port: 26257
)
# Insert two rows into the "accounts" table
# and return the "id" values generated server-side.
conn.exec(
'INSERT INTO accounts (id, balance) '\
'VALUES (DEFAULT, 1000), (DEFAULT, 250) '\
'RETURNING id'
) do |res|
# Print out the returned values.
puts "IDs:"
res.each do |row|
puts row
end
end
# Close communication with the database.
conn.close()
The printed values would look like:
IDs:
{"id"=>"190019066706952193"}
{"id"=>"190019066706984961"}
package main
import (
"database/sql"
"fmt"
"log"
_ "github.com/lib/pq"
)
func main() {
//Connect to the "bank" database.
db, err := sql.Open(
"postgres",
"postgresql://root@localhost:26257/bank?sslmode=disable"
)
if err != nil {
log.Fatal("error connecting to the database: ", err)
}
// Insert two rows into the "accounts" table
// and return the "id" values generated server-side.
rows, err := db.Query(
"INSERT INTO accounts (id, balance) " +
"VALUES (DEFAULT, 1000), (DEFAULT, 250) " +
"RETURNING id",
)
if err != nil {
log.Fatal(err)
}
// Print out the returned values.
defer rows.Close()
fmt.Println("IDs:")
for rows.Next() {
var id int
if err := rows.Scan(&id); err != nil {
log.Fatal(err)
}
fmt.Printf("%d\n", id)
}
}
The printed values would look like:
IDs:
190019066706952193
190019066706984961
var async = require('async');
// Require the driver.
var pg = require('pg');
// Connect to the "bank" database.
var config = {
user: 'root',
host: 'localhost',
database: 'bank',
port: 26257
};
pg.connect(config, function (err, client, done) {
// Closes communication with the database and exits.
var finish = function () {
done();
process.exit();
};
if (err) {
console.error('could not connect to cockroachdb', err);
finish();
}
async.waterfall([
function (next) {
// Insert two rows into the "accounts" table
// and return the "id" values generated server-side.
client.query(
`INSERT INTO accounts (id, balance)
VALUES (DEFAULT, 1000), (DEFAULT, 250)
RETURNING id;`,
next
);
}
],
function (err, results) {
if (err) {
console.error('error inserting into and selecting from accounts', err);
finish();
}
// Print out the returned values.
console.log('IDs:');
results.rows.forEach(function (row) {
console.log(row);
});
finish();
});
});
The printed values would look like:
IDs:
{ id: '190019066706952193' }
{ id: '190019066706984961' }
Update Values ON CONFLICT
When a uniqueness conflict is detected, CockroachDB stores the row in a temporary table called excluded. This example demonstrates how you use the columns in the temporary excluded table to apply updates on conflict:
> INSERT INTO accounts (id, balance)
VALUES (8, 500.50)
ON CONFLICT (id)
DO UPDATE SET balance = excluded.balance;
> SELECT * FROM accounts WHERE id = 8;
+----+---------+
| id | balance |
+----+---------+
| 8 | 500.50 |
+----+---------+
You can also update the row using an existing value:
> INSERT INTO accounts (id, balance)
VALUES (8, 500.50)
ON CONFLICT (id)
DO UPDATE SET balance = accounts.balance + excluded.balance;
> SELECT * FROM accounts WHERE id = 8;
+----+---------+
| id | balance |
+----+---------+
| 8 | 1001.00 |
+----+---------+
You can also use a WHERE clause to apply the DO UPDATE SET expression conditionally:
> INSERT INTO accounts (id, balance)
VALUES (8, 700)
ON CONFLICT (id)
DO UPDATE SET balance = excluded.balance
WHERE excluded.balance > accounts.balance;
> SELECT * FROM accounts WHERE id = 8;
+----+---------+
| id | balance |
+----+---------+
| 8 | 800 |
+----+---------+
(1 row)
Do Not Update Values ON CONFLICT
In this example, we get an error from a uniqueness conflict:
> SELECT * FROM accounts WHERE id = 8;
+----+---------+
| id | balance |
+----+---------+
| 8 | 500.5 |
+----+---------+
> INSERT INTO accounts (id, balance) VALUES (8, 125.50);
pq: duplicate key value (id)=(8) violates unique constraint "primary"
In this example, we use ON CONFLICT DO NOTHING to ignore the uniqueness error and prevent the affected row from being updated:
> INSERT INTO accounts (id, balance)
VALUES (8, 125.50)
ON CONFLICT (id)
DO NOTHING;
> SELECT * FROM accounts WHERE id = 8;
+----+---------+
| id | balance |
+----+---------+
| 8 | 500.5 |
+----+---------+
In this example, ON CONFLICT DO NOTHING prevents the first row from updating while allowing the second row to be inserted:
> INSERT INTO accounts (id, balance)
VALUES (8, 125.50), (10, 450)
ON CONFLICT (id)
DO NOTHING;
> SELECT * FROM accounts WHERE id in (8, 10);
+----+---------+
| id | balance |
+----+---------+
| 8 | 500.5 |
| 10 | 450 |
+----+---------+
