INSERT (Transact-SQL)
Adds one or more rows to a table or a view in SQL Server 2012. For examples, see Examples.
Transact-SQL Syntax Conventions
Syntax
[ WITH <common_table_expression> [ ,...n ] ]
INSERT
{
[ TOP ( expression ) [ PERCENT ] ]
[ INTO ]
{ <object> | rowset_function_limited
[ WITH ( <Table_Hint_Limited> [ ...n ] ) ]
}
{
[ ( column_list ) ]
[ <OUTPUT Clause> ]
{ VALUES ( { DEFAULT | NULL | expression } [ ,...n ] ) [ ,...n ]
| derived_table
| execute_statement
| <dml_table_source>
| DEFAULT VALUES
}
}
}
[;]
<object> ::=
{
[ server_name . database_name . schema_name .
| database_name .[ schema_name ] .
| schema_name .
]
table_or_view_name
}
<dml_table_source> ::=
SELECT <select_list>
FROM ( <dml_statement_with_output_clause> )
[AS] table_alias [ ( column_alias [ ,...n ] ) ]
[ WHERE <search_condition> ]
[ OPTION ( <query_hint> [ ,...n ] ) ]
<column_definition> ::=
column_name <data_type>
[ COLLATE collation_name ]
[ NULL | NOT NULL ]
<data type> ::=
[ type_schema_name . ] type_name
[ ( precision [ , scale ] | max ]
-- External tool only syntax
INSERT
{
[BULK]
[ database_name . [ schema_name ] . | schema_name . ]
[ table_name | view_name ]
( <column_definition> )
[ WITH (
[ [ , ] CHECK_CONSTRAINTS ]
[ [ , ] FIRE_TRIGGERS ]
[ [ , ] KEEP_NULLS ]
[ [ , ] KILOBYTES_PER_BATCH = kilobytes_per_batch ]
[ [ , ] ROWS_PER_BATCH = rows_per_batch ]
[ [ , ] ORDER ( { column [ ASC | DESC ] } [ ,...n ] ) ]
[ [ , ] TABLOCK ]
) ]
}
[; ]
Arguments
WITH <common_table_expression>
Specifies the temporary named result set, also known as common table expression, defined within the scope of the INSERT statement. The result set is derived from a SELECT statement. For more information, see WITH common_table_expression (Transact-SQL).TOP (expression) [ PERCENT ]
Specifies the number or percent of random rows that will be inserted. expression can be either a number or a percent of the rows. For more information, see TOP (Transact-SQL).INTO
Is an optional keyword that can be used between INSERT and the target table.server_name
Is the name of the linked server on which the table or view is located. server_name can be specified as a linked server name, or by using the OPENDATASOURCE function.When server_name is specified as a linked server, database_name and schema_name are required. When server_name is specified with OPENDATASOURCE, database_name and schema_name may not apply to all data sources and is subject to the capabilities of the OLE DB provider that accesses the remote object.
database_name
Is the name of the database.schema_name
Is the name of the schema to which the table or view belongs.table_or view_name
Is the name of the table or view that is to receive the data.A table variable, within its scope, can be used as a table source in an INSERT statement.
The view referenced by table_or_view_name must be updatable and reference exactly one base table in the FROM clause of the view. For example, an INSERT into a multi-table view must use a column_list that references only columns from one base table. For more information about updatable views, see CREATE VIEW (Transact-SQL).
rowset_function_limited
Is either the OPENQUERY or OPENROWSET function. Use of these functions is subject to the capabilities of the OLE DB provider that accesses the remote object.WITH ( <table_hint_limited> [... n ] )
Specifies one or more table hints that are allowed for a target table. The WITH keyword and the parentheses are required.READPAST, NOLOCK, and READUNCOMMITTED are not allowed. For more information about table hints, see Table Hints (Transact-SQL).
Important
The ability to specify the HOLDLOCK, SERIALIZABLE, READCOMMITTED, REPEATABLEREAD, or UPDLOCK hints on tables that are targets of INSERT statements will be removed in a future version of SQL Server. These hints do not affect the performance of INSERT statements. Avoid using them in new development work, and plan to modify applications that currently use them.
Specifying the TABLOCK hint on a table that is the target of an INSERT statement has the same effect as specifying the TABLOCKX hint. An exclusive lock is taken on the table.
(column_list)
Is a list of one or more columns in which to insert data. column_list must be enclosed in parentheses and delimited by commas.If a column is not in column_list, the Database Engine must be able to provide a value based on the definition of the column; otherwise, the row cannot be loaded. The Database Engine automatically provides a value for the column if the column:
Has an IDENTITY property. The next incremental identity value is used.
Has a default. The default value for the column is used.
Has a timestamp data type. The current timestamp value is used.
Is nullable. A null value is used.
Is a computed column. The calculated value is used.
column_list must be used when explicit values are inserted into an identity column, and the SET IDENTITY_INSERT option must be ON for the table.
OUTPUT Clause
Returns inserted rows as part of the insert operation. The results can be returned to the processing application or inserted into a table or table variable for further processing.The OUTPUT clause is not supported in DML statements that reference local partitioned views, distributed partitioned views, or remote tables, or INSERT statements that contain an execute_statement. The OUTPUT INTO clause is not supported in INSERT statements that contain a <dml_table_source> clause.
VALUES
Introduces the list or lists of data values to be inserted. There must be one data value for each column in column_list, if specified, or in the table. The value list must be enclosed in parentheses.If the values in the Value list are not in the same order as the columns in the table or do not have a value for each column in the table, column_list must be used to explicitly specify the column that stores each incoming value.
You can use the Transact-SQL row constructor (also called a table value constructor) to specify multiple rows in a single INSERT statement. The row constructor consists of a single VALUES clause with multiple value lists enclosed in parentheses and separated by a comma. For more information, see Table Value Constructor (Transact-SQL).
DEFAULT
Forces the Database Engine to load the default value defined for a column. If a default does not exist for the column and the column allows null values, NULL is inserted. For a column defined with the timestamp data type, the next timestamp value is inserted. DEFAULT is not valid for an identity column.expression
Is a constant, a variable, or an expression. The expression cannot contain an EXECUTE statement.When referencing the Unicode character data types nchar, nvarchar, and ntext, 'expression' should be prefixed with the capital letter 'N'. If 'N' is not specified, SQL Server converts the string to the code page that corresponds to the default collation of the database or column. Any characters not found in this code page are lost.
derived_table
Is any valid SELECT statement that returns rows of data to be loaded into the table. The SELECT statement cannot contain a common table expression (CTE).execute_statement
Is any valid EXECUTE statement that returns data with SELECT or READTEXT statements. For more information, see EXECUTE (Transact-SQL).The RESULT SETS options of the EXECUTE statement cannot be specified in an INSERT…EXEC statement.
If execute_statement is used with INSERT, each result set must be compatible with the columns in the table or in column_list.
execute_statement can be used to execute stored procedures on the same server or a remote server. The procedure in the remote server is executed, and the result sets are returned to the local server and loaded into the table in the local server. In a distributed transaction, execute_statement cannot be issued against a loopback linked server when the connection has multiple active result sets (MARS) enabled.
If execute_statement returns data with the READTEXT statement, each READTEXT statement can return a maximum of 1 MB (1024 KB) of data. execute_statement can also be used with extended procedures. execute_statement inserts the data returned by the main thread of the extended procedure; however, output from threads other than the main thread are not inserted.
You cannot specify a table-valued parameter as the target of an INSERT EXEC statement; however, it can be specified as a source in the INSERT EXEC string or stored-procedure. For more information, see Use Table-Valued Parameters (Database Engine).
<dml_table_source>
Specifies that the rows inserted into the target table are those returned by the OUTPUT clause of an INSERT, UPDATE, DELETE, or MERGE statement, optionally filtered by a WHERE clause. If <dml_table_source> is specified, the target of the outer INSERT statement must meet the following restrictions:It must be a base table, not a view.
It cannot be a remote table.
It cannot have any triggers defined on it.
It cannot participate in any primary key-foreign key relationships.
It cannot participate in merge replication or updatable subscriptions for transactional replication.
The compatibility level of the database must be set to 100 or higher. For more information, see OUTPUT Clause (Transact-SQL).
<select_list>
Is a comma-separated list specifying which columns returned by the OUTPUT clause to insert. The columns in <select_list> must be compatible with the columns into which values are being inserted. <select_list> cannot reference aggregate functions or TEXTPTR.Note
Any variables listed in the SELECT list refer to their original values, regardless of any changes made to them in <dml_statement_with_output_clause>.
<dml_statement_with_output_clause>
Is a valid INSERT, UPDATE, DELETE, or MERGE statement that returns affected rows in an OUTPUT clause. The statement cannot contain a WITH clause, and cannot target remote tables or partitioned views. If UPDATE or DELETE is specified, it cannot be a cursor-based UPDATE or DELETE. Source rows cannot be referenced as nested DML statements.WHERE <search_condition>
Is any WHERE clause containing a valid <search_condition> that filters the rows returned by <dml_statement_with_output_clause>. For more information, see Search Condition (Transact-SQL). When used in this context, <search_condition> cannot contain subqueries, scalar user-defined functions that perform data access, aggregate functions, TEXTPTR, or full-text search predicates.DEFAULT VALUES
Forces the new row to contain the default values defined for each column.BULK
Used by external tools to upload a binary data stream. This option is not intended for use with tools such as SQL Server Management Studio, SQLCMD, OSQL, or data access application programming interfaces such as SQL Server Native Client.FIRE_TRIGGERS
Specifies that any insert triggers defined on the destination table execute during the binary data stream upload operation. For more information, see BULK INSERT (Transact-SQL).CHECK_CONSTRAINTS
Specifies that all constraints on the target table or view must be checked during the binary data stream upload operation. For more information, see BULK INSERT (Transact-SQL).KEEPNULLS
Specifies that empty columns should retain a null value during the binary data stream upload operation. For more information, see Keep Nulls or Use Default Values During Bulk Import (SQL Server).KILOBYTES_PER_BATCH = kilobytes_per_batch
Specifies the approximate number of kilobytes (KB) of data per batch as kilobytes_per_batch. For more information, see BULK INSERT (Transact-SQL).ROWS_PER_BATCH =rows_per_batch
Indicates the approximate number of rows of data in the binary data stream. For more information, see BULK INSERT (Transact-SQL).Note A syntax error is raised if a column list is not provided.
Best Practices
Use the @@ROWCOUNT function to return the number of inserted rows to the client application. For more information, see @@ROWCOUNT (Transact-SQL).
Best Practices for Bulk Importing Data
Using INSERT INTO…SELECT to Bulk Import Data with Minimal Logging
You can use INSERT INTO <target_table> SELECT <columns> FROM <source_table> to efficiently transfer a large number of rows from one table, such as a staging table, to another table with minimal logging. Minimal logging can improve the performance of the statement and reduce the possibility of the operation filling the available transaction log space during the transaction.
Minimal logging for this statement has the following requirements:
The recovery model of the database is set to simple or bulk-logged.
The target table is an empty or nonempty heap.
The target table is not used in replication.
The TABLOCK hint is specified for the target table.
Rows that are inserted into a heap as the result of an insert action in a MERGE statement may also be minimally logged.
Unlike the BULK INSERT statement, which holds a less restrictive Bulk Update lock, INSERT INTO…SELECT with the TABLOCK hint holds an exclusive (X) lock on the table. This means that you cannot insert rows using parallel insert operations.
Using OPENROWSET and BULK to Bulk Import Data
The OPENROWSET function can accept the following table hints, which provide bulk-load optimizations with the INSERT statement:
The TABLOCK hint can minimize the number of log records for the insert operation. The recovery model of the database must be set to simple or bulk-logged and the target table cannot be used in replication. For more information, see Prerequisites for Minimal Logging in Bulk Import.
The IGNORE_CONSTRAINTS hint can temporarily disable FOREIGN KEY and CHECK constraint checking.
The IGNORE_TRIGGERS hint can temporarily disable trigger execution.
The KEEPDEFAULTS hint allows the insertion of a table column's default value, if any, instead of NULL when the data record lacks a value for the column.
The KEEPIDENTITY hint allows the identity values in the imported data file to be used for the identity column in the target table.
These optimizations are similar to those available with the BULK INSERT command. For more information, see Table Hints (Transact-SQL).
Data Types
When you insert rows, consider the following data type behavior:
If a value is being loaded into columns with a char, varchar, or varbinary data type, the padding or truncation of trailing blanks (spaces for char and varchar, zeros for varbinary) is determined by the SET ANSI_PADDING setting defined for the column when the table was created. For more information, see SET ANSI_PADDING (Transact-SQL).
The following table shows the default operation for SET ANSI_PADDING OFF.
Data type
Default operation
char
Pad value with spaces to the defined width of column.
varchar
Remove trailing spaces to the last non-space character or to a single-space character for strings made up of only spaces.
varbinary
Remove trailing zeros.
If an empty string (' ') is loaded into a column with a varchar or text data type, the default operation is to load a zero-length string.
Inserting a null value into a text or image column does not create a valid text pointer, nor does it preallocate an 8-KB text page.
Columns created with the uniqueidentifier data type store specially formatted 16-byte binary values. Unlike with identity columns, the Database Engine does not automatically generate values for columns with the uniqueidentifier data type. During an insert operation, variables with a data type of uniqueidentifier and string constants in the form xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx (36 characters including hyphens, where x is a hexadecimal digit in the range 0-9 or a-f) can be used for uniqueidentifier columns. For example, 6F9619FF-8B86-D011-B42D-00C04FC964FF is a valid value for a uniqueidentifier variable or column. Use the NEWID() function to obtain a globally unique ID (GUID).
Inserting Values into User-Defined Type Columns
You can insert values in user-defined type columns by:
Supplying a value of the user-defined type.
Supplying a value in a SQL Server system data type, as long as the user-defined type supports implicit or explicit conversion from that type. The following example shows how to insert a value in a column of user-defined type Point, by explicitly converting from a string.
INSERT INTO Cities (Location) VALUES ( CONVERT(Point, '12.3:46.2') );
A binary value can also be supplied without performing explicit conversion, because all user-defined types are implicitly convertible from binary.
Calling a user-defined function that returns a value of the user-defined type. The following example uses a user-defined function CreateNewPoint() to create a new value of user-defined type Point and insert the value into the Cities table.
INSERT INTO Cities (Location) VALUES ( dbo.CreateNewPoint(x, y) );
Error Handling
You can implement error handling for the INSERT statement by specifying the statement in a TRY…CATCH construct.
If an INSERT statement violates a constraint or rule, or if it has a value incompatible with the data type of the column, the statement fails and an error message is returned.
If INSERT is loading multiple rows with SELECT or EXECUTE, any violation of a rule or constraint that occurs from the values being loaded causes the statement to be stopped, and no rows are loaded.
When an INSERT statement encounters an arithmetic error (overflow, divide by zero, or a domain error) occurring during expression evaluation, the Database Engine handles these errors as if SET ARITHABORT is set to ON. The batch is stopped, and an error message is returned. During expression evaluation when SET ARITHABORT and SET ANSI_WARNINGS are OFF, if an INSERT, DELETE or UPDATE statement encounters an arithmetic error, overflow, divide-by-zero, or a domain error, SQL Server inserts or updates a NULL value. If the target column is not nullable, the insert or update action fails and the user receives an error.
Interoperability
When an INSTEAD OF trigger is defined on INSERT actions against a table or view, the trigger executes instead of the INSERT statement. For more information about INSTEAD OF triggers, see CREATE TRIGGER (Transact-SQL).
Limitations and Restrictions
When you insert values into remote tables and not all values for all columns are specified, you must identify the columns to which the specified values are to be inserted.
When TOP is used with INSERT the referenced rows are not arranged in any order and the ORDER BY clause can not be directly specified in this statements. If you need to use TOP to insert rows in a meaningful chronological order, you must use TOP together with an ORDER BY clause that is specified in a subselect statement. See the Examples section that follows in this topic.
Logging Behavior
The INSERT statement is always fully logged except when using the OPENROWSET function with the BULK keyword or when using INSERT INTO <target_table> SELECT <columns> FROM <source_table>. These operations can be minimally logged. For more information, see the section "Best Practices for Bulk Loading Data" earlier in this topic.
Security
During a linked server connection, the sending server provides a login name and password to connect to the receiving server on its behalf. For this connection to work, you must create a login mapping between the linked servers by using sp_addlinkedsrvlogin.
When you use OPENROWSET(BULK…), it is important to understand how SQL Server handles impersonation. For more information, see "Security Considerations" in Import Bulk Data by Using BULK INSERT or OPENROWSET(BULK...) (SQL Server).
Permissions
INSERT permission is required on the target table.
INSERT permissions default to members of the sysadmin fixed server role, the db_owner and db_datawriter fixed database roles, and the table owner. Members of the sysadmin, db_owner, and the db_securityadmin roles, and the table owner can transfer permissions to other users.
To execute INSERT with the OPENROWSET function BULK option, you must be a member of the sysadmin fixed server role or of the bulkadmin fixed server role.
Examples
Category |
Featured syntax elements |
---|---|
Basic syntax |
INSERT • table value constructor |
Handling column values |
IDENTITY • NEWID • default values • user-defined types |
Inserting data from other tables |
INSERT…SELECT • INSERT…EXECUTE • WITH common table expression • TOP • OFFSET FETCH |
Specifying target objects other than standard tables |
Views • table variables |
Inserting rows into a remote table |
Linked server • OPENQUERY rowset function • OPENDATASOURCE rowset function |
Bulk loading data from tables or data files |
INSERT…SELECT • OPENROWSET function |
Overriding the default behavior of the query optimizer by using hints |
Table hints |
Capturing the results of the INSERT statement |
OUTPUT clause |
Basic Syntax
Examples in this section demonstrate the basic functionality of the INSERT statement using the minimum required syntax.
A. Inserting a single row of data
The following example inserts one row into the Production.UnitMeasure table. The columns in this table are UnitMeasureCode, Name, and ModifiedDate. Because values for all columns are supplied and are listed in the same order as the columns in the table, the column names do not have to be specified in the column list.
USE AdventureWorks2012;
GO
INSERT INTO Production.UnitMeasure
VALUES (N'FT', N'Feet', '20080414');
GO
B. Inserting multiple rows of data
The following example uses the table value constructor to insert three rows into the Production.UnitMeasure table in a single INSERT statement. Because values for all columns are supplied and are listed in the same order as the columns in the table, the column names do not have to be specified in the column list.
USE AdventureWorks2012;
GO
INSERT INTO Production.UnitMeasure
VALUES (N'FT2', N'Square Feet ', '20080923'), (N'Y', N'Yards', '20080923'), (N'Y3', N'Cubic Yards', '20080923');
GO
C. Inserting data that is not in the same order as the table columns
The following example uses a column list to explicitly specify the values that are inserted into each column. The column order in the Production.UnitMeasure table is UnitMeasureCode, Name, ModifiedDate; however, the columns are not listed in that order in column_list.
USE AdventureWorks2012;
GO
INSERT INTO Production.UnitMeasure (Name, UnitMeasureCode,
ModifiedDate)
VALUES (N'Square Yards', N'Y2', GETDATE());
GO
Handling Column Values
Examples in this section demonstrate methods of inserting values into columns that are defined with an IDENTITY property, DEFAULT value, or are defined with data types such as uniqueidentifer or user-defined type columns.
A. Inserting data into a table with columns that have default values
The following example shows inserting rows into a table with columns that automatically generate a value or have a default value. Column_1 is a computed column that automatically generates a value by concatenating a string with the value inserted into column_2. Column_2 is defined with a default constraint. If a value is not specified for this column, the default value is used. Column_3 is defined with the rowversion data type, which automatically generates a unique, incrementing binary number. Column_4 does not automatically generate a value. When a value for this column is not specified, NULL is inserted. The INSERT statements insert rows that contain values for some of the columns but not all. In the last INSERT statement, no columns are specified and only the default values are inserted by using the DEFAULT VALUES clause.
USE AdventureWorks2012;
GO
IF OBJECT_ID ('dbo.T1', 'U') IS NOT NULL
DROP TABLE dbo.T1;
GO
CREATE TABLE dbo.T1
(
column_1 AS 'Computed column ' + column_2,
column_2 varchar(30)
CONSTRAINT default_name DEFAULT ('my column default'),
column_3 rowversion,
column_4 varchar(40) NULL
);
GO
INSERT INTO dbo.T1 (column_4)
VALUES ('Explicit value');
INSERT INTO dbo.T1 (column_2, column_4)
VALUES ('Explicit value', 'Explicit value');
INSERT INTO dbo.T1 (column_2)
VALUES ('Explicit value');
INSERT INTO T1 DEFAULT VALUES;
GO
SELECT column_1, column_2, column_3, column_4
FROM dbo.T1;
GO
B. Inserting data into a table with an identity column
The following example shows different methods of inserting data into an identity column. The first two INSERT statements allow identity values to be generated for the new rows. The third INSERT statement overrides the IDENTITY property for the column with the SET IDENTITY_INSERT statement and inserts an explicit value into the identity column.
USE AdventureWorks2012;
GO
IF OBJECT_ID ('dbo.T1', 'U') IS NOT NULL
DROP TABLE dbo.T1;
GO
CREATE TABLE dbo.T1 ( column_1 int IDENTITY, column_2 VARCHAR(30));
GO
INSERT T1 VALUES ('Row #1');
INSERT T1 (column_2) VALUES ('Row #2');
GO
SET IDENTITY_INSERT T1 ON;
GO
INSERT INTO T1 (column_1,column_2)
VALUES (-99, 'Explicit identity value');
GO
SELECT column_1, column_2
FROM T1;
GO
C. Inserting data into a uniqueidentifier column by using NEWID()
The following example uses the NEWID() function to obtain a GUID for column_2. Unlike for identity columns, the Database Engine does not automatically generate values for columns with the uniqueidentifier data type, as shown by the second INSERT statement.
USE AdventureWorks2012;
GO
IF OBJECT_ID ('dbo.T1', 'U') IS NOT NULL
DROP TABLE dbo.T1;
GO
CREATE TABLE dbo.T1
(
column_1 int IDENTITY,
column_2 uniqueidentifier,
);
GO
INSERT INTO dbo.T1 (column_2)
VALUES (NEWID());
INSERT INTO T1 DEFAULT VALUES;
GO
SELECT column_1, column_2
FROM dbo.T1;
GO
D. Inserting data into user-defined type columns
The following Transact-SQL statements insert three rows into the PointValue column of the Points table. This column uses a CLR user-defined type (UDT). The Point data type consists of X and Y integer values that are exposed as properties of the UDT. You must use either the CAST or CONVERT function to cast the comma-delimited X and Y values to the Point type. The first two statements use the CONVERT function to convert a string value to the Point type, and the third statement uses the CAST function. For more information, see Manipulating UDT Data.
INSERT INTO dbo.Points (PointValue) VALUES (CONVERT(Point, '3,4'));
INSERT INTO dbo.Points (PointValue) VALUES (CONVERT(Point, '1,5'));
INSERT INTO dbo.Points (PointValue) VALUES (CAST ('1,99' AS Point));
Inserting Data from Other Tables
Examples in this section demonstrate methods of inserting rows from one table into another table.
A. Using the SELECT and EXECUTE options to insert data from other tables
The following example shows how to insert data from one table into another table by using INSERT…SELECT or INSERT…EXECUTE. Each is based on a multi-table SELECT statement that includes an expression and a literal value in the column list.
The first INSERT statement uses a SELECT statement to derive the data from the source tables (Employee, SalesPerson, and Person) and store the result set in the EmployeeSales table. The second INSERT statement uses the EXECUTE clause to call a stored procedure that contains the SELECT statement, and the third INSERT uses the EXECUTE clause to reference the SELECT statement as a literal string.
USE AdventureWorks2012;
GO
IF OBJECT_ID ('dbo.EmployeeSales', 'U') IS NOT NULL
DROP TABLE dbo.EmployeeSales;
GO
IF OBJECT_ID ('dbo.uspGetEmployeeSales', 'P') IS NOT NULL
DROP PROCEDURE uspGetEmployeeSales;
GO
CREATE TABLE dbo.EmployeeSales
( DataSource varchar(20) NOT NULL,
BusinessEntityID varchar(11) NOT NULL,
LastName varchar(40) NOT NULL,
SalesDollars money NOT NULL
);
GO
CREATE PROCEDURE dbo.uspGetEmployeeSales
AS
SET NOCOUNT ON;
SELECT 'PROCEDURE', sp.BusinessEntityID, c.LastName,
sp.SalesYTD
FROM Sales.SalesPerson AS sp
INNER JOIN Person.Person AS c
ON sp.BusinessEntityID = c.BusinessEntityID
WHERE sp.BusinessEntityID LIKE '2%'
ORDER BY sp.BusinessEntityID, c.LastName;
GO
--INSERT...SELECT example
INSERT INTO dbo.EmployeeSales
SELECT 'SELECT', sp.BusinessEntityID, c.LastName, sp.SalesYTD
FROM Sales.SalesPerson AS sp
INNER JOIN Person.Person AS c
ON sp.BusinessEntityID = c.BusinessEntityID
WHERE sp.BusinessEntityID LIKE '2%'
ORDER BY sp.BusinessEntityID, c.LastName;
GO
--INSERT...EXECUTE procedure example
INSERT INTO dbo.EmployeeSales
EXECUTE dbo.uspGetEmployeeSales;
GO
--INSERT...EXECUTE('string') example
INSERT INTO dbo.EmployeeSales
EXECUTE
('
SELECT ''EXEC STRING'', sp.BusinessEntityID, c.LastName,
sp.SalesYTD
FROM Sales.SalesPerson AS sp
INNER JOIN Person.Person AS c
ON sp.BusinessEntityID = c.BusinessEntityID
WHERE sp.BusinessEntityID LIKE ''2%''
ORDER BY sp.BusinessEntityID, c.LastName
');
GO
--Show results.
SELECT DataSource,BusinessEntityID,LastName,SalesDollars
FROM dbo.EmployeeSales;
GO
B. Using WITH common table expression to define the data inserted
The following example creates the NewEmployee table. A common table expression (EmployeeTemp) defines the rows from one or more tables to be inserted into the NewEmployee table. The INSERT statement references the columns in the common table expression.
USE AdventureWorks2012;
GO
IF OBJECT_ID (N'HumanResources.NewEmployee', N'U') IS NOT NULL
DROP TABLE HumanResources.NewEmployee;
GO
CREATE TABLE HumanResources.NewEmployee
(
EmployeeID int NOT NULL,
LastName nvarchar(50) NOT NULL,
FirstName nvarchar(50) NOT NULL,
PhoneNumber Phone NULL,
AddressLine1 nvarchar(60) NOT NULL,
City nvarchar(30) NOT NULL,
State nchar(3) NOT NULL,
PostalCode nvarchar(15) NOT NULL,
CurrentFlag Flag
);
GO
WITH EmployeeTemp (EmpID, LastName, FirstName, Phone,
Address, City, StateProvince,
PostalCode, CurrentFlag)
AS (SELECT
e.BusinessEntityID, c.LastName, c.FirstName, pp.PhoneNumber,
a.AddressLine1, a.City, sp.StateProvinceCode,
a.PostalCode, e.CurrentFlag
FROM HumanResources.Employee e
INNER JOIN Person.BusinessEntityAddress AS bea
ON e.BusinessEntityID = bea.BusinessEntityID
INNER JOIN Person.Address AS a
ON bea.AddressID = a.AddressID
INNER JOIN Person.PersonPhone AS pp
ON e.BusinessEntityID = pp.BusinessEntityID
INNER JOIN Person.StateProvince AS sp
ON a.StateProvinceID = sp.StateProvinceID
INNER JOIN Person.Person as c
ON e.BusinessEntityID = c.BusinessEntityID
)
INSERT INTO HumanResources.NewEmployee
SELECT EmpID, LastName, FirstName, Phone,
Address, City, StateProvince, PostalCode, CurrentFlag
FROM EmployeeTemp;
GO
C. Using TOP to limit the data inserted from the source table
The following example creates the table EmployeeSales and inserts the name and year-to-date sales data for the top 5 random employees from the table HumanResources.Employee. The INSERT statement chooses any 5 rows returned by the SELECT statement. The OUTPUT clause displays the rows that are inserted into the EmployeeSales table. Notice that the ORDER BY clause in the SELECT statement is not used to determine the top 5 employees.
USE AdventureWorks2012 ;
GO
IF OBJECT_ID ('dbo.EmployeeSales', 'U') IS NOT NULL
DROP TABLE dbo.EmployeeSales;
GO
CREATE TABLE dbo.EmployeeSales
( EmployeeID nvarchar(11) NOT NULL,
LastName nvarchar(20) NOT NULL,
FirstName nvarchar(20) NOT NULL,
YearlySales money NOT NULL
);
GO
INSERT TOP(5)INTO dbo.EmployeeSales
OUTPUT inserted.EmployeeID, inserted.FirstName, inserted.LastName, inserted.YearlySales
SELECT sp.BusinessEntityID, c.LastName, c.FirstName, sp.SalesYTD
FROM Sales.SalesPerson AS sp
INNER JOIN Person.Person AS c
ON sp.BusinessEntityID = c.BusinessEntityID
WHERE sp.SalesYTD > 250000.00
ORDER BY sp.SalesYTD DESC;
If you have to use TOP to insert rows in a meaningful chronological order, you must use TOP together with ORDER BY in a subselect statement as shown in the following example. The OUTPUT clause displays the rows that are inserted into the EmployeeSales table. Notice that the top 5 employees are now inserted based on the results of the ORDER BY clause instead of random rows.
INSERT INTO dbo.EmployeeSales
OUTPUT inserted.EmployeeID, inserted.FirstName, inserted.LastName, inserted.YearlySales
SELECT TOP (5) sp.BusinessEntityID, c.LastName, c.FirstName, sp.SalesYTD
FROM Sales.SalesPerson AS sp
INNER JOIN Person.Person AS c
ON sp.BusinessEntityID = c.BusinessEntityID
WHERE sp.SalesYTD > 250000.00
ORDER BY sp.SalesYTD DESC;
Specifying Target Objects Other Than Standard Tables
Examples in this section demonstrate how to insert rows by specifying a view or table variable.
A. Inserting data by specifying a view
The following example specifies a view name as the target object; however, the new row is inserted in the underlying base table. The order of the values in the INSERT statement must match the column order of the view. For more information, see Modify Data Through a View.
USE AdventureWorks2012;
GO
IF OBJECT_ID ('dbo.T1', 'U') IS NOT NULL
DROP TABLE dbo.T1;
GO
IF OBJECT_ID ('dbo.V1', 'V') IS NOT NULL
DROP VIEW dbo.V1;
GO
CREATE TABLE T1 ( column_1 int, column_2 varchar(30));
GO
CREATE VIEW V1 AS
SELECT column_2, column_1
FROM T1;
GO
INSERT INTO V1
VALUES ('Row 1',1);
GO
SELECT column_1, column_2
FROM T1;
GO
SELECT column_1, column_2
FROM V1;
GO
B. Inserting data into a table variable
The following example specifies a table variable as the target object.
USE AdventureWorks2012;
GO
-- Create the table variable.
DECLARE @MyTableVar table(
LocationID int NOT NULL,
CostRate smallmoney NOT NULL,
NewCostRate AS CostRate * 1.5,
ModifiedDate datetime);
-- Insert values into the table variable.
INSERT INTO @MyTableVar (LocationID, CostRate, ModifiedDate)
SELECT LocationID, CostRate, GETDATE() FROM Production.Location
WHERE CostRate > 0;
-- View the table variable result set.
SELECT * FROM @MyTableVar;
GO
Inserting Rows into a Remote Table
Examples in this section demonstrate how to insert rows into a remote target table by using a linked server or a rowset function to reference the remote table.
A. Inserting data into a remote table by using a linked server
The following example inserts rows into a remote table. The example begins by creating a link to the remote data source by using sp_addlinkedserver. The linked server name, MyLinkServer, is then specified as part of the four-part object name in the form server.catalog.schema.object.
USE master;
GO
-- Create a link to the remote data source.
-- Specify a valid server name for @datasrc as 'server_name' or 'server_name\instance_name'.
EXEC sp_addlinkedserver @server = N'MyLinkServer',
@srvproduct = N' ',
@provider = N'SQLNCLI',
@datasrc = N'server_name',
@catalog = N'AdventureWorks2012';
GO
USE AdventureWorks2012;
GO
-- Specify the remote data source in the FROM clause using a four-part name
-- in the form linked_server.catalog.schema.object.
INSERT INTO MyLinkServer.AdventureWorks2012.HumanResources.Department (Name, GroupName)
VALUES (N'Public Relations', N'Executive General and Administration');
GO
B. Inserting data into a remote table by using the OPENQUERY function
The following example inserts a row into a remote table by specifying the OPENQUERY rowset function. The linked server name created in the previous example is used in this example.
-- Use the OPENQUERY function to access the remote data source.
INSERT OPENQUERY (MyLinkServer, 'SELECT Name, GroupName FROM AdventureWorks2012.HumanResources.Department')
VALUES ('Environmental Impact', 'Engineering');
GO
C. Inserting data into a remote table by using the OPENDATASOURCE function
The following example inserts a row into a remote table by specifying the OPENDATASOURCE rowset function. Specify a valid server name for the data source by using the format server_name or server_name\instance_name.
-- Use the OPENDATASOURCE function to specify the remote data source.
-- Specify a valid server name for Data Source using the format server_name or server_name\instance_name.
INSERT INTO OPENDATASOURCE('SQLNCLI',
'Data Source= <server_name>; Integrated Security=SSPI')
.AdventureWorks2012.HumanResources.Department (Name, GroupName)
VALUES (N'Standards and Methods', 'Quality Assurance');
GO
Bulk Loading Data from Tables or Data Files
Examples in this section demonstrate two methods to bulk load data into a table by using the INSERT statement.
A. Inserting data into a heap with minimal logging
The following example creates a a new table (a heap) and inserts data from another table into it using minimal logging. The example assumes that the recovery model of the AdventureWorks2012 database is set to FULL. To ensure minimal logging is used, the recovery model of the AdventureWorks2012 database is set to BULK_LOGGED before rows are inserted and reset to FULL after the INSERT INTO…SELECT statement. In addition, the TABLOCK hint is specified for the target table Sales.SalesHistory. This ensures that the statement uses minimal space in the transaction log and performs efficiently.
USE AdventureWorks2012;
GO
-- Create the target heap.
CREATE TABLE Sales.SalesHistory(
SalesOrderID int NOT NULL,
SalesOrderDetailID int NOT NULL,
CarrierTrackingNumber nvarchar(25) NULL,
OrderQty smallint NOT NULL,
ProductID int NOT NULL,
SpecialOfferID int NOT NULL,
UnitPrice money NOT NULL,
UnitPriceDiscount money NOT NULL,
LineTotal money NOT NULL,
rowguid uniqueidentifier ROWGUIDCOL NOT NULL,
ModifiedDate datetime NOT NULL );
GO
-- Temporarily set the recovery model to BULK_LOGGED.
ALTER DATABASE AdventureWorks2012
SET RECOVERY BULK_LOGGED;
GO
-- Transfer data from Sales.SalesOrderDetail to Sales.SalesHistory
INSERT INTO Sales.SalesHistory WITH (TABLOCK)
(SalesOrderID,
SalesOrderDetailID,
CarrierTrackingNumber,
OrderQty,
ProductID,
SpecialOfferID,
UnitPrice,
UnitPriceDiscount,
LineTotal,
rowguid,
ModifiedDate)
SELECT * FROM Sales.SalesOrderDetail;
GO
-- Reset the recovery model.
ALTER DATABASE AdventureWorks2012
SET RECOVERY FULL;
GO
B. Using the OPENROWSET function with BULK to bulk load data into a table
The following example inserts rows from a data file into a table by specifying the OPENROWSET function. The IGNORE_TRIGGERS table hint is specified for performance optimization. For more examples, see Import Bulk Data by Using BULK INSERT or OPENROWSET(BULK...) (SQL Server).
-- Use the OPENROWSET function to specify the data source and specifies the IGNORE_TRIGGERS table hint.
INSERT INTO HumanResources.Department WITH (IGNORE_TRIGGERS) (Name, GroupName)
SELECT b.Name, b.GroupName
FROM OPENROWSET (
BULK 'C:\SQLFiles\DepartmentData.txt',
FORMATFILE = 'C:\SQLFiles\BulkloadFormatFile.xml',
ROWS_PER_BATCH = 15000)AS b ;
GO
Overriding the Default Behavior of the Query Optimizer by Using Hints
Examples in this section demonstrate how to use table hints to temporarily override the default behavior of the query optimizer when processing the INSERT statement.
Warning
Because the SQL Server query optimizer typically selects the best execution plan for a query, we recommend that hints be used only as a last resort by experienced developers and database administrators.
A. Using the TABLOCK hint to specify a locking method
The following example specifies that an exclusive (X) lock is taken on the Production.Location table and is held until the end of the INSERT statement.
USE AdventureWorks2012;
GO
INSERT INTO Production.Location WITH (XLOCK)
(Name, CostRate, Availability)
VALUES ( N'Final Inventory', 15.00, 80.00);
GO
Capturing the Results of the INSERT Statement
Examples in this section demonstrate how to use the OUTPUT Clause to return information from, or expressions based on, each row affected by an INSERT statement. These results can be returned to the processing application for use in such things as confirmation messages, archiving, and other such application requirements.
A Using OUTPUT with an INSERT statement
The following example inserts a row into the ScrapReason table and uses the OUTPUT clause to return the results of the statement to the @MyTableVar table variable. Because the ScrapReasonID column is defined with an IDENTITY property, a value is not specified in the INSERT statement for that column. However, note that the value generated by the Database Engine for that column is returned in the OUTPUT clause in the INSERTED.ScrapReasonID column.
USE AdventureWorks2012;
GO
DECLARE @MyTableVar table( NewScrapReasonID smallint,
Name varchar(50),
ModifiedDate datetime);
INSERT Production.ScrapReason
OUTPUT INSERTED.ScrapReasonID, INSERTED.Name, INSERTED.ModifiedDate
INTO @MyTableVar
VALUES (N'Operator error', GETDATE());
--Display the result set of the table variable.
SELECT NewScrapReasonID, Name, ModifiedDate FROM @MyTableVar;
--Display the result set of the table.
SELECT ScrapReasonID, Name, ModifiedDate
FROM Production.ScrapReason;
GO
B. Using OUTPUT with identity and computed columns
The following example creates the EmployeeSales table and then inserts several rows into it using an INSERT statement with a SELECT statement to retrieve data from source tables. The EmployeeSales table contains an identity column (EmployeeID) and a computed column (ProjectedSales). Because these values are generated by the Database Engine during the insert operation, neither of these columns can be defined in @MyTableVar.
USE AdventureWorks2012 ;
GO
IF OBJECT_ID ('dbo.EmployeeSales', 'U') IS NOT NULL
DROP TABLE dbo.EmployeeSales;
GO
CREATE TABLE dbo.EmployeeSales
( EmployeeID int IDENTITY (1,5)NOT NULL,
LastName nvarchar(20) NOT NULL,
FirstName nvarchar(20) NOT NULL,
CurrentSales money NOT NULL,
ProjectedSales AS CurrentSales * 1.10
);
GO
DECLARE @MyTableVar table(
LastName nvarchar(20) NOT NULL,
FirstName nvarchar(20) NOT NULL,
CurrentSales money NOT NULL
);
INSERT INTO dbo.EmployeeSales (LastName, FirstName, CurrentSales)
OUTPUT INSERTED.LastName,
INSERTED.FirstName,
INSERTED.CurrentSales
INTO @MyTableVar
SELECT c.LastName, c.FirstName, sp.SalesYTD
FROM Sales.SalesPerson AS sp
INNER JOIN Person.Person AS c
ON sp.BusinessEntityID = c.BusinessEntityID
WHERE sp.BusinessEntityID LIKE '2%'
ORDER BY c.LastName, c.FirstName;
SELECT LastName, FirstName, CurrentSales
FROM @MyTableVar;
GO
SELECT EmployeeID, LastName, FirstName, CurrentSales, ProjectedSales
FROM dbo.EmployeeSales;
GO
C. Inserting data returned from an OUTPUT clause
The following example captures data returned from the OUTPUT clause of a MERGE statement, and inserts that data into another table. The MERGE statement updates the Quantity column of the ProductInventory table daily, based on orders that are processed in the SalesOrderDetail table. It also deletes rows for products whose inventories drop to 0. The example captures the rows that are deleted and inserts them into another table, ZeroInventory, which tracks products with no inventory.
USE AdventureWorks2012;
GO
IF OBJECT_ID(N'Production.ZeroInventory', N'U') IS NOT NULL
DROP TABLE Production.ZeroInventory;
GO
--Create ZeroInventory table.
CREATE TABLE Production.ZeroInventory (DeletedProductID int, RemovedOnDate DateTime);
GO
INSERT INTO Production.ZeroInventory (DeletedProductID, RemovedOnDate)
SELECT ProductID, GETDATE()
FROM
( MERGE Production.ProductInventory AS pi
USING (SELECT ProductID, SUM(OrderQty) FROM Sales.SalesOrderDetail AS sod
JOIN Sales.SalesOrderHeader AS soh
ON sod.SalesOrderID = soh.SalesOrderID
AND soh.OrderDate = '20070401'
GROUP BY ProductID) AS src (ProductID, OrderQty)
ON (pi.ProductID = src.ProductID)
WHEN MATCHED AND pi.Quantity - src.OrderQty <= 0
THEN DELETE
WHEN MATCHED
THEN UPDATE SET pi.Quantity = pi.Quantity - src.OrderQty
OUTPUT $action, deleted.ProductID) AS Changes (Action, ProductID)
WHERE Action = 'DELETE';
IF @@ROWCOUNT = 0
PRINT 'Warning: No rows were inserted';
GO
SELECT DeletedProductID, RemovedOnDate FROM Production.ZeroInventory;
See Also
Reference
IDENTITY (Property) (Transact-SQL)