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SQL-CLR Type Mapping (LINQ to SQL)

In LINQ to SQL, the data model of a relational database maps to an object model that is expressed in the programming language of your choice. When the application runs, LINQ to SQL translates the language-integrated queries in the object model into SQL and sends them to the database for execution. When the database returns the results, LINQ to SQL translates the results back to objects that you can work with in your own programming language.

In order to translate data between the object model and the database, a type mapping must be defined. LINQ to SQL uses a type mapping to match each common language runtime (CLR) type with a particular SQL Server type. You can define type mappings and other mapping information, such as database structure and table relationships, inside the object model with attribute-based mapping. Alternatively, you can specify the mapping information outside the object model with an external mapping file. For more information, see Attribute-Based Mapping (LINQ to SQL) and External Mapping Reference (LINQ to SQL).

This topic discusses the following points:

  • Default Type Mapping

  • Type Mapping Run-time Behavior Matrix

  • Behavior Differences Between CLR and SQL Execution

  • Enum Mapping

  • Numeric Mapping

  • Text and XML Mapping

  • Date and Time Mapping

  • Binary Mapping

  • Miscellaneous Mapping

Default Type Mapping

You can create the object model or external mapping file automatically with the Object Relational Designer (O/R Designer) or the SQLMetal command-line tool. The default type mappings for these tools define which CLR types are chosen to map to columns inside the SQL Server database. For more information about using these tools, see Creating the Object Model (LINQ to SQL).

You can also use the CreateDatabase method to create a SQL Server database based on the mapping information in the object model or external mapping file. The default type mappings for the CreateDatabase method define which type of SQL Server columns are created to map to the CLR types in the object model. For more information, see How to: Dynamically Create a Database (LINQ to SQL).

Type Mapping Run-time Behavior Matrix

The following diagram shows the expected run-time behavior of specific type mappings when data is retrieved from or saved to the database. With the exception of serialization, LINQ to SQL does not support mapping between any CLR or SQL Server data types that are not specified in this matrix. For more information on serialization support, see Binary Serialization.

Note

Some type mappings may result in overflow or data loss exceptions while translating to or from the database.

Mapping for SQL and CLR Types

Custom Type Mapping

With LINQ to SQL, you are not limited to the default type mappings used by the O/R Designer, SQLMetal, and the CreateDatabase method. You can create custom type mappings by explicitly specifying them in a DBML file. Then you can use that DBML file to create the object model code and mapping file. For more information, see SQL-CLR Custom Type Mappings (LINQ to SQL).

Behavior Differences Between CLR and SQL Execution

Because of differences in precision and execution between the CLR and SQL Server, you may receive different results or experience different behavior depending on where you perform your calculations. Calculations performed in LINQ to SQL queries are actually translated to Transact-SQL and then executed on the SQL Server database. Calculations performed outside LINQ to SQL queries are executed within the context of the CLR.

For example, the following are some differences in behavior between the CLR and SQL Server:

  • SQL Server orders some data types differently than data of equivalent type in the CLR. For example, SQL Server data of type UNIQUEIDENTIFIER is ordered differently than CLR data of type System.Guid.

  • SQL Server handles some string comparison operations differently than the CLR. In SQL Server, string comparison behavior depends on the collation settings on the server. For more information, see Working with Collations in the Microsoft SQL Server Books Online.

  • SQL Server may return different values for some mapped functions than the CLR. For example, equality functions will differ because SQL Server considers two strings to be equal if they only differ in trailing white space; whereas the CLR considers them to be not equal.

Enum Mapping

LINQ to SQL supports mapping the CLR System.Enum type to SQL Server types in two ways:

  • Mapping to SQL numeric types (TINYINT, SMALLINT, INT, BIGINT)

    When you map a CLR System.Enum type to a SQL numeric type, you map the underlying integer value of the CLR System.Enum to the value of the SQL Server database column. For example, if a System.Enum named DaysOfWeek contains a member named Tue with an underlying integer value of 3, that member maps to a database value of 3.

  • Mapping to SQL text types (CHAR, NCHAR, VARCHAR, NVARCHAR)

    When you map a CLR System.Enum type to a SQL text type, the SQL database value is mapped to the names of the CLR System.Enum members. For example, if a System.Enum named DaysOfWeek contains a member named Tue with an underlying integer value of 3, that member maps to a database value of Tue.

Note

When mapping SQL text types to a CLR System.Enum, include only the names of the Enum members in the mapped SQL column. Other values are not supported in the Enum-mapped SQL column.

The O/R Designer and SQLMetal command-line tool cannot automatically map a SQL type to a CLR Enum class. You must explicitly configure this mapping by customizing a DBML file for use by the O/R Designer and SQLMetal. For more information about custom type mapping, see SQL-CLR Custom Type Mappings (LINQ to SQL).

Because a SQL column intended for enumeration will be of the same type as other numeric and text columns; these tools will not recognize your intent and default to mapping as described in the following Numeric Mapping and Text and XML Mapping sections. For more information about generating code with the DBML file, see Code Generation in LINQ to SQL.

The DataContext.CreateDatabase method creates a SQL column of numeric type to map a CLR System.Enum type.

Numeric Mapping

LINQ to SQL lets you map many CLR and SQL Server numeric types. The following table shows the CLR types that O/R Designer and SQLMetal select when building an object model or external mapping file based on your database.

SQL Server Type

Default CLR Type mapping used by O/R Designer and SQLMetal

BIT

System.Boolean

TINYINT

System.Int16

INT

System.Int32

BIGINT

System.Int64

SMALLMONEY

System.Decimal

MONEY

System.Decimal

DECIMAL

System.Decimal

NUMERIC

System.Decimal

REAL/FLOAT(24)

System.Single

FLOAT/FLOAT(53)

System.Double

The next table shows the default type mappings used by the DataContext.CreateDatabase method to define which type of SQL columns are created to map to the CLR types defined in your object model or external mapping file.

CLR Type

Default SQL Server Type used by DataContext.CreateDatabase

System.Boolean

BIT

System.Byte

TINYINT

System.Int16

SMALLINT

System.Int32

INT

System.Int64

BIGINT

System.SByte

SMALLINT

System.UInt16

INT

System.UInt32

BIGINT

System.UInt64

DECIMAL(20)

System.Decimal

DECIMAL(29,4)

System.Single

REAL

System.Double

FLOAT

There are many other numeric mappings you can choose, but some may result in overflow or data loss exceptions while translating to or from the database. For more information, see the Type Mapping Run Time Behavior Matrix.

Decimal and Money Types

The default precision of SQL Server DECIMAL type (18 decimal digits to the left and right of the decimal point) is much smaller than the precision of the CLR Decimal type that it is paired with by default. This can result in precision loss when you save data to the database. However, just the opposite can happen if the SQL Server DECIMAL type is configured with greater than 29 digits of precision. When a SQL Server DECIMAL type has been configured with a greater precision than the CLR System.Decimal, precision loss can occur when retrieving data from the database.

The SQL Server MONEY and SMALLMONEY types, which are also paired with the CLR System.Decimal type by default, have a much smaller precision, which can result in overflow or data loss exceptions when saving data to the database.

Text and XML Mapping

There are also many text-based and XML types that you can map with LINQ to SQL. The following table shows the CLR types that O/R Designer and SQLMetal select when building an object model or external mapping file based on your database.

SQL Server Type

Default CLR Type mapping used by O/R Designer and SQLMetal

CHAR

System.String

NCHAR

System.String

VARCHAR

System.String

NVARCHAR

System.String

TEXT

System.String

NTEXT

System.String

XML

System.Xml.Linq.XElement

The next table shows the default type mappings used by the DataContext.CreateDatabase method to define which type of SQL columns are created to map to the CLR types defined in your object model or external mapping file.

CLR Type

Default SQL Server Type used by DataContext.CreateDatabase

System.Char

NCHAR(1)

System.String

NVARCHAR(4000)

System.Char[]

NVARCHAR(4000)

Custom type implementing Parse() and ToString()

NVARCHAR(MAX)

There are many other text-based and XML mappings you can choose, but some may result in overflow or data loss exceptions while translating to or from the database. For more information, see the Type Mapping Run Time Behavior Matrix.

XML Types

The SQL Server XML data type is available starting in Microsoft SQL Server 2005. You can map the SQL Server XML data type to XElement, XDocument, or String. If the column stores XML fragments that cannot be read into XElement, the column must be mapped to String to avoid run-time errors. XML fragments that must be mapped to String include the following:

  • A sequence of XML elements

  • Attributes

  • Public Identifiers (PI)

  • Comments

Although you can map XElement and XDocument to SQL Server as shown in the Type Mapping Run Time Behavior Matrix, the DataContext.CreateDatabase method has no default SQL Server type mapping for these types.

Custom Types

If a class implements Parse() and ToString(), you can map the object to any SQL text type (CHAR, NCHAR, VARCHAR, NVARCHAR, TEXT, NTEXT, XML). The object is stored in the database by sending the value returned by ToString() to the mapped database column. The object is reconstructed by invoking Parse() on the string returned by the database.

Note

LINQ to SQL does not support serialization by using System.Xml.Serialization.IXmlSerializable.

Date and Time Mapping

With LINQ to SQL, you can map many SQL Server date and time types. The following table shows the CLR types that O/R Designer and SQLMetal select when building an object model or external mapping file based on your database.

SQL Server Type

Default CLR Type mapping used by O/R Designer and SQLMetal

SMALLDATETIME

System.DateTime

DATETIME

System.DateTime

DATETIME2

System.DateTime

DATETIMEOFFSET

System.DateTimeOffset

DATE

System.DateTime

TIME

System.TimeSpan

The next table shows the default type mappings used by the DataContext.CreateDatabase method to define which type of SQL columns are created to map to the CLR types defined in your object model or external mapping file.

CLR Type

Default SQL Server Type used by DataContext.CreateDatabase

System.DateTime

DATETIME

System.DateTimeOffset

DATETIMEOFFSET

System.TimeSpan

TIME

There are many other date and time mappings you can choose, but some may result in overflow or data loss exceptions while translating to or from the database. For more information, see the Type Mapping Run Time Behavior Matrix.

Note

The SQL Server types DATETIME2, DATETIMEOFFSET, DATE, and TIME are available starting with Microsoft SQL Server 2008. LINQ to SQL supports mapping to these new types starting with the .NET Framework version 3.5 SP1.

System.Datetime

The range and precision of the CLR System.DateTime type is greater than the range and precision of the SQL Server DATETIME type, which is the default type mapping for the DataContext.CreateDatabase method. To help avoid exceptions related to dates outside the range of DATETIME, use DATETIME2, which is available starting with Microsoft SQL Server 2008. DATETIME2 can match the range and precision of the CLR System.DateTime.

SQL Server dates have no concept of TimeZone, a feature that is richly supported in the CLR. TimeZone values are saved as is to the database without TimeZone conversion, regardless of the original DateTimeKind information. When DateTime values are retrieved from the database, their value is loaded as is into a DateTime with a DateTimeKind of Unspecified. For more information about supported System.DateTime methods, see System.DateTime Methods (LINQ to SQL).

System.TimeSpan

Microsoft SQL Server 2008 and the .NET Framework 3.5 SP1 let you map the CLR System.TimeSpan type to the SQL Server TIME type. However, there is a large difference between the range that the CLR System.TimeSpan supports and what the SQL Server TIME type supports. Mapping values less than 0 or greater than 23:59:59.9999999 hours to the SQL TIME will result in overflow exceptions. For more information, see System.TimeSpan Methods (LINQ to SQL).

In Microsoft SQL Server 2000 and SQL Server 2005, you cannot map database fields to TimeSpan. However, operations on TimeSpan are supported because TimeSpan values can be returned from DateTime subtraction or introduced into an expression as a literal or bound variable.

Binary Mapping

There are many SQL Server types that can map to the CLR type System.Data.Linq.Binary. The following table shows the SQL Server types that cause O/R Designer and SQLMetal to define a CLR System.Data.Linq.Binary type when building an object model or external mapping file based on your database.

SQL Server Type

Default CLR Type mapping used by O/R Designer and SQLMetal

BINARY(50)

System.Data.Linq.Binary

VARBINARY(50)

System.Data.Linq.Binary

VARBINARY(MAX)

System.Data.Linq.Binary

VARBINARY(MAX) with the FILESTREAM attribute

System.Data.Linq.Binary

IMAGE

System.Data.Linq.Binary

TIMESTAMP

System.Data.Linq.Binary

The next table shows the default type mappings used by the DataContext.CreateDatabase method to define which type of SQL columns are created to map to the CLR types defined in your object model or external mapping file.

CLR Type

Default SQL Server Type used by DataContext.CreateDatabase

System.Data.Linq.Binary

VARBINARY(MAX)

System.Byte

VARBINARY(MAX)

System.Runtime.Serialization.ISerializable

VARBINARY(MAX)

There are many other binary mappings you can choose, but some may result in overflow or data loss exceptions while translating to or from the database. For more information, see the Type Mapping Run Time Behavior Matrix.

SQL Server FILESTREAM

The FILESTREAM attribute for VARBINARY(MAX) columns is available starting with Microsoft SQL Server 2008; you can map to it with LINQ to SQL starting with the .NET Framework version 3.5 SP1.

Although you can map VARBINARY(MAX) columns with the FILESTREAM attribute to Binary objects, the DataContext.CreateDatabase method is unable to automatically create columns with the FILESTREAM attribute. For more information about FILESTREAM, see FILESTREAM Overview on Microsoft SQL Server Books Online.

Binary Serialization

If a class implements the ISerializable interface, you can serialize an object to any SQL binary field (BINARY, VARBINARY, IMAGE). The object is serialized and deserialized according to how the ISerializable interface is implemented. For more information, see Binary Serialization.

Miscellaneous Mapping

The following table shows the default type mappings for some miscellaneous types that have not yet been mentioned. The following table shows the CLR types that O/R Designer and SQLMetal select when building an object model or external mapping file based on your database.

SQL Server Type

Default CLR Type mapping used by O/R Designer and SQLMetal

UNIQUEIDENTIFIER

System.Guid

SQL_VARIANT

System.Object

The next table shows the default type mappings used by the DataContext.CreateDatabase method to define which type of SQL columns are created to map to the CLR types defined in your object model or external mapping file.

CLR Type

Default SQL Server Type used by DataContext.CreateDatabase

System.Guid

UNIQUEIDENTIFIER

System.Object

SQL_VARIANT

LINQ to SQL does not support any other type mappings for these miscellaneous types. For more information, see the Type Mapping Run Time Behavior Matrix.

See Also

Reference

Attribute-Based Mapping (LINQ to SQL)

External Mapping Reference (LINQ to SQL)

SQL-CLR Type Mismatches (LINQ to SQL)

Other Resources

Data Types and Functions (LINQ to SQL)