Language-Integrated Query (LINQ)
reference:MSDN
A query is an expression that retrieves data from a data source. Queries are usually expressed in a specialized query language. Different languages have been developed over time for the various types of data sources, for example SQL for relational databases and XQuery for XML. Therefore, developers have had to learn a new query language for each type of data source or data format that they must support. LINQ simplifies this situation by offering a consistent model for working with data across various kinds of data sources and formats. In a LINQ query, you are always working with objects. You use the same basic coding patterns to query and transform data in XML documents, SQL databases, ADO.NET Datasets, .NET collections, and any other format for which a LINQ provider is available.
Three Parts of a Query Operation
All LINQ query operations consist of three distinct actions:
The following illustration shows the complete query operation. In LINQ the execution of the query is distinct from the query itself; in other words you have not retrieved any data just by creating a query variable.
The Data Source
In the previous example, because the data source is an array, it implicitly supports the generic IEnumerable<(Of <(T>)>) interface. This fact means it can be queried with LINQ. A query is executed in a foreach statement, and foreach requires IEnumerable
or IEnumerable<(Of <(T>)>) or a derived interface such as the generic IQueryable<(Of <(T>)>) are called queryable types. A queryable type requires no modification or special treatment to serve as a LINQ data source. If the source data is not already in memory as a queryable type, the LINQ provider must represent it as such. For example, LINQ to XML loads an XML document into a queryable XElement type:
With LINQ to SQL, you first create an object-relational mapping at design time either manually or by using the Object Relational Designer (O/R Designer) . You write your queries against the objects, and at run-time LINQ to SQL handles the communication with the database. In the following example, the Northwnd class encapsulates the database, and Customers represents a specific table in the database. The query, when executed, will return a sequence of Customer objects, whose type is inferred by the compiler. The type of the query result, IQueryable<(Of <(T>)>) , compiles to an expression tree, which is converted at run time into a SQL query.
For more information about how to create specific types of data sources, see the documentation for the various LINQ providers. However, the basic rule is very simple: a LINQ data source is any object that supports the generic IEnumerable<(Of <(T>)>) interface, or an interface that inherits from it.
note: all the content is taken from MSDN
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- Obtain the data source.
- Create the query.
- Execute the query.
C#
class IntroToLINQ
{
static void Main()
{
// The Three Parts of a LINQ Query:
// 1. Data source.
int[] numbers = new int[7] { 0, 1, 2, 3, 4, 5, 6 };
// 2. Query creation.
// numQuery is an IEnumerable
var numQuery =
from num in numbers
where (num % 2) == 0
select num;
// 3. Query execution.
foreach (int num in numQuery)
{
Console.Write("{0,1} ", num);
}
}
}
The Data Source
In the previous example, because the data source is an array, it implicitly supports the generic IEnumerable<(Of <(T>)>) interface. This fact means it can be queried with LINQ. A query is executed in a foreach statement, and foreach requires IEnumerable
or IEnumerable<(Of <(T>)>) or a derived interface such as the generic IQueryable<(Of <(T>)>) are called queryable types. A queryable type requires no modification or special treatment to serve as a LINQ data source. If the source data is not already in memory as a queryable type, the LINQ provider must represent it as such. For example, LINQ to XML loads an XML document into a queryable XElement type:
C#
// Create a data source from an XML document.
// using System.Xml.Linq;
XElement contacts = XElement.Load(@"c:\myContactList.xml");
With LINQ to SQL, you first create an object-relational mapping at design time either manually or by using the Object Relational Designer (O/R Designer) . You write your queries against the objects, and at run-time LINQ to SQL handles the communication with the database. In the following example, the Northwnd class encapsulates the database, and Customers represents a specific table in the database. The query, when executed, will return a sequence of Customer objects, whose type is inferred by the compiler. The type of the query result, IQueryable<(Of <(T>)>) , compiles to an expression tree, which is converted at run time into a SQL query.
Visual Basic
Dim db As New Northwnd("c:\northwnd.mdf")
' Query for customers in London.
Dim custQuery = _
From cust In db.Customers _
Where cust.City = "London" _
Select cust
C#
Northwnd db = new Northwnd(@"c:\northwnd.mdf");
// Query for customers in London.
IQueryable custQuery =
from cust in db.Customers
where cust.City == "London"
select cust;
The Query
The query specifies what information to retrieve from the data source or sources. Optionally, a query also specifies how that information should be sorted, grouped, and shaped before it is returned. A query is stored in a query variable and initialized with a query expression. To make it easier to write queries, C# has introduced new query syntax.
The query in the previous example returns all the even numbers from the integer array. The query expression contains three clauses: from, where and select. (If you are familiar with SQL, you will have noticed that the ordering of the clauses is reversed from the order in SQL.) The from clause specifies the data source, the where clause applies the filter, and the select clause specifies the type of the returned elements. These and the other query clauses are discussed in detail in the LINQ Query Expressions (C# Programming Guide) section. For now, the important point is that in LINQ, the query variable itself takes no action and returns no data. It just stores the information that is required to produce the results when the query is executed at some later point. For more information about how queries are constructed behind the scenes, see Standard Query Operators Overview [ http://msdn.microsoft.com/en-us/library/bb397896.aspx ] .
The query in the previous example returns all the even numbers from the integer array. The query expression contains three clauses: from, where and select. (If you are familiar with SQL, you will have noticed that the ordering of the clauses is reversed from the order in SQL.) The from clause specifies the data source, the where clause applies the filter, and the select clause specifies the type of the returned elements. These and the other query clauses are discussed in detail in the LINQ Query Expressions (C# Programming Guide) section. For now, the important point is that in LINQ, the query variable itself takes no action and returns no data. It just stores the information that is required to produce the results when the query is executed at some later point. For more information about how queries are constructed behind the scenes, see Standard Query Operators Overview [ http://msdn.microsoft.com/en-us/library/bb397896.aspx ] .
Queries can also be expressed by using method syntax. For more information, see LINQ Query Syntax versus Method Syntax (C#) |
Query Execution
Deferred Execution
As stated previously, the query variable itself only stores the query commands. The actual execution of the query is deferred until you iterate over the query variable in a foreach statement. This concept is referred to as deferred execution and is demonstrated in the following example:
The foreach statement is also where the query results are retrieved. For example, in the previous query, the iteration variable num holds each value (one at a time) in the returned sequence.
Because the query variable itself never holds the query results, you can execute it as often as you like. For example, you may have a database that is being updated continually by a separate application. In your application, you could create one query that retrieves the latest data, and you could execute it repeatedly at some interval to retrieve different results every time.
C#
// Query execution.
foreach (int num in numQuery)
{
Console.Write("{0,1} ", num);
}
Because the query variable itself never holds the query results, you can execute it as often as you like. For example, you may have a database that is being updated continually by a separate application. In your application, you could create one query that retrieves the latest data, and you could execute it repeatedly at some interval to retrieve different results every time.
Forcing Immediate Execution
Queries that perform aggregation functions over a range of source elements must first iterate over those elements. Examples of such queries are Count, Max, Average, and First. These execute without an explicit foreach statement because the query itself must use foreach in order to return a result. Note also that these types of queries return a single value, not an IEnumerable collection. The following query returns a count of the even numbers in the source array:
To force immediate execution of any query and cache its results, you can call the ToList<(Of <(TSource>)>) or ToArray<(Of <(TSource>)>) methods.
You can also force execution by putting the foreach loop immediately after the query expression. However, by calling ToList or ToArray you also cache all the data in a single collection object.
C#
var evenNumQuery =
from num in numbers
where (num % 2) == 0
select num;
int evenNumCount = evenNumQuery.Count();
C#
List<int> numQuery2 =
(from num in numbers
where (num % 2) == 0
select num).ToList();
// or like this:
// numQuery3 is still an int[]
var numQuery3 =
(from num in numbers
where (num % 2) == 0
select num).ToArray();
note: all the content is taken from MSDN
I love to hear feedback, please do write it
Thanks
Raju Jetla