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LINQ | Partition Operator | Take

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In LINQ, partition operators are used for separating the given sequence into two portions without sorting the elements and return one of the portions. The Standard Query Operators supports 4 different types of partition operators:

  1. Skip
  2. SkipWhile
  3. Take
  4. TakeWhile

Take Operator

The Take operator is used to return a specified number of adjacent elements from the start of the sequences. Or in other words, we can say that it returns the specified number of items starting from the first item. As shown in the below example:

Important Points:

  • It does not support query syntax in C# and VB.Net languages. But you can use the Take method to query variable or you can wrap your query in brackets and then the call Take method. As shown in the Example 2.
  • It support method syntax in both C# and VB.Net languages.
  • It present in both the Queryable and Enumerable class.
  • It is implemented by using deferred execution.
  • It will throw an ArgumentNullException if the source is null.

Example 1:




// C# program to illustrate the
// concept of Taking operator
using System;
using System.Linq;
  
class GFG {
  
    // Main Method
    static public void Main()
    {
  
        // Data source
        int[] sequence = {45, 67, 89,
                     13, 56, 76, 67};
  
        // Query which picks starting 5 ordered
        // elements from the given sequence
        // Using Take method
        var result = sequence.OrderBy(s => s).Take(5);
  
        Console.WriteLine("New Sequence: ");
  
        // Display new sequence
        foreach(var val in result)
        {
            Console.WriteLine(val);
        }
    }
}


Output:

New Sequence: 
13
45
56
67
67

Example 2:




// C# program to find the names
// of the first 4 employees
using System;
using System.Linq;
using System.Collections.Generic;
  
// Employee details
public class Employee {
  
    public int emp_id
    {
        get;
        set;
    }
    public string emp_name
    {
        get;
        set;
    }
    public string emp_gender
    {
        get;
        set;
    }
    public string emp_hire_date
    {
        get;
        set;
    }
    public int emp_salary
    {
        get;
        set;
    }
}
  
public class GFG {
  
    // Main method
    static public void Main()
    {
  
        List<Employee> emp = new List<Employee>() {
  
            new Employee() {emp_id = 209, emp_name = "Anjita", emp_gender = "Female",
                                    emp_hire_date = "12/3/2017", emp_salary = 20000},
  
            new Employee() {emp_id = 210, emp_name = "Soniya", emp_gender = "Female",
                                    emp_hire_date = "22/4/2018", emp_salary = 30000},
  
            new Employee() {emp_id = 211, emp_name = "Rohit", emp_gender = "Male",
                                  emp_hire_date = "3/5/2016", emp_salary = 40000},
  
            new Employee() {emp_id = 212, emp_name = "Anu", emp_gender = "Female",
                                  emp_hire_date = "4/8/2017", emp_salary = 80000},
  
            new Employee() {emp_id = 213, emp_name = "Anil", emp_gender = "Male",
                                emp_hire_date = "12/1/2016", emp_salary = 60000},
  
            new Employee() {emp_id = 214, emp_name = "Anju", emp_gender = "Female",
                                  emp_hire_date = "17/6/2015", emp_salary = 50000},
        };
  
        // Query to find the names 
        // of the first 4 employees
        // Using Take method
        var res = (from e in emp
                   select e.emp_name)
                   .Take(4);
  
        foreach(var val in res)
        {
            Console.WriteLine("Employee Name: {0}", val);
        }
    }
}


Output:

Employee Name: Anjita
Employee Name: Soniya
Employee Name: Rohit
Employee Name: Anu


Last Updated : 28 May, 2019
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