752

I found an example in the VS2008 Examples for Dynamic LINQ that allows you to use a SQL-like string (e.g. OrderBy("Name, Age DESC")) for ordering. Unfortunately, the method included only works on IQueryable<T>. Is there any way to get this functionality on IEnumerable<T>?

0

24 Answers 24

976

Just stumbled into this oldie...

To do this without the dynamic LINQ library, you just need the code as below. This covers most common scenarios including nested properties.

To get it working with IEnumerable<T> you could add some wrapper methods that go via AsQueryable - but the code below is the core Expression logic needed.

public static IOrderedQueryable<T> OrderBy<T>(
    this IQueryable<T> source, 
    string property)
{
    return ApplyOrder<T>(source, property, "OrderBy");
}

public static IOrderedQueryable<T> OrderByDescending<T>(
    this IQueryable<T> source, 
    string property)
{
    return ApplyOrder<T>(source, property, "OrderByDescending");
}

public static IOrderedQueryable<T> ThenBy<T>(
    this IOrderedQueryable<T> source, 
    string property)
{
    return ApplyOrder<T>(source, property, "ThenBy");
}

public static IOrderedQueryable<T> ThenByDescending<T>(
    this IOrderedQueryable<T> source, 
    string property)
{
    return ApplyOrder<T>(source, property, "ThenByDescending");
}

static IOrderedQueryable<T> ApplyOrder<T>(
    IQueryable<T> source, 
    string property, 
    string methodName) 
{
    string[] props = property.Split('.');
    Type type = typeof(T);
    ParameterExpression arg = Expression.Parameter(type, "x");
    Expression expr = arg;
    foreach(string prop in props) {
        // use reflection (not ComponentModel) to mirror LINQ
        PropertyInfo pi = type.GetProperty(prop);
        expr = Expression.Property(expr, pi);
        type = pi.PropertyType;
    }
    Type delegateType = typeof(Func<,>).MakeGenericType(typeof(T), type);
    LambdaExpression lambda = Expression.Lambda(delegateType, expr, arg);

    object result = typeof(Queryable).GetMethods().Single(
            method => method.Name == methodName
                    && method.IsGenericMethodDefinition
                    && method.GetGenericArguments().Length == 2
                    && method.GetParameters().Length == 2)
            .MakeGenericMethod(typeof(T), type)
            .Invoke(null, new object[] {source, lambda});
    return (IOrderedQueryable<T>)result;
}

Edit: it gets more fun if you want to mix that with dynamic - although note that dynamic only applies to LINQ-to-Objects (expression-trees for ORMs etc can't really represent dynamic queries - MemberExpression doesn't support it). But here's a way to do it with LINQ-to-Objects. Note that the choice of Hashtable is due to favorable locking semantics:

using Microsoft.CSharp.RuntimeBinder;
using System;
using System.Collections;
using System.Collections.Generic;
using System.Dynamic;
using System.Linq;
using System.Runtime.CompilerServices;
static class Program
{
    private static class AccessorCache
    {
        private static readonly Hashtable accessors = new Hashtable();

        private static readonly Hashtable callSites = new Hashtable();

        private static CallSite<Func<CallSite, object, object>> GetCallSiteLocked(
            string name) 
        {
            var callSite = (CallSite<Func<CallSite, object, object>>)callSites[name];
            if(callSite == null)
            {
                callSites[name] = callSite = CallSite<Func<CallSite, object, object>>
                    .Create(Binder.GetMember(
                                CSharpBinderFlags.None, 
                                name, 
                                typeof(AccessorCache),
                                new CSharpArgumentInfo[] { 
                                    CSharpArgumentInfo.Create(
                                        CSharpArgumentInfoFlags.None, 
                                        null) 
                                }));
            }
            return callSite;
        }

        internal static Func<dynamic,object> GetAccessor(string name)
        {
            Func<dynamic, object> accessor = (Func<dynamic, object>)accessors[name];
            if (accessor == null)
            {
                lock (accessors )
                {
                    accessor = (Func<dynamic, object>)accessors[name];
                    if (accessor == null)
                    {
                        if(name.IndexOf('.') >= 0) {
                            string[] props = name.Split('.');
                            CallSite<Func<CallSite, object, object>>[] arr 
                                = Array.ConvertAll(props, GetCallSiteLocked);
                            accessor = target =>
                            {
                                object val = (object)target;
                                for (int i = 0; i < arr.Length; i++)
                                {
                                    var cs = arr[i];
                                    val = cs.Target(cs, val);
                                }
                                return val;
                            };
                        } else {
                            var callSite = GetCallSiteLocked(name);
                            accessor = target =>
                            {
                                return callSite.Target(callSite, (object)target);
                            };
                        }
                        accessors[name] = accessor;
                    }
                }
            }
            return accessor;
        }
    }

    public static IOrderedEnumerable<dynamic> OrderBy(
        this IEnumerable<dynamic> source, 
        string property)
    {
        return Enumerable.OrderBy<dynamic, object>(
            source, 
            AccessorCache.GetAccessor(property), 
            Comparer<object>.Default);
    }

    public static IOrderedEnumerable<dynamic> OrderByDescending(
        this IEnumerable<dynamic> source, 
        string property)
    {
        return Enumerable.OrderByDescending<dynamic, object>(
            source, 
            AccessorCache.GetAccessor(property), 
            Comparer<object>.Default);
    }

    public static IOrderedEnumerable<dynamic> ThenBy(
        this IOrderedEnumerable<dynamic> source, 
        string property)
    {
        return Enumerable.ThenBy<dynamic, object>(
            source, 
            AccessorCache.GetAccessor(property), 
            Comparer<object>.Default);
    }

    public static IOrderedEnumerable<dynamic> ThenByDescending(
        this IOrderedEnumerable<dynamic> source, 
        string property)
    {
        return Enumerable.ThenByDescending<dynamic, object>(
            source, 
            AccessorCache.GetAccessor(property), 
            Comparer<object>.Default);
    }

    static void Main()
    {
        dynamic a = new ExpandoObject(), 
                b = new ExpandoObject(), 
                c = new ExpandoObject();
        a.X = "abc";
        b.X = "ghi";
        c.X = "def";
        dynamic[] data = new[] { 
            new { Y = a },
            new { Y = b }, 
            new { Y = c } 
        };

        var ordered = data.OrderByDescending("Y.X").ToArray();
        foreach (var obj in ordered)
        {
            Console.WriteLine(obj.Y.X);
        }
    }
}
39
  • 119
    Best damn piece of code I have seen :) Just solved a million problems in my project :) Nov 20, 2008 at 9:37
  • 4
    @Dave - you need to start with IQueryable<T>, so if you have something like List<T> (which is IEnumerable<T>) you may need to use AsQueryable() - for example var sorted = someList.AsQueryable().OrderBy("Foo.Bar"); Jan 22, 2010 at 19:26
  • 7
    Have you seen this... it might help some people... stackoverflow.com/questions/557819/… its a more strongly typed solution.
    – anthonyv
    May 8, 2010 at 12:30
  • 35
    @MGOwen you seem to misunderstand the nature of code. The 40 lines is the same no matter whether it is 40 lines that you put somewhere in your project, or if those lines come (pre-compiled, or as source) in an external library. It would have been pretty amazing if I had linked, in Oct '08 to a library on nuget that has existed since Dec '11 (not least because nuget didn't exist then either), but the fundamental "what it is doing" is the same. Also, you use the phrase "actual solution" as though there is some well-defined agreed single route to every coding question: there is not. Jul 13, 2013 at 8:15
  • 8
    @MGOwen btw, the external lib is 2296 lines of code (not including AssemblyInfo.cs); which kinda makes the 40 lines here look pretty reasonable Jul 13, 2013 at 8:18
298

Too easy without any complication:

  1. Add using System.Linq.Dynamic; at the top.
  2. Use vehicles = vehicles.AsQueryable().OrderBy("Make ASC, Year DESC").ToList();

Edit: to save some time, the System.Linq.Dynamic.Core (System.Linq.Dynamic is deprecated) assembly is not part of the framework, but can be installed from nuget: System.Linq.Dynamic.Core

10
  • 13
    and where did you get the System.Linq.Dynamic from ? Feb 25, 2013 at 14:12
  • 40
    The accepted answer may have been the correct answer in 2008 but currently this is the easiest, most correct answer now.
    – EL MOJO
    Oct 24, 2014 at 15:33
  • 19
    For the people in the "future", if you are using dotnet core, use this: nuget.org/packages/System.Linq.Dynamic.Core Nov 1, 2017 at 2:08
  • 4
    For anybody looking through this as I did for the same solution - this is working for sorting on "Nested" objects, i.e. vehicles.AsQueryable().OrderBy("Tire.Size").ToList();, where Tire is a object that belongs to Vehicle.
    – neilsimp1
    Jan 11, 2019 at 13:42
  • 6
    @RafaelMerlin Also the namespace is now System.Linq.Dynamic.Core Jun 9, 2020 at 10:53
60

Just stumbled across this question.

Using Marc's ApplyOrder implementation from above, I slapped together an Extension method that handles SQL-like strings like:

list.OrderBy("MyProperty DESC, MyOtherProperty ASC");

Details can be found here: http://aonnull.blogspot.com/2010/08/dynamic-sql-like-linq-orderby-extension.html

1
  • 1
    Great stuff, just add a modification as follows to make the property name case insensitive: PropertyInfo pi = type.GetProperty(prop,BindingFlags.Public | BindingFlags.Instance | BindingFlags.IgnoreCase); May 29, 2016 at 7:47
49

I guess it would work to use reflection to get whatever property you want to sort on:

IEnumerable<T> myEnumerables
var query=from enumerable in myenumerables
          where some criteria
          orderby GetPropertyValue(enumerable,"SomeProperty")
          select enumerable

private static object GetPropertyValue(object obj, string property)
{
    System.Reflection.PropertyInfo propertyInfo=obj.GetType().GetProperty(property);
    return propertyInfo.GetValue(obj, null);
}

Note that using reflection is considerably slower than accessing the property directly, so the performance would have to be investigated.

6
  • does this even work? orderby does not want a value but a selector lamba/delegate (Func<TSource, TKey> keySelector).. Oct 24, 2008 at 12:58
  • 2
    I did try this example before posting it, and yes, it does work. Oct 28, 2008 at 7:22
  • 3
    +1 This is exactly what I was looking for! This will work great for simple page sorting issues. Apr 19, 2010 at 4:08
  • This didn't work for me. Am I missing something? What should "SomeProperty" be. I tried giving the property name as well as property.GetType(). I have IQueryable<> and not IEnumerable<> Jul 23, 2010 at 5:59
  • 2
    @Alex Shkor: How are you supposed to sort the elements without looking at all the elements? However, there are better solutions in other answers. Feb 15, 2012 at 12:58
22

Just building on what others have said. I found that the following works quite well.

public static IEnumerable<T> OrderBy<T>(this IEnumerable<T> input, string queryString)
{
    if (string.IsNullOrEmpty(queryString))
        return input;

    int i = 0;
    foreach (string propname in queryString.Split(','))
    {
        var subContent = propname.Split('|');
        if (Convert.ToInt32(subContent[1].Trim()) == 0)
        {
            if (i == 0)
                input = input.OrderBy(x => GetPropertyValue(x, subContent[0].Trim()));
            else
                input = ((IOrderedEnumerable<T>)input).ThenBy(x => GetPropertyValue(x, subContent[0].Trim()));
        }
        else
        {
            if (i == 0)
                input = input.OrderByDescending(x => GetPropertyValue(x, subContent[0].Trim()));
            else
                input = ((IOrderedEnumerable<T>)input).ThenByDescending(x => GetPropertyValue(x, subContent[0].Trim()));
        }
        i++;
    }

    return input;
}
0
14

I was trying to do this but having problems with Kjetil Watnedal's solution because I don't use the inline linq syntax - I prefer method-style syntax. My specific problem was in trying to do dynamic sorting using a custom IComparer.

My solution ended up like this:

Given an IQueryable query like so:

List<DATA__Security__Team> teams = TeamManager.GetTeams();
var query = teams.Where(team => team.ID < 10).AsQueryable();

And given a run-time sort field argument:

string SortField; // Set at run-time to "Name"

The dynamic OrderBy looks like so:

query = query.OrderBy(item => item.GetReflectedPropertyValue(SortField));

And that's using a little helper method called GetReflectedPropertyValue():

public static string GetReflectedPropertyValue(this object subject, string field)
{
    object reflectedValue = subject.GetType().GetProperty(field).GetValue(subject, null);
    return reflectedValue != null ? reflectedValue.ToString() : "";
}

One last thing - I mentioned that I wanted the OrderBy to use custom IComparer - because I wanted to do Natural sorting.

To do that, I just alter the OrderBy to:

query = query.OrderBy(item => item.GetReflectedPropertyValue(SortField), new NaturalSortComparer<string>());

See this post for the code for NaturalSortComparer().

0
9

After a lot of searching this worked for me:

public static IEnumerable<TEntity> OrderBy<TEntity>(this IEnumerable<TEntity> source, 
                                                    string orderByProperty, bool desc)
{
    string command = desc ? "OrderByDescending" : "OrderBy";
    var type = typeof(TEntity);
    var property = type.GetProperty(orderByProperty);
    var parameter = Expression.Parameter(type, "p");
    var propertyAccess = Expression.MakeMemberAccess(parameter, property);
    var orderByExpression = Expression.Lambda(propertyAccess, parameter);
    var resultExpression = Expression.Call(typeof(Queryable), command, 
                                           new[] { type, property.PropertyType },
                                           source.AsQueryable().Expression, 
                                           Expression.Quote(orderByExpression));
    return source.AsQueryable().Provider.CreateQuery<TEntity>(resultExpression);
}
1
  • Exact solution that i would like to use...
    – imdadhusen
    Feb 17, 2022 at 10:56
9

I've stumble this question looking for Linq multiple orderby clauses and maybe this was what the author was looking for

Here's how to do that:

var query = pets.OrderBy(pet => pet.Name).ThenByDescending(pet => pet.Age);    
1
  • 6
    +1 canceled the down-vote due to lack of explanation. I also think the author might have been interested in multiple order-bys. Even if dynamic was the key word, no reason to down-vote. May 25, 2010 at 18:51
9

Use dynamic linq

just add using System.Linq.Dynamic;

And use it like this to order all your columns:

string sortTypeStr = "ASC"; // or DESC
string SortColumnName = "Age"; // Your column name
query = query.OrderBy($"{SortColumnName} {sortTypeStr}");
1
  • So how about a real life example, with a few joins? Nov 6, 2022 at 18:13
6

First Install Dynamic Tools --> NuGet Package Manager --> Package Manager Console

install-package System.Linq.Dynamic

Add Namespace using System.Linq.Dynamic;

Now you can use OrderBy("Name, Age DESC")

2
  • How can I use it with inner property sorting - like OrderBy("Branch.BranchName","Descending")
    – devC
    May 23, 2019 at 11:08
  • This works for me. Perhaps because the question is 10 years old, and this easier method only came later. Jul 12, 2019 at 6:49
5

You could add it:

public static IEnumerable<T> OrderBy( this IEnumerable<T> input, string queryString) {
    //parse the string into property names
    //Use reflection to get and sort by properties
    //something like

    foreach( string propname in queryString.Split(','))
        input.OrderBy( x => GetPropertyValue( x, propname ) );

    // I used Kjetil Watnedal's reflection example
}

The GetPropertyValue function is from Kjetil Watnedal's answer

The issue would be why? Any such sort would throw exceptions at run-time, rather than compile time (like D2VIANT's answer).

If you're dealing with Linq to Sql and the orderby is an expression tree it will be converted into SQL for execution anyway.

2
  • GetPropertyValue mehotod will be executed for all elements, it's bad solution.
    – Alex Shkor
    Feb 14, 2012 at 16:27
  • 2
    OrderBy don't maintain the previous order!! Apr 9, 2012 at 9:13
4

Here's something else I found interesting. If your source is a DataTable, you can use dynamic sorting without using Dynamic Linq

DataTable orders = dataSet.Tables["SalesOrderHeader"];
EnumerableRowCollection<DataRow> query = from order in orders.AsEnumerable()
                                         orderby order.Field<DateTime>("OrderDate")
                                         select order;
DataView view = query.AsDataView();
bindingSource1.DataSource = view;

reference: http://msdn.microsoft.com/en-us/library/bb669083.aspx (Using DataSetExtensions)

Here is one more way to do it by converting it to a DataView:

DataTable contacts = dataSet.Tables["Contact"];    
DataView view = contacts.AsDataView();    
view.Sort = "LastName desc, FirstName asc";    
bindingSource1.DataSource = view;
dataGridView1.AutoResizeColumns();
4

You can convert the IEnumerable to IQueryable.

items = items.AsQueryable().OrderBy("Name ASC");
4

You can use this:

        public List<Book> Books(string orderField, bool desc, int skip, int take)
{
    var propertyInfo = typeof(Book).GetProperty(orderField);

    return _context.Books
        .Where(...)
        .OrderBy(p => !desc ? propertyInfo.GetValue(p, null) : 0)
        .ThenByDescending(p => desc ? propertyInfo.GetValue(p, null) : 0)
        .Skip(skip)
        .Take(take)
        .ToList();
}
2
  • A couple of years later and I stumble upon this; this worked for me, like a dream. I have dynamic sorting on 1 to 3 properties, and this works like a dream. Easy to implement and hassle free.
    – Bazïnga
    Mar 22, 2020 at 6:44
  • Love this answer, but how can I make this work if I need to sort by a property of a child class?
    – RoLYroLLs
    Jul 20, 2020 at 21:17
3

An alternate solution uses the following class/interface. It's not truly dynamic, but it works.

public interface IID
{
    int ID
    {
        get; set;
    }
}

public static class Utils
{
    public static int GetID<T>(ObjectQuery<T> items) where T:EntityObject, IID
    {
        if (items.Count() == 0) return 1;
        return items.OrderByDescending(u => u.ID).FirstOrDefault().ID + 1;
    }
}
3

Thanks to Maarten (Query a collection using PropertyInfo object in LINQ) I got this solution:

myList.OrderByDescending(x => myPropertyInfo.GetValue(x, null)).ToList();

In my case I was working on a "ColumnHeaderMouseClick" (WindowsForm) so just found the specific Column pressed and its correspondent PropertyInfo:

foreach (PropertyInfo column in (new Process()).GetType().GetProperties())
{
    if (column.Name == dgvProcessList.Columns[e.ColumnIndex].Name)
    {}
}

OR

PropertyInfo column = (new Process()).GetType().GetProperties().Where(x => x.Name == dgvProcessList.Columns[e.ColumnIndex].Name).First();

(be sure to have your column Names matching the object Properties)

Cheers

3

This answer is a response to the comments that need an example for the solution provided by @John Sheehan - Runscope

Please provide an example for the rest of us.

in DAL (Data Access Layer),

The IEnumerable version:

public  IEnumerable<Order> GetOrders()
{
    // i use Dapper to return IEnumerable<T> using Query<T>
    //.. do stuff

    return orders  // IEnumerable<Order>
}

The IQueryable version

public IQueryable<Order> GetOrdersAsQuerable()
{
    IEnumerable<Order> qry= GetOrders();

    // use the built-in extension method  AsQueryable in  System.Linq namespace
    return qry.AsQueryable();            
}

Now you can use the IQueryable version to bind, for example GridView in Asp.net and benefit for sorting (you can't sort using IEnumerable version)

I used Dapper as ORM and build IQueryable version and utilized sorting in GridView in asp.net so easy.

3

You can define a dictionary from string to Func<> like this :

Dictionary<string, Func<Item, object>> SortParameters = new Dictionary<string, Func<Item, object>>()
{
    {"Rank", x => x.Rank}
};

And use it like this :

yourList.OrderBy(SortParameters["Rank"]);

In this case you can dynamically sort by string.

2
  • 1
    Nice! Really simple option for those of who can't use Dynamic Linq lib.
    – Ash8087
    Sep 15, 2022 at 21:08
  • 1
    Nide! This is simple and work for me
    – A3IOU
    Jan 29, 2023 at 15:15
1

you can do it like this for multiple order by

IOrderedEnumerable<JToken> sort;

if (query.OrderBys[0].IsDESC)
{
    sort = jarry.OrderByDescending(r => (string)r[query.OrderBys[0].Key]);
}
else
{
    sort = jarry.OrderBy(r =>
        (string) r[query.OrderBys[0].Key]); 
}

foreach (var item in query.OrderBys.Skip(1))
{
    if (item.IsDESC)
    {
        sort = sort.ThenByDescending(r => (string)r[item.Key]);
    }
    else
    {
        sort = sort.ThenBy(r => (string)r[item.Key]);
    }
}
0

Convert List to IEnumerable or Iquerable, add using System.LINQ.Dynamic namespace, then u can mention the property names in comma seperated string to OrderBy Method which comes by default from System.LINQ.Dynamic.

-1

I am able to do this with the code below. No need write long and complex code.

 protected void sort_array(string field_name, string asc_desc)
        {

            objArrayList= Sort(objArrayList, field_name, asc_desc);
        }

        protected List<ArrayType> Sort(List<ArrayType> input, string property, string asc_desc)
        {
            if (asc_desc == "ASC")
            {

                return input.OrderBy(p => p.GetType()
                                           .GetProperty(property)
                                           .GetValue(p, null)).ToList();
            }
            else
            {
                return input.OrderByDescending(p => p.GetType()
                                               .GetProperty(property)
                                               .GetValue(p, null)).ToList();
            }
        }
0
-1

If you are using Specification (such as Ardalis Specification)

using Microsoft.EntityFrameworkCore;

namespace TestExtensions;

public static class IQueryableExtensions
{
    public static void ApplyOrder<T>(ISpecificationBuilder<T> query, string propertyName, bool ascendingOrder)
    {
        if (ascendingOrder)
            query.OrderBy(T => EF.Property<object>(T!, propertyName));
        else
            query.OrderByDescending(T => EF.Property<object>(T!, propertyName));
    }
}
2
  • Because this doesn't answer the question: "Is there any way to get this functionality on IEnumerable<T>?". Questions on Stack Overflow are not answered by offering alternatives to what people are doing because that could go on and on. We only do that if the approach in the question is clearly hopeless. Jan 26, 2023 at 9:45
  • I answered because I had the same problem, and I added if to the answer... Though, thanks for clearing why you down-voted. Jan 26, 2023 at 12:21
-1

With Net6 and EF

.AsQueryable().OrderBy((ColumnOrder.Column, ColumnOrder.Dir));
                            
-3
var result1 = lst.OrderBy(a=>a.Name);// for ascending order. 
 var result1 = lst.OrderByDescending(a=>a.Name);// for desc order. 

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