Dynamic Linq to OrderBy Object Nested in IEnumerable - c#

I am trying to write some dynamic linq to order by a property of a list item, for use with NHibernate
public class Company
{
public string Name { get; set; }
public List<Employee> Employees { get; set; }
}
public class Employee
{
public string Name{get; set;}
public string PayrollNo{get; set;}
}
In this example it would be like to return all Companies and order by PayrollNumber.
The Repository Method would look like this with standard linq.
var companies = session.Query<Company>()
.OrderBy(x => x.Pieces.FirstOrDefault().PayrollNo)
.FetchMany(x => x.Employees)
I would like to change this to dynamic linq to order by column headers
var companies = session.Query<Company>()
.OrderByName("Employees.PayrollNo"), isDescending)
.FetchMany(x => x.Employees)
I took an approach similar to the answer in Dynamic LINQ OrderBy on IEnumerable<T> Writing an extension method
But then drilled down with recursion
public static IQueryable<T> OrderByName<T>(this IQueryable<T> source, string propertyName, Boolean isDescending)
{
if (source == null) throw new ArgumentNullException("source");
if (propertyName == null) throw new ArgumentNullException("propertyName");
var properties = propertyName.Split('.');
var type = GetNestedProperty(properties, typeof(T));
var arg = Expression.Parameter(type.GetProperty(properties.Last()).PropertyType, "x");
var expr = Expression.Property(arg, properties.Last());
Type delegateType = typeof(Func<,>).MakeGenericType(typeof(T), type);
LambdaExpression lambda = Expression.Lambda(delegateType, expr, arg);
String methodName = isDescending ? "OrderByDescending" : "OrderBy";
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 (IQueryable<T>)result;
}
//Walk the tree of properties looking for the most nested in the string provided
static Type GetNestedProperty(string[] propertyChain, Type type)
{
if (propertyChain.Count() == 0)
return type;
string first = propertyChain.First();
propertyChain = propertyChain.Skip(1).ToArray(); //strip off first element
//We hare at the end of the hierarchy
if (propertyChain.Count() == 0)
return GetNestedProperty(propertyChain, type);
//Is Enumerable
if (type.GetProperty(first).PropertyType.GetInterfaces().Any(t => t.Name == "IEnumerable"))
return GetNestedProperty(
propertyChain,
type.GetProperty(first).PropertyType.GetGenericArguments()[0]);
return GetNestedProperty(
propertyChain,
type.GetProperty(first).PropertyType.GetProperty(propertyChain.FirstOrDefault()).GetType());
}
I am having difficulty generating the expression in the OrderByName extension method. I have tried quite a few things now, but the problem is that Payroll number does not exist in the Company class.
Is what I am trying to achieve even possible?
Any help with this would be greatly appreciated.


NHibernate has other query APIs which are better for this.
string property = "Employees.PayrollNo";
var query = session.QueryOver<Company>()
.Fetch(x => x.Employees).Eager;
// Join on the associations involved
var parts = property.Split('.');
var criteria = query.UnderlyingCriteria;
for (int i = 0; i < parts.Length - 1; i++)
{
criteria.CreateAlias(parts[i], parts[i]);
}
// add the order
criteria.AddOrder(new Order(property, !isDescending));
var companies = query.List();

Related

every Parameter object property that is not null, to be added to expression predicate as a condition

I am looking for a way to dynamically build an expression, based upon the method parameters.
This is the code snippet from my service method, where I would like to build a predicate expression.
public async Task<Account> GetCustomerAccountsAsync(Parameters params)
{
var items = await _unitOfWork.Accounts.GetWhereAsync(a => a.CustomerId == params.CustomerId && ... );
...
}
GetWhereAsync is a method from the generic repository that looks like:
public async Task<IEnumerable<TEntity>> GetWhereAsync(Expression<Func<TEntity, bool>> predicate)
{
return await Context.Set<TEntity>().Where(predicate).ToListAsync();
}
And Parameters class:
public class Parameters
{
public string CustomerId { get; set; }
public string AccountId { get; set; }
public string ProductId { get; set; }
public string CurrencyId { get; set; }
}
What I would like to implement, is that every Parameter object property that is not null,
to be added to expression predicate as a condition.
For example, if CustomerId and AccountId have some values, I would like to dynamically build predicate expression
that would have functionality same as the following predicate:
var items = await _unitOfWork.Accounts.GetWhereAsync(a => a.CustomerId == params.CustomerId && a.AccountId == params.AccountId);
Appreciate any help.

You don't need to use Expressions to build something dynamically here. You can do something like this:
_unitOfWork.Accounts.Where(a =>
(params.CustomerId == null || a.CustomerId == params.CustomerId) &&
(params.AccountId == null || a.AccountId == params.AccountId) &&
(params.ProductId == null || a.ProductId == params.ProductId) &&
(params.CurrencyId == null || a.CurrencyId == params.CurrencyId)
);
This is how I've done queries before for a search form with multiple optional search parameters.

I'm currently working a lot with Expressions so I think I can help you.
I just built a custom code for you.
The code accepts that you add Properties to your filtered class (Account) without having to change the filter building code.
The code filters string Properties and use it to create the Predicate.
public Func<Account, bool> GetPredicate(Parameters parameters)
{
var stringProperties = typeof(Parameters)
.GetProperties(BindingFlags.Public | BindingFlags.Instance)
.Where(x => x.PropertyType == typeof(string));
var parameterExpression = Expression.Parameter(typeof(Account));
var notNullPropertyNameToValue = new Dictionary<string, string>();
BinaryExpression conditionExpression = null;
foreach (var stringProperty in stringProperties)
{
var propertyValue = (string)stringProperty.GetValue(parameters);
if (propertyValue != null)
{
var propertyAccessExpression = Expression.PropertyOrField(parameterExpression, stringProperty.Name);
var propertyValueExpression = Expression.Constant(propertyValue, typeof(string));
var propertyTestExpression = Expression.Equal(propertyAccessExpression, propertyValueExpression);
if (conditionExpression == null)
{
conditionExpression = propertyTestExpression;
}
else
{
conditionExpression = Expression.And(conditionExpression, propertyTestExpression);
}
}
}
//Just return a function that includes all members if no parameter is defined.
if (conditionExpression == null)
{
return (x) => true;
}
var lambdaExpression = Expression.Lambda<Func<Account, bool>>(conditionExpression, parameterExpression);
return lambdaExpression.Compile();
}
It returns a typed predicate that you can use in Linq for example.
See this example :
void Main()
{
var customers = new List<Account>()
{
new Account()
{
CustomerId = "1",
},
new Account()
{
CustomerId = "2",
}
};
var predicate = GetPredicate(new Parameters() { CustomerId = "1" });
customers.Where(predicate);
}
If any help is needed, feel free to ask !

Filter IQueryable which contains (%like%) any of the items in the List<string>

I want to filter an IQueryable/List using List without hitting the database. The IQueryable result should include all result containing any of the strings in the List and the length of the list is unspecified.
myQueryable = myQueryable.Where(filelist => filelist.Location.Contains(filterList[0]) || filelist.Location.Contains(filterList[1]) || filelist.Location.Contains(filterList[N])...);
I'm using ASP.NET Core 3 and will use the IQueryable to hit the databse in a later phase using Entity Framework.
I've tried these two codes which did not work and my IQuery works fine if i exclude my trial codes (for filtering the attribute, location).
workOrders = workOrders.Where(filelist => filterList.Contains(filelist.Location)); //Returns only exact match
workOrders = workOrders.Where(filelist => filterList.Any(filter => filelist.Location.ToUpperInvariant().Contains(filter.ToUpperInvariant()))); //Returns error
Expression<Func<Workorder, bool>> predicate = filelist => false;
foreach (var filter in filterList)
{
Expression<Func<Workorder, bool>> orPredicate = filelist =>
filter.Contains(filelist.Location);
var body = Expression.Or(predicate.Body, orPredicate.Body);
predicate = Expression.Lambda<Func<Workorder, bool>>(body,
predicate.Parameters[0]);
}
workOrders = workOrders.Where(predicate); //Returns Error
class Workorder //Database Model
{
public string SiteId { get; set; }
public string Location { get; set; }
}
List<string> filterList //List to be used as filter
{
"filterOne",
"filterTwo",
"filterN"
};
The second code i ran gives me an error which i can get nothing out of.
System.InvalidOperationException: When called from 'VisitLambda', rewriting a node of type 'System.Linq.Expressions.ParameterExpression' must return a non-null value of the same type. Alternatively, override 'VisitLambda' and change it to not visit children of this type.
Third code i ran gives me this error,
System.InvalidOperationException: Operation is not valid due to the current state of the object.
at Microsoft.EntityFrameworkCore.Relational.Query.Pipeline.RelationalQueryableMethodTranslatingExpressionVisitor.TranslateWhere(ShapedQueryExpression source, LambdaExpression predicate)

I have definitely not tested this... but I don't think you can do it in a one-liner if you pretend EF to parse it afterwards.
However, something like this should be fine:
Expression<Func<WorkOrder, bool>> predicate = filelist => false;
foreach(var filter in filterList) {
Expression<Func<WorkOrder, bool>> orPredicate = filelist => filter.Contains(filelist.Location);
var body = Expression.Or(predicate.Body, orPredicate.Body);
predicate = Expression.Lambda<Func<WorkOrder,bool>>(body, predicate.Parameters[0]);
}
And then:
myQueryable = myQueryable.Where(predicate);
We are basically just telling it:
.Where(filelist => false || filterList[0].Contains(filelist.Location) || filterList[1].Contains(filelist.Location) || ...);
Edit
Still untested on EF, but at least the syntax seems to be ok: https://dotnetfiddle.net/Htr7Zr

It took me a while but i used your example to construct an expression tree that worked.
List<filterList> filterList //List to be used as filter
{
"filterOne",
"filterTwo",
"filterN"
}
class Workorder //Database Model
{
public string SiteId { get; set; }
public string Location { get; set; }
}
static Expression<Func<T, bool>> GetExpression<T>(string propertyName, List<string> propertyValue)
{
Expression orExpression = null;
var parameterExp = Expression.Parameter(typeof(T), "type");
var propertyExp = Expression.Property(parameterExp, propertyName);
foreach (string searchTerm in propertyValue)
{
MethodInfo method = typeof(string).GetMethod("Contains", new[] { typeof(string) });
var someValue = Expression.Constant(searchTerm, typeof(string));
var containsMethodExp = Expression.Call(propertyExp, method, someValue);
if(orExpression == null) //to handle intial phase when left expression = null
{
orExpression = Expression.Call(propertyExp, method, someValue);
}else
{
orExpression = Expression.Or(orExpression, containsMethodExp);
}
return Expression.Lambda<Func<T, bool>>(orExpression, parameterExp);
}
myQueryable = myQueryable.Where(GetExpression<Workorder>(property, filterList));
This Equals:
myQueryable = myQueryable.Where(filelist => filelist.Location.Contains(filterList[0]) || filelist.Location.Contains(filterList[1]) || filelist.Location.Contains(filterList[N])...);

Improve sorting with linq [duplicate]

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>?

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);
}
}
}

Too easy without any complication:
Add using System.Linq.Dynamic; at the top.
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

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

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.

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;
}

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().

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);

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}");

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);
}

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")

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.

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();

You can convert the IEnumerable to IQueryable.
items = items.AsQueryable().OrderBy("Name ASC");

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;
}
}

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

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();
}

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.

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.

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]);
}
}

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.

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();
}
}

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));
}
}

With Net6 and EF
.AsQueryable().OrderBy((ColumnOrder.Column, ColumnOrder.Dir));

var result1 = lst.OrderBy(a=>a.Name);// for ascending order.
var result1 = lst.OrderByDescending(a=>a.Name);// for desc order.

Append to an expression

I followed this thread: link text
Jason gives an example:
public static Expression<TDelegate> AndAlso<TDelegate>(this Expression<TDelegate> left, Expression<TDelegate> right)
{
return Expression.Lambda<TDelegate>(Expression.AndAlso(left, right), left.Parameters);
}
and its usage as such:
Expression<Func<Client, bool>> clientWhere = c => true;
if (filterByClientFName)
{
clientWhere = clientWhere.AndAlso(c => c.ClientFName == searchForClientFName);
}
if (filterByClientLName)
{
clientWhere = clientWhere.AndAlso(c => c.ClientLName == searchForClientLName);
}
I have a orders table and i followed the above example, changing column names, and i get the similar error that the post creator had
The binary operator AndAlso is not defined for the types 'System.Func2[Models.Order,System.Boolean]' and 'System.Func2[Models.Order,System.Boolean]'.
Anyone have any thoughts on what I am missing?
UPDATED:
Eric, I further followed what the user of the previous post was asking, here link text
The user has this
Expression<Func<Client, bool>> clientWhere = c => true;
Expression<Func<Order, bool>> orderWhere = o => true;
Expression<Func<Product, bool>> productWhere = p => true;
if (filterByClient)
{
clientWhere = c => c.ClientID == searchForClientID;
}
Now if he were to have various conditions in filterByClient, say he either has clientid and/or some other column name, how would one build the clientWhere expression?

You're attempting to build an expression tree that represents this:
c => true && c.ClientFName == searchForClientFName
You are actually building an expression tree that represents this:
c => c=> true && c => c.ClientFName == searchForClientFName
which makes no sense at all.
Now, you might naively think that this will work:
public static Expression<TDelegate> AndAlso<TDelegate>(this Expression<TDelegate> left, Expression<TDelegate> right)
{
// NOTICE: Combining BODIES:
return Expression.Lambda<TDelegate>(Expression.AndAlso(left.Body, right.Body), left.Parameters);
}
That would produce in your case something representing
c => true && c.ClientFName == searchForClientFName
Which looks right. But in fact this is fragile. Suppose you had
... d => d.City == "London" ...
... c => c.ClientName == "Fred Smith" ...
and you used this method to combine them. You'd get an object representing
c => d.City == "London" && c.ClientName == "Fred Smith"
What the heck is d doing in there?
Furthermore, parameters are matched by object identity, not by parameter name. If you do this
... c => c.City == "London" ...
... c => c.ClientName == "Fred Smith" ...
and combine them into
c => c.City == "London" && c.ClientName == "Fred Smith"
you're in the same boat; the "c" in "c.City" is a different c than the other two.
What you actually need to do is make a third parameter object, substitute it in the bodies of both lambdas for every occurence of their parameters, and then build up a new lambda expression tree from the resulting substituted bodies.
You can build a substitution engine by writing a visitor that passes over the expression tree body, rewriting it as it goes.

It was difficult for me to understand hvd's answer so I created some code to explain it in a different way. hvd should get the credit for suggesting the ExpressionVisitor. I just couldn't understand the example in the context of Linq to X type input functions I was using.
I hope this helps somebody else coming to the question from that perspective.
Also, I created the combining code as extension methods to make it a little easier to use.
using System;
using System.Collections.Generic;
using System.Linq.Expressions;
namespace ConsoleApplication3
{
class Program
{
static void Main(string[] args)
{
var combined = TryCombiningExpressions(c => c.FirstName == "Dog", c => c.LastName == "Boy");
Console.WriteLine("Dog Boy should be true: {0}", combined(new FullName { FirstName = "Dog", LastName = "Boy" }));
Console.WriteLine("Cat Boy should be false: {0}", combined(new FullName { FirstName = "Cat", LastName = "Boy" }));
Console.ReadLine();
}
public class FullName
{
public string FirstName { get; set; }
public string LastName { get; set; }
}
public static Func<FullName, bool> TryCombiningExpressions(Expression<Func<FullName, bool>> func1, Expression<Func<FullName, bool>> func2)
{
return func1.CombineWithAndAlso(func2).Compile();
}
}
public static class CombineExpressions
{
public static Expression<Func<TInput, bool>> CombineWithAndAlso<TInput>(this Expression<Func<TInput, bool>> func1, Expression<Func<TInput, bool>> func2)
{
return Expression.Lambda<Func<TInput, bool>>(
Expression.AndAlso(
func1.Body, new ExpressionParameterReplacer(func2.Parameters, func1.Parameters).Visit(func2.Body)),
func1.Parameters);
}
public static Expression<Func<TInput, bool>> CombineWithOrElse<TInput>(this Expression<Func<TInput, bool>> func1, Expression<Func<TInput, bool>> func2)
{
return Expression.Lambda<Func<TInput, bool>>(
Expression.AndAlso(
func1.Body, new ExpressionParameterReplacer(func2.Parameters, func1.Parameters).Visit(func2.Body)),
func1.Parameters);
}
private class ExpressionParameterReplacer : ExpressionVisitor
{
public ExpressionParameterReplacer(IList<ParameterExpression> fromParameters, IList<ParameterExpression> toParameters)
{
ParameterReplacements = new Dictionary<ParameterExpression, ParameterExpression>();
for (int i = 0; i != fromParameters.Count && i != toParameters.Count; i++)
ParameterReplacements.Add(fromParameters[i], toParameters[i]);
}
private IDictionary<ParameterExpression, ParameterExpression> ParameterReplacements { get; set; }
protected override Expression VisitParameter(ParameterExpression node)
{
ParameterExpression replacement;
if (ParameterReplacements.TryGetValue(node, out replacement))
node = replacement;
return base.VisitParameter(node);
}
}
}
}

If you need it i created a small fluent library to create lambda functions on the fly without directly coping with System.Linq.Expressions. And it can easily handle the kind of situation. Just to give an example:
static void Main(string[] args)
{
var firstNameCompare = ExpressionUtil.GetComparer<FullName>((a) => a.FirstName);
var lastNameCompare = ExpressionUtil.GetComparer<FullName>((a) => a.LastName);
Func<FullName, bool> combined = (a) => firstNameCompare(a, "Dog") && lastNameCompare(a, "Boy");
var toCheck = new FullName {FirstName = "Dog", LastName = "Boy"};
Console.WriteLine("Dog Boy should be true: {0}", combined(toCheck));
toCheck = new FullName {FirstName = "Cat", LastName = "Boy"};
Console.WriteLine("Cat Boy should be false: {0}", combined(toCheck));
Console.ReadLine();
}
The GetComparer methods seek for the property passed as expression and find ho to get its value, then it builds a new Expression that will handle the comparaison.
At the end the two functions are evaluated calling the "combined" function.
If you need more verifications you could use an array and iterate on it inside the "combined lambda"
The code and documentation for the library are here: Kendar Expression Builder
While the nuget package is here: Nuget Expression Builder

I tried to implement this kind of stuff. Took me a day to find out.
My solution is based on filter in a loop based on a Array of predicate.
As a note, it s totally Generic and based Reflection because the only information about class and field are String.
To make it simple, i call directly the Model class but in a project you should go by a controler who is calling the Model.
So here we go :
The Model part where T is a Generic in the class
public class DALXmlRepository<T> where T : class
{
public T GetItem(Array predicate)
{
IQueryable<T> QueryList = null;
QueryList = ObjectList.AsQueryable<T>().Where((Expression<Func<T, bool>>)predicate.GetValue(0));
for (int i = 1; i < predicate.GetLength(0); i++)
{
QueryList = QueryList.Where((Expression<Func<T, bool>>)predicate.GetValue(i));
}
if (QueryList.FirstOrDefault() == null)
throw new InvalidOperationException(this.GetType().GetGenericArguments().First().Name + " not found.");
return QueryList.FirstOrDefault();
}
}
Now the LambdaExpression Builder, it's a base one(with String type or something else) , you can improve it with more functionnality :
private static Expression BuildLambdaExpression(Type GenericArgument, string FieldName, string FieldValue)
{
LambdaExpression lambda = null;
Expression Criteria = null;
Random r = new Random();
ParameterExpression predParam = Expression.Parameter(GenericArgument, r.Next().ToString());
if (GenericArgument.GetProperty(FieldName).PropertyType == typeof(string))
{
Expression left = Expression.PropertyOrField(predParam, FieldName);
Expression LefttoUpper = Expression.Call(left, "ToUpper", null, null);
//Type du champ recherché
Type propType = GenericArgument.GetProperty(FieldName).PropertyType;
Expression right = Expression.Constant(FieldValue, propType);
Expression RighttoUpper = Expression.Call(right, "ToUpper", null, null);
Criteria = Expression.Equal(LefttoUpper, RighttoUpper);
}
else
{
Expression left = Expression.PropertyOrField(predParam, FieldName);
Type propType = GenericArgument.GetProperty(FieldName).PropertyType;
Expression right = Expression.Constant(Convert.ChangeType(FieldValue, propType), propType);
Criteria = Expression.Equal(left, right);
}
lambda = Expression.Lambda(Criteria, predParam);
return lambda;
}
Now the Calling function :
public static Hashtable GetItemWithFilter(string Entity, XMLContext contextXML, Hashtable FieldsNameToGet, Hashtable FieldFilter)
{
//Get the type
Type type = Type.GetType("JP.Model.BO." + Entity + ", JPModel");
Type CtrlCommonType = typeof(CtrlCommon<>).MakeGenericType( type );
//Making an instance DALXmlRepository<xxx> XMLInstance = new DALXmlRepository<xxx>(contextXML);
ConstructorInfo ci = CtrlCommonType.GetConstructor(new Type[] { typeof(XMLContext), typeof(String) });
IControleur DalInstance = (IControleur)ci.Invoke(new object[] { contextXML, null });
//Building the string type Expression<func<T,bool>> to init the array
Type FuncType = typeof(Func<,>).MakeGenericType( type ,typeof(bool));
Type ExpressType = typeof(Expression<>).MakeGenericType(FuncType);
Array lambda = Array.CreateInstance(ExpressType,FieldFilter.Count);
MethodInfo method = DalInstance.GetType().GetMethod("GetItem", new Type[] { lambda.GetType() });
if (method == null)
throw new InvalidOperationException("GetItem(Array) doesn't exist for " + DalInstance.GetType().GetGenericArguments().First().Name);
int j = 0;
IDictionaryEnumerator criterias = FieldFilter.GetEnumerator();
criterias.Reset();
while (criterias.MoveNext())
{
if (!String.IsNullOrEmpty(criterias.Key.ToString()))
{
lambda.SetValue(BuildLambdaExpression(type, criterias.Key.ToString(), criterias.Value.ToString()),j);
}
else
{
throw new JPException(JPException.MessageKey.CONTROLER_PARAMFIELD_EMPTY, "GetItemWithFilter", criterias.Key.ToString());
}
j++;
}
Object item = method.Invoke(DalInstance, new object[] { lambda });
}
The argument are :
String Entity : Entity class name.
XMLContext : it s the unit of work of the repository, argument i use to initialize the Model class
Hashtable FieldsNameToGet : Index/value of the list of the field i want to get back
Hashtable FieldFilter : the key/Value with FieldName/Content used to make the Lambda expression
Good Luck.

Dynamic LINQ OrderBy on IEnumerable<T> / IQueryable<T>

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>?

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);
}
}
}

Too easy without any complication:
Add using System.Linq.Dynamic; at the top.
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

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

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.

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;
}

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().

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);

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}");

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);
}

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")

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.

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();

You can convert the IEnumerable to IQueryable.
items = items.AsQueryable().OrderBy("Name ASC");

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;
}
}

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

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();
}

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.

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.

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]);
}
}

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.

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();
}
}

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));
}
}

With Net6 and EF
.AsQueryable().OrderBy((ColumnOrder.Column, ColumnOrder.Dir));

var result1 = lst.OrderBy(a=>a.Name);// for ascending order.
var result1 = lst.OrderByDescending(a=>a.Name);// for desc order.

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