I am trying to use expression trees to build a nested pair of groups, and getting totally stumped by Select and what it expects for parameters. What I ultimately want to do is build this via expression trees;

var queryNestedGroups = products.GroupBy(x => x.Category)
                .Select(p => new
                    key = p.Key,
                    objects = p.ToList().GroupBy(y => y.Subcategory)
                        .Select(y => new { key = y.Key, objects = y.ToList() })

This is my attempt so far (products is a List);

var data = Expression.Constant(products);
var arg = Expression.Parameter(typeof(Product), "arg");
var nameProperty = Expression.PropertyOrField(arg, "Category");

var groupByLambda = Expression.Lambda<Func<Product, string>>(nameProperty, arg);
var groupByExpression = Expression.Call(
    new Type[] { typeof(Product), typeof(string) },

var parameterExp = Expression.Parameter(typeof(IGrouping<string, Product>), "p");
var keyProp = Expression.PropertyOrField(parameterExp, "Key");
ConstructorInfo constructorInfo = typeof(object)
    .GetConstructor(new[] { typeof(string), typeof(Product) });

Type anonymousResultType = new { Key = "abc", Values = new List<Product>() }.GetType();
var exp = Expression.New(
            anonymousResultType.GetConstructor(new[] { typeof(string), typeof(List<Product>) }),
            Expression.Constant(new List<Product>()));
var selectLambda = Expression.Lambda(exp);

var selectExpression = Expression.Call(
    new Type[] { typeof(List<Product>), selectLambda.Body.Type },

var finalExpression = Expression.Lambda(groupByExpression);

All was going well, except I get exceptions on var selectExpression = ... telling me my type parameters and parameters are wrong. Unfortunately it doesn't tell me which parameters and why they're wrong. I've tried every permutation I can think of here.. So two questions;

How do I figure out what

  1. exactly it wants for types?
  2. What are the right types/parameters in this case?

Below is the code to do what you want. Each select needs to have it's own lamda projection in Expression Trees. You also have two different anonymous types one's an IEnumerable of the inner anonymous type and one is a list of products.

Also since it's linq to objects you don't need the Queryable you can just use Enumerable and p.ToList().GroupBy(y => y.Subcategory) the ToList isn't needed so I didn't convert it.

Also it would be simpler if you didn't use anonymous types and had concrete classes. Especially at the end. Since it can't be strongly typed you will just have to compile it and then DynamicInvoke it.

// This could be a parameter
var data = Expression.Constant(products);

var outterGroupByarg = Expression.Parameter(typeof(Product), "x");
var outterGroupNameProperty = Expression.PropertyOrField(outterGroupByarg, "Category");
var outterGroupByLambda = Expression.Lambda<Func<Product, string>>(outterGroupNameProperty, outterGroupByarg);
var outterGroupByExpression = Expression.Call(typeof(Enumerable), "GroupBy", new [] { typeof(Product), typeof(string) },
                                         data, outterGroupByLambda);

var outterSelectParam = Expression.Parameter(typeof (IGrouping<string, Product>), "p");

var innerGroupByarg = Expression.Parameter(typeof(Product), "y");
var innerGroupNameProperty = Expression.PropertyOrField(innerGroupByarg, "Subcategory");
var innerGroupByLambda = Expression.Lambda<Func<Product, string>>(innerGroupNameProperty, innerGroupByarg);

var innerGroupByExpression = Expression.Call(typeof(Enumerable), "GroupBy", new[] { typeof(Product), typeof(string) },
                                         outterSelectParam, innerGroupByLambda);

var innerAnonymousType = new {Key = "abc", objects = new List<Product>()};

var innerSelectProjectionarg = Expression.Parameter(typeof(IGrouping<string, Product>), "y");
var innerKeyProp = Expression.Property(innerSelectProjectionarg, "Key");

var innerToList = Expression.Call(typeof (Enumerable), "ToList", new[] {typeof (Product)},

var innerAnonymousResultType = innerAnonymousType.GetType();
var innerAnonymousConstructor =
    innerAnonymousResultType.GetConstructor(new[] {typeof (string), typeof (List<Product>)});
var innerAnonymous = Expression.New(innerAnonymousConstructor, innerKeyProp, innerToList);

var innerSelectProjection =
    Expression.Lambda(typeof(Func<,>).MakeGenericType(typeof(IGrouping<string, Product>), innerAnonymousResultType), innerAnonymous,

var innerSelectExpression = Expression.Call(typeof(Enumerable), "Select", new [] { typeof(IGrouping<string, Product>), innerAnonymousResultType },
                            innerGroupByExpression, innerSelectProjection);

var outterAnonymousType = new {Key = "abc", Values = new[] {innerAnonymousType}.AsEnumerable()};
var outterAnonymousResultType = outterAnonymousType.GetType();
var outterAnonymousConstructor =
    outterAnonymousResultType.GetConstructor(new[] { typeof(string), typeof(IEnumerable<>).MakeGenericType(innerAnonymousResultType) });

var outterKeyProp = Expression.PropertyOrField(outterSelectParam, "Key");
var outterAnonymous = Expression.New(outterAnonymousConstructor, outterKeyProp, innerSelectExpression);
var outterSelectProjection =
        typeof (Func<,>).MakeGenericType(typeof (IGrouping<string, Product>), outterAnonymousResultType),

var outterSelect = Expression.Call(typeof(Enumerable), "Select", new[] { typeof(IGrouping<string, Product>), outterAnonymousResultType },
                                  outterGroupByExpression, outterSelectProjection);

// Lamda is a func with no input because list of products was set as a constant and not a parameter
var finial =
        typeof (Func<>).MakeGenericType(typeof (IEnumerable<>).MakeGenericType(outterAnonymousResultType)),
  • Awesome, thank you! How do you figure out what these should all be? In other words, while this works great, how should i have pieced this together to figure it out without the example? – XeroxDucati May 28 '14 at 18:15
  • 1
    I've done lots of Expression Trees. :) I learned from reading blogs and also Entity Framework. The IQueryable<> interface has an Expression property that retrieves the expression tree and with the debug view you can make out what it's doing. To learn I've built an linq statement, like what you did with Linq to Objects, but with EF I can examine the expression trees it built as an example. You really can't do that with linq to objects but the method signatures are the same between the Enumerable and Queryable classes. Expression Trees aren't for the faint of heart :) – CharlesNRice May 28 '14 at 18:46

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