I am trying to build a lambda expression, containing two assignments (as shown further down), that I can then pass to a Queryable.Select() method.

I am trying to pass a string variable into a method and then use that variable to build up the lambda expression so that I can use it in a LINQ Select query.

My reasoning behind it is that I have a SQL Server datasource with many column names, I am creating a charting application that will allow the user to select, say by typing in the column name, the actual column of data they want to view in the y-axis of my chart, with the x-axis always being the DateTime. Therefore, they can essentially choose what data they chart against the DateTime value (it’s a data warehouse type app).

I have, for example, a class to store the retrieved data in, and hence use as the chart source of:

public class AnalysisChartSource
    public DateTime Invoicedate { get; set; }
    public Decimal yValue { get; set; }

I have (purely experimentaly) built an expression tree for the Where clause using the String value and that works fine:

public void GetData(String yAxis)
    using (DataClasses1DataContext db = new DataClasses1DataContext())
        var data = this.FunctionOne().AsQueryable<AnalysisChartSource>();
        //just to get some temp data in....

        ParameterExpression pe = Expression.Parameter(typeof(AnalysisChartSource), "p");
        Expression left = Expression.MakeMemberAccess(pe,
        Expression right = Expression.Constant((Decimal)16);
        Expression e2 = Expression.LessThan(left, right);
        Expression expNew = Expression.New(typeof(AnalysisChartSource));

        LambdaExpression le = Expression.Lambda(left, pe);

        MethodCallExpression whereCall = Expression.Call(
            typeof(Queryable), "Where", new Type[] { data.ElementType },
            Expression.Lambda<Func<AnalysisChartSource, bool>>(e2, new ParameterExpression[] { pe }));

However……I have tried a similar approach for the Select statement, but just can’t get it to work as I need the Select() to populate both X and Y values of the AnalysisChartSource class, like this:

.Select(c => new AnalysisChartSource 
{ Invoicedate = c.Invoicedate, yValue = c.yValue}).AsEnumerable();

How on earth can I build such an expression tree….or….possibly more to the point…..is there an easier way that I have missed entirely?


I find that the best way to work out how to build expression trees is to see what the C# compiler does. So here's a complete program:

using System;
using System.Linq.Expressions;

public class Foo
    public int X { get; set; }
    public int Y { get; set; }

class Test
    static void Main()
        Expression<Func<int, Foo>> builder = 
            z => new Foo { X = z, Y = z };

Compile that, open the results in Reflector and set the optimisation to .NET 2.0. You end up with this generated code for the Main method:

ParameterExpression expression2;
Expression<Func<int, Foo>> expression = 
  Expression.Lambda<Func<int, Foo>>(
      Expression.New((ConstructorInfo) methodof(Foo..ctor), new Expression[0]),
      new MemberBinding[] { Expression.Bind((MethodInfo) methodof(Foo.set_X),
                           expression2 = Expression.Parameter(typeof(int), "z")),
                           Expression.Bind((MethodInfo) methodof(Foo.set_Y), 
                                            expression2) }
    new ParameterExpression[] { expression2 });

Basically, I think Expression.MemberInit is what you're after.

  • Jon great idea. I would give you 100 up votes for that solution! :-) – gsharp Apr 27 '10 at 8:46
  • Jon, brilliant!! Many thanks indeed! I agree with gsharp, a great idea! - Reflector is my new friend :-) Thanks again – jameschinnock Apr 27 '10 at 9:22
  • @GSharp, I'll help you with that: +1. – Steven Apr 27 '10 at 10:21

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.