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I have a class represent a generic filter object

public class Filter
    public string column { get; set; }
    public string operator { get; set; }
    public string data { get; set; }

that I am able to transform in a LambdaExpression thanks to code like this

public LambdaExpression ToExpression( IQueryable query ) {
    LambdaExpression toReturn = null;
    ParameterExpression parameter = Expression.Parameter( query.ElementType, "p" );
    MemberExpression memberAccess = GetMemberExpression( column, parameter );
    ConstantExpression filter = Expression.Constant( Convert.ChangeType( data, memberAccess.Type ) );
    WhereOperation condition = (WhereOperation)StringEnum.Parse( typeof( WhereOperation ), operator );
    LambdaExpression lambda = BuildLambdaExpression( memberAccess, filter, parameter, condition, data );
    if ( toReturn == null ) {
        toReturn = lambda;
    return toReturn;

As per the requirement the Filter member column can contains a sort of navigation sintax for querying fields that is expressed like FieldA.FieldB.Description that translates to:

  • Get the value of type T returned from the FieldA property
  • Get the value of type T1 returned from the FieldB of T
  • Get the value of type T2 returned from the Description of T2

The result is a lambda like this one: p.FieldA.FieldB.Description == "data" and I can use this result as a parameter of the Where extension method of any IQueryable

The problem comes out when one of the members of the navigation query is a Nullable type. In that case, supposing FieldA is nullable, the correct lambda should be

p.FieldA != null && p.FieldA.FieldB.Description == "data"

I have tried to implement this check while constructing the MemberExpression object using code like this one

MemberExpression memberAccess = null;
foreach ( var property in column.Split( '.' ) ) {
    memberAccess = MemberExpression.Property( memberAccess ?? ( p as Expression ), property );
    Type memberType = memberAccess.Type;
    if ( memberType.IsGenericType && 
         memberType.GetGenericTypeDefinition() == typeof( Nullable<> ) ) {

        //Create here an expression of type : memberAccess != null

that is good for primitive types but does not work, for example, with other object references, like EF EntityReference object instances. I know I could simply add another condition to the previous if like

if ( ( memberType.IsGenericType && 
       memberType.GetGenericTypeDefinition() == typeof( Nullable<> ) ) ||
       memberType.IsClass ) {

but that seems to me too much generic producing a lambda with too many condition and most of them maybe unuseful.

Is there any way to better individuate nullable references?

share|improve this question
If the expression is destined to Entity Framework, I wouldn't bother. p.FieldA.FieldB.Description == "data" simply will be false without any exception if FieldA or FieldB is null. If it's meant to be compiled and run in memory, it's another story. –  Julien Lebosquain Oct 12 '12 at 15:19
I am using EF first release, the one that works with .NET 3.5. If I do a query like in the sample the query simply does not apply and the result is like I would'nt have specified any filter... –  Lorenzo Oct 12 '12 at 15:24

1 Answer 1

up vote 3 down vote accepted

You can make the null check unconditional. Checking a value type for null is not illegal.

share|improve this answer
My Filter class is already used in a bigger context with groups and other list of rules. If I make the check unconditional the number of expressions in some cases can quickly increase even if they are not strictly needed. Does this would affect performances? –  Lorenzo Oct 12 '12 at 15:13
@Lorenzo Checking for null is no more or less work than checking if a value is nullable, so the check to see if you need to do a null check is the same work in the case of a non-nullable object, and more work in the case of a nullable object. –  Servy Oct 12 '12 at 15:14
@Lorenzo: Well, each additional operation adds a little bit to the overhead, sure. But on the other hand, the vast majority of the types used in your scenario will be reference types and needs the null check anyway. –  Daniel Hilgarth Oct 12 '12 at 15:15
@Servy: great example! Thank you :) –  Lorenzo Oct 12 '12 at 15:20

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