I'd like to say

int x = magic(), y = moremagic();
return i => i + (x/y);

and have the x be captured as a constant instead of a variable reference. The idea is that x will never change and so when the expression is later compiled, the compiler to can do constant folding and produce more efficient code -- i.e. calculating x/y once instead of on every call, via pointer dereferences into a closure record.

There is no way to mark x as readonly within a method, and the compiler is not clever enough to detect that it doesn't change after the creation of the expression.

I'd hate to have to build the expression by hand. Any brilliant ideas?

UPDATE: I ended up using the marvelous LinqKit to build a partial evaluator that will do the substitutions I want. The transform is only safe if you know that relevant references will not change, but it worked for my purposes. It is possible to restrict the partial evaluation only to direct members of your closure, which you control, by adding an extra check or two in there, which is fairly obvious on inspection of the sample code provided in the LinqKit.

/// <summary>Walks your expression and eagerly evaluates property/field members and substitutes them with constants.
/// You must be sure this is semantically correct, by ensuring those fields (e.g. references to captured variables in your closure)
/// will never change, but it allows the expression to be compiled more efficiently by turning constant numbers into true constants, 
/// which the compiler can fold.</summary>
public class PartiallyEvaluateMemberExpressionsVisitor : ExpressionVisitor
    protected override Expression VisitMemberAccess(MemberExpression m)
        Expression exp = this.Visit(m.Expression);

        if (exp == null || exp is ConstantExpression) // null=static member
            object @object = exp == null ? null : ((ConstantExpression)exp).Value;
            object value = null; Type type = null;
            if (m.Member is FieldInfo)
                FieldInfo fi = (FieldInfo)m.Member;
                value = fi.GetValue(@object);
                type = fi.FieldType;
            else if (m.Member is PropertyInfo)
                PropertyInfo pi = (PropertyInfo)m.Member;
                if (pi.GetIndexParameters().Length != 0)
                    throw new ArgumentException("cannot eliminate closure references to indexed properties");
                value = pi.GetValue(@object, null);
                type = pi.PropertyType;
            return Expression.Constant(value, type);
        else // otherwise just pass it through
            return Expression.MakeMemberAccess(exp, m.Member);
  • just what I was looking for! – jeroenh Nov 4 '10 at 18:17
  • 1
    I know it has been a while, but this has saved me a lot of time. Thanks. – Stargazer Sep 23 '15 at 15:07

No there is no way to do this in C#. The compiler does not support capturing variables by value / const. Nor can you convert a non-const value into a const value at runtime in this manner.

Additionally the C# compiler only does constant folding during the initial compilation for known constant values. If it was possible to freeze a value at runtime into a constant it wouldn't participate in compiler constant folding because it happens at runtime.


The compiler doesn't do this type of "value caching". Constant folding is done at compile time for constants only, not for readonly fields and certainly not for local variables which do not have a known value at compile time.

You have to make this yourself, but it has to stay a closure reference (since the value is in fact not determinable at compile time, which is why it is likely to be put in the closure when the expression is built):

int x = magic(), y = moremagic();
int xy = x/y;
return i => i + xy;
  • indeed, though this still involves xy being looked up on every usage. And my example is arbitrarily complex -- would be nice to have the C# compiler simplify the large equation that results, rather than doing it myself. – Sebastian Good Oct 21 '10 at 20:48

x can't be a constant, because you're doing runtime magic to determine what it is. However, if you know that x and y don't change, try:

int x = magic(), y = moremagic();
int xOverY = x/y;
return i => i + xOverY;

I should also mention that even though the compiled IL code for i => i + (x/y) will show the division, the JIT compiler is almost certainly going to optimize this away.

  • I don't think it can optimize away the divide, because it has to fetch the x and the y from the closure every time – Sebastian Good Oct 21 '10 at 20:54
  • Perhaps you're right. I don't know much about .NET's JIT compiler. It seems to me that it would be really easy for the compiler to recognize that the values of x and y will never change for a particular instance of the closure (they're basically saved as read-only fields on a new class, based on the IL), and modify the class at runtime to eliminate the need for them. – StriplingWarrior Oct 21 '10 at 22:19

One technique I used in vb2005 was to use a generic delegate factory to effect by-value closures. I only implemented it for subs rather than functions, but it could be done for functions as well. If extended in that way:


would be a static function which would accept as parameters a function (described later), a T3, and a T4. The passed-in function should accept parameters of types T2, T3, and T4, and return a T1. The function returned by NewInv would accept one parameter of type T2 and call the passed-in function with that parameter and the ones given to NewInv.

The invocation would look something like:

return FunctionOf.NewInv((i,x,y) => i+x/y, x, y)

If you(like me) are creating some expression builder for SQL queries you may consirer the following: first create a class variable, make it a constant and then access it like this:

var constant= Expression.Constant(values);
var start = Expression.MakeMemberAccess(constant, values.GetMemberInfo(f => f.Start));
var end = Expression.MakeMemberAccess(constant, values.GetMemberInfo(f => f.End));

var more = Expression.GreaterThanOrEqual(memberBody, start);
var less = Expression.LessThanOrEqual(memberBody, end);
  • There's no advantage to doing this over just using a closure. – Servy Dec 16 '16 at 16:33
  • @Servy how do you create a closure with expressions? There were values in my queries with Expression.Constant now there are >@parameters – xumix Dec 16 '16 at 20:20
  • You use a lambda and close over the variable, as is shown in like all of the other answers, and the question. – Servy Dec 16 '16 at 20:32
  • @Servy there is no way in c# to create a closire using Expression so that the value is not embedded. – xumix Dec 17 '16 at 0:14

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.