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I'm creating a Validator<T> class. I'm attempting to implement the Linq SelectMany extension methods for my validator to be able to compose expressions using a Linq query and validate the final result even when the underlying values change.

The following test code demonstrates my intent.

var a = 2;
var b = 3;

var va = Validator.Create(() => a, n => n >= 0 && n < 5);
var vb = Validator.Create(() => b, n => n >= 0 && n < 5);

var vc = from ia in va
         from ib in vb
         select ia + ib;

Debug.Assert(vc.Value == a + b); //2 + 3
Debug.Assert(vc.Value == 5);

Debug.Assert(vc.IsValid == true);

a = 7;

Debug.Assert(vc.Value == a + b); //7 + 3
Debug.Assert(vc.Value == 10);

Debug.Assert(va.IsValid == false);
Debug.Assert(vb.IsValid == true);
Debug.Assert(vc.IsValid == false);

I've seen the following question How do I compose existing Linq Expressions which shows me how to compose two Func<T, bool>'s together using an And expression, but I need to be able to compose functions together in a more, well, functional way.

I have, for example, the following two expressions:

public Expression<Func<T>> ValueExpression { get; private set; }
public Expression<Func<T, bool>> ValidationExpression { get; private set; }

I wish to create a new expression like this:

    public Expression<Func<bool>> IsValidExpression
            // TODO: Compose expressions rather than compile & invoke.

More succinctly I'm trying to create these functions:

// Specific case
Func<Expression<Func<T>>, Expression<Func<T, bool>>, Expression<Func<bool>>>
// General case
Func<Expression<Func<X, Y>>, Expression<Func<Y, Z>>, Expression<Func<X, Z>>>

The general case function can be modified to accept different numbers of generic arguments as needed to compose any function.

I've searched Stack Overflow (of course) and the web, but haven't an example that solves this issue.

My code for the Validator<T> class is below.

public class Validator<T>
    public Validator(Expression<Func<T>> valueFunc,
        Expression<Func<T, bool>> validationFunc)
        this.ValueExpression = valueFunc;
        this.ValidationExpression = validationFunc;

    public Expression<Func<T>> ValueExpression { get; private set; }
    public Expression<Func<T, bool>> ValidationExpression { get; private set; }

    public T Value { get { return this.ValueExpression.Compile().Invoke(); } }

    public bool IsValid { get { return this.IsValidExpression.Compile().Invoke(); } }

    public Expression<Func<bool>> IsValidExpression
            // TODO: Compose expressions.

My SelectMany extensions contain loads of yucky .Compile().Invoke() which I want to get rid of.

public static Validator<U> SelectMany<T, U>(this Validator<T> @this, Expression<Func<T, Validator<U>>> k)
    Expression<Func<T>> fvtv = @this.ValueExpression;
    Expression<Func<Validator<U>>> fvu = () => k.Compile().Invoke(fvtv.Compile().Invoke());
    Expression<Func<U>> fvuv = fvu.Compile().Invoke().ValueExpression;
    Expression<Func<U, bool>> fvtiv = u => @this.ValidationExpression.Compile().Invoke(fvtv.Compile().Invoke());
    return fvuv.ToValidator(fvtiv);

public static Validator<V> SelectMany<T, U, V>(this Validator<T> @this, Expression<Func<T, Validator<U>>> k, Expression<Func<T, U, V>> s)
    Expression<Func<Validator<U>>> fvu = () => @this.SelectMany(k);
    Expression<Func<T>> fvtv = @this.ValueExpression;
    Expression<Func<U>> fvuv = fvu.Compile().Invoke().ValueExpression;
    Expression<Func<T, bool>> fvtiv = @this.ValidationExpression;
    Expression<Func<U, bool>> fvuiv = u => fvu.Compile().Invoke().ValidationExpression.Compile().Invoke(u);
    Expression<Func<V>> fvv = () => s.Compile().Invoke(fvtv.Compile().Invoke(), fvuv.Compile().Invoke());
    Expression<Func<V, bool>> fvviv = v => fvtiv.Compile().Invoke(fvtv.Compile().Invoke()) && fvuiv.Compile().Invoke(fvuv.Compile().Invoke());
    return fvv.ToValidator(fvviv);

Thanks in advance!

share|improve this question
Really struggling to see what you mean by "in a more functional way". What would you need to do that you can't do by just removing all the Expression<> .Compile() and .Invoke()s? – pdr Feb 25 '10 at 1:04
I'm curious as to why you would want to validate an expression to produce the value as opposed to simply validating an actual value. Can you elaborate on this point? – Aaronaught Feb 25 '10 at 1:16
Here's an example - I'm trying to compose functions such as f(x) = x + 1 & g(x) = sqrt(x) then h(x) = f(g(x)). Now if I have a constraint on g such that x >= 0 (sqrt of -ve numbers etc) then I want that constraint to propagate to the function h. When my underlying value of x changes I want to be able to ask the function h if I should consider its result as still valid. (This is a somewhat contrived example, but it should help to clarify.) Cheers. – Enigmativity Feb 25 '10 at 9:21
I think this stack-exchange proposal might be of interest to you. If it is show your support and help get it into beta. – greatwolf Jan 17 '11 at 4:23
up vote 15 down vote accepted

The equivalent of Haskell's function composition operator

(.) :: (b->c) -> (a->b) -> (a->c)
f . g = \ x -> f (g x)

would in C# probably be something like

static Expression<Func<A, C>> Compose<A, B, C>(
    Expression<Func<B, C>> f,
    Expression<Func<A, B>> g)
    var x = Expression.Parameter(typeof(A));
    return Expression.Lambda<Func<A, C>>(
        Expression.Invoke(f, Expression.Invoke(g, x)), x);

Is this what you're looking for?


Compose<int, int, string>(y => y.ToString(), x => x + 1).Compile()(10); // "11"
share|improve this answer
That looks pretty much like what I was after. Cheers. Now I can get on with my next head-ache. Monads are crazy! – Enigmativity Feb 25 '10 at 9:23
We have a whole set of such operators in our internal lib. It's a shame Microsoft doesn't include stuff to make the Expression<Func<..>> really awesome (relatively speaking) – sinelaw Aug 9 '12 at 13:22

While dtb's answer works for several scenarios, it is subobtimal as such an expression cannot be used in Entity Framework, as it cannot handle Invoke calls. Unfortunately, to avoid those calls one needs a lot more code, including a new ExpressionVisitor derived class:

static Expression<Func<A, C>> Compose<A, B, C>(Expression<Func<B, C>> f,
                                               Expression<Func<A, B>> g)
    var ex = ReplaceExpressions(f.Body, f.Parameters[0], g.Body);

    return Expression.Lambda<Func<A, C>>(ex, g.Parameters[0]);

static TExpr ReplaceExpressions<TExpr>(TExpr expression,
                                              Expression orig,
                                              Expression replacement)
where TExpr : Expression 
    var replacer = new ExpressionReplacer(orig, replacement);
    return replacer.VisitAndConvert(expression, "ReplaceExpressions");

private class ExpressionReplacer : ExpressionVisitor
    private readonly Expression From;
    private readonly Expression To;

    public ExpressionReplacer(Expression from, Expression to) {
        From = from;
        To = to;

    public override Expression Visit(Expression node) {
        if (node == From) {
            return To;
        return base.Visit(node);

This replaces every instance of the first parameter in the first expression with the expression in the second expression. So a call like this:

Compose((Class1 c) => c.StringProperty, (Class2 c2) => c2.Class1Property

Would yield the expression (Class2 c2) => c2.Class1Property.StringProperty.

share|improve this answer

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