4

Let's suppose I have some function c that return Expression:

Func<int, Expression<Func<int>>> c = (int a) => () => a + 3;

Now I want to create another Expression, but during its creation I'd like to call the function c and embed its result as the part of new expression:

Expression<Func<int>> d = () => 2 + c(3);

I can't do this way because it will interpret c(3) like a functions call to be converted to expression and I'll get the error that I cant add int and Expression<Func<int>>

I'd like d to have a value of:

(Expression<Func<int>>)( () => 2 + 3 + 3 )

I'm also interested in getting this to work on more complex expressions, not just this toy example.

How would you do it in C#?

Alternatively, how would you do it in any other CLR language that I could use in my C# project with as little hassle as possible?


More complex examples:

Func<int, Expression<Func<int>>> c = (int a) => () => a*(a + 3);
Expression<Func<int, int>> d = (x) => 2 + c(3 + x);

3+x should be evaluated just once in resulting expression even though it occurs in body of c in two places.


I have a strong feeling that it cannot be achieved in C# because assigning lambda to Expression is done by the compiler and is sort of compile time const expression literal. It would be akin to making compiler that understands plain string literal "test" understand template string literal "test ${a+b} other" and C# compiler is not at this stage of development yet.

So my main question actually is:

What CLR language supports syntax that would allow me to conveniently build Expression trees embedding parts that are constructed by other functions?

Other possibility is some library that would help me build expression trees in this way using some sorts of run-time compiled templates but I'm guessing this way I'd loose code completion for my expression code.


It seems that F# has ability to 'quote' and 'unquote' (splice) the code:

https://learn.microsoft.com/en-us/dotnet/articles/fsharp/language-reference/code-quotations

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  • 1
    You can use expressions to build other expressions by using the LinqKit library. You can do a similar thing manually but it involves more work. I don't think that what you ask stops at simple expressions usage in other expressions. You want to store a temp value. You can this manually by constructing a new expression from the old one. An ExpressionVisitor might help here. Nov 25, 2016 at 18:30
  • 1
    @KamilSzot, one major problem is that c itself is a function (real code), not an expression (code as data). You would need to convert it to Expression<Func<int,int>> c = (int a) => a * (a + 3);. Nov 25, 2016 at 18:45
  • 1
    Actually this will help you embed it. However your limitation is a different story.
    – Evk
    Nov 25, 2016 at 18:52
  • 3
    What I (and probably Yacoub) mean is if instead of this Func<int, Expression<Func<int>>> c = (int a) => () => a + 3; you had this Expression<Func<int,int>> c = (int a) => (a + 3) - then you can actually get your desired result ((Expression<Func<int>>)( () => 2 + 3 + 3 )). For example with LinqKit.
    – Evk
    Nov 25, 2016 at 19:02
  • 1
    @Evk Wow LinqKit is cool. Thanks for dropping it's name here.
    – jdphenix
    Nov 25, 2016 at 19:10

3 Answers 3

1

For both of your examples this can actually be done with two expression visitors (code is commented):

static class Extensions {
    public static TResult FakeInvoke<TResult>(this Delegate instance, params object[] parameters)
    {
        // this is not intended to be called directly
        throw new NotImplementedException();
    }

    public static TExpression Unwrap<TExpression>(this TExpression exp) where TExpression : Expression {
        return (TExpression) new FakeInvokeVisitor().Visit(exp);
    }

    class FakeInvokeVisitor : ExpressionVisitor {
        protected override Expression VisitMethodCall(MethodCallExpression node) {
            // replace FakeInvoke call
            if (node.Method.Name == "FakeInvoke") {
                // first obtain reference to method being called (so, for c.FakeInvoke(...) that will be "c")
                var func = (Delegate)Expression.Lambda(node.Arguments[0]).Compile().DynamicInvoke();
                // explore method argument names and types
                var argumentNames = new List<string>();
                var dummyArguments = new List<object>();
                foreach (var arg in func.Method.GetParameters()) {
                    argumentNames.Add(arg.Name);
                    // create default value for each argument
                    dummyArguments.Add(arg.ParameterType.IsValueType ? Activator.CreateInstance(arg.ParameterType) : null);
                }
                // now, invoke function with default arguments to obtain expression (for example, this one () => a*(a + 3)).
                // all arguments will have default value (0 in this case), but they are not literal "0" but a reference to "a" member with value 0
                var exp = (Expression) func.DynamicInvoke(dummyArguments.ToArray());
                // this is expressions representing what we passed to FakeInvoke (for example expression (x + 3))
                var argumentExpressions = (NewArrayExpression)node.Arguments[1];
                // now invoke second visitor
                exp = new InnerFakeInvokeVisitor(argumentExpressions, argumentNames.ToArray()).Visit(exp);
                return ((LambdaExpression)exp).Body;
            }
            return base.VisitMethodCall(node);
        }
    }

    class InnerFakeInvokeVisitor : ExpressionVisitor {
        private readonly NewArrayExpression _args;
        private readonly string[] _argumentNames;
        public InnerFakeInvokeVisitor(NewArrayExpression args, string[] argumentNames) {
            _args =  args;
            _argumentNames = argumentNames;
        }
        protected override Expression VisitMember(MemberExpression node) {
            // if that is a reference to one of our arguments (for example, reference to "a")
            if (_argumentNames.Contains(node.Member.Name)) {
                // find related expression
                var idx = Array.IndexOf(_argumentNames, node.Member.Name);
                var argument = _args.Expressions[idx];
                var unary = argument as UnaryExpression;
                // and replace it. So "a" is replaced with expression "x + 3"
                return unary?.Operand ?? argument;
            }
            return base.VisitMember(node);
        }
    }
}

Can be used like this:

Func<int, Expression<Func<int>>> c = (int a) => () => a * (a + 3);
Expression<Func<int, int>> d = (x) => 2 + c.FakeInvoke<int>(3 + x);
d = d.Unwrap(); // this is now "x => (2 + ((3 + x) * ((3 + x) + 3)))"

Simple case:

Func<int, Expression<Func<int>>> c = (int a) => () => a + 3;
Expression<Func<int>> d = () => 2 + c.FakeInvoke<int>(3);
d = d.Unwrap(); // this is now "() => 2 + (3 + 3)

With multiple arguments:

Func<int, int, Expression<Func<int>>> c = (int a, int b) => () => a * (a + 3) + b;
Expression<Func<int, int>> d = (x) => 2 + c.FakeInvoke<int>(3 + x, x + 5);
d = d.Unwrap(); // "x => (2 + (((3 + x) * ((3 + x) + 3)) + (x + 5)))"

Note that FakeInvoke is not type-safe (you should explicitly set return type and arguments and not checked). But that's just for example, in real use you can create many overloads of FakeInvoke, like this:

public static TResult FakeInvoke<TArg, TResult>(this Func<TArg, Expression<Func<TResult>>> instance, TArg argument) {
        // this is not intended to be called directly
    throw new NotImplementedException();
}

Code above should be modified a bit to handle such calls correctly (because arguments are now not in single NewArrayExpression), but that's quite easy to do. With such overloads you can just do:

Expression<Func<int, int>> d = (x) => 2 + c.FakeInvoke(3 + x); // this is type-safe now, you cannot pass non-integer as "3+x", nor you can pass more or less arguments than required.
1
  • Thank you. Your answer made me dig deeper.
    – Kamil Szot
    Nov 26, 2016 at 17:41
0

The case where Expressions are returned from lambdas is really hard because those Expressions are actually closures that have non-public (System.Runtime.CompilerServices.Closure?) object inside them that contains the values that lambda closes over. All of that makes really hard to accurately replace formal parameters with actual parameters in Expression tree.


Inspired by Evk response I found fairly elegant solution for simpler case:

Expression<Func<int, int>> c = (int a) => a * (a + 3);
var d = Extensions.Splice<Func<int, int>>((x) => 2 + c.Embed(3 + x));

// d is now x => (2 + ((3 + x) * ((3 + x) + 3))) expression

public static class Extensions
{
    public static T Embed<T>(this Expression<Func<T>> exp) { throw new Exception("Should not be executed"); }
    public static T Embed<A, T>(this Expression<Func<A, T>> exp, A a) { throw new Exception("Should not be executed"); }
    public static T Embed<A, B, T>(this Expression<Func<A, B, T>> exp, A a, B b) { throw new Exception("Should not be executed"); }
    public static T Embed<A, B, C, T>(this Expression<Func<A, B, C, T>> exp, A a, B b, C c) { throw new Exception("Should not be executed"); }
    public static T Embed<A, B, C, D, T>(this Expression<Func<A, B, C, D, T>> exp, A a, B b, C c) { throw new Exception("Should not be executed"); }

    public static Expression<T> Splice<T>(Expression<T> exp)
    {
        return new SplicingVisitor().Visit(exp) as Expression<T>;
    }
    class SplicingVisitor : ExpressionVisitor
    {
        protected override Expression VisitMethodCall(MethodCallExpression node)
        {
            if (node.Method.Name == "Embed")
            {
                var mem = node.Arguments[0] as MemberExpression;

                var getterLambda = Expression.Lambda<Func<object>>(mem, new ParameterExpression[0]);
                var lam = getterLambda.Compile().DynamicInvoke() as LambdaExpression;

                var parameterMapping = lam.Parameters.Select((p, index) => new
                {
                    FormalParameter = p,
                    ActualParameter = node.Arguments[index+1]
                }).ToDictionary(o => o.FormalParameter, o => o.ActualParameter);

                return new ParameterReplacerVisitor(parameterMapping).Visit(lam.Body);
            }
            return base.VisitMethodCall(node);
        }
    }
    public class ParameterReplacerVisitor : ExpressionVisitor
    {
        private Dictionary<ParameterExpression, Expression> parameterMapping;
        public ParameterReplacerVisitor(Dictionary<ParameterExpression, Expression> parameterMapping)
        {
            this.parameterMapping = parameterMapping;
        }

        protected override Expression VisitParameter(ParameterExpression node)
        {
            if(parameterMapping.ContainsKey(node))
            {
                return parameterMapping[node];
            }
            return base.VisitParameter(node);
        }
    }
}
2
  • And what about your more complex case then?
    – Evk
    Nov 26, 2016 at 18:16
  • @Evk I got it working but code was really messy and it could potentially replace parameters wrongly in more complex cases where there are a lot of parameters and object fields that share names. To tell them apart I'd need access to LambdaExpression internal closure object that holds the enclosed values. The only way I even saw this object was by compiling closure lambda and looking into Target.Constants field on it. I just decided that I'll try to manage with just static (non-closure) expressions.
    – Kamil Szot
    Nov 26, 2016 at 18:56
-1

Using LinqKit, it simple to consume it's expandable query wrapper by calling AsExpandable() on the first entity type. This expandable wrapper does the work necessary to compose expressions make them compatible with EF.

A toy example of it's usage is below (Person is an EF Code First entity) -

var ctx = new Test();

Expression<Func<Person, bool>> ageFilter = p => p.Age < 30;

var filtered = ctx.People.AsExpandable()
    .Where(p => ageFilter.Invoke(p) && p.Name.StartsWith("J"));
Console.WriteLine( $"{filtered.Count()} people meet the criteria." );

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