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
c
itself is a function (real code), not an expression (code as data). You would need to convert it toExpression<Func<int,int>> c = (int a) => a * (a + 3);
.Func<int, Expression<Func<int>>> c = (int a) => () => a + 3;
you had thisExpression<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.