Let's say you have:
Expression<Func<Person, bool>> isAdult = p1 => p1.Age >= 18;
// I've given the parameter a different name to allow you to differentiate.
Expression<Func<Person, bool>> isMale = p2 => p2.Gender == "Male";
And then combine them with
var isAdultMale = isAdult.And(isMale);
PredicateBuilder produces is an expression that looks like this:
// Invoke has no direct equivalent in C# lambda expressions.
p1 => p1.Age >= 18 && Invoke(p2 => p2.Gender == "Male", p1)
As you can see:
- The resulting lambda reuses the parameters of the first expression.
- Has a body that invokes the second expression by passing the parameters of the first expression as a replacement for the second expression's parameters. The resulting
InvocationExpression is sort of like the expression-equivalent of a method-call (calling a routine by passing in arguments for parameters).
Ands the first expression's body and this
InvocationExpression together to produce the body of the resulting lambda.
The idea is that the LINQ provider should be able to understand the semantics of this operation and take a sensible course of action (e.g. generate SQL like
WHERE age >= 18 AND gender = 'Male').
Often though, providers have problems with
InvocationExpressions, because of the obvious complications of processing a 'nested expression-call inside an expression.'
To get around this, LINQKit also provides the
Expand helper. This essentially 'inlines' the invocation call smartly by replacing the call with the body of the nested expression, substituting uses of the nested expression's parameters appropriately (in this case, replacing
p1). This should produce something like:
p1 => p1.Age >= 18 && p1.Gender == "Male"
Note that this how you would have manually combined those predicates if you'd done it yourself in a lambda. But with LINQKit around, you can get these predicates from independent sources and easily combine them:
- Without writing "by hand" expression code.
- Optionally, in a way that is transparent to consumers of the resulting lambda.