Before I try to answer, I feel compelled to point out that what you're doing seems redundant. Assuming that you are putting this code into a constructor, generating something like:
public class Foo
private int a;
private bool b;
private SomeType c;
this.a = default(int);
this.b = default(bool);
this.c = default(SomeType);
is unnecessary. That already happens automatically when a class is constructed. (In fact, some quick testing shows that these assignments aren't even optimized away if they're done explicitly in the constructor, though I suppose the JITter could take care of that.)
default keyword was designed in large part to do exactly what you're doing: to provide a way to assign the "default" value to a variable whose type is unknown at compile time. It was introduced for use by generic code, I assume, but auto-generated code is certainly correct in using it as well.
Keep in mind that the
default value of a reference type is
this.list = default(List<int>);
does not construct a new
List<int>, it just sets
null. What I suspect you want to do, instead, is to use the
Type.IsValueType property to leave value types at their default values, and initialize reference types using
Lastly, I think what you're looking for here is the
IsGenericType property of the
Type class and the corresponding
foreach (PropertyInfo property in properties)
var subtypes = property.Type.GetGenericArguments();
// construct full type name from type and subtypes.
code += "this." + property.Name + " = default(" + property.PropertyType.Name + ")";
As far as constructing something useful for a reference type, a common technique I've seen used by generated code is to require a parameterless constructor for any class that you expect to use. It's easy enough to see if a class has a parameterless constructor, by calling
Type.GetConstructor(), passing in an empty
Type.EmptyTypes), and see if it returns a
null. Once that has been established, simply replacing
new typename() should achieve what you need.
More generally you can supply any array of types to that method to see if there's a matching constructor, or call
GetConstructors() to get them all. Things to look out for here are the
IsGenericMethod fields of the
ConstructorInfo, to find one you can actually call from wherever this code is being generated.
The problem you are trying to solve, though, is going to become arbitrarily complex unless you can place some constraints on it. One option would be to find an arbitrary constructor and build a call that looks like this:
var line = "this." + fieldName + " = new(";
foreach ( var param in constructor.GetParameters() )
line += "default(" + param.ParameterType.Name + "),";
line = line.TrimEnd(',') + ");"
(Note this is for illustrative purposes only, I'd probably use CodeDOM here, or at least a StringBuilder :)
But of course, now you have the problem of determining the appropriate type name for each parameter, which themselves could be generics. And the reference type parameters would all be initialized to null. And there's no way of knowing which of the arbitrarily many constructors you can pick from actually produces a usable object (some of them may do bad things, like assume you're going to set properties or call methods immediately after you construct an instance.)
How you go about solving those issues is not a technical one: you can recursively apply this same logic to each parameter as far down as you're willing to go. It's a matter of deciding, for your use case, how complex you need to be and what kind of limits you're willing to place on the users.