how to get type of variable referenced in Java?

Question 1

To address the second question: it may be helpful to keep the concepts of "inheritance" and "visibility" distinct. A private method m is only visible inside the class C where the method is declared. So you can't use m at all from outside C. Furthermore, even inside C, you can't use x.m() unless the object x is declared to be of type C. But objects of a subclass still have the method m, and that method can be called, but only inside C. This example will compile (even if the two classes are in separate files):

public class Class1 {
    private void test () { System.out.println ("test"); }
    public void doThis (Class2 c) {
        // c.test();  -- does not compile [1]
        ((Class1)c).test();
    }
}

public class Class2 extends Class1 {
    public void doSomething () {
        doThis (this);
        // ((Class1)this).test();  -- does not compile [2]
    }
}

Note that inside doThis, you can still call the test method of c, even though c has type Class2. However, you can do this only because the code is inside the class Class1 that declares the test() method (which is why [2] doesn't compile); and you can do it only by casting c to an object of type Class1 (which is why [1] doesn't compile). However, even after you cast it so that the compiler sees it as an expression of type Class1, the actual object still has type Class2. And if you were to call an overridden method polymorphic like this: ((Class1)c).polymorphic(), it would call the method defined in Class2, not Class1, since the object is still actually a Class2 object.

So I think that in some sense, test is inherited even though it's private; it just isn't visible in Class2.

MORE: I think it's also helpful to understand that there's a difference between a compile-time type and a run-time type (or instance type). If you declare a variable Parent x; then x's compile-time type is Parent. If you have a function f whose return type is Parent, then an expression like obj.f(arg,arg2) will have type Parent. But at run-time, if a variable or expression has compile-time type Parent, the actual type at run-time can be Parent or any of its subclasses. The run-time type will be based on how the object was constructed. So a variable can have a compile-time type Parent and a run-time type Child. Then you just need to know which type is used and when. For checking whether a method is visible (which is where private comes into play), the compile-time type is used. For deciding which method to call when a child subclass overrides a method, the run-time type is used (that's what polymorphism is). For .getClass(), the run-time type is used. Anyway, that's how I think about things so that I don't get too confused.

EXAMPLE: Let's say we have:

class Parent { }
class Child extends Parent { }
class Grandchild extens Child { }

In some other class, we have

Parent x1 = new Parent();
Parent x2 = new Child();
Parent x3 = new Grandchild();

The variables x1, x2, and x3 all have a compile-time type of Parent. This means all three variables could refer to an instance of Parent, or an instance of Child or Grandchild or any other subclass of Parent. And that's what happens above: x2 will refer to an instance of Child, and x3 will refer to an instance of Grandchild.

Similarly:

private Parent getAParent(int n) {
    if (n == 0) return new Parent();
    if (n == 1) return new Child();
    if (n == 2) return new Grandchild();
    throw new IllegalArgumentException();
}

Parent x4 = getAParent (0);
Parent x5 = getAParent (1);
Parent x6 = getAParent (2);

x5 refers to an instance of Child, and x6 refers to an instance of Grandchild.

But the compile-time type of all the variables and the getAParent calls is still Parent. The compiler does not know what class the variable or function call actually refers to when you run the program. So if you declare a method play() inside Grandchild, these are still illegal:

x3.play ();             // ERROR
x6.play ();             // ERROR
getAParent(2).play ();  // ERROR

because the compiler thinks of the two variables and getAParent(2) as having type Parent, not Grandchild. And play isn't defined for Parent. To see if those variables have a run-time type that has a play method would require the compiler to generate code to check at run-time, and the compiler doesn't do that.

That's why p.test() works in your second example. Even though p refers to an instance of Child1, p's compile-time type is Parent1 since you declared it as having type Parent1. And the compiler sees that Parent1 has a test method; and since the code is inside Parent1, the test method is visible even though it's private. That's why it works. The compiler doesn't generate code to check what run-time type p actually refers to. Hope this helps explain things.

Question 2

I thought the classname for p will be Parent, since it is of type Parent. However, it prints as Child.

The class name will reflect the type of the instance not of the variable.

here I am calling test method on Child1 object which is of type Parent1. Child1 has no test method since it is not inherited.

But the test method is inherited likely because your two classes are in the same file and so private methods are visible to each, and so Child1 will inherit and thus have available all of the non-private methods of its parents. That is what inheritance is all about -- re-using the behaviors (methods) and state (fields) of the parent. What Child1 doesn't do is it doesn't override any parent methods.

Edit

test method is private in parent class, so it is not inherited correct

It's available since your code appears to be in the same single file. Try putting your classes in their own files and see what happens (see if the code will even compile).