I’ve run into interesting thing (works same in both Java and C#).
Java code:
public class TestStuff {
public static void main(String[] args) {
Printer p = new PrinterImpl();
p.genericPrint(new B());
}
}
class PrinterImpl implements Printer {
void print(A a) {
System.out.println("a");
}
void print(B b) {
System.out.println("b");
}
@Override
public <T extends A> void genericPrint(T b) {
print(b);
}
}
interface Printer {
public <T extends A> void genericPrint(T a);
}
class A {
}
class B extends A{
}
C# code:
namespace TestStuff
{
internal class Program
{
private static void Main(string[] args)
{
var printer = new Printer();
printer.GenericPrint(new B());
}
}
public class Printer
{
public void Print(A a)
{
Console.WriteLine("a");
}
public void Print(B b)
{
Console.WriteLine("b");
}
public void GenericPrint<T>(T a) where T : A
{
Print(a);
}
}
public class B : A
{
}
public class A
{
}
}
When I wrote something like this I expected to see “b” printed in both cases.
But, as you can see, it is “a” what is printed.
I’ve read C# language specification and it says overloaded method is selected at compile-time. It explains why it works that way.
However, I had no time to check it out in Java language specification.
Could somebody please give a more detailed explanation of what is happening and why? And how could I achieve what I wanted?
Thanks in advance!
The key is to understand that generics are only available at compile time in java. It is just syntax sugar that the compiler uses while compiling, but throws away while generating the class files.
As such, the code:
is compiled into:
Since the argument to
printis of type A, the overloaded versionprint(A a)is the one resolved. I’d suggest using polymorphic calls on instances of A or the Visitor pattern to callback into PrinterImpl for your use case.Something like: