After delving into the source code for the JRE library, I noticed a strangely common code structure, like this:
public int foo(double bar) {
return foo0(bar);
}
private native int foo0(double bar);
What is the purpose of this code pattern, and why is it used instead of simply exposing the underlying native method as the public one?
The native version is just an implementation detail.
This pattern separates the public interface of the method from the actual implementation.
I see at least 5 reasons why this is useful:
You can probably find more advantages.
native screws with mocking. 2) Different Java implementations are free to make different methods native without conflicting with each other. 3) If the method accepts extra parameters in a new version (unlikely; that'd break backward compatilibity), the changes required are about the same either way. 4) I don't know whether that's actually true, and what about the ones where the non-native method just delegates to the native one directly? ...
Aug 15, 2016 at 4:02
native. native might as well be part of the function body for all its visibility to outside users. native is just as hidden when the public method is native directly as it is when the native method is private and wrapped by public methods written in Java.
Aug 15, 2016 at 17:02
native is not part of the documented signature. javadoc ignores the native keyword. From docs.oracle.com/javase/7/docs/technotes/guides/javadoc/…: Remove "synchronized" and "native" from signatures. Javadoc generates an API specification. These two keywords do not belong in the signatures of a specification, because they are implementation-specific. The keyword "native" does not need to be documented.
Aug 16, 2016 at 6:43
private native int foo(double bar);
So, eventually this has to call a C++ function for its implementation. In particular, it'll end up calling a function with a name something like:
Java_MyClass_foo
What happens if there are multiple native foo methods with different signatures? Complications. If you do it, Java will add type information into the name of the method it looks for. But it is simply easier if you stick to non-overloaded methods.
public int foo(double bar) {
return foo0(bar);
}
private native int foo0(double bar);
foo0 has been given a unique name, there should never be a reason to add another foo0. This keeps the implementation of the C++ simple, it never has to deal with mangled names. Even if foo eventually gains an overload, it will call foo1 instead of foo0 and the C++ JNI implementation won't have to deal with the extra complications of overloading.
javah header generator will detect ambiguities/overloaded methods, and do some name mangling to make the signatures unique. (It has to, in fact, because JNI is plain C, and not C++).
System.out.println("The method is called, so why the heck doesn't it work!?!?!");in the Java part, without having to recompile any native code.