But of course the fourth point says that it is not so enclosed.
------------Original Message------------
From: "Wes" <wes@xxxxxxxxxxxxxx>
To: "AspectJ developer discussions" <aspectj-dev@xxxxxxxxxxx>
Date: Wed, Sep-20-2006 11:35 AM
Subject: Re: [aspectj-dev] AspectJ Runtime: Signatures for interface
initialization and type staticinitialization
Thanks for bringing this up for discussion, Matthew. Some comments
and code
below; I do think the current behavior is correct, i.e., it's what the
user should
expect based on how the programming guide describes initialization and
handling
interface initializers.
First,
> One thing I am sure of: we should not return null [from
getConstructor()]
That seems like the correct behavior to me if there is no constructor for
an interface
(this assumes we have an interface-specific initializer, which I think we
do).
Second, wrt interface initialization, even though Java does not
permit interfaces to have
constructors, AspectJ permits interfaces to have fields that have
initialization statements,
so I think users should be able to expect those to be sequestered in
an interface initializer,
i.e., "initialization(Interface.new(..)) && !
initialization(Instance.new(..))" Indeed, in the
example of an instance with superclass and superinterface, there should
be three
initialization join points: the instance, the superclass, and the
superinterface. This is
what the code below shows. With care, each join point can be picked
out.
Third, wrt declaring type, the programming guide says
"At object initialization and pre-initialization join points, the
signature is the constructor
signature for the constructor that started this initialization: the
first constructor entered
during this type's initialization of this object."
On one hand, I think we'd want AspectJ's reflective access to follow this
model, so the
declaring type of the (reflective) signature indeed should reflect the
specific instance type,
"Test" in your program and "Initializer" in mine below. On the
other hand, if the pointcut
really is only picking out the interface or superclass initialization
join point, it seems
weird to say that it picks up the declaring type of the initiating
constructor. That would mean
the declaring type of the interface-initializer join point enclosed by
the subtype-initializer
join point would be the subtype, and it would thus get as many declaring
types as
there are implementing types, and it becomes not static data associated
with the
join point but dynamic data associated with the enclosing join
point. So perhaps
we should qualify the programming guide to say the declaring type for
purposes
of matching or some such language. In any case, the code below
shows what I think
is the correct declaring type, Interface for the interface-initialization
and Initializer for
the subtype.
Fourth, one might think that initialization of an instance
starts the instance-initialization join
point and then starts the instance-initialization join point of any
parent, since this is what
Java leads us to believe is the order of execution for
constructors. However, AspectJ defines
constructor-execution for the subtype to start when the code for
the constructor starts,
which is after any explicit or implicit call to this(..) or super(..) in
the constructor. That
means the supertype constructor-execution join point is not enclosed by
the subtype
constructor execution. Initialization follows this even though
initialization is intended to
pick out the initiating constructor. So even though the
initialization join point matches based
on the subtype-type, the first initialization join point run is not the
subtype-being-initialized but
the supertype. That's reflected in the code below and should
probably be explained to users.
(There is a faq entry on point, as well as a definition of the order of
initialization for interfaces.)
hth - Wes
------- Initializer.java
import
org.aspectj.lang.Signature;
import org.aspectj.lang.JoinPoint;
import
org.aspectj.lang.reflect.ConstructorSignature;
interface Interface { void m();}
public class Initializer extends Parent implements Interface {
public static void
main(String[] args)
{
new Initializer();
}
}
class Parent { public void m(){}}
aspect Aspect {
static int
counting()
{
System.err.println("COUNTING"); return ++COUNT;
}
static int COUNT;
public int Interface.count =
counting();
before () :
initialization(Initializer.new())
{
print(thisJoinPoint, "
Interface");
}
before () :
initialization(Interface.new())
{
print(thisJoinPoint, "
Interface");
}
before () :
initialization(Interface.new())
&& !initialization(Parent.new())
{
print(thisJoinPoint,
"=Interface");
}
before() :
initialization(Parent.new())
{
print(thisJoinPoint, "
Parent");
}
before() :
initialization(Parent.new())
&& !initialization(Initializer.new())
{
print(thisJoinPoint, "
=Parent");
}
before() :
initialization(Parent+.new())
{
print(thisJoinPoint, "
Parent+");
}
void print(JoinPoint jp,
String label)
{
Signature signature =
jp.getSignature();
int line =
jp.getStaticPart().getSourceLocation().getLine();
System.err.println(label
+ " [" +
line
+ "] tjp=" +
jp.hashCode()
+ "] this=" +
jp.getThis()
+ ", declaringType=" +
signature.getDeclaringTypeName()
+ ", " +
((ConstructorSignature)signature).getConstructor());
}
}
------------Original Message------------
From: Matthew Webster <matthew_webster@xxxxxxxxxx>
To: aspectj-dev@xxxxxxxxxxx
Date: Tue, Sep-19-2006 6:14 AM
Subject: [aspectj-dev] AspectJ Runtime: Signatures for interface
initialization and type staticinitialization
This discussion relates to
https://bugs.eclipse.org/bugs/show_bug.cgi?id=157054. I have also found
https://bugs.eclipse.org/bugs/show_bug.cgi?id=49295 and
https://bugs.eclipse.org/bugs/show_bug.cgi?id=60936 which concern the
removal from the language of the interface constructor execution pcd.
Unfortunately the documentation for this part of the API is terse and the
tests almost non-existent so it is very difficult to determine the intended
behaviour. One thing I am sure of: we should not return null.
There seems to be a discrepancy between
classes and interfaces when it comes to the initialization join point. In
the example below we advise the initialization of a single class both as an
extender of Parent and an implementer of Interface:
public class Test extends Parent implements Interface {
public static void main(String[]
args) {
new
Test();
}
}
public interface Interface {
}
public class Parent {
}
public aspect Aspect {
before () :
(initialization(Interface.new()) || initialization(Parent+.new()))
&& !within(Parent) {
Signature signature = thisJoinPoint.getSignature();
System.err.println("Aspect.before() this=" +
thisJoinPoint.getThis()
+ ", signature=" +
signature.getClass()
+ ", declaringType=" + thisJoinPoint.getSignature().getDeclaringTypeName()
+ ",
" +
((ConstructorSignature)signature).getConstructor());
}
}
However the output in each case is different:
Aspect.before() this=Test@1833955,
signature=class org.aspectj.runtime.reflect.ConstructorSignatureImpl,
declaringType=Test, public Test()
Aspect.before() this=Test@1833955, signature=class
org.aspectj.runtime.reflect.ConstructorSignatureImpl,
declaringType=Interface, null
Firstly while the declaring type for a class initializer is the
target class in the case of the interface it is not. Secondly an interface
cannot have a constructor. There are two possible solutions:
1. Make the implementing type the declaring
type and remove the discrepancy between class and interface.
2. Return an InitializerSignature instead
of a ConstructorSignature. Unfortunately this interface has getInitializer()
which also returns a java.lang.reflect.Constructor. What is slightly bizarre
is that this interface is also used for staticinitializer join points and in
this case the interface returns the signature for the default constructor of
the target class!
Matthew
Webster
AOSD Project
Java Technology Centre, MP146
IBM Hursley
Park, Winchester, SO21 2JN, England
Telephone: +44 196 2816139
(external) 246139 (internal)
Email: Matthew Webster/UK/IBM @ IBMGB,
matthew_webster@xxxxxxxxxx
http://w3.hursley.ibm.com/~websterm/
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