]
Emily Jiang commented on CDI-565:
---------------------------------
I think the suggestion is to change the DeploymentException to NullPointerException during
runtime. I would rather my application is not starting rather than failing with NPE during
runtime. In this way, if my application starts, I know it will behave correctly rather
than half cooked. I am not a fun of NullPointerException. I cannot see the real issue of
this, rather than changing Instance<> to @Inject @Optional...
Unsatisfied dependency should be null?
--------------------------------------
Key: CDI-565
URL:
https://issues.jboss.org/browse/CDI-565
Project: CDI Specification Issues
Issue Type: Feature Request
Components: Beans
Reporter: Martin Andersson
What if I am writing a component that call a collaborator only if that class exist during
runtime? It is amazingly intuitive to write code like this:
{code:java}
class MyComponent
{
@Inject
SomeCollaborator collaborator;
public void someMethod() {
// .. do something
if (collaborator != null) {
collaborator.callback();
}
}
}
{code}
But the specification currently says in section "5.2.2. Unsatisfied and ambiguous
dependencies" that this code should cause a "deployment problem". IIRC,
GlassFish 4.1 and WildFly 9 doesn't actually crash during deployment. They will inject
{{null}}. WebLogic 12, I just learned, do crash during deployment.
I believe it is unfortunate to have this null value logic for no apparent reason. It is
inevitably so that the application code would crash anyways as soon as it tries to
dereference a null reference. And you probably agree with me that there's a general
guideline established in the developer community which say you shouldn't do null
pointer checks all over the code because null pointers will crash exactly when and where
the absence of a value really is a problem.
The work around is to inject an {{Instance}} of my type and iterate through all of them,
or do any other form of programmatic lookup. However, me personally, I've had this
requirement far too many times now. It is often the case that a component I write has a
"subframework" in place such that when I want to affect how the application
performs, I can just add in new classes of a particular type and it is scoped up. Please
don't even make the notion of a design smell out of your own lack of creativity, if
you want to see a concrete example then of course I am more than happy to provide you with
that. Just saying =)
Something so intuitive and present in our every day coding life as a "null return
value" should be present in the CDI specification too. I mean that is what the
specification in essence is; one huge {{lookupInstanceOf(class)}}-method. Reading this
method name, would you really expect it to crash, or return {{null}}?
How about adding in a new annotation such that the injection point accept null values for
unsatisfied dependencies, but if the injection point has an annotation {{@Required}}, then
an unsatisfied dependency do crash for this injection point?
You will probably say "let's do it the other way around so that we don't
brake backward compatibility" by creating an {{@Optional}} annotation. Hey, if I am
abusive to my wife and she divorce me. Should I continue to be abusive to my next wife so
that I don't break backward compatibility? Our number one goal should be to define the
most awesome specification and API possible - nothing else. If we keep leaving small piles
of poo everywhere, then we will inevitably end up deep in shit.
Thank you all for your hard work and time devoted to making all of our lives so much
greater.