Content preview: Hi Paul, Thanks a lot again for reporting this problem. This
uncovered a conceptual omission in the meta-level architecture of ContextL.
Fortunately, it was easy to fix. Background: Layered classes need to be split
into a "base" class that gives identity to a particular layered class, plus
all the partial definitions that belong to the various layers. The base class
refers to the partial classes making up its definition by way of direct superclass
links. All of this is set up in the partial-class metaclass. There needs
to be a separation of initargs, some of which need to be routed to the base
class (such as the name of the class, the defining metaclass and the direct
superclass links), and the others need to go to the various partial definitions
(such as direct slot definitions, for example). [...]
Content analysis details: (-102.3 points, 5.0 required)
pts rule name description
---- ---------------------- --------------------------------------------------
-2.3 RCVD_IN_DNSWL_MED RBL: Sender listed at http://www.dnswl.org/, medium
trust
[217.70.178.89 listed in list.dnswl.org]
-100 USER_IN_WHITELIST From: address is in the user's white-list
Archived-At: <http://permalink.gmane.org/gmane.lisp.closer.devel/333>
Hi Paul,
Thanks a lot again for reporting this problem. This uncovered a conceptual omission in the meta-level architecture of ContextL. Fortunately, it was easy to fix.
Background: Layered classes need to be split into a "base" class that gives identity to a particular layered class, plus all the partial definitions that belong to the various layers. The base class refers to the partial classes making up its definition by way of direct superclass links. All of this is set up in the partial-class metaclass. There needs to be a separation of initargs, some of which need to be routed to the base class (such as the name of the class, the defining metaclass and the direct superclass links), and the others need to go to the various partial definitions (such as direct slot definitions, for example).
The problem you uncovered was that this separation into base and partial initargs was hardcoded, and there was no way to configure this in one's own subclasses of partial-class and layered-class.
I have now introduced a generic function partial-class-base-initargs (with method combination 'append) on which methods can be defined that extend the initargs that need to go to the base class. Here is how it can be used to make the serializable layered class example work:
(in-package :contextl-user)
(defclass serializable-class (standard-class)
((database :initarg :database)))
(defclass combined-class (layered-class serializable-class)
())
(defmethod validate-superclass ((class combined-class) (superclass standard-class))
t)
(defmethod partial-class-base-initargs append ((class combined-class))
'(:database))
(defclass try ()
()
(:metaclass combined-class)
(:database . "mydb"))
(finalize-inheritance (find-class 'try))
(assert (string= (slot-value (find-class 'try) 'database) "mydb"))
(assert (loop for class in (rest (class-precedence-list (find-class 'try)))
never (slot-exists-p class 'database)))
This is now also part of the test suite for ContextL.
The changes are in the darcs repository for ContextL. Please let me know if this helps for your particular case, or if there are still missing problems.
Best,
Pascal
Post by Paul SextonThanks -- I have figured out how to stop the error from occurring, but
I now have a different problem: the initargs for classes other than
layered-class seem to get ignored and do not result in values being
stored in the class' slots.
Here is a simple example.
---------------------
(use-package :closer-mop)
(defclass serializable-class (standard-class)
((database :initarg :database)))
(defclass dummy-class (standard-class)
())
;; "layered serializable" metaclass
(defclass combined-class1 (contextl:layered-class serializable-class)
())
;; another metaclass for comparison. Only difference is it inherits
from dummy-class instead of layered-class.
(defclass combined-class2 (dummy-class serializable-class)
())
(defmethod validate-superclass ((class combined-class1) (superclass
standard-class))
t)
(defmethod validate-superclass ((class combined-class2) (superclass
standard-class))
t)
;; Trying to create a class that uses serializable-class as its metaclass causes
;; the error "invalid initialisation argument :DATABASE"
(defclass try1 ()
()
(:metaclass combined-class1)
(:database . "mydb"))
;; So we define the following methods to disable checking of initargs...
(defmethod initialize-instance :around ((c combined-class1) &rest args)
(if (next-method-p)
(apply #'call-next-method c :allow-other-keys t args)))
(defmethod reinitialize-instance :around ((c combined-class1) &rest args)
(if (next-method-p)
(apply #'call-next-method c :allow-other-keys t args)))
;; Now (defclass try1) works ... but 'database' slot of the resulting
class is unbound.
;; In contrast, if we define basically the same :around methods for
(defmethod initialize-instance :around ((c combined-class2) &rest args)
(if (next-method-p)
(apply #'call-next-method c :allow-other-keys t args)))
(defmethod reinitialize-instance :around ((c combined-class2) &rest args)
(if (next-method-p)
(apply #'call-next-method c :allow-other-keys t args)))
;; ...And create a class with class2 as its metaclass...
(defclass try2 ()
()
(:metaclass combined-class2)
(:database . "mydb"))
;; Then this works. The resulting class has its :database slot correctly
;; bound to the value "mydb"
The most obvious explanation is that contextl is somehow discarding
keyword args that it does not recognise, preventing them from being
seen by other initialisation methods. Is there an alternative
explanation I am missing?
Post by Pascal CostanzaHi Paul,
I'm hesitating to make such a change, because it would weaken checking initialization arguments for validity.
Under normal circumstances, it is possible to make more initialization arguments valid for subclasses. See Section 7.1.2 of the HyperSpec. This also applies to metaobject classes. If for some reason this doesn't work for you, I would like to know about it and see whether something needs to be fixed. Please send some example, and some information which CL implementation you are using to test this.
Pascal
P.S.: I'm curious to hear about what you use ContextL for, and what you are adding in your subclasses. If you prefer, please feel free to contact me by private email on this. Thanks.
Post by Paul SextonHi
At present the metaclasses in contextl choke during initialisation if
they are passed keys that they do not recognise. This makes it very
difficult to create metaclasses derived from those classes, if the
derived metaclasses need to be passed their own arguments a la
':in-layer'.
Including &allow-other-keys in the argument lists for
(re)initialize-instance in cx-classes-in-layer.lisp and
cx-layer-metaclasses.lisp seems to fix this, and doesn't seem to have
any downsides. Would you consider making this change?
Thanks
Paul
_______________________________________________
closer-devel mailing list
http://lists.common-lisp.net/cgi-bin/mailman/listinfo/closer-devel
--
Pascal Costanza
_______________________________________________
closer-devel mailing list
http://lists.common-lisp.net/cgi-bin/mailman/listinfo/closer-devel
--
Pascal Costanza