(eval-when (:compile-toplevel :load-toplevel :execute)
(when (>= (length (generic-function-lambda-list
- (ensure-generic-function
- 'compute-effective-slot-definition)))
- 3)
+ (ensure-generic-function
+ 'compute-effective-slot-definition)))
+ 3)
(pushnew :kmr-normal-cesd cl:*features*))
(when (>= (length (generic-function-lambda-list
- (ensure-generic-function
- 'direct-slot-definition-class)))
- 3)
+ (ensure-generic-function
+ 'direct-slot-definition-class)))
+ 3)
(pushnew :kmr-normal-dsdc cl:*features*))
(when (>= (length (generic-function-lambda-list
- (ensure-generic-function
- 'effective-slot-definition-class)))
- 3)
+ (ensure-generic-function
+ 'effective-slot-definition-class)))
+ 3)
(pushnew :kmr-normal-esdc cl:*features*)))
;;; Lispworks 4.2 and before requires special processing of extra slot and class options
(defvar +extra-slot-options+ '(:column :db-kind :db-type :db-reader :void-value :db-constraints
- :db-writer :db-info))
+ :db-writer :db-info))
(defvar +extra-class-options+ '(:base-table))
#+lispworks
(eval `(process-class-option standard-db-class ,class-option)))
(defmethod validate-superclass ((class standard-db-class)
- (superclass standard-class))
+ (superclass standard-class))
t)
(defun table-name-from-arg (arg)
(cond ((symbolp arg)
- arg)
- ((typep arg 'sql-ident)
- (slot-value arg 'name))
- ((stringp arg)
- (intern arg))))
+ (intern (sql-escape arg)))
+ ((typep arg 'sql-ident)
+ (if (symbolp (slot-value arg 'name))
+ (intern (sql-escape (slot-value arg 'name)))
+ (sql-escape (slot-value arg 'name))))
+ ((stringp arg)
+ (sql-escape arg))))
(defun column-name-from-arg (arg)
(cond ((symbolp arg)
- arg)
- ((typep arg 'sql-ident)
- (slot-value arg 'name))
- ((stringp arg)
- (intern (symbol-name-default-case arg)))))
+ arg)
+ ((typep arg 'sql-ident)
+ (slot-value arg 'name))
+ ((stringp arg)
+ (intern (symbol-name-default-case arg)))))
(defun remove-keyword-arg (arglist akey)
(let ((mylist arglist)
- (newlist ()))
+ (newlist ()))
(labels ((pop-arg (alist)
- (let ((arg (pop alist))
- (val (pop alist)))
- (unless (equal arg akey)
- (setf newlist (append (list arg val) newlist)))
- (when alist (pop-arg alist)))))
+ (let ((arg (pop alist))
+ (val (pop alist)))
+ (unless (equal arg akey)
+ (setf newlist (append (list arg val) newlist)))
+ (when alist (pop-arg alist)))))
(pop-arg mylist))
newlist))
+(defun set-view-table-slot (class base-table)
+ (setf (view-table class)
+ (table-name-from-arg (or (and base-table
+ (if (listp base-table)
+ (car base-table)
+ base-table))
+ (class-name class)))))
+
(defmethod initialize-instance :around ((class standard-db-class)
&rest all-keys
- &key direct-superclasses base-table
+ &key direct-superclasses base-table
qualifier
- &allow-other-keys)
+ &allow-other-keys)
(let ((root-class (find-class 'standard-db-object nil))
- (vmc 'standard-db-class))
+ (vmc 'standard-db-class))
(setf (view-class-qualifier class)
(car qualifier))
(if root-class
- (if (some #'(lambda (super) (typep super vmc))
+ (if (some #'(lambda (super) (typep super vmc))
direct-superclasses)
- (call-next-method)
+ (call-next-method)
(apply #'call-next-method
class
- :direct-superclasses (append (list root-class)
+ :direct-superclasses (append (list root-class)
direct-superclasses)
- (remove-keyword-arg all-keys :direct-superclasses)))
- (call-next-method))
- (setf (view-table class)
- (table-name-from-arg (sql-escape (or (and base-table
- (if (listp base-table)
- (car base-table)
- base-table))
- (class-name class)))))
+ (remove-keyword-arg all-keys :direct-superclasses)))
+ (call-next-method))
+ (set-view-table-slot class base-table)
(register-metaclass class (nth (1+ (position :direct-slots all-keys))
all-keys))))
direct-superclasses qualifier
&allow-other-keys)
(let ((root-class (find-class 'standard-db-object nil))
- (vmc 'standard-db-class))
- (setf (view-table class)
- (table-name-from-arg (sql-escape (or (and base-table
- (if (listp base-table)
- (car base-table)
- base-table))
- (class-name class)))))
+ (vmc 'standard-db-class))
+ (set-view-table-slot class base-table)
(setf (view-class-qualifier class)
(car qualifier))
(if (and root-class (not (equal class root-class)))
- (if (some #'(lambda (super) (typep super vmc))
+ (if (some #'(lambda (super) (typep super vmc))
direct-superclasses)
- (call-next-method)
+ (call-next-method)
(apply #'call-next-method
class
:direct-superclasses (append (list root-class)
direct-superclasses)
- (remove-keyword-arg all-keys :direct-superclasses)))
+ (remove-keyword-arg all-keys :direct-superclasses)))
(call-next-method)))
(register-metaclass class (nth (1+ (position :direct-slots all-keys))
all-keys)))
(setf (object-definition class) all-slots))
#-(or sbcl allegro)
(setf (key-slots class) (remove-if-not (lambda (slot)
- (eql (slot-value slot 'db-kind)
- :key))
- (ordered-class-slots class)))))
+ (eql (slot-value slot 'db-kind)
+ :key))
+ (ordered-class-slots class)))))
#+(or sbcl allegro)
(defmethod finalize-inheritance :after ((class standard-db-class))
(setf (key-slots class) (remove-if-not (lambda (slot)
- (eql (slot-value slot 'db-kind)
- :key))
- (ordered-class-slots class))))
+ (eql (slot-value slot 'db-kind)
+ :key))
+ (ordered-class-slots class))))
;; return the deepest view-class ancestor for a given view class
(defparameter *db-info-lambda-list*
'(&key join-class
- home-key
- foreign-key
+ home-key
+ foreign-key
(key-join nil)
(target-slot nil)
- (retrieval :immmediate)
- (set nil)))
+ (retrieval :immmediate)
+ (set nil)))
(defun parse-db-info (db-info-list)
(destructuring-bind
- (&key join-class home-key key-join foreign-key (delete-rule nil)
- (target-slot nil) (retrieval :deferred) (set t))
+ (&key join-class home-key key-join foreign-key (delete-rule nil)
+ (target-slot nil) (retrieval :deferred) (set t))
db-info-list
(let ((ih (make-hash-table :size 6)))
(if join-class
- (setf (gethash :join-class ih) join-class)
- (error "Must specify :join-class in :db-info"))
+ (setf (gethash :join-class ih) join-class)
+ (error "Must specify :join-class in :db-info"))
(if home-key
- (setf (gethash :home-key ih) home-key)
- (error "Must specify :home-key in :db-info"))
+ (setf (gethash :home-key ih) home-key)
+ (error "Must specify :home-key in :db-info"))
(when delete-rule
- (setf (gethash :delete-rule ih) delete-rule))
+ (setf (gethash :delete-rule ih) delete-rule))
(if foreign-key
- (setf (gethash :foreign-key ih) foreign-key)
- (error "Must specify :foreign-key in :db-info"))
+ (setf (gethash :foreign-key ih) foreign-key)
+ (error "Must specify :foreign-key in :db-info"))
(when key-join
(setf (gethash :key-join ih) t))
(when target-slot
- (setf (gethash :target-slot ih) target-slot))
+ (setf (gethash :target-slot ih) target-slot))
(when set
- (setf (gethash :set ih) set))
+ (setf (gethash :set ih) set))
(when retrieval
- (progn
- (setf (gethash :retrieval ih) retrieval)
- (if (eql retrieval :immediate)
- (setf (gethash :set ih) nil))))
+ (progn
+ (setf (gethash :retrieval ih) retrieval)
+ (if (eql retrieval :immediate)
+ (setf (gethash :set ih) nil))))
ih)))
(defclass view-class-direct-slot-definition (view-class-slot-definition-mixin
- standard-direct-slot-definition)
+ standard-direct-slot-definition)
())
(defclass view-class-effective-slot-definition (view-class-slot-definition-mixin
- standard-effective-slot-definition)
+ standard-effective-slot-definition)
())
(defmethod direct-slot-definition-class ((class standard-db-class)
(find-class 'view-class-direct-slot-definition))
(defmethod effective-slot-definition-class ((class standard-db-class)
- #+kmr-normal-esdc &rest
- initargs)
+ #+kmr-normal-esdc &rest
+ initargs)
(declare (ignore initargs))
(find-class 'view-class-effective-slot-definition))
"Need to sort order of class slots so they are the same across
implementations."
(let ((slots (call-next-method))
- desired-sequence
- output-slots)
+ desired-sequence
+ output-slots)
(dolist (c (compute-class-precedence-list class))
(dolist (s (class-direct-slots c))
- (let ((name (slot-definition-name s)))
- (unless (find name desired-sequence)
- (push name desired-sequence)))))
+ (let ((name (slot-definition-name s)))
+ (unless (find name desired-sequence)
+ (push name desired-sequence)))))
(dolist (desired desired-sequence)
(let ((slot (find desired slots :key #'slot-definition-name)))
- (assert slot)
- (push slot output-slots)))
+ (assert slot)
+ (push slot output-slots)))
output-slots))
(defun compute-lisp-type-from-specified-type (specified-type db-constraints)
(setq initargs (cddr initargs))))
(defmethod compute-effective-slot-definition ((class standard-db-class)
- #+kmr-normal-cesd slot-name
- direct-slots)
+ #+kmr-normal-cesd slot-name
+ direct-slots)
#+kmr-normal-cesd (declare (ignore slot-name))
;; KMR: store the user-specified type and then compute
(let ((dsd (car direct-slots)))
(let ((esd (call-next-method)))
(typecase dsd
- (view-class-slot-definition-mixin
- ;; Use the specified :column argument if it is supplied, otherwise
- ;; the column slot is filled in with the slot-name, but transformed
- ;; to be sql safe, - to _ and such.
- (setf (slot-value esd 'column)
- (column-name-from-arg
- (if (slot-boundp dsd 'column)
- (delistify-dsd (view-class-slot-column dsd))
- (column-name-from-arg
- (sql-escape (slot-definition-name dsd))))))
-
- (setf (slot-value esd 'db-type)
- (when (slot-boundp dsd 'db-type)
- (delistify-dsd
- (view-class-slot-db-type dsd))))
-
- (setf (slot-value esd 'void-value)
- (delistify-dsd
- (view-class-slot-void-value dsd)))
-
- ;; :db-kind slot value defaults to :base (store slot value in
- ;; database)
-
- (setf (slot-value esd 'db-kind)
- (if (slot-boundp dsd 'db-kind)
- (delistify-dsd (view-class-slot-db-kind dsd))
- :base))
-
- (setf (slot-value esd 'db-reader)
- (when (slot-boundp dsd 'db-reader)
- (delistify-dsd (view-class-slot-db-reader dsd))))
- (setf (slot-value esd 'db-writer)
- (when (slot-boundp dsd 'db-writer)
- (delistify-dsd (view-class-slot-db-writer dsd))))
- (setf (slot-value esd 'db-constraints)
- (when (slot-boundp dsd 'db-constraints)
- (delistify-dsd (view-class-slot-db-constraints dsd))))
-
- ;; I wonder if this slot option and the previous could be merged,
- ;; so that :base and :key remain keyword options, but :db-kind
- ;; :join becomes :db-kind (:join <db info .... >)?
-
- (setf (slot-value esd 'db-info)
- (when (slot-boundp dsd 'db-info)
- (let ((dsd-info (view-class-slot-db-info dsd)))
- (cond
- ((atom dsd-info)
- dsd-info)
- ((and (listp dsd-info) (> (length dsd-info) 1)
- (atom (car dsd-info)))
- (parse-db-info dsd-info))
- ((and (listp dsd-info) (= 1 (length dsd-info))
- (listp (car dsd-info)))
- (parse-db-info (car dsd-info)))))))
-
- (setf (specified-type esd)
- (delistify-dsd (specified-type dsd)))
-
- )
- ;; all other slots
- (t
+ (view-class-slot-definition-mixin
+ ;; Use the specified :column argument if it is supplied, otherwise
+ ;; the column slot is filled in with the slot-name, but transformed
+ ;; to be sql safe, - to _ and such.
+ (setf (slot-value esd 'column)
+ (column-name-from-arg
+ (if (slot-boundp dsd 'column)
+ (delistify-dsd (view-class-slot-column dsd))
+ (column-name-from-arg
+ (sql-escape (slot-definition-name dsd))))))
+
+ (setf (slot-value esd 'db-type)
+ (when (slot-boundp dsd 'db-type)
+ (delistify-dsd
+ (view-class-slot-db-type dsd))))
+
+ (setf (slot-value esd 'void-value)
+ (delistify-dsd
+ (view-class-slot-void-value dsd)))
+
+ ;; :db-kind slot value defaults to :base (store slot value in
+ ;; database)
+
+ (setf (slot-value esd 'db-kind)
+ (if (slot-boundp dsd 'db-kind)
+ (delistify-dsd (view-class-slot-db-kind dsd))
+ :base))
+
+ (setf (slot-value esd 'db-reader)
+ (when (slot-boundp dsd 'db-reader)
+ (delistify-dsd (view-class-slot-db-reader dsd))))
+ (setf (slot-value esd 'db-writer)
+ (when (slot-boundp dsd 'db-writer)
+ (delistify-dsd (view-class-slot-db-writer dsd))))
+ (setf (slot-value esd 'db-constraints)
+ (when (slot-boundp dsd 'db-constraints)
+ (delistify-dsd (view-class-slot-db-constraints dsd))))
+
+ ;; I wonder if this slot option and the previous could be merged,
+ ;; so that :base and :key remain keyword options, but :db-kind
+ ;; :join becomes :db-kind (:join <db info .... >)?
+
+ (setf (slot-value esd 'db-info)
+ (when (slot-boundp dsd 'db-info)
+ (let ((dsd-info (view-class-slot-db-info dsd)))
+ (cond
+ ((atom dsd-info)
+ dsd-info)
+ ((and (listp dsd-info) (> (length dsd-info) 1)
+ (atom (car dsd-info)))
+ (parse-db-info dsd-info))
+ ((and (listp dsd-info) (= 1 (length dsd-info))
+ (listp (car dsd-info)))
+ (parse-db-info (car dsd-info)))))))
+
+ (setf (specified-type esd)
+ (delistify-dsd (specified-type dsd)))
+
+ )
+ ;; all other slots
+ (t
(unless (typep esd 'view-class-effective-slot-definition)
(warn "Non view-class-direct-slot object with non-view-class-effective-slot-definition in compute-effective-slot-definition")
#+openmcl (setf (slot-value esd 'ccl::type-predicate)
type-predicate)))
- (setf (slot-value esd 'column)
- (column-name-from-arg
- (sql-escape (slot-definition-name dsd))))
+ (setf (slot-value esd 'column)
+ (column-name-from-arg
+ (sql-escape (slot-definition-name dsd))))
- (setf (slot-value esd 'db-info) nil)
- (setf (slot-value esd 'db-kind) :virtual)
- (setf (specified-type esd) (slot-definition-type dsd)))
- )
+ (setf (slot-value esd 'db-info) nil)
+ (setf (slot-value esd 'db-kind) :virtual)
+ (setf (specified-type esd) (slot-definition-type dsd)))
+ )
esd)))
(defun slotdefs-for-slots-with-class (slots class)
(let ((result nil))
(dolist (s slots)
(let ((c (slotdef-for-slot-with-class s class)))
- (if c (setf result (cons c result)))))
+ (if c (setf result (cons c result)))))
result))
(defun slotdef-for-slot-with-class (slot class)
(find-if #'(lambda (d) (eql slot (slot-definition-name d)))
- (class-slots class)))
+ (class-slots class)))
#+ignore
(eval-when (:compile-toplevel :load-toplevel :execute)