+(declaim (optimize (speed 2) (space 3) (safety 0)))
+
(in-package :lisp-on-lines)
-
+
(defparameter *default-type* :ucw)
-;;; some utilities for merging plists
+;;;; I think these are unused now
+(defmethod perform-set-attributes ((occurence-name t) definitions)
+ (dolist (def definitions)
+ (funcall #'set-attribute occurence-name (first def) (rest def))))
+
+(defmethod perform-set-attribute-properties ((occurence-name t) definitions)
+ (dolist (def definitions)
+ (funcall #'set-attribute-properties occurence-name (car def) (cdr def))))
+
+;;;; PLIST Utilities.
(defun plist-nunion (new-props plist)
+ "Destructive Merge of plists. PLIST is modified and returned.
+NEW-PROPS is merged into PLIST such that any properties
+in both PLIST and NEW-PROPS get the value in NEW-PROPS.
+The other properties in PLIST are left untouched."
(loop for cons on new-props by #'cddr
do (setf (getf plist (first cons)) (second cons))
finally (return plist)))
(plist-nunion new-props (copy-list plist)))
-;;; an alist of model-class-name . attributes
-;;; should really be a hash-table.
-(defvar *attribute-map* (list))
-
-(defun find-or-create-attributes (class-name)
- "return an exisiting class attribute map or create one.
-
-A map is a cons of class-name . attributes.
-attributes is an alist keyed on the attribute name."
- (or (assoc class-name *attribute-map*)
- (progn
- (setf *attribute-map* (acons class-name (list (list)) *attribute-map*))
- (assoc class-name *attribute-map*))))
-
-(defgeneric find-class-attributes (class))
-
-(defmethod find-class-attributes ((model t))
- (find-or-create-attributes (class-name (class-of model))))
-
-(defmethod find-class-attributes ((model symbol))
- (find-or-create-attributes model))
-
-(defmethod clear-class-attributes ((model t))
- (setf (cdr (find-class-attributes model)) nil))
-
-(defmethod add-attribute ((model t) name def)
- (let ((map (find-class-attributes model)))
- (setf (cdr map) (acons name def (cdr map)))))
-
-(defmethod find-attribute ((model t) name)
- (assoc name (cdr (find-class-attributes model))))
-
-(defmethod (setf find-attribute) ((def list) (model t) name)
- (let ((attr (find-attribute model name)))
- (if attr
- (prog2
- (setf (cdr attr) def)
- attr)
- (prog2
- (add-attribute model name def)
- (find-attribute model name)))))
-
-(defmethod set-attribute ((model t) name definition &key (inherit t))
- (setf (find-attribute model name)
- (if inherit
+;;;; * Occurences
+
+(defvar *occurence-map* (make-hash-table)
+ "Presentations are created by associating an 'occurence'
+with an instance of a class. This is usually keyed off class-name,
+although an arbitrary occurence can be used with an arbitrary class.")
+
+(define-layered-class
+ standard-occurence ()
+ ((attribute-map :accessor attribute-map :initform (make-hash-table)))
+ (:documentation
+ "an occurence holds the attributes like a class holds slot-definitions.
+Attributes are the metadata used to display, validate, and otherwise manipulate actual values stored in lisp objects."))
+
+(defun find-or-create-occurence (name)
+ "Returns the occurence associated with this name."
+ (let ((occurence (gethash name *occurence-map*)))
+ (if occurence
+ occurence
+ (let ((new-occurence (make-instance 'standard-occurence)))
+ (setf (gethash name *occurence-map*) new-occurence)
+ new-occurence))))
+
+(defun clear-occurence (occurence)
+ "removes all attributes from the occurence"
+ (setf (attribute-map occurence) (make-hash-table)))
+
+(defgeneric find-occurence (name)
+ (:method ((name symbol))
+ (find-or-create-occurence name))
+ (:method (instance)
+ (find-or-create-occurence (class-name (class-of instance)))))
+
+
+;;;; * Attributes
+
+(define-layered-class
+ standard-attribute ()
+ ((name :layered-accessor attribute.name :initarg :name :initform "attribute")
+ (type :layered-accessor attribute.type :initarg :type :initform t :type symbol)
+ (plist :layered-accessor attribute.plist :initarg :plist :initform nil))
+ (:documentation "Attributes are used to display a part of a thing, such as a slot of an object, a text label, the car of a list, etc."))
+
+
+(defmethod print-object ((self standard-attribute) stream)
+ (print-unreadable-object (self stream :type t)
+ (with-slots (name type) self
+ (format stream "~A ~A" name type))))
+
+(define-layered-class
+ presentation-attribute (standard-attribute)
+ ()
+ (:documentation "Presentation Attributes are used to display objects
+using the attributes defined in an occurence. Presentation Attributes are always named using keywords."))
+
+(defun clear-attributes (name)
+ "removes all attributes from an occurance"
+ (clear-occurence (find-occurence name)))
+
+(defmethod find-attribute-class-for-name (name)
+ "presentation attributes are named using keywords"
+ (if (keywordp name)
+ 'presentation-attribute
+ 'standard-attribute))
+
+(defmethod ensure-attribute ((occurence standard-occurence) name type plist)
+ "Creates an attribute in the given occurence"
+ (setf (gethash name (attribute-map occurence))
+ (make-instance (find-attribute-class-for-name name)
+ :name name :type type :plist plist)))
+
+(defmethod find-attribute ((occurence standard-occurence) name)
+ (gethash name (attribute-map occurence)))
+
+(defmethod find-all-attributes ((occurence standard-occurence))
+ (loop for att being the hash-values of (attribute-map occurence)
+ collect att))
+
+(defmethod ensure-attribute (occurence-name name type plist)
+ (ensure-attribute
+ (find-occurence occurence-name)
+ name
+ type
+ plist))
+
+;;;; The following functions make up the public interface to the
+;;;; MEWA Attribute Occurence system.
+
+(defmethod find-all-attributes (occurence-name)
+ (find-all-attributes (find-occurence occurence-name)))
+
+(defmethod find-attribute (occurence-name attribute-name)
+ "Returns the ATTRIBUTE named by ATTRIBUTE-NAME in OCCURANCE-name"
+ (find-attribute (find-occurence occurence-name) attribute-name))
+
+(defmethod (setf find-attribute) ((def list) occurence-name attribute-name)
+ (ensure-attribute occurence-name attribute-name (first def) (rest def)))
+
+(defmethod set-attribute (occurence-name attribute-name definition &key (inherit t))
+ (let ((att (find-attribute occurence-name attribute-name)))
+ (setf (find-attribute occurence-name attribute-name)
+ (if (and att inherit)
(cons (car definition)
(plist-union (cdr definition)
- (cddr (find-attribute model name))))
- definition)))
-
-(defmethod perform-set-attributes ((model t) definitions)
- (dolist (def definitions)
- (funcall #'set-attribute model (first def) (rest def))))
+ (attribute.plist att)))
+ definition))))
-(defmethod set-attribute-properties ((model t) attribute properties)
- (let ((a (find-attribute model attribute)))
+(defmethod set-attribute-properties ((occurence-name t) attribute properties)
+ (let ((a (find-attribute occurence-name attribute)))
(if a
- (setf (cddr a) (plist-nunion properties (cddr a)))
- (error "Attribute ~A does not exist" attribute) )))
-
-(defmethod perform-set-attribute-properties ((model t) definitions)
- (dolist (def definitions)
- (funcall #'set-attribute-properties model (car def) (cdr def))))
+ (setf (attribute.plist a) (plist-nunion properties (attribute.plist a)))
+ (error "Attribute ~A does not exist" attribute))))
-(defmethod perform-define-attributes ((model t) attributes)
+(defmethod perform-define-attributes ((occurence-name t) attributes)
(loop for attribute in attributes
do (destructuring-bind (name type &rest args)
attribute
(cond ((eq type t)
;;use the existing (default) type
- (set-attribute-properties model name args))
+ (set-attribute-properties occurence-name name args))
((not (null type))
;;set the type as well
- (set-attribute model name (cons type args)))))))
+ (set-attribute occurence-name name (cons type args)))))))
-(defmacro define-attributes (models &body attribute-definitions)
+(defmacro define-attributes (occurence-names &body attribute-definitions)
`(progn
- ,@(loop for model in models
- collect `(perform-define-attributes (quote ,model) (quote ,attribute-definitions)))
- (mapcar #'find-class-attributes (quote ,models ))))
+ ,@(loop for occurence-name in occurence-names
+ collect `(perform-define-attributes (quote ,occurence-name) (quote ,attribute-definitions)))))
+
+
+(defmethod setter (attribute)
+ (let ((setter (getf (attribute.plist attribute) :setter))
+ (slot-name (getf (attribute.plist attribute) :slot-name)))
+ (cond (setter
+ setter)
+ (slot-name
+ #'(lambda (value object)
+ (setf (slot-value object slot-name) value)))
+ (t
+ #'(lambda (value object)
+ (warn "Can't find anywere to set ~A in ~A using ~A" value object attribute))))))
+
+(defmethod getter (attribute)
+ (let ((getter (getf (attribute.plist attribute) :getter))
+ (slot-name (getf (attribute.plist attribute) :slot-name)))
+ (cond (getter
+ getter)
+ (slot-name
+ #'(lambda (object)
+ (when (slot-boundp object slot-name)
+ (slot-value object slot-name)))))))
+
+(defgeneric attribute-value (instance attribute)
+ (:method (instance (attribute standard-attribute))
+ (funcall (getter attribute) instance)))
-(defun find-presentation-attributes (model)
- (remove nil (mapcar #'(lambda (att)
- (when (keywordp (car att))
- (copy-list att) ))
- (cdr (find-class-attributes model)))))
+(defgeneric (setf attribute-value) (value instance attribute)
+ (:method (value instance (attribute standard-attribute))
+ (funcall (setter attribute) value instance)))
;;;; ** Default Attributes
(defvar *default-attributes-class-name* 'default)
+(defmacro with-default-attributes ((occurence-name) &body body)
+ `(let ((*default-attributes-class-name* ',occurence-name))
+ ,@body))
+
(define-attributes (default)
(boolean mewa-boolean)
(string mewa-string)
(:viewer mewa-viewer)
(:editor mewa-editor)
(:creator mewa-creator)
+ (:as-string mewa-one-line-presentation)
(:one-line mewa-one-line-presentation)
(:listing mewa-list-presentation :global-properties (:editablep nil) :editablep t)
(:search-model mewa-object-presentation))
-
-(defun find-default-presentation-attributes ()
- (if (eql *default-attributes-class-name* 'default)
- (find-presentation-attributes 'default)
- (remove-duplicates (append
- (find-presentation-attributes 'default)
- (find-presentation-attributes
- *default-attributes-class-name*)))))
-
+(defun find-presentation-attributes (occurence-name)
+ (loop for att in (find-all-attributes occurence-name)
+ when (typep att 'presentation-attribute)
+ collect att))
-(defmacro with-default-attributes ((model-name) &body body)
- `(let ((*default-attributes-class-name* ',model-name))
- ,@body))
+(defun attribute-to-definition (attribute)
+ (nconc (list (attribute.name attribute)
+ (attribute.type attribute))
+ (attribute.plist attribute)))
+(defun find-default-presentation-attribute-definitions ()
+ (if (eql *default-attributes-class-name* 'default)
+ (mapcar #'attribute-to-definition (find-presentation-attributes 'default))
+ (remove-duplicates (mapcar #'attribute-to-definition
+ (append
+ (find-presentation-attributes 'default)
+ (find-presentation-attributes
+ *default-attributes-class-name*))))))
(defun gen-ptype (type)
- (let ((type (if (consp type) (car type) type)))
- (or (second (find-attribute *default-attributes-class-name* type))
- (second (find-attribute 'default type))
- type)))
+ (let* ((type (if (consp type) (car type) type))
+ (possible-default (find-attribute *default-attributes-class-name* type))
+ (real-default (find-attribute 'default type)))
+ (cond
+ (possible-default
+ (attribute.type possible-default))
+ (real-default
+ (attribute.type real-default))
+ (t type))))
(defun gen-presentation-slots (instance)
(mapcar #'(lambda (x) (gen-pslot (cadr x)
:label ,label
:slot-name ,slot-name)))
-(defun gen-presentation-args (instance args)
- (declare (ignore instance))
- (if args args nil))
-
-
(defmethod find-default-attributes ((model t))
"return the default attributes for a given model using the meta-model's meta-data"
(append (mapcar #'(lambda (s)
,model
:type :one-line)))))
(meta-model:list-has-many model))
- (find-default-presentation-attributes)))
+ (find-default-presentation-attribute-definitions)))
(defmethod set-default-attributes ((model t))
"Set the default attributes for MODEL"
- (clear-class-attributes model)
+ (clear-attributes model)
(mapcar #'(lambda (x)
(setf (find-attribute model (car x)) (cdr x)))
(find-default-attributes model)))
-
-
-(defgeneric attributes-getter (model))
;;;presentations
-
(defcomponent mewa ()
((instance :accessor instance :initarg :instance)
(attributes
(mapcar #'class-name
(it.bese.arnesi.mopp:compute-class-precedence-list (class-of (instance self)))))
-(defmethod find-all-attributes ((self mewa))
- (reduce #'append
- (mapcar #'(lambda (x)
- (cdr (find-class-attributes x)))
- (classes self))))
-
(defun make-attribute (&rest props &key type &allow-other-keys)
(remf props :type)
(cons (gensym) (cons type props)))
+(defun make-presentation-for-attribute-list-item
+ (occurence att-name plist parent-presentation &optional type)
+ (declare (type list plist) (type symbol att-name))
+ "This is a ucw specific function that will eventually be factored elsewhere."
+ (let* ((attribute (find-attribute occurence att-name))
+ (type (when attribute (or type (attribute.type attribute))))
+ (class-name
+ (or (gethash (if (consp type)
+ (car type)
+ type)
+ *presentation-slot-type-mapping*)
+ (error "Can't find slot type for ~A in ~A from ~A" att-name occurence parent-presentation))))
+
+ (cons (attribute.name attribute) (apply #'make-instance
+ class-name
+ (append (plist-nunion
+ plist
+ (plist-union
+ (global-properties parent-presentation)
+ (attribute.plist attribute)))
+ (list :size 30 :parent parent-presentation))))))
+
+(defmethod find-applicable-attributes-using-attribute-list (occurence attribute-list)
+ "Returns a list of functions that, when called with an object presentation,
+returns the ucw slot presentation that will be used to present this attribute
+in that object presentation."
+ (loop for att in attribute-list
+ with funs = (list)
+ do (let ((att att)) (cond
+ ;;simple casee
+ ((symbolp att)
+ (push #'(lambda (p)
+ (make-presentation-for-attribute-list-item occurence att nil p))
+ funs))
+ ;;if the car is a keyword then this is an inline def
+ ;; drewc nov 12 2005:
+ ;; i never used this, and never told anybody about it.
+ ;; removing it.
+ #+ (or) ((and (listp x) (keywordp (car x)))
+ (let ((att (apply #'make-attribute x)))
+ (setf (cddr att)
+ (plist-union (cddr att) (global-properties self)))
+ att))
+
+ ;; if the plist has a :type
+ ((and (listp att) (getf (cdr att) :type))
+ (let ((type (getf (cdr att) :type)))
+ (push #'(lambda (p)
+ (make-presentation-for-attribute-list-item
+ occurence (first att)
+ (cdr att)
+ p
+ type))
+ funs)))
+ ;;finally if we are just overiding the props
+ ((and (listp att) (symbolp (car att)))
+ (push #'(lambda (p)
+ (make-presentation-for-attribute-list-item occurence (first att) (rest att) p))
+ funs))))
+ finally (return (nreverse funs))))
+
+
+(defun find-attribute-names (mewa)
+ (mapcar #'(lambda (x)
+ (if (listp x)
+ (first x)
+ x))
+ (attributes mewa)))
(defmethod find-applicable-attributes ((self mewa))
- (let ((all-attributes (find-all-attributes self)))
- (flet ((gen-att (x) (let ((att (assoc x all-attributes)))
- (when att
- (setf (cddr att) (plist-union (global-properties self) (cddr att)))
- att))))
- (if (attributes self)
- (remove 'nil
- (mapcar #'(lambda (x)
- (cond
- ;;simple casee
- ((symbolp x)
- (gen-att x))
- ;;if the car is a keyword then this is an inline def
- ((and (listp x) (keywordp (car x)))
- (let ((att (apply #'make-attribute x)))
- (setf (cddr att)
- (plist-union (cddr att) (global-properties self)))
- att))
- ;; if the plist has a :type
- ((and (listp x) (getf (cdr x) :type))
- (let ((new (cdr (apply #'make-attribute (cdr x))))
- (def (gen-att (car x))))
- (setf (cdr new) (plist-union (cdr new) (cddr def)))
- (cons (car def) new)))
- ;;finally if we are just overiding the props
- ((and (listp x) (symbolp (car x)))
- (let ((new (cdr (apply #'make-attribute (cdr x))))
- (def (gen-att (car x))))
- (setf (cdr new) (plist-union (cdr new) (cddr def)))
- (cons (car def) (cons (second def) (cdr new)))))
-
- )
- )
-
- (attributes self)))
- all-attributes))))
-
-(defmethod find-slot-presentation-for-attribute ((self mewa) attribute)
- (let ((class-name
- (or (gethash (if (consp (second attribute))
- (car (second attribute))
- (second attribute))
- *presentation-slot-type-mapping*)
- (error "Can't find slot type for ~A in ~A" attribute self ))))
-
- (cons (first attribute) (apply #'make-instance
- class-name
- (append (cddr attribute) (list :parent self :size 30))))))
+ (if (attributes self)
+ (find-applicable-attributes-using-attribute-list (instance self) (attributes self))
+ (find-applicable-attributes-using-attribute-list (instance (get-attributes self)))))
+
(defmethod find-slot-presentations ((self mewa))
- (mapcar #'(lambda (a) (find-slot-presentation-for-attribute self a))
+ (mapcar #'(lambda (a) (funcall a self))
(find-applicable-attributes self)))
(defmethod find-attribute-slot ((self mewa) (attribute symbol))
(defmethod make-presentation ((object t) &key (type :viewer) (initargs nil))
-
- (let* ((p (make-instance 'mewa-object-presentation))
-
- (a (progn (setf (slot-value p 'instance) object)
- (initialize-slots p)
- (assoc type (find-all-attributes p))))
- (i (apply #'make-instance (or (second a)
- ;; if we didnt find the type,
- ;; use the symbol as a class.
- (if (eql (symbol-package type)
- (find-package 'keyword))
- (symbol-name type)
- type))
- (plist-union initargs (cddr a)))))
-
+ ;(warn "Initargs : ~A" initargs)
+ (let* ((a (find-attribute object type))
+ (i (apply #'make-instance
+ (if a
+ (attribute.type a)
+ type)
+ (plist-union initargs (when a
+ (attribute.plist a))))))
(setf (slot-value i 'instance) object)
(initialize-slots i)