3 (defvar *lisp-name-package* nil
4 "For internal use (used by class definitions generator). Specifies the package in which symbols are interned.")
5 (defvar *strip-prefix* "")
6 (defvar *lisp-name-exceptions* nil)
7 (defvar *generation-exclusions* nil)
8 (defvar *known-interfaces* (make-hash-table :test 'equal))
9 (defvar *additional-properties* nil)
11 (defun name->supplied-p (name)
12 (make-symbol (format nil "~A-SUPPLIED-P" (symbol-name name))))
14 (defstruct property name accessor-name readable writable)
16 (defstruct (gobject-property (:include property)) gname type)
18 (defstruct (cffi-property (:include property)) type reader writer)
20 (defmethod make-load-form ((object gobject-property) &optional env)
21 (declare (ignore env))
22 `(make-gobject-property :name ',(property-name object)
23 :accessor-name ',(property-accessor-name object)
24 :readable ',(property-readable object)
25 :writable ',(property-writable object)
26 :gname ',(gobject-property-gname object)
27 :type ',(gobject-property-type object)))
29 (defmethod make-load-form ((object cffi-property) &optional env)
30 (declare (ignore env))
31 `(make-cffi-property :name ',(property-name object)
32 :accessor-name ',(property-accessor-name object)
33 :readable ',(property-readable object)
34 :writable ',(property-writable object)
35 :type ',(cffi-property-type object)
36 :reader ',(cffi-property-reader object)
37 :writer ',(cffi-property-writer object)))
39 (defun parse-gobject-property (spec)
40 (destructuring-bind (name accessor-name gname type readable writable) spec
41 (make-gobject-property :name name
42 :accessor-name accessor-name
48 (defun parse-cffi-property (spec)
49 (destructuring-bind (name accessor-name type reader writer) spec
50 (make-cffi-property :name name
51 :accessor-name accessor-name
55 :readable (not (null reader))
56 :writable (not (null writer)))))
58 (defun parse-property (spec)
60 ((eq (first spec) :cffi) (parse-cffi-property (rest spec)))
61 (t (parse-gobject-property spec))))
63 (defun property->method-arg (property)
64 (when (or (gobject-property-p property)
65 (and (cffi-property-p property)
66 (property-writable property)))
67 (let ((name (property-name property)))
68 `(,name nil ,(name->supplied-p name)))))
70 (defun gobject-property->arg-push (property)
71 (assert (typep property 'gobject-property))
72 (with-slots (name type gname) property
73 `(when ,(name->supplied-p name)
74 (push ,gname arg-names)
75 (push ,type arg-types)
76 (push ,name arg-values))))
78 (defun cffi-property->initarg (property)
79 (assert (typep property 'cffi-property))
80 (when (property-writable property)
81 (with-slots (accessor-name name type writer) property
82 `(when ,(name->supplied-p name)
83 (setf (,accessor-name object) ,name)))))
85 (defun accessor-name (class-name property-name)
86 (intern (format nil "~A-~A" (symbol-name class-name)
87 (lispify-name property-name))
90 (defgeneric property->reader (class property))
91 (defgeneric property->writer (class property))
93 (defmethod property->reader (class (property gobject-property))
94 (with-slots (accessor-name type gname) property
95 `(defmethod ,accessor-name ((object ,class))
96 (g-object-call-get-property object ,gname ,type))))
98 (defmethod property->reader (class (property cffi-property))
99 (with-slots (accessor-name type reader) property
101 (string `(defmethod ,accessor-name ((object ,class))
102 (foreign-funcall ,reader g-object object ,type)))
103 (symbol `(defmethod ,accessor-name ((object ,class))
104 (funcall ',reader object))))))
106 (defmethod property->writer (class (property gobject-property))
107 (with-slots (accessor-name type gname) property
108 `(defmethod (setf ,accessor-name) (new-value (object ,class))
109 (g-object-call-set-property object ,gname new-value ,type)
112 (defmethod property->writer (class (property cffi-property))
113 (with-slots (accessor-name type writer) property
115 (string `(defmethod (setf ,accessor-name) (new-value (object ,class))
116 (foreign-funcall ,writer g-object object ,type new-value :void)
118 (symbol `(defmethod (setf ,accessor-name) (new-value (object ,class))
119 (funcall ',writer object new-value)
122 (defun property->accessors (class property export)
123 (append (when (property-readable property)
124 (list (property->reader class property)))
125 (when (property-writable property)
126 (list (property->writer class property)))
128 (list `(export ',(property-accessor-name property)
129 (find-package ,(package-name (symbol-package (property-accessor-name property)))))))))
131 (defun interface->lisp-class-name (interface)
134 (string (or (gethash interface *known-interfaces*)
135 (error "Unknown interface ~A" interface)))))
137 (defun type-initializer-call (type-initializer)
138 (etypecase type-initializer
139 (string `(if (foreign-symbol-pointer ,type-initializer)
140 (foreign-funcall ,type-initializer g-type)
141 (warn "Type initializer '~A' is not available" ,type-initializer)))
142 (symbol `(funcall ',type-initializer))))
144 (defun meta-property->slot (class-name property)
145 `(,(property-name property)
146 :allocation ,(if (gobject-property-p property) :gobject-property :gobject-fn)
147 :g-property-type ,(if (gobject-property-p property) (gobject-property-type property) (cffi-property-type property))
148 :accessor ,(intern (format nil "~A-~A" (symbol-name class-name) (property-name property)) (symbol-package class-name))
149 :initarg ,(intern (string-upcase (property-name property)) (find-package :keyword))
150 ,@(if (gobject-property-p property)
151 `(:g-property-name ,(gobject-property-gname property))
152 `(:g-getter ,(cffi-property-reader property)
153 :g-setter ,(cffi-property-writer property)))))
155 (defmacro define-g-object-class (g-type-name name
156 (&key (superclass 'g-object)
161 (setf properties (mapcar #'parse-property properties))
163 (defclass ,name (,superclass ,@(mapcar #'interface->lisp-class-name interfaces))
164 (,@(mapcar (lambda (property) (meta-property->slot name property)) properties))
165 (:metaclass gobject-class)
166 (:g-type-name . ,g-type-name)
167 ,@(when type-initializer
168 (list `(:g-type-initializer . ,type-initializer))))
170 (cons `(export ',name (find-package ,(package-name (symbol-package name))))
171 (mapcar (lambda (property)
172 `(export ',(intern (format nil "~A-~A" (symbol-name name) (property-name property)) (symbol-package name))
173 (find-package ,(package-name (symbol-package name)))))
176 (defmacro define-g-interface (g-type-name name (&key (export t) type-initializer) &body properties)
177 (setf properties (mapcar #'parse-property properties))
180 (,@(mapcar (lambda (property) (meta-property->slot name property)) properties))
181 (:metaclass gobject-class)
182 (:g-type-name . ,g-type-name)
184 ,@(when type-initializer
185 (list `(:g-type-initializer . ,type-initializer))))
187 (cons `(export ',name (find-package ,(package-name (symbol-package name))))
188 (mapcar (lambda (property)
189 `(export ',(intern (format nil "~A-~A" (symbol-name name) (property-name property)) (symbol-package name))
190 (find-package ,(package-name (symbol-package name)))))
192 (eval-when (:compile-toplevel :load-toplevel :execute)
193 (setf (gethash ,g-type-name *known-interfaces*) ',name))))
195 (defun starts-with (name prefix)
196 (and prefix (> (length name) (length prefix)) (string= (subseq name 0 (length prefix)) prefix)))
198 (defun strip-start (name prefix)
199 (if (starts-with name prefix)
200 (subseq name (length prefix))
203 (defun lispify-name (name)
204 (with-output-to-string (stream)
205 (loop for c across (strip-start name *strip-prefix*)
206 for firstp = t then nil
207 do (when (and (not firstp) (upper-case-p c)) (write-char #\- stream))
208 do (write-char (char-upcase c) stream))))
210 (defun g-name->name (name)
211 (or (second (assoc name *lisp-name-exceptions* :test 'equal))
212 (intern (string-upcase (lispify-name name)) *lisp-name-package*)))
214 (defun property->property-definition (class-name property)
215 (let ((name (g-name->name (g-class-property-definition-name property)))
216 (accessor-name (accessor-name class-name (g-class-property-definition-name property)))
217 (g-name (g-class-property-definition-name property))
218 (type (g-type-name (g-class-property-definition-type property)))
219 (readable (g-class-property-definition-readable property))
220 (writable (and (g-class-property-definition-writable property)
221 (not (g-class-property-definition-constructor-only property)))))
222 `(,name ,accessor-name ,g-name ,type ,readable ,writable)))
224 (defun probable-type-init-name (type-name)
225 (with-output-to-string (stream)
226 (iter (for c in-string type-name)
227 (for prev-c previous c)
228 (when (and (not (first-iteration-p))
230 (not (upper-case-p prev-c))
231 (not (char= prev-c #\_)))
232 (write-char #\_ stream))
233 (write-char (char-downcase c) stream))
234 (write-string "_get_type" stream)))
236 (defun get-g-class-definition (type &optional lisp-name-package)
237 (when (and (stringp type) (zerop (g-type-numeric type)))
238 (let ((type-init-name (probable-type-init-name type)))
239 (when (foreign-symbol-pointer type-init-name)
240 (foreign-funcall-pointer (foreign-symbol-pointer type-init-name) () :int))))
241 (let* ((*lisp-name-package* (or lisp-name-package *lisp-name-package* *package*))
242 (g-type (ensure-g-type type))
243 (g-name (g-type-name g-type))
244 (name (g-name->name g-name))
245 (superclass-g-type (g-type-parent g-type))
246 (superclass-name (g-name->name (g-type-name superclass-g-type)))
247 (interfaces (g-type-interfaces g-type))
248 (properties (class-properties g-type))
249 (type-init-name (probable-type-init-name g-name))
251 (remove-if-not (lambda (property)
252 (g-type= g-type (g-class-property-definition-owner-type property)))
254 `(define-g-object-class ,g-name ,name
255 (:superclass ,superclass-name
257 :interfaces (,@(sort (mapcar #'g-type-name interfaces) 'string<))
258 ,@(when (and (foreign-symbol-pointer type-init-name)
259 (not (null-pointer-p (foreign-symbol-pointer type-init-name))))
260 `(:type-initializer ,type-init-name)))
261 (,@(mapcar (lambda (property)
262 (property->property-definition name property))
264 ,@(cdr (find g-name *additional-properties* :key 'car :test 'string=))))))
266 (defun get-g-interface-definition (interface &optional lisp-name-package)
267 (let* ((*lisp-name-package* (or lisp-name-package *lisp-name-package* *package*))
268 (type (ensure-g-type interface))
269 (g-name (g-type-name type))
270 (name (g-name->name g-name))
271 (properties (interface-properties type))
272 (probable-type-initializer (probable-type-init-name g-name)))
273 `(define-g-interface ,g-name ,name
275 ,@(when (foreign-symbol-pointer probable-type-initializer)
276 `(:type-initializer ,probable-type-initializer)))
277 ,@(append (mapcar (lambda (property)
278 (property->property-definition name property))
280 (cdr (find g-name *additional-properties* :key 'car :test 'string=))))))
282 (defun get-g-class-definitions-for-root-1 (type)
283 (unless (member type *generation-exclusions* :test 'g-type=)
284 (cons (get-g-class-definition type)
286 (mapcar #'get-g-class-definitions-for-root-1
287 (g-type-children type))))))
289 (defun get-g-class-definitions-for-root (type)
290 (setf type (ensure-g-type type))
291 (get-g-class-definitions-for-root-1 type))
293 (defvar *referenced-types*)
295 (defun class-or-interface-properties (type)
296 (setf type (ensure-g-type type))
298 ((g-type= (g-type-fundamental type) +g-type-object+) (class-properties type))
299 ((g-type= (g-type-fundamental type) +g-type-interface+) (interface-properties type))))
301 (defun get-shallow-referenced-types (type)
302 (setf type (ensure-g-type type))
303 (remove-duplicates (sort (loop
304 for property in (class-or-interface-properties type)
305 when (g-type= type (g-class-property-definition-owner-type property))
306 collect (g-class-property-definition-type property))
308 :key #'g-type-numeric)
311 (defun get-referenced-types-1 (type)
312 (setf type (ensure-g-type type))
314 for property-type in (get-shallow-referenced-types type)
315 do (pushnew property-type *referenced-types* :test 'g-type=))
317 for type in (g-type-children type)
318 do (get-referenced-types-1 type)))
320 (defun get-referenced-types (root-type)
321 (let (*referenced-types*)
322 (get-referenced-types-1 (ensure-g-type root-type))
325 (defun filter-types-by-prefix (types prefix)
328 (starts-with (g-type-name (ensure-g-type type)) prefix))
331 (defun filter-types-by-fund-type (types fund-type)
332 (setf fund-type (ensure-g-type fund-type))
335 (equal (g-type-fundamental (ensure-g-type type)) fund-type))
338 (defmacro define-g-enum (g-name name (&key (export t) type-initializer) &body values)
339 "Defines a GEnum type for enumeration. Generates corresponding CFFI definition.
343 \(define-g-enum \"GdkGrabStatus\" grab-status () :success :already-grabbed :invalid-time :not-viewable :frozen)
344 \(define-g-enum \"GdkExtensionMode\" gdk-extension-mode (:export t :type-initializer \"gdk_extension_mode_get_type\")
345 (:none 0) (:all 1) (:cursor 2))
347 @arg[g-name]{a string. Specifies the GEnum name}
348 @arg[name]{a symbol. Names the enumeration type.}
349 @arg[export]{a boolean. If true, @code{name} will be exported.}
350 @arg[type-initializer]{a @code{NIL} or a string or a function designator.
352 If non-@code{NIL}, specifies the function that initializes the type: string specifies a C function that returns the GType value and function designator specifies the Lisp function.}
353 @arg[values]{values for enum. Each value is a keyword or a list @code{(keyword integer-value)}. @code{keyword} corresponds to Lisp value of enumeration, and @code{integer-value} is an C integer for enumeration item. If @code{integer-value} is not specified, it is generated automatically (see CFFI manual)}"
355 (defcenum ,name ,@values)
356 (register-enum-type ,g-name ',name)
358 (list `(export ',name (find-package ,(package-name (symbol-package name))))))
359 ,@(when type-initializer
360 (list `(at-init () ,(type-initializer-call type-initializer))))))
362 (defun enum-value->definition (enum-value)
363 (let ((value-name (intern (lispify-name (enum-item-nick enum-value))
364 (find-package :keyword)))
365 (numeric-value (enum-item-value enum-value)))
366 `(,value-name ,numeric-value)))
368 (defun get-g-enum-definition (type &optional lisp-name-package)
369 (let* ((*lisp-name-package* (or lisp-name-package *lisp-name-package* *package*))
370 (g-type (ensure-g-type type))
371 (g-name (g-type-name g-type))
372 (name (g-name->name g-name))
373 (items (get-enum-items g-type))
374 (probable-type-initializer (probable-type-init-name g-name)))
375 `(define-g-enum ,g-name ,name
377 ,@(when (foreign-symbol-pointer probable-type-initializer)
378 (list :type-initializer
379 probable-type-initializer)))
380 ,@(mapcar #'enum-value->definition items))))
382 (defmacro define-g-flags (g-name name (&key (export t) type-initializer) &body values)
383 "Defines a GFlags type for enumeration that can combine its values. Generates corresponding CFFI definition. Values of this type are lists of keywords that are combined.
387 \(define-g-flags \"GdkWindowState\" window-state ()
389 (:iconified 2) (:maximized 4) (:sticky 8) (:fullscreen 16)
390 (:above 32) (:below 64))
392 @arg[g-name]{a string. Specifies the GEnum name}
393 @arg[name]{a symbol. Names the enumeration type.}
394 @arg[export]{a boolean. If true, @code{name} will be exported.}
395 @arg[type-initializer]{a @code{NIL} or a string or a function designator.
397 If non-@code{NIL}, specifies the function that initializes the type: string specifies a C function that returns the GType value and function designator specifies the Lisp function.}
398 @arg[values]{values for flags. Each value is a keyword or a list @code{(keyword integer-value)}. @code{keyword} corresponds to Lisp value of a flag, and @code{integer-value} is an C integer for flag. If @code{integer-value} is not specified, it is generated automatically (see CFFI manual)}"
400 (defbitfield ,name ,@values)
401 (register-flags-type ,g-name ',name)
403 (list `(export ',name (find-package ,(package-name (symbol-package name))))))
404 ,@(when type-initializer
405 (list `(at-init () ,(type-initializer-call type-initializer))))))
407 (defun flags-value->definition (flags-value)
408 (let ((value-name (intern (lispify-name (flags-item-nick flags-value))
409 (find-package :keyword)))
410 (numeric-value (flags-item-value flags-value)))
411 `(,value-name ,numeric-value)))
413 (defun get-g-flags-definition (type &optional lisp-name-package)
414 (let* ((*lisp-name-package* (or lisp-name-package *lisp-name-package* *package*))
415 (g-type (ensure-g-type type))
416 (g-name (g-type-name g-type))
417 (name (g-name->name g-name))
418 (items (get-flags-items g-type))
419 (probable-type-initializer (probable-type-init-name g-name)))
420 `(define-g-flags ,g-name ,name
422 ,@(when (foreign-symbol-pointer probable-type-initializer)
423 (list :type-initializer
424 probable-type-initializer)))
425 ,@(mapcar #'flags-value->definition items))))
427 (defun generate-types-hierarchy-to-file (file root-type &key include-referenced prefix package exceptions prologue interfaces enums flags objects exclusions additional-properties)
428 (if (not (streamp file))
429 (with-open-file (stream file :direction :output :if-exists :supersede)
430 (generate-types-hierarchy-to-file stream root-type
433 :exceptions exceptions
435 :include-referenced include-referenced
436 :interfaces interfaces
440 :exclusions exclusions
441 :additional-properties additional-properties))
442 (let* ((*generation-exclusions* (mapcar #'ensure-g-type exclusions))
443 (*lisp-name-package* (or package *package*))
444 (*package* *lisp-name-package*)
445 (*strip-prefix* (or prefix ""))
446 (*lisp-name-exceptions* exceptions)
447 (*print-case* :downcase)
448 (*additional-properties* additional-properties)
449 (referenced-types (and include-referenced
450 (filter-types-by-prefix
451 (get-referenced-types root-type)
453 (setf exclusions (mapcar #'ensure-g-type exclusions))
455 (write-string prologue file)
457 (when include-referenced
459 for interface in interfaces
461 for referenced-type in (get-shallow-referenced-types interface)
462 do (pushnew referenced-type referenced-types :test 'g-type=)))
464 for object in objects
466 for referenced-type in (get-shallow-referenced-types object)
467 do (pushnew referenced-type referenced-types :test 'g-type=)))
469 for enum-type in (filter-types-by-fund-type
470 referenced-types "GEnum")
471 for def = (get-g-enum-definition enum-type)
472 unless (member enum-type exclusions :test 'g-type=)
473 do (format file "~S~%~%" def))
476 for flags-type in (filter-types-by-fund-type
477 referenced-types "GFlags")
478 for def = (get-g-flags-definition flags-type)
479 unless (member flags-type exclusions :test 'g-type=)
480 do (format file "~S~%~%" def)))
482 with auto-enums = (and include-referenced
483 (filter-types-by-fund-type
484 referenced-types "GEnum"))
486 for def = (get-g-enum-definition enum)
487 unless (find enum auto-enums :test 'g-type=)
488 do (format file "~S~%~%" def))
490 with auto-flags = (and include-referenced
491 (filter-types-by-fund-type
492 referenced-types "GFlags"))
493 for flags-type in flags
494 for def = (get-g-flags-definition flags-type)
495 unless (find flags-type auto-flags :test 'g-type=)
496 do (format file "~S~%~%" def))
498 for interface in interfaces
499 for def = (get-g-interface-definition interface)
500 do (format file "~S~%~%" def))
502 for def in (get-g-class-definitions-for-root root-type)
503 do (format file "~S~%~%" def))
505 for object in objects
506 for def = (get-g-class-definition object)
507 do (format file "~S~%~%" def)))))