1.0.27.34: various trivial fixups for portability / repeatability
[sbcl.git] / src / pcl / ctor.lisp
blobaebc88408ffc3e018e0e833a5eaec87a5dfa1afa
1 ;;;; This file contains the optimization machinery for make-instance.
3 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; more information.
6 ;;;; This software is derived from software originally released by
7 ;;;; Gerd Moellmann. Copyright and release statements follow. Later
8 ;;;; modifications to the software are in the public domain and are
9 ;;;; provided with absolutely no warranty. See the COPYING and
10 ;;;; CREDITS files for more information.
12 ;;; Copyright (C) 2002 Gerd Moellmann <gerd.moellmann@t-online.de>
13 ;;; All rights reserved.
14 ;;;
15 ;;; Redistribution and use in source and binary forms, with or without
16 ;;; modification, are permitted provided that the following conditions
17 ;;; are met:
18 ;;;
19 ;;; 1. Redistributions of source code must retain the above copyright
20 ;;; notice, this list of conditions and the following disclaimer.
21 ;;; 2. Redistributions in binary form must reproduce the above copyright
22 ;;; notice, this list of conditions and the following disclaimer in the
23 ;;; documentation and/or other materials provided with the distribution.
24 ;;; 3. The name of the author may not be used to endorse or promote
25 ;;; products derived from this software without specific prior written
26 ;;; permission.
27 ;;;
28 ;;; THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
29 ;;; OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
30 ;;; WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
31 ;;; ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE
32 ;;; LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
33 ;;; CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
34 ;;; OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
35 ;;; BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
36 ;;; LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
37 ;;; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
38 ;;; USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
39 ;;; DAMAGE.
41 ;;; ***************
42 ;;; Overview *****
43 ;;; ***************
44 ;;;
45 ;;; Compiler macro for MAKE-INSTANCE, and load-time generation of
46 ;;; optimized instance constructor functions.
47 ;;;
48 ;;; ********************
49 ;;; Entry Points ******
50 ;;; ********************
51 ;;;
52 ;;; UPDATE-CTORS must be called when methods are added/removed,
53 ;;; classes are changed, etc., which affect instance creation.
54 ;;;
55 ;;; PRECOMPILE-CTORS can be called to precompile constructor functions
56 ;;; for classes whose definitions are known at the time the function
57 ;;; is called.
59 (in-package "SB-PCL")
61 ;;; ******************
62 ;;; Utilities *******
63 ;;; ******************
65 (defun quote-plist-keys (plist)
66 (loop for (key . more) on plist by #'cddr
67 if (null more) do
68 (error "Not a property list: ~S" plist)
69 else
70 collect `(quote ,key)
71 and collect (car more)))
73 (defun plist-keys (plist &key test)
74 (loop for (key . more) on plist by #'cddr
75 if (null more) do
76 (error "Not a property list: ~S" plist)
77 else if (or (null test) (funcall test key))
78 collect key))
80 (defun plist-values (plist &key test)
81 (loop for (key . more) on plist by #'cddr
82 if (null more) do
83 (error "Not a property list: ~S" plist)
84 else if (or (null test) (funcall test (car more)))
85 collect (car more)))
87 (defun constant-symbol-p (form)
88 (and (constantp form)
89 (let ((constant (constant-form-value form)))
90 (and (symbolp constant)
91 (not (null (symbol-package constant)))))))
93 ;;; somewhat akin to DEFAULT-INITARGS (SLOT-CLASS T T), but just
94 ;;; collecting the defaulted initargs for the call.
95 (defun ctor-default-initkeys (supplied-initargs class-default-initargs)
96 (loop for (key) in class-default-initargs
97 when (eq (getf supplied-initargs key '.not-there.) '.not-there.)
98 collect key))
100 ;;; *****************
101 ;;; CTORS *********
102 ;;; *****************
104 ;;; Ctors are funcallable instances whose initial function is a
105 ;;; function computing an optimized constructor function when called.
106 ;;; When the optimized function is computed, the function of the
107 ;;; funcallable instance is set to it.
109 (!defstruct-with-alternate-metaclass ctor
110 :slot-names (function-name class-name class initargs safe-p)
111 :boa-constructor %make-ctor
112 :superclass-name function
113 :metaclass-name static-classoid
114 :metaclass-constructor make-static-classoid
115 :dd-type funcallable-structure
116 :runtime-type-checks-p nil)
118 ;;; List of all defined ctors.
120 (defvar *all-ctors* ())
122 (defun make-ctor-parameter-list (ctor)
123 (plist-values (ctor-initargs ctor) :test (complement #'constantp)))
125 ;;; Reset CTOR to use a default function that will compute an
126 ;;; optimized constructor function when called.
127 (defun install-initial-constructor (ctor &key force-p)
128 (when (or force-p (ctor-class ctor))
129 (setf (ctor-class ctor) nil)
130 (setf (funcallable-instance-fun ctor)
131 #'(lambda (&rest args)
132 (install-optimized-constructor ctor)
133 (apply ctor args)))
134 (setf (%funcallable-instance-info ctor 1)
135 (ctor-function-name ctor))))
137 (defun make-ctor-function-name (class-name initargs safe-code-p)
138 (list* 'ctor class-name safe-code-p initargs))
140 ;;; Keep this a separate function for testing.
141 (defun ensure-ctor (function-name class-name initargs safe-code-p)
142 (unless (fboundp function-name)
143 (make-ctor function-name class-name initargs safe-code-p)))
145 ;;; Keep this a separate function for testing.
146 (defun make-ctor (function-name class-name initargs safe-p)
147 (without-package-locks ; for (setf symbol-function)
148 (let ((ctor (%make-ctor function-name class-name nil initargs safe-p)))
149 (push ctor *all-ctors*)
150 (setf (fdefinition function-name) ctor)
151 (install-initial-constructor ctor :force-p t)
152 ctor)))
155 ;;; ***********************************************
156 ;;; Compile-Time Expansion of MAKE-INSTANCE *******
157 ;;; ***********************************************
159 (define-compiler-macro make-instance (&whole form &rest args &environment env)
160 (declare (ignore args))
161 (or (make-instance->constructor-call form (safe-code-p env))
162 form))
164 (defun make-instance->constructor-call (form safe-code-p)
165 (destructuring-bind (fn class-name &rest args) form
166 (declare (ignore fn))
167 (flet (;;
168 ;; Return the name of parameter number I of a constructor
169 ;; function.
170 (parameter-name (i)
171 (let ((ps #(.p0. .p1. .p2. .p3. .p4. .p5.)))
172 (if (array-in-bounds-p ps i)
173 (aref ps i)
174 (format-symbol *pcl-package* ".P~D." i))))
175 ;; Check if CLASS-NAME is a constant symbol. Give up if
176 ;; not.
177 (check-class ()
178 (unless (and class-name (constant-symbol-p class-name))
179 (return-from make-instance->constructor-call nil)))
180 ;; Check if ARGS are suitable for an optimized constructor.
181 ;; Return NIL from the outer function if not.
182 (check-args ()
183 (loop for (key . more) on args by #'cddr do
184 (when (or (null more)
185 (not (constant-symbol-p key))
186 (eq :allow-other-keys (constant-form-value key)))
187 (return-from make-instance->constructor-call nil)))))
188 (check-class)
189 (check-args)
190 ;; Collect a plist of initargs and constant values/parameter names
191 ;; in INITARGS. Collect non-constant initialization forms in
192 ;; VALUE-FORMS.
193 (multiple-value-bind (initargs value-forms)
194 (loop for (key value) on args by #'cddr and i from 0
195 collect (constant-form-value key) into initargs
196 if (constantp value)
197 collect value into initargs
198 else
199 collect (parameter-name i) into initargs
200 and collect value into value-forms
201 finally
202 (return (values initargs value-forms)))
203 (let* ((class-name (constant-form-value class-name))
204 (function-name (make-ctor-function-name class-name initargs
205 safe-code-p)))
206 ;; Prevent compiler warnings for calling the ctor.
207 (proclaim-as-fun-name function-name)
208 (note-name-defined function-name :function)
209 (when (eq (info :function :where-from function-name) :assumed)
210 (setf (info :function :where-from function-name) :defined)
211 (when (info :function :assumed-type function-name)
212 (setf (info :function :assumed-type function-name) nil)))
213 ;; Return code constructing a ctor at load time, which, when
214 ;; called, will set its funcallable instance function to an
215 ;; optimized constructor function.
216 `(locally
217 (declare (disable-package-locks ,function-name))
218 (let ((.x. (load-time-value
219 (ensure-ctor ',function-name ',class-name ',initargs
220 ',safe-code-p))))
221 (declare (ignore .x.))
222 ;; ??? check if this is worth it.
223 (declare
224 (ftype (or (function ,(make-list (length value-forms)
225 :initial-element t)
227 (function (&rest t) t))
228 ,function-name))
229 (funcall (function ,function-name) ,@value-forms))))))))
232 ;;; **************************************************
233 ;;; Load-Time Constructor Function Generation *******
234 ;;; **************************************************
236 ;;; The system-supplied primary INITIALIZE-INSTANCE and
237 ;;; SHARED-INITIALIZE methods. One cannot initialize these variables
238 ;;; to the right values here because said functions don't exist yet
239 ;;; when this file is first loaded.
240 (defvar *the-system-ii-method* nil)
241 (defvar *the-system-si-method* nil)
243 (defun install-optimized-constructor (ctor)
244 (with-world-lock ()
245 (let ((class (find-class (ctor-class-name ctor))))
246 (unless (class-finalized-p class)
247 (finalize-inheritance class))
248 ;; We can have a class with an invalid layout here. Such a class
249 ;; cannot have a LAYOUT-INVALID of (:FLUSH ...) or (:OBSOLETE
250 ;; ...), because part of the deal is that those only happen from
251 ;; FORCE-CACHE-FLUSHES, which create a new valid wrapper for the
252 ;; class. An invalid layout of T needs to be flushed, however.
253 (when (eq (layout-invalid (class-wrapper class)) t)
254 (%force-cache-flushes class))
255 (setf (ctor-class ctor) class)
256 (pushnew ctor (plist-value class 'ctors) :test #'eq)
257 (setf (funcallable-instance-fun ctor)
258 (multiple-value-bind (form locations names)
259 (constructor-function-form ctor)
260 (apply (compile nil `(lambda ,names ,form)) locations))))))
262 (defun constructor-function-form (ctor)
263 (let* ((class (ctor-class ctor))
264 (proto (class-prototype class))
265 (make-instance-methods
266 (compute-applicable-methods #'make-instance (list class)))
267 (allocate-instance-methods
268 (compute-applicable-methods #'allocate-instance (list class)))
269 ;; I stared at this in confusion for a while, thinking
270 ;; carefully about the possibility of the class prototype not
271 ;; being of sufficient discrimiating power, given the
272 ;; possibility of EQL-specialized methods on
273 ;; INITIALIZE-INSTANCE or SHARED-INITIALIZE. However, given
274 ;; that this is a constructor optimization, the user doesn't
275 ;; yet have the instance to create a method with such an EQL
276 ;; specializer.
278 ;; There remains the (theoretical) possibility of someone
279 ;; coming along with code of the form
281 ;; (defmethod initialize-instance :before ((o foo) ...)
282 ;; (eval `(defmethod shared-initialize :before ((o foo) ...) ...)))
284 ;; but probably we can afford not to worry about this too
285 ;; much for now. -- CSR, 2004-07-12
286 (ii-methods
287 (compute-applicable-methods #'initialize-instance (list proto)))
288 (si-methods
289 (compute-applicable-methods #'shared-initialize (list proto t)))
290 (setf-svuc-slots-methods
291 (loop for slot in (class-slots class)
292 collect (compute-applicable-methods
293 #'(setf slot-value-using-class)
294 (list nil class proto slot))))
295 (sbuc-slots-methods
296 (loop for slot in (class-slots class)
297 collect (compute-applicable-methods
298 #'slot-boundp-using-class
299 (list class proto slot)))))
300 ;; Cannot initialize these variables earlier because the generic
301 ;; functions don't exist when PCL is built.
302 (when (null *the-system-si-method*)
303 (setq *the-system-si-method*
304 (find-method #'shared-initialize
305 () (list *the-class-slot-object* *the-class-t*)))
306 (setq *the-system-ii-method*
307 (find-method #'initialize-instance
308 () (list *the-class-slot-object*))))
309 ;; Note that when there are user-defined applicable methods on
310 ;; MAKE-INSTANCE and/or ALLOCATE-INSTANCE, these will show up
311 ;; together with the system-defined ones in what
312 ;; COMPUTE-APPLICABLE-METHODS returns.
313 (if (and (not (structure-class-p class))
314 (not (condition-class-p class))
315 (null (cdr make-instance-methods))
316 (null (cdr allocate-instance-methods))
317 (every (lambda (x)
318 (member (slot-definition-allocation x)
319 '(:instance :class)))
320 (class-slots class))
321 (null (check-initargs-1
322 class
323 (append
324 (ctor-default-initkeys
325 (ctor-initargs ctor) (class-default-initargs class))
326 (plist-keys (ctor-initargs ctor)))
327 (append ii-methods si-methods) nil nil))
328 (not (around-or-nonstandard-primary-method-p
329 ii-methods *the-system-ii-method*))
330 (not (around-or-nonstandard-primary-method-p
331 si-methods *the-system-si-method*))
332 ;; the instance structure protocol goes through
333 ;; slot-value(-using-class) and friends (actually just
334 ;; (SETF SLOT-VALUE-USING-CLASS) and
335 ;; SLOT-BOUNDP-USING-CLASS), so if there are non-standard
336 ;; applicable methods we can't shortcircuit them.
337 (every (lambda (x) (= (length x) 1)) setf-svuc-slots-methods)
338 (every (lambda (x) (= (length x) 1)) sbuc-slots-methods))
339 (optimizing-generator ctor ii-methods si-methods)
340 (fallback-generator ctor ii-methods si-methods))))
342 (defun around-or-nonstandard-primary-method-p
343 (methods &optional standard-method)
344 (loop with primary-checked-p = nil
345 for method in methods
346 as qualifiers = (if (consp method)
347 (early-method-qualifiers method)
348 (safe-method-qualifiers method))
349 when (or (eq :around (car qualifiers))
350 (and (null qualifiers)
351 (not primary-checked-p)
352 (not (null standard-method))
353 (not (eq standard-method method))))
354 return t
355 when (null qualifiers) do
356 (setq primary-checked-p t)))
358 (defun fallback-generator (ctor ii-methods si-methods)
359 (declare (ignore ii-methods si-methods))
360 `(lambda ,(make-ctor-parameter-list ctor)
361 ;; The CTOR MAKE-INSTANCE optimization only kicks in when the
362 ;; first argument to MAKE-INSTANCE is a constant symbol: by
363 ;; calling it with a class, as here, we inhibit the optimization,
364 ;; so removing the possibility of endless recursion. -- CSR,
365 ;; 2004-07-12
366 (make-instance ,(ctor-class ctor)
367 ,@(quote-plist-keys (ctor-initargs ctor)))))
369 (defun optimizing-generator (ctor ii-methods si-methods)
370 (multiple-value-bind (locations names body before-method-p)
371 (fake-initialization-emf ctor ii-methods si-methods)
372 (let ((wrapper (class-wrapper (ctor-class ctor))))
373 (values
374 `(lambda ,(make-ctor-parameter-list ctor)
375 (declare #.*optimize-speed*)
376 (block nil
377 (when (layout-invalid ,wrapper)
378 (install-initial-constructor ,ctor)
379 (return (funcall ,ctor ,@(make-ctor-parameter-list ctor))))
380 ,(wrap-in-allocate-forms ctor body before-method-p)))
381 locations
382 names))))
384 ;;; Return a form wrapped around BODY that allocates an instance
385 ;;; constructed by CTOR. BEFORE-METHOD-P set means we have to run
386 ;;; before-methods, in which case we initialize instance slots to
387 ;;; +SLOT-UNBOUND+. The resulting form binds the local variables
388 ;;; .INSTANCE. to the instance, and .SLOTS. to the instance's slot
389 ;;; vector around BODY.
390 (defun wrap-in-allocate-forms (ctor body before-method-p)
391 (let* ((class (ctor-class ctor))
392 (wrapper (class-wrapper class))
393 (allocation-function (raw-instance-allocator class))
394 (slots-fetcher (slots-fetcher class)))
395 (if (eq allocation-function 'allocate-standard-instance)
396 `(let ((.instance. (%make-standard-instance nil
397 (get-instance-hash-code)))
398 (.slots. (make-array
399 ,(layout-length wrapper)
400 ,@(when before-method-p
401 '(:initial-element +slot-unbound+)))))
402 (setf (std-instance-wrapper .instance.) ,wrapper)
403 (setf (std-instance-slots .instance.) .slots.)
404 ,body
405 .instance.)
406 `(let* ((.instance. (,allocation-function ,wrapper))
407 (.slots. (,slots-fetcher .instance.)))
408 (declare (ignorable .slots.))
409 ,body
410 .instance.))))
412 ;;; Return a form for invoking METHOD with arguments from ARGS. As
413 ;;; can be seen in METHOD-FUNCTION-FROM-FAST-FUNCTION, method
414 ;;; functions look like (LAMBDA (ARGS NEXT-METHODS) ...). We could
415 ;;; call fast method functions directly here, but benchmarks show that
416 ;;; there's no speed to gain, so lets avoid the hair here.
417 (defmacro invoke-method (method args)
418 `(funcall ,(method-function method) ,args ()))
420 ;;; Return a form that is sort of an effective method comprising all
421 ;;; calls to INITIALIZE-INSTANCE and SHARED-INITIALIZE that would
422 ;;; normally have taken place when calling MAKE-INSTANCE.
423 (defun fake-initialization-emf (ctor ii-methods si-methods)
424 (multiple-value-bind (ii-around ii-before ii-primary ii-after)
425 (standard-sort-methods ii-methods)
426 (declare (ignore ii-primary))
427 (multiple-value-bind (si-around si-before si-primary si-after)
428 (standard-sort-methods si-methods)
429 (declare (ignore si-primary))
430 (aver (and (null ii-around) (null si-around)))
431 (let ((initargs (ctor-initargs ctor)))
432 (multiple-value-bind (locations names bindings vars defaulting-initargs body)
433 (slot-init-forms ctor (or ii-before si-before))
434 (values
435 locations
436 names
437 `(let ,bindings
438 (declare (ignorable ,@vars))
439 (let (,@(when (or ii-before ii-after)
440 `((.ii-args.
441 (list .instance. ,@(quote-plist-keys initargs) ,@defaulting-initargs))))
442 ,@(when (or si-before si-after)
443 `((.si-args.
444 (list .instance. t ,@(quote-plist-keys initargs) ,@defaulting-initargs)))))
445 ,@(loop for method in ii-before
446 collect `(invoke-method ,method .ii-args.))
447 ,@(loop for method in si-before
448 collect `(invoke-method ,method .si-args.))
449 ,@body
450 ,@(loop for method in si-after
451 collect `(invoke-method ,method .si-args.))
452 ,@(loop for method in ii-after
453 collect `(invoke-method ,method .ii-args.))))
454 (or ii-before si-before)))))))
456 ;;; Return four values from APPLICABLE-METHODS: around methods, before
457 ;;; methods, the applicable primary method, and applicable after
458 ;;; methods. Before and after methods are sorted in the order they
459 ;;; must be called.
460 (defun standard-sort-methods (applicable-methods)
461 (loop for method in applicable-methods
462 as qualifiers = (if (consp method)
463 (early-method-qualifiers method)
464 (safe-method-qualifiers method))
465 if (null qualifiers)
466 collect method into primary
467 else if (eq :around (car qualifiers))
468 collect method into around
469 else if (eq :after (car qualifiers))
470 collect method into after
471 else if (eq :before (car qualifiers))
472 collect method into before
473 finally
474 (return (values around before (first primary) (reverse after)))))
476 (defmacro with-type-checked ((type safe-p) &body body)
477 (if safe-p
478 ;; To handle FUNCTION types reasonable, we use SAFETY 3 and
479 ;; THE instead of e.g. CHECK-TYPE.
480 `(locally
481 (declare (optimize (safety 3)))
482 (the ,type (progn ,@body)))
483 `(progn ,@body)))
485 ;;; Return as multiple values bindings for default initialization
486 ;;; arguments, variable names, defaulting initargs and a body for
487 ;;; initializing instance and class slots of an object costructed by
488 ;;; CTOR. The variable .SLOTS. is assumed to bound to the instance's
489 ;;; slot vector. BEFORE-METHOD-P T means before-methods will be
490 ;;; called, which means that 1) other code will initialize instance
491 ;;; slots to +SLOT-UNBOUND+ before the before-methods are run, and
492 ;;; that we have to check if these before-methods have set slots.
493 (defun slot-init-forms (ctor before-method-p)
494 (let* ((class (ctor-class ctor))
495 (initargs (ctor-initargs ctor))
496 (initkeys (plist-keys initargs))
497 (safe-p (ctor-safe-p ctor))
498 (slot-vector
499 (make-array (layout-length (class-wrapper class))
500 :initial-element nil))
501 (class-inits ())
502 (default-inits ())
503 (defaulting-initargs ())
504 (default-initargs (class-default-initargs class))
505 (initarg-locations
506 (compute-initarg-locations
507 class (append initkeys (mapcar #'car default-initargs)))))
508 (labels ((initarg-locations (initarg)
509 (cdr (assoc initarg initarg-locations :test #'eq)))
510 (initializedp (location)
511 (cond
512 ((consp location)
513 (assoc location class-inits :test #'eq))
514 ((integerp location)
515 (not (null (aref slot-vector location))))
516 (t (bug "Weird location in ~S" 'slot-init-forms))))
517 (class-init (location kind val type)
518 (aver (consp location))
519 (unless (initializedp location)
520 (push (list location kind val type) class-inits)))
521 (instance-init (location kind val type)
522 (aver (integerp location))
523 (unless (initializedp location)
524 (setf (aref slot-vector location) (list kind val type))))
525 (default-init-var-name (i)
526 (let ((ps #(.d0. .d1. .d2. .d3. .d4. .d5.)))
527 (if (array-in-bounds-p ps i)
528 (aref ps i)
529 (format-symbol *pcl-package* ".D~D." i))))
530 (location-var-name (i)
531 (let ((ls #(.l0. .l1. .l2. .l3. .l4. .l5.)))
532 (if (array-in-bounds-p ls i)
533 (aref ls i)
534 (format-symbol *pcl-package* ".L~D." i)))))
535 ;; Loop over supplied initargs and values and record which
536 ;; instance and class slots they initialize.
537 (loop for (key value) on initargs by #'cddr
538 as kind = (if (constantp value) 'constant 'param)
539 as locations = (initarg-locations key)
540 do (loop for (location . type) in locations
541 do (if (consp location)
542 (class-init location kind value type)
543 (instance-init location kind value type))))
544 ;; Loop over default initargs of the class, recording
545 ;; initializations of slots that have not been initialized
546 ;; above. Default initargs which are not in the supplied
547 ;; initargs are treated as if they were appended to supplied
548 ;; initargs, that is, their values must be evaluated even
549 ;; if not actually used for initializing a slot.
550 (loop for (key initform initfn) in default-initargs and i from 0
551 unless (member key initkeys :test #'eq)
552 do (let* ((kind (if (constantp initform) 'constant 'var))
553 (init (if (eq kind 'var) initfn initform)))
554 (ecase kind
555 (constant
556 (push (list 'quote key) defaulting-initargs)
557 (push initform defaulting-initargs))
558 (var
559 (push (list 'quote key) defaulting-initargs)
560 (push (default-init-var-name i) defaulting-initargs)))
561 (when (eq kind 'var)
562 (let ((init-var (default-init-var-name i)))
563 (setq init init-var)
564 (push (cons init-var initfn) default-inits)))
565 (loop for (location . type) in (initarg-locations key)
566 do (if (consp location)
567 (class-init location kind init type)
568 (instance-init location kind init type)))))
569 ;; Loop over all slots of the class, filling in the rest from
570 ;; slot initforms.
571 (loop for slotd in (class-slots class)
572 as location = (slot-definition-location slotd)
573 as type = (slot-definition-type slotd)
574 as allocation = (slot-definition-allocation slotd)
575 as initfn = (slot-definition-initfunction slotd)
576 as initform = (slot-definition-initform slotd) do
577 (unless (or (eq allocation :class)
578 (null initfn)
579 (initializedp location))
580 (if (constantp initform)
581 (instance-init location 'initform initform type)
582 (instance-init location 'initform/initfn initfn type))))
583 ;; Generate the forms for initializing instance and class slots.
584 (let ((instance-init-forms
585 (loop for slot-entry across slot-vector and i from 0
586 as (kind value type) = slot-entry collect
587 (ecase kind
588 ((nil)
589 (unless before-method-p
590 `(setf (clos-slots-ref .slots. ,i) +slot-unbound+)))
591 ((param var)
592 `(setf (clos-slots-ref .slots. ,i)
593 (with-type-checked (,type ,safe-p)
594 ,value)))
595 (initfn
596 `(setf (clos-slots-ref .slots. ,i)
597 (with-type-checked (,type ,safe-p)
598 (funcall ,value))))
599 (initform/initfn
600 (if before-method-p
601 `(when (eq (clos-slots-ref .slots. ,i)
602 +slot-unbound+)
603 (setf (clos-slots-ref .slots. ,i)
604 (with-type-checked (,type ,safe-p)
605 (funcall ,value))))
606 `(setf (clos-slots-ref .slots. ,i)
607 (with-type-checked (,type ,safe-p)
608 (funcall ,value)))))
609 (initform
610 (if before-method-p
611 `(when (eq (clos-slots-ref .slots. ,i)
612 +slot-unbound+)
613 (setf (clos-slots-ref .slots. ,i)
614 (with-type-checked (,type ,safe-p)
615 ',(constant-form-value value))))
616 `(setf (clos-slots-ref .slots. ,i)
617 (with-type-checked (,type ,safe-p)
618 ',(constant-form-value value)))))
619 (constant
620 `(setf (clos-slots-ref .slots. ,i)
621 (with-type-checked (,type ,safe-p)
622 ',(constant-form-value value))))))))
623 ;; we are not allowed to modify QUOTEd locations, so we can't
624 ;; generate code like (setf (cdr ',location) arg). Instead,
625 ;; we have to do (setf (cdr .L0.) arg) and arrange for .L0. to
626 ;; be bound to the location.
627 (multiple-value-bind (names locations class-init-forms)
628 (loop for (location kind value type) in class-inits
629 for i upfrom 0
630 for name = (location-var-name i)
631 collect name into names
632 collect location into locations
633 collect `(setf (cdr ,name)
634 (with-type-checked (,type ,safe-p)
635 ,(case kind
636 (constant `',(constant-form-value value))
637 ((param var) `,value)
638 (initfn `(funcall ,value)))))
639 into class-init-forms
640 finally (return (values names locations class-init-forms)))
641 (multiple-value-bind (vars bindings)
642 (loop for (var . initfn) in (nreverse default-inits)
643 collect var into vars
644 collect `(,var (funcall ,initfn)) into bindings
645 finally (return (values vars bindings)))
646 (values locations names
647 bindings vars
648 (nreverse defaulting-initargs)
649 `(,@(delete nil instance-init-forms)
650 ,@class-init-forms))))))))
652 ;;; Return an alist of lists (KEY (LOCATION . TYPE-SPECIFIER) ...)
653 ;;; telling, for each key in INITKEYS, which locations the initarg
654 ;;; initializes and the associated type with the location. CLASS is
655 ;;; the class of the instance being initialized.
656 (defun compute-initarg-locations (class initkeys)
657 (loop with slots = (class-slots class)
658 for key in initkeys collect
659 (loop for slot in slots
660 if (memq key (slot-definition-initargs slot))
661 collect (cons (slot-definition-location slot)
662 (slot-definition-type slot))
663 into locations
664 else
665 collect slot into remaining-slots
666 finally
667 (setq slots remaining-slots)
668 (return (cons key locations)))))
671 ;;; *******************************
672 ;;; External Entry Points ********
673 ;;; *******************************
675 (defun update-ctors (reason &key class name generic-function method)
676 (labels ((reset (class &optional ri-cache-p (ctorsp t))
677 (when ctorsp
678 (dolist (ctor (plist-value class 'ctors))
679 (install-initial-constructor ctor)))
680 (when ri-cache-p
681 (setf (plist-value class 'ri-initargs) ()))
682 (dolist (subclass (class-direct-subclasses class))
683 (reset subclass ri-cache-p ctorsp))))
684 (ecase reason
685 ;; CLASS must have been specified.
686 (finalize-inheritance
687 (reset class t))
688 ;; NAME must have been specified.
689 (setf-find-class
690 (loop for ctor in *all-ctors*
691 when (eq (ctor-class-name ctor) name) do
692 (when (ctor-class ctor)
693 (reset (ctor-class ctor)))
694 (loop-finish)))
695 ;; GENERIC-FUNCTION and METHOD must have been specified.
696 ((add-method remove-method)
697 (flet ((class-of-1st-method-param (method)
698 (type-class (first (method-specializers method)))))
699 (case (generic-function-name generic-function)
700 ((make-instance allocate-instance
701 initialize-instance shared-initialize)
702 (reset (class-of-1st-method-param method) t t))
703 ((reinitialize-instance)
704 (reset (class-of-1st-method-param method) t nil))
705 (t (when (or (eq (generic-function-name generic-function)
706 'slot-boundp-using-class)
707 (equal (generic-function-name generic-function)
708 '(setf slot-value-using-class)))
709 ;; this looks awfully expensive, but given that one
710 ;; can specialize on the SLOTD argument, nothing is
711 ;; safe. -- CSR, 2004-07-12
712 (reset (find-class 'standard-object))))))))))
714 (defun precompile-ctors ()
715 (dolist (ctor *all-ctors*)
716 (when (null (ctor-class ctor))
717 (let ((class (find-class (ctor-class-name ctor) nil)))
718 (when (and class (class-finalized-p class))
719 (install-optimized-constructor ctor))))))
721 (defun check-ri-initargs (instance initargs)
722 (let* ((class (class-of instance))
723 (keys (plist-keys initargs))
724 (cached (assoc keys (plist-value class 'ri-initargs)
725 :test #'equal))
726 (invalid-keys
727 (if (consp cached)
728 (cdr cached)
729 (let ((invalid
730 ;; FIXME: give CHECK-INITARGS-1 and friends a
731 ;; more mnemonic name and (possibly) a nicer,
732 ;; more orthogonal interface.
733 (check-initargs-1
734 class initargs
735 (list (list* 'reinitialize-instance instance initargs)
736 (list* 'shared-initialize instance nil initargs))
737 t nil)))
738 (setf (plist-value class 'ri-initargs)
739 (acons keys invalid cached))
740 invalid))))
741 (when invalid-keys
742 (error 'initarg-error :class class :initargs invalid-keys))))
744 ;;; end of ctor.lisp