1 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; This software is derived from software originally released by Xerox
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6 ;;;; to the software are in the public domain and are provided with
7 ;;;; absolutely no warranty. See the COPYING and CREDITS files for more
10 ;;;; copyright information from original PCL sources:
12 ;;;; Copyright (c) 1985, 1986, 1987, 1988, 1989, 1990 Xerox Corporation.
13 ;;;; All rights reserved.
15 ;;;; Use and copying of this software and preparation of derivative works based
16 ;;;; upon this software are permitted. Any distribution of this software or
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21 ;;;; warranty about the software, its performance or its conformity to any
28 The CommonLoops evaluator is meta-circular.
30 Most of the code in PCL is methods on generic functions, including
31 most of the code that actually implements generic functions and method
34 So, we have a classic bootstrapping problem. The solution to this is
35 to first get a cheap implementation of generic functions running,
36 these are called early generic functions. These early generic
37 functions and the corresponding early methods and early method lookup
38 are used to get enough of the system running that it is possible to
39 create real generic functions and methods and implement real method
40 lookup. At that point (done in the file FIXUP) the function
41 !FIX-EARLY-GENERIC-FUNCTIONS is called to convert all the early generic
42 functions to real generic functions.
44 The cheap generic functions are built using the same
45 FUNCALLABLE-INSTANCE objects that real generic functions are made out of.
46 This means that as PCL is being bootstrapped, the cheap generic
47 function objects which are being created are the same objects which
48 will later be real generic functions. This is good because:
49 - we don't cons garbage structure, and
50 - we can keep pointers to the cheap generic function objects
51 during booting because those pointers will still point to
52 the right object after the generic functions are all fixed up.
54 This file defines the DEFMETHOD macro and the mechanism used to expand
55 it. This includes the mechanism for processing the body of a method.
56 DEFMETHOD basically expands into a call to LOAD-DEFMETHOD, which
57 basically calls ADD-METHOD to add the method to the generic function.
58 These expansions can be loaded either during bootstrapping or when PCL
59 is fully up and running.
61 An important effect of this arrangement is it means we can compile
62 files with DEFMETHOD forms in them in a completely running PCL, but
63 then load those files back in during bootstrapping. This makes
64 development easier. It also means there is only one set of code for
65 processing DEFMETHOD. Bootstrapping works by being sure to have
66 LOAD-METHOD be careful to call only primitives which work during
71 (declaim (notinline make-a-method add-named-method
72 ensure-generic-function-using-class
73 add-method remove-method))
75 (defvar *!early-functions*
76 '((make-a-method early-make-a-method real-make-a-method)
77 (add-named-method early-add-named-method real-add-named-method)))
79 ;;; For each of the early functions, arrange to have it point to its
80 ;;; early definition. Do this in a way that makes sure that if we
81 ;;; redefine one of the early definitions the redefinition will take
82 ;;; effect. This makes development easier.
83 (dolist (fns *!early-functions*)
84 (let ((name (car fns))
85 (early-name (cadr fns)))
86 (setf (gdefinition name)
89 (apply (fdefinition early-name) args))
92 ;;; *!GENERIC-FUNCTION-FIXUPS* is used by !FIX-EARLY-GENERIC-FUNCTIONS
93 ;;; to convert the few functions in the bootstrap which are supposed
94 ;;; to be generic functions but can't be early on.
96 ;;; each entry is a list of name and lambda-list, class names as
97 ;;; specializers, and method body function name.
98 (defvar *!generic-function-fixups*
100 ((generic-function method)
101 (standard-generic-function method)
104 ((generic-function method)
105 (standard-generic-function method)
108 ((generic-function qualifiers specializers &optional (errorp t))
109 (standard-generic-function t t)
111 (ensure-generic-function-using-class
112 ((generic-function fun-name
113 &key generic-function-class environment
116 real-ensure-gf-using-class--generic-function)
117 ((generic-function fun-name
118 &key generic-function-class environment
121 real-ensure-gf-using-class--null))
123 ((proto-generic-function proto-method lambda-expression environment)
124 (standard-generic-function standard-method t t)
125 real-make-method-lambda))
126 (make-method-specializers-form
127 ((proto-generic-function proto-method specializer-names environment)
128 (standard-generic-function standard-method t t)
129 real-make-method-specializers-form))
130 (parse-specializer-using-class
131 ((generic-function specializer)
132 (standard-generic-function t)
133 real-parse-specializer-using-class))
134 (unparse-specializer-using-class
135 ((generic-function specializer)
136 (standard-generic-function t)
137 real-unparse-specializer-using-class))
138 (make-method-initargs-form
139 ((proto-generic-function proto-method
141 lambda-list environment)
142 (standard-generic-function standard-method t t t)
143 real-make-method-initargs-form))
144 (compute-effective-method
145 ((generic-function combin applicable-methods)
146 (generic-function standard-method-combination t)
147 standard-compute-effective-method))))
149 (defmacro defgeneric (fun-name lambda-list &body options)
150 (declare (type list lambda-list))
151 (unless (legal-fun-name-p fun-name)
152 (error 'simple-program-error
153 :format-control "illegal generic function name ~S"
154 :format-arguments (list fun-name)))
155 (check-gf-lambda-list lambda-list)
158 (flet ((duplicate-option (name)
159 (error 'simple-program-error
160 :format-control "The option ~S appears more than once."
161 :format-arguments (list name)))
162 (expand-method-definition (qab) ; QAB = qualifiers, arglist, body
163 (let* ((arglist-pos (position-if #'listp qab))
164 (arglist (elt qab arglist-pos))
165 (qualifiers (subseq qab 0 arglist-pos))
166 (body (nthcdr (1+ arglist-pos) qab)))
167 `(push (defmethod ,fun-name ,@qualifiers ,arglist ,@body)
168 (generic-function-initial-methods (fdefinition ',fun-name))))))
169 (macrolet ((initarg (key) `(getf initargs ,key)))
170 (dolist (option options)
171 (let ((car-option (car option)))
175 (consp (cadr option))
176 (member (first (cadr option))
177 ;; FIXME: this list is slightly weird.
178 ;; ANSI (on the DEFGENERIC page) in one
179 ;; place allows only OPTIMIZE; in
180 ;; another place gives this list of
181 ;; disallowed declaration specifiers.
182 ;; This seems to be the only place where
183 ;; the FUNCTION declaration is
184 ;; mentioned; TYPE seems to be missing.
185 ;; Very strange. -- CSR, 2002-10-21
186 '(declaration ftype function
187 inline notinline special)))
188 (error 'simple-program-error
189 :format-control "The declaration specifier ~S ~
190 is not allowed inside DEFGENERIC."
191 :format-arguments (list (cadr option))))
192 (push (cadr option) (initarg :declarations)))
194 (when (initarg car-option)
195 (duplicate-option car-option))
196 (unless (symbolp (cadr option))
197 (error 'simple-program-error
198 :format-control "METHOD-COMBINATION name not a ~
200 :format-arguments (list (cadr option))))
201 (setf (initarg car-option)
203 (:argument-precedence-order
204 (let* ((required (parse-lambda-list lambda-list))
205 (supplied (cdr option)))
206 (unless (= (length required) (length supplied))
207 (error 'simple-program-error
208 :format-control "argument count discrepancy in ~
209 :ARGUMENT-PRECEDENCE-ORDER clause."
210 :format-arguments nil))
211 (when (set-difference required supplied)
212 (error 'simple-program-error
213 :format-control "unequal sets for ~
214 :ARGUMENT-PRECEDENCE-ORDER clause: ~
216 :format-arguments (list required supplied)))
217 (setf (initarg car-option)
219 ((:documentation :generic-function-class :method-class)
220 (unless (proper-list-of-length-p option 2)
221 (error "bad list length for ~S" option))
222 (if (initarg car-option)
223 (duplicate-option car-option)
224 (setf (initarg car-option) `',(cadr option))))
226 (push (cdr option) methods))
228 ;; ANSI requires that unsupported things must get a
230 (error 'simple-program-error
231 :format-control "unsupported option ~S"
232 :format-arguments (list option))))))
234 (when (initarg :declarations)
235 (setf (initarg :declarations)
236 `',(initarg :declarations))))
238 (eval-when (:compile-toplevel :load-toplevel :execute)
239 (compile-or-load-defgeneric ',fun-name))
240 (load-defgeneric ',fun-name ',lambda-list
241 (sb-c:source-location) ,@initargs)
242 ,@(mapcar #'expand-method-definition methods)
243 (fdefinition ',fun-name)))))
245 (defun compile-or-load-defgeneric (fun-name)
246 (proclaim-as-fun-name fun-name)
247 (note-name-defined fun-name :function)
248 (unless (eq (info :function :where-from fun-name) :declared)
249 (setf (info :function :where-from fun-name) :defined)
250 (setf (info :function :type fun-name)
251 (specifier-type 'function))))
253 (defun load-defgeneric (fun-name lambda-list source-location &rest initargs)
254 (when (fboundp fun-name)
255 (warn 'sb-kernel:redefinition-with-defgeneric
257 :new-location source-location)
258 (let ((fun (fdefinition fun-name)))
259 (when (generic-function-p fun)
260 (loop for method in (generic-function-initial-methods fun)
261 do (remove-method fun method))
262 (setf (generic-function-initial-methods fun) '()))))
263 (apply #'ensure-generic-function
265 :lambda-list lambda-list
266 :definition-source source-location
269 (define-condition generic-function-lambda-list-error
270 (reference-condition simple-program-error)
272 (:default-initargs :references (list '(:ansi-cl :section (3 4 2)))))
274 (defun check-gf-lambda-list (lambda-list)
275 (flet ((ensure (arg ok)
277 (error 'generic-function-lambda-list-error
279 "~@<invalid ~S ~_in the generic function lambda list ~S~:>"
280 :format-arguments (list arg lambda-list)))))
281 (multiple-value-bind (required optional restp rest keyp keys allowp
282 auxp aux morep more-context more-count)
283 (parse-lambda-list lambda-list)
284 (declare (ignore required)) ; since they're no different in a gf ll
285 (declare (ignore restp rest)) ; since they're no different in a gf ll
286 (declare (ignore allowp)) ; since &ALLOW-OTHER-KEYS is fine either way
287 (declare (ignore aux)) ; since we require AUXP=NIL
288 (declare (ignore more-context more-count)) ; safely ignored unless MOREP
289 ;; no defaults allowed for &OPTIONAL arguments
291 (ensure i (or (symbolp i)
292 (and (consp i) (symbolp (car i)) (null (cdr i))))))
293 ;; no defaults allowed for &KEY arguments
296 (ensure i (or (symbolp i)
298 (or (symbolp (car i))
306 (error "&AUX is not allowed in a generic function lambda list: ~S"
308 ;; Oh, *puhlease*... not specifically as per section 3.4.2 of
309 ;; the ANSI spec, but the CMU CL &MORE extension does not
311 (aver (not morep)))))
313 (defmacro defmethod (&rest args)
314 (multiple-value-bind (name qualifiers lambda-list body)
315 (parse-defmethod args)
317 ;; KLUDGE: this double expansion is quite a monumental
318 ;; workaround: it comes about because of a fantastic interaction
319 ;; between the processing rules of CLHS 3.2.3.1 and the
320 ;; bizarreness of MAKE-METHOD-LAMBDA.
322 ;; MAKE-METHOD-LAMBDA can be called by the user, and if the
323 ;; lambda itself doesn't refer to outside bindings the return
324 ;; value must be compileable in the null lexical environment.
325 ;; However, the function must also refer somehow to the
326 ;; associated method object, so that it can call NO-NEXT-METHOD
327 ;; with the appropriate arguments if there is no next method --
328 ;; but when the function is generated, the method object doesn't
331 ;; In order to resolve this issue, we insert a literal cons cell
332 ;; into the body of the method lambda, return the same cons cell
333 ;; as part of the second (initargs) return value of
334 ;; MAKE-METHOD-LAMBDA, and a method on INITIALIZE-INSTANCE fills
335 ;; in the cell when the method is created. However, this
336 ;; strategy depends on having a fresh cons cell for every method
337 ;; lambda, which (without the workaround below) is skewered by
338 ;; the processing in CLHS 3.2.3.1, which permits implementations
339 ;; to macroexpand the bodies of EVAL-WHEN forms with both
340 ;; :COMPILE-TOPLEVEL and :LOAD-TOPLEVEL only once. The
341 ;; expansion below forces the double expansion in those cases,
342 ;; while expanding only once in the common case.
343 (eval-when (:load-toplevel)
344 (%defmethod-expander ,name ,qualifiers ,lambda-list ,body))
345 (eval-when (:execute)
346 (%defmethod-expander ,name ,qualifiers ,lambda-list ,body)))))
348 (defmacro %defmethod-expander
349 (name qualifiers lambda-list body &environment env)
350 (multiple-value-bind (proto-gf proto-method)
351 (prototypes-for-make-method-lambda name)
352 (expand-defmethod name proto-gf proto-method qualifiers
353 lambda-list body env)))
356 (defun prototypes-for-make-method-lambda (name)
357 (if (not (eq **boot-state** 'complete))
359 (let ((gf? (and (fboundp name)
360 (gdefinition name))))
362 (not (generic-function-p gf?)))
363 (values (class-prototype (find-class 'standard-generic-function))
364 (class-prototype (find-class 'standard-method)))
366 (class-prototype (or (generic-function-method-class gf?)
367 (find-class 'standard-method))))))))
369 ;;; Take a name which is either a generic function name or a list specifying
370 ;;; a SETF generic function (like: (SETF <generic-function-name>)). Return
371 ;;; the prototype instance of the method-class for that generic function.
373 ;;; If there is no generic function by that name, this returns the
374 ;;; default value, the prototype instance of the class
375 ;;; STANDARD-METHOD. This default value is also returned if the spec
376 ;;; names an ordinary function or even a macro. In effect, this leaves
377 ;;; the signalling of the appropriate error until load time.
379 ;;; Note: During bootstrapping, this function is allowed to return NIL.
380 (defun method-prototype-for-gf (name)
381 (let ((gf? (and (fboundp name)
382 (gdefinition name))))
383 (cond ((neq **boot-state** 'complete) nil)
385 (not (generic-function-p gf?))) ; Someone else MIGHT
386 ; error at load time.
387 (class-prototype (find-class 'standard-method)))
389 (class-prototype (or (generic-function-method-class gf?)
390 (find-class 'standard-method)))))))
392 ;;; These are used to communicate the method name and lambda-list to
393 ;;; MAKE-METHOD-LAMBDA-INTERNAL.
394 (defvar *method-name* nil)
395 (defvar *method-lambda-list* nil)
397 (defun expand-defmethod (name
404 (multiple-value-bind (parameters unspecialized-lambda-list specializers)
405 (parse-specialized-lambda-list lambda-list)
406 (declare (ignore parameters))
407 (let ((method-lambda `(lambda ,unspecialized-lambda-list ,@body))
408 (*method-name* `(,name ,@qualifiers ,specializers))
409 (*method-lambda-list* lambda-list))
410 (multiple-value-bind (method-function-lambda initargs)
411 (make-method-lambda proto-gf proto-method method-lambda env)
412 (let ((initargs-form (make-method-initargs-form
413 proto-gf proto-method method-function-lambda
415 (specializers-form (make-method-specializers-form
416 proto-gf proto-method specializers env)))
418 ;; Note: We could DECLAIM the ftype of the generic function
419 ;; here, since ANSI specifies that we create it if it does
420 ;; not exist. However, I chose not to, because I think it's
421 ;; more useful to support a style of programming where every
422 ;; generic function has an explicit DEFGENERIC and any typos
423 ;; in DEFMETHODs are warned about. Otherwise
425 ;; (DEFGENERIC FOO-BAR-BLETCH (X))
426 ;; (DEFMETHOD FOO-BAR-BLETCH ((X HASH-TABLE)) ..)
427 ;; (DEFMETHOD FOO-BRA-BLETCH ((X SIMPLE-VECTOR)) ..)
428 ;; (DEFMETHOD FOO-BAR-BLETCH ((X VECTOR)) ..)
429 ;; (DEFMETHOD FOO-BAR-BLETCH ((X ARRAY)) ..)
430 ;; (DEFMETHOD FOO-BAR-BLETCH ((X LIST)) ..)
432 ;; compiles without raising an error and runs without
433 ;; raising an error (since SIMPLE-VECTOR cases fall through
434 ;; to VECTOR) but still doesn't do what was intended. I hate
435 ;; that kind of bug (code which silently gives the wrong
436 ;; answer), so we don't do a DECLAIM here. -- WHN 20000229
437 ,(make-defmethod-form name qualifiers specializers-form
438 unspecialized-lambda-list
440 (class-name (class-of proto-method))
444 (defun interned-symbol-p (x)
445 (and (symbolp x) (symbol-package x)))
447 (defun make-defmethod-form
448 (name qualifiers specializers unspecialized-lambda-list
449 method-class-name initargs-form)
452 (if (and (interned-symbol-p (fun-name-block-name name))
453 (every #'interned-symbol-p qualifiers)
456 (and (eq (car s) 'eql)
458 (let ((sv (constant-form-value (cadr s))))
459 (or (interned-symbol-p sv)
462 (standard-char-p sv)))))
463 (interned-symbol-p s)))
465 (consp initargs-form)
466 (eq (car initargs-form) 'list*)
467 (memq (cadr initargs-form) '(:function))
468 (consp (setq fn (caddr initargs-form)))
469 (eq (car fn) 'function)
470 (consp (setq fn-lambda (cadr fn)))
471 (eq (car fn-lambda) 'lambda)
472 (bug "Really got here"))
473 (let* ((specls (mapcar (lambda (specl)
475 ;; CONSTANT-FORM-VALUE? What I
476 ;; kind of want to know, though,
477 ;; is what happens if we don't do
478 ;; this for some slow-method
479 ;; function because of a hairy
480 ;; lexenv -- is the only bad
481 ;; effect that the method
482 ;; function ends up unnamed? If
483 ;; so, couldn't we arrange to
485 `(,(car specl) ,(eval (cadr specl)))
488 (mname `(,(if (eq (cadr initargs-form) :function)
489 'slow-method 'fast-method)
490 ,name ,@qualifiers ,specls)))
492 (defun ,mname ,(cadr fn-lambda)
494 ,(make-defmethod-form-internal
495 name qualifiers `',specls
496 unspecialized-lambda-list method-class-name
497 `(list* ,(cadr initargs-form)
499 ,@(cdddr initargs-form)))))
500 (make-defmethod-form-internal
504 `(list ,@(mapcar (lambda (specializer)
505 (if (consp specializer)
506 ``(,',(car specializer)
507 ,,(cadr specializer))
510 unspecialized-lambda-list
514 (defun make-defmethod-form-internal
515 (name qualifiers specializers-form unspecialized-lambda-list
516 method-class-name initargs-form)
522 ',unspecialized-lambda-list
524 (sb-c:source-location)))
526 (defmacro make-method-function (method-lambda &environment env)
527 (multiple-value-bind (proto-gf proto-method)
528 (prototypes-for-make-method-lambda nil)
529 (multiple-value-bind (method-function-lambda initargs)
530 (make-method-lambda proto-gf proto-method method-lambda env)
531 (make-method-initargs-form proto-gf
533 method-function-lambda
537 (defun real-make-method-initargs-form (proto-gf proto-method
538 method-lambda initargs env)
539 (declare (ignore proto-gf proto-method))
540 (unless (and (consp method-lambda)
541 (eq (car method-lambda) 'lambda))
542 (error "The METHOD-LAMBDA argument to MAKE-METHOD-FUNCTION, ~S, ~
543 is not a lambda form."
545 (make-method-initargs-form-internal method-lambda initargs env))
547 (unless (fboundp 'make-method-initargs-form)
548 (setf (gdefinition 'make-method-initargs-form)
549 (symbol-function 'real-make-method-initargs-form)))
551 ;;; When bootstrapping PCL MAKE-METHOD-LAMBDA starts out as a regular
552 ;;; functions: REAL-MAKE-METHOD-LAMBDA set to the fdefinition of
553 ;;; MAKE-METHOD-LAMBDA. Once generic functions are born, the
554 ;;; REAL-MAKE-METHOD lambda is used as the body of the default method.
555 ;;; MAKE-METHOD-LAMBDA-INTERNAL is split out into a separate function
556 ;;; so that changing it in a live image is easy, and changes actually
558 (defun real-make-method-lambda (proto-gf proto-method method-lambda env)
559 (make-method-lambda-internal proto-gf proto-method method-lambda env))
561 (unless (fboundp 'make-method-lambda)
562 (setf (gdefinition 'make-method-lambda)
563 (symbol-function 'real-make-method-lambda)))
565 (defun declared-specials (declarations)
566 (loop for (declare . specifiers) in declarations
567 append (loop for specifier in specifiers
568 when (eq 'special (car specifier))
569 append (cdr specifier))))
571 (defun make-method-lambda-internal (proto-gf proto-method method-lambda env)
572 (declare (ignore proto-gf proto-method))
573 (unless (and (consp method-lambda) (eq (car method-lambda) 'lambda))
574 (error "The METHOD-LAMBDA argument to MAKE-METHOD-LAMBDA, ~S, ~
575 is not a lambda form."
577 (multiple-value-bind (real-body declarations documentation)
578 (parse-body (cddr method-lambda))
579 ;; We have the %METHOD-NAME declaration in the place where we expect it only
580 ;; if there is are no non-standard prior MAKE-METHOD-LAMBDA methods -- or
581 ;; unless they're fantastically unintrusive.
582 (let* ((method-name *method-name*)
583 (generic-function-name (when method-name (car method-name)))
584 (specialized-lambda-list (or *method-lambda-list*
585 (ecase (car method-lambda)
586 (lambda (second method-lambda))
587 (named-lambda (third method-lambda)))))
588 ;; the method-cell is a way of communicating what method a
589 ;; method-function implements, for the purpose of
590 ;; NO-NEXT-METHOD. We need something that can be shared
591 ;; between function and initargs, but not something that
592 ;; will be coalesced as a constant (because we are naughty,
593 ;; oh yes) with the expansion of any other methods in the
594 ;; same file. -- CSR, 2007-05-30
595 (method-cell (list (make-symbol "METHOD-CELL"))))
596 (multiple-value-bind (parameters lambda-list specializers)
597 (parse-specialized-lambda-list specialized-lambda-list)
598 (let* ((required-parameters
599 (mapcar (lambda (r s) (declare (ignore s)) r)
602 (slots (mapcar #'list required-parameters))
605 ;; These declarations seem to be used by PCL to pass
606 ;; information to itself; when I tried to delete 'em
607 ;; ca. 0.6.10 it didn't work. I'm not sure how
608 ;; they work, but note the (VAR-DECLARATION '%CLASS ..)
609 ;; expression in CAN-OPTIMIZE-ACCESS1. -- WHN 2000-12-30
611 (mapcar (lambda (a s) (and (symbolp s)
616 ;; These TYPE declarations weren't in the original
617 ;; PCL code, but the Python compiler likes them a
618 ;; lot. (We're telling the compiler about our
619 ;; knowledge of specialized argument types so that
620 ;; it can avoid run-time type dispatch overhead,
621 ;; which can be a huge win for Python.)
623 ;; KLUDGE: when I tried moving these to
624 ;; ADD-METHOD-DECLARATIONS, things broke. No idea
625 ;; why. -- CSR, 2004-06-16
626 ,@(let ((specials (declared-specials declarations)))
627 (mapcar (lambda (par spec)
628 (parameter-specializer-declaration-in-defmethod
629 par spec specials env))
633 ;; Remove the documentation string and insert the
634 ;; appropriate class declarations. The documentation
635 ;; string is removed to make it easy for us to insert
636 ;; new declarations later, they will just go after the
637 ;; CADR of the method lambda. The class declarations
638 ;; are inserted to communicate the class of the method's
639 ;; arguments to the code walk.
640 `(lambda ,lambda-list
641 ;; The default ignorability of method parameters
642 ;; doesn't seem to be specified by ANSI. PCL had
643 ;; them basically ignorable but was a little
644 ;; inconsistent. E.g. even though the two
645 ;; method definitions
646 ;; (DEFMETHOD FOO ((X T) (Y T)) "Z")
647 ;; (DEFMETHOD FOO ((X T) Y) "Z")
648 ;; are otherwise equivalent, PCL treated Y as
649 ;; ignorable in the first definition but not in the
650 ;; second definition. We make all required
651 ;; parameters ignorable as a way of systematizing
652 ;; the old PCL behavior. -- WHN 2000-11-24
653 (declare (ignorable ,@required-parameters))
656 (block ,(fun-name-block-name generic-function-name)
658 (constant-value-p (and (null (cdr real-body))
659 (constantp (car real-body))))
660 (constant-value (and constant-value-p
661 (constant-form-value (car real-body))))
662 (plist (and constant-value-p
663 (or (typep constant-value
664 '(or number character))
665 (and (symbolp constant-value)
666 (symbol-package constant-value)))
667 (list :constant-value constant-value)))
668 (applyp (dolist (p lambda-list nil)
669 (cond ((memq p '(&optional &rest &key))
674 (walked-lambda call-next-method-p closurep
675 next-method-p-p setq-p
677 (walk-method-lambda method-lambda
681 (multiple-value-bind (walked-lambda-body
683 walked-documentation)
684 (parse-body (cddr walked-lambda))
685 (declare (ignore walked-documentation))
686 (when (some #'cdr slots)
687 (let ((slot-name-lists (slot-name-lists-from-slots slots)))
689 `(,@(when slot-name-lists
690 `(:slot-name-lists ,slot-name-lists))
692 (setq walked-lambda-body
693 `((pv-binding (,required-parameters
697 :slot-name-lists ',slot-name-lists)))
698 ,@walked-lambda-body)))))
699 (when (and (memq '&key lambda-list)
700 (not (memq '&allow-other-keys lambda-list)))
701 (let ((aux (memq '&aux lambda-list)))
702 (setq lambda-list (nconc (ldiff lambda-list aux)
703 (list '&allow-other-keys)
705 (values `(lambda (.method-args. .next-methods.)
706 (simple-lexical-method-functions
707 (,lambda-list .method-args. .next-methods.
710 :next-method-p-p ,next-method-p-p
712 :parameters-setqd ,parameters-setqd
713 :method-cell ,method-cell
716 ,@walked-declarations
718 (declare (disable-package-locks
719 %parameter-binding-modified))
720 (symbol-macrolet ((%parameter-binding-modified
721 ',@parameters-setqd))
722 (declare (enable-package-locks
723 %parameter-binding-modified))
724 ,@walked-lambda-body))))
725 `(,@(when call-next-method-p `(method-cell ,method-cell))
726 ,@(when plist `(plist ,plist))
727 ,@(when documentation `(:documentation ,documentation)))))))))))
729 (defun real-make-method-specializers-form
730 (proto-gf proto-method specializer-names env)
731 (declare (ignore env proto-gf proto-method))
734 ((and (eq **boot-state** 'complete)
737 ((symbolp name) `(find-class ',name))
738 ((consp name) (ecase (car name)
739 ((eql) `(intern-eql-specializer ,(cadr name)))
740 ((class-eq) `(class-eq-specializer (find-class ',(cadr name))))))
742 ;; FIXME: Document CLASS-EQ specializers.
743 (error 'simple-reference-error
745 "~@<~S is not a valid parameter specializer name.~@:>"
746 :format-arguments (list name)
747 :references (list '(:ansi-cl :macro defmethod)
748 '(:ansi-cl :glossary "parameter specializer name")))))))
749 `(list ,@(mapcar #'parse specializer-names))))
751 (unless (fboundp 'make-method-specializers-form)
752 (setf (gdefinition 'make-method-specializers-form)
753 (symbol-function 'real-make-method-specializers-form)))
755 (defun real-parse-specializer-using-class (generic-function specializer)
756 (let ((result (specializer-from-type specializer)))
757 (if (specializerp result)
759 (error "~@<~S cannot be parsed as a specializer for ~S.~@:>"
760 specializer generic-function))))
762 (unless (fboundp 'parse-specializer-using-class)
763 (setf (gdefinition 'parse-specializer-using-class)
764 (symbol-function 'real-parse-specializer-using-class)))
766 (defun real-unparse-specializer-using-class (generic-function specializer)
767 (if (specializerp specializer)
768 ;; FIXME: this HANDLER-CASE is a bit of a hammer to crack a nut:
769 ;; the idea is that we want to unparse permissively, so that the
770 ;; lazy (or rather the "portable") specializer extender (who
771 ;; does not define methods on these new SBCL-specific MOP
772 ;; functions) can still subclass specializer and define methods
773 ;; without everything going wrong. Making it cleaner and
774 ;; clearer that that is what we are defending against would be
775 ;; nice. -- CSR, 2007-06-01
777 (let ((type (specializer-type specializer)))
778 (if (and (consp type) (eq (car type) 'class))
779 (let* ((class (cadr type))
780 (class-name (class-name class)))
781 (if (eq class (find-class class-name nil))
785 (error () specializer))
786 (error "~@<~S is not a legal specializer for ~S.~@:>"
787 specializer generic-function)))
789 (unless (fboundp 'unparse-specializer-using-class)
790 (setf (gdefinition 'unparse-specializer-using-class)
791 (symbol-function 'real-unparse-specializer-using-class)))
793 ;;; a helper function for creating Python-friendly type declarations
794 ;;; in DEFMETHOD forms.
796 ;;; We're too lazy to cons up a new environment for this, so we just pass in
797 ;;; the list of locally declared specials in addition to the old environment.
798 (defun parameter-specializer-declaration-in-defmethod
799 (parameter specializer specials env)
800 (cond ((and (consp specializer)
801 (eq (car specializer) 'eql))
802 ;; KLUDGE: ANSI, in its wisdom, says that
803 ;; EQL-SPECIALIZER-FORMs in EQL specializers are evaluated at
804 ;; DEFMETHOD expansion time. Thus, although one might think
806 ;; (DEFMETHOD FOO ((X PACKAGE)
809 ;; the PACKAGE and (EQL 12) forms are both parallel type
810 ;; names, they're not, as is made clear when you do
811 ;; (DEFMETHOD FOO ((X PACKAGE)
814 ;; where Y needs to be a symbol named "BAR", not some cons
815 ;; made by (CONS 'QUOTE 'BAR). I.e. when the
816 ;; EQL-SPECIALIZER-FORM is (EQL 'X), it requires an argument
817 ;; to be of type (EQL X). It'd be easy to transform one to
818 ;; the other, but it'd be somewhat messier to do so while
819 ;; ensuring that the EQL-SPECIALIZER-FORM is only EVAL'd
820 ;; once. (The new code wouldn't be messy, but it'd require a
821 ;; big transformation of the old code.) So instead we punt.
825 ;; KLUDGE: For some low-level implementation
826 ;; classes, perhaps because of some problems related
827 ;; to the incomplete integration of PCL into SBCL's
828 ;; type system, some specializer classes can't be
829 ;; declared as argument types. E.g.
830 ;; (DEFMETHOD FOO ((X SLOT-OBJECT))
831 ;; (DECLARE (TYPE SLOT-OBJECT X))
834 ;; (DEFSTRUCT BAR A B)
836 ;; perhaps because of the way that STRUCTURE-OBJECT
837 ;; inherits both from SLOT-OBJECT and from
838 ;; SB-KERNEL:INSTANCE. In an effort to sweep such
839 ;; problems under the rug, we exclude these problem
840 ;; cases by blacklisting them here. -- WHN 2001-01-19
841 (list 'slot-object #+nil (find-class 'slot-object)))
843 ((not (eq **boot-state** 'complete))
844 ;; KLUDGE: PCL, in its wisdom, sometimes calls methods with
845 ;; types which don't match their specializers. (Specifically,
846 ;; it calls ENSURE-CLASS-USING-CLASS (T NULL) with a non-NULL
847 ;; second argument.) Hopefully it only does this kind of
848 ;; weirdness when bootstrapping.. -- WHN 20000610
850 ((typep specializer 'eql-specializer)
851 `(type (eql ,(eql-specializer-object specializer)) ,parameter))
852 ((or (var-special-p parameter env) (member parameter specials))
853 ;; Don't declare types for special variables -- our rebinding magic
854 ;; for SETQ cases don't work right there as SET, (SETF SYMBOL-VALUE),
855 ;; etc. make things undecidable.
858 ;; Otherwise, we can usually make Python very happy.
860 ;; KLUDGE: Since INFO doesn't work right for class objects here,
861 ;; and they are valid specializers, see if the specializer is
862 ;; a named class, and use the name in that case -- otherwise
863 ;; the class instance is ok, since info will just return NIL, NIL.
865 ;; We still need to deal with the class case too, but at
866 ;; least #.(find-class 'integer) and integer as equivalent
867 ;; specializers with this.
868 (let* ((specializer-nameoid
869 (if (and (typep specializer 'class)
870 (let ((name (class-name specializer)))
871 (and name (symbolp name)
872 (eq specializer (find-class name nil)))))
873 (class-name specializer)
875 (kind (info :type :kind specializer-nameoid)))
877 (flet ((specializer-nameoid-class ()
878 (typecase specializer-nameoid
879 (symbol (find-class specializer-nameoid nil))
880 (class specializer-nameoid)
881 (class-eq-specializer
882 (specializer-class specializer-nameoid))
885 ((:primitive) `(type ,specializer-nameoid ,parameter))
887 (let ((class (specializer-nameoid-class)))
888 ;; CLASS can be null here if the user has
889 ;; erroneously tried to use a defined type as a
890 ;; specializer; it can be a non-BUILT-IN-CLASS if
891 ;; the user defines a type and calls (SETF
892 ;; FIND-CLASS) in a consistent way.
893 (when (and class (typep class 'built-in-class))
894 `(type ,(class-name class) ,parameter))))
896 (let ((class (specializer-nameoid-class)))
899 (if (typep class '(or built-in-class structure-class))
900 `(type ,class ,parameter)
901 ;; don't declare CLOS classes as parameters;
902 ;; it's too expensive.
905 ;; we can get here, and still not have a failure
906 ;; case, by doing MOP programming like (PROGN
907 ;; (ENSURE-CLASS 'FOO) (DEFMETHOD BAR ((X FOO))
908 ;; ...)). Best to let the user know we haven't
909 ;; been able to extract enough information:
911 "~@<can't find type for specializer ~S in ~S.~@:>"
913 'parameter-specializer-declaration-in-defmethod)
915 ((:forthcoming-defclass-type)
918 ;;; For passing a list (groveled by the walker) of the required
919 ;;; parameters whose bindings are modified in the method body to the
920 ;;; optimized-slot-value* macros.
921 (define-symbol-macro %parameter-binding-modified ())
923 (defmacro simple-lexical-method-functions ((lambda-list
929 ,method-args ,next-methods
930 (bind-simple-lexical-method-functions (,method-args ,next-methods
932 (bind-args (,lambda-list ,method-args)
935 (defmacro fast-lexical-method-functions ((lambda-list
941 `(bind-fast-lexical-method-functions (,args ,rest-arg ,next-method-call ,lmf-options)
942 (bind-args (,(nthcdr (length args) lambda-list) ,rest-arg)
945 (defmacro bind-simple-lexical-method-functions
946 ((method-args next-methods (&key call-next-method-p next-method-p-p setq-p
947 parameters-setqd closurep applyp method-cell))
950 (if (not (or call-next-method-p setq-p closurep next-method-p-p applyp))
953 `(let ((.next-method. (car ,next-methods))
954 (,next-methods (cdr ,next-methods)))
955 (declare (ignorable .next-method. ,next-methods))
956 (flet (,@(and call-next-method-p
959 ,@(if (safe-code-p env)
960 `((%check-cnm-args cnm-args
965 (funcall (if (std-instance-p .next-method.)
966 (method-function .next-method.)
967 .next-method.) ; for early methods
968 (or cnm-args ,method-args)
970 (apply #'call-no-next-method
972 (or cnm-args ,method-args))))))
973 ,@(and next-method-p-p
975 (not (null .next-method.))))))
978 (defun call-no-next-method (method-cell &rest args)
979 (let ((method (car method-cell)))
981 ;; Can't easily provide a RETRY restart here, as the return value here is
982 ;; for the method, not the generic function.
983 (apply #'no-next-method (method-generic-function method)
986 (defun call-no-applicable-method (gf args)
988 (apply #'no-applicable-method gf args)
990 :report "Retry calling the generic function."
993 (defun call-no-primary-method (gf args)
995 (apply #'no-primary-method gf args)
997 :report "Retry calling the generic function."
1000 (defstruct (method-call (:copier nil))
1001 (function #'identity :type function)
1003 (defstruct (constant-method-call (:copier nil) (:include method-call))
1006 #-sb-fluid (declaim (sb-ext:freeze-type method-call))
1008 (defmacro invoke-method-call1 (function args cm-args)
1009 `(let ((.function. ,function)
1011 (.cm-args. ,cm-args))
1012 (if (and .cm-args. (null (cdr .cm-args.)))
1013 (funcall .function. .args. (car .cm-args.))
1014 (apply .function. .args. .cm-args.))))
1016 (defmacro invoke-method-call (method-call restp &rest required-args+rest-arg)
1017 `(invoke-method-call1 (method-call-function ,method-call)
1019 `(list* ,@required-args+rest-arg)
1020 `(list ,@required-args+rest-arg))
1021 (method-call-call-method-args ,method-call)))
1023 (defstruct (fast-method-call (:copier nil))
1024 (function #'identity :type function)
1028 (defstruct (constant-fast-method-call
1029 (:copier nil) (:include fast-method-call))
1032 #-sb-fluid (declaim (sb-ext:freeze-type fast-method-call))
1034 ;; The two variants of INVOKE-FAST-METHOD-CALL differ in how REST-ARGs
1035 ;; are handled. The first one will get REST-ARG as a single list (as
1036 ;; the last argument), and will thus need to use APPLY. The second one
1037 ;; will get them as a &MORE argument, so we can pass the arguments
1038 ;; directly with MULTIPLE-VALUE-CALL and %MORE-ARG-VALUES.
1040 (defmacro invoke-fast-method-call (method-call restp &rest required-args+rest-arg)
1041 `(,(if restp 'apply 'funcall) (fast-method-call-function ,method-call)
1042 (fast-method-call-pv ,method-call)
1043 (fast-method-call-next-method-call ,method-call)
1044 ,@required-args+rest-arg))
1046 (defmacro invoke-fast-method-call/more (method-call
1049 &rest required-args)
1050 (macrolet ((generate-call (n)
1051 ``(funcall (fast-method-call-function ,method-call)
1052 (fast-method-call-pv ,method-call)
1053 (fast-method-call-next-method-call ,method-call)
1055 ,@(loop for x below ,n
1056 collect `(sb-c::%more-arg ,more-context ,x)))))
1057 ;; The cases with only small amounts of required arguments passed
1058 ;; are probably very common, and special-casing speeds them up by
1059 ;; a factor of 2 with very little effect on the other
1060 ;; cases. Though it'd be nice to have the generic case be equally
1063 (0 ,(generate-call 0))
1064 (1 ,(generate-call 1))
1065 (t (multiple-value-call (fast-method-call-function ,method-call)
1066 (values (fast-method-call-pv ,method-call))
1067 (values (fast-method-call-next-method-call ,method-call))
1069 (sb-c::%more-arg-values ,more-context 0 ,more-count))))))
1071 (defstruct (fast-instance-boundp (:copier nil))
1072 (index 0 :type fixnum))
1074 #-sb-fluid (declaim (sb-ext:freeze-type fast-instance-boundp))
1076 (eval-when (:compile-toplevel :load-toplevel :execute)
1077 (defvar *allow-emf-call-tracing-p* nil)
1078 (defvar *enable-emf-call-tracing-p* #-sb-show nil #+sb-show t))
1080 ;;;; effective method functions
1082 (defvar *emf-call-trace-size* 200)
1083 (defvar *emf-call-trace* nil)
1084 (defvar *emf-call-trace-index* 0)
1086 ;;; This function was in the CMU CL version of PCL (ca Debian 2.4.8)
1087 ;;; without explanation. It appears to be intended for debugging, so
1088 ;;; it might be useful someday, so I haven't deleted it.
1089 ;;; But it isn't documented and isn't used for anything now, so
1090 ;;; I've conditionalized it out of the base system. -- WHN 19991213
1092 (defun show-emf-call-trace ()
1093 (when *emf-call-trace*
1094 (let ((j *emf-call-trace-index*)
1095 (*enable-emf-call-tracing-p* nil))
1096 (format t "~&(The oldest entries are printed first)~%")
1097 (dotimes-fixnum (i *emf-call-trace-size*)
1098 (let ((ct (aref *emf-call-trace* j)))
1099 (when ct (print ct)))
1101 (when (= j *emf-call-trace-size*)
1104 (defun trace-emf-call-internal (emf format args)
1105 (unless *emf-call-trace*
1106 (setq *emf-call-trace* (make-array *emf-call-trace-size*)))
1107 (setf (aref *emf-call-trace* *emf-call-trace-index*)
1108 (list* emf format args))
1109 (incf *emf-call-trace-index*)
1110 (when (= *emf-call-trace-index* *emf-call-trace-size*)
1111 (setq *emf-call-trace-index* 0)))
1113 (defmacro trace-emf-call (emf format args)
1114 (when *allow-emf-call-tracing-p*
1115 `(when *enable-emf-call-tracing-p*
1116 (trace-emf-call-internal ,emf ,format ,args))))
1118 (defmacro invoke-effective-method-function-fast
1119 (emf restp &key required-args rest-arg more-arg)
1121 (trace-emf-call ,emf ,restp (list ,@required-args rest-arg))
1123 `(invoke-fast-method-call/more ,emf
1126 `(invoke-fast-method-call ,emf
1131 (defun effective-method-optimized-slot-access-clause
1132 (emf restp required-args)
1133 ;; "What," you may wonder, "do these next two clauses do?" In that
1134 ;; case, you are not a PCL implementor, for they considered this to
1135 ;; be self-documenting.:-| Or CSR, for that matter, since he can
1136 ;; also figure it out by looking at it without breaking stride. For
1137 ;; the rest of us, though: From what the code is doing with .SLOTS.
1138 ;; and whatnot, evidently it's implementing SLOT-VALUEish and
1139 ;; GET-SLOT-VALUEish things. Then we can reason backwards and
1140 ;; conclude that setting EMF to a FIXNUM is an optimized way to
1141 ;; represent these slot access operations.
1143 (let ((length (length required-args)))
1146 (let* ((.slots. (get-slots-or-nil
1147 ,(car required-args)))
1148 (value (when .slots. (clos-slots-ref .slots. ,emf))))
1149 (if (eq value +slot-unbound+)
1150 (slot-unbound-internal ,(car required-args)
1155 (let ((.new-value. ,(car required-args))
1156 (.slots. (get-slots-or-nil
1157 ,(cadr required-args))))
1159 (setf (clos-slots-ref .slots. ,emf) .new-value.)))))))
1160 ;; (In cmucl-2.4.8 there was a commented-out third ,@(WHEN
1161 ;; ...) clause here to handle SLOT-BOUNDish stuff. Since
1162 ;; there was no explanation and presumably the code is 10+
1163 ;; years stale, I simply deleted it. -- WHN)
1166 ;;; Before SBCL 0.9.16.7 instead of
1167 ;;; INVOKE-NARROW-EFFECTIVE-METHOD-FUNCTION we passed a (THE (OR
1168 ;;; FUNCTION METHOD-CALL FAST-METHOD-CALL) EMF) form as the EMF. Now,
1169 ;;; to make less work for the compiler we take a path that doesn't
1170 ;;; involve the slot-accessor clause (where EMF is a FIXNUM) at all.
1171 (macrolet ((def (name &optional narrow)
1172 `(defmacro ,name (emf restp &key required-args rest-arg more-arg)
1173 (unless (constantp restp)
1174 (error "The RESTP argument is not constant."))
1175 (setq restp (constant-form-value restp))
1176 (with-unique-names (emf-n)
1178 (declare (optimize (sb-c:insert-step-conditions 0)))
1179 (let ((,emf-n ,emf))
1180 (trace-emf-call ,emf-n ,restp (list ,@required-args ,@rest-arg))
1184 `(invoke-fast-method-call/more ,emf-n
1187 `(invoke-fast-method-call ,emf-n
1192 `(effective-method-optimized-slot-access-clause
1193 emf-n restp required-args))
1195 (invoke-method-call ,emf-n ,restp ,@required-args
1199 `(apply ,emf-n ,@required-args ,@rest-arg)
1200 `(funcall ,emf-n ,@required-args
1201 ,@rest-arg))))))))))
1202 (def invoke-effective-method-function nil)
1203 (def invoke-narrow-effective-method-function t))
1205 (defun invoke-emf (emf args)
1206 (trace-emf-call emf t args)
1209 (let* ((arg-info (fast-method-call-arg-info emf))
1210 (restp (cdr arg-info))
1211 (nreq (car arg-info)))
1213 (apply (fast-method-call-function emf)
1214 (fast-method-call-pv emf)
1215 (fast-method-call-next-method-call emf)
1219 (invoke-fast-method-call emf nil)
1220 (error 'simple-program-error
1221 :format-control "invalid number of arguments: 0"
1222 :format-arguments nil)))
1225 (invoke-fast-method-call emf nil (car args))
1226 (error 'simple-program-error
1227 :format-control "invalid number of arguments: 1"
1228 :format-arguments nil)))
1231 (invoke-fast-method-call emf nil (car args) (cadr args))
1232 (error 'simple-program-error
1233 :format-control "invalid number of arguments: 2"
1234 :format-arguments nil)))
1236 (apply (fast-method-call-function emf)
1237 (fast-method-call-pv emf)
1238 (fast-method-call-next-method-call emf)
1241 (apply (method-call-function emf)
1243 (method-call-call-method-args emf)))
1246 (error 'simple-program-error
1247 :format-control "invalid number of arguments: 0"
1248 :format-arguments nil))
1250 (let* ((slots (get-slots (car args)))
1251 (value (clos-slots-ref slots emf)))
1252 (if (eq value +slot-unbound+)
1253 (slot-unbound-internal (car args) emf)
1256 (setf (clos-slots-ref (get-slots (cadr args)) emf)
1258 (t (error 'simple-program-error
1259 :format-control "invalid number of arguments"
1260 :format-arguments nil))))
1261 (fast-instance-boundp
1262 (if (or (null args) (cdr args))
1263 (error 'simple-program-error
1264 :format-control "invalid number of arguments"
1265 :format-arguments nil)
1266 (let ((slots (get-slots (car args))))
1267 (not (eq (clos-slots-ref slots (fast-instance-boundp-index emf))
1273 (defmacro fast-call-next-method-body ((args next-method-call rest-arg)
1276 `(if ,next-method-call
1277 ,(let ((call `(invoke-narrow-effective-method-function
1279 ,(not (null rest-arg))
1280 :required-args ,args
1281 :rest-arg ,(when rest-arg (list rest-arg)))))
1285 `(&rest ,rest-arg)))
1289 (call-no-next-method ',method-cell
1294 (defmacro bind-fast-lexical-method-functions
1295 ((args rest-arg next-method-call (&key
1305 (let* ((all-params (append args (when rest-arg (list rest-arg))))
1306 (rebindings (when (or setq-p call-next-method-p)
1307 (mapcar (lambda (x) (list x x)) all-params))))
1308 (if (not (or call-next-method-p setq-p closurep next-method-p-p applyp))
1311 `(flet (,@(when call-next-method-p
1312 `((call-next-method (&rest cnm-args)
1313 (declare (muffle-conditions code-deletion-note)
1314 (optimize (sb-c:insert-step-conditions 0)))
1315 ,@(if (safe-code-p env)
1316 `((%check-cnm-args cnm-args (list ,@args)
1319 (fast-call-next-method-body (,args
1324 ,@(when next-method-p-p
1326 (declare (optimize (sb-c:insert-step-conditions 0)))
1327 (not (null ,next-method-call))))))
1329 ,@(when rebindings `((declare (ignorable ,@all-params))))
1332 ;;; CMUCL comment (Gerd Moellmann):
1334 ;;; The standard says it's an error if CALL-NEXT-METHOD is called with
1335 ;;; arguments, and the set of methods applicable to those arguments is
1336 ;;; different from the set of methods applicable to the original
1337 ;;; method arguments. (According to Barry Margolin, this rule was
1338 ;;; probably added to ensure that before and around methods are always
1339 ;;; run before primary methods.)
1341 ;;; This could be optimized for the case that the generic function
1342 ;;; doesn't have hairy methods, does have standard method combination,
1343 ;;; is a standard generic function, there are no methods defined on it
1344 ;;; for COMPUTE-APPLICABLE-METHODS and probably a lot more of such
1345 ;;; preconditions. That looks hairy and is probably not worth it,
1346 ;;; because this check will never be fast.
1347 (defun %check-cnm-args (cnm-args orig-args method-cell)
1349 (let* ((gf (method-generic-function (car method-cell)))
1350 (omethods (compute-applicable-methods gf orig-args))
1351 (nmethods (compute-applicable-methods gf cnm-args)))
1352 (unless (equal omethods nmethods)
1353 (error "~@<The set of methods ~S applicable to argument~P ~
1354 ~{~S~^, ~} to call-next-method is different from ~
1355 the set of methods ~S applicable to the original ~
1356 method argument~P ~{~S~^, ~}.~@:>"
1357 nmethods (length cnm-args) cnm-args omethods
1358 (length orig-args) orig-args)))))
1360 (defmacro bind-args ((lambda-list args) &body body)
1361 (let ((args-tail '.args-tail.)
1364 (flet ((process-var (var)
1365 (if (memq var lambda-list-keywords)
1368 (&optional (setq state 'optional))
1369 (&key (setq state 'key))
1371 (&rest (setq state 'rest))
1372 (&aux (setq state 'aux))
1375 "encountered the non-standard lambda list keyword ~S"
1379 (required `((,var (pop ,args-tail))))
1380 (optional (cond ((not (consp var))
1381 `((,var (when ,args-tail
1382 (pop ,args-tail)))))
1384 `((,(car var) (if ,args-tail
1388 `((,(caddr var) (not (null ,args-tail)))
1389 (,(car var) (if ,args-tail
1392 (rest `((,var ,args-tail)))
1393 (key (cond ((not (consp var))
1395 (get-key-arg-tail ,(keywordicate var)
1398 (multiple-value-bind (keyword variable)
1399 (if (consp (car var))
1402 (values (keywordicate (car var))
1404 `((,key (get-key-arg-tail ',keyword
1410 (multiple-value-bind (keyword variable)
1411 (if (consp (car var))
1414 (values (keywordicate (car var))
1416 `((,key (get-key-arg-tail ',keyword
1418 (,(caddr var) (not (null,key)))
1423 (let ((bindings (mapcan #'process-var lambda-list)))
1424 `(let* ((,args-tail ,args)
1427 ,@(when (eq state 'optional)
1428 `((unless (null ,args-tail)
1429 (error 'simple-program-error
1430 :format-control "surplus arguments: ~S"
1431 :format-arguments (list ,args-tail)))))))
1432 (declare (ignorable ,args-tail .dummy0.))
1435 (defun get-key-arg-tail (keyword list)
1436 (loop for (key . tail) on list by #'cddr
1438 ;; FIXME: Do we want to export this symbol? Or maybe use an
1439 ;; (ERROR 'SIMPLE-PROGRAM-ERROR) form?
1440 (sb-c::%odd-key-args-error)
1441 when (eq key keyword)
1444 (defun walk-method-lambda (method-lambda required-parameters env slots)
1445 (let (;; flag indicating that CALL-NEXT-METHOD should be in the
1446 ;; method definition
1447 (call-next-method-p nil)
1448 ;; flag indicating that #'CALL-NEXT-METHOD was seen in the
1451 ;; flag indicating that NEXT-METHOD-P should be in the method
1453 (next-method-p-p nil)
1454 ;; a list of all required parameters whose bindings might be
1455 ;; modified in the method body.
1456 (parameters-setqd nil))
1457 (flet ((walk-function (form context env)
1458 (cond ((not (eq context :eval)) form)
1459 ;; FIXME: Jumping to a conclusion from the way it's used
1460 ;; above, perhaps CONTEXT should be called SITUATION
1461 ;; (after the term used in the ANSI specification of
1462 ;; EVAL-WHEN) and given modern ANSI keyword values
1463 ;; like :LOAD-TOPLEVEL.
1464 ((not (listp form)) form)
1465 ((eq (car form) 'call-next-method)
1466 (setq call-next-method-p t)
1468 ((eq (car form) 'next-method-p)
1469 (setq next-method-p-p t)
1471 ((memq (car form) '(setq multiple-value-setq))
1472 ;; The walker will split (SETQ A 1 B 2) to
1473 ;; separate (SETQ A 1) and (SETQ B 2) forms, so we
1474 ;; only need to handle the simple case of SETQ
1476 (let ((vars (if (eq (car form) 'setq)
1477 (list (second form))
1480 ;; Note that we don't need to check for
1481 ;; %VARIABLE-REBINDING declarations like is
1482 ;; done in CAN-OPTIMIZE-ACCESS1, since the
1483 ;; bindings that will have that declation will
1485 (when (var-declaration '%class var env)
1486 ;; If a parameter binding is shadowed by
1487 ;; another binding it won't have a %CLASS
1488 ;; declaration anymore, and this won't get
1490 (pushnew var parameters-setqd :test #'eq))))
1492 ((and (eq (car form) 'function)
1493 (cond ((eq (cadr form) 'call-next-method)
1494 (setq call-next-method-p t)
1497 ((eq (cadr form) 'next-method-p)
1498 (setq next-method-p-p t)
1502 ((and (memq (car form)
1503 '(slot-value set-slot-value slot-boundp))
1504 (constantp (caddr form) env))
1505 (let ((fun (ecase (car form)
1506 (slot-value #'optimize-slot-value)
1507 (set-slot-value #'optimize-set-slot-value)
1508 (slot-boundp #'optimize-slot-boundp))))
1509 (funcall fun form slots required-parameters env)))
1512 (let ((walked-lambda (walk-form method-lambda env #'walk-function)))
1513 ;;; FIXME: the walker's rewriting of the source code causes
1514 ;;; trouble when doing code coverage. The rewrites should be
1515 ;;; removed, and the same operations done using
1516 ;;; compiler-macros or tranforms.
1517 (values (if (sb-c:policy env (= sb-c:store-coverage-data 0))
1523 (not (null parameters-setqd))
1524 parameters-setqd)))))
1526 (defun generic-function-name-p (name)
1527 (and (legal-fun-name-p name)
1529 (if (eq **boot-state** 'complete)
1530 (standard-generic-function-p (gdefinition name))
1531 (funcallable-instance-p (gdefinition name)))))
1533 (defun method-plist-value (method key &optional default)
1534 (let ((plist (if (consp method)
1535 (getf (early-method-initargs method) 'plist)
1536 (object-plist method))))
1537 (getf plist key default)))
1539 (defun (setf method-plist-value) (new-value method key &optional default)
1541 (setf (getf (getf (early-method-initargs method) 'plist) key default)
1543 (setf (getf (object-plist method) key default) new-value)))
1545 (defun load-defmethod (class name quals specls ll initargs source-location)
1546 (let ((method-cell (getf initargs 'method-cell)))
1547 (setq initargs (copy-tree initargs))
1549 (setf (getf initargs 'method-cell) method-cell))
1551 (setf (getf (getf initargs 'plist) :name)
1552 (make-method-spec name quals specls))
1553 (load-defmethod-internal class name quals specls
1554 ll initargs source-location)))
1556 (defun load-defmethod-internal
1557 (method-class gf-spec qualifiers specializers lambda-list
1558 initargs source-location)
1559 (when (and (eq **boot-state** 'complete)
1561 (let* ((gf (fdefinition gf-spec))
1562 (method (and (generic-function-p gf)
1563 (generic-function-methods gf)
1564 (find-method gf qualifiers specializers nil))))
1566 (warn 'sb-kernel:redefinition-with-defmethod
1568 :new-location source-location
1570 :qualifiers qualifiers :specializers specializers))))
1571 (let ((method (apply #'add-named-method
1572 gf-spec qualifiers specializers lambda-list
1573 :definition-source source-location
1575 (unless (or (eq method-class 'standard-method)
1576 (eq (find-class method-class nil) (class-of method)))
1577 ;; FIXME: should be STYLE-WARNING?
1578 (format *error-output*
1579 "~&At the time the method with qualifiers ~:S and~%~
1580 specializers ~:S on the generic function ~S~%~
1581 was compiled, the method-class for that generic function was~%~
1582 ~S. But, the method class is now ~S, this~%~
1583 may mean that this method was compiled improperly.~%"
1584 qualifiers specializers gf-spec
1585 method-class (class-name (class-of method))))
1588 (defun make-method-spec (gf qualifiers specializers)
1589 (let ((name (generic-function-name gf))
1590 (unparsed-specializers (unparse-specializers gf specializers)))
1591 `(slow-method ,name ,@qualifiers ,unparsed-specializers)))
1593 (defun initialize-method-function (initargs method)
1594 (let* ((mf (getf initargs :function))
1595 (mff (and (typep mf '%method-function)
1596 (%method-function-fast-function mf)))
1597 (plist (getf initargs 'plist))
1598 (name (getf plist :name))
1599 (method-cell (getf initargs 'method-cell)))
1601 (setf (car method-cell) method))
1604 (setq mf (set-fun-name mf name)))
1605 (when (and mff (consp name) (eq (car name) 'slow-method))
1606 (let ((fast-name `(fast-method ,@(cdr name))))
1607 (set-fun-name mff fast-name))))
1609 (let ((plist plist))
1610 (let ((snl (getf plist :slot-name-lists)))
1612 (setf (method-plist-value method :pv-table)
1613 (intern-pv-table :slot-name-lists snl))))))))
1615 (defun analyze-lambda-list (lambda-list)
1616 (flet (;; FIXME: Is this redundant with SB-C::MAKE-KEYWORD-FOR-ARG?
1617 (parse-key-arg (arg)
1619 (if (listp (car arg))
1621 (keywordicate (car arg)))
1622 (keywordicate arg))))
1628 (allow-other-keys-p nil)
1630 (keyword-parameters ())
1632 (dolist (x lambda-list)
1633 (if (memq x lambda-list-keywords)
1635 (&optional (setq state 'optional))
1638 (&allow-other-keys (setq allow-other-keys-p t))
1639 (&rest (setq restp t
1643 (error "encountered the non-standard lambda list keyword ~S"
1646 (required (incf nrequired))
1647 (optional (incf noptional))
1648 (key (push (parse-key-arg x) keywords)
1649 (push x keyword-parameters))
1650 (rest (incf nrest)))))
1651 (when (and restp (zerop nrest))
1652 (error "Error in lambda-list:~%~
1653 After &REST, a DEFGENERIC lambda-list ~
1654 must be followed by at least one variable."))
1655 (values nrequired noptional keysp restp allow-other-keys-p
1657 (reverse keyword-parameters)))))
1659 (defun keyword-spec-name (x)
1660 (let ((key (if (atom x) x (car x))))
1665 (defun ftype-declaration-from-lambda-list (lambda-list name)
1666 (multiple-value-bind (nrequired noptional keysp restp allow-other-keys-p
1667 keywords keyword-parameters)
1668 (analyze-lambda-list lambda-list)
1669 (declare (ignore keyword-parameters))
1670 (let* ((old (info :function :type name)) ;FIXME:FDOCUMENTATION instead?
1671 (old-ftype (if (fun-type-p old) old nil))
1672 (old-restp (and old-ftype (fun-type-rest old-ftype)))
1673 (old-keys (and old-ftype
1674 (mapcar #'key-info-name
1677 (old-keysp (and old-ftype (fun-type-keyp old-ftype)))
1678 (old-allowp (and old-ftype
1679 (fun-type-allowp old-ftype)))
1680 (keywords (union old-keys (mapcar #'keyword-spec-name keywords))))
1681 `(function ,(append (make-list nrequired :initial-element t)
1682 (when (plusp noptional)
1683 (append '(&optional)
1684 (make-list noptional :initial-element t)))
1685 (when (or restp old-restp)
1687 (when (or keysp old-keysp)
1689 (mapcar (lambda (key)
1692 (when (or allow-other-keys-p old-allowp)
1693 '(&allow-other-keys)))))
1696 ;;;; early generic function support
1698 (defvar *!early-generic-functions* ())
1700 (defun ensure-generic-function (fun-name
1702 &key environment definition-source
1704 (declare (ignore environment))
1705 (let ((existing (and (fboundp fun-name)
1706 (gdefinition fun-name))))
1707 (cond ((and existing
1708 (eq **boot-state** 'complete)
1709 (null (generic-function-p existing)))
1710 (generic-clobbers-function fun-name)
1711 (fmakunbound fun-name)
1712 (apply #'ensure-generic-function fun-name all-keys))
1714 (apply #'ensure-generic-function-using-class
1715 existing fun-name all-keys)))))
1717 (defun generic-clobbers-function (fun-name)
1718 (cerror "Replace the function binding"
1719 'simple-program-error
1720 :format-control "~S already names an ordinary function or a macro."
1721 :format-arguments (list fun-name)))
1723 (defvar *sgf-wrapper*
1724 (boot-make-wrapper (early-class-size 'standard-generic-function)
1725 'standard-generic-function))
1727 (defvar *sgf-slots-init*
1728 (mapcar (lambda (canonical-slot)
1729 (if (memq (getf canonical-slot :name) '(arg-info source))
1731 (let ((initfunction (getf canonical-slot :initfunction)))
1733 (funcall initfunction)
1735 (early-collect-inheritance 'standard-generic-function)))
1737 (defconstant +sgf-method-class-index+
1738 (!bootstrap-slot-index 'standard-generic-function 'method-class))
1740 (defun early-gf-p (x)
1741 (and (fsc-instance-p x)
1742 (eq (clos-slots-ref (get-slots x) +sgf-method-class-index+)
1745 (defconstant +sgf-methods-index+
1746 (!bootstrap-slot-index 'standard-generic-function 'methods))
1748 (defmacro early-gf-methods (gf)
1749 `(clos-slots-ref (get-slots ,gf) +sgf-methods-index+))
1751 (defun safe-generic-function-methods (generic-function)
1752 (if (eq (class-of generic-function) *the-class-standard-generic-function*)
1753 (clos-slots-ref (get-slots generic-function) +sgf-methods-index+)
1754 (generic-function-methods generic-function)))
1756 (defconstant +sgf-arg-info-index+
1757 (!bootstrap-slot-index 'standard-generic-function 'arg-info))
1759 (defmacro early-gf-arg-info (gf)
1760 `(clos-slots-ref (get-slots ,gf) +sgf-arg-info-index+))
1762 (defconstant +sgf-dfun-state-index+
1763 (!bootstrap-slot-index 'standard-generic-function 'dfun-state))
1765 (defstruct (arg-info
1767 (:constructor make-arg-info ())
1769 (arg-info-lambda-list :no-lambda-list)
1772 arg-info-number-optional
1774 arg-info-keys ;nil no &KEY or &REST allowed
1775 ;(k1 k2 ..) Each method must accept these &KEY arguments.
1776 ;T must have &KEY or &REST
1778 gf-info-simple-accessor-type ; nil, reader, writer, boundp
1779 (gf-precompute-dfun-and-emf-p nil) ; set by set-arg-info
1781 gf-info-static-c-a-m-emf
1782 (gf-info-c-a-m-emf-std-p t)
1785 #-sb-fluid (declaim (sb-ext:freeze-type arg-info))
1787 (defun arg-info-valid-p (arg-info)
1788 (not (null (arg-info-number-optional arg-info))))
1790 (defun arg-info-applyp (arg-info)
1791 (or (plusp (arg-info-number-optional arg-info))
1792 (arg-info-key/rest-p arg-info)))
1794 (defun arg-info-number-required (arg-info)
1795 (length (arg-info-metatypes arg-info)))
1797 (defun arg-info-nkeys (arg-info)
1798 (count-if (lambda (x) (neq x t)) (arg-info-metatypes arg-info)))
1800 (defun create-gf-lambda-list (lambda-list)
1801 ;;; Create a gf lambda list from a method lambda list
1802 (loop for x in lambda-list
1803 collect (if (consp x) (list (car x)) x)
1804 if (eq x '&key) do (loop-finish)))
1806 (defun set-arg-info (gf &key new-method (lambda-list nil lambda-list-p)
1807 argument-precedence-order)
1808 (let* ((arg-info (if (eq **boot-state** 'complete)
1810 (early-gf-arg-info gf)))
1811 (methods (if (eq **boot-state** 'complete)
1812 (generic-function-methods gf)
1813 (early-gf-methods gf)))
1814 (was-valid-p (integerp (arg-info-number-optional arg-info)))
1815 (first-p (and new-method (null (cdr methods)))))
1816 (when (and (not lambda-list-p) methods)
1817 (setq lambda-list (gf-lambda-list gf)))
1818 (when (or lambda-list-p
1820 (eq (arg-info-lambda-list arg-info) :no-lambda-list)))
1821 (multiple-value-bind (nreq nopt keysp restp allow-other-keys-p keywords)
1822 (analyze-lambda-list lambda-list)
1823 (when (and methods (not first-p))
1824 (let ((gf-nreq (arg-info-number-required arg-info))
1825 (gf-nopt (arg-info-number-optional arg-info))
1826 (gf-key/rest-p (arg-info-key/rest-p arg-info)))
1827 (unless (and (= nreq gf-nreq)
1829 (eq (or keysp restp) gf-key/rest-p))
1830 (error "The lambda-list ~S is incompatible with ~
1831 existing methods of ~S."
1833 (setf (arg-info-lambda-list arg-info)
1836 (create-gf-lambda-list lambda-list)))
1837 (when (or lambda-list-p argument-precedence-order
1838 (null (arg-info-precedence arg-info)))
1839 (setf (arg-info-precedence arg-info)
1840 (compute-precedence lambda-list nreq argument-precedence-order)))
1841 (setf (arg-info-metatypes arg-info) (make-list nreq))
1842 (setf (arg-info-number-optional arg-info) nopt)
1843 (setf (arg-info-key/rest-p arg-info) (not (null (or keysp restp))))
1844 (setf (arg-info-keys arg-info)
1846 (if allow-other-keys-p t keywords)
1847 (arg-info-key/rest-p arg-info)))))
1849 (check-method-arg-info gf arg-info new-method))
1850 (set-arg-info1 gf arg-info new-method methods was-valid-p first-p)
1853 (defun check-method-arg-info (gf arg-info method)
1854 (multiple-value-bind (nreq nopt keysp restp allow-other-keys-p keywords)
1855 (analyze-lambda-list (if (consp method)
1856 (early-method-lambda-list method)
1857 (method-lambda-list method)))
1858 (flet ((lose (string &rest args)
1859 (error 'simple-program-error
1860 :format-control "~@<attempt to add the method~2I~_~S~I~_~
1861 to the generic function~2I~_~S;~I~_~
1863 :format-arguments (list method gf string args)))
1864 (comparison-description (x y)
1865 (if (> x y) "more" "fewer")))
1866 (let ((gf-nreq (arg-info-number-required arg-info))
1867 (gf-nopt (arg-info-number-optional arg-info))
1868 (gf-key/rest-p (arg-info-key/rest-p arg-info))
1869 (gf-keywords (arg-info-keys arg-info)))
1870 (unless (= nreq gf-nreq)
1872 "the method has ~A required arguments than the generic function."
1873 (comparison-description nreq gf-nreq)))
1874 (unless (= nopt gf-nopt)
1876 "the method has ~A optional arguments than the generic function."
1877 (comparison-description nopt gf-nopt)))
1878 (unless (eq (or keysp restp) gf-key/rest-p)
1880 "the method and generic function differ in whether they accept~_~
1881 &REST or &KEY arguments."))
1882 (when (consp gf-keywords)
1883 (unless (or (and restp (not keysp))
1885 (every (lambda (k) (memq k keywords)) gf-keywords))
1886 (lose "the method does not accept each of the &KEY arguments~2I~_~
1890 (defconstant +sm-specializers-index+
1891 (!bootstrap-slot-index 'standard-method 'specializers))
1892 (defconstant +sm-%function-index+
1893 (!bootstrap-slot-index 'standard-method '%function))
1894 (defconstant +sm-qualifiers-index+
1895 (!bootstrap-slot-index 'standard-method 'qualifiers))
1897 ;;; FIXME: we don't actually need this; we could test for the exact
1898 ;;; class and deal with it as appropriate. In fact we probably don't
1899 ;;; need it anyway because we only use this for METHOD-SPECIALIZERS on
1900 ;;; the standard reader method for METHOD-SPECIALIZERS. Probably.
1901 (dolist (s '(specializers %function))
1902 (aver (= (symbol-value (intern (format nil "+SM-~A-INDEX+" s)))
1903 (!bootstrap-slot-index 'standard-reader-method s)
1904 (!bootstrap-slot-index 'standard-writer-method s)
1905 (!bootstrap-slot-index 'standard-boundp-method s)
1906 (!bootstrap-slot-index 'global-reader-method s)
1907 (!bootstrap-slot-index 'global-writer-method s)
1908 (!bootstrap-slot-index 'global-boundp-method s))))
1910 (defvar *standard-method-class-names*
1911 '(standard-method standard-reader-method
1912 standard-writer-method standard-boundp-method
1913 global-reader-method global-writer-method
1914 global-boundp-method))
1916 (declaim (list **standard-method-classes**))
1917 (defglobal **standard-method-classes** nil)
1919 (defun safe-method-specializers (method)
1920 (if (member (class-of method) **standard-method-classes** :test #'eq)
1921 (clos-slots-ref (std-instance-slots method) +sm-specializers-index+)
1922 (method-specializers method)))
1923 (defun safe-method-fast-function (method)
1924 (let ((mf (safe-method-function method)))
1925 (and (typep mf '%method-function)
1926 (%method-function-fast-function mf))))
1927 (defun safe-method-function (method)
1928 (if (member (class-of method) **standard-method-classes** :test #'eq)
1929 (clos-slots-ref (std-instance-slots method) +sm-%function-index+)
1930 (method-function method)))
1931 (defun safe-method-qualifiers (method)
1932 (if (member (class-of method) **standard-method-classes** :test #'eq)
1933 (clos-slots-ref (std-instance-slots method) +sm-qualifiers-index+)
1934 (method-qualifiers method)))
1936 (defun set-arg-info1 (gf arg-info new-method methods was-valid-p first-p)
1937 (let* ((existing-p (and methods (cdr methods) new-method))
1938 (nreq (length (arg-info-metatypes arg-info)))
1939 (metatypes (if existing-p
1940 (arg-info-metatypes arg-info)
1942 (type (if existing-p
1943 (gf-info-simple-accessor-type arg-info)
1945 (when (arg-info-valid-p arg-info)
1946 (dolist (method (if new-method (list new-method) methods))
1947 (let* ((specializers (if (or (eq **boot-state** 'complete)
1948 (not (consp method)))
1949 (safe-method-specializers method)
1950 (early-method-specializers method t)))
1951 (class (if (or (eq **boot-state** 'complete) (not (consp method)))
1953 (early-method-class method)))
1956 (or (not (eq **boot-state** 'complete))
1957 (eq (generic-function-method-combination gf)
1958 *standard-method-combination*)))
1959 (cond ((or (eq class *the-class-standard-reader-method*)
1960 (eq class *the-class-global-reader-method*))
1962 ((or (eq class *the-class-standard-writer-method*)
1963 (eq class *the-class-global-writer-method*))
1965 ((or (eq class *the-class-standard-boundp-method*)
1966 (eq class *the-class-global-boundp-method*))
1968 (setq metatypes (mapcar #'raise-metatype metatypes specializers))
1969 (setq type (cond ((null type) new-type)
1970 ((eq type new-type) type)
1972 (setf (arg-info-metatypes arg-info) metatypes)
1973 (setf (gf-info-simple-accessor-type arg-info) type)))
1974 (when (or (not was-valid-p) first-p)
1975 (multiple-value-bind (c-a-m-emf std-p)
1978 (compute-applicable-methods-emf gf))
1979 (setf (gf-info-static-c-a-m-emf arg-info) c-a-m-emf)
1980 (setf (gf-info-c-a-m-emf-std-p arg-info) std-p)
1981 (unless (gf-info-c-a-m-emf-std-p arg-info)
1982 (setf (gf-info-simple-accessor-type arg-info) t))))
1984 (let ((name (if (eq **boot-state** 'complete)
1985 (generic-function-name gf)
1986 (!early-gf-name gf))))
1987 (setf (gf-precompute-dfun-and-emf-p arg-info)
1991 *internal-pcl-generalized-fun-name-symbols*))
1993 (t (let* ((symbol (fun-name-block-name name))
1994 (package (symbol-package symbol)))
1995 (and (or (eq package *pcl-package*)
1996 (memq package (package-use-list *pcl-package*)))
1997 (not (eq package #.(find-package "CL")))
1998 ;; FIXME: this test will eventually be
1999 ;; superseded by the *internal-pcl...* test,
2000 ;; above. While we are in a process of
2001 ;; transition, however, it should probably
2003 (not (find #\Space (symbol-name symbol))))))))))
2004 (setf (gf-info-fast-mf-p arg-info)
2005 (or (not (eq **boot-state** 'complete))
2006 (let* ((method-class (generic-function-method-class gf))
2007 (methods (compute-applicable-methods
2008 #'make-method-lambda
2009 (list gf (class-prototype method-class)
2011 (and methods (null (cdr methods))
2012 (let ((specls (method-specializers (car methods))))
2013 (and (classp (car specls))
2014 (eq 'standard-generic-function
2015 (class-name (car specls)))
2016 (classp (cadr specls))
2017 (eq 'standard-method
2018 (class-name (cadr specls)))))))))
2021 ;;; This is the early definition of ENSURE-GENERIC-FUNCTION-USING-CLASS.
2023 ;;; The STATIC-SLOTS field of the funcallable instances used as early
2024 ;;; generic functions is used to store the early methods and early
2025 ;;; discriminator code for the early generic function. The static
2026 ;;; slots field of the fins contains a list whose:
2027 ;;; CAR - a list of the early methods on this early gf
2028 ;;; CADR - the early discriminator code for this method
2029 (defun ensure-generic-function-using-class (existing spec &rest keys
2030 &key (lambda-list nil
2032 argument-precedence-order
2036 (declare (ignore keys))
2037 (cond ((and existing (early-gf-p existing))
2039 (set-arg-info existing :lambda-list lambda-list))
2041 ((assoc spec *!generic-function-fixups* :test #'equal)
2043 (make-early-gf spec lambda-list lambda-list-p existing
2044 argument-precedence-order definition-source
2046 (bug "The function ~S is not already defined." spec)))
2048 (bug "~S should be on the list ~S."
2049 spec '*!generic-function-fixups*))
2051 (pushnew spec *!early-generic-functions* :test #'equal)
2052 (make-early-gf spec lambda-list lambda-list-p nil
2053 argument-precedence-order definition-source
2056 (defun make-early-gf (spec &optional lambda-list lambda-list-p
2057 function argument-precedence-order source-location
2059 (let ((fin (allocate-standard-funcallable-instance
2060 *sgf-wrapper* *sgf-slots-init*)))
2061 (set-funcallable-instance-function
2064 (if (eq spec 'print-object)
2065 #'(lambda (instance stream)
2066 (print-unreadable-object (instance stream :identity t)
2067 (format stream "std-instance")))
2068 #'(lambda (&rest args)
2069 (declare (ignore args))
2070 (error "The function of the funcallable-instance ~S~
2071 has not been set." fin)))))
2072 (setf (gdefinition spec) fin)
2073 (!bootstrap-set-slot 'standard-generic-function fin 'name spec)
2074 (!bootstrap-set-slot 'standard-generic-function fin
2075 'source source-location)
2076 (!bootstrap-set-slot 'standard-generic-function fin
2077 '%documentation documentation)
2078 (set-fun-name fin spec)
2079 (let ((arg-info (make-arg-info)))
2080 (setf (early-gf-arg-info fin) arg-info)
2082 (setf (info :function :type spec)
2084 (ftype-declaration-from-lambda-list lambda-list spec))
2085 (info :function :where-from spec) :defined-method)
2086 (if argument-precedence-order
2088 :lambda-list lambda-list
2089 :argument-precedence-order argument-precedence-order)
2090 (set-arg-info fin :lambda-list lambda-list))))
2093 (defun safe-gf-dfun-state (generic-function)
2094 (if (eq (class-of generic-function) *the-class-standard-generic-function*)
2095 (clos-slots-ref (fsc-instance-slots generic-function) +sgf-dfun-state-index+)
2096 (gf-dfun-state generic-function)))
2097 (defun (setf safe-gf-dfun-state) (new-value generic-function)
2098 (if (eq (class-of generic-function) *the-class-standard-generic-function*)
2099 (setf (clos-slots-ref (fsc-instance-slots generic-function)
2100 +sgf-dfun-state-index+)
2102 (setf (gf-dfun-state generic-function) new-value)))
2104 (defun set-dfun (gf &optional dfun cache info)
2105 (let ((new-state (if (and dfun (or cache info))
2106 (list* dfun cache info)
2109 ((eq **boot-state** 'complete)
2110 ;; Check that we are under the lock.
2112 (aver (eq sb-thread:*current-thread* (sb-thread::spinlock-value (gf-lock gf))))
2113 (setf (safe-gf-dfun-state gf) new-state))
2115 (setf (clos-slots-ref (get-slots gf) +sgf-dfun-state-index+)
2119 (defun gf-dfun-cache (gf)
2120 (let ((state (if (eq **boot-state** 'complete)
2121 (safe-gf-dfun-state gf)
2122 (clos-slots-ref (get-slots gf) +sgf-dfun-state-index+))))
2125 (cons (cadr state)))))
2127 (defun gf-dfun-info (gf)
2128 (let ((state (if (eq **boot-state** 'complete)
2129 (safe-gf-dfun-state gf)
2130 (clos-slots-ref (get-slots gf) +sgf-dfun-state-index+))))
2133 (cons (cddr state)))))
2135 (defconstant +sgf-name-index+
2136 (!bootstrap-slot-index 'standard-generic-function 'name))
2138 (defun !early-gf-name (gf)
2139 (clos-slots-ref (get-slots gf) +sgf-name-index+))
2141 (defun gf-lambda-list (gf)
2142 (let ((arg-info (if (eq **boot-state** 'complete)
2144 (early-gf-arg-info gf))))
2145 (if (eq :no-lambda-list (arg-info-lambda-list arg-info))
2146 (let ((methods (if (eq **boot-state** 'complete)
2147 (generic-function-methods gf)
2148 (early-gf-methods gf))))
2151 (warn "no way to determine the lambda list for ~S" gf)
2153 (let* ((method (car (last methods)))
2154 (ll (if (consp method)
2155 (early-method-lambda-list method)
2156 (method-lambda-list method))))
2157 (create-gf-lambda-list ll))))
2158 (arg-info-lambda-list arg-info))))
2160 (defmacro real-ensure-gf-internal (gf-class all-keys env)
2162 (cond ((symbolp ,gf-class)
2163 (setq ,gf-class (find-class ,gf-class t ,env)))
2164 ((classp ,gf-class))
2166 (error "The :GENERIC-FUNCTION-CLASS argument (~S) was neither a~%~
2167 class nor a symbol that names a class."
2169 (unless (class-finalized-p ,gf-class)
2170 (if (class-has-a-forward-referenced-superclass-p ,gf-class)
2171 ;; FIXME: reference MOP documentation -- this is an
2172 ;; additional requirement on our users
2173 (error "The generic function class ~S is not finalizeable" ,gf-class)
2174 (finalize-inheritance ,gf-class)))
2175 (remf ,all-keys :generic-function-class)
2176 (remf ,all-keys :environment)
2177 (let ((combin (getf ,all-keys :method-combination '.shes-not-there.)))
2178 (unless (eq combin '.shes-not-there.)
2179 (setf (getf ,all-keys :method-combination)
2180 (find-method-combination (class-prototype ,gf-class)
2183 (let ((method-class (getf ,all-keys :method-class '.shes-not-there.)))
2184 (unless (eq method-class '.shes-not-there.)
2185 (setf (getf ,all-keys :method-class)
2186 (cond ((classp method-class)
2188 (t (find-class method-class t ,env))))))))
2190 (defun note-gf-signature (fun-name lambda-list-p lambda-list)
2191 (unless lambda-list-p
2192 ;; Use the existing lambda-list, if any. It is reasonable to do eg.
2194 ;; (if (fboundp name)
2195 ;; (ensure-generic-function name)
2196 ;; (ensure-generic-function name :lambda-list '(foo)))
2198 ;; in which case we end up here with no lambda-list in the first leg.
2199 (setf (values lambda-list lambda-list-p)
2201 (values (generic-function-lambda-list (fdefinition fun-name))
2203 ((or warning error) ()
2204 (values nil nil)))))
2208 (ftype-declaration-from-lambda-list lambda-list fun-name)
2211 ;; FIXME: Ideally we would like to not clobber it, but because generic
2212 ;; functions assert their FTYPEs callers believing the FTYPE are left with
2213 ;; unsafe assumptions. Hence the clobbering. Be quiet when the new type
2214 ;; is a subtype of the old one, though -- even though the type is not
2215 ;; trusted anymore, the warning is still not quite as interesting.
2216 (when (and (eq :declared (info :function :where-from fun-name))
2217 (not (csubtypep gf-type (setf old-type (info :function :type fun-name)))))
2218 (style-warn "~@<Generic function ~S clobbers an earlier ~S proclamation ~S ~
2219 for the same name with ~S.~:@>"
2221 (type-specifier old-type)
2222 (type-specifier gf-type)))
2223 (setf (info :function :type fun-name) gf-type
2224 (info :function :where-from fun-name) :defined-method)
2227 (defun real-ensure-gf-using-class--generic-function
2231 &key environment (lambda-list nil lambda-list-p)
2232 (generic-function-class 'standard-generic-function)
2234 (real-ensure-gf-internal generic-function-class all-keys environment)
2235 ;; KLUDGE: the above macro does SETQ on GENERIC-FUNCTION-CLASS,
2236 ;; which is what makes the next line work
2237 (unless (eq (class-of existing) generic-function-class)
2238 (change-class existing generic-function-class))
2240 (apply #'reinitialize-instance existing all-keys)
2241 (note-gf-signature fun-name lambda-list-p lambda-list)))
2243 (defun real-ensure-gf-using-class--null
2247 &key environment (lambda-list nil lambda-list-p)
2248 (generic-function-class 'standard-generic-function)
2250 (declare (ignore existing))
2251 (real-ensure-gf-internal generic-function-class all-keys environment)
2253 (setf (gdefinition fun-name)
2254 (apply #'make-instance generic-function-class
2255 :name fun-name all-keys))
2256 (note-gf-signature fun-name lambda-list-p lambda-list)))
2258 (defun safe-gf-arg-info (generic-function)
2259 (if (eq (class-of generic-function) *the-class-standard-generic-function*)
2260 (clos-slots-ref (fsc-instance-slots generic-function)
2261 +sgf-arg-info-index+)
2262 (gf-arg-info generic-function)))
2264 ;;; FIXME: this function took on a slightly greater role than it
2265 ;;; previously had around 2005-11-02, when CSR fixed the bug whereby
2266 ;;; having more than one subclass of standard-generic-function caused
2267 ;;; the whole system to die horribly through a metacircle in
2268 ;;; GF-ARG-INFO. The fix is to be slightly more disciplined about
2269 ;;; calling accessor methods -- we call GET-GENERIC-FUN-INFO when
2270 ;;; computing discriminating functions, so we need to be careful about
2271 ;;; having a base case for the recursion, and we provide that with the
2272 ;;; STANDARD-GENERIC-FUNCTION case below. However, we are not (yet)
2273 ;;; as disciplined as CLISP's CLOS/MOP, and it would be nice to get to
2274 ;;; that stage, where all potentially dangerous cases are enumerated
2275 ;;; and stopped. -- CSR, 2005-11-02.
2276 (defun get-generic-fun-info (gf)
2277 ;; values nreq applyp metatypes nkeys arg-info
2278 (multiple-value-bind (applyp metatypes arg-info)
2279 (let* ((arg-info (if (early-gf-p gf)
2280 (early-gf-arg-info gf)
2281 (safe-gf-arg-info gf)))
2282 (metatypes (arg-info-metatypes arg-info)))
2283 (values (arg-info-applyp arg-info)
2286 (values (length metatypes) applyp metatypes
2287 (count-if (lambda (x) (neq x t)) metatypes)
2290 (defun early-make-a-method (class qualifiers arglist specializers initargs doc
2291 &key slot-name object-class method-class-function
2295 ;; Figure out whether we got class objects or class names as the
2296 ;; specializers and set parsed and unparsed appropriately. If we
2297 ;; got class objects, then we can compute unparsed, but if we got
2298 ;; class names we don't try to compute parsed.
2300 ;; Note that the use of not symbolp in this call to every should be
2301 ;; read as 'classp' we can't use classp itself because it doesn't
2303 (if (every (lambda (s) (not (symbolp s))) specializers)
2304 (setq parsed specializers
2305 unparsed (mapcar (lambda (s)
2306 (if (eq s t) t (class-name s)))
2308 (setq unparsed specializers
2313 (getf initargs :function)
2314 (let ((mf (getf initargs :function)))
2316 (and (typep mf '%method-function)
2317 (%method-function-fast-function mf)))
2319 ;; the parsed specializers. This is used by
2320 ;; EARLY-METHOD-SPECIALIZERS to cache the parse.
2321 ;; Note that this only comes into play when there is
2322 ;; more than one early method on an early gf.
2325 ;; A list to which REAL-MAKE-A-METHOD can be applied
2326 ;; to make a real method corresponding to this early
2329 (list class qualifiers arglist unparsed
2332 (list :slot-name slot-name :object-class object-class
2333 :method-class-function method-class-function))
2334 (list :definition-source definition-source)))))
2335 (initialize-method-function initargs result)
2338 (defun real-make-a-method
2339 (class qualifiers lambda-list specializers initargs doc
2340 &rest args &key slot-name object-class method-class-function
2342 (if method-class-function
2343 (let* ((object-class (if (classp object-class) object-class
2344 (find-class object-class)))
2345 (slots (class-direct-slots object-class))
2346 (slot-definition (find slot-name slots
2347 :key #'slot-definition-name)))
2349 (aver slot-definition)
2350 (let ((initargs (list* :qualifiers qualifiers :lambda-list lambda-list
2351 :specializers specializers :documentation doc
2352 :slot-definition slot-definition
2353 :slot-name slot-name initargs)))
2354 (apply #'make-instance
2355 (apply method-class-function object-class slot-definition
2357 :definition-source definition-source
2359 (apply #'make-instance class :qualifiers qualifiers
2360 :lambda-list lambda-list :specializers specializers
2361 :documentation doc (append args initargs))))
2363 (defun early-method-function (early-method)
2364 (values (cadr early-method) (caddr early-method)))
2366 (defun early-method-class (early-method)
2367 (find-class (car (fifth early-method))))
2369 (defun early-method-standard-accessor-p (early-method)
2370 (let ((class (first (fifth early-method))))
2371 (or (eq class 'standard-reader-method)
2372 (eq class 'standard-writer-method)
2373 (eq class 'standard-boundp-method))))
2375 (defun early-method-standard-accessor-slot-name (early-method)
2376 (eighth (fifth early-method)))
2378 ;;; Fetch the specializers of an early method. This is basically just
2379 ;;; a simple accessor except that when the second argument is t, this
2380 ;;; converts the specializers from symbols into class objects. The
2381 ;;; class objects are cached in the early method, this makes
2382 ;;; bootstrapping faster because the class objects only have to be
2386 ;;; The second argument should only be passed as T by
2387 ;;; early-lookup-method. This is to implement the rule that only when
2388 ;;; there is more than one early method on a generic function is the
2389 ;;; conversion from class names to class objects done. This
2390 ;;; corresponds to the fact that we are only allowed to have one
2391 ;;; method on any generic function up until the time classes exist.
2392 (defun early-method-specializers (early-method &optional objectsp)
2393 (if (and (listp early-method)
2394 (eq (car early-method) :early-method))
2395 (cond ((eq objectsp t)
2396 (or (fourth early-method)
2397 (setf (fourth early-method)
2398 (mapcar #'find-class (cadddr (fifth early-method))))))
2400 (fourth (fifth early-method))))
2401 (error "~S is not an early-method." early-method)))
2403 (defun early-method-qualifiers (early-method)
2404 (second (fifth early-method)))
2406 (defun early-method-lambda-list (early-method)
2407 (third (fifth early-method)))
2409 (defun early-method-initargs (early-method)
2410 (fifth (fifth early-method)))
2412 (defun (setf early-method-initargs) (new-value early-method)
2413 (setf (fifth (fifth early-method)) new-value))
2415 (defun early-add-named-method (generic-function-name qualifiers
2416 specializers arglist &rest initargs
2417 &key documentation definition-source
2419 (let* (;; we don't need to deal with the :generic-function-class
2420 ;; argument here because the default,
2421 ;; STANDARD-GENERIC-FUNCTION, is right for all early generic
2422 ;; functions. (See REAL-ADD-NAMED-METHOD)
2423 (gf (ensure-generic-function generic-function-name))
2425 (dolist (m (early-gf-methods gf))
2426 (when (and (equal (early-method-specializers m) specializers)
2427 (equal (early-method-qualifiers m) qualifiers))
2429 (setf (getf (getf initargs 'plist) :name)
2430 (make-method-spec gf qualifiers specializers))
2431 (let ((new (make-a-method 'standard-method qualifiers arglist
2432 specializers initargs documentation
2433 :definition-source definition-source)))
2434 (when existing (remove-method gf existing))
2435 (add-method gf new))))
2437 ;;; This is the early version of ADD-METHOD. Later this will become a
2438 ;;; generic function. See !FIX-EARLY-GENERIC-FUNCTIONS which has
2439 ;;; special knowledge about ADD-METHOD.
2440 (defun add-method (generic-function method)
2441 (when (not (fsc-instance-p generic-function))
2442 (error "Early ADD-METHOD didn't get a funcallable instance."))
2443 (when (not (and (listp method) (eq (car method) :early-method)))
2444 (error "Early ADD-METHOD didn't get an early method."))
2445 (push method (early-gf-methods generic-function))
2446 (set-arg-info generic-function :new-method method)
2447 (unless (assoc (!early-gf-name generic-function)
2448 *!generic-function-fixups*
2450 (update-dfun generic-function)))
2452 ;;; This is the early version of REMOVE-METHOD. See comments on
2453 ;;; the early version of ADD-METHOD.
2454 (defun remove-method (generic-function method)
2455 (when (not (fsc-instance-p generic-function))
2456 (error "An early remove-method didn't get a funcallable instance."))
2457 (when (not (and (listp method) (eq (car method) :early-method)))
2458 (error "An early remove-method didn't get an early method."))
2459 (setf (early-gf-methods generic-function)
2460 (remove method (early-gf-methods generic-function)))
2461 (set-arg-info generic-function)
2462 (unless (assoc (!early-gf-name generic-function)
2463 *!generic-function-fixups*
2465 (update-dfun generic-function)))
2467 ;;; This is the early version of GET-METHOD. See comments on the early
2468 ;;; version of ADD-METHOD.
2469 (defun get-method (generic-function qualifiers specializers
2470 &optional (errorp t))
2471 (if (early-gf-p generic-function)
2472 (or (dolist (m (early-gf-methods generic-function))
2473 (when (and (or (equal (early-method-specializers m nil)
2475 (equal (early-method-specializers m t)
2477 (equal (early-method-qualifiers m) qualifiers))
2480 (error "can't get early method")
2482 (real-get-method generic-function qualifiers specializers errorp)))
2484 (defun !fix-early-generic-functions ()
2485 (let ((accessors nil))
2486 ;; Rearrange *!EARLY-GENERIC-FUNCTIONS* to speed up
2487 ;; FIX-EARLY-GENERIC-FUNCTIONS.
2488 (dolist (early-gf-spec *!early-generic-functions*)
2489 (when (every #'early-method-standard-accessor-p
2490 (early-gf-methods (gdefinition early-gf-spec)))
2491 (push early-gf-spec accessors)))
2492 (dolist (spec (nconc accessors
2493 '(accessor-method-slot-name
2494 generic-function-methods
2499 slot-definition-location
2500 slot-definition-name
2503 class-precedence-list
2504 slot-boundp-using-class
2505 (setf slot-value-using-class)
2506 slot-value-using-class
2509 funcallable-standard-class-p
2512 (setq *!early-generic-functions*
2514 (delete spec *!early-generic-functions* :test #'equal))))
2516 (dolist (early-gf-spec *!early-generic-functions*)
2517 (/show early-gf-spec)
2518 (let* ((gf (gdefinition early-gf-spec))
2519 (methods (mapcar (lambda (early-method)
2520 (let ((args (copy-list (fifth
2523 (early-method-specializers
2525 (apply #'real-make-a-method args)))
2526 (early-gf-methods gf))))
2527 (setf (generic-function-method-class gf) *the-class-standard-method*)
2528 (setf (generic-function-method-combination gf)
2529 *standard-method-combination*)
2530 (set-methods gf methods)))
2532 (dolist (fn *!early-functions*)
2534 (setf (gdefinition (car fn)) (fdefinition (caddr fn))))
2536 (dolist (fixup *!generic-function-fixups*)
2538 (let* ((fspec (car fixup))
2539 (gf (gdefinition fspec))
2540 (methods (mapcar (lambda (method)
2541 (let* ((lambda-list (first method))
2542 (specializers (mapcar #'find-class (second method)))
2543 (method-fn-name (third method))
2544 (fn-name (or method-fn-name fspec))
2545 (fn (fdefinition fn-name))
2549 (lambda (args next-methods)
2553 `(call ,fn-name)))))
2554 (declare (type function fn))
2555 (make-a-method 'standard-method
2562 (setf (generic-function-method-class gf) *the-class-standard-method*)
2563 (setf (generic-function-method-combination gf)
2564 *standard-method-combination*)
2565 (set-methods gf methods))))
2566 (/show "leaving !FIX-EARLY-GENERIC-FUNCTIONS"))
2568 ;;; PARSE-DEFMETHOD is used by DEFMETHOD to parse the &REST argument
2569 ;;; into the 'real' arguments. This is where the syntax of DEFMETHOD
2570 ;;; is really implemented.
2571 (defun parse-defmethod (cdr-of-form)
2572 (declare (list cdr-of-form))
2573 (let ((name (pop cdr-of-form))
2576 (loop (if (and (car cdr-of-form) (atom (car cdr-of-form)))
2577 (push (pop cdr-of-form) qualifiers)
2578 (return (setq qualifiers (nreverse qualifiers)))))
2579 (setq spec-ll (pop cdr-of-form))
2580 (values name qualifiers spec-ll cdr-of-form)))
2582 (defun parse-specializers (generic-function specializers)
2583 (declare (list specializers))
2584 (flet ((parse (spec)
2585 (parse-specializer-using-class generic-function spec)))
2586 (mapcar #'parse specializers)))
2588 (defun unparse-specializers (generic-function specializers)
2589 (declare (list specializers))
2590 (flet ((unparse (spec)
2591 (unparse-specializer-using-class generic-function spec)))
2592 (mapcar #'unparse specializers)))
2594 (defun extract-parameters (specialized-lambda-list)
2595 (multiple-value-bind (parameters ignore1 ignore2)
2596 (parse-specialized-lambda-list specialized-lambda-list)
2597 (declare (ignore ignore1 ignore2))
2600 (defun extract-lambda-list (specialized-lambda-list)
2601 (multiple-value-bind (ignore1 lambda-list ignore2)
2602 (parse-specialized-lambda-list specialized-lambda-list)
2603 (declare (ignore ignore1 ignore2))
2606 (defun extract-specializer-names (specialized-lambda-list)
2607 (multiple-value-bind (ignore1 ignore2 specializers)
2608 (parse-specialized-lambda-list specialized-lambda-list)
2609 (declare (ignore ignore1 ignore2))
2612 (defun extract-required-parameters (specialized-lambda-list)
2613 (multiple-value-bind (ignore1 ignore2 ignore3 required-parameters)
2614 (parse-specialized-lambda-list specialized-lambda-list)
2615 (declare (ignore ignore1 ignore2 ignore3))
2616 required-parameters))
2618 (define-condition specialized-lambda-list-error
2619 (reference-condition simple-program-error)
2621 (:default-initargs :references (list '(:ansi-cl :section (3 4 3)))))
2623 (defun parse-specialized-lambda-list
2625 &optional supplied-keywords (allowed-keywords '(&optional &rest &key &aux))
2626 &aux (specialized-lambda-list-keywords
2627 '(&optional &rest &key &allow-other-keys &aux)))
2628 (let ((arg (car arglist)))
2629 (cond ((null arglist) (values nil nil nil nil))
2631 (values nil arglist nil nil))
2632 ((memq arg lambda-list-keywords)
2633 ;; non-standard lambda-list-keywords are errors.
2634 (unless (memq arg specialized-lambda-list-keywords)
2635 (error 'specialized-lambda-list-error
2636 :format-control "unknown specialized-lambda-list ~
2638 :format-arguments (list arg)))
2639 ;; no multiple &rest x &rest bla specifying
2640 (when (memq arg supplied-keywords)
2641 (error 'specialized-lambda-list-error
2642 :format-control "multiple occurrence of ~
2643 specialized-lambda-list keyword ~S~%"
2644 :format-arguments (list arg)))
2645 ;; And no placing &key in front of &optional, either.
2646 (unless (memq arg allowed-keywords)
2647 (error 'specialized-lambda-list-error
2648 :format-control "misplaced specialized-lambda-list ~
2650 :format-arguments (list arg)))
2651 ;; When we are at a lambda-list keyword, the parameters
2652 ;; don't include the lambda-list keyword; the lambda-list
2653 ;; does include the lambda-list keyword; and no
2654 ;; specializers are allowed to follow the lambda-list
2655 ;; keywords (at least for now).
2656 (multiple-value-bind (parameters lambda-list)
2657 (parse-specialized-lambda-list (cdr arglist)
2658 (cons arg supplied-keywords)
2660 (cons '&allow-other-keys
2661 (cdr (member arg allowed-keywords)))
2662 (cdr (member arg allowed-keywords))))
2663 (when (and (eq arg '&rest)
2664 (or (null lambda-list)
2665 (memq (car lambda-list)
2666 specialized-lambda-list-keywords)
2667 (not (or (null (cadr lambda-list))
2668 (memq (cadr lambda-list)
2669 specialized-lambda-list-keywords)))))
2670 (error 'specialized-lambda-list-error
2672 "in a specialized-lambda-list, excactly one ~
2673 variable must follow &REST.~%"
2674 :format-arguments nil))
2676 (cons arg lambda-list)
2680 ;; After a lambda-list keyword there can be no specializers.
2681 (multiple-value-bind (parameters lambda-list)
2682 (parse-specialized-lambda-list (cdr arglist)
2685 (values (cons (if (listp arg) (car arg) arg) parameters)
2686 (cons arg lambda-list)
2690 (multiple-value-bind (parameters lambda-list specializers required)
2691 (parse-specialized-lambda-list (cdr arglist))
2692 ;; Check for valid arguments.
2693 (unless (or (and (symbolp arg) (not (null arg)))
2697 (error 'specialized-lambda-list-error
2698 :format-control "arg is not a non-NIL symbol or a list of two elements: ~A"
2699 :format-arguments (list arg)))
2700 (values (cons (if (listp arg) (car arg) arg) parameters)
2701 (cons (if (listp arg) (car arg) arg) lambda-list)
2702 (cons (if (listp arg) (cadr arg) t) specializers)
2703 (cons (if (listp arg) (car arg) arg) required)))))))
2705 (setq **boot-state** 'early)
2707 ;;; FIXME: In here there was a #-CMU definition of SYMBOL-MACROLET
2708 ;;; which used %WALKER stuff. That suggests to me that maybe the code
2709 ;;; walker stuff was only used for implementing stuff like that; maybe
2710 ;;; it's not needed any more? Hunt down what it was used for and see.
2712 (defun extract-the (form)
2713 (cond ((and (consp form) (eq (car form) 'the))
2714 (aver (proper-list-of-length-p form 3))
2719 (defmacro with-slots (slots instance &body body)
2720 (let ((in (gensym)))
2721 `(let ((,in ,instance))
2722 (declare (ignorable ,in))
2723 ,@(let ((instance (extract-the instance)))
2724 (and (symbolp instance)
2725 `((declare (%variable-rebinding ,in ,instance)))))
2727 (symbol-macrolet ,(mapcar (lambda (slot-entry)
2729 (if (symbolp slot-entry)
2733 (if (symbolp slot-entry)
2735 (cadr slot-entry))))
2737 (slot-value ,in ',slot-name))))
2741 (defmacro with-accessors (slots instance &body body)
2742 (let ((in (gensym)))
2743 `(let ((,in ,instance))
2744 (declare (ignorable ,in))
2745 ,@(let ((instance (extract-the instance)))
2746 (and (symbolp instance)
2747 `((declare (%variable-rebinding ,in ,instance)))))
2749 (symbol-macrolet ,(mapcar (lambda (slot-entry)
2750 (let ((var-name (car slot-entry))
2751 (accessor-name (cadr slot-entry)))
2752 `(,var-name (,accessor-name ,in))))