1 ;;;; that part of DEFSTRUCT implementation which is needed not just
2 ;;;; in the target Lisp but also in the cross-compilation host
4 ;;;; This software is part of the SBCL system. See the README file for
7 ;;;; This software is derived from the CMU CL system, which was
8 ;;;; written at Carnegie Mellon University and released into the
9 ;;;; public domain. The software is in the public domain and is
10 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
11 ;;;; files for more information.
13 (in-package "SB!KERNEL")
15 (/show0 "code/defstruct.lisp 15")
19 ;;; Return the compiler layout for NAME. (The class referred to by
20 ;;; NAME must be a structure-like class.)
21 (defun compiler-layout-or-lose (name)
22 (let ((res (info :type :compiler-layout name)))
24 (error "Class is not yet defined or was undefined: ~S" name))
25 ((not (typep (layout-info res) 'defstruct-description))
26 (error "Class is not a structure class: ~S" name))
29 (defun compiler-layout-ready-p (name)
30 (let ((layout (info :type :compiler-layout name)))
31 (and layout (typep (layout-info layout) 'defstruct-description))))
33 (sb!xc:defmacro %make-structure-instance-macro (dd slot-specs &rest slot-vars)
34 `(truly-the ,(dd-name dd)
35 ,(if (compiler-layout-ready-p (dd-name dd))
36 `(%make-structure-instance ,dd ,slot-specs ,@slot-vars)
37 ;; Non-toplevel defstructs don't have a layout at compile time,
38 ;; so we need to construct the actual function at runtime -- but
39 ;; we cache it at the call site, so that we don't perform quite
41 `(let* ((cell (load-time-value (list nil)))
44 (funcall fun ,@slot-vars)
45 (funcall (setf (car cell)
46 (%make-structure-instance-allocator ,dd ,slot-specs))
49 (declaim (ftype (sfunction (defstruct-description list) function)
50 %make-structure-instance-allocator))
51 (defun %make-structure-instance-allocator (dd slot-specs)
52 (let ((vars (make-gensym-list (length slot-specs))))
53 (values (compile nil `(lambda (,@vars)
54 (%make-structure-instance-macro ,dd ',slot-specs ,@vars))))))
56 (defun %make-funcallable-structure-instance-allocator (dd slot-specs)
58 (bug "funcallable-structure-instance allocation with slots unimplemented"))
59 (let ((name (dd-name dd))
60 (length (dd-length dd))
61 (nobject (gensym "OBJECT")))
63 (compile nil `(lambda ()
64 (let ((,nobject (%make-funcallable-instance ,length)))
65 (setf (%funcallable-instance-layout ,nobject)
66 (%delayed-get-compiler-layout ,name))
69 ;;; Delay looking for compiler-layout until the constructor is being
70 ;;; compiled, since it doesn't exist until after the EVAL-WHEN
71 ;;; (COMPILE) stuff is compiled. (Or, in the oddball case when
72 ;;; DEFSTRUCT is executing in a non-toplevel context, the
73 ;;; compiler-layout still doesn't exist at compilation time, and we
74 ;;; delay still further.)
75 (sb!xc:defmacro %delayed-get-compiler-layout (name)
76 (let ((layout (info :type :compiler-layout name)))
78 ;; ordinary case: When the DEFSTRUCT is at top level,
79 ;; then EVAL-WHEN (COMPILE) stuff will have set up the
80 ;; layout for us to use.
81 (unless (typep (layout-info layout) 'defstruct-description)
82 (error "Class is not a structure class: ~S" name))
85 ;; KLUDGE: In the case that DEFSTRUCT is not at top-level
86 ;; the layout doesn't exist at compile time. In that case
87 ;; we laboriously look it up at run time. This code will
88 ;; run on every constructor call and will likely be quite
89 ;; slow, so if anyone cares about performance of
90 ;; non-toplevel DEFSTRUCTs, it should be rewritten to be
91 ;; cleverer. -- WHN 2002-10-23
93 "implementation limitation: ~
94 Non-toplevel DEFSTRUCT constructors are slow.")
95 (with-unique-names (layout)
96 `(let ((,layout (info :type :compiler-layout ',name)))
97 (unless (typep (layout-info ,layout) 'defstruct-description)
98 (error "Class is not a structure class: ~S" ',name))
101 ;;; re. %DELAYED-GET-COMPILER-LAYOUT and COMPILE-TIME-FIND-LAYOUT, above..
103 ;;; FIXME: Perhaps both should be defined with DEFMACRO-MUNDANELY?
104 ;;; FIXME: Do we really need both? If so, their names and implementations
105 ;;; should probably be tweaked to be more parallel.
107 ;;;; DEFSTRUCT-DESCRIPTION
109 ;;; The DEFSTRUCT-DESCRIPTION structure holds compile-time information
110 ;;; about a structure type.
111 (def!struct (defstruct-description
113 (:make-load-form-fun just-dump-it-normally)
114 #-sb-xc-host (:pure t)
115 (:constructor make-defstruct-description
117 (conc-name (symbolicate name "-"))
118 (copier-name (symbolicate "COPY-" name))
119 (predicate-name (symbolicate name "-P")))))
120 ;; name of the structure
121 (name (missing-arg) :type symbol :read-only t)
122 ;; documentation on the structure
123 (doc nil :type (or string null))
124 ;; prefix for slot names. If NIL, none.
125 (conc-name nil :type (or symbol null))
126 ;; the name of the primary standard keyword constructor, or NIL if none
127 (default-constructor nil :type (or symbol null))
128 ;; all the explicit :CONSTRUCTOR specs, with name defaulted
129 (constructors () :type list)
130 ;; name of copying function
131 (copier-name nil :type (or symbol null))
132 ;; name of type predicate
133 (predicate-name nil :type (or symbol null))
134 ;; the arguments to the :INCLUDE option, or NIL if no included
136 (include nil :type list)
137 ;; properties used to define structure-like classes with an
138 ;; arbitrary superclass and that may not have STRUCTURE-CLASS as the
139 ;; metaclass. Syntax is:
140 ;; (superclass-name metaclass-name metaclass-constructor)
141 (alternate-metaclass nil :type list)
142 ;; a list of DEFSTRUCT-SLOT-DESCRIPTION objects for all slots
143 ;; (including included ones)
144 (slots () :type list)
145 ;; a list of (NAME . INDEX) pairs for accessors of included structures
146 (inherited-accessor-alist () :type list)
147 ;; number of elements we've allocated (See also RAW-LENGTH, which is not
148 ;; included in LENGTH.)
149 (length 0 :type index)
150 ;; General kind of implementation.
151 (type 'structure :type (member structure vector list
152 funcallable-structure))
154 ;; The next three slots are for :TYPE'd structures (which aren't
155 ;; classes, DD-CLASS-P = NIL)
157 ;; vector element type
159 ;; T if :NAMED was explicitly specified, NIL otherwise
160 (named nil :type boolean)
161 ;; any INITIAL-OFFSET option on this direct type
162 (offset nil :type (or index null))
164 ;; the argument to the PRINT-FUNCTION option, or NIL if a
165 ;; PRINT-FUNCTION option was given with no argument, or 0 if no
166 ;; PRINT-FUNCTION option was given
167 (print-function 0 :type (or cons symbol (member 0)))
168 ;; the argument to the PRINT-OBJECT option, or NIL if a PRINT-OBJECT
169 ;; option was given with no argument, or 0 if no PRINT-OBJECT option
171 (print-object 0 :type (or cons symbol (member 0)))
172 ;; The number of untagged slots at the end.
173 (raw-length 0 :type index)
174 ;; the value of the :PURE option, or :UNSPECIFIED. This is only
175 ;; meaningful if DD-CLASS-P = T.
176 (pure :unspecified :type (member t nil :substructure :unspecified)))
177 (def!method print-object ((x defstruct-description) stream)
178 (print-unreadable-object (x stream :type t)
179 (prin1 (dd-name x) stream)))
181 ;;; Does DD describe a structure with a class?
182 (defun dd-class-p (dd)
184 '(structure funcallable-structure)))
186 ;;; a type name which can be used when declaring things which operate
187 ;;; on structure instances
188 (defun dd-declarable-type (dd)
190 ;; Native classes are known to the type system, and we can
191 ;; declare them as types.
193 ;; Structures layered on :TYPE LIST or :TYPE VECTOR aren't part
194 ;; of the type system, so all we can declare is the underlying
195 ;; LIST or VECTOR type.
198 (defun dd-layout-or-lose (dd)
199 (compiler-layout-or-lose (dd-name dd)))
201 ;;;; DEFSTRUCT-SLOT-DESCRIPTION
203 ;;; A DEFSTRUCT-SLOT-DESCRIPTION holds compile-time information about
204 ;;; a structure slot.
205 (def!struct (defstruct-slot-description
206 (:make-load-form-fun just-dump-it-normally)
209 #-sb-xc-host (:pure t))
212 ;; its position in the implementation sequence
213 (index (missing-arg) :type fixnum)
214 ;; the name of the accessor function
216 ;; (CMU CL had extra complexity here ("..or NIL if this accessor has
217 ;; the same name as an inherited accessor (which we don't want to
218 ;; shadow)") but that behavior doesn't seem to be specified by (or
219 ;; even particularly consistent with) ANSI, so it's gone in SBCL.)
221 default ; default value expression
222 (type t) ; declared type specifier
223 (safe-p t :type boolean) ; whether the slot is known to be
224 ; always of the specified type
225 ;; If this object does not describe a raw slot, this value is T.
227 ;; If this object describes a raw slot, this value is the type of the
228 ;; value that the raw slot holds.
229 (raw-type t :type (member t single-float double-float
230 #!+long-float long-float
231 complex-single-float complex-double-float
232 #!+long-float complex-long-float
234 (read-only nil :type (member t nil)))
235 (def!method print-object ((x defstruct-slot-description) stream)
236 (print-unreadable-object (x stream :type t)
237 (prin1 (dsd-name x) stream)))
239 ;;;; typed (non-class) structures
241 ;;; Return a type specifier we can use for testing :TYPE'd structures.
242 (defun dd-lisp-type (defstruct)
243 (ecase (dd-type defstruct)
245 (vector `(simple-array ,(dd-element-type defstruct) (*)))))
247 ;;;; shared machinery for inline and out-of-line slot accessor functions
249 ;;; Classic comment preserved for entertainment value:
251 ;;; "A lie can travel halfway round the world while the truth is
252 ;;; putting on its shoes." -- Mark Twain
254 (eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute)
256 ;; information about how a slot of a given DSD-RAW-TYPE is to be accessed
257 (defstruct raw-slot-data
258 ;; the raw slot type, or T for a non-raw slot
260 ;; (Non-raw slots are in the ordinary place you'd expect, directly
261 ;; indexed off the instance pointer. Raw slots are indexed from the end
262 ;; of the instance and skipped by GC.)
263 (raw-type (missing-arg) :type (or symbol cons) :read-only t)
264 ;; What operator is used to access a slot of this type?
265 (accessor-name (missing-arg) :type symbol :read-only t)
266 (init-vop (missing-arg) :type symbol :read-only t)
267 ;; How many words are each value of this type?
268 (n-words (missing-arg) :type (and index (integer 1)) :read-only t)
269 ;; Necessary alignment in units of words. Note that instances
270 ;; themselves are aligned by exactly two words, so specifying more
271 ;; than two words here would not work.
272 (alignment 1 :type (integer 1 2) :read-only t))
274 (defvar *raw-slot-data-list*
275 (let ((double-float-alignment
276 ;; white list of architectures that can load unaligned doubles:
277 #!+(or x86 x86-64 ppc) 1
278 ;; at least sparc, mips and alpha can't:
279 #!-(or x86 x86-64 ppc) 2))
281 (make-raw-slot-data :raw-type 'sb!vm:word
282 :accessor-name '%raw-instance-ref/word
283 :init-vop 'sb!vm::raw-instance-init/word
285 (make-raw-slot-data :raw-type 'single-float
286 :accessor-name '%raw-instance-ref/single
287 :init-vop 'sb!vm::raw-instance-init/single
288 ;; KLUDGE: On 64 bit architectures, we
289 ;; could pack two SINGLE-FLOATs into the
290 ;; same word if raw slots were indexed
291 ;; using bytes instead of words. However,
292 ;; I don't personally find optimizing
293 ;; SINGLE-FLOAT memory usage worthwile
294 ;; enough. And the other datatype that
295 ;; would really benefit is (UNSIGNED-BYTE
296 ;; 32), but that is a subtype of FIXNUM, so
297 ;; we store it unraw anyway. :-( -- DFL
299 (make-raw-slot-data :raw-type 'double-float
300 :accessor-name '%raw-instance-ref/double
301 :init-vop 'sb!vm::raw-instance-init/double
302 :alignment double-float-alignment
303 :n-words (/ 8 sb!vm:n-word-bytes))
304 (make-raw-slot-data :raw-type 'complex-single-float
305 :accessor-name '%raw-instance-ref/complex-single
306 :init-vop 'sb!vm::raw-instance-init/complex-single
307 :n-words (/ 8 sb!vm:n-word-bytes))
308 (make-raw-slot-data :raw-type 'complex-double-float
309 :accessor-name '%raw-instance-ref/complex-double
310 :init-vop 'sb!vm::raw-instance-init/complex-double
311 :alignment double-float-alignment
312 :n-words (/ 16 sb!vm:n-word-bytes))
314 (make-raw-slot-data :raw-type long-float
315 :accessor-name '%raw-instance-ref/long
316 :init-vop 'sb!vm::raw-instance-init/long
317 :n-words #!+x86 3 #!+sparc 4)
319 (make-raw-slot-data :raw-type complex-long-float
320 :accessor-name '%raw-instance-ref/complex-long
321 :init-vop 'sb!vm::raw-instance-init/complex-long
322 :n-words #!+x86 6 #!+sparc 8)))))
323 (defun raw-slot-words (type)
324 (let ((rsd (find type *raw-slot-data-list* :key #'raw-slot-data-raw-type)))
326 (raw-slot-data-n-words rsd)
327 (error "Invalid raw slot type: ~S" type))))
329 ;;;; the legendary DEFSTRUCT macro itself (both CL:DEFSTRUCT and its
330 ;;;; close personal friend SB!XC:DEFSTRUCT)
332 ;;; Return a list of forms to install PRINT and MAKE-LOAD-FORM funs,
333 ;;; mentioning them in the expansion so that they can be compiled.
334 (defun class-method-definitions (defstruct)
335 (let ((name (dd-name defstruct)))
337 ;; KLUDGE: There's a FIND-CLASS DEFTRANSFORM for constant
338 ;; class names which creates fast but non-cold-loadable,
339 ;; non-compact code. In this context, we'd rather have
340 ;; compact, cold-loadable code. -- WHN 19990928
341 (declare (notinline find-classoid))
342 ,@(let ((pf (dd-print-function defstruct))
343 (po (dd-print-object defstruct))
344 (x (sb!xc:gensym "OBJECT"))
345 (s (sb!xc:gensym "STREAM")))
346 ;; Giving empty :PRINT-OBJECT or :PRINT-FUNCTION options
347 ;; leaves PO or PF equal to NIL. The user-level effect is
348 ;; to generate a PRINT-OBJECT method specialized for the type,
349 ;; implementing the default #S structure-printing behavior.
350 (when (or (eq pf nil) (eq po nil))
351 (setf pf '(default-structure-print)
353 (flet (;; Given an arg from a :PRINT-OBJECT or :PRINT-FUNCTION
354 ;; option, return the value to pass as an arg to FUNCTION.
356 (destructuring-bind (fun-name) oarg
358 (cond ((not (eql pf 0))
359 `((def!method print-object ((,x ,name) ,s)
360 (funcall #',(farg pf)
363 *current-level-in-print*))))
365 `((def!method print-object ((,x ,name) ,s)
366 (funcall #',(farg po) ,x ,s))))
368 ,@(let ((pure (dd-pure defstruct)))
370 `((setf (layout-pure (classoid-layout
371 (find-classoid ',name)))
373 ((eq pure :substructure)
374 `((setf (layout-pure (classoid-layout
375 (find-classoid ',name)))
377 ,@(let ((def-con (dd-default-constructor defstruct)))
378 (when (and def-con (not (dd-alternate-metaclass defstruct)))
379 `((setf (structure-classoid-constructor (find-classoid ',name))
382 ;;; shared logic for host macroexpansion for SB!XC:DEFSTRUCT and
383 ;;; cross-compiler macroexpansion for CL:DEFSTRUCT
384 (defmacro !expander-for-defstruct (name-and-options
386 expanding-into-code-for-xc-host-p)
387 `(let ((name-and-options ,name-and-options)
388 (slot-descriptions ,slot-descriptions)
389 (expanding-into-code-for-xc-host-p
390 ,expanding-into-code-for-xc-host-p))
391 (let* ((dd (parse-defstruct-name-and-options-and-slot-descriptions
396 (let ((inherits (inherits-for-structure dd)))
398 ;; Note we intentionally enforce package locks and
399 ;; call %DEFSTRUCT first, and especially before
400 ;; %COMPILER-DEFSTRUCT. %DEFSTRUCT has the tests (and
401 ;; resulting CERROR) for collisions with LAYOUTs which
402 ;; already exist in the runtime. If there are any
403 ;; collisions, we want the user's response to CERROR
404 ;; to control what happens. Especially, if the user
405 ;; responds to the collision with ABORT, we don't want
406 ;; %COMPILER-DEFSTRUCT to modify the definition of the
408 (with-single-package-locked-error
409 (:symbol ',name "defining ~A as a structure"))
410 (%defstruct ',dd ',inherits (sb!c:source-location))
411 (eval-when (:compile-toplevel :load-toplevel :execute)
412 (%compiler-defstruct ',dd ',inherits))
413 ,@(unless expanding-into-code-for-xc-host-p
414 (append ;; FIXME: We've inherited from CMU CL nonparallel
415 ;; code for creating copiers for typed and untyped
416 ;; structures. This should be fixed.
417 ;(copier-definition dd)
418 (constructor-definitions dd)
419 (class-method-definitions dd)))
422 (with-single-package-locked-error
423 (:symbol ',name "defining ~A as a structure"))
424 (eval-when (:compile-toplevel :load-toplevel :execute)
425 (setf (info :typed-structure :info ',name) ',dd))
426 (eval-when (:load-toplevel :execute)
427 (setf (info :source-location :typed-structure ',name)
428 (sb!c:source-location)))
429 ,@(unless expanding-into-code-for-xc-host-p
430 (append (typed-accessor-definitions dd)
431 (typed-predicate-definitions dd)
432 (typed-copier-definitions dd)
433 (constructor-definitions dd)
435 `((setf (fdocumentation ',(dd-name dd) 'structure)
439 (sb!xc:defmacro defstruct (name-and-options &rest slot-descriptions)
441 "DEFSTRUCT {Name | (Name Option*)} {Slot | (Slot [Default] {Key Value}*)}
442 Define the structure type Name. Instances are created by MAKE-<name>,
443 which takes &KEY arguments allowing initial slot values to the specified.
444 A SETF'able function <name>-<slot> is defined for each slot to read and
445 write slot values. <name>-p is a type predicate.
447 Popular DEFSTRUCT options (see manual for others):
451 Specify the name for the constructor or predicate.
453 (:CONSTRUCTOR Name Lambda-List)
454 Specify the name and arguments for a BOA constructor
455 (which is more efficient when keyword syntax isn't necessary.)
457 (:INCLUDE Supertype Slot-Spec*)
458 Make this type a subtype of the structure type Supertype. The optional
459 Slot-Specs override inherited slot options.
464 Asserts that the value of this slot is always of the specified type.
467 If true, no setter function is defined for this slot."
468 (!expander-for-defstruct name-and-options slot-descriptions nil))
470 (defmacro sb!xc:defstruct (name-and-options &rest slot-descriptions)
472 "Cause information about a target structure to be built into the
474 (!expander-for-defstruct name-and-options slot-descriptions t))
476 ;;;; functions to generate code for various parts of DEFSTRUCT definitions
478 ;;; First, a helper to determine whether a name names an inherited
480 (defun accessor-inherited-data (name defstruct)
481 (assoc name (dd-inherited-accessor-alist defstruct) :test #'eq))
483 ;;; Return a list of forms which create a predicate function for a
485 (defun typed-predicate-definitions (defstruct)
486 (let ((name (dd-name defstruct))
487 (predicate-name (dd-predicate-name defstruct))
489 (when (and predicate-name (dd-named defstruct))
490 (let ((ltype (dd-lisp-type defstruct))
491 (name-index (cdr (car (last (find-name-indices defstruct))))))
492 `((defun ,predicate-name (,argname)
493 (and (typep ,argname ',ltype)
495 ((subtypep ltype 'list)
496 `(do ((head (the ,ltype ,argname) (cdr head))
498 ((or (not (consp head)) (= i ,name-index))
499 (and (consp head) (eq ',name (car head))))))
500 ((subtypep ltype 'vector)
501 `(and (= (length (the ,ltype ,argname))
502 ,(dd-length defstruct))
503 (eq ',name (aref (the ,ltype ,argname) ,name-index))))
504 (t (bug "Uncatered-for lisp type in typed DEFSTRUCT: ~S."
507 ;;; Return a list of forms to create a copier function of a typed DEFSTRUCT.
508 (defun typed-copier-definitions (defstruct)
509 (when (dd-copier-name defstruct)
510 `((setf (fdefinition ',(dd-copier-name defstruct)) #'copy-seq)
511 (declaim (ftype function ,(dd-copier-name defstruct))))))
513 ;;; Return a list of function definitions for accessing and setting
514 ;;; the slots of a typed DEFSTRUCT. The functions are proclaimed to be
515 ;;; inline, and the types of their arguments and results are declared
516 ;;; as well. We count on the compiler to do clever things with ELT.
517 (defun typed-accessor-definitions (defstruct)
519 (let ((ltype (dd-lisp-type defstruct)))
520 (dolist (slot (dd-slots defstruct))
521 (let ((name (dsd-accessor-name slot))
522 (index (dsd-index slot))
523 (slot-type `(and ,(dsd-type slot)
524 ,(dd-element-type defstruct))))
525 (let ((inherited (accessor-inherited-data name defstruct)))
528 (stuff `(declaim (inline ,name ,@(unless (dsd-read-only slot)
530 ;; FIXME: The arguments in the next two DEFUNs should
531 ;; be gensyms. (Otherwise e.g. if NEW-VALUE happened to
532 ;; be the name of a special variable, things could get
534 (stuff `(defun ,name (structure)
535 (declare (type ,ltype structure))
536 (the ,slot-type (elt structure ,index))))
537 (unless (dsd-read-only slot)
539 `(defun (setf ,name) (new-value structure)
540 (declare (type ,ltype structure) (type ,slot-type new-value))
541 (setf (elt structure ,index) new-value)))))
542 ((not (= (cdr inherited) index))
543 (style-warn "~@<Non-overwritten accessor ~S does not access ~
544 slot with name ~S (accessing an inherited slot ~
545 instead).~:@>" name (dsd-name slot))))))))
550 (defun require-no-print-options-so-far (defstruct)
551 (unless (and (eql (dd-print-function defstruct) 0)
552 (eql (dd-print-object defstruct) 0))
553 (error "No more than one of the following options may be specified:
554 :PRINT-FUNCTION, :PRINT-OBJECT, :TYPE")))
556 ;;; Parse a single DEFSTRUCT option and store the results in DD.
557 (defun parse-1-dd-option (option dd)
558 (let ((args (rest option))
562 (destructuring-bind (&optional conc-name) args
563 (setf (dd-conc-name dd)
564 (if (symbolp conc-name)
566 (make-symbol (string conc-name))))))
568 (destructuring-bind (&optional (cname (symbolicate "MAKE-" name))
571 (push (cons cname stuff) (dd-constructors dd))))
573 (destructuring-bind (&optional (copier (symbolicate "COPY-" name)))
575 (setf (dd-copier-name dd) copier)))
577 (destructuring-bind (&optional (predicate-name (symbolicate name "-P")))
579 (setf (dd-predicate-name dd) predicate-name)))
581 (when (dd-include dd)
582 (error "more than one :INCLUDE option"))
583 (setf (dd-include dd) args))
585 (require-no-print-options-so-far dd)
586 (setf (dd-print-function dd)
587 (the (or symbol cons) args)))
589 (require-no-print-options-so-far dd)
590 (setf (dd-print-object dd)
591 (the (or symbol cons) args)))
593 (destructuring-bind (type) args
594 (cond ((member type '(list vector))
595 (setf (dd-element-type dd) t)
596 (setf (dd-type dd) type))
597 ((and (consp type) (eq (first type) 'vector))
598 (destructuring-bind (vector vtype) type
599 (declare (ignore vector))
600 (setf (dd-element-type dd) vtype)
601 (setf (dd-type dd) 'vector)))
603 (error "~S is a bad :TYPE for DEFSTRUCT." type)))))
605 (error "The DEFSTRUCT option :NAMED takes no arguments."))
607 (destructuring-bind (offset) args
608 (setf (dd-offset dd) offset)))
610 (destructuring-bind (fun) args
611 (setf (dd-pure dd) fun)))
612 (t (error "unknown DEFSTRUCT option:~% ~S" option)))))
614 ;;; Given name and options, return a DD holding that info.
615 (defun parse-defstruct-name-and-options (name-and-options)
616 (destructuring-bind (name &rest options) name-and-options
617 (aver name) ; A null name doesn't seem to make sense here.
618 (let ((dd (make-defstruct-description name)))
619 (dolist (option options)
620 (cond ((eq option :named)
621 (setf (dd-named dd) t))
623 (parse-1-dd-option option dd))
624 ((member option '(:conc-name :constructor :copier :predicate))
625 (parse-1-dd-option (list option) dd))
627 (error "unrecognized DEFSTRUCT option: ~S" option))))
632 (error ":OFFSET can't be specified unless :TYPE is specified."))
633 (unless (dd-include dd)
634 ;; FIXME: It'd be cleaner to treat no-:INCLUDE as defaulting
635 ;; to :INCLUDE STRUCTURE-OBJECT, and then let the general-case
636 ;; (INCF (DD-LENGTH DD) (DD-LENGTH included-DD)) logic take
637 ;; care of this. (Except that the :TYPE VECTOR and :TYPE
638 ;; LIST cases, with their :NAMED and un-:NAMED flavors,
639 ;; make that messy, alas.)
640 (incf (dd-length dd))))
642 (require-no-print-options-so-far dd)
644 (incf (dd-length dd)))
645 (let ((offset (dd-offset dd)))
646 (when offset (incf (dd-length dd) offset)))))
648 (when (dd-include dd)
649 (frob-dd-inclusion-stuff dd))
653 ;;; Given name and options and slot descriptions (and possibly doc
654 ;;; string at the head of slot descriptions) return a DD holding that
656 (defun parse-defstruct-name-and-options-and-slot-descriptions
657 (name-and-options slot-descriptions)
658 (let ((result (parse-defstruct-name-and-options (if (atom name-and-options)
659 (list name-and-options)
661 (when (stringp (car slot-descriptions))
662 (setf (dd-doc result) (pop slot-descriptions)))
663 (dolist (slot-description slot-descriptions)
664 (allocate-1-slot result (parse-1-dsd result slot-description)))
667 ;;;; stuff to parse slot descriptions
669 ;;; Parse a slot description for DEFSTRUCT, add it to the description
670 ;;; and return it. If supplied, SLOT is a pre-initialized DSD
671 ;;; that we modify to get the new slot. This is supplied when handling
673 (defun parse-1-dsd (defstruct spec &optional
674 (slot (make-defstruct-slot-description :name ""
677 (multiple-value-bind (name default default-p type type-p read-only ro-p)
680 (when (keywordp spec)
681 (style-warn "Keyword slot name indicates probable syntax ~
682 error in DEFSTRUCT: ~S."
688 &optional (default nil default-p)
689 &key (type nil type-p) (read-only nil ro-p))
693 (uncross type) type-p
695 (t (error 'simple-program-error
696 :format-control "in DEFSTRUCT, ~S is not a legal slot ~
698 :format-arguments (list spec))))
700 (when (find name (dd-slots defstruct)
702 :key (lambda (x) (symbol-name (dsd-name x))))
703 (error 'simple-program-error
704 :format-control "duplicate slot name ~S"
705 :format-arguments (list name)))
706 (setf (dsd-name slot) name)
707 (setf (dd-slots defstruct) (nconc (dd-slots defstruct) (list slot)))
709 (let ((accessor-name (if (dd-conc-name defstruct)
710 (symbolicate (dd-conc-name defstruct) name)
712 (predicate-name (dd-predicate-name defstruct)))
713 (setf (dsd-accessor-name slot) accessor-name)
714 (when (eql accessor-name predicate-name)
715 ;; Some adventurous soul has named a slot so that its accessor
716 ;; collides with the structure type predicate. ANSI doesn't
717 ;; specify what to do in this case. As of 2001-09-04, Martin
718 ;; Atzmueller reports that CLISP and Lispworks both give
719 ;; priority to the slot accessor, so that the predicate is
720 ;; overwritten. We might as well do the same (as well as
721 ;; signalling a warning).
723 "~@<The structure accessor name ~S is the same as the name of the ~
724 structure type predicate. ANSI doesn't specify what to do in ~
725 this case. We'll overwrite the type predicate with the slot ~
726 accessor, but you can't rely on this behavior, so it'd be wise to ~
727 remove the ambiguity in your code.~@:>"
729 (setf (dd-predicate-name defstruct) nil))
730 ;; FIXME: It would be good to check for name collisions here, but
733 ;;x(when (and (fboundp accessor-name)
734 ;;x (not (accessor-inherited-data accessor-name defstruct)))
735 ;;x (style-warn "redefining ~/sb-impl::print-symbol-with-prefix/ ~
736 ;; in DEFSTRUCT" accessor-name)))
737 ;; which was done until sbcl-0.8.11.18 or so, is wrong: it causes
738 ;; a warning at MACROEXPAND time, when instead the warning should
739 ;; occur not just because the code was constructed, but because it
740 ;; is actually compiled or loaded.
744 (setf (dsd-default slot) default))
746 (setf (dsd-type slot)
747 (if (eq (dsd-type slot) t)
749 `(and ,(dsd-type slot) ,type))))
752 (setf (dsd-read-only slot) t)
753 (when (dsd-read-only slot)
754 (error "~@<The slot ~S is :READ-ONLY in superclass, and so must ~
755 be :READ-ONLY in subclass.~:@>"
759 ;;; When a value of type TYPE is stored in a structure, should it be
760 ;;; stored in a raw slot? Return the matching RAW-SLOT-DATA structure
761 ;; if TYPE should be stored in a raw slot, or NIL if not.
762 (defun structure-raw-slot-data (type)
763 (multiple-value-bind (fixnum? fixnum-certain?)
764 (sb!xc:subtypep type 'fixnum)
765 ;; (The extra test for FIXNUM-CERTAIN? here is intended for
766 ;; bootstrapping the system. In particular, in sbcl-0.6.2, we set up
767 ;; LAYOUT before FIXNUM is defined, and so could bogusly end up
768 ;; putting INDEX-typed values into raw slots if we didn't test
770 (if (or fixnum? (not fixnum-certain?))
772 (dolist (data *raw-slot-data-list*)
773 (when (sb!xc:subtypep type (raw-slot-data-raw-type data))
776 ;;; Allocate storage for a DSD in DD. This is where we decide whether
777 ;;; a slot is raw or not. Raw objects are aligned on the unit of their size.
778 (defun allocate-1-slot (dd dsd)
780 (if (eq (dd-type dd) 'structure)
781 (structure-raw-slot-data (dsd-type dsd))
785 (setf (dsd-index dsd) (dd-length dd))
786 (incf (dd-length dd)))
788 (let* ((words (raw-slot-data-n-words rsd))
789 (alignment (raw-slot-data-alignment rsd))
790 (off (rem (dd-raw-length dd) alignment)))
792 (incf (dd-raw-length dd) (- alignment off)))
793 (setf (dsd-raw-type dsd) (raw-slot-data-raw-type rsd))
794 (setf (dsd-index dsd) (dd-raw-length dd))
795 (incf (dd-raw-length dd) words)))))
798 (defun typed-structure-info-or-lose (name)
799 (or (info :typed-structure :info name)
800 (error ":TYPE'd DEFSTRUCT ~S not found for inclusion." name)))
802 ;;; Process any included slots pretty much like they were specified.
803 ;;; Also inherit various other attributes.
804 (defun frob-dd-inclusion-stuff (dd)
805 (destructuring-bind (included-name &rest modified-slots) (dd-include dd)
806 (let* ((type (dd-type dd))
809 (layout-info (compiler-layout-or-lose included-name))
810 (typed-structure-info-or-lose included-name))))
812 ;; checks on legality
813 (unless (and (eq type (dd-type included-structure))
814 (type= (specifier-type (dd-element-type included-structure))
815 (specifier-type (dd-element-type dd))))
816 (error ":TYPE option mismatch between structures ~S and ~S"
817 (dd-name dd) included-name))
818 (let ((included-classoid (find-classoid included-name nil)))
819 (when included-classoid
820 ;; It's not particularly well-defined to :INCLUDE any of the
821 ;; CMU CL INSTANCE weirdosities like CONDITION or
822 ;; GENERIC-FUNCTION, and it's certainly not ANSI-compliant.
823 (let* ((included-layout (classoid-layout included-classoid))
824 (included-dd (layout-info included-layout)))
825 (when (and (dd-alternate-metaclass included-dd)
826 ;; As of sbcl-0.pre7.73, anyway, STRUCTURE-OBJECT
827 ;; is represented with an ALTERNATE-METACLASS. But
828 ;; it's specifically OK to :INCLUDE (and PCL does)
829 ;; so in this one case, it's OK to include
830 ;; something with :ALTERNATE-METACLASS after all.
831 (not (eql included-name 'structure-object)))
832 (error "can't :INCLUDE class ~S (has alternate metaclass)"
835 (incf (dd-length dd) (dd-length included-structure))
836 (when (dd-class-p dd)
837 (let ((mc (rest (dd-alternate-metaclass included-structure))))
838 (when (and mc (not (dd-alternate-metaclass dd)))
839 (setf (dd-alternate-metaclass dd)
840 (cons included-name mc))))
841 (when (eq (dd-pure dd) :unspecified)
842 (setf (dd-pure dd) (dd-pure included-structure)))
843 (setf (dd-raw-length dd) (dd-raw-length included-structure)))
845 (setf (dd-inherited-accessor-alist dd)
846 (dd-inherited-accessor-alist included-structure))
847 (dolist (included-slot (dd-slots included-structure))
848 (let* ((included-name (dsd-name included-slot))
849 (modified (or (find included-name modified-slots
850 :key (lambda (x) (if (atom x) x (car x)))
853 ;; We stash away an alist of accessors to parents' slots
854 ;; that have already been created to avoid conflicts later
855 ;; so that structures with :INCLUDE and :CONC-NAME (and
856 ;; other edge cases) can work as specified.
857 (when (dsd-accessor-name included-slot)
858 ;; the "oldest" (i.e. highest up the tree of inheritance)
859 ;; will prevail, so don't push new ones on if they
861 (pushnew (cons (dsd-accessor-name included-slot)
862 (dsd-index included-slot))
863 (dd-inherited-accessor-alist dd)
864 :test #'eq :key #'car))
865 (let ((new-slot (parse-1-dsd dd
867 (copy-structure included-slot))))
868 (when (and (neq (dsd-type new-slot) (dsd-type included-slot))
869 (not (sb!xc:subtypep (dsd-type included-slot)
870 (dsd-type new-slot)))
871 (dsd-safe-p included-slot))
872 (setf (dsd-safe-p new-slot) nil)
876 ;;;; various helper functions for setting up DEFSTRUCTs
878 ;;; This function is called at macroexpand time to compute the INHERITS
879 ;;; vector for a structure type definition.
880 (defun inherits-for-structure (info)
881 (declare (type defstruct-description info))
882 (let* ((include (dd-include info))
883 (superclass-opt (dd-alternate-metaclass info))
886 (compiler-layout-or-lose (first include))
887 (classoid-layout (find-classoid
888 (or (first superclass-opt)
889 'structure-object))))))
892 (concatenate 'simple-vector
893 (layout-inherits super)
894 (vector super (classoid-layout (find-classoid 'stream)))))
896 (concatenate 'simple-vector
897 (layout-inherits super)
899 (classoid-layout (find-classoid 'file-stream)))))
900 ((sb!impl::string-input-stream
901 sb!impl::string-output-stream
902 sb!impl::fill-pointer-output-stream)
903 (concatenate 'simple-vector
904 (layout-inherits super)
906 (classoid-layout (find-classoid 'string-stream)))))
907 (t (concatenate 'simple-vector
908 (layout-inherits super)
911 ;;; Do miscellaneous (LOAD EVAL) time actions for the structure
912 ;;; described by DD. Create the class and LAYOUT, checking for
913 ;;; incompatible redefinition. Define those functions which are
914 ;;; sufficiently stereotyped that we can implement them as standard
916 (defun %defstruct (dd inherits source-location)
917 (declare (type defstruct-description dd))
919 ;; We set up LAYOUTs even in the cross-compilation host.
920 (multiple-value-bind (classoid layout old-layout)
921 (ensure-structure-class dd inherits "current" "new")
922 (cond ((not old-layout)
923 (unless (eq (classoid-layout classoid) layout)
924 (register-layout layout)))
926 (%redefine-defstruct classoid old-layout layout)
927 (let ((old-dd (layout-info old-layout)))
928 (when (defstruct-description-p old-dd)
929 (dolist (slot (dd-slots old-dd))
930 (fmakunbound (dsd-accessor-name slot))
931 (unless (dsd-read-only slot)
932 (fmakunbound `(setf ,(dsd-accessor-name slot)))))))
933 (setq layout (classoid-layout classoid))))
934 (setf (find-classoid (dd-name dd)) classoid)
936 (sb!c:with-source-location (source-location)
937 (setf (layout-source-location layout) source-location))
939 ;; Various other operations only make sense on the target SBCL.
941 (%target-defstruct dd layout))
945 ;;; Return a form describing the writable place used for this slot
946 ;;; in the instance named INSTANCE-NAME.
947 (defun %accessor-place-form (dd dsd instance-name)
948 (let (;; the operator that we'll use to access a typed slot
949 (ref (ecase (dd-type dd)
950 (structure '%instance-ref)
951 (list 'nth-but-with-sane-arg-order)
953 (raw-type (dsd-raw-type dsd)))
954 (if (eq raw-type t) ; if not raw slot
955 `(,ref ,instance-name ,(dsd-index dsd))
956 (let* ((raw-slot-data (find raw-type *raw-slot-data-list*
957 :key #'raw-slot-data-raw-type
959 (raw-slot-accessor (raw-slot-data-accessor-name raw-slot-data)))
960 `(,raw-slot-accessor ,instance-name ,(dsd-index dsd))))))
962 ;;; Return source transforms for the reader and writer functions of
963 ;;; the slot described by DSD. They should be inline expanded, but
964 ;;; source transforms work faster.
965 (defun slot-accessor-transforms (dd dsd)
966 (let ((accessor-place-form (%accessor-place-form dd dsd
967 `(the ,(dd-name dd) instance)))
968 (dsd-type (dsd-type dsd))
969 (value-the (if (dsd-safe-p dsd) 'truly-the 'the)))
970 (values (sb!c:source-transform-lambda (instance)
971 `(,value-the ,dsd-type ,(subst instance 'instance
972 accessor-place-form)))
973 (sb!c:source-transform-lambda (new-value instance)
974 (destructuring-bind (accessor-name &rest accessor-args)
976 (once-only ((new-value new-value)
978 `(,(info :setf :inverse accessor-name)
979 ,@(subst instance 'instance accessor-args)
980 (the ,dsd-type ,new-value))))))))
982 ;;; Return a LAMBDA form which can be used to set a slot.
983 (defun slot-setter-lambda-form (dd dsd)
984 ;; KLUDGE: Evaluating the results of SLOT-ACCESSOR-TRANSFORMS needs
986 (let ((sb!c:*lexenv* (if (boundp 'sb!c:*lexenv*)
988 (sb!c::make-null-lexenv))))
989 `(lambda (new-value instance)
990 ,(funcall (nth-value 1 (slot-accessor-transforms dd dsd))
991 '(dummy new-value instance)))))
993 ;;; Blow away all the compiler info for the structure CLASS. Iterate
994 ;;; over this type, clearing the compiler structure type info, and
995 ;;; undefining all the associated functions. If SUBCLASSES-P, also do
996 ;;; the same for subclasses. FIXME: maybe rename UNDEFINE-FUN-NAME to
997 ;;; UNDECLARE-FUNCTION-NAME?
998 (defun undeclare-structure (classoid subclasses-p)
999 (let ((info (layout-info (classoid-layout classoid))))
1000 (when (defstruct-description-p info)
1001 (let ((type (dd-name info)))
1002 (remhash type *typecheckfuns*)
1003 (setf (info :type :compiler-layout type) nil)
1004 (undefine-fun-name (dd-copier-name info))
1005 (undefine-fun-name (dd-predicate-name info))
1006 (dolist (slot (dd-slots info))
1007 (let ((fun (dsd-accessor-name slot)))
1008 (unless (accessor-inherited-data fun info)
1009 (undefine-fun-name fun)
1010 (unless (dsd-read-only slot)
1011 (undefine-fun-name `(setf ,fun)))))))
1012 ;; Clear out the SPECIFIER-TYPE cache so that subsequent
1013 ;; references are unknown types.
1014 (values-specifier-type-cache-clear)))
1016 (let ((subclasses (classoid-subclasses classoid)))
1019 (dohash ((classoid layout)
1022 (declare (ignore layout))
1023 (undeclare-structure classoid nil)
1024 (subs (classoid-proper-name classoid)))
1025 ;; Is it really necessary to warn about
1026 ;; undeclaring functions for subclasses?
1028 (warn "undeclaring functions for old subclasses ~
1030 (classoid-name classoid)
1033 ;;; core compile-time setup of any class with a LAYOUT, used even by
1034 ;;; !DEFSTRUCT-WITH-ALTERNATE-METACLASS weirdosities
1035 (defun %compiler-set-up-layout (dd
1037 ;; Several special cases
1038 ;; (STRUCTURE-OBJECT itself, and
1039 ;; structures with alternate
1040 ;; metaclasses) call this function
1041 ;; directly, and they're all at the
1042 ;; base of the instance class
1043 ;; structure, so this is a handy
1044 ;; default. (But note
1045 ;; FUNCALLABLE-STRUCTUREs need
1047 (inherits (vector (find-layout t))))
1049 (multiple-value-bind (classoid layout old-layout)
1050 (multiple-value-bind (clayout clayout-p)
1051 (info :type :compiler-layout (dd-name dd))
1052 (ensure-structure-class dd
1055 "The most recently compiled"
1057 "the most recently loaded"
1058 :compiler-layout clayout))
1060 (undeclare-structure (layout-classoid old-layout)
1061 (and (classoid-subclasses classoid)
1062 (not (eq layout old-layout))))
1063 (setf (layout-invalid layout) nil)
1064 ;; FIXME: it might be polite to hold onto old-layout and
1065 ;; restore it at the end of the file. -- RMK 2008-09-19
1066 ;; (International Talk Like a Pirate Day).
1067 (warn "~@<Clobbering the compiler's idea of the layout of ~A.~:@>"
1070 (unless (eq (classoid-layout classoid) layout)
1071 (register-layout layout :invalidate nil))
1072 (setf (find-classoid (dd-name dd)) classoid)))
1074 ;; At this point the class should be set up in the INFO database.
1075 ;; But the logic that enforces this is a little tangled and
1076 ;; scattered, so it's not obvious, so let's check.
1077 (aver (find-classoid (dd-name dd) nil))
1079 (setf (info :type :compiler-layout (dd-name dd)) layout))
1083 ;;; Do (COMPILE LOAD EVAL)-time actions for the normal (not
1084 ;;; ALTERNATE-LAYOUT) DEFSTRUCT described by DD.
1085 (defun %compiler-defstruct (dd inherits)
1086 (declare (type defstruct-description dd))
1088 (%compiler-set-up-layout dd inherits)
1090 (let* ((dtype (dd-declarable-type dd)))
1092 (let ((copier-name (dd-copier-name dd)))
1094 (sb!xc:proclaim `(ftype (sfunction (,dtype) ,dtype) ,copier-name))))
1096 (let ((predicate-name (dd-predicate-name dd)))
1097 (when predicate-name
1098 (sb!xc:proclaim `(ftype (sfunction (t) boolean) ,predicate-name))
1099 ;; Provide inline expansion (or not).
1101 ((structure funcallable-structure)
1102 ;; Let the predicate be inlined.
1103 (setf (info :function :inline-expansion-designator predicate-name)
1106 ;; This dead simple definition works because the
1107 ;; type system knows how to generate inline type
1108 ;; tests for instances.
1109 (typep x ',(dd-name dd))))
1110 (info :function :inlinep predicate-name)
1113 ;; Just punt. We could provide inline expansions for :TYPE
1114 ;; LIST and :TYPE VECTOR predicates too, but it'd be a
1115 ;; little messier and we don't bother. (Does anyway use
1116 ;; typed DEFSTRUCTs at all, let alone for high
1120 (dolist (dsd (dd-slots dd))
1121 (let* ((accessor-name (dsd-accessor-name dsd))
1122 (dsd-type (dsd-type dsd)))
1124 (setf (info :function :structure-accessor accessor-name) dd)
1125 (let ((inherited (accessor-inherited-data accessor-name dd)))
1128 (multiple-value-bind (reader-designator writer-designator)
1129 (slot-accessor-transforms dd dsd)
1130 (sb!xc:proclaim `(ftype (sfunction (,dtype) ,dsd-type)
1132 (setf (info :function :source-transform accessor-name)
1134 (unless (dsd-read-only dsd)
1135 (let ((setf-accessor-name `(setf ,accessor-name)))
1137 `(ftype (sfunction (,dsd-type ,dtype) ,dsd-type)
1138 ,setf-accessor-name))
1139 (setf (info :function :source-transform setf-accessor-name)
1140 writer-designator)))))
1141 ((not (= (cdr inherited) (dsd-index dsd)))
1142 (style-warn "~@<Non-overwritten accessor ~S does not access ~
1143 slot with name ~S (accessing an inherited slot ~
1146 (dsd-name dsd)))))))))
1149 ;;;; redefinition stuff
1151 ;;; Compare the slots of OLD and NEW, returning 3 lists of slot names:
1152 ;;; 1. Slots which have moved,
1153 ;;; 2. Slots whose type has changed,
1154 ;;; 3. Deleted slots.
1155 (defun compare-slots (old new)
1156 (let* ((oslots (dd-slots old))
1157 (nslots (dd-slots new))
1158 (onames (mapcar #'dsd-name oslots))
1159 (nnames (mapcar #'dsd-name nslots)))
1162 (dolist (name (intersection onames nnames))
1163 (let ((os (find name oslots :key #'dsd-name :test #'string=))
1164 (ns (find name nslots :key #'dsd-name :test #'string=)))
1165 (unless (sb!xc:subtypep (dsd-type ns) (dsd-type os))
1167 (unless (and (= (dsd-index os) (dsd-index ns))
1168 (eq (dsd-raw-type os) (dsd-raw-type ns)))
1172 (set-difference onames nnames :test #'string=)))))
1174 ;;; If we are redefining a structure with different slots than in the
1175 ;;; currently loaded version, give a warning and return true.
1176 (defun redefine-structure-warning (classoid old new)
1177 (declare (type defstruct-description old new)
1178 (type classoid classoid)
1180 (let ((name (dd-name new)))
1181 (multiple-value-bind (moved retyped deleted) (compare-slots old new)
1182 (when (or moved retyped deleted)
1184 "incompatibly redefining slots of structure class ~S~@
1185 Make sure any uses of affected accessors are recompiled:~@
1186 ~@[ These slots were moved to new positions:~% ~S~%~]~
1187 ~@[ These slots have new incompatible types:~% ~S~%~]~
1188 ~@[ These slots were deleted:~% ~S~%~]"
1189 name moved retyped deleted)
1192 ;;; This function is called when we are incompatibly redefining a
1193 ;;; structure CLASS to have the specified NEW-LAYOUT. We signal an
1194 ;;; error with some proceed options and return the layout that should
1196 (defun %redefine-defstruct (classoid old-layout new-layout)
1197 (declare (type classoid classoid)
1198 (type layout old-layout new-layout))
1199 (let ((name (classoid-proper-name classoid)))
1201 (error "~@<attempt to redefine the ~S class ~S incompatibly with the current definition~:@>"
1207 "~@<Use the new definition of ~S, invalidating ~
1208 already-loaded code and instances.~@:>"
1210 (register-layout new-layout))
1211 (recklessly-continue ()
1214 "~@<Use the new definition of ~S as if it were ~
1215 compatible, allowing old accessors to use new ~
1216 instances and allowing new accessors to use old ~
1219 ;; classic CMU CL warning: "Any old ~S instances will be in a bad way.
1220 ;; I hope you know what you're doing..."
1221 (register-layout new-layout
1223 :destruct-layout old-layout))
1225 ;; FIXME: deprecated 2002-10-16, and since it's only interactive
1226 ;; hackery instead of a supported feature, can probably be deleted
1228 :report "(deprecated synonym for RECKLESSLY-CONTINUE)"
1229 (register-layout new-layout
1231 :destruct-layout old-layout))))
1234 (declaim (inline dd-layout-length))
1235 (defun dd-layout-length (dd)
1236 (+ (dd-length dd) (dd-raw-length dd)))
1238 (declaim (ftype (sfunction (defstruct-description) index) dd-instance-length))
1239 (defun dd-instance-length (dd)
1240 ;; Make sure the object ends at a two-word boundary. Note that this does
1241 ;; not affect the amount of memory used, since the allocator would add the
1242 ;; same padding anyway. However, raw slots are indexed from the length of
1243 ;; the object as indicated in the header, so the pad word needs to be
1244 ;; included in that length to guarantee proper alignment of raw double float
1245 ;; slots, necessary for (at least) the SPARC backend.
1246 (let ((layout-length (dd-layout-length dd)))
1247 (declare (type index layout-length))
1248 (+ layout-length (mod (1+ layout-length) 2))))
1250 ;;; This is called when we are about to define a structure class. It
1251 ;;; returns a (possibly new) class object and the layout which should
1252 ;;; be used for the new definition (may be the current layout, and
1253 ;;; also might be an uninstalled forward referenced layout.) The third
1254 ;;; value is true if this is an incompatible redefinition, in which
1255 ;;; case it is the old layout.
1256 (defun ensure-structure-class (info inherits old-context new-context
1257 &key compiler-layout)
1258 (multiple-value-bind (class old-layout)
1262 (class 'structure-classoid)
1263 (constructor 'make-structure-classoid))
1264 (dd-alternate-metaclass info)
1265 (declare (ignore name))
1266 (insured-find-classoid (dd-name info)
1267 (if (eq class 'structure-classoid)
1269 (sb!xc:typep x 'structure-classoid))
1271 (sb!xc:typep x (classoid-name (find-classoid class)))))
1272 (fdefinition constructor)))
1273 (setf (classoid-direct-superclasses class)
1274 (case (dd-name info)
1277 sb!impl::string-input-stream sb!impl::string-output-stream
1278 sb!impl::fill-pointer-output-stream)
1279 (list (layout-classoid (svref inherits (1- (length inherits))))
1280 (layout-classoid (svref inherits (- (length inherits) 2)))))
1282 (list (layout-classoid
1283 (svref inherits (1- (length inherits))))))))
1284 (let ((new-layout (make-layout :classoid class
1286 :depthoid (length inherits)
1287 :length (dd-layout-length info)
1288 :n-untagged-slots (dd-raw-length info)
1290 (old-layout (or compiler-layout old-layout)))
1293 (values class new-layout nil))
1294 (;; This clause corresponds to an assertion in REDEFINE-LAYOUT-WARNING
1295 ;; of classic CMU CL. I moved it out to here because it was only
1296 ;; exercised in this code path anyway. -- WHN 19990510
1297 (not (eq (layout-classoid new-layout) (layout-classoid old-layout)))
1298 (error "shouldn't happen: weird state of OLD-LAYOUT?"))
1299 ((not *type-system-initialized*)
1300 (setf (layout-info old-layout) info)
1301 (values class old-layout nil))
1302 ((redefine-layout-warning old-context
1305 (layout-length new-layout)
1306 (layout-inherits new-layout)
1307 (layout-depthoid new-layout)
1308 (layout-n-untagged-slots new-layout))
1309 (values class new-layout old-layout))
1311 (let ((old-info (layout-info old-layout)))
1313 ((or defstruct-description)
1314 (cond ((redefine-structure-warning class old-info info)
1315 (values class new-layout old-layout))
1317 (setf (layout-info old-layout) info)
1318 (values class old-layout nil))))
1320 (setf (layout-info old-layout) info)
1321 (values class old-layout nil))
1323 (error "shouldn't happen! strange thing in LAYOUT-INFO:~% ~S"
1325 (values class new-layout old-layout)))))))))
1327 ;;; Return a list of pairs (name . index). Used for :TYPE'd
1328 ;;; constructors to find all the names that we have to splice in &
1329 ;;; where. Note that these types don't have a layout, so we can't look
1330 ;;; at LAYOUT-INHERITS.
1331 (defun find-name-indices (defstruct)
1334 (do ((info defstruct
1335 (typed-structure-info-or-lose (first (dd-include info)))))
1336 ((not (dd-include info))
1341 (dolist (info infos)
1342 (incf i (or (dd-offset info) 0))
1343 (when (dd-named info)
1344 (res (cons (dd-name info) i)))
1345 (setq i (dd-length info)))))
1349 ;;; These functions are called to actually make a constructor after we
1350 ;;; have processed the arglist. The correct variant (according to the
1351 ;;; DD-TYPE) should be called. The function is defined with the
1352 ;;; specified name and arglist. VARS and TYPES are used for argument
1353 ;;; type declarations. VALUES are the values for the slots (in order.)
1355 ;;; This is split three ways because:
1356 ;;; * LIST & VECTOR structures need "name" symbols stuck in at
1357 ;;; various weird places, whereas STRUCTURE structures have
1359 ;;; * We really want to use LIST to make list structures, instead of
1360 ;;; MAKE-LIST/(SETF ELT). (We can't in general use VECTOR in an
1361 ;;; analogous way, since VECTOR makes a SIMPLE-VECTOR and vector-typed
1362 ;;; structures can have arbitrary subtypes of VECTOR, not necessarily
1364 ;;; * STRUCTURE structures can have raw slots that must also be
1365 ;;; allocated and indirectly referenced.
1366 (defun create-vector-constructor (dd cons-name arglist vars types values)
1367 (let ((temp (gensym))
1368 (etype (dd-element-type dd)))
1369 `(defun ,cons-name ,arglist
1370 (declare ,@(mapcar (lambda (var type) `(type (and ,type ,etype) ,var))
1372 (let ((,temp (make-array ,(dd-length dd)
1373 :element-type ',(dd-element-type dd))))
1374 ,@(mapcar (lambda (x)
1375 `(setf (aref ,temp ,(cdr x)) ',(car x)))
1376 (find-name-indices dd))
1377 ,@(mapcar (lambda (dsd value)
1378 (unless (eq value '.do-not-initialize-slot.)
1379 `(setf (aref ,temp ,(dsd-index dsd)) ,value)))
1380 (dd-slots dd) values)
1382 (defun create-list-constructor (dd cons-name arglist vars types values)
1383 (let ((vals (make-list (dd-length dd) :initial-element nil)))
1384 (dolist (x (find-name-indices dd))
1385 (setf (elt vals (cdr x)) `',(car x)))
1386 (loop for dsd in (dd-slots dd) and val in values do
1387 (setf (elt vals (dsd-index dsd))
1388 (if (eq val '.do-not-initialize-slot.) 0 val)))
1389 `(defun ,cons-name ,arglist
1390 (declare ,@(mapcar (lambda (var type) `(type ,type ,var)) vars types))
1392 (defun create-structure-constructor (dd cons-name arglist vars types values)
1393 ;; The difference between the two implementations here is that on all
1394 ;; platforms we don't have the appropriate RAW-INSTANCE-INIT VOPS, which
1395 ;; must be able to deal with immediate values as well -- unlike
1396 ;; RAW-INSTANCE-SET VOPs, which never end up seeing immediate values. With
1397 ;; some additional cleverness we might manage without them and just a single
1398 ;; implementation here, though -- figure out a way to ensure that on those
1399 ;; platforms we always still get a non-immediate TN in every case...
1401 ;; Until someone does that, this means that instances with raw slots can be
1402 ;; DX allocated only on platforms with those additional VOPs.
1403 #!+raw-instance-init-vops
1404 (let* ((slot-values nil)
1406 (mapcan (lambda (dsd value)
1407 (unless (eq value '.do-not-initialize-slot.)
1408 (push value slot-values)
1409 (list (list* :slot (dsd-raw-type dsd) (dsd-index dsd)))))
1412 `(defun ,cons-name ,arglist
1413 (declare ,@(mapcar (lambda (var type) `(type ,type ,var)) vars types))
1414 (%make-structure-instance-macro ,dd ',slot-specs ,@(reverse slot-values))))
1415 #!-raw-instance-init-vops
1416 (let ((instance (gensym "INSTANCE")) slot-values slot-specs raw-slots raw-values)
1417 (mapc (lambda (dsd value)
1418 (unless (eq value '.do-not-initialize-slot.)
1419 (let ((raw-type (dsd-raw-type dsd)))
1420 (cond ((eq t raw-type)
1421 (push value slot-values)
1422 (push (list* :slot raw-type (dsd-index dsd)) slot-specs))
1424 (push value raw-values)
1425 (push dsd raw-slots))))))
1428 `(defun ,cons-name ,arglist
1429 (declare ,@(mapcar (lambda (var type) `(type ,type ,var)) vars types))
1431 `(let ((,instance (%make-structure-instance-macro ,dd ',slot-specs ,@slot-values)))
1432 ,@(mapcar (lambda (dsd value)
1433 ;; (Note that we can't in general use the
1434 ;; ordinary named slot setter function here
1435 ;; because the slot might be :READ-ONLY, so we
1436 ;; whip up new LAMBDA representations of slot
1437 ;; setters for the occasion.)
1438 `(,(slot-setter-lambda-form dd dsd) ,value ,instance))
1442 `(%make-structure-instance-macro ,dd ',slot-specs ,@slot-values)))))
1444 ;;; Create a default (non-BOA) keyword constructor.
1445 (defun create-keyword-constructor (defstruct creator)
1446 (declare (type function creator))
1447 (collect ((arglist (list '&key))
1450 (dolist (slot (dd-slots defstruct))
1451 (let ((dum (sb!xc:gensym "DUM"))
1452 (name (dsd-name slot)))
1453 (arglist `((,(keywordicate name) ,dum) ,(dsd-default slot)))
1454 (types (dsd-type slot))
1457 defstruct (dd-default-constructor defstruct)
1458 (arglist) (vals) (types) (vals))))
1460 ;;; Given a structure and a BOA constructor spec, call CREATOR with
1461 ;;; the appropriate args to make a constructor.
1462 (defun create-boa-constructor (defstruct boa creator)
1463 (declare (type function creator))
1464 (multiple-value-bind (req opt restp rest keyp keys allowp auxp aux)
1465 (parse-lambda-list (second boa))
1470 (labels ((get-slot (name)
1471 (let ((res (find name (dd-slots defstruct)
1475 (values (dsd-type res) (dsd-default res))
1478 (multiple-value-bind (type default) (get-slot arg)
1479 (arglist `(,arg ,default))
1485 (types (get-slot arg)))
1488 (arglist '&optional)
1492 ;; FIXME: this shares some logic (though not
1493 ;; code) with the &key case below (and it
1494 ;; looks confusing) -- factor out the logic
1495 ;; if possible. - CSR, 2002-04-19
1498 (def (nth-value 1 (get-slot name)))
1499 (supplied-test nil supplied-test-p))
1501 (arglist `(,name ,def ,@(if supplied-test-p `(,supplied-test) nil)))
1503 (types (get-slot name))))
1505 (do-default arg)))))
1508 (arglist '&rest rest)
1516 (destructuring-bind (wot
1519 (supplied-test nil supplied-test-p))
1521 (let ((name (if (consp wot)
1522 (destructuring-bind (key var) wot
1523 (declare (ignore key))
1526 (multiple-value-bind (type slot-def)
1528 (arglist `(,wot ,(if def-p def slot-def)
1529 ,@(if supplied-test-p `(,supplied-test) nil)))
1534 (when allowp (arglist '&allow-other-keys))
1539 (if (proper-list-of-length-p arg 2)
1540 (let ((var (first arg)))
1543 (types (get-slot var)))
1544 (skipped-vars (if (consp arg) (first arg) arg))))))
1546 (funcall creator defstruct (first boa)
1547 (arglist) (vars) (types)
1548 (loop for slot in (dd-slots defstruct)
1549 for name = (dsd-name slot)
1550 collect (cond ((find name (skipped-vars) :test #'string=)
1551 ;; CLHS 3.4.6 Boa Lambda Lists
1552 (setf (dsd-safe-p slot) nil)
1553 '.do-not-initialize-slot.)
1554 ((or (find (dsd-name slot) (vars) :test #'string=)
1555 (let ((type (dsd-type slot)))
1558 `(the ,type ,(dsd-default slot))))))))))))
1560 ;;; Grovel the constructor options, and decide what constructors (if
1562 (defun constructor-definitions (defstruct)
1563 (let ((no-constructors nil)
1566 (creator (ecase (dd-type defstruct)
1567 (structure #'create-structure-constructor)
1568 (vector #'create-vector-constructor)
1569 (list #'create-list-constructor))))
1570 (dolist (constructor (dd-constructors defstruct))
1571 (destructuring-bind (name &optional (boa-ll nil boa-p)) constructor
1572 (declare (ignore boa-ll))
1573 (cond ((not name) (setq no-constructors t))
1574 (boa-p (push constructor boas))
1575 (t (push name defaults)))))
1577 (when no-constructors
1578 (when (or defaults boas)
1579 (error "(:CONSTRUCTOR NIL) combined with other :CONSTRUCTORs"))
1580 (return-from constructor-definitions ()))
1582 (unless (or defaults boas)
1583 (push (symbolicate "MAKE-" (dd-name defstruct)) defaults))
1585 (collect ((res) (names))
1587 (let ((cname (first defaults)))
1588 (setf (dd-default-constructor defstruct) cname)
1589 (res (create-keyword-constructor defstruct creator))
1591 (dolist (other-name (rest defaults))
1592 (res `(setf (fdefinition ',other-name) (fdefinition ',cname)))
1593 (names other-name))))
1596 (res (create-boa-constructor defstruct boa creator))
1597 (names (first boa)))
1599 (res `(declaim (ftype
1601 ,(if (eq (dd-type defstruct) 'structure)
1608 ;;;; instances with ALTERNATE-METACLASS
1610 ;;;; The CMU CL support for structures with ALTERNATE-METACLASS was a
1611 ;;;; fairly general extension embedded in the main DEFSTRUCT code, and
1612 ;;;; the result was an fairly impressive mess as ALTERNATE-METACLASS
1613 ;;;; extension mixed with ANSI CL generality (e.g. :TYPE and :INCLUDE)
1614 ;;;; and CMU CL implementation hairiness (esp. raw slots). This SBCL
1615 ;;;; version is much less ambitious, noticing that ALTERNATE-METACLASS
1616 ;;;; is only used to implement CONDITION, STANDARD-INSTANCE, and
1617 ;;;; GENERIC-FUNCTION, and defining a simple specialized
1618 ;;;; separate-from-DEFSTRUCT macro to provide only enough
1619 ;;;; functionality to support those.
1621 ;;;; KLUDGE: The defining macro here is so specialized that it's ugly
1622 ;;;; in its own way. It also violates once-and-only-once by knowing
1623 ;;;; much about structures and layouts that is already known by the
1624 ;;;; main DEFSTRUCT macro. Hopefully it will go away presently
1625 ;;;; (perhaps when CL:CLASS and SB-PCL:CLASS meet) as per FIXME below.
1626 ;;;; -- WHN 2001-10-28
1628 ;;;; FIXME: There seems to be no good reason to shoehorn CONDITION,
1629 ;;;; STANDARD-INSTANCE, and GENERIC-FUNCTION into mutated structures
1630 ;;;; instead of just implementing them as primitive objects. (This
1631 ;;;; reduced-functionality macro seems pretty close to the
1632 ;;;; functionality of DEFINE-PRIMITIVE-OBJECT..)
1634 (defun make-dd-with-alternate-metaclass (&key (class-name (missing-arg))
1635 (superclass-name (missing-arg))
1636 (metaclass-name (missing-arg))
1637 (dd-type (missing-arg))
1638 metaclass-constructor
1640 (let* ((dd (make-defstruct-description class-name))
1641 (conc-name (concatenate 'string (symbol-name class-name) "-"))
1642 (dd-slots (let ((reversed-result nil)
1643 ;; The index starts at 1 for ordinary named
1644 ;; slots because slot 0 is magical, used for
1645 ;; the LAYOUT in CONDITIONs and
1646 ;; FUNCALLABLE-INSTANCEs. (This is the same
1647 ;; in ordinary structures too: see (INCF
1649 ;; PARSE-DEFSTRUCT-NAME-AND-OPTIONS).
1651 (dolist (slot-name slot-names)
1652 (push (make-defstruct-slot-description
1655 :accessor-name (symbolicate conc-name slot-name))
1658 (nreverse reversed-result))))
1660 ;; We don't support inheritance of alternate metaclass stuff,
1661 ;; and it's not a general-purpose facility, so sanity check our
1664 (aver (eq superclass-name 't)))
1665 (funcallable-structure
1666 (aver (eq superclass-name 'function)))
1667 (t (bug "Unknown DD-TYPE in ALTERNATE-METACLASS: ~S" dd-type)))
1668 (setf (dd-alternate-metaclass dd) (list superclass-name
1670 metaclass-constructor)
1671 (dd-slots dd) dd-slots
1672 (dd-length dd) (1+ (length slot-names))
1673 (dd-type dd) dd-type)
1676 ;;; make !DEFSTRUCT-WITH-ALTERNATE-METACLASS compilable by the host
1677 ;;; lisp, installing the information we need to reason about the
1678 ;;; structures (layouts and classoids).
1680 ;;; FIXME: we should share the parsing and the DD construction between
1681 ;;; this and the cross-compiler version, but my brain was too small to
1682 ;;; get that right. -- CSR, 2006-09-14
1684 (defmacro !defstruct-with-alternate-metaclass
1686 (slot-names (missing-arg))
1687 (boa-constructor (missing-arg))
1688 (superclass-name (missing-arg))
1689 (metaclass-name (missing-arg))
1690 (metaclass-constructor (missing-arg))
1691 (dd-type (missing-arg))
1693 (runtime-type-checks-p t))
1695 (declare (type (and list (not null)) slot-names))
1696 (declare (type (and symbol (not null))
1700 metaclass-constructor))
1701 (declare (type symbol predicate))
1702 (declare (type (member structure funcallable-structure) dd-type))
1703 (declare (ignore boa-constructor predicate runtime-type-checks-p))
1705 (let* ((dd (make-dd-with-alternate-metaclass
1706 :class-name class-name
1707 :slot-names slot-names
1708 :superclass-name superclass-name
1709 :metaclass-name metaclass-name
1710 :metaclass-constructor metaclass-constructor
1714 (eval-when (:compile-toplevel :load-toplevel :execute)
1715 (%compiler-set-up-layout ',dd ',(inherits-for-structure dd))))))
1717 (sb!xc:proclaim '(special *defstruct-hooks*))
1719 (sb!xc:defmacro !defstruct-with-alternate-metaclass
1721 (slot-names (missing-arg))
1722 (boa-constructor (missing-arg))
1723 (superclass-name (missing-arg))
1724 (metaclass-name (missing-arg))
1725 (metaclass-constructor (missing-arg))
1726 (dd-type (missing-arg))
1728 (runtime-type-checks-p t))
1730 (declare (type (and list (not null)) slot-names))
1731 (declare (type (and symbol (not null))
1735 metaclass-constructor))
1736 (declare (type symbol predicate))
1737 (declare (type (member structure funcallable-structure) dd-type))
1739 (let* ((dd (make-dd-with-alternate-metaclass
1740 :class-name class-name
1741 :slot-names slot-names
1742 :superclass-name superclass-name
1743 :metaclass-name metaclass-name
1744 :metaclass-constructor metaclass-constructor
1746 (dd-slots (dd-slots dd))
1747 (dd-length (1+ (length slot-names)))
1748 (object-gensym (sb!xc:gensym "OBJECT"))
1749 (new-value-gensym (sb!xc:gensym "NEW-VALUE-"))
1750 (delayed-layout-form `(%delayed-get-compiler-layout ,class-name)))
1751 (multiple-value-bind (raw-maker-form raw-reffer-operator)
1754 (values `(%make-structure-instance-macro ,dd nil)
1756 (funcallable-structure
1757 (values `(let ((,object-gensym
1758 (%make-funcallable-instance ,dd-length)))
1759 (setf (%funcallable-instance-layout ,object-gensym)
1760 ,delayed-layout-form)
1762 '%funcallable-instance-info)))
1765 (eval-when (:compile-toplevel :load-toplevel :execute)
1766 (%compiler-set-up-layout ',dd ',(inherits-for-structure dd)))
1768 ;; slot readers and writers
1769 (declaim (inline ,@(mapcar #'dsd-accessor-name dd-slots)))
1770 ,@(mapcar (lambda (dsd)
1771 `(defun ,(dsd-accessor-name dsd) (,object-gensym)
1772 ,@(when runtime-type-checks-p
1773 `((declare (type ,class-name ,object-gensym))))
1774 (,raw-reffer-operator ,object-gensym
1777 (declaim (inline ,@(mapcar (lambda (dsd)
1778 `(setf ,(dsd-accessor-name dsd)))
1780 ,@(mapcar (lambda (dsd)
1781 `(defun (setf ,(dsd-accessor-name dsd)) (,new-value-gensym
1783 ,@(when runtime-type-checks-p
1784 `((declare (type ,class-name ,object-gensym))))
1785 (setf (,raw-reffer-operator ,object-gensym
1787 ,new-value-gensym)))
1791 (defun ,boa-constructor ,slot-names
1792 (let ((,object-gensym ,raw-maker-form))
1793 ,@(mapcar (lambda (slot-name)
1794 (let ((dsd (find (symbol-name slot-name) dd-slots
1796 (symbol-name (dsd-name x)))
1798 ;; KLUDGE: bug 117 bogowarning. Neither
1799 ;; DECLAREing the type nor TRULY-THE cut
1800 ;; the mustard -- it still gives warnings.
1801 (enforce-type dsd defstruct-slot-description)
1802 `(setf (,(dsd-accessor-name dsd) ,object-gensym)
1809 ;; Just delegate to the compiler's type optimization
1810 ;; code, which knows how to generate inline type tests
1811 ;; for the whole CMU CL INSTANCE menagerie.
1812 `(defun ,predicate (,object-gensym)
1813 (typep ,object-gensym ',class-name)))
1815 (when (boundp '*defstruct-hooks*)
1816 (dolist (fun *defstruct-hooks*)
1817 (funcall fun (find-classoid ',(dd-name dd)))))))))
1819 ;;;; finalizing bootstrapping
1821 ;;; Set up DD and LAYOUT for STRUCTURE-OBJECT class itself.
1823 ;;; Ordinary structure classes effectively :INCLUDE STRUCTURE-OBJECT
1824 ;;; when they have no explicit :INCLUDEs, so (1) it needs to be set up
1825 ;;; before we can define ordinary structure classes, and (2) it's
1826 ;;; special enough (and simple enough) that we just build it by hand
1827 ;;; instead of trying to generalize the ordinary DEFSTRUCT code.
1828 (defun !set-up-structure-object-class ()
1829 (let ((dd (make-defstruct-description 'structure-object)))
1831 ;; Note: This has an ALTERNATE-METACLASS only because of blind
1832 ;; clueless imitation of the CMU CL code -- dunno if or why it's
1834 (dd-alternate-metaclass dd) '(t)
1837 (dd-type dd) 'structure)
1838 (%compiler-set-up-layout dd)))
1839 (!set-up-structure-object-class)
1841 ;;; early structure predeclarations: Set up DD and LAYOUT for ordinary
1842 ;;; (non-ALTERNATE-METACLASS) structures which are needed early.
1844 '#.(sb-cold:read-from-file
1845 "src/code/early-defstruct-args.lisp-expr"))
1846 (let* ((dd (parse-defstruct-name-and-options-and-slot-descriptions
1849 (inherits (inherits-for-structure dd)))
1850 (%compiler-defstruct dd inherits)))
1852 ;;; finding these beasts
1853 (defun find-defstruct-description (name &optional (errorp t))
1854 (let ((info (layout-info (classoid-layout (find-classoid name errorp)))))
1855 (if (defstruct-description-p info)
1858 (error "No DEFSTRUCT-DESCRIPTION for ~S." name)))))
1860 (/show0 "code/defstruct.lisp end of file")