1 ;;; introspection library
3 ;;;; This software is part of the SBCL system. See the README file for
6 ;;;; This software is derived from the CMU CL system, which was
7 ;;;; written at Carnegie Mellon University and released into the
8 ;;;; public domain. The software is in the public domain and is
9 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
10 ;;;; files for more information.
12 ;;; For the avoidance of doubt, the exported interface is the supported
13 ;;; interface. Anything else is internal, though you're welcome to argue a
14 ;;; case for exporting it.
16 ;;; If you steal the code from this file to cut and paste into your
17 ;;; own project, there will be much wailing and gnashing of teeth.
18 ;;; Your teeth. If need be, we'll kick them for you. This is a
19 ;;; contrib, we're allowed to look in internals. You're an
20 ;;; application programmer, and are not.
23 ;;; 1) structs don't have within-file location info. problem for the
24 ;;; structure itself, accessors, the copier and the predicate
25 ;;; 3) error handling. Signal random errors, or handle and resignal 'our'
26 ;;; error, or return NIL?
29 (defpackage :sb-introspect
31 (:export "ALLOCATION-INFORMATION"
33 "FUNCTION-LAMBDA-LIST"
36 "VALID-FUNCTION-NAME-P"
37 "FIND-DEFINITION-SOURCE"
38 "FIND-DEFINITION-SOURCES-BY-NAME"
40 "DEFINITION-SOURCE-PATHNAME"
41 "DEFINITION-SOURCE-FORM-PATH"
42 "DEFINITION-SOURCE-CHARACTER-OFFSET"
43 "DEFINITION-SOURCE-FILE-WRITE-DATE"
44 "DEFINITION-SOURCE-PLIST"
45 "FIND-FUNCTION-CALLEES"
46 "FIND-FUNCTION-CALLERS"
53 "WHO-SPECIALIZES-DIRECTLY"
54 "WHO-SPECIALIZES-GENERALLY"))
56 (in-package :sb-introspect)
58 ;;;; Internal interface for SBCL debug info
60 ;;; Here are some tutorial-style type definitions to help understand
61 ;;; the internal SBCL debugging data structures we're using. The
62 ;;; commentary is based on CMUCL's debug internals manual.
64 (deftype debug-info ()
65 "Structure containing all the debug information related to a function.
66 Function objects reference debug-infos which in turn reference
67 debug-sources and so on."
68 'sb-c::compiled-debug-info)
70 (deftype debug-source ()
71 "Debug sources describe where to find source code.
72 For example, the debug source for a function compiled from a file will
73 include the pathname of the file and the position of the definition."
76 (deftype debug-function ()
77 "Debug function represent static compile-time information about a function."
78 'sb-c::compiled-debug-fun)
80 (declaim (ftype (function (function) debug-info) function-debug-info))
81 (defun function-debug-info (function)
82 (let* ((function-object (sb-kernel::%fun-fun function))
83 (function-header (sb-kernel:fun-code-header function-object)))
84 (sb-kernel:%code-debug-info function-header)))
86 (declaim (ftype (function (function) debug-source) function-debug-source))
87 (defun function-debug-source (function)
88 (debug-info-source (function-debug-info function)))
90 (declaim (ftype (function (debug-info) debug-source) debug-info-source))
91 (defun debug-info-source (debug-info)
92 (sb-c::debug-info-source debug-info))
94 (declaim (ftype (function (debug-info) debug-function) debug-info-debug-function))
95 (defun debug-info-debug-function (debug-info)
96 (elt (sb-c::compiled-debug-info-fun-map debug-info) 0))
98 (defun valid-function-name-p (name)
99 "True if NAME denotes a valid function name, ie. one that can be passed to
101 (and (sb-int:valid-function-name-p name) t))
103 ;;;; Finding definitions
105 (defstruct definition-source
106 ;; Pathname of the source file that the definition was compiled from.
107 ;; This is null if the definition was not compiled from a file.
108 (pathname nil :type (or null pathname))
109 ;; Source-path of the definition within the file.
110 ;; This may be incomplete depending on the debug level at which the
111 ;; source was compiled.
112 (form-path '() :type list)
113 ;; Character offset of the top-level-form containing the definition.
114 ;; This corresponds to the first element of form-path.
115 (character-offset nil :type (or null integer))
116 ;; File-write-date of the source file when compiled.
117 ;; Null if not compiled from a file.
118 (file-write-date nil :type (or null integer))
119 ;; plist from WITH-COMPILATION-UNIT
121 ;; Any extra metadata that the caller might be interested in. For
122 ;; example the specializers of the method whose definition-source this
124 (description nil :type list))
126 (defun vop-sources-from-fun-templates (name)
127 (let ((fun-info (sb-int:info :function :info name)))
129 (loop for vop in (sb-c::fun-info-templates fun-info)
130 for source = (find-definition-source
131 (sb-c::vop-info-generator-function vop))
132 do (setf (definition-source-description source)
133 (list (sb-c::template-name vop)
134 (sb-c::template-note vop)))
137 (defun find-vop-source (name)
138 (let* ((templates (vop-sources-from-fun-templates name))
139 (vop (gethash name sb-c::*backend-template-names*))
141 (find-definition-source
142 (sb-c::vop-info-generator-function vop)))))
144 (setf (definition-source-description source)
147 (cons source templates)
150 (defun find-definition-sources-by-name (name type)
151 "Returns a list of DEFINITION-SOURCEs for the objects of type TYPE
152 defined with name NAME. NAME may be a symbol or a extended function
153 name. Type can currently be one of the following:
178 If an unsupported TYPE is requested, the function will return NIL.
186 (find-class name nil)))
187 (real-fdefinition (name)
188 ;; for getting the real function object, even if the
189 ;; function is being profiled
190 (let ((profile-info (gethash name sb-profile::*profiled-fun-name->info*)))
192 (sb-profile::profile-info-encapsulated-fun profile-info)
193 (fdefinition name)))))
197 (when (and (symbolp name)
198 (eq (sb-int:info :variable :kind name) :special))
199 (translate-source-location (sb-int:info :source-location type name))))
201 (when (and (symbolp name)
202 (eq (sb-int:info :variable :kind name) :constant))
203 (translate-source-location (sb-int:info :source-location type name))))
205 (when (and (symbolp name)
206 (eq (sb-int:info :variable :kind name) :macro))
207 (translate-source-location (sb-int:info :source-location type name))))
209 (when (and (symbolp name)
210 (macro-function name))
211 (find-definition-source (macro-function name))))
213 (when (compiler-macro-function name)
214 (find-definition-source (compiler-macro-function name))))
215 ((:function :generic-function)
216 (when (and (fboundp name)
217 (or (not (symbolp name))
218 (not (macro-function name))
219 (special-operator-p name)))
220 (let ((fun (real-fdefinition name)))
221 (when (eq (not (typep fun 'generic-function))
222 (not (eq type :generic-function)))
223 (find-definition-source fun)))))
225 ;; Source locations for types are saved separately when the expander
226 ;; is a closure without a good source-location.
227 (let ((loc (sb-int:info :type :source-location name)))
229 (translate-source-location loc)
230 (let ((expander-fun (sb-int:info :type :expander name)))
232 (find-definition-source expander-fun))))))
235 (let ((fun (real-fdefinition name)))
236 (when (typep fun 'generic-function)
237 (loop for method in (sb-mop::generic-function-methods
239 for source = (find-definition-source method)
240 when source collect source)))))
242 (when (and (consp name)
243 (eq (car name) 'setf))
244 (setf name (cadr name)))
245 (let ((expander (or (sb-int:info :setf :inverse name)
246 (sb-int:info :setf :expander name))))
248 (find-definition-source (if (symbolp expander)
249 (symbol-function expander)
252 (let ((class (get-class name)))
254 (when (typep class 'sb-pcl::structure-class)
255 (find-definition-source class))
256 (when (sb-int:info :typed-structure :info name)
257 (translate-source-location
258 (sb-int:info :source-location :typed-structure name))))))
260 (let ((class (get-class name)))
262 (not (typep class 'sb-pcl::structure-class)))
263 (when (eq (not (typep class 'sb-pcl::condition-class))
264 (not (eq type :condition)))
265 (find-definition-source class)))))
266 ((:method-combination)
267 (let ((combination-fun
268 (find-method #'sb-mop:find-method-combination
270 (list (find-class 'generic-function)
274 (when combination-fun
275 (find-definition-source combination-fun))))
278 (let ((package (find-package name)))
280 (find-definition-source package)))))
281 ;; TRANSFORM and OPTIMIZER handling from swank-sbcl
284 (let ((fun-info (sb-int:info :function :info name)))
286 (loop for xform in (sb-c::fun-info-transforms fun-info)
287 for source = (find-definition-source
288 (sb-c::transform-function xform))
289 for typespec = (sb-kernel:type-specifier
290 (sb-c::transform-type xform))
291 for note = (sb-c::transform-note xform)
292 do (setf (definition-source-description source)
294 (list (second typespec) note)
298 (let ((fun-info (and (symbolp name)
299 (sb-int:info :function :info name))))
301 (let ((otypes '((sb-c:fun-info-derive-type . sb-c:derive-type)
302 (sb-c:fun-info-ltn-annotate . sb-c:ltn-annotate)
303 (sb-c:fun-info-optimizer . sb-c:optimizer)
304 (sb-c:fun-info-ir2-convert . sb-c:ir2-convert)
305 (sb-c::fun-info-stack-allocate-result
306 . sb-c::stack-allocate-result))))
307 (loop for (reader . name) in otypes
308 for fn = (funcall reader fun-info)
310 (let ((source (find-definition-source fn)))
311 (setf (definition-source-description source)
316 (find-vop-source name)))
319 (let ((transform-fun (sb-int:info :function :source-transform name)))
321 (find-definition-source transform-fun)))))
325 (defun find-definition-source (object)
327 ((or sb-pcl::condition-class sb-pcl::structure-class)
328 (let ((classoid (sb-impl::find-classoid (class-name object))))
330 (let ((layout (sb-impl::classoid-layout classoid)))
332 (translate-source-location
333 (sb-kernel::layout-source-location layout)))))))
336 (find-definition-sources-by-name
337 (sb-pcl::method-combination-type-name object) :method-combination)))
339 (translate-source-location (sb-impl::package-source-location object)))
341 (translate-source-location (sb-pcl::definition-source object)))
342 ;; Use the PCL definition location information instead of the function
343 ;; debug-info for methods and generic functions. Sometimes the
344 ;; debug-info would point into PCL internals instead of the proper
347 (let ((source (translate-source-location
348 (sb-pcl::definition-source object))))
350 (setf (definition-source-description source)
351 (list (sb-mop:generic-function-lambda-list object))))
354 (let ((source (translate-source-location
355 (sb-pcl::definition-source object))))
357 (setf (definition-source-description source)
358 (append (method-qualifiers object)
359 (if (sb-mop:method-generic-function object)
360 (sb-pcl::unparse-specializers
361 (sb-mop:method-generic-function object)
362 (sb-mop:method-specializers object))
363 (sb-mop:method-specializers object)))))
366 (sb-eval:interpreted-function
367 (let ((source (translate-source-location
368 (sb-eval:interpreted-function-source-location object))))
371 (cond ((struct-accessor-p object)
372 (find-definition-source
373 (struct-accessor-structure-class object)))
374 ((struct-predicate-p object)
375 (find-definition-source
376 (struct-predicate-structure-class object)))
377 ((struct-copier-p object)
378 (find-definition-source
379 (struct-copier-structure-class object)))
381 (find-function-definition-source object))))
382 ((or condition standard-object structure-object)
383 (find-definition-source (class-of object)))
385 (error "Don't know how to retrieve source location for a ~S"
388 (defun find-function-definition-source (function)
389 (let* ((debug-info (function-debug-info function))
390 (debug-source (debug-info-source debug-info))
391 (debug-fun (debug-info-debug-function debug-info))
392 (tlf (if debug-fun (sb-c::compiled-debug-fun-tlf-number debug-fun))))
393 (make-definition-source
395 ;; KLUDGE: at the moment, we don't record the correct toplevel
396 ;; form number for forms processed by EVAL (including EVAL-WHEN
397 ;; :COMPILE-TOPLEVEL). Until that's fixed, don't return a
398 ;; DEFINITION-SOURCE with a pathname. (When that's fixed, take
399 ;; out the (not (debug-source-form ...)) test.
400 (when (stringp (sb-c::debug-source-namestring debug-source))
401 (parse-namestring (sb-c::debug-source-namestring debug-source)))
404 (elt (sb-c::debug-source-start-positions debug-source) tlf))
405 ;; Unfortunately there is no proper source path available in the
406 ;; debug-source. FIXME: We could use sb-di:code-locations to get
407 ;; a full source path. -luke (12/Mar/2005)
408 :form-path (if tlf (list tlf))
409 :file-write-date (sb-c::debug-source-created debug-source)
410 :plist (sb-c::debug-source-plist debug-source))))
412 (defun translate-source-location (location)
414 (make-definition-source
415 :pathname (let ((n (sb-c:definition-source-location-namestring location)))
417 (parse-namestring n)))
419 (let ((number (sb-c:definition-source-location-toplevel-form-number
423 :plist (sb-c:definition-source-location-plist location))
424 (make-definition-source)))
426 ;;; This is kludgey. We expect these functions (the underlying functions,
427 ;;; not the closures) to be in static space and so not move ever.
428 ;;; FIXME It's also possibly wrong: not all structures use these vanilla
429 ;;; accessors, e.g. when the :type option is used
430 (defvar *struct-slotplace-reader*
431 (sb-vm::%simple-fun-self #'definition-source-pathname))
432 (defvar *struct-slotplace-writer*
433 (sb-vm::%simple-fun-self #'(setf definition-source-pathname)))
434 (defvar *struct-predicate*
435 (sb-vm::%simple-fun-self #'definition-source-p))
436 (defvar *struct-copier*
437 (sb-vm::%simple-fun-self #'copy-definition-source))
439 (defun struct-accessor-p (function)
440 (let ((self (sb-vm::%simple-fun-self function)))
441 ;; FIXME there are other kinds of struct accessor. Fill out this list
442 (member self (list *struct-slotplace-reader*
443 *struct-slotplace-writer*))))
445 (defun struct-copier-p (function)
446 (let ((self (sb-vm::%simple-fun-self function)))
447 ;; FIXME there may be other structure copier functions
448 (member self (list *struct-copier*))))
450 (defun struct-predicate-p (function)
451 (let ((self (sb-vm::%simple-fun-self function)))
452 ;; FIXME there may be other structure predicate functions
453 (member self (list *struct-predicate*))))
455 (sb-int:define-deprecated-function :late "1.0.24.5" function-arglist function-lambda-list
457 (function-lambda-list function))
459 (defun function-lambda-list (function)
460 "Describe the lambda list for the extended function designator FUNCTION.
461 Works for special-operators, macros, simple functions, interpreted functions,
462 and generic functions. Signals an error if FUNCTION is not a valid extended
463 function designator."
464 (cond ((valid-function-name-p function)
465 (function-lambda-list (or (and (symbolp function)
466 (macro-function function))
467 (fdefinition function))))
468 ((typep function 'generic-function)
469 (sb-pcl::generic-function-pretty-arglist function))
471 ((typep function 'sb-eval:interpreted-function)
472 (sb-eval:interpreted-function-lambda-list function))
474 (sb-kernel:%simple-fun-arglist (sb-kernel:%fun-fun function)))))
476 (defun deftype-lambda-list (typespec-operator)
477 "Returns the lambda list of TYPESPEC-OPERATOR as first return
478 value, and a flag whether the arglist could be found as second
480 (check-type typespec-operator symbol)
481 (case (sb-int:info :type :kind typespec-operator)
483 (sb-int:info :type :lambda-list typespec-operator))
485 (let ((translator-fun (sb-int:info :type :translator typespec-operator)))
487 (values (sb-kernel:%fun-lambda-list translator-fun) t)
488 ;; Some builtin types (e.g. STRING) do not have a
489 ;; translator, but they were actually defined via DEFTYPE
490 ;; in src/code/deftypes-for-target.lisp.
491 (sb-int:info :type :lambda-list typespec-operator))))
492 (t (values nil nil))))
494 (defun function-type (function-designator)
495 "Returns the ftype of FUNCTION-DESIGNATOR, or NIL."
496 (flet ((ftype-of (function-designator)
497 (sb-kernel:type-specifier
498 (sb-int:info :function :type function-designator))))
499 (etypecase function-designator
501 (when (and (fboundp function-designator)
502 (not (macro-function function-designator))
503 (not (special-operator-p function-designator)))
504 (ftype-of function-designator)))
506 (when (and (sb-int:legal-fun-name-p function-designator)
507 (fboundp function-designator))
508 (ftype-of function-designator)))
510 (function-type (sb-pcl:generic-function-name function-designator)))
512 ;; Give declared type in globaldb priority over derived type
513 ;; because it contains more accurate information e.g. for
515 (let ((type (function-type (sb-kernel:%fun-name
516 (sb-impl::%fun-fun function-designator)))))
519 (sb-impl::%fun-type function-designator)))))))
521 ;;; FIXME: These three are pretty terrible. Can we place have some proper metadata
524 (defun struct-accessor-structure-class (function)
525 (let ((self (sb-vm::%simple-fun-self function)))
527 ((member self (list *struct-slotplace-reader* *struct-slotplace-writer*))
529 (sb-kernel::classoid-name
530 (sb-kernel::layout-classoid
531 (sb-kernel:%closure-index-ref function 1)))))
534 (defun struct-copier-structure-class (function)
535 (let ((self (sb-vm::%simple-fun-self function)))
537 ((member self (list *struct-copier*))
539 (sb-kernel::classoid-name
540 (sb-kernel::layout-classoid
541 (sb-kernel:%closure-index-ref function 0)))))
544 (defun struct-predicate-structure-class (function)
545 (let ((self (sb-vm::%simple-fun-self function)))
547 ((member self (list *struct-predicate*))
549 (sb-kernel::classoid-name
550 (sb-kernel::layout-classoid
551 (sb-kernel:%closure-index-ref function 0)))))
554 ;;;; find callers/callees, liberated from Helmut Eller's code in SLIME
556 ;;; This interface is trmendously experimental.
558 ;;; For the moment I'm taking the view that FDEFN is an internal
559 ;;; object (one out of one CMUCL developer surveyed didn't know what
560 ;;; they were for), so these routines deal in FUNCTIONs
562 ;;; Find callers and callees by looking at the constant pool of
563 ;;; compiled code objects. We assume every fdefn object in the
564 ;;; constant pool corresponds to a call to that function. A better
565 ;;; strategy would be to use the disassembler to find actual
568 (defun find-function-callees (function)
569 "Return functions called by FUNCTION."
572 (sb-kernel:fun-code-header function)
574 (when (sb-kernel:fdefn-p obj)
575 (push (sb-kernel:fdefn-fun obj)
580 (defun find-function-callers (function &optional (spaces '(:read-only :static
582 "Return functions which call FUNCTION, by searching SPACES for code objects"
583 (let ((referrers '()))
584 (map-caller-code-components
588 (let ((entry (sb-kernel:%code-entry-points code)))
590 (push (princ-to-string code) referrers))
592 (loop for e = entry then (sb-kernel::%simple-fun-next e)
594 do (pushnew e referrers)))))))
597 (declaim (inline map-code-constants))
598 (defun map-code-constants (code fn)
599 "Call FN for each constant in CODE's constant pool."
600 (check-type code sb-kernel:code-component)
601 (loop for i from sb-vm:code-constants-offset below
602 (sb-kernel:get-header-data code)
603 do (funcall fn (sb-kernel:code-header-ref code i))))
605 (declaim (inline map-allocated-code-components))
606 (defun map-allocated-code-components (spaces fn)
607 "Call FN for each allocated code component in one of SPACES. FN
608 receives the object and its size as arguments. SPACES should be a
609 list of the symbols :dynamic, :static, or :read-only."
610 (dolist (space spaces)
611 (sb-vm::map-allocated-objects
612 (lambda (obj header size)
613 (when (= sb-vm:code-header-widetag header)
614 (funcall fn obj size)))
617 (declaim (inline map-caller-code-components))
618 (defun map-caller-code-components (function spaces fn)
619 "Call FN for each code component with a fdefn for FUNCTION in its
621 (let ((function (coerce function 'function)))
622 (map-allocated-code-components
625 (declare (ignore size))
629 (when (and (sb-kernel:fdefn-p constant)
630 (eq (sb-kernel:fdefn-fun constant)
632 (funcall fn obj))))))))
636 (defun get-simple-fun (functoid)
639 (get-simple-fun (sb-vm::fdefn-fun functoid)))
640 ((or null sb-impl::funcallable-instance)
643 (sb-kernel::%fun-fun functoid))))
645 (defun collect-xref (kind-index wanted-name)
647 (dolist (env sb-c::*info-environment* ret)
648 ;; Loop through the infodb ...
649 (sb-c::do-info (env :class class :type type :name info-name
651 ;; ... looking for function or macro definitions
652 (when (and (eql class :function)
653 (or (eql type :macro-function)
654 (eql type :definition)))
655 ;; Get a simple-fun for the definition, and an xref array
656 ;; from the table if available.
657 (let* ((simple-fun (get-simple-fun value))
658 (xrefs (when simple-fun
659 (sb-kernel:%simple-fun-xrefs simple-fun)))
661 (aref xrefs kind-index))))
662 ;; Loop through the name/path xref entries in the table
663 (loop for i from 0 below (length array) by 2
664 for xref-name = (aref array i)
665 for xref-path = (aref array (1+ i))
666 do (when (equal xref-name wanted-name)
667 (let ((source-location
668 (find-function-definition-source simple-fun)))
669 ;; Use the more accurate source path from
671 (setf (definition-source-form-path source-location)
673 (push (cons info-name source-location)
676 (defun who-calls (function-name)
677 "Use the xref facility to search for source locations where the
678 global function named FUNCTION-NAME is called. Returns a list of
679 function name, definition-source pairs."
680 (collect-xref #.(position :calls sb-c::*xref-kinds*) function-name))
682 (defun who-binds (symbol)
683 "Use the xref facility to search for source locations where the
684 special variable SYMBOL is rebound. Returns a list of function name,
685 definition-source pairs."
686 (collect-xref #.(position :binds sb-c::*xref-kinds*) symbol))
688 (defun who-references (symbol)
689 "Use the xref facility to search for source locations where the
690 special variable or constant SYMBOL is read. Returns a list of function
691 name, definition-source pairs."
692 (collect-xref #.(position :references sb-c::*xref-kinds*) symbol))
694 (defun who-sets (symbol)
695 "Use the xref facility to search for source locations where the
696 special variable SYMBOL is written to. Returns a list of function name,
697 definition-source pairs."
698 (collect-xref #.(position :sets sb-c::*xref-kinds*) symbol))
700 (defun who-macroexpands (macro-name)
701 "Use the xref facility to search for source locations where the
702 macro MACRO-NAME is expanded. Returns a list of function name,
703 definition-source pairs."
704 (collect-xref #.(position :macroexpands sb-c::*xref-kinds*) macro-name))
706 (defun who-specializes-directly (class-designator)
707 "Search for source locations of methods directly specializing on
708 CLASS-DESIGNATOR. Returns an alist of method name, definition-source
711 A method matches the criterion either if it specializes on the same
712 class as CLASS-DESIGNATOR designates (this includes CLASS-EQ
713 specializers), or if it eql-specializes on an instance of the
718 (let ((class (canonicalize-class-designator class-designator)))
720 (return-from who-specializes-directly nil))
721 (let ((result (collect-specializing-methods
723 ;; Does SPECL specialize on CLASS directly?
725 (sb-pcl::class-eq-specializer
726 (eq (sb-pcl::specializer-object specl) class))
727 (sb-pcl::eql-specializer
728 (let ((obj (sb-mop:eql-specializer-object specl)))
729 (eq (class-of obj) class)))
730 ((not sb-pcl::standard-specializer)
733 (eq specl class)))))))
734 (map-into result #'(lambda (m)
735 (cons `(method ,(method-generic-function-name m))
736 (find-definition-source m)))
739 (defun who-specializes-generally (class-designator)
740 "Search for source locations of methods specializing on
741 CLASS-DESIGNATOR, or a subclass of it. Returns an alist of method
742 name, definition-source pairs.
744 A method matches the criterion either if it specializes on the
745 designated class itself or a subclass of it (this includes CLASS-EQ
746 specializers), or if it eql-specializes on an instance of the
747 designated class or a subclass of it.
751 (let ((class (canonicalize-class-designator class-designator)))
753 (return-from who-specializes-generally nil))
754 (let ((result (collect-specializing-methods
756 ;; Does SPECL specialize on CLASS or a subclass
759 (sb-pcl::class-eq-specializer
760 (subtypep (sb-pcl::specializer-object specl) class))
761 (sb-pcl::eql-specializer
762 (typep (sb-mop:eql-specializer-object specl) class))
763 ((not sb-pcl::standard-specializer)
766 (subtypep specl class)))))))
767 (map-into result #'(lambda (m)
768 (cons `(method ,(method-generic-function-name m))
769 (find-definition-source m)))
772 (defun canonicalize-class-designator (class-designator)
773 (typecase class-designator
774 (symbol (find-class class-designator nil))
775 (class class-designator)
778 (defun method-generic-function-name (method)
779 (sb-mop:generic-function-name (sb-mop:method-generic-function method)))
781 (defun collect-specializing-methods (predicate)
783 (sb-pcl::map-specializers
785 (when (funcall predicate specl)
786 (let ((methods (sb-mop:specializer-direct-methods specl)))
787 (setf result (append methods result))))))
788 (delete-duplicates result)))
791 ;;;; ALLOCATION INTROSPECTION
793 (defun allocation-information (object)
795 "Returns information about the allocation of OBJECT. Primary return value
796 indicates the general type of allocation: :IMMEDIATE, :HEAP, :STACK,
799 Possible secondary return value provides additional information about the
802 For :HEAP objects the secondary value is a plist:
805 Inficates the heap segment the object is allocated in.
808 Is the current generation of the object: 0 for nursery, 6 for pseudo-static
809 generation loaded from core. (GENCGC and :SPACE :DYNAMIC only.)
812 Indicates a \"large\" object subject to non-copying
813 promotion. (GENCGC and :SPACE :DYNAMIC only.)
816 Indicates that the object is allocated in a boxed region. Unboxed
817 allocation is used for eg. specialized arrays after they have survived one
818 collection. (GENCGC and :SPACE :DYNAMIC only.)
821 Indicates that the page(s) on which the object resides are kept live due
822 to conservative references. Note that object may reside on a pinned page
823 even if :PINNED in NIL if the GC has not had the need to mark the the page
824 as pinned. (GENCGC and :SPACE :DYNAMIC only.)
827 Indicates that the page on which the object starts is write-protected,
828 which indicates for :BOXED objects that it hasn't been written to since
829 the last GC of its generation. (GENCGC and :SPACE :DYNAMIC only.)
832 The index of the page the object resides on. (GENGC and :SPACE :DYNAMIC
835 For :STACK objects secondary value is the thread on whose stack the object is
838 Expected use-cases include introspection to gain insight into allocation and
839 GC behaviour and restricting memoization to heap-allocated arguments.
841 Experimental: interface subject to change."
842 ;; FIXME: Would be nice to provide the size of the object as well, though
843 ;; maybe that should be a separate function, and something like MAP-PARTS
844 ;; for mapping over parts of arbitrary objects so users can get "deep sizes"
845 ;; as well if they want to.
847 ;; FIXME: For the memoization use-case possibly we should also provide a
848 ;; simpler HEAP-ALLOCATED-P, since that doesn't require disabling the GC
849 ;; scanning threads for negative answers? Similarly, STACK-ALLOCATED-P for
850 ;; checking if an object has been stack-allocated by a given thread for
851 ;; testing purposes might not come amiss.
852 (if (typep object '(or fixnum character))
853 (values :immediate nil)
855 (sb-sys:without-gcing
856 ;; Disable GC so the object cannot move to another page while
857 ;; we have the address.
858 (let* ((addr (sb-kernel:get-lisp-obj-address object))
860 (cond ((< sb-vm:read-only-space-start addr
861 (ash sb-vm:*read-only-space-free-pointer*
862 sb-vm:n-fixnum-tag-bits))
864 ((< sb-vm:static-space-start addr
865 (ash sb-vm:*static-space-free-pointer*
866 sb-vm:n-fixnum-tag-bits))
868 ((< (sb-kernel:current-dynamic-space-start) addr
869 (sb-sys:sap-int (sb-kernel:dynamic-space-free-pointer)))
873 (if (eq :dynamic space)
874 (let ((index (sb-vm::find-page-index addr)))
875 (symbol-macrolet ((page (sb-alien:deref sb-vm::page-table index)))
876 (let ((flags (sb-alien:slot page 'sb-vm::flags)))
878 :generation (sb-alien:slot page 'sb-vm::gen)
879 :write-protected (logbitp 0 flags)
880 :boxed (logbitp 2 flags)
881 :pinned (logbitp 5 flags)
882 :large (logbitp 6 flags)
886 (list :space space))))))
888 (values :heap plist))
890 (let ((sap (sb-sys:int-sap (sb-kernel:get-lisp-obj-address object))))
891 ;; FIXME: Check other stacks as well.
893 (dolist (thread (sb-thread:list-all-threads))
894 (let ((c-start (sb-di::descriptor-sap
895 (sb-thread::%symbol-value-in-thread
896 'sb-vm:*control-stack-start*
898 (c-end (sb-di::descriptor-sap
899 (sb-thread::%symbol-value-in-thread
900 'sb-vm:*control-stack-end*
902 (when (and c-start c-end)
903 (when (and (sb-sys:sap<= c-start sap)
904 (sb-sys:sap< sap c-end))
905 (return-from allocation-information
906 (values :stack thread))))))
908 (when (sb-vm:control-stack-pointer-valid-p sap nil)
909 (return-from allocation-information
910 (values :stack sb-thread::*current-thread*))))
913 (defun map-root (function object &key simple (ext t))
914 "Call FUNCTION with all non-immediate objects pointed to by OBJECT.
917 If SIMPLE is true (default is NIL), elides those pointers that are not
918 notionally part of certain built-in objects, but backpointers to a
919 conceptual parent: eg. elides the pointer from a SYMBOL to the
920 corresponding PACKAGE.
922 If EXT is true (default is T), includes some pointers that are not
923 actually contained in the object, but found in certain well-known
924 indirect containers: FDEFINITIONs, EQL specializers, classes, and
925 thread-local symbol values in other threads fall into this category.
927 NOTE: calling MAP-ROOT with a THREAD does not currently map over
928 conservative roots from the thread registers and interrupt contexts.
930 Experimental: interface subject to change."
931 (let ((fun (coerce function 'function))
932 (seen (sb-int:alloc-xset)))
934 (when (and (member (sb-kernel:lowtag-of part)
935 `(,sb-vm:instance-pointer-lowtag
936 ,sb-vm:list-pointer-lowtag
937 ,sb-vm:fun-pointer-lowtag
938 ,sb-vm:other-pointer-lowtag))
939 (not (sb-int:xset-member-p part seen)))
940 (sb-int:add-to-xset part seen)
941 (funcall fun part))))
943 (let ((table sb-pcl::*eql-specializer-table*))
944 (call (sb-int:with-locked-system-table (table)
945 (gethash object table)))))
947 ((or bignum float sb-sys:system-area-pointer fixnum))
949 (call (sb-ext:weak-pointer-value object)))
953 (when (and ext (ignore-errors (fboundp object)))
954 (call (fdefinition object))))
956 (call (numerator object))
957 (call (denominator object)))
959 (call (realpart object))
960 (call (realpart object)))
962 (let* ((len (sb-kernel:%instance-length object))
963 (nuntagged (if (typep object 'structure-object)
964 (sb-kernel:layout-n-untagged-slots
965 (sb-kernel:%instance-layout object))
967 (dotimes (i (- len nuntagged))
968 (call (sb-kernel:%instance-ref object i))))
970 (when (typep object 'sb-thread:thread)
971 (cond ((eq object sb-thread:*current-thread*)
972 (dolist (value (sb-thread::%thread-local-references))
974 (sb-vm::map-stack-references #'call))
976 ;; KLUDGE: INTERRUPT-THREAD is Not Nice (tm), but
977 ;; the alternative would be stopping the world...
979 (let ((sem (sb-thread:make-semaphore))
983 (sb-thread:interrupt-thread
986 (setf refs (sb-thread::%thread-local-references))
987 (sb-vm::map-stack-references (lambda (x) (push x refs)))
988 (sb-thread:signal-semaphore sem)))
989 (sb-thread:wait-on-semaphore sem))
990 (sb-thread:interrupt-thread-error ()))
991 (mapc #'call refs))))))
993 (if (simple-vector-p object)
994 (dotimes (i (length object))
995 (call (aref object i)))
996 (when (sb-kernel:array-header-p object)
997 (call (sb-kernel::%array-data-vector object))
998 (call (sb-kernel::%array-displaced-p object))
1000 (call (sb-kernel::%array-displaced-from object))))))
1001 (sb-kernel:code-component
1002 (call (sb-kernel:%code-entry-points object))
1003 (call (sb-kernel:%code-debug-info object))
1004 (loop for i from sb-vm:code-constants-offset
1005 below (sb-kernel:get-header-data object)
1006 do (call (sb-kernel:code-header-ref object i))))
1008 (call (sb-kernel:fdefn-name object))
1009 (call (sb-kernel:fdefn-fun object)))
1010 (sb-kernel:simple-fun
1012 (call (sb-kernel:%simple-fun-next object)))
1013 (call (sb-kernel:fun-code-header object))
1014 (call (sb-kernel:%simple-fun-name object))
1015 (call (sb-kernel:%simple-fun-arglist object))
1016 (call (sb-kernel:%simple-fun-type object))
1017 (call (sb-kernel:%simple-fun-info object)))
1019 (call (sb-kernel:%closure-fun object))
1020 (sb-kernel:do-closure-values (x object)
1022 (sb-kernel:funcallable-instance
1023 (call (sb-kernel:%funcallable-instance-function object))
1024 (loop for i from 1 below (- (1+ (sb-kernel:get-closure-length object))
1025 sb-vm::funcallable-instance-info-offset)
1026 do (call (sb-kernel:%funcallable-instance-info object i))))
1029 (dolist (thread (sb-thread:list-all-threads))
1030 (call (sb-thread:symbol-value-in-thread object thread nil))))
1032 ;; We don't have GLOBAL-BOUNDP, and there's no ERRORP arg.
1033 (call (sb-ext:symbol-global-value object))
1034 (unbound-variable ()))
1035 (when (and ext (ignore-errors (fboundp object)))
1036 (call (fdefinition object))
1037 (call (macro-function object))
1038 (let ((class (find-class object nil)))
1039 (when class (call class))))
1040 (call (symbol-plist object))
1041 (call (symbol-name object))
1043 (call (symbol-package object))))
1044 (sb-kernel::random-class
1045 (case (sb-kernel:widetag-of object)
1046 (#.sb-vm::value-cell-header-widetag
1047 (call (sb-kernel::value-cell-ref object)))
1049 (warn "~&MAP-ROOT: Unknown widetag ~S: ~S~%"
1050 (sb-kernel:widetag-of object) object)))))))