1 ;;;; the CL:INSPECT function
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 (in-package "SB-IMPL") ;(SB-IMPL, not SB!IMPL, since we're built in warm load.)
14 (defparameter *inspect-length* 10)
16 ;;; When *INSPECT-UNBOUND-OBJECT-MARKER* occurs in a parts list, it
17 ;;; indicates that that a slot is unbound.
18 (defvar *inspect-unbound-object-marker* (gensym "INSPECT-UNBOUND-OBJECT-"))
20 (defun inspector (object input-stream output-stream)
21 (declare (ignore input-stream))
23 (%inspect object output-stream))
26 (defvar *inspect-fun* #'inspector
27 "a function of three arguments OBJECT, INPUT, and OUTPUT which starts an interactive inspector.")
30 (setf (documentation '*inspected* 'variable)
31 "the value currently being inspected in CL:INSPECT")
33 (defun inspect (object)
34 (funcall *inspect-fun* object *standard-input* *standard-output*))
36 (defvar *help-for-inspect*
39 Q, E - Quit the inspector.
40 <integer> - Inspect the numbered slot.
41 R - Redisplay current inspected object.
42 U - Move upward/backward to previous inspected object.
43 ?, H, Help - Show this help.
44 <other> - Evaluate the input as an expression.
45 Within the inspector, the special variable SB-EXT:*INSPECTED* is bound
46 to the current inspected object, so that it can be referred to in
47 evaluated expressions.
50 (defun %inspect (*inspected* s)
51 (named-let redisplay () ; "LAMBDA, the ultimate GOTO":-|
52 (multiple-value-bind (description named-p elements)
53 (inspected-parts *inspected*)
54 (tty-display-inspected-parts description named-p elements s)
58 (let* (;; newly-consed object for hermetic protection against
59 ;; mischievous input like #.*EOF-OBJECT*:
60 (eof (cons *eof-object* nil))
61 (command (read *standard-input* nil eof)))
62 (when (eq command eof)
63 ;; currently-undocumented feature: EOF is handled as Q.
64 ;; If there's ever consensus that this is *the* right
65 ;; thing to do (as opposed to e.g. handling it as U), we
66 ;; could document it. Meanwhile, it seems more Unix-y to
67 ;; do this than to signal an error.
68 (/show0 "THROWing QUIT-INSPECT for EOF")
69 (throw 'quit-inspect nil))
72 (let ((elements-length (length elements)))
73 (cond ((< -1 command elements-length)
74 (let* ((element (nth command elements))
75 (value (if named-p (cdr element) element)))
76 (cond ((eq value *inspect-unbound-object-marker*)
77 (format s "~%That slot is unbound.~%")
78 (return-from %inspect (reread)))
81 ;; If we ever return, then we should be
82 ;; looking at *INSPECTED* again.
83 (return-from %inspect (redisplay))))))
84 ((zerop elements-length)
85 (format s "~%The object contains nothing to inspect.~%")
86 (return-from %inspect (reread)))
88 (format s "~%Enter a valid index (~:[0-~W~;0~]).~%"
89 (= elements-length 1) (1- elements-length))
90 (return-from %inspect (reread))))))
92 (case (find-symbol (symbol-name command) *keyword-package*)
94 (/show0 "THROWing QUIT-INSPECT for :Q or :E")
95 (throw 'quit-inspect nil))
97 (return-from %inspect))
99 (return-from %inspect (redisplay)))
101 (write-string *help-for-inspect* s)
102 (return-from %inspect (reread)))
104 (eval-for-inspect command s)
105 (return-from %inspect (reread)))))
107 (eval-for-inspect command s)
108 (return-from %inspect (reread)))))))))
110 (defun eval-for-inspect (command stream)
111 (let ((result-list (restart-case (multiple-value-list (eval command))
112 (nil () :report "Return to the inspector."
113 (format stream "~%returning to the inspector~%")
114 (return-from eval-for-inspect nil)))))
115 ;; FIXME: Much of this interactive-EVAL logic is shared with
116 ;; the main REPL EVAL and with the debugger EVAL. The code should
117 ;; be shared explicitly.
118 (setf /// // // / / result-list)
119 (setf +++ ++ ++ + + - - command)
120 (setf *** ** ** * * (car /))
121 (format stream "~&~{~S~%~}" /)))
123 (defun tty-display-inspected-parts (description named-p elements stream)
124 (format stream "~%~A" description)
126 (dolist (element elements)
128 (destructuring-bind (name . value) element
129 (format stream "~W. ~A: ~W~%" index name
130 (if (eq value *inspect-unbound-object-marker*)
133 (format stream "~W. ~W~%" index element))
138 ;;; Destructure an object for inspection, returning
139 ;;; (VALUES DESCRIPTION NAMED-P ELEMENTS),
142 ;;; DESCRIPTION is a summary description of the destructured object,
143 ;;; e.g. "The object is a CONS.~%".
145 ;;; NAMED-P determines what representation is used for elements
146 ;;; of ELEMENTS. If NAMED-P is true, then each element is
147 ;;; (CONS NAME VALUE); otherwise each element is just VALUE.
149 ;;; ELEMENTS is a list of the component parts of OBJECT (whose
150 ;;; representation is determined by NAMED-P).
152 ;;; (The NAMED-P dichotomy is useful because symbols and instances
153 ;;; need to display both a slot name and a value, while lists and
154 ;;; vectors need only display a value.)
155 (defgeneric inspected-parts (object))
157 (defmethod inspected-parts ((object symbol))
158 (values (format nil "The object is a SYMBOL.~%")
160 (list (cons "Name" (symbol-name object))
161 (cons "Package" (symbol-package object))
162 (cons "Value" (if (boundp object)
163 (symbol-value object)
164 *inspect-unbound-object-marker*))
165 (cons "Function" (if (fboundp object)
166 (symbol-function object)
167 *inspect-unbound-object-marker*))
168 (cons "Plist" (symbol-plist object)))))
170 (defun inspected-structure-elements (object)
171 (let ((parts-list '())
172 (info (layout-info (sb-kernel:layout-of object))))
173 (when (sb-kernel::defstruct-description-p info)
174 (dolist (dd-slot (dd-slots info) (nreverse parts-list))
175 (push (cons (dsd-name dd-slot)
176 (funcall (dsd-accessor-name dd-slot) object))
179 (defmethod inspected-parts ((object structure-object))
180 (values (format nil "The object is a STRUCTURE-OBJECT of type ~S.~%"
183 (inspected-structure-elements object)))
185 (defun inspected-standard-object-elements (object)
186 (let ((reversed-elements nil)
187 (class-slots (sb-pcl::class-slots (class-of object))))
188 (dolist (class-slot class-slots (nreverse reversed-elements))
189 (let* ((slot-name (slot-value class-slot 'sb-pcl::name))
190 (slot-value (if (slot-boundp object slot-name)
191 (slot-value object slot-name)
192 *inspect-unbound-object-marker*)))
193 (push (cons slot-name slot-value) reversed-elements)))))
195 (defmethod inspected-parts ((object standard-object))
196 (values (format nil "The object is a STANDARD-OBJECT of type ~S.~%"
199 (inspected-standard-object-elements object)))
201 (defmethod inspected-parts ((object funcallable-instance))
202 (values (format nil "The object is a FUNCALLABLE-INSTANCE of type ~S.~%"
205 (inspected-standard-object-elements object)))
207 (defmethod inspected-parts ((object condition))
208 (values (format nil "The object is a CONDITION of type ~S.~%"
211 (inspected-standard-object-elements object)))
213 (defmethod inspected-parts ((object function))
214 (let* ((type (sb-kernel:widetag-of object))
215 (object (if (= type sb-vm:closure-header-widetag)
216 (sb-kernel:%closure-fun object)
218 (values (format nil "FUNCTION ~S.~@[~%Argument List: ~A~]." object
219 (sb-kernel:%simple-fun-arglist object)
220 ;; Defined-from stuff used to be here. Someone took
221 ;; it out. FIXME: We should make it easy to get
222 ;; to DESCRIBE from the inspector.
227 (defmethod inspected-parts ((object vector))
229 "The object is a ~:[~;displaced ~]VECTOR of length ~W.~%"
230 (and (array-header-p object)
231 (%array-displaced-p object))
234 ;; FIXME: Should we respect *INSPECT-LENGTH* here? If not, what
235 ;; does *INSPECT-LENGTH* mean?
236 (coerce object 'list)))
238 (defun inspected-index-string (index rev-dimensions)
239 (if (null rev-dimensions)
242 (dolist (dim rev-dimensions)
243 (multiple-value-bind (q r) (floor index dim)
246 (format nil "[~W~{,~W~}]" (car list) (cdr list)))))
248 (defmethod inspected-parts ((object array))
249 (let* ((length (min (array-total-size object) *inspect-length*))
250 (reference-array (make-array length :displaced-to object))
251 (dimensions (array-dimensions object))
252 (reversed-elements nil))
253 ;; FIXME: Should we respect *INSPECT-LENGTH* here? If not, what does
254 ;; *INSPECT-LENGTH* mean?
256 (push (cons (format nil
258 (inspected-index-string i (reverse dimensions)))
259 (aref reference-array i))
261 (values (format nil "The object is ~:[a displaced~;an~] ARRAY of ~A.~%~
262 Its dimensions are ~S.~%"
263 (array-element-type object)
264 (and (array-header-p object)
265 (%array-displaced-p object))
268 (nreverse reversed-elements))))
270 (defmethod inspected-parts ((object cons))
271 (if (consp (cdr object))
272 (inspected-parts-of-nontrivial-list object)
273 (inspected-parts-of-simple-cons object)))
275 (defun inspected-parts-of-simple-cons (object)
276 (values "The object is a CONS.
279 (list (cons 'car (car object))
280 (cons 'cdr (cdr object)))))
282 (defun inspected-parts-of-nontrivial-list (object)
285 (reversed-elements nil))
286 (flet ((done (description-format)
287 (return-from inspected-parts-of-nontrivial-list
288 (values (format nil description-format length)
290 (nreverse reversed-elements)))))
292 (cond ((null in-list)
293 (done "The object is a proper list of length ~S.~%"))
294 ((>= length *inspect-length*)
295 (push (cons 'rest in-list) reversed-elements)
296 (done "The object is a long list (more than ~S elements).~%"))
298 (push (cons length (pop in-list)) reversed-elements)
301 (push (cons 'rest in-list) reversed-elements)
302 (done "The object is an improper list of length ~S.~%")))))))
304 (defmethod inspected-parts ((object t))
305 (values (format nil "The object is an ATOM:~% ~W~%" object) nil nil))