1.0.22.13: fixed bug 426: nested inline expansion failure
[sbcl/tcr.git] / src / code / profile.lisp
blobddfd722b9630ccccc9a4ec1bca9f48f2ef09b5a7
1 ;;;; This software is part of the SBCL system. See the README file for
2 ;;;; more information.
3 ;;;;
4 ;;;; This software is derived from the CMU CL system, which was
5 ;;;; written at Carnegie Mellon University and released into the
6 ;;;; public domain. The software is in the public domain and is
7 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
8 ;;;; files for more information.
10 (in-package "SB-PROFILE") ; (SB-, not SB!, since we're built in warm load.)
12 ;;;; reading internal run time with high resolution and low overhead
14 (defconstant +ticks-per-second+ internal-time-units-per-second)
16 (declaim (inline get-internal-ticks))
17 (defun get-internal-ticks () (get-internal-run-time))
19 ;;;; implementation-dependent interfaces
22 ;;; To avoid unnecessary consing in the "encapsulation" code, we want
23 ;;; find out the number of required arguments, and use &REST to
24 ;;; capture only non-required arguments. This function returns (VALUES
25 ;;; MIN-ARGS OPTIONALS-P), where MIN-ARGS is the number of required
26 ;;; arguments and OPTIONALS-P is true iff there are any non-required
27 ;;; arguments (such as &OPTIONAL, &REST, or &KEY).
28 (declaim (ftype (function ((or symbol cons)) (values fixnum t)) fun-signature))
29 (defun fun-signature (name)
30 (let ((type (info :function :type name)))
31 (cond ((not (fun-type-p type))
32 (values 0 t))
34 (values (length (fun-type-required type))
35 (or (fun-type-optional type)
36 (fun-type-keyp type)
37 (fun-type-rest type)))))))
40 ;;;; global data structures
42 ;;; We associate a PROFILE-INFO structure with each profiled function
43 ;;; name. This holds the functions that we call to manipulate the
44 ;;; closure which implements the encapsulation.
45 (defvar *profiled-fun-name->info*
46 (make-hash-table
47 ;; EQL testing isn't good enough for generalized function names
48 ;; like (SETF FOO).
49 :test 'equal
50 :synchronized t))
51 (defstruct (profile-info (:copier nil))
52 (name (missing-arg) :read-only t)
53 (encapsulated-fun (missing-arg) :type function :read-only t)
54 (encapsulation-fun (missing-arg) :type function :read-only t)
55 (read-stats-fun (missing-arg) :type function :read-only t)
56 (clear-stats-fun (missing-arg) :type function :read-only t))
58 ;;; These variables are used to subtract out the time and consing for
59 ;;; recursive and other dynamically nested profiled calls. The total
60 ;;; resource consumed for each nested call is added into the
61 ;;; appropriate variable. When the outer function returns, these
62 ;;; amounts are subtracted from the total.
63 (defvar *enclosed-ticks* 0)
64 (defvar *enclosed-consing* 0)
65 (declaim (type (or pcounter fixnum) *enclosed-ticks* *enclosed-consing*))
67 ;;; This variable is also used to subtract out time for nested
68 ;;; profiled calls. The time inside the profile wrapper call --
69 ;;; between its two calls to GET-INTERNAL-TICKS -- is accounted
70 ;;; for by the *ENCLOSED-TIME* variable. However, there's also extra
71 ;;; overhead involved, before we get to the first call to
72 ;;; GET-INTERNAL-TICKS, and after we get to the second call. By
73 ;;; keeping track of the count of enclosed profiled calls, we can try
74 ;;; to compensate for that.
75 (defvar *enclosed-profiles* 0)
76 (declaim (type (or pcounter fixnum) *enclosed-profiles*))
78 ;;; the encapsulated function we're currently computing profiling data
79 ;;; for, recorded so that we can detect the problem of
80 ;;; PROFILE-computing machinery calling a function which has itself
81 ;;; been PROFILEd
82 (defvar *computing-profiling-data-for*)
84 ;;; the components of profiling overhead
85 (defstruct (overhead (:copier nil))
86 ;; the number of ticks a bare function call takes. This is
87 ;; factored into the other overheads, but not used for itself.
88 (call (missing-arg) :type single-float :read-only t)
89 ;; the number of ticks that will be charged to a profiled
90 ;; function due to the profiling code
91 (internal (missing-arg) :type single-float :read-only t)
92 ;; the number of ticks of overhead for profiling that a single
93 ;; profiled call adds to the total runtime for the program
94 (total (missing-arg) :type single-float :read-only t))
95 (defvar *overhead*)
96 (declaim (type overhead *overhead*))
97 (makunbound '*overhead*) ; in case we reload this file when tweaking
99 ;;;; profile encapsulations
101 ;;; Trade off space for time by handling the usual all-FIXNUM cases inline.
102 (defmacro fastbig- (x y)
103 (once-only ((x x) (y y))
104 `(if (and (typep ,x '(and fixnum unsigned-byte))
105 (typep ,y '(and fixnum unsigned-byte)))
106 ;; special case: can use fixnum arithmetic and be guaranteed
107 ;; the result is also a fixnum
108 (- ,x ,y)
109 ;; general case
110 (- ,x ,y))))
111 (defmacro fastbig-1+ (x)
112 (once-only ((x x))
113 `(if (typep ,x 'index)
114 (1+ ,x)
115 (1+ ,x))))
117 ;;; Return a collection of closures over the same lexical context,
118 ;;; (VALUES ENCAPSULATION-FUN READ-STATS-FUN CLEAR-STATS-FUN).
120 ;;; ENCAPSULATION-FUN is a plug-in replacement for ENCAPSULATED-FUN,
121 ;;; which updates statistics whenever it's called.
123 ;;; READ-STATS-FUN returns the statistics:
124 ;;; (VALUES COUNT TIME CONSING PROFILE).
125 ;;; COUNT is the count of calls to ENCAPSULATION-FUN. TICKS is
126 ;;; the total number of ticks spent in ENCAPSULATED-FUN.
127 ;;; CONSING is the total consing of ENCAPSULATION-FUN. PROFILE is the
128 ;;; number of calls to the profiled function, stored for the purposes
129 ;;; of trying to estimate that part of profiling overhead which occurs
130 ;;; outside the interval between the profile wrapper function's timer
131 ;;; calls.
133 ;;; CLEAR-STATS-FUN clears the statistics.
135 ;;; (The reason for implementing this as coupled closures, with the
136 ;;; counts built into the lexical environment, is that we hope this
137 ;;; will minimize profiling overhead.)
138 (defun profile-encapsulation-lambdas (encapsulated-fun)
139 (declare (type function encapsulated-fun))
140 (let* ((count 0)
141 (ticks 0)
142 (consing 0)
143 (profiles 0))
144 (declare (type (or pcounter fixnum) count ticks consing profiles))
145 (values
146 ;; ENCAPSULATION-FUN
147 (lambda (&more arg-context arg-count)
148 (declare (optimize speed safety))
149 ;; Make sure that we're not recursing infinitely.
150 (when (boundp '*computing-profiling-data-for*)
151 (unprofile-all) ; to avoid further recursion
152 (error "~@<When computing profiling data for ~S, the profiled function ~S was called. To get out of this infinite recursion, all functions have been unprofiled. (Since the profiling system evidently uses ~S in its computations, it looks as though it's a bad idea to profile it.)~:@>"
153 *computing-profiling-data-for*
154 encapsulated-fun
155 encapsulated-fun))
156 ;; FIXME: Probably when this is stable, we should optimize (SAFETY 0).
157 (fastbig-incf-pcounter-or-fixnum count 1)
158 (let ((dticks 0)
159 (dconsing 0)
160 (inner-enclosed-profiles 0))
161 (declare (type unsigned-byte dticks dconsing inner-enclosed-profiles)
162 (dynamic-extent dticks dconsing inner-enclosed-profiles))
163 (aver (typep dticks 'unsigned-byte))
164 (aver (typep dconsing 'unsigned-byte))
165 (aver (typep inner-enclosed-profiles 'unsigned-byte))
166 (unwind-protect
167 (let* ((start-ticks (get-internal-ticks))
168 (*enclosed-ticks* 0)
169 (*enclosed-consing* 0)
170 (*enclosed-profiles* 0)
171 (nbf0 *n-bytes-freed-or-purified*)
172 (dynamic-usage-0 (sb-kernel:dynamic-usage)))
173 (declare (inline pcounter-or-fixnum->integer))
174 (unwind-protect
175 (multiple-value-call encapsulated-fun
176 (sb-c:%more-arg-values arg-context
178 arg-count))
179 (let ((*computing-profiling-data-for* encapsulated-fun)
180 (dynamic-usage-1 (sb-kernel:dynamic-usage)))
181 (setf dticks (fastbig- (get-internal-ticks) start-ticks))
182 (setf dconsing
183 (if (eql *n-bytes-freed-or-purified* nbf0)
184 ;; common special case where we can avoid
185 ;; bignum arithmetic
186 (- dynamic-usage-1 dynamic-usage-0)
187 ;; general case
188 (- (get-bytes-consed) nbf0 dynamic-usage-0)))
189 (setf inner-enclosed-profiles
190 (pcounter-or-fixnum->integer *enclosed-profiles*))
191 (let ((net-dticks (fastbig- dticks *enclosed-ticks*)))
192 (fastbig-incf-pcounter-or-fixnum ticks net-dticks))
193 (let ((net-dconsing (fastbig- dconsing
194 (pcounter-or-fixnum->integer
195 *enclosed-consing*))))
196 (fastbig-incf-pcounter-or-fixnum consing net-dconsing))
197 (fastbig-incf-pcounter-or-fixnum profiles
198 inner-enclosed-profiles))))
199 (fastbig-incf-pcounter-or-fixnum *enclosed-ticks* dticks)
200 (fastbig-incf-pcounter-or-fixnum *enclosed-consing* dconsing)
201 (fastbig-incf-pcounter-or-fixnum *enclosed-profiles*
202 (fastbig-1+
203 inner-enclosed-profiles)))))
204 ;; READ-STATS-FUN
205 (lambda ()
206 (values (pcounter-or-fixnum->integer count)
207 (pcounter-or-fixnum->integer ticks)
208 (pcounter-or-fixnum->integer consing)
209 (pcounter-or-fixnum->integer profiles)))
210 ;; CLEAR-STATS-FUN
211 (lambda ()
212 (setf count 0
213 ticks 0
214 consing 0
215 profiles 0)))))
217 ;;;; interfaces
219 ;;; A symbol or (SETF FOO) list names a function, a string names all
220 ;;; the functions named by symbols in the named package.
221 (defun mapc-on-named-funs (function names)
222 (dolist (name names)
223 (etypecase name
224 (symbol (funcall function name))
225 (list
226 (legal-fun-name-or-type-error name)
227 ;; Then we map onto it.
228 (funcall function name))
229 (string (let ((package (find-undeleted-package-or-lose name)))
230 (do-symbols (symbol package)
231 (when (eq (symbol-package symbol) package)
232 (when (and (fboundp symbol)
233 (not (macro-function symbol))
234 (not (special-operator-p symbol)))
235 (funcall function symbol))
236 (let ((setf-name `(setf ,symbol)))
237 (when (fboundp setf-name)
238 (funcall function setf-name)))))))))
239 (values))
241 ;;; Profile the named function, which should exist and not be profiled
242 ;;; already.
243 (defun profile-1-unprofiled-fun (name)
244 (let ((encapsulated-fun (fdefinition name)))
245 (multiple-value-bind (encapsulation-fun read-stats-fun clear-stats-fun)
246 (profile-encapsulation-lambdas encapsulated-fun)
247 (without-package-locks
248 (setf (fdefinition name)
249 encapsulation-fun))
250 (setf (gethash name *profiled-fun-name->info*)
251 (make-profile-info :name name
252 :encapsulated-fun encapsulated-fun
253 :encapsulation-fun encapsulation-fun
254 :read-stats-fun read-stats-fun
255 :clear-stats-fun clear-stats-fun))
256 (values))))
258 ;;; Profile the named function. If already profiled, unprofile first.
259 (defun profile-1-fun (name)
260 (cond ((fboundp name)
261 (when (gethash name *profiled-fun-name->info*)
262 (warn "~S is already profiled, so unprofiling it first." name)
263 (unprofile-1-fun name))
264 (profile-1-unprofiled-fun name))
266 (warn "ignoring undefined function ~S" name)))
267 (values))
269 ;;; Unprofile the named function, if it is profiled.
270 (defun unprofile-1-fun (name)
271 (let ((pinfo (gethash name *profiled-fun-name->info*)))
272 (cond (pinfo
273 (remhash name *profiled-fun-name->info*)
274 (if (eq (fdefinition name) (profile-info-encapsulation-fun pinfo))
275 (without-package-locks
276 (setf (fdefinition name) (profile-info-encapsulated-fun pinfo)))
277 (warn "preserving current definition of redefined function ~S"
278 name)))
280 (warn "~S is not a profiled function." name))))
281 (values))
283 (defmacro profile (&rest names)
284 #+sb-doc
285 "PROFILE Name*
287 If no names are supplied, return the list of profiled functions.
289 If names are supplied, wrap profiling code around the named functions.
290 As in TRACE, the names are not evaluated. A symbol names a function.
291 A string names all the functions named by symbols in the named
292 package. If a function is already profiled, then unprofile and
293 reprofile (useful to notice function redefinition.) If a name is
294 undefined, then we give a warning and ignore it. See also
295 UNPROFILE, REPORT and RESET."
296 (if (null names)
297 `(loop for k being each hash-key in *profiled-fun-name->info*
298 collecting k)
299 `(mapc-on-named-funs #'profile-1-fun ',names)))
301 (defmacro unprofile (&rest names)
302 #+sb-doc
303 "Unwrap any profiling code around the named functions, or if no names
304 are given, unprofile all profiled functions. A symbol names
305 a function. A string names all the functions named by symbols in the
306 named package. NAMES defaults to the list of names of all currently
307 profiled functions."
308 (if names
309 `(mapc-on-named-funs #'unprofile-1-fun ',names)
310 `(unprofile-all)))
312 (defun unprofile-all ()
313 (dohash ((name profile-info) *profiled-fun-name->info*
314 :locked t)
315 (declare (ignore profile-info))
316 (unprofile-1-fun name)))
318 (defun reset ()
319 "Reset the counters for all profiled functions."
320 (dohash ((name profile-info) *profiled-fun-name->info* :locked t)
321 (declare (ignore name))
322 (funcall (profile-info-clear-stats-fun profile-info))))
324 ;;;; reporting results
326 (defstruct (time-info (:copier nil))
327 name
328 calls
329 seconds
330 consing)
332 ;;; Return our best guess for the run time in a function, subtracting
333 ;;; out factors for profiling overhead. We subtract out the internal
334 ;;; overhead for each call to this function, since the internal
335 ;;; overhead is the part of the profiling overhead for a function that
336 ;;; is charged to that function.
338 ;;; We also subtract out a factor for each call to a profiled function
339 ;;; within this profiled function. This factor is the total profiling
340 ;;; overhead *minus the internal overhead*. We don't subtract out the
341 ;;; internal overhead, since it was already subtracted when the nested
342 ;;; profiled functions subtracted their running time from the time for
343 ;;; the enclosing function.
344 (defun compensate-time (calls ticks profile)
345 (let ((raw-compensated
346 (- (/ (float ticks) (float +ticks-per-second+))
347 (* (overhead-internal *overhead*) (float calls))
348 (* (- (overhead-total *overhead*)
349 (overhead-internal *overhead*))
350 (float profile)))))
351 (max raw-compensated 0.0)))
353 (defun report ()
354 "Report results from profiling. The results are approximately adjusted
355 for profiling overhead. The compensation may be rather inaccurate when
356 bignums are involved in runtime calculation, as in a very-long-running
357 Lisp process."
358 (unless (boundp '*overhead*)
359 (setf *overhead*
360 (compute-overhead)))
361 (let ((time-info-list ())
362 (no-call-name-list ()))
363 (dohash ((name pinfo) *profiled-fun-name->info* :locked t)
364 (unless (eq (fdefinition name)
365 (profile-info-encapsulation-fun pinfo))
366 (warn "Function ~S has been redefined, so times may be inaccurate.~@
367 PROFILE it again to record calls to the new definition."
368 name))
369 (multiple-value-bind (calls ticks consing profile)
370 (funcall (profile-info-read-stats-fun pinfo))
371 (if (zerop calls)
372 (push name no-call-name-list)
373 (push (make-time-info :name name
374 :calls calls
375 :seconds (compensate-time calls
376 ticks
377 profile)
378 :consing consing)
379 time-info-list))))
381 (setf time-info-list
382 (sort time-info-list
383 #'>=
384 :key #'time-info-seconds))
385 (print-profile-table time-info-list)
387 (when no-call-name-list
388 (format *trace-output*
389 "~%These functions were not called:~%~{~<~%~:; ~S~>~}~%"
390 (sort no-call-name-list #'string<
391 :key (lambda (name)
392 (symbol-name (fun-name-block-name name))))))
394 (values)))
397 (defun print-profile-table (time-info-list)
398 (let ((total-seconds 0.0)
399 (total-consed 0)
400 (total-calls 0)
401 (seconds-width (length "seconds"))
402 (consed-width (length "consed"))
403 (calls-width (length "calls"))
404 (sec/call-width 10)
405 (name-width 6))
406 (dolist (time-info time-info-list)
407 (incf total-seconds (time-info-seconds time-info))
408 (incf total-consed (time-info-consing time-info))
409 (incf total-calls (time-info-calls time-info)))
410 (setf seconds-width (max (length (format nil "~10,3F" total-seconds))
411 seconds-width)
412 calls-width (max (length (format nil "~:D" total-calls))
413 calls-width)
414 consed-width (max (length (format nil "~:D" total-consed))
415 consed-width))
417 (flet ((dashes ()
418 (dotimes (i (+ seconds-width consed-width calls-width
419 sec/call-width name-width
420 (* 5 3)))
421 (write-char #\- *trace-output*))
422 (terpri *trace-output*)))
423 (format *trace-output* "~&~@{ ~v:@<~A~>~^|~}~%"
424 seconds-width "seconds"
425 (1+ consed-width) "consed"
426 (1+ calls-width) "calls"
427 (1+ sec/call-width) "sec/call"
428 (1+ name-width) "name")
430 (dashes)
432 (dolist (time-info time-info-list)
433 (format *trace-output* "~v,3F | ~v:D | ~v:D | ~10,6F | ~S~%"
434 seconds-width (time-info-seconds time-info)
435 consed-width (time-info-consing time-info)
436 calls-width (time-info-calls time-info)
437 (/ (time-info-seconds time-info)
438 (float (time-info-calls time-info)))
439 (time-info-name time-info)))
441 (dashes)
443 (format *trace-output* "~v,3F | ~v:D | ~v:D | | Total~%"
444 seconds-width total-seconds
445 consed-width total-consed
446 calls-width total-calls)
448 (format *trace-output*
449 "~%estimated total profiling overhead: ~4,2F seconds~%"
450 (* (overhead-total *overhead*) (float total-calls)))
451 (format *trace-output*
452 "~&overhead estimation parameters:~% ~Ss/call, ~Ss total profiling, ~Ss internal profiling~%"
453 (overhead-call *overhead*)
454 (overhead-total *overhead*)
455 (overhead-internal *overhead*)))))
458 ;;;; overhead estimation
460 ;;; We average the timing overhead over this many iterations.
462 ;;; (This is a variable, not a constant, so that it can be set in
463 ;;; .sbclrc if desired. Right now, that's an unsupported extension
464 ;;; that I (WHN) use for my own experimentation, but it might
465 ;;; become supported someday. Comments?)
466 (declaim (type unsigned-byte *timer-overhead-iterations*))
467 (defparameter *timer-overhead-iterations*
468 500000)
470 ;;; a dummy function that we profile to find profiling overhead
471 (declaim (notinline compute-overhead-aux))
472 (defun compute-overhead-aux (x)
473 (declare (ignore x)))
475 ;;; Return a newly computed OVERHEAD object.
476 (defun compute-overhead ()
477 (format *debug-io* "~&measuring PROFILE overhead..")
478 (flet ((frob ()
479 (let ((start (get-internal-ticks))
480 (fun (symbol-function 'compute-overhead-aux)))
481 (declare (type function fun))
482 (dotimes (i *timer-overhead-iterations*)
483 (funcall fun fun))
484 (/ (float (- (get-internal-ticks) start))
485 (float +ticks-per-second+)
486 (float *timer-overhead-iterations*)))))
487 (let (;; Measure unprofiled calls to estimate call overhead.
488 (call-overhead (frob))
489 total-overhead
490 internal-overhead)
491 ;; Measure profiled calls to estimate profiling overhead.
492 (unwind-protect
493 (progn
494 (profile compute-overhead-aux)
495 (setf total-overhead
496 (- (frob) call-overhead)))
497 (let* ((pinfo (gethash 'compute-overhead-aux
498 *profiled-fun-name->info*))
499 (read-stats-fun (profile-info-read-stats-fun pinfo))
500 (time (nth-value 1 (funcall read-stats-fun))))
501 (setf internal-overhead
502 (/ (float time)
503 (float +ticks-per-second+)
504 (float *timer-overhead-iterations*))))
505 (unprofile compute-overhead-aux))
506 (prog1
507 (make-overhead :call call-overhead
508 :total total-overhead
509 :internal internal-overhead)
510 (format *debug-io* "done~%")))))
512 ;;; It would be bad to compute *OVERHEAD*, save it into a .core file,
513 ;;; then load the old *OVERHEAD* value from the .core file into a
514 ;;; different machine running at a different speed. We avoid this by
515 ;;; erasing *CALL-OVERHEAD* whenever we save a .core file.
516 (defun profile-deinit ()
517 (without-package-locks
518 (makunbound '*overhead*)))