;;;; (statprof) -- a statistical profiler for Guile ;;;; -*-scheme-*- ;;;; ;;;; Copyright (C) 2009, 2010, 2011, 2013 Free Software Foundation, Inc. ;;;; Copyright (C) 2004, 2009 Andy Wingo ;;;; Copyright (C) 2001 Rob Browning ;;;; ;;;; This library is free software; you can redistribute it and/or ;;;; modify it under the terms of the GNU Lesser General Public ;;;; License as published by the Free Software Foundation; either ;;;; version 3 of the License, or (at your option) any later version. ;;;; ;;;; This library is distributed in the hope that it will be useful, ;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;;;; Lesser General Public License for more details. ;;;; ;;;; You should have received a copy of the GNU Lesser General Public ;;;; License along with this library; if not, write to the Free Software ;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ;;;; ;;; Commentary: ;; ;;@code{(statprof)} is intended to be a fairly simple ;;statistical profiler for guile. It is in the early stages yet, so ;;consider its output still suspect, and please report any bugs to ;;@email{guile-devel at gnu.org}, or to me directly at @email{rlb at ;;defaultvalue.org}. ;; ;;A simple use of statprof would look like this: ;; ;;@example ;; (statprof-reset 0 50000 #t) ;; (statprof-start) ;; (do-something) ;; (statprof-stop) ;; (statprof-display) ;;@end example ;; ;;This would reset statprof, clearing all accumulated statistics, then ;;start profiling, run some code, stop profiling, and finally display a ;;gprof flat-style table of statistics which will look something like ;;this: ;; ;;@example ;; % cumulative self self total ;; time seconds seconds calls ms/call ms/call name ;; 35.29 0.23 0.23 2002 0.11 0.11 - ;; 23.53 0.15 0.15 2001 0.08 0.08 positive? ;; 23.53 0.15 0.15 2000 0.08 0.08 + ;; 11.76 0.23 0.08 2000 0.04 0.11 do-nothing ;; 5.88 0.64 0.04 2001 0.02 0.32 loop ;; 0.00 0.15 0.00 1 0.00 150.59 do-something ;; ... ;;@end example ;; ;;All of the numerical data with the exception of the calls column is ;;statistically approximate. In the following column descriptions, and ;;in all of statprof, "time" refers to execution time (both user and ;;system), not wall clock time. ;; ;;@table @asis ;;@item % time ;;The percent of the time spent inside the procedure itself ;;(not counting children). ;;@item cumulative seconds ;;The total number of seconds spent in the procedure, including ;;children. ;;@item self seconds ;;The total number of seconds spent in the procedure itself (not counting ;;children). ;;@item calls ;;The total number of times the procedure was called. ;;@item self ms/call ;;The average time taken by the procedure itself on each call, in ms. ;;@item total ms/call ;;The average time taken by each call to the procedure, including time ;;spent in child functions. ;;@item name ;;The name of the procedure. ;;@end table ;; ;;The profiler uses @code{eq?} and the procedure object itself to ;;identify the procedures, so it won't confuse different procedures with ;;the same name. They will show up as two different rows in the output. ;; ;;Right now the profiler is quite simplistic. I cannot provide ;;call-graphs or other higher level information. What you see in the ;;table is pretty much all there is. Patches are welcome :-) ;; ;;@section Implementation notes ;; ;;The profiler works by setting the unix profiling signal ;;@code{ITIMER_PROF} to go off after the interval you define in the call ;;to @code{statprof-reset}. When the signal fires, a sampling routine is ;;run which looks at the current procedure that's executing, and then ;;crawls up the stack, and for each procedure encountered, increments ;;that procedure's sample count. Note that if a procedure is encountered ;;multiple times on a given stack, it is only counted once. After the ;;sampling is complete, the profiler resets profiling timer to fire ;;again after the appropriate interval. ;; ;;Meanwhile, the profiler keeps track, via @code{get-internal-run-time}, ;;how much CPU time (system and user -- which is also what ;;@code{ITIMER_PROF} tracks), has elapsed while code has been executing ;;within a statprof-start/stop block. ;; ;;The profiler also tries to avoid counting or timing its own code as ;;much as possible. ;; ;;; Code: ;; When you add new features, please also add tests to ./tests/ if you ;; have time, and then add the new files to ./run-tests. Also, if ;; anyone's bored, there are a lot of existing API bits that don't ;; have tests yet. ;; TODO ;; ;; Check about profiling C functions -- does profiling primitives work? ;; Also look into stealing code from qprof so we can sample the C stack ;; Call graphs? (define-module (statprof) #:use-module (srfi srfi-1) #:autoload (ice-9 format) (format) #:use-module (system vm vm) #:use-module (system vm frame) #:use-module (system vm program) #:export (statprof-active? statprof-start statprof-stop statprof-reset statprof-accumulated-time statprof-sample-count statprof-fold-call-data statprof-proc-call-data statprof-call-data-name statprof-call-data-calls statprof-call-data-cum-samples statprof-call-data-self-samples statprof-call-data->stats statprof-stats-proc-name statprof-stats-%-time-in-proc statprof-stats-cum-secs-in-proc statprof-stats-self-secs-in-proc statprof-stats-calls statprof-stats-self-secs-per-call statprof-stats-cum-secs-per-call statprof-display statprof-display-anomolies statprof-fetch-stacks statprof-fetch-call-tree statprof with-statprof gcprof)) ;; This profiler tracks two numbers for every function called while ;; it's active. It tracks the total number of calls, and the number ;; of times the function was active when the sampler fired. ;; ;; Globally the profiler tracks the total time elapsed and the number ;; of times the sampler was fired. ;; ;; Right now, this profiler is not per-thread and is not thread safe. (define accumulated-time #f) ; total so far. (define last-start-time #f) ; start-time when timer is active. (define sample-count #f) ; total count of sampler calls. (define sampling-frequency #f) ; in (seconds . microseconds) (define remaining-prof-time #f) ; time remaining when prof suspended. (define profile-level 0) ; for user start/stop nesting. (define %count-calls? #t) ; whether to catch apply-frame. (define gc-time-taken 0) ; gc time between statprof-start and ; statprof-stop. (define record-full-stacks? #f) ; if #t, stash away the stacks ; for later analysis. (define stacks '()) ;; procedure-data will be a hash where the key is the function object ;; itself and the value is the data. The data will be a vector like ;; this: #(name call-count cum-sample-count self-sample-count) (define procedure-data #f) ;; If you change the call-data data structure, you need to also change ;; sample-uncount-frame. (define (make-call-data proc call-count cum-sample-count self-sample-count) (vector proc call-count cum-sample-count self-sample-count)) (define (call-data-proc cd) (vector-ref cd 0)) (define (call-data-name cd) (procedure-name (call-data-proc cd))) (define (call-data-printable cd) (or (call-data-name cd) (with-output-to-string (lambda () (write (call-data-proc cd)))))) (define (call-data-call-count cd) (vector-ref cd 1)) (define (call-data-cum-sample-count cd) (vector-ref cd 2)) (define (call-data-self-sample-count cd) (vector-ref cd 3)) (define (inc-call-data-call-count! cd) (vector-set! cd 1 (1+ (vector-ref cd 1)))) (define (inc-call-data-cum-sample-count! cd) (vector-set! cd 2 (1+ (vector-ref cd 2)))) (define (inc-call-data-self-sample-count! cd) (vector-set! cd 3 (1+ (vector-ref cd 3)))) (define-macro (accumulate-time stop-time) `(set! accumulated-time (+ accumulated-time 0.0 (- ,stop-time last-start-time)))) (define (get-call-data proc) (let ((k (cond ((program? proc) (program-code proc)) (else proc)))) (or (hashv-ref procedure-data k) (let ((call-data (make-call-data proc 0 0 0))) (hashv-set! procedure-data k call-data) call-data)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; SIGPROF handler (define (sample-stack-procs stack) (let ((stacklen (stack-length stack)) (hit-count-call? #f)) (if record-full-stacks? (set! stacks (cons stack stacks))) (set! sample-count (+ sample-count 1)) ;; Now accumulate stats for the whole stack. (let loop ((frame (stack-ref stack 0)) (procs-seen (make-hash-table 13)) (self #f)) (cond ((not frame) (hash-fold (lambda (proc val accum) (inc-call-data-cum-sample-count! (get-call-data proc))) #f procs-seen) (and=> (and=> self get-call-data) inc-call-data-self-sample-count!)) ((frame-procedure frame) => (lambda (proc) (cond ((eq? proc count-call) ;; We're not supposed to be sampling count-call and ;; its sub-functions, so loop again with a clean ;; slate. (set! hit-count-call? #t) (loop (frame-previous frame) (make-hash-table 13) #f)) (else (hashq-set! procs-seen proc #t) (loop (frame-previous frame) procs-seen (or self proc)))))) (else (loop (frame-previous frame) procs-seen self)))) hit-count-call?)) (define inside-profiler? #f) (define (profile-signal-handler sig) (set! inside-profiler? #t) ;; FIXME: with-statprof should be able to set an outer frame for the ;; stack cut (if (positive? profile-level) (let* ((stop-time (get-internal-run-time)) ;; cut down to the signal handler. note that this will only ;; work if statprof.scm is compiled; otherwise we get ;; `eval' on the stack instead, because if it's not ;; compiled, profile-signal-handler is a thunk that ;; tail-calls eval. perhaps we should always compile the ;; signal handler instead... (stack (or (make-stack #t profile-signal-handler) (pk 'what! (make-stack #t)))) (inside-apply-trap? (sample-stack-procs stack))) (if (not inside-apply-trap?) (begin ;; disabling here is just a little more efficient, but ;; not necessary given inside-profiler?. We can't just ;; disable unconditionally at the top of this function ;; and eliminate inside-profiler? because it seems to ;; confuse guile wrt re-enabling the trap when ;; count-call finishes. (if %count-calls? (set-vm-trace-level! (1- (vm-trace-level)))) (accumulate-time stop-time))) (setitimer ITIMER_PROF 0 0 (car sampling-frequency) (cdr sampling-frequency)) (if (not inside-apply-trap?) (begin (set! last-start-time (get-internal-run-time)) (if %count-calls? (set-vm-trace-level! (1+ (vm-trace-level)))))))) (set! inside-profiler? #f)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Count total calls. (define (count-call frame) (if (not inside-profiler?) (begin (accumulate-time (get-internal-run-time)) (and=> (frame-procedure frame) (lambda (proc) (inc-call-data-call-count! (get-call-data proc)))) (set! last-start-time (get-internal-run-time))))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define (statprof-active?) "Returns @code{#t} if @code{statprof-start} has been called more times than @code{statprof-stop}, @code{#f} otherwise." (positive? profile-level)) ;; Do not call this from statprof internal functions -- user only. (define (statprof-start) "Start the profiler.@code{}" ;; After some head-scratching, I don't *think* I need to mask/unmask ;; signals here, but if I'm wrong, please let me know. (set! profile-level (+ profile-level 1)) (if (= profile-level 1) (let* ((rpt remaining-prof-time) (use-rpt? (and rpt (or (positive? (car rpt)) (positive? (cdr rpt)))))) (set! remaining-prof-time #f) (set! last-start-time (get-internal-run-time)) (set! gc-time-taken (cdr (assq 'gc-time-taken (gc-stats)))) (if use-rpt? (setitimer ITIMER_PROF 0 0 (car rpt) (cdr rpt)) (setitimer ITIMER_PROF 0 0 (car sampling-frequency) (cdr sampling-frequency))) (if %count-calls? (add-hook! (vm-apply-hook) count-call)) (set-vm-trace-level! (1+ (vm-trace-level))) #t))) ;; Do not call this from statprof internal functions -- user only. (define (statprof-stop) "Stop the profiler.@code{}" ;; After some head-scratching, I don't *think* I need to mask/unmask ;; signals here, but if I'm wrong, please let me know. (set! profile-level (- profile-level 1)) (if (zero? profile-level) (begin (set! gc-time-taken (- (cdr (assq 'gc-time-taken (gc-stats))) gc-time-taken)) (set-vm-trace-level! (1- (vm-trace-level))) (if %count-calls? (remove-hook! (vm-apply-hook) count-call)) ;; I believe that we need to do this before getting the time ;; (unless we want to make things even more complicated). (set! remaining-prof-time (setitimer ITIMER_PROF 0 0 0 0)) (accumulate-time (get-internal-run-time)) (set! last-start-time #f)))) (define* (statprof-reset sample-seconds sample-microseconds count-calls? #:optional full-stacks?) "Reset the statprof sampler interval to @var{sample-seconds} and @var{sample-microseconds}. If @var{count-calls?} is true, arrange to instrument procedure calls as well as collecting statistical profiling data. If @var{full-stacks?} is true, collect all sampled stacks into a list for later analysis. Enables traps and debugging as necessary." (if (positive? profile-level) (error "Can't reset profiler while profiler is running.")) (set! %count-calls? count-calls?) (set! accumulated-time 0) (set! last-start-time #f) (set! sample-count 0) (set! sampling-frequency (cons sample-seconds sample-microseconds)) (set! remaining-prof-time #f) (set! procedure-data (make-hash-table 131)) (set! record-full-stacks? full-stacks?) (set! stacks '()) (sigaction SIGPROF profile-signal-handler) #t) (define (statprof-fold-call-data proc init) "Fold @var{proc} over the call-data accumulated by statprof. Cannot be called while statprof is active. @var{proc} should take two arguments, @code{(@var{call-data} @var{prior-result})}. Note that a given proc-name may appear multiple times, but if it does, it represents different functions with the same name." (if (positive? profile-level) (error "Can't call statprof-fold-called while profiler is running.")) (hash-fold (lambda (key value prior-result) (proc value prior-result)) init procedure-data)) (define (statprof-proc-call-data proc) "Returns the call-data associated with @var{proc}, or @code{#f} if none is available." (if (positive? profile-level) (error "Can't call statprof-fold-called while profiler is running.")) (get-call-data proc)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Stats (define (statprof-call-data->stats call-data) "Returns an object of type @code{statprof-stats}." ;; returns (vector proc-name ;; %-time-in-proc ;; cum-seconds-in-proc ;; self-seconds-in-proc ;; num-calls ;; self-secs-per-call ;; total-secs-per-call) (let* ((proc-name (call-data-printable call-data)) (self-samples (call-data-self-sample-count call-data)) (cum-samples (call-data-cum-sample-count call-data)) (all-samples (statprof-sample-count)) (secs-per-sample (/ (statprof-accumulated-time) (statprof-sample-count))) (num-calls (and %count-calls? (statprof-call-data-calls call-data)))) (vector proc-name (* (/ self-samples all-samples) 100.0) (* cum-samples secs-per-sample 1.0) (* self-samples secs-per-sample 1.0) num-calls (and num-calls ;; maybe we only sampled in children (if (zero? self-samples) 0.0 (/ (* self-samples secs-per-sample) 1.0 num-calls))) (and num-calls ;; cum-samples must be positive (/ (* cum-samples secs-per-sample) 1.0 ;; num-calls might be 0 if we entered statprof during the ;; dynamic extent of the call (max num-calls 1)))))) (define (statprof-stats-proc-name stats) (vector-ref stats 0)) (define (statprof-stats-%-time-in-proc stats) (vector-ref stats 1)) (define (statprof-stats-cum-secs-in-proc stats) (vector-ref stats 2)) (define (statprof-stats-self-secs-in-proc stats) (vector-ref stats 3)) (define (statprof-stats-calls stats) (vector-ref stats 4)) (define (statprof-stats-self-secs-per-call stats) (vector-ref stats 5)) (define (statprof-stats-cum-secs-per-call stats) (vector-ref stats 6)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define (stats-sorter x y) (let ((diff (- (statprof-stats-self-secs-in-proc x) (statprof-stats-self-secs-in-proc y)))) (positive? (if (= diff 0) (- (statprof-stats-cum-secs-in-proc x) (statprof-stats-cum-secs-in-proc y)) diff)))) (define (statprof-display . port) "Displays a gprof-like summary of the statistics collected. Unless an optional @var{port} argument is passed, uses the current output port." (if (null? port) (set! port (current-output-port))) (cond ((zero? (statprof-sample-count)) (format port "No samples recorded.\n")) (else (let* ((stats-list (statprof-fold-call-data (lambda (data prior-value) (cons (statprof-call-data->stats data) prior-value)) '())) (sorted-stats (sort stats-list stats-sorter))) (define (display-stats-line stats) (if %count-calls? (format port "~6,2f ~9,2f ~9,2f ~7d ~8,2f ~8,2f " (statprof-stats-%-time-in-proc stats) (statprof-stats-cum-secs-in-proc stats) (statprof-stats-self-secs-in-proc stats) (statprof-stats-calls stats) (* 1000 (statprof-stats-self-secs-per-call stats)) (* 1000 (statprof-stats-cum-secs-per-call stats))) (format port "~6,2f ~9,2f ~9,2f " (statprof-stats-%-time-in-proc stats) (statprof-stats-cum-secs-in-proc stats) (statprof-stats-self-secs-in-proc stats))) (display (statprof-stats-proc-name stats) port) (newline port)) (if %count-calls? (begin (format port "~5a ~10a ~7a ~8a ~8a ~8a ~8@a\n" "% " "cumulative" "self" "" "self" "total" "") (format port "~5a ~9a ~8a ~8a ~8a ~8a ~8@a\n" "time" "seconds" "seconds" "calls" "ms/call" "ms/call" "name")) (begin (format port "~5a ~10a ~7a ~8@a\n" "%" "cumulative" "self" "") (format port "~5a ~10a ~7a ~8@a\n" "time" "seconds" "seconds" "name"))) (for-each display-stats-line sorted-stats) (display "---\n" port) (simple-format #t "Sample count: ~A\n" (statprof-sample-count)) (simple-format #t "Total time: ~A seconds (~A seconds in GC)\n" (statprof-accumulated-time) (/ gc-time-taken 1.0 internal-time-units-per-second)))))) (define (statprof-display-anomolies) "A sanity check that attempts to detect anomolies in statprof's statistics.@code{}" (statprof-fold-call-data (lambda (data prior-value) (if (and %count-calls? (zero? (call-data-call-count data)) (positive? (call-data-cum-sample-count data))) (simple-format #t "==[~A ~A ~A]\n" (call-data-name data) (call-data-call-count data) (call-data-cum-sample-count data)))) #f) (simple-format #t "Total time: ~A\n" (statprof-accumulated-time)) (simple-format #t "Sample count: ~A\n" (statprof-sample-count))) (define (statprof-accumulated-time) "Returns the time accumulated during the last statprof run.@code{}" (if (positive? profile-level) (error "Can't get accumulated time while profiler is running.")) (/ accumulated-time internal-time-units-per-second)) (define (statprof-sample-count) "Returns the number of samples taken during the last statprof run.@code{}" (if (positive? profile-level) (error "Can't get accumulated time while profiler is running.")) sample-count) (define statprof-call-data-name call-data-name) (define statprof-call-data-calls call-data-call-count) (define statprof-call-data-cum-samples call-data-cum-sample-count) (define statprof-call-data-self-samples call-data-self-sample-count) (define (statprof-fetch-stacks) "Returns a list of stacks, as they were captured since the last call to @code{statprof-reset}. Note that stacks are only collected if the @var{full-stacks?} argument to @code{statprof-reset} is true." stacks) (define procedure=? (lambda (a b) (cond ((eq? a b)) ((and (program? a) (program? b)) (eq? (program-code a) (program-code b))) (else #f)))) ;; tree ::= (car n . tree*) (define (lists->trees lists equal?) (let lp ((in lists) (n-terminal 0) (tails '())) (cond ((null? in) (let ((trees (map (lambda (tail) (cons (car tail) (lists->trees (cdr tail) equal?))) tails))) (cons (apply + n-terminal (map cadr trees)) (sort trees (lambda (a b) (> (cadr a) (cadr b))))))) ((null? (car in)) (lp (cdr in) (1+ n-terminal) tails)) ((find (lambda (x) (equal? (car x) (caar in))) tails) => (lambda (tail) (lp (cdr in) n-terminal (assq-set! tails (car tail) (cons (cdar in) (cdr tail)))))) (else (lp (cdr in) n-terminal (acons (caar in) (list (cdar in)) tails)))))) (define (stack->procedures stack) (filter identity (unfold-right (lambda (x) (not x)) frame-procedure frame-previous (stack-ref stack 0)))) (define (statprof-fetch-call-tree) "Return a call tree for the previous statprof run. The return value is a list of nodes, each of which is of the type: @code node ::= (@var{proc} @var{count} . @var{nodes}) @end code" (cons #t (lists->trees (map stack->procedures stacks) procedure=?))) (define* (statprof thunk #:key (loop 1) (hz 100) (count-calls? #f) (full-stacks? #f)) "Profiles the execution of @var{thunk}. The stack will be sampled @var{hz} times per second, and the thunk itself will be called @var{loop} times. If @var{count-calls?} is true, all procedure calls will be recorded. This operation is somewhat expensive. If @var{full-stacks?} is true, at each sample, statprof will store away the whole call tree, for later analysis. Use @code{statprof-fetch-stacks} or @code{statprof-fetch-call-tree} to retrieve the last-stored stacks." (dynamic-wind (lambda () (statprof-reset (inexact->exact (floor (/ 1 hz))) (inexact->exact (* 1e6 (- (/ 1 hz) (floor (/ 1 hz))))) count-calls? full-stacks?) (statprof-start)) (lambda () (let lp ((i loop)) (if (not (zero? i)) (begin (thunk) (lp (1- i)))))) (lambda () (statprof-stop) (statprof-display) (set! procedure-data #f)))) (define-macro (with-statprof . args) "Profiles the expressions in its body. Keyword arguments: @table @code @item #:loop Execute the body @var{loop} number of times, or @code{#f} for no looping default: @code{#f} @item #:hz Sampling rate default: @code{20} @item #:count-calls? Whether to instrument each function call (expensive) default: @code{#f} @item #:full-stacks? Whether to collect away all sampled stacks into a list default: @code{#f} @end table" (define (kw-arg-ref kw args def) (cond ((null? args) (error "Invalid macro body")) ((keyword? (car args)) (if (eq? (car args) kw) (cadr args) (kw-arg-ref kw (cddr args) def))) ((eq? kw #f def) ;; asking for the body args) (else def))) ;; kw not found `((@ (statprof) statprof) (lambda () ,@(kw-arg-ref #f args #f)) #:loop ,(kw-arg-ref #:loop args 1) #:hz ,(kw-arg-ref #:hz args 100) #:count-calls? ,(kw-arg-ref #:count-calls? args #f) #:full-stacks? ,(kw-arg-ref #:full-stacks? args #f))) (define* (gcprof thunk #:key (loop 1) (full-stacks? #f)) "Do an allocation profile of the execution of @var{thunk}. The stack will be sampled soon after every garbage collection, yielding an approximate idea of what is causing allocation in your program. Since GC does not occur very frequently, you may need to use the @var{loop} parameter, to cause @var{thunk} to be called @var{loop} times. If @var{full-stacks?} is true, at each sample, statprof will store away the whole call tree, for later analysis. Use @code{statprof-fetch-stacks} or @code{statprof-fetch-call-tree} to retrieve the last-stored stacks." (define (reset) (if (positive? profile-level) (error "Can't reset profiler while profiler is running.")) (set! accumulated-time 0) (set! last-start-time #f) (set! sample-count 0) (set! %count-calls? #f) (set! procedure-data (make-hash-table 131)) (set! record-full-stacks? full-stacks?) (set! stacks '())) (define (gc-callback) (cond (inside-profiler?) (else (set! inside-profiler? #t) ;; FIXME: should be able to set an outer frame for the stack cut (let ((stop-time (get-internal-run-time)) ;; Cut down to gc-callback, and then one before (the ;; after-gc async). See the note in profile-signal-handler ;; also. (stack (or (make-stack #t gc-callback 0 1) (pk 'what! (make-stack #t))))) (sample-stack-procs stack) (accumulate-time stop-time) (set! last-start-time (get-internal-run-time))) (set! inside-profiler? #f)))) (define (start) (set! profile-level (+ profile-level 1)) (if (= profile-level 1) (begin (set! remaining-prof-time #f) (set! last-start-time (get-internal-run-time)) (set! gc-time-taken (cdr (assq 'gc-time-taken (gc-stats)))) (add-hook! after-gc-hook gc-callback) (set-vm-trace-level! (1+ (vm-trace-level))) #t))) (define (stop) (set! profile-level (- profile-level 1)) (if (zero? profile-level) (begin (set! gc-time-taken (- (cdr (assq 'gc-time-taken (gc-stats))) gc-time-taken)) (remove-hook! after-gc-hook gc-callback) (accumulate-time (get-internal-run-time)) (set! last-start-time #f)))) (dynamic-wind (lambda () (reset) (start)) (lambda () (let lp ((i loop)) (if (not (zero? i)) (begin (thunk) (lp (1- i)))))) (lambda () (stop) (statprof-display) (set! procedure-data #f))))