1
0
mirror of https://git.savannah.gnu.org/git/emacs.git synced 2024-12-04 08:47:11 +00:00
emacs/lisp/profiler.el
Paul Eggert eb0f65b4fb Don't overflow if computing approximate percentage
* lisp/align.el (align-region):
* lisp/cedet/semantic.el (semantic-repeat-parse-whole-stream):
* lisp/cedet/semantic/wisent.el (wisent-parse-region):
* lisp/cus-edit.el (custom-buffer-create-internal):
* lisp/emacs-lisp/checkdoc.el (checkdoc-interactive-ispell-loop)
(checkdoc-message-interactive-ispell-loop, checkdoc-next-error)
(checkdoc-next-message-error):
* lisp/emacs-lisp/eieio-opt.el (eieio-display-method-list):
* lisp/epa.el (epa-progress-callback-function):
* lisp/erc/erc-dcc.el (erc-dcc-do-LIST-command):
* lisp/ffap.el (ffap-menu-rescan):
* lisp/gnus/nnbabyl.el (nnbabyl-retrieve-headers):
* lisp/gnus/nndiary.el (nndiary-retrieve-headers):
* lisp/gnus/nneething.el (nneething-retrieve-headers):
* lisp/gnus/nnmbox.el (nnmbox-retrieve-headers):
* lisp/gnus/nnmh.el (nnmh-retrieve-headers):
* lisp/gnus/nnml.el (nnml-retrieve-headers):
* lisp/gnus/nnspool.el (nnspool-retrieve-headers):
* lisp/gnus/nntp.el (nntp-retrieve-headers)
(nntp-retrieve-articles):
* lisp/imenu.el (imenu--relative-position):
* lisp/international/ja-dic-cnv.el (skkdic-collect-okuri-nasi)
(skkdic-convert-okuri-nasi):
* lisp/net/ange-ftp.el (ange-ftp-process-handle-hash):
* lisp/nxml/rng-valid.el (rng-compute-mode-line-string):
* lisp/org/org-list.el (org-update-checkbox-count):
* lisp/org/org.el (org-table-map-tables)
(org-update-parent-todo-statistics):
* lisp/play/decipher.el (decipher-insert-frequency-counts)
(decipher-analyze-buffer):
* lisp/profiler.el (profiler-format-percent):
* lisp/progmodes/cc-cmds.el (c-progress-update):
* lisp/progmodes/cpp.el (cpp-highlight-buffer):
* lisp/progmodes/idlwave.el (idlwave-convert-xml-system-routine-info)
(idlwave-list-load-path-shadows):
* lisp/progmodes/opascal.el (opascal-step-progress):
* lisp/progmodes/vhdl-mode.el (vhdl-update-progress-info)
(vhdl-scan-directory-contents):
* lisp/textmodes/bibtex.el (bibtex-progress-message):
* lisp/textmodes/flyspell.el (flyspell-small-region)
(flyspell-external-point-words):
* lisp/textmodes/table.el (table-recognize):
Prefer (floor (* 100.0 NUMERATOR) DENOMINATOR) when calculating
progress-report percentages and the like.  This avoids problems
if (* 100 NUMERATOR) would overflow.
* lisp/gnus/gnus-registry.el (gnus-registry-import-eld):
* lisp/gnus/registry.el (registry-reindex):
Use (* 100.0 ...) rather than (* 100 ...) to avoid int overflow issues.
* lisp/descr-text.el (describe-char):
* lisp/org/org-colview.el (org-nofm-to-completion):
* lisp/ps-print.el (ps-plot):
* lisp/simple.el (what-cursor-position):
Prefer (round (* 100.0 NUMERATOR) DENOMINATOR) to a
more-complicated and less-accurate approximation.
2015-07-31 10:13:38 -07:00

907 lines
32 KiB
EmacsLisp
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

;;; profiler.el --- UI and helper functions for Emacs's native profiler -*- lexical-binding: t -*-
;; Copyright (C) 2012-2015 Free Software Foundation, Inc.
;; Author: Tomohiro Matsuyama <tomo@cx4a.org>
;; Keywords: lisp
;; This file is part of GNU Emacs.
;; GNU Emacs is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;; GNU Emacs 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 General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
;;; Commentary:
;; See Info node `(elisp)Profiling'.
;;; Code:
(require 'cl-lib)
(require 'pcase)
(defgroup profiler nil
"Emacs profiler."
:group 'lisp
:version "24.3"
:prefix "profiler-")
(defconst profiler-version "24.3")
(defcustom profiler-sampling-interval 1000000
"Default sampling interval in nanoseconds."
:type 'integer
:group 'profiler)
;;; Utilities
(defun profiler-ensure-string (object)
(cond ((stringp object)
object)
((symbolp object)
(symbol-name object))
((numberp object)
(number-to-string object))
(t
(format "%s" object))))
(defun profiler-format-percent (number divisor)
(format "%d%%" (floor (* 100.0 number) divisor)))
(defun profiler-format-number (number)
"Format NUMBER in human readable string."
(if (and (integerp number) (> number 0))
(cl-loop with i = (% (1+ (floor (log number 10))) 3)
for c in (append (number-to-string number) nil)
if (= i 0)
collect ?, into s
and do (setq i 3)
collect c into s
do (cl-decf i)
finally return
(apply 'string (if (eq (car s) ?,) (cdr s) s)))
(profiler-ensure-string number)))
(defun profiler-format (fmt &rest args)
(cl-loop for (width align subfmt) in fmt
for arg in args
for str = (cond
((consp subfmt)
(apply 'profiler-format subfmt arg))
((stringp subfmt)
(format subfmt arg))
((and (symbolp subfmt)
(fboundp subfmt))
(funcall subfmt arg))
(t
(profiler-ensure-string arg)))
for len = (length str)
if (< width len)
collect (progn (put-text-property (max 0 (- width 2)) len
'invisible 'profiler str)
str) into frags
else
collect
(let ((padding (make-string (max 0 (- width len)) ?\s)))
(cl-ecase align
(left (concat str padding))
(right (concat padding str))))
into frags
finally return (apply #'concat frags)))
;;; Entries
(defun profiler-format-entry (entry)
"Format ENTRY in human readable string. ENTRY would be a
function name of a function itself."
(cond ((memq (car-safe entry) '(closure lambda))
(format "#<lambda 0x%x>" (sxhash entry)))
((byte-code-function-p entry)
(format "#<compiled 0x%x>" (sxhash entry)))
((or (subrp entry) (symbolp entry) (stringp entry))
(format "%s" entry))
(t
(format "#<unknown 0x%x>" (sxhash entry)))))
(defun profiler-fixup-entry (entry)
(if (symbolp entry)
entry
(profiler-format-entry entry)))
;;; Backtraces
(defun profiler-fixup-backtrace (backtrace)
(apply 'vector (mapcar 'profiler-fixup-entry backtrace)))
;;; Logs
;; The C code returns the log in the form of a hash-table where the keys are
;; vectors (of size profiler-max-stack-depth, holding truncated
;; backtraces, where the first element is the top of the stack) and
;; the values are integers (which count how many times this backtrace
;; has been seen, multiplied by a "weight factor" which is either the
;; sampling-interval or the memory being allocated).
(defun profiler-compare-logs (log1 log2)
"Compare LOG1 with LOG2 and return diff."
(let ((newlog (make-hash-table :test 'equal)))
;; Make a copy of `log1' into `newlog'.
(maphash (lambda (backtrace count) (puthash backtrace count newlog))
log1)
(maphash (lambda (backtrace count)
(puthash backtrace (- (gethash backtrace log1 0) count)
newlog))
log2)
newlog))
(defun profiler-fixup-log (log)
(let ((newlog (make-hash-table :test 'equal)))
(maphash (lambda (backtrace count)
(puthash (profiler-fixup-backtrace backtrace)
count newlog))
log)
newlog))
;;; Profiles
(cl-defstruct (profiler-profile (:type vector)
(:constructor profiler-make-profile))
(tag 'profiler-profile)
(version profiler-version)
;; - `type' has a value indicating the kind of profile (`memory' or `cpu').
;; - `log' indicates the profile log.
;; - `timestamp' has a value giving the time when the profile was obtained.
;; - `diff-p' indicates if this profile represents a diff between two profiles.
type log timestamp diff-p)
(defun profiler-compare-profiles (profile1 profile2)
"Compare PROFILE1 with PROFILE2 and return diff."
(unless (eq (profiler-profile-type profile1)
(profiler-profile-type profile2))
(error "Can't compare different type of profiles"))
(profiler-make-profile
:type (profiler-profile-type profile1)
:timestamp (current-time)
:diff-p t
:log (profiler-compare-logs
(profiler-profile-log profile1)
(profiler-profile-log profile2))))
(defun profiler-fixup-profile (profile)
"Fixup PROFILE so that the profile could be serialized into file."
(profiler-make-profile
:type (profiler-profile-type profile)
:timestamp (profiler-profile-timestamp profile)
:diff-p (profiler-profile-diff-p profile)
:log (profiler-fixup-log (profiler-profile-log profile))))
(defun profiler-write-profile (profile filename &optional confirm)
"Write PROFILE into file FILENAME."
(with-temp-buffer
(let (print-level print-length)
(print (profiler-fixup-profile profile)
(current-buffer)))
(write-file filename confirm)))
(defun profiler-read-profile (filename)
"Read profile from file FILENAME."
;; FIXME: tag and version check
(with-temp-buffer
(insert-file-contents filename)
(goto-char (point-min))
(read (current-buffer))))
(defun profiler-running-p (&optional mode)
"Return non-nil if the profiler is running.
Optional argument MODE means only check for the specified mode (cpu or mem)."
(cond ((eq mode 'cpu) (and (fboundp 'profiler-cpu-running-p)
(profiler-cpu-running-p)))
((eq mode 'mem) (profiler-memory-running-p))
(t (or (profiler-running-p 'cpu)
(profiler-running-p 'mem)))))
(defun profiler-cpu-profile ()
"Return CPU profile."
(when (profiler-running-p 'cpu)
(profiler-make-profile
:type 'cpu
:timestamp (current-time)
:log (profiler-cpu-log))))
(defun profiler-memory-profile ()
"Return memory profile."
(when (profiler-memory-running-p)
(profiler-make-profile
:type 'memory
:timestamp (current-time)
:log (profiler-memory-log))))
;;; Calltrees
(cl-defstruct (profiler-calltree (:constructor profiler-make-calltree))
entry
(count 0) (count-percent "")
parent children)
(defun profiler-calltree-leaf-p (tree)
(null (profiler-calltree-children tree)))
(defun profiler-calltree-count< (a b)
(cond ((eq (profiler-calltree-entry a) t) t)
((eq (profiler-calltree-entry b) t) nil)
(t (< (profiler-calltree-count a)
(profiler-calltree-count b)))))
(defun profiler-calltree-count> (a b)
(not (profiler-calltree-count< a b)))
(defun profiler-calltree-depth (tree)
(let ((d 0))
(while (setq tree (profiler-calltree-parent tree))
(cl-incf d))
d))
(defun profiler-calltree-find (tree entry)
"Return a child tree of ENTRY under TREE."
(let (result (children (profiler-calltree-children tree)))
(while (and children (null result))
(let ((child (car children)))
(when (function-equal (profiler-calltree-entry child) entry)
(setq result child))
(setq children (cdr children))))
result))
(defun profiler-calltree-walk (calltree function)
(funcall function calltree)
(dolist (child (profiler-calltree-children calltree))
(profiler-calltree-walk child function)))
(defun profiler-calltree-build-1 (tree log &optional reverse)
;; This doesn't try to stitch up partial backtraces together.
;; We still use it for reverse calltrees, but for forward calltrees, we use
;; profiler-calltree-build-unified instead now.
(maphash
(lambda (backtrace count)
(let ((node tree)
(max (length backtrace)))
(dotimes (i max)
(let ((entry (aref backtrace (if reverse i (- max i 1)))))
(when entry
(let ((child (profiler-calltree-find node entry)))
(unless child
(setq child (profiler-make-calltree
:entry entry :parent node))
(push child (profiler-calltree-children node)))
(cl-incf (profiler-calltree-count child) count)
(setq node child)))))))
log))
(define-hash-table-test 'profiler-function-equal #'function-equal
(lambda (f) (cond
((byte-code-function-p f) (aref f 1))
((eq (car-safe f) 'closure) (cddr f))
(t f))))
(defun profiler-calltree-build-unified (tree log)
;; Let's try to unify all those partial backtraces into a single
;; call tree. First, we record in fun-map all the functions that appear
;; in `log' and where they appear.
(let ((fun-map (make-hash-table :test 'profiler-function-equal))
(parent-map (make-hash-table :test 'eq))
(leftover-tree (profiler-make-calltree
:entry (intern "...") :parent tree)))
(push leftover-tree (profiler-calltree-children tree))
(maphash
(lambda (backtrace _count)
(let ((max (length backtrace)))
;; Don't record the head elements in there, since we want to use this
;; fun-map to find parents of partial backtraces, but parents only
;; make sense if they have something "above".
(dotimes (i (1- max))
(let ((f (aref backtrace i)))
(when f
(push (cons i backtrace) (gethash f fun-map)))))))
log)
;; Then, for each partial backtrace, try to find a parent backtrace
;; (i.e. a backtrace that describes (part of) the truncated part of
;; the partial backtrace). For a partial backtrace like "[f3 f2 f1]" (f3
;; is deeper), any backtrace that includes f1 could be a parent; and indeed
;; the counts of this partial backtrace could each come from a different
;; parent backtrace (some of which may not even be in `log'). So we should
;; consider each backtrace that includes f1 and give it some percentage of
;; `count'. But we can't know for sure what percentage to give to each
;; possible parent.
;; The "right" way might be to give a percentage proportional to the counts
;; already registered for that parent, or some such statistical principle.
;; But instead, we will give all our counts to a single "best
;; matching" parent. So let's look for the best matching parent, and store
;; the result in parent-map.
;; Using the "best matching parent" is important also to try and avoid
;; stitching together backtraces that can't possibly go together.
;; For example, when the head is `apply' (or `mapcar', ...), we want to
;; make sure we don't just use any parent that calls `apply', since most of
;; them would never, in turn, cause apply to call the subsequent function.
(maphash
(lambda (backtrace _count)
(let* ((max (1- (length backtrace)))
(head (aref backtrace max))
(best-parent nil)
(best-match (1+ max))
(parents (gethash head fun-map)))
(pcase-dolist (`(,i . ,parent) parents)
(when t ;; (<= (- max i) best-match) ;Else, it can't be better.
(let ((match max)
(imatch i))
(cl-assert (>= match imatch))
(cl-assert (function-equal (aref backtrace max)
(aref parent i)))
(while (progn
(cl-decf imatch) (cl-decf match)
(when (> imatch 0)
(function-equal (aref backtrace match)
(aref parent imatch)))))
(when (< match best-match)
(cl-assert (<= (- max i) best-match))
;; Let's make sure this parent is not already our child: we
;; don't want cycles here!
(let ((valid t)
(tmp-parent parent))
(while (setq tmp-parent
(if (eq tmp-parent backtrace)
(setq valid nil)
(cdr (gethash tmp-parent parent-map)))))
(when valid
(setq best-match match)
(setq best-parent (cons i parent))))))))
(puthash backtrace best-parent parent-map)))
log)
;; Now we have a single parent per backtrace, so we have a unified tree.
;; Let's build the actual call-tree from it.
(maphash
(lambda (backtrace count)
(let ((node tree)
(parents (list (cons -1 backtrace)))
(tmp backtrace)
(max (length backtrace)))
(while (setq tmp (gethash tmp parent-map))
(push tmp parents)
(setq tmp (cdr tmp)))
(when (aref (cdar parents) (1- max))
(cl-incf (profiler-calltree-count leftover-tree) count)
(setq node leftover-tree))
(pcase-dolist (`(,i . ,parent) parents)
(let ((j (1- max)))
(while (> j i)
(let ((f (aref parent j)))
(cl-decf j)
(when f
(let ((child (profiler-calltree-find node f)))
(unless child
(setq child (profiler-make-calltree
:entry f :parent node))
(push child (profiler-calltree-children node)))
(cl-incf (profiler-calltree-count child) count)
(setq node child)))))))))
log)))
(defun profiler-calltree-compute-percentages (tree)
(let ((total-count 0))
;; FIXME: the memory profiler's total wraps around all too easily!
(dolist (child (profiler-calltree-children tree))
(cl-incf total-count (profiler-calltree-count child)))
(unless (zerop total-count)
(profiler-calltree-walk
tree (lambda (node)
(setf (profiler-calltree-count-percent node)
(profiler-format-percent (profiler-calltree-count node)
total-count)))))))
(cl-defun profiler-calltree-build (log &key reverse)
(let ((tree (profiler-make-calltree)))
(if reverse
(profiler-calltree-build-1 tree log reverse)
(profiler-calltree-build-unified tree log))
(profiler-calltree-compute-percentages tree)
tree))
(defun profiler-calltree-sort (tree predicate)
(let ((children (profiler-calltree-children tree)))
(setf (profiler-calltree-children tree) (sort children predicate))
(dolist (child (profiler-calltree-children tree))
(profiler-calltree-sort child predicate))))
;;; Report rendering
(defcustom profiler-report-closed-mark "+"
"An indicator of closed calltrees."
:type 'string
:group 'profiler)
(defcustom profiler-report-open-mark "-"
"An indicator of open calltrees."
:type 'string
:group 'profiler)
(defcustom profiler-report-leaf-mark " "
"An indicator of calltree leaves."
:type 'string
:group 'profiler)
(defvar profiler-report-cpu-line-format
'((50 left)
(24 right ((19 right)
(5 right)))))
(defvar profiler-report-memory-line-format
'((55 left)
(19 right ((14 right profiler-format-number)
(5 right)))))
(defvar-local profiler-report-profile nil
"The current profile.")
(defvar-local profiler-report-reversed nil
"True if calltree is rendered in bottom-up. Do not touch this
variable directly.")
(defvar-local profiler-report-order nil
"The value can be `ascending' or `descending'. Do not touch
this variable directly.")
(defun profiler-report-make-entry-part (entry)
(let ((string (cond
((eq entry t)
"Others")
((and (symbolp entry)
(fboundp entry))
(propertize (symbol-name entry)
'face 'link
'mouse-face 'highlight
'help-echo "\
mouse-2: jump to definition\n\
RET: expand or collapse"))
(t
(profiler-format-entry entry)))))
(propertize string 'profiler-entry entry)))
(defun profiler-report-make-name-part (tree)
(let* ((entry (profiler-calltree-entry tree))
(depth (profiler-calltree-depth tree))
(indent (make-string (* (1- depth) 1) ?\s))
(mark (if (profiler-calltree-leaf-p tree)
profiler-report-leaf-mark
profiler-report-closed-mark))
(entry (profiler-report-make-entry-part entry)))
(format "%s%s %s" indent mark entry)))
(defun profiler-report-header-line-format (fmt &rest args)
(let* ((header (apply #'profiler-format fmt args))
(escaped (replace-regexp-in-string "%" "%%" header)))
(concat " " escaped)))
(defun profiler-report-line-format (tree)
(let ((diff-p (profiler-profile-diff-p profiler-report-profile))
(name-part (profiler-report-make-name-part tree))
(count (profiler-calltree-count tree))
(count-percent (profiler-calltree-count-percent tree)))
(profiler-format (cl-ecase (profiler-profile-type profiler-report-profile)
(cpu profiler-report-cpu-line-format)
(memory profiler-report-memory-line-format))
name-part
(if diff-p
(list (if (> count 0)
(format "+%s" count)
count)
"")
(list count count-percent)))))
(defun profiler-report-insert-calltree (tree)
(let ((line (profiler-report-line-format tree)))
(insert (propertize (concat line "\n") 'calltree tree))))
(defun profiler-report-insert-calltree-children (tree)
(mapc #'profiler-report-insert-calltree
(profiler-calltree-children tree)))
;;; Report mode
(defvar profiler-report-mode-map
(let ((map (make-sparse-keymap)))
(define-key map "n" 'profiler-report-next-entry)
(define-key map "p" 'profiler-report-previous-entry)
;; I find it annoying more than helpful to not be able to navigate
;; normally with the cursor keys. --Stef
;; (define-key map [down] 'profiler-report-next-entry)
;; (define-key map [up] 'profiler-report-previous-entry)
(define-key map "\r" 'profiler-report-toggle-entry)
(define-key map "\t" 'profiler-report-toggle-entry)
(define-key map "i" 'profiler-report-toggle-entry)
(define-key map "f" 'profiler-report-find-entry)
(define-key map "j" 'profiler-report-find-entry)
(define-key map [mouse-2] 'profiler-report-find-entry)
(define-key map "d" 'profiler-report-describe-entry)
(define-key map "C" 'profiler-report-render-calltree)
(define-key map "B" 'profiler-report-render-reversed-calltree)
(define-key map "A" 'profiler-report-ascending-sort)
(define-key map "D" 'profiler-report-descending-sort)
(define-key map "=" 'profiler-report-compare-profile)
(define-key map (kbd "C-x C-w") 'profiler-report-write-profile)
(easy-menu-define profiler-report-menu map "Menu for Profiler Report mode."
'("Profiler"
["Next Entry" profiler-report-next-entry :active t
:help "Move to next entry"]
["Previous Entry" profiler-report-previous-entry :active t
:help "Move to previous entry"]
"--"
["Toggle Entry" profiler-report-toggle-entry
:active (profiler-report-calltree-at-point)
:help "Expand or collapse the current entry"]
["Find Entry" profiler-report-find-entry
;; FIXME should deactivate if not on a known function.
:active (profiler-report-calltree-at-point)
:help "Find the definition of the current entry"]
["Describe Entry" profiler-report-describe-entry
:active (profiler-report-calltree-at-point)
:help "Show the documentation of the current entry"]
"--"
["Show Calltree" profiler-report-render-calltree
:active profiler-report-reversed
:help "Show calltree view"]
["Show Reversed Calltree" profiler-report-render-reversed-calltree
:active (not profiler-report-reversed)
:help "Show reversed calltree view"]
["Sort Ascending" profiler-report-ascending-sort
:active (not (eq profiler-report-order 'ascending))
:help "Sort calltree view in ascending order"]
["Sort Descending" profiler-report-descending-sort
:active (not (eq profiler-report-order 'descending))
:help "Sort calltree view in descending order"]
"--"
["Compare Profile..." profiler-report-compare-profile :active t
:help "Compare current profile with another"]
["Write Profile..." profiler-report-write-profile :active t
:help "Write current profile to a file"]
"--"
["Start Profiler" profiler-start :active (not (profiler-running-p))
:help "Start profiling"]
["Stop Profiler" profiler-stop :active (profiler-running-p)
:help "Stop profiling"]
["New Report" profiler-report :active (profiler-running-p)
:help "Make a new report"]))
map)
"Keymap for `profiler-report-mode'.")
(defun profiler-report-make-buffer-name (profile)
(format "*%s-Profiler-Report %s*"
(cl-ecase (profiler-profile-type profile) (cpu 'CPU) (memory 'Memory))
(format-time-string "%Y-%m-%d %T" (profiler-profile-timestamp profile))))
(defun profiler-report-setup-buffer-1 (profile)
"Make a buffer for PROFILE and return it."
(let* ((buf-name (profiler-report-make-buffer-name profile))
(buffer (get-buffer-create buf-name)))
(with-current-buffer buffer
(profiler-report-mode)
(setq profiler-report-profile profile
profiler-report-reversed nil
profiler-report-order 'descending))
buffer))
(defun profiler-report-setup-buffer (profile)
"Make a buffer for PROFILE with rendering the profile and
return it."
(let ((buffer (profiler-report-setup-buffer-1 profile)))
(with-current-buffer buffer
(profiler-report-render-calltree))
buffer))
(define-derived-mode profiler-report-mode special-mode "Profiler-Report"
"Profiler Report Mode."
(add-to-invisibility-spec '(profiler . t))
(setq buffer-read-only t
buffer-undo-list t
truncate-lines t))
;;; Report commands
(defun profiler-report-calltree-at-point (&optional point)
(get-text-property (or point (point)) 'calltree))
(defun profiler-report-move-to-entry ()
(let ((point (next-single-property-change
(line-beginning-position) 'profiler-entry)))
(if point
(goto-char point)
(back-to-indentation))))
(defun profiler-report-next-entry ()
"Move cursor to next entry."
(interactive)
(forward-line)
(profiler-report-move-to-entry))
(defun profiler-report-previous-entry ()
"Move cursor to previous entry."
(interactive)
(forward-line -1)
(profiler-report-move-to-entry))
(defun profiler-report-expand-entry (&optional full)
"Expand entry at point.
With a prefix argument, expand the whole subtree."
(interactive "P")
(save-excursion
(beginning-of-line)
(when (search-forward (concat profiler-report-closed-mark " ")
(line-end-position) t)
(let ((tree (profiler-report-calltree-at-point)))
(when tree
(let ((inhibit-read-only t))
(replace-match (concat profiler-report-open-mark " "))
(forward-line)
(let ((first (point))
(last (copy-marker (point) t)))
(profiler-report-insert-calltree-children tree)
(when full
(goto-char first)
(while (< (point) last)
(profiler-report-expand-entry)
(forward-line 1))))
t))))))
(defun profiler-report-collapse-entry ()
"Collapse entry at point."
(interactive)
(save-excursion
(beginning-of-line)
(when (search-forward (concat profiler-report-open-mark " ")
(line-end-position) t)
(let* ((tree (profiler-report-calltree-at-point))
(depth (profiler-calltree-depth tree))
(start (line-beginning-position 2))
d)
(when tree
(let ((inhibit-read-only t))
(replace-match (concat profiler-report-closed-mark " "))
(while (and (eq (forward-line) 0)
(let ((child (get-text-property (point) 'calltree)))
(and child
(numberp (setq d (profiler-calltree-depth child)))))
(> d depth)))
(delete-region start (line-beginning-position)))))
t)))
(defun profiler-report-toggle-entry (&optional arg)
"Expand entry at point if the tree is collapsed,
otherwise collapse."
(interactive "P")
(or (profiler-report-expand-entry arg)
(profiler-report-collapse-entry)))
(defun profiler-report-find-entry (&optional event)
"Find entry at point."
(interactive (list last-nonmenu-event))
(with-current-buffer
(if event (window-buffer (posn-window (event-start event)))
(current-buffer))
(and event (setq event (event-end event))
(posn-set-point event))
(let ((tree (profiler-report-calltree-at-point)))
(when tree
(let ((entry (profiler-calltree-entry tree)))
(find-function entry))))))
(defun profiler-report-describe-entry ()
"Describe entry at point."
(interactive)
(let ((tree (profiler-report-calltree-at-point)))
(when tree
(let ((entry (profiler-calltree-entry tree)))
(require 'help-fns)
(describe-function entry)))))
(cl-defun profiler-report-render-calltree-1
(profile &key reverse (order 'descending))
(let ((calltree (profiler-calltree-build
(profiler-profile-log profile)
:reverse reverse)))
(setq header-line-format
(cl-ecase (profiler-profile-type profile)
(cpu
(profiler-report-header-line-format
profiler-report-cpu-line-format
"Function" (list "CPU samples" "%")))
(memory
(profiler-report-header-line-format
profiler-report-memory-line-format
"Function" (list "Bytes" "%")))))
(let ((predicate (cl-ecase order
(ascending #'profiler-calltree-count<)
(descending #'profiler-calltree-count>))))
(profiler-calltree-sort calltree predicate))
(let ((inhibit-read-only t))
(erase-buffer)
(profiler-report-insert-calltree-children calltree)
(goto-char (point-min))
(profiler-report-move-to-entry))))
(defun profiler-report-rerender-calltree ()
(profiler-report-render-calltree-1 profiler-report-profile
:reverse profiler-report-reversed
:order profiler-report-order))
(defun profiler-report-render-calltree ()
"Render calltree view."
(interactive)
(setq profiler-report-reversed nil)
(profiler-report-rerender-calltree))
(defun profiler-report-render-reversed-calltree ()
"Render reversed calltree view."
(interactive)
(setq profiler-report-reversed t)
(profiler-report-rerender-calltree))
(defun profiler-report-ascending-sort ()
"Sort calltree view in ascending order."
(interactive)
(setq profiler-report-order 'ascending)
(profiler-report-rerender-calltree))
(defun profiler-report-descending-sort ()
"Sort calltree view in descending order."
(interactive)
(setq profiler-report-order 'descending)
(profiler-report-rerender-calltree))
(defun profiler-report-profile (profile)
(switch-to-buffer (profiler-report-setup-buffer profile)))
(defun profiler-report-profile-other-window (profile)
(switch-to-buffer-other-window (profiler-report-setup-buffer profile)))
(defun profiler-report-profile-other-frame (profile)
(switch-to-buffer-other-frame (profiler-report-setup-buffer profile)))
(defun profiler-report-compare-profile (buffer)
"Compare the current profile with another."
(interactive (list (read-buffer "Compare to: ")))
(let* ((profile1 (with-current-buffer buffer profiler-report-profile))
(profile2 profiler-report-profile)
(diff-profile (profiler-compare-profiles profile1 profile2)))
(profiler-report-profile diff-profile)))
(defun profiler-report-write-profile (filename &optional confirm)
"Write the current profile into file FILENAME."
(interactive
(list (read-file-name "Write profile: " default-directory)
(not current-prefix-arg)))
(profiler-write-profile profiler-report-profile
filename
confirm))
;;; Profiler commands
;;;###autoload
(defun profiler-start (mode)
"Start/restart profilers.
MODE can be one of `cpu', `mem', or `cpu+mem'.
If MODE is `cpu' or `cpu+mem', time-based profiler will be started.
Also, if MODE is `mem' or `cpu+mem', then memory profiler will be started."
(interactive
(list (if (not (fboundp 'profiler-cpu-start)) 'mem
(intern (completing-read "Mode (default cpu): "
'("cpu" "mem" "cpu+mem")
nil t nil nil "cpu")))))
(cl-ecase mode
(cpu
(profiler-cpu-start profiler-sampling-interval)
(message "CPU profiler started"))
(mem
(profiler-memory-start)
(message "Memory profiler started"))
(cpu+mem
(profiler-cpu-start profiler-sampling-interval)
(profiler-memory-start)
(message "CPU and memory profiler started"))))
(defun profiler-stop ()
"Stop started profilers. Profiler logs will be kept."
(interactive)
(let ((cpu (if (fboundp 'profiler-cpu-stop) (profiler-cpu-stop)))
(mem (profiler-memory-stop)))
(message "%s profiler stopped"
(cond ((and mem cpu) "CPU and memory")
(mem "Memory")
(cpu "CPU")
(t "No")))))
(defun profiler-reset ()
"Reset profiler logs."
(interactive)
(when (fboundp 'profiler-cpu-log)
(ignore (profiler-cpu-log)))
(ignore (profiler-memory-log))
t)
(defun profiler-report-cpu ()
(let ((profile (profiler-cpu-profile)))
(when profile
(profiler-report-profile-other-window profile))))
(defun profiler-report-memory ()
(let ((profile (profiler-memory-profile)))
(when profile
(profiler-report-profile-other-window profile))))
(defun profiler-report ()
"Report profiling results."
(interactive)
(profiler-report-cpu)
(profiler-report-memory))
;;;###autoload
(defun profiler-find-profile (filename)
"Open profile FILENAME."
(interactive
(list (read-file-name "Find profile: " default-directory)))
(profiler-report-profile (profiler-read-profile filename)))
;;;###autoload
(defun profiler-find-profile-other-window (filename)
"Open profile FILENAME."
(interactive
(list (read-file-name "Find profile: " default-directory)))
(profiler-report-profile-other-window (profiler-read-profile filename)))
;;;###autoload
(defun profiler-find-profile-other-frame (filename)
"Open profile FILENAME."
(interactive
(list (read-file-name "Find profile: " default-directory)))
(profiler-report-profile-other-frame(profiler-read-profile filename)))
;;; Profiling helpers
;; (cl-defmacro with-cpu-profiling ((&key sampling-interval) &rest body)
;; `(unwind-protect
;; (progn
;; (ignore (profiler-cpu-log))
;; (profiler-cpu-start ,sampling-interval)
;; ,@body)
;; (profiler-cpu-stop)
;; (profiler--report-cpu)))
;; (defmacro with-memory-profiling (&rest body)
;; `(unwind-protect
;; (progn
;; (ignore (profiler-memory-log))
;; (profiler-memory-start)
;; ,@body)
;; (profiler-memory-stop)
;; (profiler--report-memory)))
(provide 'profiler)
;;; profiler.el ends here