(in-package "SB!IMPL")
-(defconstant internal-time-units-per-second 100
+(defconstant sb!xc:internal-time-units-per-second 1000
#!+sb-doc
"The number of internal time units that fit into a second. See
GET-INTERNAL-REAL-TIME and GET-INTERNAL-RUN-TIME.")
(defconstant micro-seconds-per-internal-time-unit
- (/ 1000000 internal-time-units-per-second))
+ (/ 1000000 sb!xc:internal-time-units-per-second))
\f
;;; The base number of seconds for our internal "epoch". We initialize
;;; this to the time of the first call to GET-INTERNAL-REAL-TIME, and
(defun get-internal-real-time ()
#!+sb-doc
- "Return the real time in the internal time format. This is useful for
- finding elapsed time. See INTERNAL-TIME-UNITS-PER-SECOND."
- ;; FIXME: See comment on OPTIMIZE declaration in GET-INTERNAL-RUN-TIME.
- (declare (optimize (speed 3) (safety 3)))
+ "Return the real time in the internal time format. (See
+ INTERNAL-TIME-UNITS-PER-SECOND.) This is useful for finding elapsed time."
(multiple-value-bind (ignore seconds useconds) (sb!unix:unix-gettimeofday)
(declare (ignore ignore) (type (unsigned-byte 32) seconds useconds))
(let ((base *internal-real-time-base-seconds*)
(truly-the (unsigned-byte 32)
(+ (the (unsigned-byte 32)
(* (the (unsigned-byte 32) (- seconds base))
- internal-time-units-per-second))
+ sb!xc:internal-time-units-per-second))
uint)))
(t
(setq *internal-real-time-base-seconds* seconds)
uint)))))
-;;; REMOVEME once runtime nonmonotonicity problem is debugged
-(defvar *last-utime-sec*)
-(defvar *last-utime-usec*)
-(defvar *last-stime-sec*)
-(defvar *last-stime-usec*)
-(defvar *last-internal-run-time*)
-(push (lambda ()
- (makunbound '*last-internal-run-time*))
- *before-save-initializations*)
-
(defun get-internal-run-time ()
#!+sb-doc
- "Return the run time in the internal time format. This is useful for
- finding CPU usage."
+ "Return the run time in the internal time format. (See
+ INTERNAL-TIME-UNITS-PER-SECOND.) This is useful for finding CPU usage."
(declare (values (unsigned-byte 32)))
- ;; FIXME: In CMU CL this was (SPEED 3) (SAFETY 0), and perhaps
- ;; someday it should be again, since overhead here is annoying. But
- ;; it's even more annoying to worry about this function returning
- ;; out-of-range values, so while debugging the profiling code,
- ;; I set it to (SAFETY 3) for now.
- (declare (optimize (speed 3) (safety 3)))
(multiple-value-bind (ignore utime-sec utime-usec stime-sec stime-usec)
(sb!unix:unix-fast-getrusage sb!unix:rusage_self)
(declare (ignore ignore)
;; documented anywhere and the observed behavior is to
;; sometimes return 1000000 exactly.)
(type (integer 0 1000000) utime-usec stime-usec))
-
(let ((result (+ (the (unsigned-byte 32)
(* (the (unsigned-byte 32) (+ utime-sec stime-sec))
- internal-time-units-per-second))
+ sb!xc:internal-time-units-per-second))
(floor (+ utime-usec
stime-usec
(floor micro-seconds-per-internal-time-unit 2))
micro-seconds-per-internal-time-unit))))
-
- ;; REMOVEME once runtime nonmonotonicity problem is debugged
- (when (boundp '*last-internal-run-time*)
- (unless (>= result *last-internal-run-time*)
- (error "non-monotonic:~@
- UTIME-SEC ~S ~S~@
- UTIME-USEC ~S ~S~@
- STIME-SEC ~S ~S~@
- STIME-USEC ~S ~S~@
- RESULT ~S ~S"
- *last-utime-sec* utime-sec
- *last-utime-usec* utime-usec
- *last-stime-sec* stime-sec
- *last-stime-usec* stime-usec
- *last-internal-run-time* result)))
- (setf *last-utime-sec* utime-sec
- *last-utime-usec* utime-usec
- *last-stime-sec* stime-sec
- *last-stime-usec* stime-usec
- *last-internal-run-time* result)
-
result)))
\f
;;;; Encode and decode universal times.
-;;; Returns two values:
-;;; - the minutes west of GMT.
-;;; - T if daylight savings is in effect, NIL if not.
-(sb!alien:def-alien-routine get-timezone sb!c-call:void
- (when sb!c-call:long :in)
- (minutes-west sb!c-call:int :out)
- (daylight-savings-p sb!alien:boolean :out))
+;;; In August 2003, work was done in this file for more plausible
+;;; timezone handling after the unix timezone database runs out in
+;;; 2038. We assume that timezone rules are trending sane rather than
+;;; insane, so for all years after the end of time_t we apply the
+;;; rules for 2035/2036 instead of the actual date asked for. Making
+;;; the same assumption about the early 1900s would be less
+;;; reasonable, however, so please note that we're still broken for
+;;; local time between 1900-1-1 and 1901-12-13
+
+;;; It should be noted that 64 bit machines don't actually fix this
+;;; problem, at least as of 2003, because the Unix zonefiles are
+;;; specified in terms of 32 bit fields even on, say, the Alpha. So,
+;;; references to the range of time_t elsewhere in this file should
+;;; rightly be read as shorthand for the range of an signed 32 bit
+;;; number of seconds since 1970-01-01
+
+;;; I'm obliged to Erik Naggum's "Long, Painful History of Time" paper
+;;; <http://heim.ifi.uio.no/~enag/lugm-time.html> for the choice of epoch
+;;; here. By starting the year in March, we avoid having to test the month
+;;; whenever deciding whether to account for a leap day. 2000 is especially
+;;; special, because it's disvisible by 400, hence the start of a 400 year
+;;; leap year cycle
+
+;;; If a universal-time is after time_t runs out, we find its offset
+;;; from 1st March of whichever year it falls in, then add that to
+;;; 2035-3-1. This date has two relevant properties: (1) somewhere
+;;; near the end of time_t, and (2) preceding a leap year. Thus a
+;;; date which is e.g. 365.5 days from March 1st in its year will be
+;;; treated for timezone lookup as if it were Feb 29th 2036
+
+;;; This epoch is used only for fixing the timezones-outside-time_t
+;;; problem. Someday it would be nice to come back to this code and
+;;; see if the rest of the file and its references to Spice Lisp
+;;; history (Perq time base?) could be cleaned up any on this basis.
+;;; -- dan, 2003-08-08
+
;;; Subtract from the returned Internal-Time to get the universal
;;; time. The offset between our time base and the Perq one is 2145
(defun get-universal-time ()
#!+sb-doc
- "Returns a single integer for the current time of
+ "Return a single integer for the current time of
day in universal time format."
(multiple-value-bind (res secs) (sb!unix:unix-gettimeofday)
(declare (ignore res))
(defun get-decoded-time ()
#!+sb-doc
- "Returns nine values specifying the current time as follows:
+ "Return nine values specifying the current time as follows:
second, minute, hour, date, month, year, day of week (0 = Monday), T
(daylight savings times) or NIL (standard time), and timezone."
(decode-universal-time (get-universal-time)))
+(defconstant +mar-1-2000+ #.(encode-universal-time 0 0 0 1 3 2000 0))
+(defconstant +mar-1-2035+ #.(encode-universal-time 0 0 0 1 3 2035 0))
+
+(defun years-since-mar-2000 (utime)
+ "Returns number of complete years since March 1st 2000, and remainder in seconds"
+ (let* ((days-in-year (* 86400 365))
+ (days-in-4year (+ (* 4 days-in-year) 86400))
+ (days-in-100year (- (* 25 days-in-4year) 86400))
+ (days-in-400year (+ (* 4 days-in-100year) 86400))
+ (offset (- utime +mar-1-2000+))
+ (year 0))
+ (labels ((whole-num (x y inc max)
+ (let ((w (truncate x y)))
+ (when (and max (> w max)) (setf w max))
+ (incf year (* w inc))
+ (* w y))))
+ (decf offset (whole-num offset days-in-400year 400 nil))
+ (decf offset (whole-num offset days-in-100year 100 3))
+ (decf offset (whole-num offset days-in-4year 4 25))
+ (decf offset (whole-num offset days-in-year 1 3))
+ (values year offset))))
+
+(defun truncate-to-unix-range (utime)
+ (let ((unix-time (- utime unix-to-universal-time)))
+ (if (< unix-time (ash 1 31))
+ unix-time
+ (multiple-value-bind (year offset) (years-since-mar-2000 utime)
+ (+ +mar-1-2035+ (- unix-to-universal-time) offset)))))
+
(defun decode-universal-time (universal-time &optional time-zone)
#!+sb-doc
"Converts a universal-time to decoded time format returning the following
(year NIL)
(day NIL)
(daylight NIL)
- (timezone (if (null time-zone)
- (multiple-value-bind
- (ignore minwest dst)
- (get-timezone (- universal-time
- unix-to-universal-time))
- (declare (ignore ignore))
- (setf daylight dst)
- minwest)
- (* time-zone 60))))
+ (timezone (cond
+ ((null time-zone)
+ (multiple-value-bind (ignore minwest dst)
+ (sb!unix::get-timezone
+ (truncate-to-unix-range universal-time))
+ (declare (ignore ignore))
+ (declare (fixnum minwest))
+ (setf daylight dst)
+ minwest))
+ (t (* time-zone 60)))))
(declare (fixnum timezone))
(multiple-value-bind (t1 seconds) (truncate secs 60)
(setq second seconds)
(incf sum days-in-month))
(coerce (nreverse reversed-result) 'simple-vector)))
+
(defun encode-universal-time (second minute hour date month year
&optional time-zone)
#!+sb-doc
(hours (+ hour (* days 24))))
(if time-zone
(+ second (* (+ minute (* (+ hours time-zone) 60)) 60))
- (let* ((minwest-guess
- (nth-value 1
- (get-timezone (- (* hours 60 60)
- unix-to-universal-time))))
- (guess (+ minute (* hours 60) minwest-guess))
- (minwest
- (nth-value 1
- (get-timezone (- (* guess 60)
- unix-to-universal-time)))))
- (+ second (* (+ guess (- minwest minwest-guess)) 60))))))
+ ;; can't ask unix for times after 2037: this is only a problem
+ ;; if we need to query the system timezone
+ (if (> year 2037)
+ (labels ((leap-year-p (year)
+ (cond ((zerop (mod year 400)) t)
+ ((zerop (mod year 100)) t)
+ ((zerop (mod year 4)) t)
+ (t nil))))
+ (let* ((fake-year (if (leap-year-p year) 2036 2037))
+ (fake-time (encode-universal-time second minute hour
+ date month fake-year)))
+ (+ fake-time
+ (* 86400 (+ (* 365 (- year fake-year))
+ (- (leap-years-before year)
+ (leap-years-before fake-year)))))))
+ (let* ((minwest-guess
+ (sb!unix::unix-get-minutes-west
+ (- (* hours 60 60) unix-to-universal-time)))
+ (guess (+ minute (* hours 60) minwest-guess))
+ (minwest
+ (sb!unix::unix-get-minutes-west
+ (- (* guess 60) unix-to-universal-time))))
+ (+ second (* (+ guess (- minwest minwest-guess)) 60)))))))
\f
;;;; TIME
(defmacro time (form)
#!+sb-doc
- "Evaluates the Form and prints timing information on *Trace-Output*."
- `(%time #'(lambda () ,form)))
-
-;;; Try to compile the closure arg to %TIME if it is interpreted.
-(defun massage-time-function (fun)
- (cond
- ((sb!eval:interpreted-function-p fun)
- (multiple-value-bind (def env-p) (function-lambda-expression fun)
- (declare (ignore def))
- (cond
- (env-p
- (warn "non-null environment for TIME form, forced to interpret.~@
- Compiling the entire form will produce more accurate times.")
- fun)
- (t
- (compile nil fun)))))
- (t fun)))
+ "Execute FORM and print timing information on *TRACE-OUTPUT*."
+ `(%time (lambda () ,form)))
;;; Return all the data that we want TIME to report.
(defun time-get-sys-info ()
;;; The guts of the TIME macro. Compute overheads, run the (compiled)
;;; function, report the times.
(defun %time (fun)
- (let ((fun (massage-time-function fun))
- old-run-utime
+ (declare (type function fun))
+ (let (old-run-utime
new-run-utime
old-run-stime
new-run-stime
~S page fault~:P and~% ~
~S bytes consed.~%"
(max (/ (- new-real-time old-real-time)
- (float internal-time-units-per-second))
+ (float sb!xc:internal-time-units-per-second))
0.0)
(max (/ (- new-run-utime old-run-utime) 1000000.0) 0.0)
(max (/ (- new-run-stime old-run-stime) 1000000.0) 0.0)
(unless (zerop gc-run-time)
(/ (float gc-run-time)
- (float internal-time-units-per-second)))
+ (float sb!xc:internal-time-units-per-second)))
(max (- new-page-faults old-page-faults) 0)
(max (- new-bytes-consed old-bytes-consed) 0)))))))