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chez-openbsd/ta6ob/s/date.ss

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2022-08-09 23:28:25 +02:00
;;; date.ss
;;; Copyright 1984-2017 Cisco Systems, Inc.
;;;
;;; Licensed under the Apache License, Version 2.0 (the "License");
;;; you may not use this file except in compliance with the License.
;;; You may obtain a copy of the License at
;;;
;;; http://www.apache.org/licenses/LICENSE-2.0
;;;
;;; Unless required by applicable law or agreed to in writing, software
;;; distributed under the License is distributed on an "AS IS" BASIS,
;;; WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
;;; See the License for the specific language governing permissions and
;;; limitations under the License.
;;; disagreements with SRFI 19:
;;; - nanoseconds are limited to 999,999,999 (SRFI 19: 9,999,999)
;;; - seconds are limited to 61 (SRFI 19: 60)
;;; - days range from 1 to 31, inclusive (SRFI 19: 0 to 31, inclusive)
;;; - years range from 1901 to about 2038, inclusive (SRFI 19: not clear)
;;; - years start at 1970 under Windows
;;; - current-date tz-offset defaults to local offset (SRFI 19: not specified)
;;; questions about SRFI 19:
;;; - must tai times be supported?
;;; can't read past copyright notice in srfi 19 reference implementation.
;;; is it really as restrictive as it appears?
;;; suck in srfi 19 tests, which seem only to be covered by license in
;;; srfi 19 description.
;;; won't be implemented from SRFI 19 except as add-on:
;;; - constants time-duration, time-monotonic, time-process, time-tai,
;;; time-thread, and time-utc (violates no non-procedure value policy)
;;; not yet implemented from SRFI 19:
;;; - time procedures
;;; time-resolution [ts-time]
;;; time-monotonic->time-utc ; may be impossible unless we roll our own
;;; time-monotonic->time-utc! ; monotonic (= tai) based on utc plus leap
;;; time-utc->time-monotonic ; seconds. yuck.
;;; time-utc->time-monotonic!
;;; - date procedures
;;; date-week-number
;;; date->time-monotonic
;;; time-monotonic->date
;;; date->string
;;; string->date
;;; - julian dates
;;; current-julian-day
;;; current-modified-julian-day
;;; date->julian-day
;;; date->modified-julian-day
;;; julian-day->date
;;; julian-day->time-monotonic
;;; julian-day->time-utc
;;; modified-julian-day->date
;;; modified-julian-day->time-monotonic
;;; modified-julian-day->time-utc
;;; time-monotonic->julian-day
;;; time-monotonic->modified-julian-day
;;; time-utc->julian-day
;;; time-utc->modified-julian-day
;;; - tai times
;;; ts-type 'time-tai
;;; date->time-tai
;;; time-monotonic->time-tai
;;; time-monotonic->time-tai!
;;; time-tai->date
;;; time-tai->time-monotonic
;;; time-tai->time-monotonic!
;;; time-tai->time-utc
;;; time-tai->time-utc!
;;; time-utc->time-tai
;;; time-utc->time-tai!
;;; julian-day->time-tai
;;; modified-julian-day->time-tai
;;; time-tai->julian-day
;;; time-tai->modified-julian-day
(let ()
(define $clock-gettime ; clock_id -> tspair
(foreign-procedure "(cs)clock_gettime"
(integer-32)
scheme-object))
(define $gmtime ; #f|tzoff X #f|tspair -> dtvec (returns #f on error)
(foreign-procedure "(cs)gmtime"
(scheme-object scheme-object)
scheme-object))
(define $asctime ; #f | dtvec -> string (returns #f on error)
(foreign-procedure "(cs)asctime"
(scheme-object)
scheme-object))
(define $mktime ; dtvec -> tspair (returns #f on error)
(foreign-procedure "(cs)mktime"
(scheme-object)
scheme-object))
(define-record-type ts ; keep in sync with S_condition_wait in c/thread.c
(fields (mutable typeno) (immutable pair))
(nongenerative #{ts a5dq4nztnmq6xlgp-a})
(sealed #t))
(define ts-type->typeno
(lambda (who type)
(case type
[(time-process) (constant time-process)]
[(time-thread) (constant time-thread)]
[(time-duration) (constant time-duration)]
[(time-monotonic) (constant time-monotonic)]
[(time-utc) (constant time-utc)]
[(time-collector-cpu) (constant time-collector-cpu)]
[(time-collector-real) (constant time-collector-real)]
[else ($oops who "unrecognized time type ~s" type)])))
(define ts-typeno->type
(lambda (typeno)
(cond
[(eq? typeno (constant time-process)) 'time-process]
[(eq? typeno (constant time-thread)) 'time-thread]
[(eq? typeno (constant time-duration)) 'time-duration]
[(eq? typeno (constant time-monotonic)) 'time-monotonic]
[(eq? typeno (constant time-utc)) 'time-utc]
[(eq? typeno (constant time-collector-cpu)) 'time-collector-cpu]
[(eq? typeno (constant time-collector-real)) 'time-collector-real]
[else ($oops 'time-internal "unexpected typeno ~s" typeno)])))
(define ts-sec (lambda (ts) (car (ts-pair ts))))
(define ts-nsec (lambda (ts) (cdr (ts-pair ts))))
(define set-ts-sec! (lambda (ts n) (set-car! (ts-pair ts) n)))
(define set-ts-nsec! (lambda (ts n) (set-cdr! (ts-pair ts) n)))
(define (check-ts who ts)
(unless (ts? ts)
($oops who "~s is not a time record" ts)))
(define (check-ts-sec who sec)
(unless (or (fixnum? sec) (bignum? sec))
($oops who "invalid number of seconds ~s" sec)))
(define (check-same-type who t1 t2)
(unless (fx= (ts-typeno t1) (ts-typeno t2))
($oops who "types of ~s and ~s differ" t1 t2)))
(define (check-type-duration who t)
(unless (fx= (ts-typeno t) (constant time-duration))
($oops who "~s does not have type time-duration" t)))
(define-record-type dt
(fields (immutable vec))
(nongenerative #{dt a5jhglnb7tr8ubed-a})
(sealed #t))
(define (check-dt who dt)
(unless (dt? dt)
($oops who "~s is not a date record" dt)))
(define (check-nsec who nsec)
(unless (and (or (fixnum? nsec) (bignum? nsec)) (<= 0 nsec 999999999))
($oops who "invalid nanosecond ~s" nsec)))
(define (check-sec who sec)
(unless (and (fixnum? sec) (fx<= 0 sec 61))
($oops who "invalid second ~s" sec)))
(define (check-min who min)
(unless (and (fixnum? min) (fx<= 0 min 59))
($oops who "invalid minute ~s" min)))
(define (check-hour who hour)
(unless (and (fixnum? hour) (fx<= 0 hour 23))
($oops who "invalid hour ~s" hour)))
(define (check-day who day)
(unless (and (fixnum? day) (fx<= 1 day 31))
($oops who "invalid day ~s" day)))
(define (check-mon who mon)
(unless (and (fixnum? mon) (fx<= 1 mon 12))
($oops who "invalid month ~s" mon)))
(define (check-year who year)
(unless (and (fixnum? year) (fx>= year 1901))
($oops who "invalid year ~s" year)))
(define (check-tz who tz)
(unless (and (fixnum? tz)
; being generous here...
(fx<= (* -24 60 60) tz (* 24 60 60)))
($oops who "invalid time-zone offset ~s" tz)))
(define $copy-time
(lambda (t)
(let ([p (ts-pair t)])
(make-ts (ts-typeno t) (cons (car p) (cdr p))))))
(record-writer (type-descriptor ts)
(lambda (x p wr)
(let ([type (ts-typeno->type (ts-typeno x))] [sec (ts-sec x)] [nsec (ts-nsec x)])
(if (and (< sec 0) (> nsec 0))
(fprintf p "#<~s -~d.~9,'0d>" type (- -1 sec) (- 1000000000 nsec))
(fprintf p "#<~s ~d.~9,'0d>" type sec nsec)))))
(record-writer (type-descriptor dt)
(lambda (x p wr)
(fprintf p "#<date~@[ ~a~]>"
($asctime (dt-vec x)))))
(set-who! make-time
(lambda (type nsec sec)
(let ([typeno (ts-type->typeno who type)])
(check-nsec who nsec)
(check-ts-sec who sec)
(make-ts typeno (cons sec nsec)))))
(set! time? (lambda (x) (ts? x)))
(set-who! time-type
(lambda (ts)
(check-ts who ts)
(ts-typeno->type (ts-typeno ts))))
(set-who! time-second
(lambda (ts)
(check-ts who ts)
(ts-sec ts)))
(set-who! time-nanosecond
(lambda (ts)
(check-ts who ts)
(ts-nsec ts)))
(set-who! set-time-type!
(lambda (ts type)
(check-ts who ts)
(ts-typeno-set! ts (ts-type->typeno who type))))
(set-who! set-time-second!
(lambda (ts sec)
(check-ts who ts)
(check-ts-sec who sec)
(set-ts-sec! ts sec)))
(set-who! set-time-nanosecond!
(lambda (ts nsec)
(check-ts who ts)
(check-nsec who nsec)
(set-ts-nsec! ts nsec)))
(set-who! time=?
(lambda (t1 t2)
(check-ts who t1)
(check-ts who t2)
(check-same-type who t1 t2)
(and (= (ts-sec t1) (ts-sec t2))
(= (ts-nsec t1) (ts-nsec t2)))))
(set-who! time<?
(lambda (t1 t2)
(check-ts who t1)
(check-ts who t2)
(check-same-type who t1 t2)
(or (< (ts-sec t1) (ts-sec t2))
(and (= (ts-sec t1) (ts-sec t2))
(< (ts-nsec t1) (ts-nsec t2))))))
(set-who! time<=?
(lambda (t1 t2)
(check-ts who t1)
(check-ts who t2)
(check-same-type who t1 t2)
(or (< (ts-sec t1) (ts-sec t2))
(and (= (ts-sec t1) (ts-sec t2))
(<= (ts-nsec t1) (ts-nsec t2))))))
(set-who! time>=?
(lambda (t1 t2)
(check-ts who t1)
(check-ts who t2)
(check-same-type who t1 t2)
(or (> (ts-sec t1) (ts-sec t2))
(and (= (ts-sec t1) (ts-sec t2))
(>= (ts-nsec t1) (ts-nsec t2))))))
(set-who! time>?
(lambda (t1 t2)
(check-ts who t1)
(check-ts who t2)
(check-same-type who t1 t2)
(or (> (ts-sec t1) (ts-sec t2))
(and (= (ts-sec t1) (ts-sec t2))
(> (ts-nsec t1) (ts-nsec t2))))))
(let ([f (lambda (t1 t2 who)
(check-ts who t1)
(check-ts who t2)
(check-same-type who t1 t2)
(let-values ([(sec nsec)
(let ([sec (- (ts-sec t1) (ts-sec t2))]
[nsec (- (ts-nsec t1) (ts-nsec t2))])
(if (< nsec 0) (values (- sec 1) (+ nsec 1000000000)) (values sec nsec)))])
(make-ts (constant time-duration) (cons sec nsec))))])
(set-who! time-difference (lambda (t1 t2) (f t1 t2 who)))
(set-who! time-difference! (lambda (t1 t2) (f t1 t2 who))))
(let ([f (lambda (t1 t2 who)
(check-ts who t1)
(check-ts who t2)
(check-type-duration who t2)
(let-values ([(sec nsec)
(let ([sec (- (ts-sec t1) (ts-sec t2))]
[nsec (- (ts-nsec t1) (ts-nsec t2))])
(if (< nsec 0) (values (- sec 1) (+ nsec 1000000000)) (values sec nsec)))])
(make-ts (ts-typeno t1) (cons sec nsec))))])
(set-who! subtract-duration (lambda (t1 t2) (f t1 t2 who)))
(set-who! subtract-duration! (lambda (t1 t2) (f t1 t2 who))))
(let ([f (lambda (t1 t2 who)
(check-ts who t1)
(check-ts who t2)
(check-type-duration who t2)
(let-values ([(sec nsec)
(let ([sec (+ (time-second t1) (time-second t2))]
[nsec (+ (time-nanosecond t1) (time-nanosecond t2))])
(if (>= nsec 1000000000) (values (+ sec 1) (- nsec 1000000000)) (values sec nsec)))])
(make-ts (ts-typeno t1) (cons sec nsec))))])
(set-who! add-duration (lambda (t1 t2) (f t1 t2 who)))
(set-who! add-duration! (lambda (t1 t2) (f t1 t2 who))))
(set-who! copy-time
(lambda (t)
(check-ts who t)
($copy-time t)))
(set-who! current-time
(case-lambda
[() (let ([typeno (constant time-utc)])
(make-ts typeno ($clock-gettime typeno)))]
[(type)
(case type
[(time-collector-cpu) ($copy-time ($gc-cpu-time))]
[(time-collector-real) ($copy-time ($gc-real-time))]
[else (let ([typeno (ts-type->typeno who type)])
(make-ts typeno ($clock-gettime typeno)))])]))
(set-who! current-date
(case-lambda
[()
(let ([dtvec ($gmtime #f #f)])
(unless dtvec ($oops who "failed"))
(make-dt dtvec))]
[(tz)
(check-tz who tz)
(let ([dtvec ($gmtime tz #f)])
(unless dtvec ($oops who "failed"))
(make-dt dtvec))]))
(set-who! date-and-time ; ptime|#f -> string
(case-lambda
[() (or ($asctime #f) ($oops who "failed"))]
[(dt)
(check-dt who dt)
(or ($asctime (dt-vec dt))
($oops who "failed for date record ~s" dt))]))
(set-who! make-date
(let ([do-make-date
(lambda (nsec sec min hour day mon year tz tz-provided?)
(check-nsec who nsec)
(check-sec who sec)
(check-min who min)
(check-hour who hour)
; need more accurate check for day based on year and month
(check-day who day)
(check-mon who mon)
(check-year who year)
(when tz-provided?
(check-tz who tz))
; keep in sync with cmacros.ss declarations of dtvec-nsec, etc.
(let ([dtvec (vector nsec sec min hour day mon (- year 1900) 0 #f 0 tz #f)])
(unless ($mktime dtvec) ; for effect on dtvec
($oops who "invalid combination of arguments"))
(unless (fx= (vector-ref dtvec (constant dtvec-mday)) day)
($oops who "invalid day ~s for month ~s and year ~s" day mon year))
(make-dt dtvec)))])
(case-lambda
[(nsec sec min hour day mon year tz)
(do-make-date nsec sec min hour day mon year tz #t)]
[(nsec sec min hour day mon year)
(do-make-date nsec sec min hour day mon year #f #f)])))
(set! date? (lambda (x) (dt? x)))
(let ()
(define-syntax date-getter
(syntax-rules ()
[(_ name index)
(set! name
(lambda (dt)
(check-dt 'name dt)
(vector-ref (dt-vec dt) index)))]))
(date-getter date-nanosecond (constant dtvec-nsec))
(date-getter date-second (constant dtvec-sec))
(date-getter date-minute (constant dtvec-min))
(date-getter date-hour (constant dtvec-hour))
(date-getter date-day (constant dtvec-mday))
(date-getter date-month (constant dtvec-mon))
; date-year is below
(date-getter date-week-day (constant dtvec-wday))
(date-getter date-year-day (constant dtvec-yday))
(date-getter date-dst? (constant dtvec-isdst))
(date-getter date-zone-offset (constant dtvec-tzoff))
(date-getter date-zone-name (constant dtvec-tzname)))
(set-who! date-year
(lambda (dt)
(check-dt who dt)
(+ (vector-ref (dt-vec dt) (constant dtvec-year)) 1900)))
#;(set-who! date-week-number
(lambda (dt dowsw)
(unless (or (eq? dossw 0) (eq? dossw 1))
($oops who "invalid week starting day" dossw))
???))
(set-who! time-utc->date
(case-lambda
[(t)
(unless (and (ts? t) (eq? (ts-typeno t) (constant time-utc)))
($oops who "~s is not a utc time record" t))
(let ([dtvec ($gmtime #f (ts-pair t))])
(unless dtvec ($oops who "failed"))
(make-dt dtvec))]
[(t tz)
(unless (and (ts? t) (eq? (ts-typeno t) (constant time-utc)))
($oops who "~s is not a utc time record" t))
(check-tz who tz)
(let ([dtvec ($gmtime tz (ts-pair t))])
(unless dtvec ($oops who "failed"))
(make-dt dtvec))]))
(set-who! date->time-utc
(lambda (dt)
(check-dt who dt)
(let ([p ($mktime (vector-copy (dt-vec dt)))])
(unless p ($oops who "conversion failed for ~s" dt))
(make-ts (constant time-utc) p))))
)