This repository has been archived on 2022-08-10. You can view files and clone it, but cannot push or open issues or pull requests.
chez-openbsd/mats/date.ms

640 lines
23 KiB
Scheme
Raw Normal View History

2022-07-29 15:12:07 +02:00
;;; date.ms
;;; 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.
(mat time
(error? ; wrong number of arguments
(make-time))
(error? ; wrong number of arguments
(make-time 'time-utc))
(error? ; wrong number of arguments
(make-time 'time-utc 17))
(error? ; wrong number of arguments
(make-time 'time-utc 17 0 50))
(error? ; invalid type
(make-time 'time-nonsense 17 0))
(error? ; invalid seconds
(make-time 'time-utc 0 #f))
(error? ; invalid nanoseconds
(make-time 'time-utc -1 17))
(error? ; invalid nanoseconds
(make-time 'time-utc #e1e9 17))
(error? ; invalid nanoseconds
(make-time 'time-utc #f 17))
(error? ; wrong number of arguments
(time?))
(error? ; wrong number of arguments
(time? #f 3))
(begin
(define $time-t1 (make-time 'time-utc (- #e1e9 1) #e1e9))
(and (time? $time-t1) (not (date? $time-t1))))
(error? ; wrong number of arguments
(time-type))
(error? ; wrong number of arguments
(time-type $time-t1 #t))
(error? ; not a time record
(time-type 17))
(error? ; wrong number of arguments
(time-second))
(error? ; wrong number of arguments
(time-second $time-t1 #t))
(error? ; not a time record
(time-second 17))
(error? ; wrong number of arguments
(time-nanosecond))
(error? ; wrong number of arguments
(time-nanosecond $time-t1 #t))
(error? ; not a time record
(time-nanosecond 17))
(error? ; wrong number of arguments
(set-time-type!))
(error? ; wrong number of arguments
(set-time-type! $time-t1))
(error? ; wrong number of arguments
(set-time-type! $time-t1 'time-utc 0))
(error? ; not a time record
(set-time-type! 'time-utc 'time-utc))
(error? ; invalid type
(set-time-type! $time-t1 'time-nonsense))
(error? ; wrong number of arguments
(set-time-second!))
(error? ; wrong number of arguments
(set-time-second! $time-t1))
(error? ; wrong number of arguments
(set-time-second! $time-t1 5000 0))
(error? ; not a time record
(set-time-second! 5000 5000))
(error? ; invalid second
(set-time-second! $time-t1 'time-utc))
(error? ; wrong number of arguments
(set-time-nanosecond!))
(error? ; wrong number of arguments
(set-time-nanosecond! $time-t1))
(error? ; wrong number of arguments
(set-time-nanosecond! $time-t1 5000 0))
(error? ; not a time record
(set-time-nanosecond! 5000 5000))
(error? ; invalid nanosecond
(set-time-nanosecond! $time-t1 -1))
(error? ; invalid nanosecond
(set-time-nanosecond! $time-t1 'time-utc))
(error? ; invalid nanosecond
(set-time-nanosecond! $time-t1 #e1e9))
(error? ; wrong number of arguments
(current-time 'time-utc #t))
(error? ; invalid type
(current-time 'time-nonsense))
(begin
(define $time-t2 (current-time 'time-utc))
(and (time? $time-t2) (not (date? $time-t2))))
(begin
(define $time-t3 (current-time 'time-monotonic))
(and (time? $time-t3) (not (date? $time-t3))))
(begin
(define $time-t4 (current-time 'time-duration))
(and (time? $time-t4) (not (date? $time-t4))))
(begin
(define $time-t5 (current-time 'time-process))
(and (time? $time-t5) (not (date? $time-t5))))
(begin
(define $time-t6 (current-time 'time-thread))
(and (time? $time-t6) (not (date? $time-t6))))
(begin
(define $time-t7 (current-time 'time-collector-cpu))
(and (time? $time-t7) (not (date? $time-t7))))
(begin
(define $time-t8 (current-time 'time-collector-real))
(and (time? $time-t8) (not (date? $time-t8))))
(eqv? (time-type $time-t1) 'time-utc)
(eqv? (time-type $time-t2) 'time-utc)
(eqv? (time-type $time-t3) 'time-monotonic)
(eqv? (time-type $time-t4) 'time-duration)
(eqv? (time-type $time-t5) 'time-process)
(eqv? (time-type $time-t6) 'time-thread)
(eqv? (time-type $time-t7) 'time-collector-cpu)
(eqv? (time-type $time-t8) 'time-collector-real)
(eqv? (time-second $time-t1) #e1e9)
(eqv? (time-nanosecond $time-t1) (- #e1e9 1))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (>= x 0))) (time-second $time-t2))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (>= x 0))) (time-second $time-t3))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (>= x 0))) (time-second $time-t4))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (>= x 0))) (time-second $time-t5))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (>= x 0))) (time-second $time-t6))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (>= x 0))) (time-second $time-t7))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (>= x 0))) (time-second $time-t8))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x (- #e1e9 1)))) (time-nanosecond $time-t2))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x (- #e1e9 1)))) (time-nanosecond $time-t3))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x (- #e1e9 1)))) (time-nanosecond $time-t4))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x (- #e1e9 1)))) (time-nanosecond $time-t5))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x (- #e1e9 1)))) (time-nanosecond $time-t6))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x (- #e1e9 1)))) (time-nanosecond $time-t7))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x (- #e1e9 1)))) (time-nanosecond $time-t8))
(eqv?
(let ([sec (+ (time-second (current-time 'time-thread)) 3)]
[cnt 0]
[ans 0])
(define fib (lambda (x) (if (< x 2) x (+ (fib (- x 1)) (fib (- x 2))))))
(let f ()
(when (< (time-second (current-time 'time-thread)) sec)
(for-each
(lambda (t)
(let ([n (time-nanosecond (current-time t))])
(unless (<= 0 n #e1e9)
(errorf #f "(time-nanosecond (current-time '~s)) = ~s" t n))))
'(time-utc time-monotonic time-duration time-process time-thread))
(set! ans (+ ans (fib 20)))
(set! cnt (+ cnt 1))
(f)))
(/ ans cnt))
6765)
(begin
(set-time-type! $time-t1 'time-monotonic)
(eqv? (time-type $time-t1) 'time-monotonic))
(begin
(set-time-second! $time-t1 3)
(eqv? (time-second $time-t1) 3))
(begin
(set-time-nanosecond! $time-t1 3000)
(eqv? (time-nanosecond $time-t1) 3000))
(error? ; wrong number of arguments
(time=?))
(error? ; wrong number of arguments
(time=? $time-t1))
(error? ; wrong number of arguments
(time=? $time-t1 $time-t1 $time-t1))
(error? ; invalid argument
(time=? $time-t1 3))
(error? ; invalid argument
(time=? car $time-t1))
(error? ; different types
(time=? $time-t4 $time-t5))
(error? ; wrong number of arguments
(time<?))
(error? ; wrong number of arguments
(time<? $time-t1))
(error? ; wrong number of arguments
(time<? $time-t1 $time-t1 $time-t1))
(error? ; invalid argument
(time<? $time-t1 3))
(error? ; invalid argument
(time<? car $time-t1))
(error? ; different types
(time<? $time-t4 $time-t5))
(error? ; wrong number of arguments
(time<=?))
(error? ; wrong number of arguments
(time<=? $time-t1))
(error? ; wrong number of arguments
(time<=? $time-t1 $time-t1 $time-t1))
(error? ; invalid argument
(time<=? $time-t1 3))
(error? ; invalid argument
(time<=? car $time-t1))
(error? ; different types
(time<=? $time-t4 $time-t5))
(error? ; wrong number of arguments
(time>?))
(error? ; wrong number of arguments
(time>? $time-t1))
(error? ; wrong number of arguments
(time>? $time-t1 $time-t1 $time-t1))
(error? ; invalid argument
(time>? $time-t1 3))
(error? ; invalid argument
(time>? car $time-t1))
(error? ; different types
(time>? $time-t4 $time-t5))
(error? ; wrong number of arguments
(time>=?))
(error? ; wrong number of arguments
(time>=? $time-t1))
(error? ; wrong number of arguments
(time>=? $time-t1 $time-t1 $time-t1))
(error? ; invalid argument
(time>=? $time-t1 3))
(error? ; invalid argument
(time>=? car $time-t1))
(error? ; different types
(time>=? $time-t4 $time-t5))
(time=? $time-t1 $time-t1)
(time<=? $time-t1 $time-t1)
(time>=? $time-t1 $time-t1)
(not (time<? $time-t1 $time-t1))
(not (time>? $time-t1 $time-t1))
(equal?
(let ([ta (make-time 'time-duration 200 #e1e19)]
[tb (make-time 'time-duration 300 #e1e20)]
[tc (make-time 'time-duration 300 #e1e20)]
[td (make-time 'time-duration 301 #e1e20)]
[te (make-time 'time-duration 400 #e1e21)])
(define-syntax foo
(syntax-rules ()
[(_ x ...)
(list
(let ([t x])
(list (time<? t x) ...
(time<=? t x) ...
(time=? t x) ...
(time>=? t x) ...
(time>? t x) ...))
...)]))
(foo ta tb tc td te))
'((#f #t #t #t #t
#t #t #t #t #t
#t #f #f #f #f
#t #f #f #f #f
#f #f #f #f #f)
(#f #f #f #t #t
#f #t #t #t #t
#f #t #t #f #f
#t #t #t #f #f
#t #f #f #f #f)
(#f #f #f #t #t
#f #t #t #t #t
#f #t #t #f #f
#t #t #t #f #f
#t #f #f #f #f)
(#f #f #f #f #t
#f #f #f #t #t
#f #f #f #t #f
#t #t #t #t #f
#t #t #t #f #f)
(#f #f #f #f #f
#f #f #f #f #t
#f #f #f #f #t
#t #t #t #t #t
#t #t #t #t #f)))
(error? (time-difference $time-t2 $time-t3))
(error? (add-duration $time-t3 $time-t2))
(error? (subtract-duration $time-t3 $time-t2))
(let ([t (make-time 'time-duration 1000000 -20)])
(and (time? t)
(not (date? t))
(eqv? (time-second t) -20)
(eqv? (time-nanosecond t) 1000000)))
(equal?
(let ([t1 (make-time 'time-process 999999999 7)]
[t2 (make-time 'time-duration 10 2)])
(let ([t3 (add-duration t1 t2)]
[t4 (subtract-duration t1 t2)])
(let ([t5 (time-difference t3 t1)]
[t6 (time-difference t1 t3)]
[t7 (time-difference t1 t4)]
[t8 (time-difference t4 t1)])
(list
(list (time-second t3) (time-nanosecond t3))
(list (time-second t4) (time-nanosecond t4))
(time=? t5 t2)
(list (time-second t6) (time-nanosecond t6))
(time=? t7 t2)
(list (time-second t8) (time-nanosecond t8))))))
'((10 9) (5 999999989) #t (-3 999999990) #t (-3 999999990)))
(error? (copy-time (current-date)))
(begin
(define $new-time-t2 (copy-time $time-t2))
(time? $new-time-t2))
(not (eq? $new-time-t2 $time-t2))
(time=? $new-time-t2 $time-t2)
)
(mat date
(error? ; wrong number of arguments
(make-date))
(error? ; wrong number of arguments
(make-date 0))
(error? ; wrong number of arguments
(make-date 0 0))
(error? ; wrong number of arguments
(make-date 0 0 0))
(error? ; wrong number of arguments
(make-date 0 0 0 0))
(error? ; wrong number of arguments
(make-date 0 0 0 0 1))
(error? ; wrong number of arguments
(make-date 0 0 0 0 1 1))
(error? ; wrong number of arguments
(make-date 0 0 0 0 1 1 2007 0 0))
(error? ; invalid nanosecond
(make-date -1 0 0 0 1 1 2007 0))
(error? ; invalid nanosecond
(make-date #e1e9 0 0 0 1 1 2007 0))
(error? ; invalid nanosecond
(make-date 'zero 0 0 0 1 1 2007 0))
(error? ; invalid second
(make-date 0 -1 0 0 1 1 2007 0))
(error? ; invalid second
(make-date 0 62 0 0 1 1 2007 0))
(error? ; invalid second
(make-date 0 "hello" 0 0 1 1 2007 0))
(error? ; invalid minute
(make-date 0 0 -1 0 1 1 2007 0))
(error? ; invalid minute
(make-date 0 0 60 0 1 1 2007 0))
(error? ; invalid minute
(make-date 0 0 "hello" 0 1 1 2007 0))
(error? ; invalid hour
(make-date 0 0 0 -1 1 1 2007 0))
(error? ; invalid hour
(make-date 0 0 0 24 1 1 2007 0))
(error? ; invalid hour
(make-date 0 0 0 "hello" 1 1 2007 0))
(error? ; invalid day
(make-date 0 0 0 0 0 1 2007 0))
(error? ; invalid day
(make-date 0 0 0 0 32 1 2007 0))
(error? ; invalid day
(make-date 0 0 0 0 31 11 2007 0))
(error? ; invalid day
(make-date 0 0 0 0 29 2 2007 0))
(error? ; invalid day
(make-date 0 0 0 0 "hello" 1 2007 0))
(error? ; invalid month
(make-date 0 0 0 0 1 0 2007 0))
(error? ; invalid month
(make-date 0 0 0 0 1 13 2007 0))
(error? ; invalid month
(make-date 0 0 0 0 1 'eleven 2007 0))
(error? ; invalid year
(make-date 0 0 0 0 1 1 'mmvii 0))
(error? ; invalid tz
(make-date 0 0 0 0 1 1 2007 (* -25 60 60)))
(error? ; invalid tz
(make-date 0 0 0 0 1 1 2007 (* 25 60 60)))
(error? ; invalid tz
(make-date 0 0 0 0 1 1 2007 'est))
(error? ; invalid tz
(make-date 0 0 0 0 1 1 2007 "est"))
(error? ; wrong number of arguments
(date?))
(error? ; wrong number of arguments
(date? #f 3))
(begin
(define $date-d1 (make-date 1 2 3 4 5 6 1970 8))
(and (date? $date-d1) (not (time? $date-d1))))
(error? ; wrong number of arguments
(date-nanosecond))
(error? ; wrong number of arguments
(date-nanosecond $date-d1 #t))
(error? ; not a date record
(date-nanosecond 17))
(error? ; not a date record
(date-nanosecond $time-t1))
(error? ; wrong number of arguments
(date-nanosecond))
(error? ; wrong number of arguments
(date-nanosecond $date-d1 #t))
(error? ; not a date record
(date-nanosecond 17))
(error? ; not a date record
(date-nanosecond $time-t1))
(error? ; wrong number of arguments
(date-second))
(error? ; wrong number of arguments
(date-second $date-d1 #t))
(error? ; not a date record
(date-second 17))
(error? ; not a date record
(date-second $time-t1))
(error? ; wrong number of arguments
(date-minute))
(error? ; wrong number of arguments
(date-minute $date-d1 #t))
(error? ; not a date record
(date-minute 17))
(error? ; not a date record
(date-minute $time-t1))
(error? ; wrong number of arguments
(date-hour))
(error? ; wrong number of arguments
(date-hour $date-d1 #t))
(error? ; not a date record
(date-hour 17))
(error? ; not a date record
(date-hour $time-t1))
(error? ; wrong number of arguments
(date-day))
(error? ; wrong number of arguments
(date-day $date-d1 #t))
(error? ; not a date record
(date-day 17))
(error? ; not a date record
(date-day $time-t1))
(error? ; wrong number of arguments
(date-month))
(error? ; wrong number of arguments
(date-month $date-d1 #t))
(error? ; not a date record
(date-month 17))
(error? ; not a date record
(date-month $time-t1))
(error? ; wrong number of arguments
(date-year))
(error? ; wrong number of arguments
(date-year $date-d1 #t))
(error? ; not a date record
(date-year 17))
(error? ; not a date record
(date-year $time-t1))
(error? ; wrong number of arguments
(date-week-day))
(error? ; wrong number of arguments
(date-week-day $date-d1 #t))
(error? ; not a date record
(date-week-day 17))
(error? ; not a date record
(date-week-day $time-t1))
(error? ; wrong number of arguments
(date-year-day))
(error? ; wrong number of arguments
(date-year-day $date-d1 #t))
(error? ; not a date record
(date-year-day 17))
(error? ; not a date record
(date-year-day $time-t1))
(error? ; wrong number of arguments
(date-dst?))
(error? ; wrong number of arguments
(date-dst? $date-d1 #t))
(error? ; not a date record
(date-dst? 17))
(error? ; not a date record
(date-dst? $time-t1))
(error? ; wrong number of arguments
(date-zone-offset))
(error? ; wrong number of arguments
(date-zone-offset $date-d1 #t))
(error? ; not a date record
(date-zone-offset 17))
(error? ; not a date record
(date-zone-offset $time-t1))
(error? ; wrong number of arguments
(date-zone-name))
(error? ; wrong number of arguments
(date-zone-name $date-d1 #t))
(error? ; not a date record
(date-zone-name 17))
(error? ; not a date record
(date-zone-name $time-t1))
(error? ; wrong number of arguments
(current-date 0 #t))
(error? ; invalid offset
(current-date (* -25 60 60)))
(error? ; invalid offset
(current-date (* 25 60 60)))
(begin
(define $date-d2 (current-date))
(and (date? $date-d2) (not (time? $date-d2))))
(begin
(define $date-d3 (current-date (* -5 60 60)))
(and (date? $date-d3) (not (time? $date-d3))))
(begin
(define $date-d4 (current-date (* 10 60 60)))
(and (date? $date-d4) (not (time? $date-d4))))
(begin
(define $date-d5 (make-date 0 1 1 1 15 6 2016))
(and (date? $date-d5) (not (time? $date-d5))))
(date? (make-date 0 0 0 0 1 1 1970 -24))
(date? (make-date 999999999 59 59 23 31 12 2007 24))
(eqv? (date-nanosecond $date-d1) 1)
(eqv? (date-second $date-d1) 2)
(eqv? (date-minute $date-d1) 3)
(eqv? (date-hour $date-d1) 4)
(eqv? (date-day $date-d1) 5)
(eqv? (date-month $date-d1) 6)
(eqv? (date-year $date-d1) 1970)
(eqv? (date-zone-offset $date-d1) 8)
(boolean? (date-dst? $date-d5))
(fixnum? (date-zone-offset $date-d5))
(eqv? (date-zone-name $date-d1) #f)
(or (string? (date-zone-name $date-d2))
(not (date-zone-name $date-d2)))
(eqv? (date-zone-name $date-d3) #f)
(eqv? (date-zone-name $date-d4) #f)
(or (string? (date-zone-name $date-d5))
(not (date-zone-name $date-d5)))
(begin
(define (plausible-dst? d)
;; Recognize a few time zone names and correlate with the DST field.
;; Names like "EST" appear on Unix variants, while the long names
;; show up on Windows.
(cond
[(member (date-zone-name d) '("EST" "CST" "MST" "PST"
"Eastern Standard Time"
"Central Standard Time"
"Mountain Standard Time"
"Pacific Standard Time"))
(eqv? (date-dst? d) #f)]
[(member (date-zone-name d) '("EDT" "CDT" "MDT" "PDT"
"Eastern Daylight Time"
"Central Daylight Time"
"Mountain Daylight Time"
"Pacific Daylight Time"))
(eqv? (date-dst? d) #t)]
[else #t]))
(plausible-dst? $date-d5))
(begin
(define $date-d6 (make-date 0 1 1 1 15 1 2016))
(plausible-dst? $date-d6))
; check whether tz offsets are set according to DST, assuming that
; DST always means a 1-hour shift
(let ([delta (time-second (time-difference (date->time-utc $date-d5)
(date->time-utc $date-d6)))]
[no-dst-delta (* 152 24 60 60)]; 152 days
[hour-delta (* 60 60)])
(cond
[(and (date-dst? $date-d5) (not (date-dst? $date-d6)))
;; Northern-hemisphere DST reduces delta
(= delta (- no-dst-delta hour-delta))]
[(and (not (date-dst? $date-d5)) (date-dst? $date-d6))
;; Southern-hemisphere DST increases delta
(= delta (+ no-dst-delta hour-delta))]
[else
;; No DST or always DST
(= delta no-dst-delta)]))
; check to make sure dst isn't screwing with our explicitly created dates
; when we call mktime to fill in wday and yday
(let f ([mon 1])
(or (= mon 13)
(and (andmap
(lambda (day)
(let ([d (make-date 5 6 7 8 day mon 2007 -18000)])
(and (eqv? (date-nanosecond d) 5)
(eqv? (date-second d) 6)
(eqv? (date-minute d) 7)
(eqv? (date-hour d) 8)
(eqv? (date-day d) day)
(eqv? (date-month d) mon)
(eqv? (date-year d) 2007)
(eqv? (date-zone-offset d) -18000))))
'(5 10 15 20 25))
(f (+ mon 1)))))
(eqv? (date-zone-offset $date-d3) (* -5 60 60))
(eqv? (date-zone-offset $date-d4) (* 10 60 60))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x 999999999))) (date-nanosecond $date-d2))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x 999999999))) (date-nanosecond $date-d3))
((lambda (x) (and (or (fixnum? x) (bignum? x)) (<= 0 x 999999999))) (date-nanosecond $date-d4))
((lambda (x) (and (fixnum? x) (<= 0 x 61))) (date-second $date-d2))
((lambda (x) (and (fixnum? x) (<= 0 x 61))) (date-second $date-d3))
((lambda (x) (and (fixnum? x) (<= 0 x 61))) (date-second $date-d4))
((lambda (x) (and (fixnum? x) (<= 0 x 59))) (date-minute $date-d2))
((lambda (x) (and (fixnum? x) (<= 0 x 59))) (date-minute $date-d3))
((lambda (x) (and (fixnum? x) (<= 0 x 59))) (date-minute $date-d4))
((lambda (x) (and (fixnum? x) (<= 0 x 23))) (date-hour $date-d2))
((lambda (x) (and (fixnum? x) (<= 0 x 23))) (date-hour $date-d3))
((lambda (x) (and (fixnum? x) (<= 0 x 23))) (date-hour $date-d4))
((lambda (x) (and (fixnum? x) (<= 1 x 31))) (date-day $date-d2))
((lambda (x) (and (fixnum? x) (<= 1 x 31))) (date-day $date-d3))
((lambda (x) (and (fixnum? x) (<= 1 x 31))) (date-day $date-d4))
((lambda (x) (and (fixnum? x) (<= 1 x 12))) (date-month $date-d2))
((lambda (x) (and (fixnum? x) (<= 1 x 12))) (date-month $date-d3))
((lambda (x) (and (fixnum? x) (<= 1 x 12))) (date-month $date-d4))
((lambda (x) (and (fixnum? x) (<= 1900 x 2038))) (date-year $date-d2))
((lambda (x) (and (fixnum? x) (<= 1900 x 2038))) (date-year $date-d3))
((lambda (x) (and (fixnum? x) (<= 1900 x 2038))) (date-year $date-d4))
(let ([s (date-and-time)])
(and (fixnum? (read (open-input-string (substring s 8 10))))
(fixnum? (read (open-input-string (substring s 20 24))))))
(let ([d (current-date)])
(let ([s (date-and-time d)])
(and (= (read (open-input-string (substring s 8 10))) (date-day d))
(= (read (open-input-string (substring s 11 13))) (date-hour d))
(= (read (open-input-string (substring s 20 24))) (date-year d)))))
)
(mat conversions/sleep
(error? (date->time-utc (current-time)))
(error? (time-utc->date (current-date)))
(error? (sleep 20))
(time? (date->time-utc (current-date)))
(date? (time-utc->date (current-time 'time-utc)))
(let ([t (current-time 'time-utc)])
(sleep (make-time 'time-duration 0 1))
(time<? t (date->time-utc (current-date))))
(let ([t (current-time)])
(and
(time=? (date->time-utc (time-utc->date t)) t)
(time=? (date->time-utc (time-utc->date t -86400)) t)
(time=? (date->time-utc (time-utc->date t 0)) t)
(time=? (date->time-utc (time-utc->date t 86400)) t)))
)
(mat time&date-printing
(equal?
(with-output-to-string (lambda () (pretty-print (make-time 'time-duration 1 -1))))
"#<time-duration -0.999999999>\n")
(equal?
(with-output-to-string (lambda () (write (time-utc->date (make-time 'time-utc 708626501 1427137297) -14400))))
"#<date Mon Mar 23 15:01:37 2015>")
)