jolt/host/chez/inst-time.ss
Yogthos 7947918919 Add File .isAbsolute and the default #inst/#uuid data readers
jfile lacked .isAbsolute (path starts with /). clojure.core/default-data-readers
and *data-readers* were nil, so a library merging them (aero's reader opts)
couldn't resolve #inst. Define them keyed by symbol, like Clojure.
2026-06-24 11:03:34 -04:00

398 lines
23 KiB
Scheme

;; #inst values + a java.time formatting shim.
;;
;; A #inst literal lowers (analyzer :inst node -> emit) to (jolt-inst-from-string
;; "…"); this file parses the RFC3339 string to epoch-ms and models the value as a
;; `jinst` record (one flonum field, ms). Equality / map-key hashing are by the
;; INSTANT (offset-normalized). The overlay inst?/inst-ms read (get x :jolt/type)/(get x :ms),
;; so jolt-get answers those off a jinst — the overlay fns then work unchanged.
;;
;; The java.time surface (DateTimeFormatter/Instant/ZoneId/LocalDateTime/
;; FormatStyle/Locale + the .format/.atZone/.toInstant/… methods) is
;; registered through host-static.ss's class-statics / host-
;; methods registries — so this loads LAST in rt.ss, after host-static.ss and io.ss.
;; --- civil <-> days since the Unix epoch (Howard Hinnant's algorithms) -------
;; No portable UTC mktime on Chez, so compute epoch days directly from y/m/d.
(define (days-from-civil y m d)
(let* ((y2 (if (<= m 2) (- y 1) y))
(era (quotient (if (>= y2 0) y2 (- y2 399)) 400))
(yoe (- y2 (* era 400)))
(doy (+ (quotient (+ (* 153 (+ m (if (> m 2) -3 9))) 2) 5) (- d 1)))
(doe (+ (* yoe 365) (quotient yoe 4) (- (quotient yoe 100)) doy)))
(+ (* era 146097) doe -719468)))
(define (civil-from-days z) ; -> (values year month day)
(let* ((z2 (+ z 719468))
(era (quotient (if (>= z2 0) z2 (- z2 146096)) 146097))
(doe (- z2 (* era 146097)))
(yoe (quotient (+ doe (- (quotient doe 1460)) (quotient doe 36524) (- (quotient doe 146096))) 365))
(y (+ yoe (* era 400)))
(doy (- doe (+ (* 365 yoe) (quotient yoe 4) (- (quotient yoe 100)))))
(mp (quotient (+ (* 5 doy) 2) 153))
(d (+ (- doy (quotient (+ (* 153 mp) 2) 5)) 1))
(m (+ mp (if (< mp 10) 3 -9))))
(values (if (<= m 2) (+ y 1) y) m d)))
;; --- RFC3339 parse: yyyy[-MM[-dd[Thh[:mm[:ss[.fff]]]]]][Z|±hh:mm] -> ms -------
(define-record-type jinst (fields ms) (nongenerative chez-jinst-v1))
(define (digit? c) (and (char>=? c #\0) (char<=? c #\9)))
(define (digits-at s i n) ; n digits from i -> integer, or #f
(and (<= (+ i n) (string-length s))
(let loop ((j i) (acc 0))
(if (= j (+ i n))
acc
(and (digit? (string-ref s j))
(loop (+ j 1) (+ (* acc 10) (- (char->integer (string-ref s j)) 48))))))))
(define (jolt-inst-from-string ts)
(define len (string-length ts))
(define (fail) (error #f (string-append "Unrecognized #inst timestamp: " ts)))
(let* ((year (or (digits-at ts 0 4) (fail)))
(i 4) (month 1) (day 1) (hh 0) (mm 0) (ss 0) (frac-ms 0) (off-s 0))
;; -MM
(when (and (< i len) (char=? (string-ref ts i) #\-) (digits-at ts (+ i 1) 2))
(set! month (digits-at ts (+ i 1) 2)) (set! i (+ i 3)))
;; -dd
(when (and (< i len) (char=? (string-ref ts i) #\-) (digits-at ts (+ i 1) 2))
(set! day (digits-at ts (+ i 1) 2)) (set! i (+ i 3)))
;; Thh
(when (and (< i len) (or (char=? (string-ref ts i) #\T) (char=? (string-ref ts i) #\t))
(digits-at ts (+ i 1) 2))
(set! hh (digits-at ts (+ i 1) 2)) (set! i (+ i 3))
;; :mm
(when (and (< i len) (char=? (string-ref ts i) #\:) (digits-at ts (+ i 1) 2))
(set! mm (digits-at ts (+ i 1) 2)) (set! i (+ i 3))
;; :ss
(when (and (< i len) (char=? (string-ref ts i) #\:) (digits-at ts (+ i 1) 2))
(set! ss (digits-at ts (+ i 1) 2)) (set! i (+ i 3))
;; .fff (truncate beyond 3)
(when (and (< i len) (char=? (string-ref ts i) #\.))
(let loop ((j (+ i 1)) (k 0) (acc 0))
(if (and (< j len) (digit? (string-ref ts j)))
(loop (+ j 1) (+ k 1) (if (< k 3) (+ (* acc 10) (- (char->integer (string-ref ts j)) 48)) acc))
(begin
(set! frac-ms (* acc (expt 10 (max 0 (- 3 k)))))
(set! i j))))))))
;; offset Z | ±hh:mm
(when (< i len)
(let ((c (string-ref ts i)))
(cond
((or (char=? c #\Z) (char=? c #\z)) (set! i (+ i 1)))
((or (char=? c #\+) (char=? c #\-))
(let ((oh (digits-at ts (+ i 1) 2)) (om (digits-at ts (+ i 4) 2)))
(unless (and oh om (char=? (string-ref ts (+ i 3)) #\:)) (fail))
(set! off-s (* (if (char=? c #\-) -1 1) (+ (* oh 3600) (* om 60))))
(set! i (+ i 6))))
(else (fail)))))
(unless (= i len) (fail))
(let ((base-s (+ (* (days-from-civil year month day) 86400) (* hh 3600) (* mm 60) ss)))
(make-jinst (- (+ (* base-s 1000) frac-ms) (* off-s 1000))))))
;; --- canonical print form: yyyy-MM-ddThh:mm:ss.fff-00:00 (UTC) ---------------
(define (pad2 n) (if (< n 10) (string-append "0" (number->string n)) (number->string n)))
(define (pad4 n) (let ((s (number->string n))) (string-append (make-string (max 0 (- 4 (string-length s))) #\0) s)))
(define (pad3 n) (let ((s (number->string n))) (string-append (make-string (max 0 (- 3 (string-length s))) #\0) s)))
(define (inst-floor-div a b) (let ((q (quotient a b)) (r (remainder a b))) (if (and (not (= r 0)) (< (* a b) 0)) (- q 1) q)))
(define (inst-floor-mod a b) (- a (* (inst-floor-div a b) b)))
(define (inst-fields ms) ; -> list (y mo d hh mm ss frac dow)
(let* ((total-s (inst-floor-div (exact (truncate ms)) 1000))
(frac (- (exact (truncate ms)) (* total-s 1000)))
(days (inst-floor-div total-s 86400))
(sod (inst-floor-mod total-s 86400))
(hh (quotient sod 3600)) (mm (quotient (remainder sod 3600) 60)) (ss (remainder sod 60))
(dow (inst-floor-mod (+ days 4) 7))) ; 1970-01-01 = Thursday; 0=Sunday
(call-with-values (lambda () (civil-from-days days))
(lambda (y mo d) (list y mo d hh mm ss frac dow)))))
(define (inst-rfc3339 inst)
(let ((f (inst-fields (jinst-ms inst))))
(string-append (pad4 (list-ref f 0)) "-" (pad2 (list-ref f 1)) "-" (pad2 (list-ref f 2))
"T" (pad2 (list-ref f 3)) ":" (pad2 (list-ref f 4)) ":" (pad2 (list-ref f 5))
"." (pad3 (list-ref f 6)) "-00:00")))
;; --- DateTimeFormatter pattern engine -----
(define month-names (vector "January" "February" "March" "April" "May" "June" "July"
"August" "September" "October" "November" "December"))
(define day-names (vector "Sunday" "Monday" "Tuesday" "Wednesday" "Thursday" "Friday" "Saturday"))
(define (format-ms pattern ms)
(let ((f (inst-fields ms)) (n (string-length pattern)) (out (open-output-string)))
(let ((y (list-ref f 0)) (mo (list-ref f 1)) (d (list-ref f 2))
(hh (list-ref f 3)) (mi (list-ref f 4)) (se (list-ref f 5)) (dow (list-ref f 7)))
(define (run-len i c) (let loop ((j i)) (if (and (< j n) (char=? (string-ref pattern j) c)) (loop (+ j 1)) (- j i))))
(let loop ((i 0))
(when (< i n)
(let* ((c (string-ref pattern i)) (k (run-len i c)))
(cond
((char=? c #\')
(if (and (< (+ i 1) n) (char=? (string-ref pattern (+ i 1)) #\'))
(begin (write-char #\' out) (loop (+ i 2)))
(let close ((j (+ i 1)))
(cond ((>= j n) (loop j))
((char=? (string-ref pattern j) #\') (loop (+ j 1)))
(else (write-char (string-ref pattern j) out) (close (+ j 1)))))))
((char=? c #\y) (display (if (>= k 4) (number->string y) (pad2 (modulo y 100))) out) (loop (+ i k)))
((char=? c #\M)
(display (cond ((= k 1) (number->string mo)) ((= k 2) (pad2 mo))
((= k 3) (substring (vector-ref month-names (- mo 1)) 0 3))
(else (vector-ref month-names (- mo 1)))) out)
(loop (+ i k)))
((char=? c #\d) (display (if (= k 1) (number->string d) (pad2 d)) out) (loop (+ i k)))
((char=? c #\E)
(display (if (>= k 4) (vector-ref day-names dow) (substring (vector-ref day-names dow) 0 3)) out)
(loop (+ i k)))
((char=? c #\H) (display (if (= k 1) (number->string hh) (pad2 hh)) out) (loop (+ i k)))
((char=? c #\h)
(let ((h12 (let ((h (modulo hh 12))) (if (= h 0) 12 h))))
(display (if (= k 1) (number->string h12) (pad2 h12)) out)) (loop (+ i k)))
((char=? c #\m) (display (if (= k 1) (number->string mi) (pad2 mi)) out) (loop (+ i k)))
((char=? c #\s) (display (if (= k 1) (number->string se) (pad2 se)) out) (loop (+ i k)))
((char=? c #\a) (display (if (< hh 12) "AM" "PM") out) (loop (+ i k)))
;; timezone — format-ms renders UTC, the HTTP zone is GMT: z/zzz -> GMT,
;; Z (RFC822) -> +0000, X (ISO) -> Z.
((char=? c #\z) (display "GMT" out) (loop (+ i k)))
((char=? c #\Z) (display "+0000" out) (loop (+ i k)))
((char=? c #\X) (display "Z" out) (loop (+ i k)))
(else (write-char c out) (loop (+ i 1)))))))
(get-output-string out))))
;; --- SimpleDateFormat .parse: pattern-driven parse to epoch-ms (UTC/GMT) ------
(define (month-from-name s)
(let ((m3 (ascii-string-down (substring s 0 (min 3 (string-length s))))))
(let loop ((i 0))
(cond ((= i 12) #f)
((string=? (ascii-string-down (substring (vector-ref month-names i) 0 3)) m3) (+ i 1))
(else (loop (+ i 1)))))))
(define (parse-ms pattern input)
(let ((pn (string-length pattern)) (inn (string-length input))
(y 1970) (mo 1) (d 1) (hh 0) (mi 0) (ss 0) (pm 'none))
(define (pfail) (error #f (string-append "ParseException: unparseable date \"" input "\"")))
(define (run-len i c) (let loop ((j i)) (if (and (< j pn) (char=? (string-ref pattern j) c)) (loop (+ j 1)) (- j i))))
(define (read-digits ii) ; -> (val . next), pfail if none
(let loop ((j ii) (acc 0) (any #f))
(if (and (< j inn) (digit? (string-ref input j)))
(loop (+ j 1) (+ (* acc 10) (- (char->integer (string-ref input j)) 48)) #t)
(if any (cons acc j) (pfail)))))
(define (read-alpha ii) ; -> (str . next)
(let loop ((j ii)) (if (and (< j inn) (char-alphabetic? (string-ref input j))) (loop (+ j 1))
(cons (substring input ii j) j))))
(define (read-tz ii) ; consume GMT/UTC/Z or ±hhmm; -> next
(cond ((>= ii inn) ii)
((char-alphabetic? (string-ref input ii)) (cdr (read-alpha ii)))
((or (char=? (string-ref input ii) #\+) (char=? (string-ref input ii) #\-))
(let loop ((j (+ ii 1))) (if (and (< j inn) (or (digit? (string-ref input j)) (char=? (string-ref input j) #\:))) (loop (+ j 1)) j)))
(else ii)))
(let loop ((pi 0) (ii 0))
(if (>= pi pn)
(begin
(when (eq? pm 'pm) (when (< hh 12) (set! hh (+ hh 12))))
(when (eq? pm 'am) (when (= hh 12) (set! hh 0)))
(make-jinst (* 1000 (+ (* (days-from-civil y mo d) 86400) (* hh 3600) (* mi 60) ss))))
(let ((c (string-ref pattern pi)))
(cond
((char-alphabetic? c)
(let ((k (run-len pi c)))
(cond
((char=? c #\y) (let ((r (read-digits ii)))
;; 2-digit year (value < 100): JVM sliding window — 00-68 -> 20xx,
;; 69-99 -> 19xx (rfc1036 HTTP dates). A full year stays as-is.
(set! y (let ((v (car r))) (if (< v 100) (if (< v 69) (+ 2000 v) (+ 1900 v)) v)))
(loop (+ pi k) (cdr r))))
((char=? c #\M) (if (>= k 3)
(let ((r (read-alpha ii))) (set! mo (or (month-from-name (car r)) (pfail))) (loop (+ pi k) (cdr r)))
(let ((r (read-digits ii))) (set! mo (car r)) (loop (+ pi k) (cdr r)))))
((char=? c #\d) (let ((r (read-digits ii))) (set! d (car r)) (loop (+ pi k) (cdr r))))
((or (char=? c #\H) (char=? c #\h)) (let ((r (read-digits ii))) (set! hh (car r)) (loop (+ pi k) (cdr r))))
((char=? c #\m) (let ((r (read-digits ii))) (set! mi (car r)) (loop (+ pi k) (cdr r))))
((char=? c #\s) (let ((r (read-digits ii))) (set! ss (car r)) (loop (+ pi k) (cdr r))))
((char=? c #\E) (loop (+ pi k) (cdr (read-alpha ii))))
((char=? c #\a) (let ((r (read-alpha ii)))
(set! pm (if (string=? (ascii-string-down (car r)) "pm") 'pm 'am))
(loop (+ pi k) (cdr r))))
((or (char=? c #\z) (char=? c #\Z) (char=? c #\X)) (loop (+ pi k) (read-tz ii)))
(else (loop (+ pi k) ii)))))
((char=? c #\')
(if (and (< (+ pi 1) pn) (char=? (string-ref pattern (+ pi 1)) #\'))
(loop (+ pi 2) (if (and (< ii inn) (char=? (string-ref input ii) #\')) (+ ii 1) ii))
(let lit ((pj (+ pi 1)) (ij ii))
(cond ((>= pj pn) (loop pj ij))
((char=? (string-ref pattern pj) #\') (loop (+ pj 1) ij))
((and (< ij inn) (char=? (string-ref input ij) (string-ref pattern pj))) (lit (+ pj 1) (+ ij 1)))
(else (pfail))))))
;; literal: match it; a pattern space tolerates missing/extra spaces.
((char=? c #\space)
(let skip ((ij ii)) (if (and (< ij inn) (char=? (string-ref input ij) #\space)) (skip (+ ij 1)) (loop (+ pi 1) ij))))
((and (< ii inn) (char=? (string-ref input ii) c)) (loop (+ pi 1) (+ ii 1)))
(else (pfail))))))))
;; --- value integration: get / = / hash / pr / type / instance? --------------
(define kw-jolt-type (keyword "jolt" "type"))
(define kw-ms (keyword #f "ms"))
(define inst-type-kw (keyword "jolt" "inst"))
(register-get-arm! jinst?
(lambda (coll k d)
(cond ((jolt=2 k kw-jolt-type) inst-type-kw)
((jolt=2 k kw-ms) (jinst-ms coll))
(else d))))
(register-eq-arm! (lambda (a b) (or (jinst? a) (jinst? b)))
(lambda (a b) (and (jinst? a) (jinst? b) (= (jinst-ms a) (jinst-ms b)))))
(register-hash-arm! jinst? (lambda (x) (jolt-hash (jinst-ms x))))
(define (inst-pr i) (string-append "#inst \"" (inst-rfc3339 i) "\""))
(register-pr-arm! jinst? inst-pr)
(register-str-render! jinst? inst-rfc3339)
(define %it-type jolt-type)
(set! jolt-type (lambda (x) (if (jinst? x) inst-type-kw (%it-type x))))
(def-var! "clojure.core" "type" jolt-type)
;; instance? java.util.Date -> a jinst; java.time.Instant/LocalDateTime -> the
;; matching jhost tag. The instance? macro passes the class-name symbol.
(define (class-short tn) (let loop ((i (- (string-length tn) 1)))
(cond ((< i 0) tn) ((char=? (string-ref tn i) #\.) (substring tn (+ i 1) (string-length tn))) (else (loop (- i 1))))))
(register-instance-check-arm!
(lambda (type-sym val)
(let ((tn (class-short (symbol-t-name type-sym))))
(cond
;; a #inst / (Date.) is a java.util.Date; it is NOT a java.sql.Timestamp
;; (on the JVM a Date is not a Timestamp), so answer Timestamp explicitly #f.
((jinst? val) (cond ((string=? tn "Date") #t)
((string=? tn "Timestamp") #f)
(else 'pass)))
((and (jhost? val) (string=? (jhost-tag val) "instant")) (if (string=? tn "Instant") #t 'pass))
((and (jhost? val) (string=? (jhost-tag val) "local-dt")) (if (string=? tn "LocalDateTime") #t 'pass))
(else 'pass)))))
;; inst-ms* is a seed native (the overlay inst-ms reads (get x :ms), now answered).
(def-var! "clojure.core" "inst-ms*" (lambda (i) (jinst-ms i)))
;; --- java.time shim values (jhost objects over host-static.ss registries) -----
(define (ms-of d)
(cond ((number? d) d)
((jinst? d) (jinst-ms d))
((and (jhost? d) (member (jhost-tag d) '("instant" "zoned-dt" "local-dt")))
(vector-ref (jhost-state d) 0))
(else (error #f "not a date value" d))))
(define (mk-instant ms) (make-jhost "instant" (vector ms)))
(define (mk-zoned ms) (make-jhost "zoned-dt" (vector ms)))
(define (mk-local ms) (make-jhost "local-dt" (vector ms)))
(define (mk-formatter pat) (make-jhost "dt-formatter" (vector pat)))
(define (fmt-pat f) (vector-ref (jhost-state f) 0))
(define (now-ms) (now-millis)) ; exact ms (= JVM long); now-millis from host-static.ss
;; coerce a user-supplied ms (exact or flonum) to an exact integer for storage.
(define (ms->exact ms) (exact (round ms)))
(register-host-methods! "instant"
(list (cons "atZone" (lambda (self zone) (mk-zoned (ms-of self))))
(cons "toEpochMilli" (lambda (self) (ms-of self)))
(cons "toString" (lambda (self) (inst-rfc3339 (make-jinst (ms-of self)))))))
(register-host-methods! "zoned-dt"
(list (cons "toLocalDateTime" (lambda (self) (mk-local (ms-of self))))
(cons "toInstant" (lambda (self) (mk-instant (ms-of self))))))
(register-host-methods! "local-dt"
(list (cons "atZone" (lambda (self zone) (mk-zoned (ms-of self))))))
(register-host-methods! "dt-formatter"
(list (cons "withLocale" (lambda (self locale) (mk-formatter (fmt-pat self))))
(cons "format" (lambda (self d) (format-ms (fmt-pat self) (ms-of d))))))
;; FormatStyle approximations (no locale DB on this host).
(define style-patterns
'((date . ((short . "M/d/yy") (medium . "MMM d, yyyy") (long . "MMMM d, yyyy") (full . "EEEE, MMMM d, yyyy")))
(time . ((short . "h:mm a") (medium . "h:mm:ss a") (long . "h:mm:ss a") (full . "h:mm:ss a")))
(datetime . ((short . "M/d/yy, h:mm a") (medium . "MMM d, yyyy, h:mm:ss a")
(long . "MMMM d, yyyy, h:mm:ss a") (full . "EEEE, MMMM d, yyyy, h:mm:ss a")))))
(define (style-of fs) (vector-ref (jhost-state fs) 0)) ; a symbol: short/medium/long/full
(define (style-fmt kind fs)
(mk-formatter (or (let ((row (assq kind style-patterns))) (and row (let ((e (assq (style-of fs) (cdr row)))) (and e (cdr e)))))
"yyyy-MM-dd HH:mm:ss")))
(register-class-statics! "FormatStyle"
(list (cons "SHORT" (make-jhost "format-style" (vector 'short)))
(cons "MEDIUM" (make-jhost "format-style" (vector 'medium)))
(cons "LONG" (make-jhost "format-style" (vector 'long)))
(cons "FULL" (make-jhost "format-style" (vector 'full)))))
(register-class-statics! "DateTimeFormatter"
(list (cons "ofPattern" (lambda (p . _) (mk-formatter p)))
(cons "ISO_LOCAL_DATE" (mk-formatter "yyyy-MM-dd"))
(cons "ISO_LOCAL_DATE_TIME" (mk-formatter "yyyy-MM-dd'T'HH:mm:ss"))
(cons "ofLocalizedDate" (lambda (fs) (style-fmt 'date fs)))
(cons "ofLocalizedTime" (lambda (fs) (style-fmt 'time fs)))
(cons "ofLocalizedDateTime" (lambda (fs) (style-fmt 'datetime fs)))))
(register-class-statics! "Instant"
(list (cons "ofEpochMilli" (lambda (ms) (mk-instant (ms->exact ms))))
(cons "now" (lambda () (mk-instant (now-ms))))))
(register-class-statics! "ZoneId"
(list (cons "systemDefault" (lambda () (make-jhost "zone-id" (vector "system"))))
(cons "of" (lambda (id) (make-jhost "zone-id" (vector id))))))
(register-class-statics! "LocalDateTime"
(list (cons "ofInstant" (lambda (inst zone) (mk-local (ms-of inst))))
(cons "now" (lambda () (mk-local (now-ms))))))
(let ((locale-ctor (lambda (id . _) (make-jhost "locale" (vector (if (string? id) id (jolt-str-render-one id)))))))
(register-class-ctor! "Locale" locale-ctor)
(register-class-ctor! "java.util.Locale" locale-ctor))
(register-class-statics! "Locale"
(list (cons "getDefault" (lambda () (make-jhost "locale" (vector "default"))))
(cons "ENGLISH" (make-jhost "locale" (vector "en")))
(cons "US" (make-jhost "locale" (vector "en-US")))
(cons "ROOT" (make-jhost "locale" (vector "root")))))
;; java.util.Date / java.sql.Timestamp: #inst's classes. (Date.) = now, (Date. ms)
;; or (Date. another-date) -> a jinst (ms-of accepts a number / jinst / instant), so
;; .getTime / inst? / instance? Date|Timestamp work.
(define (date-ctor . args)
(make-jinst (if (null? args) (now-ms) (ms->exact (ms-of (car args))))))
(register-class-ctor! "Date" date-ctor)
(register-class-ctor! "java.util.Date" date-ctor)
(register-class-ctor! "Timestamp" date-ctor)
(register-class-ctor! "java.sql.Timestamp" date-ctor)
;; java.util.TimeZone: an opaque id holder (format-ms is UTC, so a non-UTC zone is
;; not honored — only the UTC case the corpus uses is exercised).
(define (timezone-of id) (make-jhost "timezone" (vector (if (string? id) id (jolt-str-render-one id)))))
(register-class-statics! "TimeZone" (list (cons "getTimeZone" timezone-of)))
(register-class-statics! "java.util.TimeZone" (list (cons "getTimeZone" timezone-of)))
;; java.text.SimpleDateFormat: holds a pattern; .setTimeZone is accepted (format-ms
;; is UTC); .format(date) renders the date per the pattern via the format-ms engine.
(define (sdf-ctor pat . _) (make-jhost "sdf" (vector (if (string? pat) pat (jolt-str-render-one pat)))))
(register-class-ctor! "SimpleDateFormat" sdf-ctor)
(register-class-ctor! "java.text.SimpleDateFormat" sdf-ctor)
(register-host-methods! "sdf"
(list (cons "setTimeZone" (lambda (self tz) jolt-nil))
(cons "setLenient" (lambda (self b) jolt-nil))
(cons "applyPattern" (lambda (self p) (vector-set! (jhost-state self) 0 (jolt-str-render-one p)) jolt-nil))
(cons "toPattern" (lambda (self) (vector-ref (jhost-state self) 0)))
(cons "parse" (lambda (self s) (parse-ms (vector-ref (jhost-state self) 0) (jolt-str-render-one s))))
(cons "format" (lambda (self d) (format-ms (vector-ref (jhost-state self) 0) (ms-of d))))))
;; a jinst's java.util.Date method surface (record-method-dispatch arm).
(define %it-rmd record-method-dispatch)
(set! record-method-dispatch
(lambda (obj method-name rest-args)
(cond
((jinst? obj)
(cond ((string=? method-name "getTime") (jinst-ms obj))
((string=? method-name "toInstant") (mk-instant (jinst-ms obj)))
((string=? method-name "toLocalDate") (mk-local (jinst-ms obj)))
((string=? method-name "toLocalDateTime") (mk-local (jinst-ms obj)))
((string=? method-name "toString") (inst-rfc3339 obj))
((string=? method-name "equals") (and (pair? (if (jolt-nil? rest-args) '() (seq->list rest-args)))
(jinst? (car (seq->list rest-args)))
(= (jinst-ms obj) (jinst-ms (car (seq->list rest-args))))))
((string=? method-name "before") (< (jinst-ms obj) (ms-of (car (seq->list rest-args)))))
((string=? method-name "after") (> (jinst-ms obj) (ms-of (car (seq->list rest-args)))))
(else (error #f (string-append "No method " method-name " on Date")))))
(else (%it-rmd obj method-name rest-args)))))
;; Clojure's built-in data readers, so a library that merges default-data-readers
;; or binds *data-readers* (e.g. aero's reader opts) resolves #inst / #uuid.
;; Keyed by symbol, like Clojure. *data-readers* is the bindable user table.
(def-var! "clojure.core" "default-data-readers"
(jolt-hash-map (jolt-symbol #f "inst") jolt-inst-from-string
(jolt-symbol #f "uuid") jolt-uuid-from-string))
(def-var! "clojure.core" "*data-readers*" empty-pmap)