- ;; obtain NOW as discrete components -- make a vector for speed
- (nowParts (apply 'vector (decode-time now)))
- ;; obtain THEN as discrete components
- (thenParts (timezone-parse-time time))
- (thenHour (string-to-int (elt thenParts 0)))
- (thenMin (string-to-int (elt thenParts 1)))
- ;; convert time as elements into number of seconds since EPOCH.
- (then (encode-time 0
- thenMin
- thenHour
- ;; If THEN is earlier than NOW, make it
- ;; same time tomorrow. Doc for encode-time
- ;; says that this is OK.
- (+ (elt nowParts 3)
- (if (or (< thenHour (elt nowParts 2))
- (and (= thenHour (elt nowParts 2))
- (<= thenMin (elt nowParts 1))))
- 1 0))
- (elt nowParts 4)
- (elt nowParts 5)
- (elt nowParts 6)
- (elt nowParts 7)
- (elt nowParts 8)))
- ;; calculate number of seconds between NOW and THEN
- (diff (+ (* 65536 (- (car then) (car now)))
- (- (cadr then) (cadr now)))))
+ ;; obtain NOW as discrete components -- make a vector for speed
+ (nowParts (decode-time now))
+ ;; obtain THEN as discrete components
+ (thenParts (parse-time-string time))
+ (thenHour (elt thenParts 2))
+ (thenMin (elt thenParts 1))
+ ;; convert time as elements into number of seconds since EPOCH.
+ (then (encode-time 0
+ thenMin
+ thenHour
+ ;; If THEN is earlier than NOW, make it
+ ;; same time tomorrow. Doc for encode-time
+ ;; says that this is OK.
+ (+ (elt nowParts 3)
+ (if (or (< thenHour (elt nowParts 2))
+ (and (= thenHour (elt nowParts 2))
+ (<= thenMin (elt nowParts 1))))
+ 1 0))
+ (elt nowParts 4)
+ (elt nowParts 5)
+ (elt nowParts 6)
+ (elt nowParts 7)
+ (elt nowParts 8)))
+ ;; calculate number of seconds between NOW and THEN
+ (diff (+ (* 65536 (- (car then) (car now)))
+ (- (cadr then) (cadr now)))))