1 ;; Copyright (C) 2015 Christopher Allan Webber <cwebber@dustycloud.org>
3 ;; This library is free software; you can redistribute it and/or
4 ;; modify it under the terms of the GNU Lesser General Public
5 ;; License as published by the Free Software Foundation; either
6 ;; version 3 of the License, or (at your option) any later version.
8 ;; This library is distributed in the hope that it will be useful,
9 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
10 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 ;; Lesser General Public License for more details.
13 ;; You should have received a copy of the GNU Lesser General Public
14 ;; License along with this library; if not, write to the Free Software
15 ;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
18 (define-module (eightsync agenda)
19 #:use-module (srfi srfi-1)
20 #:use-module (srfi srfi-9)
21 #:use-module (srfi srfi-9 gnu)
22 #:use-module (ice-9 q)
23 #:use-module (ice-9 match)
24 #:use-module (ice-9 receive)
27 agenda-queue agenda-prompt-tag
28 agenda-read-port-map agenda-write-port-map agenda-except-port-map
34 make-time-segment time-segment?
35 time-segment-time time-segment-queue
37 time< time= time<= time-delta+
41 make-time-delta tdelta time-delta?
42 time-delta-sec time-delta-usec
45 make-schedule schedule?
46 schedule-add! schedule-empty?
50 schedule-segments-split schedule-extract-until!
51 add-segments-contents-to-queue!
56 make-run-request run-request?
57 run-request-proc run-request-when
60 make-port-request port-request port-request?
62 port-request-read port-request-write port-request-except
64 run-it wrap wrap-apply run run-at run-delay
66 %port-request %run %run-at %run-delay
67 8port-request 8run 8run-at 8run-delay
70 start-agenda agenda-run-once))
72 ;; @@: Using immutable agendas here, so wouldn't it make sense to
73 ;; replace this queue stuff with using pfds based immutable queues?
79 ;;; The agenda consists of:
80 ;;; - a queue of immediate items to handle
81 ;;; - sheduled future events to be added to a future queue
82 ;;; - a tag by which running processes can escape for some asynchronous
83 ;;; operation (from which they can be returned later)
84 ;;; - a mapping of ports to various handler procedures
86 ;;; The goal, eventually, is for this all to be immutable and functional.
87 ;;; However, we aren't there yet. Some tricky things:
88 ;;; - The schedule needs to be immutable, yet reasonably efficient.
89 ;;; - Need to use immutable queues (ijp's pfds library?)
90 ;;; - Modeling reading from ports as something repeatable,
91 ;;; and with reasonable separation from functional components?
93 (define-immutable-record-type <agenda>
94 (make-agenda-intern queue prompt-tag
95 read-port-map write-port-map except-port-map
99 (prompt-tag agenda-prompt-tag)
100 (read-port-map agenda-read-port-map)
101 (write-port-map agenda-write-port-map)
102 (except-port-map agenda-except-port-map)
103 (schedule agenda-schedule)
106 (define (make-async-prompt-tag)
107 "Make an async prompt tag for an agenda.
109 Generally done automatically for the user through (make-agenda)."
110 (make-prompt-tag "prompt"))
112 (define* (make-agenda #:key
114 (prompt (make-prompt-tag))
115 (read-port-map (make-hash-table))
116 (write-port-map (make-hash-table))
117 (except-port-map (make-hash-table))
118 (schedule (make-schedule))
119 (time (gettimeofday)))
120 ;; TODO: document arguments
121 "Make a fresh agenda."
122 (make-agenda-intern queue prompt
123 read-port-map write-port-map except-port-map
126 (define (current-agenda-prompt)
127 "Get the prompt for the current agenda; signal an error if there isn't one."
128 (let ((current-agenda (%current-agenda)))
129 (if (not current-agenda)
132 "Can't get current agenda prompt if there's no current agenda!")
133 (agenda-prompt-tag current-agenda))))
140 ;;; This is where we handle timed events for the future
142 ;; This section totally borrows from the ideas in SICP
145 ;; NOTE: time is a cons of (seconds . microseconds)
147 (define-record-type <time-segment>
148 (make-time-segment-intern time queue)
150 (time time-segment-time)
151 (queue time-segment-queue))
153 ;; @@: This seems to be the same as srfi-18's seconds->time procedure?
154 ;; Maybe double check and switch to that? (Thanks amz3!)
156 (define (time-from-float-or-fraction time)
157 "Produce a (sec . usec) pair from TIME, a float or fraction"
158 (let* ((mixed-whole (floor time))
159 (mixed-rest (- time mixed-whole)) ; float or fraction component
161 (usec (floor (* 1000000 mixed-rest))))
162 (cons (inexact->exact sec) (inexact->exact usec))))
164 (define (time-segment-right-format time)
165 "Ensure TIME is in the right format.
167 The right format means (second . microsecond).
168 If an integer, will convert appropriately."
169 ;; TODO: add floating point / rational number support.
171 ;; time is already a cons of second and microsecnd
172 (((? integer? s) . (? integer? u)) time)
173 ;; time was just an integer (just the second)
174 ((? integer? _) (cons time 0))
175 ((or (? rational? _) (? inexact? _))
176 (time-from-float-or-fraction time))
177 (_ (throw 'invalid-time "Invalid time" time))))
179 (define* (make-time-segment time #:optional (queue (make-q)))
180 "Make a time segment of TIME and QUEUE
182 No automatic conversion is done, so you might have to
183 run (time-segment-right-format) first."
184 (make-time-segment-intern time queue))
186 (define (time< time1 time2)
187 "Check if TIME1 is less than TIME2"
188 (cond ((< (car time1)
198 (define (time= time1 time2)
199 "Check whether TIME1 and TIME2 are equivalent"
200 (and (= (car time1) (car time2))
201 (= (cdr time1) (cdr time2))))
203 (define (time<= time1 time2)
204 "Check if TIME1 is less than or equal to TIME2"
205 (or (time< time1 time2)
206 (time= time1 time2)))
209 (define-record-type <time-delta>
210 (make-time-delta-intern sec usec)
213 (usec time-delta-usec))
215 (define* (make-time-delta time)
216 "Make a <time-delta> of SEC seconds and USEC microseconds.
218 This is used primarily so the agenda can recognize RUN-REQUEST objects
219 which are meant to delay computation"
220 (match (time-segment-right-format time)
222 (make-time-delta-intern sec usec))))
224 (define tdelta make-time-delta)
226 (define (time-carry-correct time)
227 "Corrects/handles time microsecond carry.
228 Will produce (0 . 0) instead of a negative number, if needed."
229 (cond ((>= (cdr time) 1000000)
232 (- (cdr time) 1000000)))
238 (+ (cdr time) 1000000))))
241 (define (time-delta+ time time-delta)
242 "Increment a TIME by the value of TIME-DELTA"
244 (cons (+ (car time) (time-delta-sec time-delta))
245 (+ (cdr time) (time-delta-usec time-delta)))))
247 (define (time-minus time1 time2)
248 "Subtract TIME2 from TIME1"
250 (cons (- (car time1) (car time2))
251 (- (cdr time1) (cdr time2)))))
253 (define (time-plus time1 time2)
254 "Add TIME1 and TIME2"
256 (cons (+ (car time1) (car time2))
257 (+ (cdr time1) (cdr time2)))))
260 (define-record-type <schedule>
261 (make-schedule-intern segments)
263 (segments schedule-segments set-schedule-segments!))
265 (define* (make-schedule #:optional segments)
266 "Make a schedule, optionally pre-composed of SEGMENTS"
267 (make-schedule-intern (or segments '())))
269 (define (schedule-soonest-time schedule)
270 "Return a cons of (sec . usec) for next time segement, or #f if none"
271 (let ((segments (schedule-segments schedule)))
272 (if (eq? segments '())
274 (time-segment-time (car segments)))))
276 ;; TODO: This code is reasonably easy to read but it
277 ;; mutates AND is worst case of O(n) in both space and time :(
278 ;; but at least it'll be reasonably easy to refactor to
279 ;; a more functional setup?
280 (define (schedule-add! schedule time proc)
281 "Mutate SCHEDULE, adding PROC at an appropriate time segment for TIME"
282 (let ((time (time-segment-right-format time)))
283 (define (new-time-segment)
285 (make-time-segment time)))
286 (enq! (time-segment-queue new-segment) proc)
288 (define (loop segments)
289 (define (segment-equals-time? segment)
290 (time= time (time-segment-time segment)))
292 (define (segment-more-than-time? segment)
293 (time< time (time-segment-time segment)))
295 ;; We could switch this out to be more mutate'y
296 ;; and avoid the O(n) of space... is that over-optimizing?
298 ;; If we're at the end of the list, time to make a new
300 ('() (cons (new-time-segment) '()))
301 ;; If the segment's time is exactly our time, good news
302 ;; everyone! Let's append our stuff to its queue
303 (((? segment-equals-time? first) rest ...)
304 (enq! (time-segment-queue first) proc)
306 ;; If the first segment is more than our time,
307 ;; ours belongs before this one, so add it and
308 ;; start consing our way back
309 (((? segment-more-than-time? first) rest ...)
310 (cons (new-time-segment) segments))
311 ;; Otherwise, build up recursive result
313 (cons first (loop rest)))))
314 (set-schedule-segments!
316 (loop (schedule-segments schedule)))))
318 (define (schedule-empty? schedule)
319 "Check if the SCHEDULE is currently empty"
320 (eq? (schedule-segments schedule) '()))
322 (define (schedule-segments-split schedule time)
323 "Does a multiple value return of time segments before/at and after TIME"
324 (let ((time (time-segment-right-format time)))
325 (define (segment-is-now? segment)
326 (time= (time-segment-time segment) time))
327 (define (segment-is-before-now? segment)
328 (time< (time-segment-time segment) time))
330 (let loop ((segments-before '())
331 (segments-left (schedule-segments schedule)))
333 ;; end of the line, return
335 (values (reverse segments-before) '()))
337 ;; It's right now, so time to stop, but include this one in before
338 ;; but otherwise return
339 (((? segment-is-now? first) rest ...)
340 (values (reverse (cons first segments-before)) rest))
342 ;; This is prior or at now, so add it and keep going
343 (((? segment-is-before-now? first) rest ...)
344 (loop (cons first segments-before) rest))
346 ;; Otherwise it's past now, just return what we have
348 (values segments-before segments-after))))))
350 (define (schedule-extract-until! schedule time)
351 "Extract all segments until TIME from SCHEDULE, and pop old segments off"
352 (receive (segments-before segments-after)
353 (schedule-segments-split schedule time)
354 (set-schedule-segments! schedule segments-after)
357 (define (add-segments-contents-to-queue! segments queue)
360 (let ((seg-queue (time-segment-queue segment)))
361 (while (not (q-empty? seg-queue))
362 (enq! queue (deq! seg-queue)))))
367 ;;; Request to run stuff
368 ;;; ====================
370 (define-record-type <run-request>
371 (make-run-request proc when)
373 (proc run-request-proc)
374 (when run-request-when))
376 (define* (run-it proc #:optional when)
377 "Make a request to run PROC (possibly at WHEN)"
378 (make-run-request proc when))
380 (define-syntax-rule (wrap body ...)
381 "Wrap contents in a procedure"
385 (define-syntax-rule (wrap-apply body)
386 "Wrap possibly multi-value function in a procedure, applies all arguments"
391 ;; @@: Do we really want `body ...' here?
392 ;; what about just `body'?
393 (define-syntax-rule (run body ...)
394 "Run everything in BODY but wrap in a convenient procedure"
395 (make-run-request (wrap body ...) #f))
397 (define-syntax-rule (run-at body ... when)
399 (make-run-request (wrap body ...) when))
401 ;; @@: Is it okay to overload the term "delay" like this?
402 ;; Would `run-in' be better?
403 (define-syntax-rule (run-delay body ... delay-time)
404 "Run BODY at DELAY-TIME time from now"
405 (make-run-request (wrap body ...) (tdelta delay-time)))
408 ;; A request to set up a port with at least one of read, write, except
409 ;; handling processes
411 (define-record-type <port-request>
412 (make-port-request-intern port read write except)
414 (port port-request-port)
415 (read port-request-read)
416 (write port-request-write)
417 (except port-request-except))
419 (define* (make-port-request port #:key read write except)
420 (if (not (or read write except))
421 (throw 'no-port-handler-given "No port handler given.\n"))
422 (make-port-request-intern port read write except))
424 (define port-request make-port-request)
428 ;;; Asynchronous escape to run things
429 ;;; =================================
431 ;; The future's in futures
433 (define (make-future call-first on-success on-fail on-error)
434 ;; TODO: add error stuff here
436 (let ((call-result (call-first)))
437 ;; queue up calling the
438 (run (on-success call-result)))))
440 (define (agenda-on-error agenda)
443 (define (agenda-on-fail agenda)
446 (define* (request-future call-first on-success
448 (agenda (%current-agenda))
449 (on-fail (agenda-on-fail agenda))
450 (on-error (agenda-on-error agenda))
452 ;; TODO: error handling
453 ;; do we need some distinction between expected, catchable errors,
454 ;; and unexpected, uncatchable ones? Probably...?
456 (make-future call-first on-success on-fail on-error)
459 (define-syntax-rule (%8sync async-request)
460 "Run BODY asynchronously at a prompt, passing args to make-future.
462 Runs things asynchronously (8synchronously?)"
463 (abort-to-prompt (current-agenda-prompt)
466 ;; Async port request and run-request meta-requests
467 (define (make-async-request proc)
468 "Wrap PROC in an async-request
470 The purpose of this is to make sure that users don't accidentally
471 return the wrong thing via (%8sync) and trip themselves up."
472 (cons '*async-request* proc))
474 (define (setup-async-request resume-kont async-request)
475 "Complete an async request for agenda-run-once's continuation handling"
477 (('*async-request* . async-setup-proc)
478 (async-setup-proc resume-kont))
479 ;; TODO: deliver more helpful errors depending on what the user
481 (_ (throw 'invalid-async-request
482 "Invalid request passed back via an (%8sync) procedure."
485 (define-syntax-rule (%run body ...)
486 (%run-at body ... #f))
488 (define-syntax-rule (%run-at body ... when)
497 (define-syntax-rule (%run-delay body ... delay-time)
498 (%run-at body ... (tdelta delay-time)))
500 (define-syntax-rule (%port-request add-this-port port-request-args ...)
503 (list (make-port-request port-request-args ...)
504 (make-run-request kont)))))
507 (define-syntax-rule (%run-with-return return body ...)
515 (define-syntax-rule (8run args ...) (%run args ...))
516 (define-syntax-rule (8run-at args ...) (%run-at args ...))
517 (define-syntax-rule (8run-delay args ...) (%run-delay args ...))
518 (define-syntax-rule (8port-request args ...) (%port-request args ...))
522 ;;; Execution of agenda, and current agenda
523 ;;; =======================================
525 (define %current-agenda (make-parameter #f))
527 (define (update-agenda-from-select! agenda)
528 "Potentially (select) on ports specified in agenda, adding items to queue"
529 (define (hash-keys hash)
530 (hash-map->list (lambda (k v) k) hash))
531 (define (get-wait-time)
532 ;; TODO: we need to figure this out based on whether there's anything
533 ;; in the queue, and if not, how long till the next scheduled item
534 (let ((soonest-time (schedule-soonest-time (agenda-schedule agenda))))
536 ((not (q-empty? (agenda-queue agenda)))
538 (soonest-time ; ie, the agenda is non-empty
539 (let* ((current-time (agenda-time agenda)))
540 (if (time<= soonest-time current-time)
541 ;; Well there's something due so let's select
542 ;; (this avoids a (possible?) race condition chance)
544 (time-minus soonest-time current-time))))
548 ;; TODO: support usecond wait time too
549 (match (get-wait-time)
553 (select (hash-keys (agenda-read-port-map agenda))
554 (hash-keys (agenda-write-port-map agenda))
555 (hash-keys (agenda-except-port-map agenda))
557 (lambda (key . rest-args)
561 (_ (error "Unhandled error in select!" key rest-args))))))))
562 (define (get-procs-to-run)
563 (define (ports->procs ports port-map)
564 (lambda (initial-procs)
568 ((hash-ref port-map port) port))
573 ((read-ports write-ports except-ports)
574 ;; @@: Come on, we can do better than append ;P
575 ((compose (ports->procs
577 (agenda-read-port-map agenda))
580 (agenda-write-port-map agenda))
583 (agenda-except-port-map agenda)))
585 (define (update-agenda)
586 (let ((procs-to-run (get-procs-to-run))
587 (q (agenda-queue agenda)))
593 (define (ports-to-select?)
594 (define (has-items? selector)
596 ;; ... we could use hash-for-each and a continuation to jump
597 ;; out with a #t at first indication of an item
598 (not (= (hash-count (const #t)
601 (or (has-items? agenda-read-port-map)
602 (has-items? agenda-write-port-map)
603 (has-items? agenda-except-port-map)))
605 (if (ports-to-select?)
609 (define (agenda-handle-port-request! agenda port-request)
610 "Update an agenda for a port-request"
611 (define (handle-selector request-selector port-map-selector)
612 (if (request-selector port-request)
613 (hash-set! (port-map-selector agenda)
614 (port-request-port port-request)
615 (request-selector port-request))))
616 (handle-selector port-request-read agenda-read-port-map)
617 (handle-selector port-request-write agenda-write-port-map)
618 (handle-selector port-request-except agenda-except-port-map))
621 (define* (start-agenda agenda
623 (get-time gettimeofday)
624 (handle-ports update-agenda-from-select!))
625 ;; TODO: Document fields
626 "Start up the AGENDA"
627 (let loop ((agenda agenda))
629 ;; @@: Hm, maybe here would be a great place to handle
630 ;; select'ing on ports.
631 ;; We could compose over agenda-run-once and agenda-read-ports
632 (agenda-run-once agenda)))
633 (if (and stop-condition (stop-condition agenda))
636 ;; We have to update the time after ports handled, too
637 ;; because it may have changed after a select
640 ;; Adjust the agenda's time just in time
641 ;; We do this here rather than in agenda-run-once to make
642 ;; agenda-run-once's behavior fairly predictable
643 (set-field agenda (agenda-time) (get-time)))
644 (agenda-time) (get-time))))
645 ;; Update the agenda's current queue based on
646 ;; currently applicable time segments
647 (add-segments-contents-to-queue!
648 (schedule-extract-until! (agenda-schedule agenda) (agenda-time agenda))
649 (agenda-queue agenda))
652 (define (agenda-run-once agenda)
653 "Run once through the agenda, and produce a new agenda
654 based on the results"
655 (define (call-proc proc)
657 (agenda-prompt-tag agenda)
659 (parameterize ((%current-agenda agenda))
661 (lambda (kont async-request)
662 (setup-async-request kont async-request))))
664 (let ((queue (agenda-queue agenda))
665 (next-queue (make-q)))
666 (while (not (q-empty? queue))
667 (let* ((proc (q-pop! queue))
668 (proc-result (call-proc proc))
670 (lambda (run-request)
671 (define (schedule-at! time proc)
672 (schedule-add! (agenda-schedule agenda) time proc))
673 (let ((request-time (run-request-when run-request)))
675 ((? time-delta? time-delta)
676 (let ((time (time-delta+ (agenda-time agenda)
678 (schedule-at! time (run-request-proc run-request))))
680 (let ((time (cons sec 0)))
681 (schedule-at! time (run-request-proc run-request))))
682 (((? integer? sec) . (? integer? usec))
683 (schedule-at! request-time (run-request-proc run-request)))
685 (enq! next-queue (run-request-proc run-request))))))))
686 (define (handle-individual result)
688 ((? run-request? new-proc)
690 ((? port-request? port-request)
691 (agenda-handle-port-request! agenda port-request))
694 ;; @@: We might support delay-wrapped procedures here
697 (for-each handle-individual results))
698 (one-result (handle-individual one-result)))))
699 ;; TODO: Alternately, we could return the next-queue
700 ;; along with changes to be added to the schedule here?
701 ;; Return new agenda, with next queue set
702 (set-field agenda (agenda-queue) next-queue)))