-(use-modules (srfi srfi-9)
- (srfi srfi-9 gnu)
- (ice-9 q)
- (ice-9 match))
+(define-module (loopy agenda)
+ #:use-module (srfi srfi-9)
+ #:use-module (srfi srfi-9 gnu)
+ #:use-module (ice-9 q)
+ #:use-module (ice-9 match)
+ #:use-module (ice-9 receive)
+ #:export (<agenda>
+ make-agenda agenda?
+ agenda-queue agenda-prompt-tag
+ agenda-port-pmapping agenda-schedule
+
+ make-async-prompt-tag
+
+ <time-segment>
+ make-time-segment time-segment?
+ time-segment-time time-segment-queue
+
+ time-< time-= time-<=
+
+ <schedule>
+ make-schedule schedule?
+ schedule-add! schedule-empty?
+ schedule-segments
+
+ schedule-segments-split schedule-extract-until!
+ add-segments-contents-to-queue!
+
+ make-port-mapping
+ port-mapping-set! port-mapping-remove!
+ port-mapping-empty? port-mapping-non-empty?
+
+ <run-request>
+ make-run-request run-request?
+ run-request-proc run-request-when
+
+ run wrap run-wrap run-wrap-at
+
+ %current-agenda
+ start-agenda agenda-run-once))
;; @@: Using immutable agendas here, so wouldn't it make sense to
;; replace this queue stuff with using pfds based immutable queues?
+\f
+;;; Agenda definition
+;;; =================
+
+;;; The agenda consists of:
+;;; - a queue of immediate items to handle
+;;; - sheduled future events to be added to a future queue
+;;; - a tag by which running processes can escape for some asynchronous
+;;; operation (from which they can be returned later)
+;;; - a mapping of ports to various handler procedures
+;;;
+;;; The goal, eventually, is for this all to be immutable and functional.
+;;; However, we aren't there yet. Some tricky things:
+;;; - The schedule needs to be immutable, yet reasonably efficient.
+;;; - Need to use immutable queues (ijp's pfds library?)
+;;; - Modeling reading from ports as something repeatable,
+;;; and with reasonable separation from functional components?
+
(define-immutable-record-type <agenda>
- (make-agenda-intern queue prompt-tag port-mapping)
+ (make-agenda-intern queue prompt-tag port-mapping schedule)
agenda?
(queue agenda-queue)
(prompt-tag agenda-prompt-tag)
- (port-mapping agenda-port-mapping))
+ (port-mapping agenda-port-mapping)
+ (schedule agenda-schedule))
(define (make-async-prompt-tag)
(make-prompt-tag "prompt"))
(define* (make-agenda #:key
(queue (make-q))
(prompt (make-prompt-tag))
- (port-mapping (make-port-mapping)))
- (make-agenda-intern queue prompt port-mapping))
+ (port-mapping (make-port-mapping))
+ (schedule (make-schedule)))
+ (make-agenda-intern queue prompt port-mapping schedule))
+
+
+\f
+;;; Schedule
+;;; ========
+
+;;; This is where we handle timed events for the future
+
+;; This section totally borrows from SICP
+;; <3 <3 <3
+
+;; NOTE: time is a cons of (seconds . microseconds)
+
+(define-record-type <time-segment>
+ (make-time-segment-intern time queue)
+ time-segment?
+ (time time-segment-time)
+ (queue time-segment-queue))
+
+(define (time-segment-right-format time)
+ (match time
+ ;; time is already a cons of second and microsecnd
+ (((? integer? s) . (? integer? u)) time)
+ ;; time was just an integer (just the second)
+ ((? integer? _) (cons time 0))
+ (_ (throw 'invalid-time "Invalid time" time))))
+
+(define* (make-time-segment time #:optional (queue (make-q)))
+ (make-time-segment-intern time queue))
+
+(define (time-< time1 time2)
+ (cond ((< (car time1)
+ (car time2))
+ #t)
+ ((and (= (car time1)
+ (car time2))
+ (< (cdr time1)
+ (cdr time2)))
+ #t)
+ (else #f)))
+
+(define (time-= time1 time2)
+ (and (= (car time1) (car time2))
+ (= (cdr time1) (cdr time2))))
+
+(define (time-<= time1 time2)
+ (or (time-< time1 time2)
+ (time-= time1 time2)))
+
+(define-record-type <schedule>
+ (make-schedule-intern segments)
+ schedule?
+ (segments schedule-segments set-schedule-segments!))
+
+(define* (make-schedule #:optional segments)
+ (make-schedule-intern (or segments '())))
+
+;; TODO: This code is reasonably easy to read but it
+;; mutates AND is worst case of O(n) in both space and time :(
+;; but at least it'll be reasonably easy to refactor to
+;; a more functional setup?
+(define (schedule-add! time proc schedule)
+ (let ((time (time-segment-right-format time)))
+ (define (new-time-segment)
+ (let ((new-segment
+ (make-time-segment time)))
+ (enq! (time-segment-queue new-segment) proc)
+ new-segment))
+ (define (loop segments)
+ (define (segment-equals-time? segment)
+ (time-= time (time-segment-time segment)))
+
+ (define (segment-more-than-time? segment)
+ (time-< time (time-segment-time segment)))
+
+ ;; We could switch this out to be more mutate'y
+ ;; and avoid the O(n) of space... is that over-optimizing?
+ (match segments
+ ;; If we're at the end of the list, time to make a new
+ ;; segment...
+ ('() (cons (new-time-segment) '()))
+ ;; If the segment's time is exactly our time, good news
+ ;; everyone! Let's append our stuff to its queue
+ (((? segment-equals-time? first) rest ...)
+ (enq! (time-segment-queue first) proc)
+ segments)
+ ;; If the first segment is more than our time,
+ ;; ours belongs before this one, so add it and
+ ;; start consing our way back
+ (((? segment-more-than-time? first) rest ...)
+ (cons (new-time-segment) segments))
+ ;; Otherwise, build up recursive result
+ ((first rest ... )
+ (cons first (loop rest)))))
+ (set-schedule-segments!
+ schedule
+ (loop (schedule-segments schedule)))))
+
+(define (schedule-empty? schedule)
+ (eq? (schedule-segments schedule) '()))
+
+(define (schedule-segments-split schedule time)
+ "Does a multiple value return of time segments before/at and after TIME"
+ (let ((time (time-segment-right-format time)))
+ (define (segment-is-now? segment)
+ (time-= (time-segment-time segment) time))
+ (define (segment-is-before-now? segment)
+ (time-< (time-segment-time segment) time))
+
+ (let loop ((segments-before '())
+ (segments-left (schedule-segments schedule)))
+ (match segments-left
+ ;; end of the line, return
+ ('()
+ (values (reverse segments-before) '()))
+
+ ;; It's right now, so time to stop, but include this one in before
+ ;; but otherwise return
+ (((? segment-is-now? first) rest ...)
+ (values (reverse (cons first segments-before)) rest))
+
+ ;; This is prior or at now, so add it and keep going
+ (((? segment-is-before-now? first) rest ...)
+ (loop (cons first segments-before) rest))
+
+ ;; Otherwise it's past now, just return what we have
+ (segments-after
+ (values segments-before segments-after))))))
+
+(define (schedule-extract-until! schedule time)
+ "Extract all segments until TIME from SCHEDULE, and pop old segments off"
+ (receive (segments-before segments-after)
+ (schedule-segments-split schedule time)
+ (set-schedule-segments! schedule segments-after)
+ segments-before))
+
+(define (add-segments-contents-to-queue! segments queue)
+ (for-each
+ (lambda (segment)
+ (let ((seg-queue (time-segment-queue segment)))
+ (while (not (q-empty? seg-queue))
+ (enq! queue (deq! seg-queue)))))
+ segments))
+
+
+\f
+;;; Port handling
+;;; =============
(define (make-port-mapping)
(make-hash-table))
"Whether this port-mapping contains any elements"
(not (port-mapping-empty? port-mapping)))
+
+\f
+;;; Request to run stuff
+;;; ====================
+
+(define-record-type <run-request>
+ (make-run-request proc when)
+ run-request?
+ (proc run-request-proc)
+ (when run-request-when))
+
+(define* (run proc #:optional when)
+ (make-run-request proc when))
+
+(define-syntax-rule (wrap body ...)
+ (lambda ()
+ body ...))
+
+(define-syntax-rule (run-wrap body ...)
+ (run (wrap body ...)))
+
+(define-syntax-rule (run-wrap-at body ... when)
+ (run (wrap body ...) when))
+
+\f
+;;; Execution of agenda, and current agenda
+;;; =======================================
+
(define %current-agenda (make-parameter #f))
(define* (start-agenda agenda #:optional stop-condition)
(let* ((proc (q-pop! queue))
(proc-result (call-proc proc))
(enqueue
- (lambda (new-proc)
- (enq! next-queue new-proc))))
+ (lambda (run-request)
+ (cond
+ ((run-request-when run-request)
+ (error "TODO"))
+ (else
+ (enq! next-queue (run-request-proc run-request)))))))
;; @@: We might support delay-wrapped procedures here
(match proc-result
- ((? procedure? new-proc)
+ ;; TODO: replace procedure with something that indicates
+ ;; intent to run. Use a (run foo) procedure
+ ((? run-request? new-proc)
(enqueue new-proc))
- (((? procedure? new-procs) ...)
+ (((? run-request? new-procs) ...)
(for-each
(lambda (new-proc)
(enqueue new-proc))
projects / 8sync.git / blobdiff