You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
typesetting/csp/solver.rkt

148 lines
6.0 KiB
Racket

#lang racket/base
(require racket/class sugar/container racket/list racket/generator racket/match "helper.rkt")
(provide (all-defined-out))
(define solver%
;; Abstract base class for solvers
(class object%
(super-new)
(abstract get-solution)
(abstract get-solutions)
(abstract get-solution-iter)))
(define solver%? (is-a?/c solver%))
(define backtracking-solver%
;; Problem solver with backtracking capabilities
(class solver%
(super-new)
(init-field [forwardcheck #t])
(field [_forwardcheck forwardcheck])
(define/override (get-solution-iter domains constraints vconstraints)
(define forwardcheck _forwardcheck)
(define assignments (make-hash))
(define queue null)
(define values null)
(define pushdomains null)
(define variable #f)
(define work-list null)
(define want-to-return #f)
(define return-k #f)
(let/ec break-loop1
(set! return-k break-loop1)
(let loop1 ()
;(displayln "starting while loop 1")
;; Mix the Degree and Minimum Remaing Values (MRV) heuristics
(set! work-list (sort (for/list ([variable (in-hash-keys domains)])
(list (* -1 (length (hash-ref vconstraints variable)))
(length ((hash-ref domains variable)))
variable)) list-comparator))
;(report lst)
(let/ec break-for-loop
(for ([last-item (in-list (map last work-list))]
#:when (not (hash-has-key? assignments last-item)))
; Found unassigned variable
(set! variable last-item)
;(report variable unassigned-variable)
(set! values ((hash-ref domains variable)))
(set! pushdomains
(if forwardcheck
(for/list ([x (in-hash-keys domains)]
#:when (and (not (hash-has-key? assignments x))
(not (equal? variable x))))
(hash-ref domains x))
null))
(break-for-loop))
;; if it makes it through the loop without breaking, then there are
;; no unassigned variables. We've got a solution. Go back
;; to last variable, if there's one.
(yield (hash-copy assignments))
(when (null? queue) (begin
(set! want-to-return #t)
(return-k)))
(define variable-values-pushdomains (py-pop! queue))
(set! variable (first variable-values-pushdomains))
(set! values (second variable-values-pushdomains))
(set! pushdomains (third variable-values-pushdomains))
(for-each-send pop-state pushdomains))
;(report variable variable-preloop-2)
;(report assignments assignments-preloop-2)
(let/ec break-loop2
(let loop2 ()
;(displayln "starting while loop 2")
;; We have a variable. Do we have any values left?
;(report values values-tested)
(when (null? values)
;; No. Go back to last variable, if there's one.
(hash-remove! assignments variable)
(let/ec break-loop3
(let loop3 ()
(if (not (null? queue))
(let ()
(define variable-values-pushdomains (py-pop! queue))
(set! variable (first variable-values-pushdomains))
(set! values (second variable-values-pushdomains))
(set! pushdomains (third variable-values-pushdomains))
(for-each-send pop-state pushdomains)
(when (not (null? values)) (break-loop3))
(hash-remove! assignments variable)
(loop3))
(begin
(set! want-to-return #t)
(return-k))))))
;; Got a value. Check it.
(hash-set! assignments variable (py-pop! values))
(for-each-send push-state pushdomains)
;(report pushdomains pushdomains1)
;(report domains domains1)
(let/ec break-for-loop
(for ([cvpair (in-list (hash-ref vconstraints variable))])
(match-define (list constraint variables) cvpair)
(define the_result (send constraint call variables domains assignments pushdomains))
;(report pushdomains pushdomains2)
;(report domains domains2)
;(report the_result)
(when (not the_result)
;; Value is not good.
(break-for-loop)))
(begin ;(displayln "now breaking loop 2")
(break-loop2)))
(for-each-send pop-state pushdomains)
(loop2)))
;; Push state before looking for next variable.
(py-append! queue (list variable values pushdomains))
;(report queue new-queue)
(loop1)))
(if want-to-return
(void)
(error 'get-solution-iter "Whoops, broken solver")))
(define (call-solution-generator domains constraints vconstraints #:first-only [first-only #f])
(for/list ([solution (in-generator (get-solution-iter domains constraints vconstraints))] #:final first-only)
solution))
(define/override (get-solution . args)
(car (apply call-solution-generator #:first-only #t args)))
(define/override (get-solutions . args)
(apply call-solution-generator args))))
(define backtracking-solver%? (is-a?/c backtracking-solver%))