typesetting/csp/constraint.rkt

#lang racket/base
(require racket/class racket/contract racket/match)
(require sugar/container sugar/debug)

(module+ test (require rackunit))

;; Adapted from work by Gustavo Niemeyer
#|
# Copyright (c) 2005-2014 - Gustavo Niemeyer <gustavo@niemeyer.net>
# 
# All rights reserved.
# 
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met: 
# 
# 1. Redistributions of source code must retain the above copyright notice, this
#    list of conditions and the following disclaimer. 
# 2. Redistributions in binary form must reproduce the above copyright notice,
#    this list of conditions and the following disclaimer in the documentation
#    and/or other materials provided with the distribution. 
# 
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
# OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
|#

(provide (all-defined-out))
;(provide Problem Variable Domain Unassigned Solver BacktrackingSolver RecursiveBacktrackingSolver MinConflictsSolver Constraint FunctionConstraint AllDifferentConstraint AllEqualConstraint MaxSumConstraint ExactSumConstraint MinSumConstraint InSetConstraint NotInSetConstraint SomeInSetConstraint SomeNotInSetConstraint)

;(define Problem/c (λ(x) (is-a x Problem)))

(define/contract Problem
  ;; Class used to define a problem and retrieve solutions
  
  (class/c [reset (->m void?)]
           ;; todo: tighten `object?` contracts
           [setSolver (object? . ->m . void?)] 
           [getSolver (->m object?)]
           ;; todo: tighten `object?` contract
           [addVariable (any/c (or/c list? object?) . ->m . void?)]
           [getSolutions (->m list?)])
  (class object%
    (super-new)
    
    (init-field [solver #f])
    (field [_solver (or solver (new BacktrackingSolver))]
           [_constraints null]
           [_variables (make-hash)])
    
    (define/public (reset)
      ;; Reset the current problem definition
      (set! _constraints null)
      (hash-clear! _variables))
    
    (define/public (setSolver solver)
      ;; Change the problem solver currently in use
      (set! _solver solver))
    
    (define/public (getSolver)
      ;; Obtain the problem solver currently in use
      _solver)
    
    (define/public (addVariable variable domain)
      ;; Add a variable to the problem
      (when (variable . in? . _variables)
        (error 'addVariable (format "Tried to insert duplicated variable ~a" variable)))
      (cond 
        [(list? domain) (report domain) (set! domain (new Domain [set domain]))]
        ;; todo: test for `instance-of-Domain?` ; how to copy domain?
        [(object? domain) (report 'foo) (report domain)  (set! domain '(copy.copy domain))]
        [else (error 'addVariable "Domains must be instances of subclasses of Domain")])
      (when (not domain) ; todo: check this test
        (error 'addVariable "Domain is empty"))
      (hash-set! _variables variable (get-field _list domain)))
    
    (define/public (addVariables variables domain)
      ;; Add one or more variables to the problem
      (for-each (λ(var) (addVariable var domain)) variables))
    
    (define/public (getSolutions)
      ;; Find and return all solutions to the problem
      (define-values (domains constraints vconstraints) (_getArgs))
      (if (not domains)
          null
          (send _solver getSolutions domains constraints vconstraints)))
    
    (define/public (_getArgs)
      (define domains (hash-copy _variables))
      (define allvariables (hash-keys domains))
      (define constraints null)
      (for ([constraint-variables-pair (in-list _constraints)])
        (match-define (cons constraint variables) constraint-variables-pair)
        (when (not variables)
          (set! variables allvariables))
        (set! constraints (append constraints (list (cons constraint variables)))))
      (define vconstraints (make-hash))
      (for ([variable (in-hash-keys domains)])
        (hash-set! vconstraints variable null))
      (for ([constraint-variables-pair (in-list constraints)])
        (match-define (cons constraint variables) constraint-variables-pair)
        (for ([variable (in-list variables)])
          (hash-update! vconstraints variable (λ(val) (append val (list (cons constraint variables)))))))
      (for ([constraint-variables-pair (in-list constraints)])
        (match-define (cons constraint variables) constraint-variables-pair)
        (send constraint preProcess variables domains constraints vconstraints))
      (define result #f)
      (let/ec done
        (for ([domain (in-list (hash-values domains))])
          (send domain resetState)
          (when (not domain)
            (set! result (values null null null))
            (done)))
        (set! result (values domains constraints vconstraints)))
      result)
    
    
    ))

(module+ test
  (check-equal? (get-field _solver (new Problem [solver 'solver-in])) 'solver-in)
  (check-equal? (get-field _constraints (new Problem)) null)
  (check-equal? (get-field _variables (new Problem)) (make-hash))
  
  (define problem (new Problem))
  (send problem addVariable "a" '(1 2))
  (check-equal? (hash-ref (get-field _variables problem) "a") '(1 2)) 
  (send problem reset)
  (check-equal? (get-field _variables problem) (make-hash))
  (send problem addVariables '("a" "b") '(1 2 3))
  (check-equal? (hash-ref (get-field _variables problem) "a") '(1 2 3))
  (check-equal? (hash-ref (get-field _variables problem) "b") '(1 2 3))
  (get-field _variables problem)
  (send problem getSolutions)
  )


(define BacktrackingSolver 
  (class object%
    (super-new)))


;; ----------------------------------------------------------------------
;; Domains
;; ----------------------------------------------------------------------


(define Domain
  ;; Class used to control possible values for variables
  ;; When list or tuples are used as domains, they are automatically
  ;; converted to an instance of that class.
  
  (class object%
    (super-new)
    (init-field set)
    (field [_list set])))

(module+ main
  (define p (new Problem))
  (define d  (new Domain [set '(1 2)]))
  )
tribulations 10 years ago			`#lang racket/base`
			`(require racket/class racket/contract racket/match)`
			`(require sugar/container sugar/debug)`

			`(module+ test (require rackunit))`

			`;; Adapted from work by Gustavo Niemeyer`
			`#\|`
			`# Copyright (c) 2005-2014 - Gustavo Niemeyer <gustavo@niemeyer.net>`
			`#`
			`# All rights reserved.`
			`#`
			`# Redistribution and use in source and binary forms, with or without`
			`# modification, are permitted provided that the following conditions are met:`
			`#`
			`# 1. Redistributions of source code must retain the above copyright notice, this`
			`# list of conditions and the following disclaimer.`
			`# 2. Redistributions in binary form must reproduce the above copyright notice,`
			`# this list of conditions and the following disclaimer in the documentation`
			`# and/or other materials provided with the distribution.`
			`#`
			`# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"`
			`# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE`
			`# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE`
			`# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE`
			`# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL`
			`# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR`
			`# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER`
			`# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,`
			`# OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE`
			`# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.`
			`\|#`

			`(provide (all-defined-out))`
			`;(provide Problem Variable Domain Unassigned Solver BacktrackingSolver RecursiveBacktrackingSolver MinConflictsSolver Constraint FunctionConstraint AllDifferentConstraint AllEqualConstraint MaxSumConstraint ExactSumConstraint MinSumConstraint InSetConstraint NotInSetConstraint SomeInSetConstraint SomeNotInSetConstraint)`

			`;(define Problem/c (λ(x) (is-a x Problem)))`

			`(define/contract Problem`
			`;; Class used to define a problem and retrieve solutions`

			`(class/c [reset (->m void?)]`
			;; todo: tighten `object?` contracts
			`[setSolver (object? . ->m . void?)]`
			`[getSolver (->m object?)]`
			;; todo: tighten `object?` contract
			`[addVariable (any/c (or/c list? object?) . ->m . void?)]`
			`[getSolutions (->m list?)])`
			`(class object%`
			`(super-new)`

			`(init-field [solver #f])`
			`(field [_solver (or solver (new BacktrackingSolver))]`
			`[_constraints null]`
			`[_variables (make-hash)])`

			`(define/public (reset)`
			`;; Reset the current problem definition`
			`(set! _constraints null)`
			`(hash-clear! _variables))`

			`(define/public (setSolver solver)`
			`;; Change the problem solver currently in use`
			`(set! _solver solver))`

			`(define/public (getSolver)`
			`;; Obtain the problem solver currently in use`
			`_solver)`

			`(define/public (addVariable variable domain)`
			`;; Add a variable to the problem`
			`(when (variable . in? . _variables)`
			`(error 'addVariable (format "Tried to insert duplicated variable ~a" variable)))`
			`(cond`
			`[(list? domain) (report domain) (set! domain (new Domain [set domain]))]`
			;; todo: test for `instance-of-Domain?` ; how to copy domain?
			`[(object? domain) (report 'foo) (report domain) (set! domain '(copy.copy domain))]`
			`[else (error 'addVariable "Domains must be instances of subclasses of Domain")])`
			`(when (not domain) ; todo: check this test`
			`(error 'addVariable "Domain is empty"))`
			`(hash-set! _variables variable (get-field _list domain)))`

			`(define/public (addVariables variables domain)`
			`;; Add one or more variables to the problem`
			`(for-each (λ(var) (addVariable var domain)) variables))`

			`(define/public (getSolutions)`
			`;; Find and return all solutions to the problem`
			`(define-values (domains constraints vconstraints) (_getArgs))`
			`(if (not domains)`
			`null`
			`(send _solver getSolutions domains constraints vconstraints)))`

			`(define/public (_getArgs)`
			`(define domains (hash-copy _variables))`
			`(define allvariables (hash-keys domains))`
			`(define constraints null)`
			`(for ([constraint-variables-pair (in-list _constraints)])`
			`(match-define (cons constraint variables) constraint-variables-pair)`
			`(when (not variables)`
			`(set! variables allvariables))`
			`(set! constraints (append constraints (list (cons constraint variables)))))`
			`(define vconstraints (make-hash))`
			`(for ([variable (in-hash-keys domains)])`
			`(hash-set! vconstraints variable null))`
			`(for ([constraint-variables-pair (in-list constraints)])`
			`(match-define (cons constraint variables) constraint-variables-pair)`
			`(for ([variable (in-list variables)])`
			`(hash-update! vconstraints variable (λ(val) (append val (list (cons constraint variables)))))))`
			`(for ([constraint-variables-pair (in-list constraints)])`
			`(match-define (cons constraint variables) constraint-variables-pair)`
			`(send constraint preProcess variables domains constraints vconstraints))`
			`(define result #f)`
			`(let/ec done`
			`(for ([domain (in-list (hash-values domains))])`
			`(send domain resetState)`
			`(when (not domain)`
			`(set! result (values null null null))`
			`(done)))`
			`(set! result (values domains constraints vconstraints)))`
			`result)`


			`))`

			`(module+ test`
			`(check-equal? (get-field _solver (new Problem [solver 'solver-in])) 'solver-in)`
			`(check-equal? (get-field _constraints (new Problem)) null)`
			`(check-equal? (get-field _variables (new Problem)) (make-hash))`

			`(define problem (new Problem))`
			`(send problem addVariable "a" '(1 2))`
			`(check-equal? (hash-ref (get-field _variables problem) "a") '(1 2))`
			`(send problem reset)`
			`(check-equal? (get-field _variables problem) (make-hash))`
			`(send problem addVariables '("a" "b") '(1 2 3))`
			`(check-equal? (hash-ref (get-field _variables problem) "a") '(1 2 3))`
			`(check-equal? (hash-ref (get-field _variables problem) "b") '(1 2 3))`
			`(get-field _variables problem)`
			`(send problem getSolutions)`
			`)`


			`(define BacktrackingSolver`
			`(class object%`
			`(super-new)))`


			`;; ----------------------------------------------------------------------`
			`;; Domains`
			`;; ----------------------------------------------------------------------`


			`(define Domain`
			`;; Class used to control possible values for variables`
			`;; When list or tuples are used as domains, they are automatically`
			`;; converted to an instance of that class.`

			`(class object%`
			`(super-new)`
			`(init-field set)`
			`(field [_list set])))`

			`(module+ main`
			`(define p (new Problem))`
			`(define d (new Domain [set '(1 2)]))`
			`)`