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;; Programming with constraints, from section 3.3.5 of Abelson and Sussman.
;; Syntactic interface to contraint and probe objects.
;; These operations inform them that a value has become defined or undefined;
;; they have to figure out which value is involved.
(define (inform-about-value constraint)
((constraint 'I-have-a-value)))
(define (inform-about-no-value constraint)
((constraint 'I-lost-my-value)))
;; Types of constraints defined here: adder, multiplier and constant;
;; also define probe, which is a pseudo-constraint.
(define (adder a1 a2 sum)
(define (process-new-value)
(cond ((and (has-value? a1) (has-value? a2))
(set-value! sum
(+ (get-value a1) (get-value a2))
me))
((and (has-value? a1) (has-value? sum))
(set-value! a2
(- (get-value sum) (get-value a1))
me))
((and (has-value? a2) (has-value? sum))
(set-value! a1
(- (get-value sum) (get-value a2))
me))))
(define (process-forget-value)
(forget-value! sum me)
(forget-value! a1 me)
(forget-value! a2 me)
(process-new-value))
(define (me request)
(cond ((eq? request 'I-have-a-value)
process-new-value)
((eq? request 'I-lost-my-value)
process-forget-value)
(else
(error "Unknown request -- ADDER" request))))
(connect a1 me)
(connect a2 me)
(connect sum me)
me)
(define (multiplier m1 m2 product)
(define (process-new-value)
(cond ((or (if (has-value? m1) (= (get-value m1) 0) #f)
(if (has-value? m2) (= (get-value m2) 0) #f))
(set-value! product 0 me))
((and (has-value? m1) (has-value? m2))
(set-value! product
(* (get-value m1) (get-value m2))
me))
((and (has-value? m1) (has-value? product))
(set-value! m2
(/ (get-value product) (get-value m1))
me))
((and (has-value? m2) (has-value? product))
(set-value! m1
(/ (get-value product) (get-value m2))
me))))
(define (process-forget-value)
(forget-value! product me)
(forget-value! m1 me)
(forget-value! m2 me)
(process-new-value))
(define (me request)
(cond ((eq? request 'I-have-a-value)
process-new-value)
((eq? request 'I-lost-my-value)
process-forget-value)
(else
(error "Unknown request -- MULTIPLIER" request))))
(connect m1 me)
(connect m2 me)
(connect product me)
me)
(define (constant value connector)
(define (me request)
(error "Unknown request -- CONSTANT" request))
(connect connector me)
(set-value! connector value me)
me)
(define (probe name connector)
(define (process-new-value)
(display "Probe: ")
(display name)
(display " = ")
(display (get-value connector))
(newline))
(define (process-forget-value)
(display "Probe: ")
(display name)
(display " = ")
(display "?")
(newline))
(define (me request)
(cond ((eq? request 'I-have-a-value)
process-new-value)
((eq? request 'I-lost-my-value)
process-forget-value)
(else
(error "Unknown request -- PROBE" request))))
(connect connector me)
me)
;; syntactic interface to connector objects
(define (has-value? connector)
(connector 'has-value?))
(define (get-value connector)
(connector 'value))
(define (forget-value! connector retractor)
((connector 'forget) retractor))
(define (set-value! connector new-value informant)
((connector 'set-value!) new-value informant))
(define (connect connector new-constraint)
((connector 'connect) new-constraint))
;; connector object generator.
(define (make-connector)
(let ((value #f) (informant #f) (constraints '()))
(define (set-my-value newval setter)
(cond ((not (has-value? me))
(set! value newval)
(set! informant setter)
(for-each-except setter
inform-about-value
constraints))
((not (= value newval))
(error "Contradiction" (list value newval)))))
(define (forget-my-value retractor)
(if (eq? retractor informant)
(begin (set! informant #f)
(for-each-except retractor
inform-about-no-value
constraints))))
(define (connect new-constraint)
(if (not (memq new-constraint constraints))
(set! constraints
(cons new-constraint constraints)))
(if (has-value? me)
(inform-about-value new-constraint)))
(define (me request)
(cond ((eq? request 'has-value?)
(not (null? informant)))
((eq? request 'value) value)
((eq? request 'set-value!) set-my-value)
((eq? request 'forget) forget-my-value)
((eq? request 'connect) connect)
(else (error "Unknown operation -- CONNECTOR" request))))
me))
;; Helper procedure for connector:
;; do the procedure for each element of list EXCEPT the exception.
;; used to inform connected constraints of value changes
;; (don't want to inform the source of the change)
(define (for-each-except exception procedure list)
(define (loop items)
(cond ((null? items) 'done)
((eq? (car items) exception) (loop (cdr items)))
(else (procedure (car items))
(loop (cdr items)))))
(loop list))
;; Example application: Centigrade/Fahrenheit converter.
;; Internal connectors and constraints are stashed in a private environment.
;; see Ex. 3.37 for a cleaner way to do this.
(define (centigrade-fahrenheit-converter c f)
(let ((u (make-connector))
(v (make-connector))
(w (make-connector))
(x (make-connector))
(y (make-connector)))
(multiplier c w u)
(multiplier v x u)
(adder v y f)
(constant 9 w)
(constant 5 x)
(constant 32 y)))
(define C (make-connector))
(define F (make-connector))
(centigrade-fahrenheit-converter C F)
(probe "centigrade temp" C)
(probe "Fahrenheit temp" F)
(define (fma-constraint f m a)
(multiplier m a f))
(define force (make-connector))
(define mass (make-connector))
(define acceleration (make-connector))
(fma-constraint force mass acceleration)
(probe "force" force)
(probe "mass" mass)
(probe "acceleration" acceleration)
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