(module letrec mzscheme
(require (file "../reduction-semantics.ss")
(file "../gui.ss")
(file "../subst.ss")
(lib "list.ss"))
(reduction-steps-cutoff 20)
(define lang
(language
(p ((store (x v) ...) e))
(e (set! x e)
(let ((x e)) e)
(letrec ((x e)) e)
(begin e e ...)
(e e)
x
v)
(v (lambda (x) e)
number)
(x variable)
(pc ((store (x v) ...) ec))
(ec (ec e)
(v ec)
(set! variable ec)
(let ((x ec)) e)
(begin ec e e ...)
hole)))
(define substitute
(subst
[(? symbol?) (variable)]
[(? number?) (constant)]
[`(lambda (,x) ,b)
(all-vars (list x))
(build (lambda (vars body) `(lambda (,(car vars)) ,body)))
(subterm (list x) b)]
[`(set! ,x ,e)
(all-vars '())
(build (lambda (vars name body) `(set! ,name ,body)))
(subterm '() x)
(subterm '() e)]
[`(let ((,x ,e1)) ,e2)
(all-vars (list x))
(build (lambda (vars letval body) `(let ((,(car vars) ,letval)) ,body)))
(subterm '() e1)
(subterm (list x) e2)]
[`(letrec ((,x ,e1)) ,e2)
(all-vars (list x))
(build (lambda (vars letval body) `(letrec ((,(car vars) ,letval)) ,body)))
(subterm '() e1)
(subterm (list x) e2)]
[`(begin ,@(es ...))
(all-vars (list))
(build (lambda (vars . rest) `(begin ,@rest)))
(subterms '() es)]
[`(,f ,x)
(all-vars '())
(build (lambda (vars f x) `(,f ,x)))
(subterm '() f)
(subterm '() x)]))
(define (collect p)
(define (find-unused vars p)
(filter (λ (var) (unused? var p))
vars))
(define (unused? var p)
(let ([rhss (map cadr (cdar p))]
[body (cadr p)])
(and (not (free-in? var body))
(andmap (λ (rhs) (not (free-in? var rhs)))
rhss))))
(define (free-in? var body)
(not (equal? (substitute var (gensym) body)
body)))
(define (remove-unused vars p)
`((store ,@(filter (λ (binding) (not (memq (car binding) vars)))
(cdar p)))
,(cadr p)))
(let* ([vars (map car (cdar p))]
[unused (find-unused vars p)])
(cond
[(null? unused) p]
[else
(collect (remove-unused unused p))])))
(define reductions
(reduction-relation
lang
(==> (in-hole pc_1 (begin v e_1 e_2 ...))
(in-hole pc_1 (begin e_1 e_2 ...))
begin\ many)
(==> (in-hole pc_1 (begin e_1))
(in-hole pc_1 e_1)
begin\ one)
(==> ((store
(name befores (x v)) ...
(x_i v_i)
(name afters (x v)) ...)
(in-hole ec_1 x_i))
((store
befores ...
(x_i v_i)
afters ...)
(in-hole ec_1 v_i))
deref)
(==> ((store (name befores (variable v)) ...
(x_i v)
(name afters (variable v)) ...)
(in-hole ec_1 (set! x_i v_new)))
((store
befores ...
(x_i v_new)
afters ...)
(in-hole ec_1 v_new))
set!)
(==> (in-hole pc_1 ((lambda (x_1) e_1) v_1))
(in-hole pc_1
,(substitute (term x_1) (term v_1) (term e_1)))
βv)
(==> ((store (name the-store any) ...)
(in-hole ec_1 (let ((x_1 v_1)) e_1)))
,(let ((new-x (variable-not-in (term (the-store ...)) (term x_1))))
(term
((store the-store ... (,new-x v_1))
(in-hole ec_1
,(substitute (term x_1) new-x (term e_1))))))
let)
(==> (in-hole pc_1 (letrec ((x_1 e_1)) e_2))
(in-hole pc_1 (let ((x_1 0)) (begin (set! x_1 e_1) e_2)))
letrec)
where
[(==> a b) (--> a ,(collect (term b)))]))
(define (run e) (traces lang reductions `((store) ,e)))
(run '(letrec ((f (lambda (x)
(letrec ((y (f 1)))
2))))
(f 3)))
(run '(letrec ((f (lambda (x)
(letrec ((y 1))
(f 1)))))
(f 3))))
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