- debugging in interpreter is changed to use continuation frames
dynamically instead of performing context-sensitive transformation to determine tail/nontail calls. - interpreter now has options to reraise, continue, or quit.
This commit is contained in:
Abdulaziz Ghuloum
parent
391e2fa87b
commit
2929379460
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@ -5,80 +5,95 @@
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(import (ikarus system $codes))
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(import (ikarus system $codes))
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($make-annotated-procedure ann proc))
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($make-annotated-procedure ann proc))
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(define id
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(define-struct trace (src expr rator rands))
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(let ([id -1])
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(lambda ()
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(set! id (+ id 1))
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id)))
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(module (with-click get-traces mark-reduction!
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(module (get-traces debug-call)
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reset-ring)
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(define outer-ring-size 20)
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(define outer-ring-size 30)
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(define inner-ring-size 20)
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(define inner-ring-size 10)
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(define-struct cell (prev next num content))
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(define end-marker -1)
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(define (make-ring n f)
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(define-struct icell (prev next num content))
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(cond
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(define-struct ocell (prev next num cf icell))
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[(= n 1)
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(let ([cell (make-cell #f #f -1 (f))])
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(define (make-ring n cell-prev cell-next cell-prev-set! cell-next-set! make-cell)
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(set-cell-prev! cell cell)
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(let ([ring (make-cell)])
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(set-cell-next! cell cell)
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(cell-prev-set! ring ring)
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cell)]
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(cell-next-set! ring ring)
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[else
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(do ((n n (- n 1)))
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(let ([ring (make-ring (- n 1) f)])
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((<= n 1))
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(let ([next (cell-next ring)])
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(let ([cell (make-cell)]
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(let ([cell (make-cell ring next -1 (f))])
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[next (cell-next ring)])
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(set-cell-prev! next cell)
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(cell-prev-set! cell ring)
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(set-cell-next! ring cell)
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(cell-next-set! cell next)
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cell)))]))
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(cell-prev-set! next cell)
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(cell-next-set! ring cell)))
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ring))
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(define (make-double-ring n m)
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(define (make-double-ring n m)
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(make-ring n (lambda () (make-ring m (lambda () #f)))))
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(make-ring n
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ocell-prev ocell-next set-ocell-prev! set-ocell-next!
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(lambda ()
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(make-ocell #f #f end-marker #f
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(make-ring m
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icell-prev icell-next set-icell-prev! set-icell-next!
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(lambda () (make-icell #f #f end-marker (lambda () #f))))))))
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(define (ring->list x)
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(define (ring->list x cell-num cell-prev cell-content)
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(let f ([x x] [orig #f])
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(let f ([x x] [orig #f])
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(if (or (eq? x orig) (eqv? (cell-num x) -1))
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(if (or (eq? x orig) (eqv? (cell-num x) end-marker))
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'()
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'()
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(cons (cons (cell-num x) (cell-content x))
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(cons (cons (cell-num x) (cell-content x))
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(f (cell-prev x) (or orig x))))))
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(f (cell-prev x) (or orig x))))))
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(define (get-traces)
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(define (get-traces)
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(map (lambda (x)
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(ring->list step-ring ocell-num ocell-prev
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(cons (car x) (ring->list (cdr x))))
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(lambda (x)
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(ring->list step-ring)))
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(ring->list (ocell-icell x) icell-num icell-prev icell-content))))
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(define step-ring #f)
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(define step-ring
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(make-double-ring outer-ring-size inner-ring-size))
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(define (reset-ring)
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(define (debug-call src expr rator rands)
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(printf "RESET!\n")
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(call/cf
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(set! step-ring (make-double-ring outer-ring-size inner-ring-size))
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(lambda (cf)
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(set-cell-num! step-ring 0))
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(if (eq? cf (ocell-cf step-ring))
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(reduce src expr rator rands)
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(let ([cf #f] [pcf #f])
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(dynamic-wind
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(lambda ()
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(let ([prev step-ring])
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(let ([next (ocell-next prev)])
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(set! pcf (ocell-cf prev))
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(set-ocell-num! next (+ (ocell-num prev) 1))
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(set-icell-num! (ocell-icell next) end-marker)
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(set! step-ring next)
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(set-ocell-cf! step-ring cf))))
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(lambda ()
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(call/cf
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(lambda (cf2)
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(set! cf cf2)
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(set-ocell-cf! step-ring cf)
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(reduce src expr rator rands))))
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(lambda ()
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(let ([next step-ring])
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(let ([prev (ocell-prev next)])
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(set-ocell-num! prev (- (ocell-num next) 1))
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(set-ocell-num! next end-marker)
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(set-icell-num! (ocell-icell next) end-marker)
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(set-ocell-cf! prev pcf)
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(set! step-ring prev))))))))))
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(define (with-click p)
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(define (reduce src expr rator rands)
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(dynamic-wind
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(define (mark-reduction! x)
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(lambda ()
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(let ([prev (ocell-icell step-ring)])
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(let ([prev step-ring])
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(let ([next (icell-next prev)])
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(let ([next (cell-next prev)])
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(set-icell-content! next x)
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(set-cell-num! next (+ (cell-num prev) 1))
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(set-icell-num! next (+ (icell-num prev) 1))
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(set-cell-num! (cell-content next) -1)
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(set-ocell-icell! step-ring next))))
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(set! step-ring next))))
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(mark-reduction! (make-trace src expr rator rands))
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p
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(apply rator rands))
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(lambda ()
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(let ([next step-ring])
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(let ([prev (cell-prev next)])
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(set-cell-num! prev (- (cell-num next) 1))
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(set-cell-num! next -1)
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(set-cell-num! (cell-content next) -1)
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(set! step-ring prev))))))
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(define (mark-reduction! x)
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(let ([prev (cell-content step-ring)])
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(let ([next (cell-next prev)])
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(set-cell-content! next x)
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(set-cell-num! next (+ (cell-num prev) 1))
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(set-cell-content! step-ring next))))
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)
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)
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@ -196,14 +211,14 @@
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[(matching? (caar cls*) args)
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[(matching? (caar cls*) args)
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(caar cls*)]
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(caar cls*)]
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[else (f (cdr cls*))])))
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[else (f (cdr cls*))])))
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(define (compile-letrec* binding* body env ctxt tail?)
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(define (compile-letrec* binding* body env ctxt)
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(let ([lhs* (map car binding*)]
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(let ([lhs* (map car binding*)]
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[rhs* (map cadr binding*)])
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[rhs* (map cadr binding*)])
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(let-values ([(env n) (extend-env lhs* env)])
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(let-values ([(env n) (extend-env lhs* env)])
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(let ([rhs* (map (lambda (lhs rhs)
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(let ([rhs* (map (lambda (lhs rhs)
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(compile-expr rhs env lhs #f))
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(compile-expr rhs env lhs))
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lhs* rhs*)]
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lhs* rhs*)]
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[body (compile-expr body env ctxt tail?)])
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[body (compile-expr body env ctxt)])
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(lambda (env)
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(lambda (env)
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(let ([vec (make-vector n)])
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(let ([vec (make-vector n)])
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(let ([env (cons vec env)])
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(let ([env (cons vec env)])
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@ -213,15 +228,15 @@
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(begin
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(begin
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(vector-set! vec i ((car rhs*) env))
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(vector-set! vec i ((car rhs*) env))
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(f (+ i 1) (cdr rhs*))))))))))))
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(f (+ i 1) (cdr rhs*))))))))))))
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(define (compile-library-letrec* binding* body env ctxt tail?)
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(define (compile-library-letrec* binding* body env ctxt)
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(let ([lhs* (map car binding*)]
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(let ([lhs* (map car binding*)]
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[loc* (map cadr binding*)]
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[loc* (map cadr binding*)]
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[rhs* (map caddr binding*)])
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[rhs* (map caddr binding*)])
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(let-values ([(env n) (extend-env lhs* env)])
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(let-values ([(env n) (extend-env lhs* env)])
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(let ([rhs* (map (lambda (lhs rhs)
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(let ([rhs* (map (lambda (lhs rhs)
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(compile-expr rhs env lhs #f))
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(compile-expr rhs env lhs))
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lhs* rhs*)]
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lhs* rhs*)]
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[body (compile-expr body env ctxt tail?)])
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[body (compile-expr body env ctxt)])
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(lambda (env)
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(lambda (env)
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(let ([vec (make-vector n)])
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(let ([vec (make-vector n)])
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(let ([env (cons vec env)])
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(let ([env (cons vec env)])
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@ -236,8 +251,7 @@
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(define (compile-clause fmls expr k)
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(define (compile-clause fmls expr k)
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(let-values ([(env n) (extend-env fmls env)])
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(let-values ([(env n) (extend-env fmls env)])
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(let ([expr (compile-expr expr env
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(let ([expr (compile-expr expr env
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(if (pair? ctxt) (car ctxt) #f)
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(if (pair? ctxt) (car ctxt) #f))])
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#t)])
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(cond
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(cond
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[(list? fmls)
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[(list? fmls)
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(lambda (env args argcount)
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(lambda (env args argcount)
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@ -290,7 +304,7 @@
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(global-ref loc)))]
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(global-ref loc)))]
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[else (die who "invalid value" x)])))
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[else (die who "invalid value" x)])))
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(define (compile-set! lhs rhs env)
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(define (compile-set! lhs rhs env)
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(let ([rhs (compile-expr rhs env lhs #f)]
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(let ([rhs (compile-expr rhs env lhs)]
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[x (lookup lhs env)])
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[x (lookup lhs env)])
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(case (car x)
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(case (car x)
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[(lexical)
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[(lexical)
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@ -302,48 +316,31 @@
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(lambda (env)
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(lambda (env)
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(global-set! loc (rhs env))))]
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(global-set! loc (rhs env))))]
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[else (die who "invalid set! target" lhs)])))
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[else (die who "invalid set! target" lhs)])))
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(define (compile-if e0 e1 e2 env ctxt tail?)
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(define (compile-if e0 e1 e2 env ctxt)
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(let ([e0 (compile-expr e0 env #f #f)]
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(let ([e0 (compile-expr e0 env #f)]
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[e1 (compile-expr e1 env ctxt tail?)]
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[e1 (compile-expr e1 env ctxt)]
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[e2 (compile-expr e2 env ctxt tail?)])
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[e2 (compile-expr e2 env ctxt)])
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(lambda (env)
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(lambda (env)
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(if (e0 env) (e1 env) (e2 env)))))
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(if (e0 env) (e1 env) (e2 env)))))
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(define (compile-begin e e* env ctxt tail?)
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(define (compile-begin e e* env ctxt)
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(cond
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(cond
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[(null? e*) (compile-expr e env ctxt tail?)]
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[(null? e*) (compile-expr e env ctxt)]
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[else
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[else
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(let ([e0 (compile-expr e env #f #f)]
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(let ([e0 (compile-expr e env #f)]
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[e* (compile-begin (car e*) (cdr e*) env ctxt tail?)])
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[e* (compile-begin (car e*) (cdr e*) env ctxt)])
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(lambda (env) (e0 env) (e* env)))]))
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(lambda (env) (e0 env) (e* env)))]))
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(define (get-src/expr ae)
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(define (get-src/expr ae)
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(if (annotation? ae)
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(if (annotation? ae)
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(values (annotation-source ae) (annotation-stripped ae))
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(values (annotation-source ae) (annotation-stripped ae))
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(values #f (syntax->datum ae))))
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(values #f (syntax->datum ae))))
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(define (compile-tail-call ae e e* env ctxt)
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(define (compile-let e e* env ctxt)
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(let ([e (compile-expr e env (list ctxt) #f)]
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[e* (map (lambda (x) (compile-expr x env #f #f)) e*)])
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(if ae
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(let-values ([(src expr) (get-src/expr ae)])
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(lambda (env)
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(let ([e (e env)] [e* (map (lambda (e) (e env)) e*)])
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(mark-reduction! (make-trace src expr env e e* (id)))
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(apply e e*))))
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(lambda (env)
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(let ([e (e env)] [e* (map (lambda (e) (e env)) e*)])
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(mark-reduction! (make-trace #f #f env e e* (id)))
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(apply e e*))))))
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(define (compile-nontail-call ae e e* env ctxt)
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(let ([proc (compile-tail-call ae e e* env ctxt)])
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(lambda (env)
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(with-click (lambda () (proc env))))))
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(define (compile-let e e* env ctxt tail?)
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(define (build-let fmls e* body)
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(define (build-let fmls e* body)
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(let ([e*
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(let ([e*
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(list->vector
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(list->vector
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(map (lambda (x e) (compile-expr e env x #f))
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(map (lambda (x e) (compile-expr e env x))
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fmls e*))])
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fmls e*))])
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(let-values ([(env _) (extend-env fmls env)])
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(let-values ([(env _) (extend-env fmls env)])
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(let ([body (compile-expr body env ctxt tail?)])
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(let ([body (compile-expr body env ctxt)])
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(lambda (env)
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(lambda (env)
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(body (cons (vector-map (lambda (x) (x env)) e*) env)))))))
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(body (cons (vector-map (lambda (x) (x env)) e*) env)))))))
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(define (dispatch cls*)
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(define (dispatch cls*)
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@ -359,12 +356,19 @@
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[(case-lambda) (dispatch (cdr e))]
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[(case-lambda) (dispatch (cdr e))]
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[(annotated-case-lambda) (dispatch (cddr e))]
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[(annotated-case-lambda) (dispatch (cddr e))]
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[else #f])))
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[else #f])))
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(define (compile-call ae e e* env ctxt tail?)
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(define (compile-call ae e e* env ctxt)
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(or (compile-let e e* env ctxt tail?)
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(or (compile-let e e* env ctxt)
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(if tail?
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(let ([e (compile-expr e env (list ctxt))]
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(compile-tail-call ae e e* env ctxt)
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[e* (map (lambda (x) (compile-expr x env #f)) e*)])
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(compile-nontail-call ae e e* env ctxt))))
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(if ae
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(define (compile-expr expr env ctxt tail?)
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(let-values ([(src expr) (get-src/expr ae)])
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(lambda (env)
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(let ([e (e env)] [e* (map (lambda (e) (e env)) e*)])
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(debug-call src expr e e*))))
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(lambda (env)
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(let ([e (e env)] [e* (map (lambda (e) (e env)) e*)])
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(debug-call #f #f e e*)))))))
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(define (compile-expr expr env ctxt)
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(cond
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(cond
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[(symbol? expr) (compile-var expr env)]
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[(symbol? expr) (compile-var expr env)]
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[(and (pair? expr) (list? expr))
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[(and (pair? expr) (list? expr))
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@ -373,9 +377,9 @@
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[(quote) (let ([v (car d)]) (lambda (env) v))]
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[(quote) (let ([v (car d)]) (lambda (env) v))]
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[(set!) (compile-set! (car d) (cadr d) env)]
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[(set!) (compile-set! (car d) (cadr d) env)]
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[(if)
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[(if)
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(compile-if (car d) (cadr d) (caddr d) env ctxt tail?)]
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(compile-if (car d) (cadr d) (caddr d) env ctxt)]
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[(begin)
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[(begin)
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(compile-begin (car d) (cdr d) env ctxt tail?)]
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(compile-begin (car d) (cdr d) env ctxt)]
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[(lambda)
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[(lambda)
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(compile-case-lambda #f (list d) env ctxt)]
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(compile-case-lambda #f (list d) env ctxt)]
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[(case-lambda)
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[(case-lambda)
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@ -383,29 +387,28 @@
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[(annotated-case-lambda)
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[(annotated-case-lambda)
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(compile-case-lambda (car d) (cdr d) env ctxt)]
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(compile-case-lambda (car d) (cdr d) env ctxt)]
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[(letrec letrec*)
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[(letrec letrec*)
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(compile-letrec* (car d) (cadr d) env ctxt tail?)]
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(compile-letrec* (car d) (cadr d) env ctxt)]
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[(library-letrec*)
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[(library-letrec*)
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||||||
(compile-library-letrec* (car d) (cadr d) env ctxt tail?)]
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(compile-library-letrec* (car d) (cadr d) env ctxt)]
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[(primitive)
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[(primitive)
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(let ([v (primitive-value (car d))])
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(let ([v (primitive-value (car d))])
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(lambda (env) v))]
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(lambda (env) v))]
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[(annotated-call)
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[(annotated-call)
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||||||
(compile-call (car d) (cadr d) (cddr d) env ctxt tail?)]
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(compile-call (car d) (cadr d) (cddr d) env ctxt)]
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[(foreign-call)
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[(foreign-call)
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||||||
(let ([name (car d)] [args (cdr d)])
|
(let ([name (car d)] [args (cdr d)])
|
||||||
(let ([ls (map (lambda (x) (gensym)) args)])
|
(let ([ls (map (lambda (x) (gensym)) args)])
|
||||||
(let ([code
|
(let ([code
|
||||||
(real-eval
|
(real-eval
|
||||||
`(lambda ,ls (foreign-call ,name . ,ls)))])
|
`(lambda ,ls (foreign-call ,name . ,ls)))])
|
||||||
(compile-expr `(',code . ,args) env ctxt tail?))))]
|
(compile-expr `(',code . ,args) env ctxt))))]
|
||||||
[else
|
[else
|
||||||
(compile-call #f a d env ctxt tail?)]))]
|
(compile-call #f a d env ctxt)]))]
|
||||||
[else
|
[else
|
||||||
(die who "invalid expression" expr)]))
|
(die who "invalid expression" expr)]))
|
||||||
(lambda (expr)
|
(lambda (expr)
|
||||||
((compile-expr expr '() #f #t) '()))))
|
((compile-expr expr '() #f) '()))))
|
||||||
|
|
||||||
(define-struct trace (src expr env v v* id))
|
|
||||||
|
|
||||||
(define (print-trace x)
|
(define (print-trace x)
|
||||||
(define (chop x)
|
(define (chop x)
|
||||||
|
|
@ -417,11 +420,11 @@
|
||||||
(let ([src (trace-src x)])
|
(let ([src (trace-src x)])
|
||||||
(when (pair? src)
|
(when (pair? src)
|
||||||
(printf " source: char ~a of ~a\n" (cdr src) (car src))))
|
(printf " source: char ~a of ~a\n" (cdr src) (car src))))
|
||||||
(printf " operator: ~s\n" (trace-v x))
|
(printf " operator: ~s\n" (trace-rator x))
|
||||||
(printf " operands: ")
|
(printf " operands: ")
|
||||||
(let ([ls (map (lambda (x) (format "~s" x)) (trace-v* x))])
|
(let ([ls (map (lambda (x) (format "~s" x)) (trace-rands x))])
|
||||||
(if (< (apply + 1 (length ls) (map string-length ls)) 60)
|
(if (< (apply + 1 (length ls) (map string-length ls)) 60)
|
||||||
(write (trace-v* x))
|
(write (trace-rands x))
|
||||||
(begin
|
(begin
|
||||||
(display "(")
|
(display "(")
|
||||||
(let f ([a (car ls)] [ls (cdr ls)])
|
(let f ([a (car ls)] [ls (cdr ls)])
|
||||||
|
|
@ -446,16 +449,21 @@
|
||||||
(define (guarded-start proc)
|
(define (guarded-start proc)
|
||||||
(with-exception-handler
|
(with-exception-handler
|
||||||
(lambda (con)
|
(lambda (con)
|
||||||
(print-all-traces)
|
; (print-all-traces)
|
||||||
(let f ()
|
((call/cc
|
||||||
(printf "continue? (y/n) ")
|
(lambda (k)
|
||||||
(case (read)
|
(printf "Condition trapped by debugger.\n")
|
||||||
[(y) (void)]
|
(print-condition con)
|
||||||
[(n) (raise-continuable con)]
|
(printf "[t] Trace. [r] Reraise condition. [e] Exit. [^D] Return.\n")
|
||||||
[else (f)])))
|
(new-cafe
|
||||||
(lambda ()
|
(lambda (x)
|
||||||
(reset-ring)
|
(case x
|
||||||
(proc))))
|
[(R r) (k (lambda () (raise-continuable con)))]
|
||||||
|
[(E e) (exit 0)]
|
||||||
|
[(T t) (print-all-traces)]
|
||||||
|
[else (printf "invalid option\n")])))
|
||||||
|
void))))
|
||||||
|
proc))
|
||||||
|
|
||||||
(define (start-repl)
|
(define (start-repl)
|
||||||
(display "Ikarus Interpreter\n\n")
|
(display "Ikarus Interpreter\n\n")
|
||||||
|
|
|
||||||
|
|
@ -1 +1 @@
|
||||||
1777
|
1778
|
||||||
|
|
|
||||||
Loading…
Reference in New Issue