Procedure codes no longer save their cp if the cp has no free vars.
This commit is contained in:
Abdulaziz Ghuloum
parent
62b42e8bb8
commit
876a2d7824
BIN
lib/ikarus.boot
BIN
lib/ikarus.boot
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@ -221,7 +221,7 @@
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(define-record eval-cp (check body))
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(define-record return (value))
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(define-record call-cp
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(call-convention label rp-convention base-idx arg-count live-mask))
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(call-convention label save-cp? rp-convention base-idx arg-count live-mask))
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(define-record tailcall-cp (convention label arg-count))
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(define-record primcall (op arg*))
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(define-record primref (name))
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@ -467,7 +467,7 @@
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`(save-cp ,(E expr))]
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[(eval-cp check body)
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`(eval-cp ,check ,(E body))]
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[(call-cp call-convention label rp-convention base-idx arg-count live-mask)
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[(call-cp call-convention label save-cp? rp-convention base-idx arg-count live-mask)
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`(call-cp [conv: ,call-convention]
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[label: ,label]
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[rpconv: ,rp-convention]
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@ -1945,210 +1945,219 @@
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(define (remove-local-variables x)
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(define who 'remove-local-variables)
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(define (simple* x* r)
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(map (lambda (x)
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(cond
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[(assq x r) => cdr]
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[else
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(when (var? x) (error who "unbound var ~s" x))
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x]))
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x*))
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(define (env->mask r sz)
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(let ([s (make-vector (fxsra (fx+ sz 7) 3) 0)])
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(for-each
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(lambda (idx)
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(let ([q (fxsra idx 3)]
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[r (fxlogand idx 7)])
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(vector-set! s q
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(fxlogor (vector-ref s q) (fxsll 1 r)))))
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r)
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s))
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(define (check? x)
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(cond
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[(primref? x) #f] ;;;; PRIMREF CHECK
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[(closure? x) #f]
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[else #t]))
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(define (do-new-frame label op rand* si r call-convention rp-convention orig-live)
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(make-new-frame (fxadd1 si) (fx+ (length rand*) 2)
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(let f ([r* rand*] [nsi (fx+ si 2)] [live orig-live])
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(define (Body orig-x orig-si orig-r orig-live save-cp?)
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(define (simple* x* r)
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(map (lambda (x)
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(cond
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[(assq x r) => cdr]
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[else
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(when (var? x) (error who "unbound var ~s" x))
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x]))
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x*))
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(define (env->mask r sz)
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(let ([s (make-vector (fxsra (fx+ sz 7) 3) 0)])
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(for-each
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(lambda (idx)
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(let ([q (fxsra idx 3)]
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[r (fxlogand idx 7)])
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(vector-set! s q
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(fxlogor (vector-ref s q) (fxsll 1 r)))))
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r)
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s))
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(define (check? x)
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(cond
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[(primref? x) #f] ;;;; PRIMREF CHECK
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[(closure? x) #f]
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[else #t]))
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(define (do-new-frame label op rand* si r call-convention rp-convention orig-live)
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(let ([start-si (if save-cp? (fxadd1 si) si)])
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(make-new-frame start-si (fx+ (length rand*) 2)
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(let f ([r* rand*] [nsi (fxadd1 start-si)] [live orig-live])
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(cond
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[(null? r*)
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(make-seq
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(make-seq
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(if save-cp?
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(make-save-cp (make-frame-var si))
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(nop))
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(case call-convention
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[(normal apply)
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(make-eval-cp (check? op) (Expr op nsi r (cons si live)))]
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[(direct)
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(make-eval-cp (check? op) (Expr op nsi r (cons si live)))]
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[(foreign)
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(make-eval-cp #f (make-foreign-label op))]
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[else (error who "invalid convention ~s" call-convention)]))
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(make-call-cp call-convention label save-cp?
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rp-convention
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start-si ; frame size
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(length rand*) ; argc
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(env->mask (if save-cp?
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(cons si orig-live)
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orig-live)
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start-si)))] ; mask-size ~~ frame size
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[else
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(make-seq
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(make-assign (make-frame-var nsi)
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(Expr (car r*) nsi r live))
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(f (cdr r*) (fxadd1 nsi) (cons nsi live)))])))))
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(define (nop) (make-primcall 'void '()))
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(define (do-bind lhs* rhs* body si r live k)
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(let f ([lhs* lhs*] [rhs* rhs*] [si si] [nr r] [live live])
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(cond
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[(null? r*)
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(make-seq
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(make-seq
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(make-save-cp (make-frame-var si))
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(case call-convention
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[(normal apply direct)
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(make-eval-cp (check? op) (Expr op nsi r (cons si live)))]
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[(foreign)
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(make-eval-cp #f (make-foreign-label op))]
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[else (error who "invalid convention ~s" call-convention)]))
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(make-call-cp call-convention label
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rp-convention
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(fxadd1 si) ; frame size
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(length rand*) ; argc
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(env->mask (cons si orig-live) ; cp and everything before it
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(fxadd1 si))))] ; mask-size ~~ frame size
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[(null? lhs*) (k body si nr live)]
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[else
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(let ([v (make-frame-var si)])
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(make-seq
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(make-assign v (Expr (car rhs*) si r live))
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(f (cdr lhs*) (cdr rhs*) (fxadd1 si)
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(cons (cons (car lhs*) v) nr)
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(cons si live))))])))
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(define (do-closure r)
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(lambda (x)
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(record-case x
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[(closure code free*)
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(make-closure code (simple* free* r))])))
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(define (do-fix lhs* rhs* body si r live k)
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(let f ([l* lhs*] [nlhs* '()] [si si] [r r] [live live])
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(cond
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[(null? l*)
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(make-fix (reverse nlhs*)
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(map (do-closure r) rhs*)
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(k body si r live))]
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[else
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(let ([v (make-frame-var si)])
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(f (cdr l*) (cons v nlhs*) (fxadd1 si)
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(cons (cons (car l*) v) r)
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(cons si live)))])))
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(define (do-tail-frame label op rand* si r call-conv live)
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(define (const? x)
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(record-case x
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[(constant) #t]
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[(primref) #t]
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[else #f]))
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(define (evalrand* rand* i si r live ac)
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(cond
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[(null? rand*)
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;;; evaluate operator after all operands
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(make-seq
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(make-assign (make-frame-var nsi)
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(Expr (car r*) nsi r live))
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(f (cdr r*) (fxadd1 nsi) (cons nsi live)))]))))
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(define (nop) (make-primcall 'void '()))
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(define (do-bind lhs* rhs* body si r live k)
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(let f ([lhs* lhs*] [rhs* rhs*] [si si] [nr r] [live live])
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(cond
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[(null? lhs*) (k body si nr live)]
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[else
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(let ([v (make-frame-var si)])
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(make-seq
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(make-assign v (Expr (car rhs*) si r live))
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(f (cdr lhs*) (cdr rhs*) (fxadd1 si)
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(cons (cons (car lhs*) v) nr)
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(cons si live))))])))
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(define (do-closure r)
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(lambda (x)
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(make-eval-cp (check? op) (Expr op si r live))
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ac)]
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[(const? (car rand*))
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;;; constants are not live since they can be assigned
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;;; after all args are evaluated
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(evalrand* (cdr rand*) (fxadd1 i) (fxadd1 si) r live
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(make-seq ac
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(make-assign (make-frame-var i) (car rand*))))]
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[else
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(let ([vsi (make-frame-var si)]
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[rhs (Expr (car rand*) si r live)])
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(cond
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[(and (frame-var? rhs)
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(fx= (frame-var-idx rhs) i))
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;;; value of rhs is already in f[i]
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;;; just mark it live
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(evalrand* (cdr rand*) (fx+ i 1) (fx+ si 1) r live ac)]
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[(fx= i si)
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(make-seq
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(make-assign vsi rhs)
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(evalrand* (cdr rand*) (fx+ i 1) (fx+ si 1) r
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(cons si live) ac))]
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[else
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(make-seq
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(make-assign vsi rhs)
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(evalrand* (cdr rand*) (fxadd1 i) (fxadd1 si) r (cons si live)
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(make-seq ac
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(make-assign (make-frame-var i) vsi))))]))]))
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(make-seq
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(evalrand* rand* 1 si r live (make-primcall 'void '()))
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(make-tailcall-cp call-conv label (length rand*))))
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(define (Tail x si r live)
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(record-case x
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[(closure code free*)
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(make-closure code (simple* free* r))])))
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(define (do-fix lhs* rhs* body si r live k)
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(let f ([l* lhs*] [nlhs* '()] [si si] [r r] [live live])
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(cond
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[(null? l*)
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(make-fix (reverse nlhs*)
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(map (do-closure r) rhs*)
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(k body si r live))]
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[else
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(let ([v (make-frame-var si)])
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(f (cdr l*) (cons v nlhs*) (fxadd1 si)
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(cons (cons (car l*) v) r)
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(cons si live)))])))
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(define (do-tail-frame label op rand* si r call-conv live)
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(define (const? x)
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(record-case x
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[(constant) #t]
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[(primref) #t]
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[else #f]))
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(define (evalrand* rand* i si r live ac)
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(cond
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[(null? rand*)
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;;; evaluate operator after all operands
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(make-seq
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(make-eval-cp (check? op) (Expr op si r live))
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ac)]
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[(const? (car rand*))
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;;; constants are not live since they can be assigned
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;;; after all args are evaluated
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(evalrand* (cdr rand*) (fxadd1 i) (fxadd1 si) r live
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(make-seq ac
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(make-assign (make-frame-var i) (car rand*))))]
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[else
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(let ([vsi (make-frame-var si)]
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[rhs (Expr (car rand*) si r live)])
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(cond
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[(and (frame-var? rhs)
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(fx= (frame-var-idx rhs) i))
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;;; value of rhs is already in f[i]
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;;; just mark it live
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(evalrand* (cdr rand*) (fx+ i 1) (fx+ si 1) r live ac)]
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[(fx= i si)
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(make-seq
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(make-assign vsi rhs)
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(evalrand* (cdr rand*) (fx+ i 1) (fx+ si 1) r
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(cons si live) ac))]
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[else
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(make-seq
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(make-assign vsi rhs)
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(evalrand* (cdr rand*) (fxadd1 i) (fxadd1 si) r (cons si live)
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(make-seq ac
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(make-assign (make-frame-var i) vsi))))]))]))
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(make-seq
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(evalrand* rand* 1 si r live (make-primcall 'void '()))
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(make-tailcall-cp call-conv label (length rand*))))
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(define (Tail x si r live)
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(record-case x
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[(return v) (make-return (Expr v si r live))]
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[(bind lhs* rhs* body)
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(do-bind lhs* rhs* body si r live Tail)]
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[(fix lhs* rhs* body)
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(do-fix lhs* rhs* body si r live Tail)]
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[(conditional test conseq altern)
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(make-conditional
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(Expr test si r live)
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(Tail conseq si r live)
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(Tail altern si r live))]
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[(seq e0 e1) (make-seq (Effect e0 si r live) (Tail e1 si r live))]
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[(primcall op arg*)
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(make-return
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(make-primcall op
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(map (lambda (x) (Expr x si r live)) arg*)))]
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[(return v) (make-return (Expr v si r live))]
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[(bind lhs* rhs* body)
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(do-bind lhs* rhs* body si r live Tail)]
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[(fix lhs* rhs* body)
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(do-fix lhs* rhs* body si r live Tail)]
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[(conditional test conseq altern)
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(make-conditional
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(Expr test si r live)
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(Tail conseq si r live)
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(Tail altern si r live))]
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[(seq e0 e1) (make-seq (Effect e0 si r live) (Tail e1 si r live))]
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[(primcall op arg*)
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(make-return
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(make-primcall op
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(map (lambda (x) (Expr x si r live)) arg*)))]
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[(funcall op rand*)
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(do-tail-frame #f op rand* si r 'normal live)]
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[(appcall op rand*)
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(do-tail-frame #f op rand* si r 'apply live)]
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[(jmpcall label op rand*)
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(do-tail-frame label op rand* si r 'direct live)]
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[else (error who "invalid expression ~s" (unparse x))]))
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(define (Effect x si r live)
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(record-case x
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[(constant) (nop)]
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[(var) (nop)]
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[(primref) (nop)]
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[(closure code free*) (nop)]
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[(bind lhs* rhs* body)
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(do-bind lhs* rhs* body si r live Effect)]
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[(fix lhs* rhs* body)
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(do-fix lhs* rhs* body si r live Effect)]
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[(conditional test conseq altern)
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(make-conditional
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(Expr test si r live)
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(Effect conseq si r live)
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(Effect altern si r live))]
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[(seq e0 e1) (make-seq (Effect e0 si r live) (Effect e1 si r live))]
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[(primcall op arg*)
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(make-primcall op
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(map (lambda (x) (Expr x si r live)) arg*))]
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[(forcall op rand*)
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(do-new-frame #f op rand* si r 'foreign 'effect live)]
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[(funcall op rand*)
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(do-new-frame #f op rand* si r 'normal 'effect live)]
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[(jmpcall label op rand*)
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(do-new-frame label op rand* si r 'direct 'effect live)]
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[(appcall op rand*)
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(do-new-frame #f op rand* si r 'apply 'effect live)]
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[else (error who "invalid effect expression ~s" (unparse x))]))
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(define (Expr x si r live)
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(record-case x
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[(constant) x]
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[(var)
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(cond
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[(assq x r) => cdr]
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[else (error who "unbound var ~s" x)])]
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[(primref) x]
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[(closure code free*)
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(make-closure code (simple* free* r))]
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[(bind lhs* rhs* body)
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(do-bind lhs* rhs* body si r live Expr)]
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[(fix lhs* rhs* body)
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(do-fix lhs* rhs* body si r live Expr)]
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[(conditional test conseq altern)
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(make-conditional
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(Expr test si r live)
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(Expr conseq si r live)
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(Expr altern si r live))]
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[(seq e0 e1) (make-seq (Effect e0 si r live) (Expr e1 si r live))]
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[(primcall op arg*)
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(make-primcall op
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(map (lambda (x) (Expr x si r live)) arg*))]
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[(forcall op rand*)
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(do-new-frame #f op rand* si r 'foreign 'value live)]
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[(funcall op rand*)
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(do-new-frame #f op rand* si r 'normal 'value live)]
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[(jmpcall label op rand*)
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(do-new-frame label op rand* si r 'direct 'value live)]
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[(appcall op rand*)
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(do-new-frame #f op rand* si r 'apply 'value live)]
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[else (error who "invalid expression ~s" (unparse x))]))
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[(funcall op rand*)
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(do-tail-frame #f op rand* si r 'normal live)]
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[(appcall op rand*)
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(do-tail-frame #f op rand* si r 'apply live)]
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[(jmpcall label op rand*)
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(do-tail-frame label op rand* si r 'direct live)]
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[else (error who "invalid expression ~s" (unparse x))]))
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(define (Effect x si r live)
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(record-case x
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[(constant) (nop)]
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[(var) (nop)]
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[(primref) (nop)]
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[(closure code free*) (nop)]
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[(bind lhs* rhs* body)
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(do-bind lhs* rhs* body si r live Effect)]
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[(fix lhs* rhs* body)
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(do-fix lhs* rhs* body si r live Effect)]
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[(conditional test conseq altern)
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(make-conditional
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(Expr test si r live)
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(Effect conseq si r live)
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(Effect altern si r live))]
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[(seq e0 e1) (make-seq (Effect e0 si r live) (Effect e1 si r live))]
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[(primcall op arg*)
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(make-primcall op
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(map (lambda (x) (Expr x si r live)) arg*))]
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[(forcall op rand*)
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(do-new-frame #f op rand* si r 'foreign 'effect live)]
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[(funcall op rand*)
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(do-new-frame #f op rand* si r 'normal 'effect live)]
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[(jmpcall label op rand*)
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(do-new-frame label op rand* si r 'direct 'effect live)]
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[(appcall op rand*)
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(do-new-frame #f op rand* si r 'apply 'effect live)]
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[else (error who "invalid effect expression ~s" (unparse x))]))
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(define (Expr x si r live)
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(record-case x
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[(constant) x]
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[(var)
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(cond
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[(assq x r) => cdr]
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[else (error who "unbound var ~s" x)])]
|
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[(primref) x]
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[(closure code free*)
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(make-closure code (simple* free* r))]
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[(bind lhs* rhs* body)
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(do-bind lhs* rhs* body si r live Expr)]
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[(fix lhs* rhs* body)
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(do-fix lhs* rhs* body si r live Expr)]
|
||||
[(conditional test conseq altern)
|
||||
(make-conditional
|
||||
(Expr test si r live)
|
||||
(Expr conseq si r live)
|
||||
(Expr altern si r live))]
|
||||
[(seq e0 e1) (make-seq (Effect e0 si r live) (Expr e1 si r live))]
|
||||
[(primcall op arg*)
|
||||
(make-primcall op
|
||||
(map (lambda (x) (Expr x si r live)) arg*))]
|
||||
[(forcall op rand*)
|
||||
(do-new-frame #f op rand* si r 'foreign 'value live)]
|
||||
[(funcall op rand*)
|
||||
(do-new-frame #f op rand* si r 'normal 'value live)]
|
||||
[(jmpcall label op rand*)
|
||||
(do-new-frame label op rand* si r 'direct 'value live)]
|
||||
[(appcall op rand*)
|
||||
(do-new-frame #f op rand* si r 'apply 'value live)]
|
||||
[else (error who "invalid expression ~s" (unparse x))]))
|
||||
(Tail orig-x orig-si orig-r orig-live))
|
||||
(define (bind-fml* fml* r)
|
||||
(let f ([si 1] [fml* fml*])
|
||||
(cond
|
||||
|
|
@ -2169,7 +2178,7 @@
|
|||
(f (cdr free*) (fxadd1 idx)
|
||||
(cons (cons (car free*) (make-cp-var idx)) r))])))
|
||||
(define CaseExpr
|
||||
(lambda (r)
|
||||
(lambda (r save-cp?)
|
||||
(lambda (x)
|
||||
(record-case x
|
||||
[(clambda-case info body)
|
||||
|
|
@ -2178,17 +2187,17 @@
|
|||
(let-values ([(fml* si r live) (bind-fml* fml* r)])
|
||||
(make-clambda-case
|
||||
(make-case-info label fml* proper)
|
||||
(Tail body si r live)))])]))))
|
||||
(Body body si r live save-cp?)))])]))))
|
||||
(define (CodeExpr x)
|
||||
(record-case x
|
||||
[(clambda L cases free)
|
||||
(let ([r (bind-free* free)])
|
||||
(make-clambda L (map (CaseExpr r) cases) free))]))
|
||||
(make-clambda L (map (CaseExpr r (not (null? free))) cases) free))]))
|
||||
(define (CodesExpr x)
|
||||
(record-case x
|
||||
[(codes list body)
|
||||
(make-codes (map CodeExpr list)
|
||||
(Tail body 1 '() '()))]))
|
||||
(Body body 1 '() '() #f))]))
|
||||
(CodesExpr x))
|
||||
|
||||
(define (optimize-ap-check x)
|
||||
|
|
@ -3619,7 +3628,7 @@
|
|||
(do-value-prim op rand* ac)]
|
||||
[(new-frame base-idx size body)
|
||||
(NonTail body ac)]
|
||||
[(call-cp call-convention direct-label rp-convention offset size mask)
|
||||
[(call-cp call-convention direct-label save-cp? rp-convention offset size mask)
|
||||
(let ([L_CALL (unique-label)])
|
||||
(case call-convention
|
||||
[(normal)
|
||||
|
|
@ -3635,7 +3644,7 @@
|
|||
`(byte 0) ; direct calls are ok
|
||||
L_CALL
|
||||
(indirect-cpr-call)
|
||||
(movl (mem 0 fpr) cpr)
|
||||
(if save-cp? (movl (mem 0 fpr) cpr) '(nop))
|
||||
(subl (int (frame-adjustment offset)) fpr)
|
||||
ac)]
|
||||
[(direct)
|
||||
|
|
@ -3649,7 +3658,7 @@
|
|||
(rp-label rp-convention)
|
||||
L_CALL
|
||||
(call (label direct-label))
|
||||
(movl (mem 0 fpr) cpr)
|
||||
(if save-cp? (movl (mem 0 fpr) cpr) '(nop))
|
||||
(subl (int (frame-adjustment offset)) fpr)
|
||||
ac)]
|
||||
[(foreign)
|
||||
|
|
@ -3667,7 +3676,7 @@
|
|||
'(byte 0)
|
||||
L_CALL
|
||||
(call ebx)
|
||||
(movl (mem 0 fpr) cpr)
|
||||
(if save-cp? (movl (mem 0 fpr) cpr) '(nop))
|
||||
(subl (int (frame-adjustment offset)) fpr)
|
||||
ac)]
|
||||
[else
|
||||
|
|
|
|||
Loading…
Reference in New Issue