491 lines
14 KiB
Scheme
491 lines
14 KiB
Scheme
; -*- scheme -*-
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(define (make-enum-table offset keys)
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(let ((e (table)))
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(for 0 (1- (length keys))
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(lambda (i)
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(put! e (aref keys i) (+ offset i))))))
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(define Instructions
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(make-enum-table 0
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[:nop :dup :pop :call :tcall :jmp :brf :brt :jmp.l :brf.l :brt.l :ret
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:eq? :eqv? :equal? :atom? :not :null? :boolean? :symbol?
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:number? :bound? :pair? :builtin? :vector? :fixnum? :function?
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:cons :list :car :cdr :set-car! :set-cdr!
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:apply
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:+ :- :* :/ :div0 := :< :compare
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:vector :aref :aset!
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:loadt :loadf :loadnil :load0 :load1 :loadi8 :loadv :loadv.l
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:loadg :loada :loadc :loadg.l
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:setg :seta :setc :setg.l
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:closure :argc :vargc :trycatch :copyenv :let :for :tapply :add2 :sub2 :neg
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dummy_t dummy_f dummy_nil]))
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(define arg-counts
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(table :eq? 2 :eqv? 2
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:equal? 2 :atom? 1
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:not 1 :null? 1
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:boolean? 1 :symbol? 1
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:number? 1 :bound? 1
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:pair? 1 :builtin? 1
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:vector? 1 :fixnum? 1
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:cons 2 :car 1
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:cdr 1 :set-car! 2
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:set-cdr! 2 := 2
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:< 2 :compare 2
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:aref 2 :aset! 3
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:div0 2))
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(define (make-code-emitter) (vector () (table) 0))
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(define (emit e inst . args)
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(if (memq inst '(:loadv :loadg :setg))
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(let* ((const-to-idx (aref e 1))
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(nconst (aref e 2))
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(v (car args))
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(vind (if (has? const-to-idx v)
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(get const-to-idx v)
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(begin (put! const-to-idx v nconst)
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(set! nconst (+ nconst 1))
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(- nconst 1)))))
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(aset! e 2 nconst)
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(set! args (list vind))
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(if (>= vind 256)
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(set! inst (case inst
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(:loadv :loadv.l)
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(:loadg :loadg.l)
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(:setg :setg.l))))))
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(aset! e 0 (nreconc (cons inst args) (aref e 0)))
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e)
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(define (make-label e) (gensym))
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(define (mark-label e l) (emit e :label l))
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(define (count f l)
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(define (count- f l n)
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(if (null? l)
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n
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(count- f (cdr l) (if (f (car l))
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(+ n 1)
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n))))
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(count- f l 0))
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; convert symbolic bytecode representation to a byte array.
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; labels are fixed-up.
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(define (encode-byte-code e)
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(let* ((cl (nreverse e))
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(long? (>= (+ (length cl)
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(* 3 (count (lambda (i)
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(memq i '(:loadv :loadg :setg
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:jmp :brt :brf)))
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cl)))
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65536))
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(v (list->vector cl)))
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(let ((n (length v))
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(i 0)
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(label-to-loc (table))
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(fixup-to-label (table))
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(bcode (buffer))
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(vi #f))
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(while (< i n)
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(begin
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(set! vi (aref v i))
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(if (eq? vi :label)
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(begin (put! label-to-loc (aref v (+ i 1)) (sizeof bcode))
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(set! i (+ i 2)))
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(begin
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(io.write bcode
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(byte
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(get Instructions
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(if (and long?
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(memq vi '(:jmp :brt :brf)))
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(case vi
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(:jmp :jmp.l)
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(:brt :brt.l)
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(:brf :brf.l))
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vi))))
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(set! i (+ i 1))
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(if (< i n)
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(let ((nxt (aref v i)))
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(case vi
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((:loadv.l :loadg.l :setg.l)
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(io.write bcode (uint32 nxt))
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(set! i (+ i 1)))
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((:loada :seta :call :tcall :loadv :loadg :setg
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:list :+ :- :* :/ :vector :argc :vargc :loadi8
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:apply :tapply)
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(io.write bcode (uint8 nxt))
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(set! i (+ i 1)))
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((:loadc :setc) ; 2 uint8 args
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(io.write bcode (uint8 nxt))
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(set! i (+ i 1))
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(io.write bcode (uint8 (aref v i)))
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(set! i (+ i 1)))
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((:jmp :brf :brt)
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(put! fixup-to-label (sizeof bcode) nxt)
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(io.write bcode ((if long? uint32 uint16) 0))
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(set! i (+ i 1)))
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(else #f))))))))
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(table.foreach
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(lambda (addr labl)
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(begin (io.seek bcode addr)
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(io.write bcode ((if long? uint32 uint16)
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(get label-to-loc labl)))))
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fixup-to-label)
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(io.tostring! bcode))))
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(define (const-to-idx-vec e)
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(let ((cvec (vector.alloc (aref e 2))))
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(table.foreach (lambda (val idx) (aset! cvec idx val))
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(aref e 1))
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cvec))
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(define (index-of item lst start)
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(cond ((null? lst) #f)
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((eq? item (car lst)) start)
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(else (index-of item (cdr lst) (+ start 1)))))
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(define (in-env? s env) (any (lambda (e) (memq s e)) env))
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(define (lookup-sym s env lev arg?)
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(if (null? env)
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'(global)
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(let* ((curr (car env))
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(i (index-of s curr 0)))
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(if i
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(if arg?
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`(arg ,i)
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`(closed ,lev ,i))
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(lookup-sym s
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(cdr env)
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(if (or arg? (null? curr)) lev (+ lev 1))
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#f)))))
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(define (compile-sym g env s Is)
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(let ((loc (lookup-sym s env 0 #t)))
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(case (car loc)
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(arg (emit g (aref Is 0) (cadr loc)))
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(closed (emit g (aref Is 1) (cadr loc) (caddr loc)))
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(else (emit g (aref Is 2) s)))))
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(define (compile-if g env tail? x)
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(let ((elsel (make-label g))
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(endl (make-label g))
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(test (cadr x))
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(then (caddr x))
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(else (if (pair? (cdddr x))
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(cadddr x)
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#f)))
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(cond ((eq? test #t)
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(compile-in g env tail? then))
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((eq? test #f)
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(compile-in g env tail? else))
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(else
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(compile-in g env #f test)
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(emit g :brf elsel)
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(compile-in g env tail? then)
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(if tail?
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(emit g :ret)
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(emit g :jmp endl))
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(mark-label g elsel)
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(compile-in g env tail? else)
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(mark-label g endl)))))
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(define (compile-begin g env tail? forms)
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(cond ((atom? forms) (compile-in g env tail? #f))
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((atom? (cdr forms))
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(compile-in g env tail? (car forms)))
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(else
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(compile-in g env #f (car forms))
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(emit g :pop)
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(compile-begin g env tail? (cdr forms)))))
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(define (compile-prog1 g env x)
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(compile-in g env #f (cadr x))
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(if (pair? (cddr x))
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(begin (compile-begin g env #f (cddr x))
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(emit g :pop))))
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(define (compile-while g env cond body)
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(let ((top (make-label g))
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(end (make-label g)))
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(compile-in g env #f #f)
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(mark-label g top)
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(compile-in g env #f cond)
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(emit g :brf end)
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(emit g :pop)
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(compile-in g env #f body)
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(emit g :jmp top)
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(mark-label g end)))
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(define (1arg-lambda? func)
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(and (pair? func)
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(eq? (car func) 'lambda)
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(pair? (cdr func))
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(pair? (cadr func))
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(length= (cadr func) 1)))
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(define (compile-for g env lo hi func)
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(if (1arg-lambda? func)
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(begin (compile-in g env #f lo)
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(compile-in g env #f hi)
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(compile-in g env #f func)
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(emit g :for))
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(error "for: third form must be a 1-argument lambda")))
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(define (compile-short-circuit g env tail? forms default branch)
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(cond ((atom? forms) (compile-in g env tail? default))
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((atom? (cdr forms)) (compile-in g env tail? (car forms)))
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(else
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(let ((end (make-label g)))
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(compile-in g env #f (car forms))
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(emit g :dup)
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(emit g branch end)
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(emit g :pop)
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(compile-short-circuit g env tail? (cdr forms) default branch)
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(mark-label g end)))))
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(define (compile-and g env tail? forms)
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(compile-short-circuit g env tail? forms #t :brf))
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(define (compile-or g env tail? forms)
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(compile-short-circuit g env tail? forms #f :brt))
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(define MAX_ARGS 127)
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(define (list-partition l n)
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(define (list-part- l n i subl acc)
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(cond ((atom? l) (if (> i 0)
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(cons (nreverse subl) acc)
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acc))
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((>= i n) (list-part- l n 0 () (cons (nreverse subl) acc)))
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(else (list-part- (cdr l) n (+ 1 i) (cons (car l) subl) acc))))
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(if (<= n 0)
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(error "list-partition: invalid count")
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(nreverse (list-part- l n 0 () ()))))
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(define (length> lst n)
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(cond ((< n 0) lst)
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((= n 0) (and (pair? lst) lst))
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((null? lst) (< n 0))
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(else (length> (cdr lst) (- n 1)))))
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(define (just-compile-args g lst env)
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(for-each (lambda (a)
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(compile-in g env #f a))
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lst))
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(define (compile-arglist g env lst)
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(let ((argtail (length> lst MAX_ARGS)))
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(if argtail
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(begin (just-compile-args g (list-head lst MAX_ARGS) env)
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(let ((rest
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(cons nconc
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(map (lambda (l) (cons list l))
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(list-partition argtail MAX_ARGS)))))
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(compile-in g env #f rest))
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(+ MAX_ARGS 1))
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(begin (just-compile-args g lst env)
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(length lst)))))
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(define (argc-error head count)
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(error (string "compile error: " head " expects " count
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(if (= count 1)
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" argument."
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" arguments."))))
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(define (compile-app g env tail? x)
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(let ((head (car x)))
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(if (and (pair? head)
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(eq? (car head) 'lambda)
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(list? (cadr head)))
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(compile-let g env tail? x)
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(compile-call g env tail? x))))
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(define (compile-let g env tail? x)
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(let ((head (car x))
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(args (cdr x)))
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(unless (length= args (length (cadr head)))
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(error (string "apply: incorrect number of arguments to " head)))
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(emit g :loadv (compile-f env head #t))
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(let ((nargs (compile-arglist g env args)))
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(emit g :copyenv)
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(emit g (if tail? :tcall :call) (+ 1 nargs)))))
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(define (builtin->instruction b)
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(let ((sym (intern (string #\: b))))
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(and (has? Instructions sym) sym)))
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(define (compile-call g env tail? x)
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(let ((head (car x)))
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(let ((head
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(if (and (symbol? head)
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(not (in-env? head env))
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(bound? head)
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(constant? head)
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(builtin? (top-level-value head)))
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(top-level-value head)
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head)))
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(let ((b (and (builtin? head)
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(builtin->instruction head))))
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(if (not b)
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(compile-in g env #f head))
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(let ((nargs (compile-arglist g env (cdr x))))
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(if b
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(let ((count (get arg-counts b #f)))
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(if (and count
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(not (length= (cdr x) count)))
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(argc-error head count))
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(case b ; handle special cases of vararg builtins
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(:list (if (= nargs 0) (emit g :loadnil) (emit g b nargs)))
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(:+ (cond ((= nargs 0) (emit g :load0))
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((= nargs 2) (emit g :add2))
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(else (emit g b nargs))))
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(:- (cond ((= nargs 0) (argc-error head 1))
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((= nargs 1) (emit g :neg))
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((= nargs 2) (emit g :sub2))
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(else (emit g b nargs))))
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(:* (if (= nargs 0) (emit g :load1)
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(emit g b nargs)))
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(:/ (if (= nargs 0)
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(argc-error head 1)
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(emit g b nargs)))
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(:vector (if (= nargs 0)
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(emit g :loadv [])
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(emit g b nargs)))
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(:apply (if (< nargs 2)
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(argc-error head 2)
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(emit g (if tail? :tapply :apply) nargs)))
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(else (emit g b))))
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(emit g (if tail? :tcall :call) nargs)))))))
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(define (fits-i8 x) (and (fixnum? x) (>= x -128) (<= x 127)))
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(define (compile-in g env tail? x)
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(cond ((symbol? x) (compile-sym g env x [:loada :loadc :loadg]))
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((atom? x)
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(cond ((eq? x 0) (emit g :load0))
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((eq? x 1) (emit g :load1))
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((eq? x #t) (emit g :loadt))
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((eq? x #f) (emit g :loadf))
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((eq? x ()) (emit g :loadnil))
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((fits-i8 x) (emit g :loadi8 x))
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(else (emit g :loadv x))))
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(else
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(case (car x)
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(quote (emit g :loadv (cadr x)))
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(if (compile-if g env tail? x))
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(begin (compile-begin g env tail? (cdr x)))
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(prog1 (compile-prog1 g env x))
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(lambda (begin (emit g :loadv (compile-f env x))
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(emit g :closure)))
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(and (compile-and g env tail? (cdr x)))
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(or (compile-or g env tail? (cdr x)))
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(while (compile-while g env (cadr x) (cons 'begin (cddr x))))
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(for (compile-for g env (cadr x) (caddr x) (cadddr x)))
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(return (compile-in g env #t (cadr x))
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(emit g :ret))
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(set! (compile-in g env #f (caddr x))
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(compile-sym g env (cadr x) [:seta :setc :setg]))
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(trycatch (compile-in g env #f `(lambda () ,(cadr x)))
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(unless (1arg-lambda? (caddr x))
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(error "trycatch: second form must be a 1-argument lambda"))
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(compile-in g env #f (caddr x))
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(emit g :trycatch))
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(else (compile-app g env tail? x))))))
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(define (compile-f env f . let?)
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(let ((g (make-code-emitter))
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(args (cadr f)))
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(cond ((not (null? let?)) (emit g :let))
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((null? (lastcdr args)) (emit g :argc (length args)))
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(else (emit g :vargc (if (atom? args) 0 (length args)))))
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(compile-in g (cons (to-proper args) env) #t (caddr f))
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(emit g :ret)
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(function (encode-byte-code (aref g 0))
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(const-to-idx-vec g))))
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(define (compile f) (compile-f () f))
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(define (compile-thunk expr) (compile `(lambda () ,expr)))
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(define (ref-uint32-LE a i)
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(+ (ash (aref a (+ i 0)) 0)
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(ash (aref a (+ i 1)) 8)
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(ash (aref a (+ i 2)) 16)
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(ash (aref a (+ i 3)) 24)))
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(define (ref-uint16-LE a i)
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(+ (ash (aref a (+ i 0)) 0)
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(ash (aref a (+ i 1)) 8)))
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(define (hex5 n)
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(string.lpad (number->string n 16) 5 #\0))
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(define (disassemble f . lev?)
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(if (null? lev?)
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(begin (disassemble f 0)
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(newline)
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(return #t)))
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(let ((lev (car lev?))
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(code (function:code f))
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(vals (function:vals f)))
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(define (print-val v)
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(if (and (function? v) (not (builtin? v)))
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(begin (princ "\n")
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(disassemble v (+ lev 1)))
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(print v)))
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(let ((i 0)
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(N (length code)))
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(while (< i N)
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; find key whose value matches the current byte
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(let ((inst (table.foldl (lambda (k v z)
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(or z (and (eq? v (aref code i))
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k)))
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#f Instructions)))
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(if (> i 0) (newline))
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(dotimes (xx lev) (princ "\t"))
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(princ (hex5 i) ": "
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(string.tail (string inst) 1) "\t")
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(set! i (+ i 1))
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(case inst
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((:loadv.l :loadg.l :setg.l)
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(print-val (aref vals (ref-uint32-LE code i)))
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(set! i (+ i 4)))
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((:loadv :loadg :setg)
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(print-val (aref vals (aref code i)))
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(set! i (+ i 1)))
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((:loada :seta :call :tcall :list :+ :- :* :/ :vector
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:argc :vargc :loadi8 :apply :tapply)
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(princ (number->string (aref code i)))
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(set! i (+ i 1)))
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((:loadc :setc)
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(princ (number->string (aref code i)) " ")
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(set! i (+ i 1))
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(princ (number->string (aref code i)))
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|
(set! i (+ i 1)))
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|
|
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((:jmp :brf :brt)
|
|
(princ "@" (hex5 (ref-uint16-LE code i)))
|
|
(set! i (+ i 2)))
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|
|
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((:jmp.l :brf.l :brt.l)
|
|
(princ "@" (hex5 (ref-uint32-LE code i)))
|
|
(set! i (+ i 4)))
|
|
|
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(else #f)))))))
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|
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#t
|