ikarus/scheme/ikarus.compiler.ss

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;;; Ikarus Scheme -- A compiler for R6RS Scheme.
;;; Copyright (C) 2006,2007,2008 Abdulaziz Ghuloum
;;;
;;; This program is free software: you can redistribute it and/or modify
;;; it under the terms of the GNU General Public License version 3 as
;;; published by the Free Software Foundation.
;;;
;;; This program is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
;;; General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with this program. If not, see <http://www.gnu.org/licenses/>.
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(library (ikarus.compiler)
(export compile-core-expr-to-port
assembler-output optimize-cp
current-primitive-locations eval-core
compile-core-expr expand/optimize optimizer-output
cp0-effort-limit cp0-size-limit optimize-level
perform-tag-analysis tag-analysis-output)
(import
(rnrs hashtables)
(ikarus system $fx)
(ikarus system $pairs)
(only (ikarus system $codes) $code->closure)
(only (ikarus system $structs) $struct-ref $struct/rtd?)
(except (ikarus)
optimize-level debug-optimizer
fasl-write scc-letrec optimize-cp
compile-core-expr-to-port assembler-output
current-primitive-locations eval-core
cp0-size-limit cp0-effort-limit
expand/optimize optimizer-output
tag-analysis-output perform-tag-analysis)
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(ikarus.fasl.write)
(ikarus.intel-assembler))
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(define-syntax struct-case
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(lambda (x)
(define (enumerate fld* i)
(syntax-case fld* ()
[() #'()]
[(x . x*)
(with-syntax ([i i] [i* (enumerate #'x* (fx+ i 1))])
#'(i . i*))]))
(define (generate-body ctxt cls*)
(syntax-case cls* (else)
[() (with-syntax ([x x]) #'(error #f "unmatched " v 'x))]
[([else b b* ...]) #'(begin b b* ...)]
[([(rec-name rec-field* ...) b b* ...] . rest) (identifier? #'rec-name)
(with-syntax ([altern (generate-body ctxt #'rest)]
[(id* ...) (enumerate #'(rec-field* ...) 0)]
[rtd #'(type-descriptor rec-name)])
#'(if ($struct/rtd? v rtd)
(let ([rec-field* ($struct-ref v id*)] ...)
b b* ...)
altern))]))
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(syntax-case x ()
[(_ expr cls* ...)
(with-syntax ([body (generate-body #'_ #'(cls* ...))])
#'(let ([v expr]) body))])))
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(define (remq1 x ls)
(cond
[(null? ls) '()]
[(eq? x (car ls)) (cdr ls)]
[else
(let ([t (remq1 x (cdr ls))])
(cond
[(eq? t (cdr ls)) ls]
[else (cons (car ls) t)]))]))
(define (singleton x) (list x))
(define (union s1 s2)
(define (add* s1 s2)
(cond
[(null? s1) s2]
[else (add (car s1) (add* (cdr s1) s2))]))
(define (add x s)
(cond
[(memq x s) s]
[else (cons x s)]))
(cond
[(null? s1) s2]
[(null? s2) s1]
[else (add* s1 s2)]))
(define (difference s1 s2)
(define (rem* s1 s2)
(cond
[(null? s1) s2]
[else (remq1 (car s1) (rem* (cdr s1) s2))]))
(cond
[(null? s1) '()]
[(null? s2) s1]
[else (rem* s2 s1)]))
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(define-struct constant (value))
(define-struct code-loc (label))
(define-struct foreign-label (label))
(define-struct var
(name reg-conf frm-conf var-conf reg-move frm-move var-move
loc index referenced global-loc))
(define-struct cp-var (idx))
(define-struct frame-var (idx))
(define-struct new-frame (base-idx size body))
(define-struct save-cp (loc))
(define-struct eval-cp (check body))
(define-struct return (value))
(define-struct call-cp
(call-convention label save-cp? rp-convention base-idx arg-count live-mask))
(define-struct tailcall-cp (convention label arg-count))
(define-struct primcall (op arg*))
(define-struct primref (name))
(define-struct conditional (test conseq altern))
(define-struct interrupt-call (test handler))
(define-struct bind (lhs* rhs* body))
(define-struct recbind (lhs* rhs* body))
(define-struct rec*bind (lhs* rhs* body))
(define-struct fix (lhs* rhs* body))
(define-struct seq (e0 e1))
(define-struct case-info (label args proper))
(define-struct clambda-case (info body))
(define-struct clambda (label cases cp free name))
(define-struct closure (code free* well-known?))
(define-struct funcall (op rand*))
(define-struct jmpcall (label op rand*))
(define-struct forcall (op rand*))
(define-struct codes (list body))
(define-struct assign (lhs rhs))
(define-struct mvcall (producer consumer))
(define-struct known (expr type))
(define-struct shortcut (body handler))
(define-struct fvar (idx))
(define-struct object (val))
(define-struct locals (vars body))
(define-struct nframe (vars live body))
(define-struct nfv (conf loc var-conf frm-conf nfv-conf))
(define-struct ntcall (target value args mask size))
(define-struct asm-instr (op dst src))
(define-struct disp (s0 s1))
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;;; this define-structure definition for compatibility with the
;;; notation used in Oscar's thesis.
(define-syntax define-structure
(lambda (stx)
(define (fmt ctxt)
(lambda (str . args)
(datum->syntax ctxt
(string->symbol
(apply format str (map syntax->datum args))))))
(syntax-case stx ()
[(_ (name fields ...))
#'(define-struct name (fields ...))]
[(_ (name fields ...) ([others defaults] ...))
(with-syntax ([(pred maker (getters ...) (setters ...))
(let ([fmt (fmt #'name)])
(list (fmt "~s?" #'name)
(fmt "make-~s" #'name)
(map (lambda (x) (fmt "~s-~s" #'name x))
#'(fields ... others ...))
(map (lambda (x) (fmt "set-~s-~s!" #'name x))
#'(fields ... others ...))))])
#'(module (name pred getters ... setters ... maker)
(module P (name pred getters ... setters ... maker)
(define-struct name (fields ... others ...)))
(module (maker)
(define (maker fields ...)
(import P)
(maker fields ... defaults ...)))
(module (name pred getters ... setters ...)
(import P))))])))
;;;
(define-structure (prelex name operand)
([source-referenced? #f]
[source-assigned? #f]
[residual-referenced? #f]
[residual-assigned? #f]
[global-location #f]))
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(define mkfvar
(let ([cache '()])
(lambda (i)
(cond
[(fixnum? i)
(cond
[(assv i cache) => cdr]
[else
(let ([fv (make-fvar i)])
(set! cache (cons (cons i fv) cache))
fv)])]
[else (error 'mkfvar "not a fixnum" i)]))))
(define (unique-var name)
(make-var name #f #f #f #f #f #f #f #f #f #f))
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(define (recordize x)
(define *cookie* (gensym))
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(define (gen-fml* fml*)
(cond
[(pair? fml*)
(let ([v (make-prelex (car fml*) #f)])
(putprop (car fml*) *cookie* v)
(cons v (gen-fml* (cdr fml*))))]
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[(symbol? fml*)
(let ([v (make-prelex fml* #f)])
(putprop fml* *cookie* v)
v)]
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[else '()]))
(define (ungen-fml* fml*)
(cond
[(pair? fml*)
(remprop (car fml*) *cookie*)
(ungen-fml* (cdr fml*))]
[(symbol? fml*)
(remprop fml* *cookie*)]))
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(define (properize fml*)
(cond
[(pair? fml*)
(cons (car fml*) (properize (cdr fml*)))]
[(null? fml*) '()]
[else (list fml*)]))
(define (quoted-sym x)
(if (and (list? x)
(fx= (length x) 2)
(eq? 'quote (car x))
(symbol? (cadr x)))
(cadr x)
(error 'quoted-sym "not a quoted symbol" x)))
(define (quoted-string x)
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(if (and (list? x)
(fx= (length x) 2)
(eq? 'quote (car x))
(string? (cadr x)))
(cadr x)
(error 'quoted-string "not a quoted string" x)))
(define (lexical x)
(getprop x *cookie*))
(define (get-fmls x args)
(define (matching? fmls args)
(cond
[(null? fmls) (null? args)]
[(pair? fmls) (and (pair? args) (matching? (cdr fmls) (cdr args)))]
[else #t]))
(cond
[(and (pair? x) (eq? (car x) 'case-lambda))
(let f ([cls* (cdr x)])
(cond
[(null? cls*) '()]
[(matching? (caar cls*) args)
(caar cls*)]
[else (f (cdr cls*))]))]
[else '()]))
(define (make-global-set! lhs rhs)
(make-funcall (make-primref '$init-symbol-value!)
(list (make-constant lhs) rhs)))
(define-syntax equal-case
(lambda (x)
(syntax-case x ()
[(_ val clause* ...)
(with-syntax ([body
(let f ([clause* #'(clause* ...)])
(syntax-case clause* (else)
[([else e e* ...])
#'(begin e e* ...)]
[([(datum* ...) e e* ...] . rest)
(with-syntax ([rest (f #'rest)])
#'(if (member t '(datum* ...))
(begin e e* ...)
rest))]))])
#'(let ([t val]) body))])))
(define (E x ctxt)
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(cond
[(pair? x)
(equal-case (car x)
[(quote) (make-constant (cadr x))]
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[(if)
(make-conditional
(E (cadr x) #f)
(E (caddr x) ctxt)
(E (cadddr x) ctxt))]
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[(set!)
(let ([lhs (cadr x)] [rhs (caddr x)])
(cond
[(lexical lhs) =>
(lambda (var)
(set-prelex-source-assigned?! var #t)
(make-assign var (E rhs lhs)))]
[else (make-global-set! lhs (E rhs lhs))]))]
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[(begin)
(let f ([a (cadr x)] [d (cddr x)])
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(cond
[(null? d) (E a ctxt)]
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[else
(make-seq (E a #f) (f (car d) (cdr d)))]))]
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[(letrec)
(let ([bind* (cadr x)] [body (caddr x)])
(let ([lhs* (map car bind*)]
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[rhs* (map cadr bind*)])
(let ([nlhs* (gen-fml* lhs*)])
(let ([expr (make-recbind nlhs* (map E rhs* lhs*) (E body ctxt))])
(ungen-fml* lhs*)
expr))))]
[(letrec*)
(let ([bind* (cadr x)] [body (caddr x)])
(let ([lhs* (map car bind*)]
[rhs* (map cadr bind*)])
(let ([nlhs* (gen-fml* lhs*)])
(let ([expr (make-rec*bind nlhs* (map E rhs* lhs*) (E body ctxt))])
(ungen-fml* lhs*)
expr))))]
[(library-letrec*)
(let ([bind* (cadr x)] [body (caddr x)])
(let ([lhs* (map car bind*)]
[loc* (map cadr bind*)]
[rhs* (map caddr bind*)])
(let ([nlhs* (gen-fml* lhs*)])
(for-each
(lambda (lhs loc)
(set-prelex-global-location! lhs loc))
nlhs* loc*)
(let ([expr (make-rec*bind nlhs* (map E rhs* lhs*)
(let f ([lhs* nlhs*] [loc* loc*])
(cond
[(null? lhs*) (E body ctxt)]
[(not (car loc*)) (f (cdr lhs*) (cdr loc*))]
[else (f (cdr lhs*) (cdr loc*))])))])
(ungen-fml* lhs*)
expr))))]
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[(case-lambda)
(let ([cls*
(map
(let ([ctxt (if (pair? ctxt) (car ctxt) #f)])
(lambda (cls)
(let ([fml* (car cls)] [body (cadr cls)])
(let ([nfml* (gen-fml* fml*)])
(let ([body (E body ctxt)])
(ungen-fml* fml*)
(make-clambda-case
(make-case-info
(gensym)
(properize nfml*)
(list? fml*))
body))))))
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(cdr x))])
(make-clambda (gensym) cls* #f #f
(and (symbol? ctxt) ctxt)))]
[(lambda)
(E `(case-lambda ,(cdr x)) ctxt)]
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[(foreign-call)
(let ([name (quoted-string (cadr x))] [arg* (cddr x)])
(make-forcall name (map (lambda (x) (E x #f)) arg*)))]
[(primitive)
(let ([var (cadr x)])
(make-primref var))]
[((primitive make-parameter))
(case (length x)
[(2)
(let ([val-expr (cadr x)]
[t (gensym 't)]
[x (gensym 'x)])
(E `((lambda (,t)
(case-lambda
[() ,t]
[(,x) (set! ,t ,x)]))
,val-expr)
ctxt))]
[(3)
(let ([val-expr (cadr x)]
[guard-expr (caddr x)]
[f (gensym 'f)]
[t (gensym 't)]
[t0 (gensym 't)]
[x (gensym 'x)])
(E `((case-lambda
[(,t ,f)
(if ((primitive procedure?) ,f)
((case-lambda
[(,t0)
(case-lambda
[() ,t0]
[(,x) (set! ,t0 (,f ,x))])])
(,f ,t))
((primitive die)
'make-parameter
'"not a procedure"
,f))])
,val-expr
,guard-expr)
ctxt))]
[else
(make-funcall
(make-primref 'make-parameter)
(map (lambda (x) (E x #f)) (cdr x)))])]
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[else
(let ([names (get-fmls (car x) (cdr x))])
(make-funcall
(E (car x) (list ctxt))
(let f ([arg* (cdr x)] [names names])
(cond
[(pair? names)
(cons
(E (car arg*) (car names))
(f (cdr arg*) (cdr names)))]
[else
(map (lambda (x) (E x #f)) arg*)]))))])]
[(symbol? x)
(cond
[(lexical x) =>
(lambda (var)
(set-prelex-source-referenced?! var #t)
var)]
[else
(make-funcall
(make-primref 'top-level-value)
(list (make-constant x)))])]
[else (error 'recordize "invalid expression" x)]))
(E x #f))
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(define (unparse x)
(define (E-args proper x)
(if proper
(map E x)
(let f ([a (car x)] [d (cdr x)])
(cond
[(null? d) (E a)]
[else (cons (E a) (f (car d) (cdr d)))]))))
(define (E x)
(struct-case x
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[(constant c) `(quote ,c)]
[(known x t) `(known ,(E x) ,(T:description t))]
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[(code-loc x) `(code-loc ,x)]
[(var x) (string->symbol (format ":~a" x))]
[(prelex name) (string->symbol (format ":~a" name))]
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[(primref x) x]
[(conditional test conseq altern)
`(if ,(E test) ,(E conseq) ,(E altern))]
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[(interrupt-call e0 e1)
`(interrupt-call ,(E e0) ,(E e1))]
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[(primcall op arg*) `(,op . ,(map E arg*))]
[(bind lhs* rhs* body)
`(let ,(map (lambda (lhs rhs) (list (E lhs) (E rhs))) lhs* rhs*)
,(E body))]
[(recbind lhs* rhs* body)
`(letrec ,(map (lambda (lhs rhs) (list (E lhs) (E rhs))) lhs* rhs*)
,(E body))]
[(rec*bind lhs* rhs* body)
`(letrec* ,(map (lambda (lhs rhs) (list (E lhs) (E rhs))) lhs* rhs*)
,(E body))]
;[(library-recbind lhs* loc* rhs* body)
; `(letrec ,(map (lambda (lhs loc rhs) (list (E lhs) loc (E rhs)))
; lhs* loc* rhs*)
; ,(E body))]
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[(fix lhs* rhs* body)
`(fix ,(map (lambda (lhs rhs) (list (E lhs) (E rhs))) lhs* rhs*)
,(E body))]
[(seq e0 e1)
(let ()
(define (f x ac)
(struct-case x
[(seq e0 e1) (f e0 (f e1 ac))]
[else (cons (E x) ac)]))
(cons 'begin (f e0 (f e1 '()))))]
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[(clambda-case info body)
`( ; label: ,(case-info-label info)
,(E-args (case-info-proper info) (case-info-args info))
,(E body))]
[(clambda g cls* cp free)
`(clambda (label: ,g) ; cp: ,(E cp) ) ;free: ,(map E free))
,@(map E cls*))]
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[(clambda label clauses free)
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`(code ,label . ,(map E clauses))]
[(closure code free* wk?)
`(closure ,@(if wk? '(wk) '()) ,(E code) ,(map E free*))]
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[(codes list body)
`(codes ,(map E list)
,(E body))]
[(funcall rator rand*) `(funcall ,(E rator) . ,(map E rand*))]
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[(jmpcall label rator rand*)
`(jmpcall ,label ,(E rator) . ,(map E rand*))]
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[(forcall rator rand*) `(foreign-call ,rator . ,(map E rand*))]
[(assign lhs rhs) `(set! ,(E lhs) ,(E rhs))]
[(return x) `(return ,(E x))]
[(new-frame base-idx size body)
`(new-frame [base: ,base-idx]
[size: ,size]
,(E body))]
[(frame-var idx)
(string->symbol (format "fv.~a" idx))]
[(cp-var idx)
(string->symbol (format "cp.~a" idx))]
[(save-cp expr)
`(save-cp ,(E expr))]
[(eval-cp check body)
`(eval-cp ,check ,(E body))]
[(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]
[rpconv: ,(if (symbol? rp-convention)
rp-convention
(E rp-convention))]
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[base-idx: ,base-idx]
[arg-count: ,arg-count]
[live-mask: ,live-mask])]
[(tailcall-cp convention label arg-count)
`(tailcall-cp ,convention ,label ,arg-count)]
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[(foreign-label x) `(foreign-label ,x)]
[(mvcall prod cons) `(mvcall ,(E prod) ,(E cons))]
[(fvar idx) (string->symbol (format "fv.~a" idx))]
[(nfv idx) 'nfv]
[(locals vars body) `(locals ,(map E vars) ,(E body))]
[(asm-instr op d s)
`(asm ,op ,(E d) ,(E s))]
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[(disp s0 s1)
`(disp ,(E s0) ,(E s1))]
[(nframe vars live body) `(nframe ;[vars: ,(map E vars)]
;[live: ,(map E live)]
,(E body))]
[(shortcut body handler)
`(shortcut ,(E body) ,(E handler))]
[(ntcall target valuw args mask size)
`(ntcall ,target ,size)]
[else
(if (symbol? x)
x
"#<unknown>")]))
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(E x))
(define (unparse-pretty x)
(define n 0)
(define h (make-eq-hashtable))
(define (Var x)
(or (hashtable-ref h x #f)
(let ([v (string->symbol (format "~a_~a" (prelex-name x) n))])
(hashtable-set! h x v)
(set! n (+ n 1))
v)))
(define (map f ls)
(cond
[(null? ls) '()]
[else
(let ([a (f (car ls))])
(cons a (map f (cdr ls))))]))
(define (E-args proper x)
(if proper
(map Var x)
(let f ([a (car x)] [d (cdr x)])
(cond
[(null? d) (Var a)]
[else
(let ([a (Var a)])
(cons a (f (car d) (cdr d))))]))))
(define (clambda-clause x)
(struct-case x
[(clambda-case info body)
(let ([args (E-args (case-info-proper info) (case-info-args info)) ])
(list args (E body)))]))
(define (build-let b* body)
(cond
[(and (= (length b*) 1)
(pair? body)
(or (eq? (car body) 'let*)
(and (eq? (car body) 'let)
(= (length (cadr body)) 1))))
(list 'let* (append b* (cadr body)) (caddr body))]
[else
(list 'let b* body)]))
(define (E x)
(struct-case x
[(constant c) `(quote ,c)]
[(prelex) (Var x)]
[(primref x) x]
[(known x t) `(known ,(E x) ,(T:description t))]
[(conditional test conseq altern)
(cons 'if (map E (list test conseq altern)))]
[(primcall op arg*) (cons op (map E arg*))]
[(bind lhs* rhs* body)
(let* ([lhs* (map Var lhs*)]
[rhs* (map E rhs*)]
[body (E body)])
(import (only (ikarus) map))
(build-let (map list lhs* rhs*) body))]
[(fix lhs* rhs* body)
(let* ([lhs* (map Var lhs*)]
[rhs* (map E rhs*)]
[body (E body)])
(import (only (ikarus) map))
(list 'letrec (map list lhs* rhs*) body))]
[(seq e0 e1)
(cons 'begin
(let f ([e0 e0] [e* (list e1)])
(struct-case e0
[(seq e00 e01)
(f e00 (cons e01 e*))]
[else
(let ([x (E e0)])
(if (null? e*)
(list x)
(cons x (f (car e*) (cdr e*)))))])))]
[(clambda g cls* cp free)
(let ([cls* (map clambda-clause cls*)])
(cond
[(= (length cls*) 1) (cons 'lambda (car cls*))]
[else (cons 'case-lambda cls*)]))]
[(funcall rator rand*)
(let ([rator (E rator)])
(cons rator (map E rand*)))]
[(forcall rator rand*) `(foreign-call ,rator . ,(map E rand*))]
[(assign lhs rhs) `(set! ,(E lhs) ,(E rhs))]
[(foreign-label x) `(foreign-label ,x)]
[else x]))
(E x))
(define open-mvcalls (make-parameter #t))
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(define (optimize-direct-calls x)
(define who 'optimize-direct-calls)
(define (make-conses ls)
(cond
[(null? ls) (make-constant '())]
[else
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(make-funcall (make-primref 'cons)
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(list (car ls) (make-conses (cdr ls))))]))
(define (properize lhs* rhs*)
(cond
[(null? lhs*) (error who "improper improper")]
[(null? (cdr lhs*))
(list (make-conses rhs*))]
[else (cons (car rhs*) (properize (cdr lhs*) (cdr rhs*)))]))
(define (inline-case cls rand*)
(struct-case cls
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[(clambda-case info body)
(struct-case info
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[(case-info label fml* proper)
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(if proper
(and (fx= (length fml*) (length rand*))
(make-bind fml* rand* body))
(and (fx<= (length fml*) (length rand*))
(make-bind fml* (properize fml* rand*) body)))])]))
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(define (try-inline cls* rand* default)
(cond
[(null? cls*) default]
[(inline-case (car cls*) rand*)]
[else (try-inline (cdr cls*) rand* default)]))
(define (inline rator rand*)
(define (valid-mv-consumer? x)
(struct-case x
[(clambda L cases F)
(and (fx= (length cases) 1)
(struct-case (car cases)
[(clambda-case info body)
(struct-case info
[(case-info L args proper) proper])]))]
[else #f]))
(define (single-value-consumer? x)
(struct-case x
[(clambda L cases F)
(and (fx= (length cases) 1)
(struct-case (car cases)
[(clambda-case info body)
(struct-case info
[(case-info L args proper)
(and proper (fx= (length args) 1))])]))]
[else #f]))
(define (valid-mv-producer? x)
(struct-case x
[(funcall) #t]
[(conditional) #f]
[(bind lhs* rhs* body) (valid-mv-producer? body)]
[else #f] ;; FIXME BUG
))
(struct-case rator
[(clambda g cls*)
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(try-inline cls* rand*
(make-funcall rator rand*))]
[(primref op)
(case op
;;; FIXME HERE
[(call-with-values)
(cond
[(and (open-mvcalls) (fx= (length rand*) 2))
(let ([producer (inline (car rand*) '())]
[consumer (cadr rand*)])
(cond
[(single-value-consumer? consumer)
(inline consumer (list producer))]
[(and (valid-mv-consumer? consumer)
(valid-mv-producer? producer))
(make-mvcall producer consumer)]
[else
(make-funcall rator rand*)]))]
[else
(make-funcall rator rand*)])]
[else
(make-funcall rator rand*)])]
[(bind lhs* rhs* body)
(if (null? lhs*)
(inline body rand*)
(make-bind lhs* rhs*
(call-expr body rand*)))]
[(recbind lhs* rhs* body)
(if (null? lhs*)
(inline body rand*)
(make-recbind lhs* rhs*
(call-expr body rand*)))]
[(rec*bind lhs* rhs* body)
(if (null? lhs*)
(inline body rand*)
(make-rec*bind lhs* rhs*
(call-expr body rand*)))]
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[else (make-funcall rator rand*)]))
(define (call-expr x rand*)
(cond
[(clambda? x) (inline x rand*)]
[(and (prelex? x) (not (prelex-source-assigned? x)))
;;; FIXME: did we do the analysis yet?
(make-funcall x rand*)]
[else
(let ([t (make-prelex 'tmp #f)])
(set-prelex-source-referenced?! t #t)
(make-bind (list t) (list x)
(make-funcall t rand*)))]))
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(define (Expr x)
(struct-case x
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[(constant) x]
[(prelex) (assert (prelex-source-referenced? x)) x]
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[(primref) x]
[(bind lhs* rhs* body)
(make-bind lhs* (map Expr rhs*) (Expr body))]
[(recbind lhs* rhs* body)
(make-recbind lhs* (map Expr rhs*) (Expr body))]
[(rec*bind lhs* rhs* body)
(make-rec*bind lhs* (map Expr rhs*) (Expr body))]
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[(conditional test conseq altern)
(make-conditional
(Expr test)
(Expr conseq)
(Expr altern))]
[(seq e0 e1)
(make-seq (Expr e0) (Expr e1))]
[(clambda g cls* cp free name)
(make-clambda g
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(map (lambda (x)
(struct-case x
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[(clambda-case info body)
(make-clambda-case info (Expr body))]))
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cls*)
cp free name)]
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[(funcall rator rand*)
(inline (Expr rator) (map Expr rand*))]
[(forcall rator rand*)
(make-forcall rator (map Expr rand*))]
[(assign lhs rhs)