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compiler.scm
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(load "tests-driver.scm")
(define enable-cps #f)
(define fxshift 2)
(define fxmask #x03)
(define fxtag #x00)
(define bool-f #x2F)
(define bool-t #x6F)
(define bool-bit 6)
(define boolmask #xBF)
(define list-nil #x3F)
(define eof-obj #x7F)
(define charshift 8)
(define charmask #x3F)
(define chartag #x0F)
(define objshift 3)
(define objmask #x07)
(define pairtag #x01)
(define pairsize 8)
(define paircar 0)
(define paircdr 4)
(define vectortag #x05)
(define stringtag #x06)
(define closuretag #x02)
(define symboltag #x03)
(define wordsize 4) ; bytes
(define wordshift 2)
(define global-offset 4)
(define edi-offset 8)
(define return-addr #x17)
(define registers
'((eax scratch)
(ebx preserve)
(ecx scratch)
(edx scratch)
(esi preserve)
(edi preserve)
(ebp preserve)
(esp preserve)))
(define (reg-name reg) (car reg))
(define (reg-preserve? reg) (eq? 'preserve (cadr reg)))
(define fixnum-bits (- (* wordsize 8) fxshift))
(define fxlower (- (expt 2 (- fixnum-bits 1))))
(define fxupper (sub1 (expt 2 (- fixnum-bits 1))))
(define (fxnum? x)
(and (integer? x) (exact? x) (<= fxlower x) (<= x fxupper)))
(define (immediate? x)
(or (fxnum? x) (boolean? x) (null? x) (char? x)))
(define (immediate-rep x)
(cond
[(fxnum? x) (ash x fxshift)]
[(boolean? x) (if x bool-t bool-f)]
[(null? x) list-nil]
[(char? x) (bitwise-ior (ash (char->integer x) charshift) chartag)]
[else #f]))
(define (emit-immediate x)
(emit " mov $~s, %eax" (immediate-rep x)))
(define (make-begin lst)
(cond
[(null? (cdr lst)) (car lst)]
[else (cons 'begin lst)]))
(define (begin? expr)
(and (tagged-list 'begin expr)
(or (not (null? (begin-seq expr)))
(error 'begin? (format "empty begin")))))
(define begin-seq cdr)
(define (make-set! lhs rhs)
(list 'set! lhs rhs))
(define (set? expr)
(tagged-list 'set! expr))
(define set-lhs cadr)
(define set-rhs caddr)
(define make-let list)
(define (let-form? let-kind expr)
(and (tagged-list let-kind expr)
(or (not (null? (cddr expr)))
(error 'let-form? (format "let without body ~s" expr)))))
(define let-kind car)
(define (any-let? expr)
(and (pair? expr)
(member (let-kind expr) '(let let* letrec))
(let-form? (let-kind expr) expr)))
(define (let? expr) (let-form? 'let expr))
(define (let*? expr) (let-form? 'let* expr))
(define (letrec? expr) (or (let-form? 'letrec expr) (let-form? 'letrec* expr)))
(define let-bindings cadr)
(define letrec-bindings let-bindings)
(define labels-bindings let-bindings)
(define make-body make-begin)
(define let-body-seq cddr)
(define (let-body expr)
(make-body (let-body-seq expr)))
(define letrec-body let-body)
(define labels-body let-body)
(define empty? null?)
(define (bind lhs rhs)
(check-variable lhs)
(list lhs rhs))
(define first car)
(define rest cdr)
(define rhs cadr)
(define (lhs binding)
(check-variable (car binding)))
(define (check-variable var)
(if (variable? var)
var
(error 'lhs (format "~s is not a variable" var))))
(define (make-initial-env bindings)
bindings)
(define (bulk-extend-env vars vals env)
(append (map list vars vals) env))
(define (extend-env var si env)
(cons (list var si) env))
(define (lookup var env)
(cond
[(assv var env) => cadr]
[else #f]))
(define variable? symbol?)
(define (tagged-list tag expr)
(and (list? expr) (not (null? expr)) (eq? (car expr) tag)))
(define (lambda? expr) (tagged-list 'lambda expr))
(define lambda-formals cadr)
(define (formals-to-vars formals)
(cond
[(list? formals) (map (lambda (x) (if (list? x) (car x) x)) formals)]
[(pair? formals) (cons (car formals) (formals-to-vars (cdr formals)))]
[else (list formals)]))
(define (lambda-vars expr)
(formals-to-vars (lambda-formals expr)))
(define (map-formals f formals)
(cond
[(list? formals) (map (lambda (x) (if (pair? x) (cons (f (car x)) (cdr x)) (f x))) formals)]
[(pair? formals) (cons (f (car formals)) (map-formals f (cdr formals)))]
[else (f formals)]))
(define (lambda-body expr) (make-body (cddr expr)))
(define (make-lambda formals body)
(list 'lambda formals body))
(define lib-primitives '())
(define-syntax define-primitive
(syntax-rules ()
[(_ (prim-name si env arg* ...) b b* ...)
(begin
(putprop 'prim-name '*is-prim* #t)
(putprop 'prim-name '*arg-count*
(length '(arg* ...)))
(putprop 'prim-name '*emitter*
(lambda (si env arg* ...) b b* ...)))]
[(_ (prim-name si env arg* ... . vararg) b b* ...)
(begin
(putprop 'prim-name '*is-prim* #t)
(putprop 'prim-name '*arg-count*
(length '(arg* ...)))
(putprop 'prim-name '*vararg* #t)
(putprop 'prim-name '*emitter*
(lambda (si env arg* ... . vararg) b b* ...)))]))
(define-syntax define-lib-primitive
(syntax-rules ()
[(_ (prim-name arg* ...) b b* ...)
(begin
(set! lib-primitives (cons 'prim-name lib-primitives))
(putprop 'prim-name '*is-lib-prim* #t)
(putprop 'prim-name '*arg-count*
(length '(arg* ...)))
(putprop 'prim-name '*lib-code*
(make-lambda '(arg* ...) (make-begin '(b b* ...)))))]
[(_ (prim-name . varargs) b b* ...)
(begin
(set! lib-primitives (cons 'prim-name lib-primitives))
(putprop 'prim-name '*is-lib-prim* #t)
(putprop 'prim-name '*arg-count* 0)
(putprop 'prim-name '*vararg* #t)
(putprop 'prim-name '*lib-code*
(make-lambda 'varargs (make-begin '(b b* ...)))))]
[(_ prim-name b)
(begin
(set! lib-primitives (cons 'prim-name lib-primitives))
(putprop 'prim-name '*is-lib-prim* #t)
(putprop 'prim-name '*lib-code* 'b))]))
(load "lib.scm")
(define (primitive? x)
(and (symbol? x) (getprop x '*is-prim*)))
(define (lib-primitive? x)
(and (symbol? x) (getprop x '*is-lib-prim*)))
(define (lib-primitive-code x)
(or (getprop x '*lib-code*) (error 'lib-primitive-code (format "primitive ~s has no lib code" x))))
(define (primitive-emitter x)
(or (getprop x '*emitter*) (error 'primitive-emitter (format "primitive ~s has no emitter" x))))
(define aexpr-primitives '(constant-ref primitive-ref))
(define (aexpr-primcall? expr)
(and (pair? expr) (primitive? (car expr)) (member (car expr) aexpr-primitives)))
(define (primcall? expr)
(and (pair? expr) (primitive? (car expr))))
(define (check-primcall-args prim args)
((if (getprop prim '*vararg*) <= =) (getprop prim '*arg-count*) (length args)))
(define (emit-any-primcall si env prim args)
(or (check-primcall-args prim args)
(error 'emit-primcall (format "incorrect number of arguments to ~s -- ~a" prim args)))
(apply (primitive-emitter prim) si env args))
(define (emit-aexpr-primcall si env expr)
(let ([prim (car expr)]
[args (cdr expr)])
(emit-any-primcall si env prim args)))
(define (emit-primcall si env expr)
(let ([prim (car expr)]
[cont (cadr expr)]
[args (cddr expr)])
(emit-any-primcall si env prim args)
(emit-stack-save si)
(emit-expr (next-stack-index si) env cont)
(emit " mov %eax, %edi")
(emit-stack-load si)
(emit-stack-save (- wordsize))
(emit " mov %edi, %eax")
(emit-load-closure-label)
(emit " mov %eax, %edx")
(emit " mov $1, %eax")
(emit-jmp "*%edx")))
(define (emit-binop si env arg1 arg2)
(emit-expr si env arg1)
(emit-stack-save si)
(emit-expr (next-stack-index si) env arg2))
(define (emit-stack-save si)
(emit " mov %eax, ~s(%esp)" si))
(define (emit-stack-load si)
(emit " mov ~s(%esp), %eax" si))
(define (next-stack-index si)
(- si wordsize))
(define (emit-div si env arg1 arg2)
(emit-expr si env arg2)
(emit " shr $~s, %eax" fxshift)
(emit-stack-save si)
(emit-expr (next-stack-index si) env arg1)
(emit " mov $0, %edx")
(emit " shr $~s, %eax" fxshift)
(emit " divl ~s(%esp)" si))
(define (emit-cmp-bool . args)
(emit " ~s %al" (if (null? args) 'sete (car args)))
(emit " movzb %al, %eax")
(emit " sal $~s, %al" bool-bit)
(emit " or $~s, %al" bool-f))
(define (emit-cmp-binop setx si env arg1 arg2)
(emit-binop si env arg1 arg2)
(emit " cmp %eax, ~s(%esp)" si)
(emit-cmp-bool setx))
(define unique-label
(let ([count 0])
(lambda ()
(let ([L (string->symbol (string-append "L_" (number->string count)))])
(set! count (add1 count))
L))))
(define (if? expr)
(and (tagged-list 'if expr)
(or (= 3 (length (cdr expr)))
(error 'if? (format "malformed if ~s" expr)))))
(define if-test cadr)
(define if-conseq caddr)
(define if-altern cadddr)
(define (emit-if si env tail expr)
(let ([alt-label (unique-label)]
[end-label (unique-label)])
(emit-expr si env (if-test expr))
(emit " cmp $~s, %al" bool-f)
(emit " je ~a" alt-label)
(emit-any-expr si env tail (if-conseq expr))
(unless tail (emit " jmp ~a" end-label))
(emit-label alt-label)
(emit-any-expr si env tail (if-altern expr))
(emit-label end-label)))
(define (emit-begin si env tail expr)
(emit-seq si env tail (begin-seq expr)))
(define (emit-seq si env tail seq)
(cond
[(null? seq) (error 'emit-seq "empty seq")]
[(null? (rest seq)) (emit-any-expr si env tail (first seq))]
[else
(emit-expr si env (first seq))
(emit-seq si env tail (rest seq))]))
(define (emit-let si env tail expr)
(define (process-let bindings si new-env)
(cond
[(empty? bindings)
(emit-any-expr si new-env tail (let-body expr))]
[else
(let ([b (first bindings)])
(emit-expr si env (rhs b))
(emit-stack-save si)
(process-let (rest bindings)
(next-stack-index si)
(extend-env (lhs b) si new-env)))]))
(process-let (let-bindings expr) si env))
(define (extend-env-with si env lvars k)
(if (null? lvars)
(k si env)
(extend-env-with
(next-stack-index si)
(extend-env (first lvars) si env)
(rest lvars)
k)))
(define (free-var offset)
(list 'free (- offset closuretag)))
(define (free-var? fv)
(tagged-list 'free fv))
(define free-var-offset cadr)
(define (close-env-with offset env lvars k)
(if (null? lvars)
(k env)
(close-env-with
(+ offset wordsize)
(extend-env (first lvars) (free-var offset) env)
(rest lvars)
k)))
(define (emit-variable-ref si env var)
(cond
[(lookup var env) =>
(lambda (v)
(cond
[(free-var? v)
(emit " mov ~s(%edi), %eax" (free-var-offset v))]
[(number? v)
(emit-stack-load v)]
[else (error 'emit-variable-ref (format "looked up unknown value ~s for var ~s" v var))]))]
[else (error 'emit-variable-ref (format "undefined variable ~s" var))]))
(define (emit-ret-if tail)
(when tail (emit " ret")))
(define (emit-expr si env expr)
(emit-any-expr si env #f expr))
(define (emit-tail-expr si env expr)
(emit-any-expr si env #t expr))
(define (emit-any-expr si env tail expr)
(cond
[(immediate? expr) (emit-immediate expr) (emit-ret-if tail)]
[(variable? expr) (emit-variable-ref si env expr) (emit-ret-if tail)]
[(closure? expr) (emit-closure si env expr) (emit-ret-if tail)]
[(if? expr) (emit-if si env tail expr) (assert (or (not enable-cps) tail))]
[(let? expr) (emit-let si env tail expr) (assert (or (not enable-cps) tail))]
[(begin? expr) (emit-begin si env tail expr) (assert (not enable-cps))]
[(or (aexpr-primcall? expr)
(and (not enable-cps)
(primcall? expr))) (emit-aexpr-primcall si env expr) (emit-ret-if tail)]
[(and enable-cps
(primcall? expr)) (emit-primcall si env expr) (assert tail)]
[(app? expr) (emit-app si env tail expr) (assert (or (not enable-cps) tail))]
[else (error 'emit-expr (format "~s is not an expression" expr))]))
(define unique-name
(let ([counts '()])
(lambda (name)
(cond
[(assv name counts) =>
(lambda (p)
(let* ([count (cdr p)]
[new-name (string->symbol (string-append (symbol->string name) "_" (number->string count)))])
(set-cdr! p (add1 count))
new-name))]
[(lib-primitive? name)
(set! counts (cons (cons name 1) counts))
(unique-name name)]
[else
(set! counts (cons (cons name 1) counts))
name]))))
(define (define? expr)
(tagged-list 'define expr))
(define (define-lhs expr)
(let ((lhs (cadr expr)))
(if (pair? lhs) (car lhs) lhs)))
(define (define-rhs expr)
(let ((lhs (cadr expr))
(body (make-body (cddr expr))))
(if (pair? lhs) (list 'lambda (cdr lhs) body) body)))
(define (foreign-call? expr)
(tagged-list 'foreign-call expr))
(define (make-foreign-call name args)
(cons 'foreign-call (cons name args)))
(define foreign-call-name cadr)
(define foreign-call-args cddr)
(define (length-vararg xs)
(if (not (pair? xs))
0
(+ 1 (length-vararg (cdr xs)))))
(define (is-vararg xs)
(if (null? xs)
#f
(if (not (pair? xs))
#t
(is-vararg (cdr xs)))))
(define (macro-expand expr)
(define (transform expr bound-vars)
(cond
[(and (begin? expr) (not (null? (filter define? (begin-seq expr)))))
(let loop ([prev '()] [defs '()] [todo (begin-seq expr)])
(cond
[(and (not (null? todo)) (define? (car todo)))
(loop prev
(append defs (list (bind (define-lhs (car todo)) (define-rhs (car todo)))))
(cdr todo))]
[(and (not (null? todo)) (null? defs))
(loop (append prev (list (car todo)))
defs
(cdr todo))]
[else
(let ([last (make-let
'letrec
defs
(make-body (if (null? todo) '(#f) todo)))])
(transform
(if (null? prev)
last
(combine-exprs (make-begin prev) last))
bound-vars))]))]
[(and (tagged-list 'let expr) (symbol? (cadr expr)))
(transform
(list
'let '()
(list 'define (cadr expr) (cons 'lambda (cons (map car (caddr expr)) (cdddr expr))))
(cons (cadr expr) (map cadr (caddr expr))))
bound-vars)]
[(set? expr)
(make-set! (set-lhs expr) (transform (set-rhs expr) bound-vars))]
[(lambda? expr)
(let* ([formals (lambda-formals expr)]
[optional-args (filter list? (if (list? formals) formals '()))])
(if (null? optional-args)
(make-lambda
formals
(transform (lambda-body expr)
(append (lambda-vars expr) bound-vars)))
(let ([new-formals (map (lambda (x)
(if (list? x)
(list (car x))
x))
formals)]
[bindings (map (lambda (var-val)
(let ([var (car var-val)]
[val (cadr var-val)])
(bind var
(list 'if var var val))))
optional-args)])
(make-lambda
new-formals
(transform
(make-let
'let*
bindings
(lambda-body expr))
(append (lambda-vars expr) bound-vars))))))]
[(let? expr)
(make-let
(let-kind expr)
(map (lambda (binding)
(bind (lhs binding) (transform (rhs binding) bound-vars)))
(let-bindings expr))
(transform (let-body expr)
(append (map lhs (let-bindings expr)) bound-vars)))]
[(let*? expr)
(transform
(if (null? (let-bindings expr))
(let-body expr)
(make-let
'let
(list (first (let-bindings expr)))
(make-let
'let*
(rest (let-bindings expr))
(let-body expr))))
bound-vars)]
[(letrec? expr)
(transform
(make-let
'let
(map (lambda (binding) (bind (lhs binding) '#f))
(letrec-bindings expr))
(make-body
(append
(map (lambda (binding) (make-set! (lhs binding) (rhs binding)))
(letrec-bindings expr))
(let-body-seq expr))))
bound-vars)]
[(tagged-list 'and expr)
(cond
[(null? (cdr expr)) #t]
[(null? (cddr expr)) (transform (cadr expr) bound-vars)]
[else
(transform
(list 'if
(cadr expr)
(cons 'and (cddr expr))
#f)
bound-vars)])]
[(tagged-list 'or expr)
(cond
[(null? (cdr expr)) #f]
[(null? (cddr expr)) (transform (cadr expr) bound-vars)]
[else
(transform
(list 'let
(list (list 'one (cadr expr))
(list 'thunk (list 'lambda '() (cons 'or (cddr expr)))))
'(if one
one
(thunk)))
bound-vars)])]
[(tagged-list 'when expr)
(transform
(list 'if (cadr expr)
(make-begin (cddr expr))
#f)
bound-vars)]
[(tagged-list 'unless expr)
(transform
(cons 'when (cons (list 'not (cadr expr)) (cddr expr)))
bound-vars)]
[(tagged-list 'cond expr)
(transform
(let* ([conditions (cdr expr)]
[first-condition (car conditions)]
[first-test (car first-condition)]
[first-body (cdr first-condition)]
[rest (if (null? (cdr conditions)) #f (cons 'cond (cdr conditions)))])
(cond
[(and (eq? first-test 'else) (not (member 'else bound-vars)))
(make-begin first-body)]
[(null? first-body)
(list 'or first-test rest)]
[(and (eq? '=> (car first-body)) (not (member '=> bound-vars)))
(list 'let (list (list 'one first-test))
(list 'if 'one (list (cadr first-body) 'one) rest))]
[else
(list 'if first-test (make-begin first-body) rest)]))
bound-vars)]
[(tagged-list 'case expr)
(transform
(cons
'cond
(map (lambda (l)
(if (eq? (car l) 'else)
(cons 'else (cdr l))
(cons
(cons 'and (map (lambda (x) (list 'eq? (list 'quote x) (cadr expr))) (car l)))
(cdr l))))
(cddr expr)))
bound-vars)]
[(tagged-list 'define-syntax expr)
;; not supported
#f]
[(tagged-list 'parameterize expr)
(let ((saved
(map (lambda (b) (string->symbol (string-append (symbol->string (lhs b)) "-saved")))
(let-bindings expr))))
(make-let
'let
(map (lambda (b s) (bind s (list (lhs b))))
(let-bindings expr)
saved)
(make-begin
(append
(map (lambda (b) (list 'set! (lhs b) (list 'lambda '() (rhs b))))
(let-bindings expr))
(list (let-body expr))
(map (lambda (b s) (list 'set! (lhs b) (list 'lambda '() s)))
(let-bindings expr)
saved)))))]
[(tagged-list 'add-tests-with-string-output-noboot expr)
;; ignore those
#f]
[(tagged-list 'add-tests-with-string-output expr)
(let ((test-name (cadr expr)))
(list
'set!
'all-tests
(list
'cons
(list 'quote
(cons test-name
(map (lambda (t)
(let ((texpr (car t))
(output-string (caddr t)))
(list texpr 'string output-string)))
(cddr expr))))
'all-tests)))]
[(tagged-list 'define-primitive expr)
(transform
(let ((prim-name (car (cadr expr)))
(si (cadr (cadr expr)))
(env (caddr (cadr expr)))
(args (cdddr (cadr expr)))
(b (cddr expr)))
(let ((k (list 'quote prim-name)))
(list 'begin
(list 'putprop k ''*is-prim* #t)
(list 'putprop k ''*arg-count* (length-vararg args))
(list 'putprop k ''*vararg* (is-vararg args))
(list 'putprop k ''*emitter*
(list 'lambda (cons si (cons env args)) (make-body b))))))
bound-vars)]
[(tagged-list 'define-lib-primitive expr)
(transform
(let ((a (cadr expr))
(b (cddr expr)))
(let ((prim-name (if (pair? a) (car a) a))
(args (if (pair? a) (cdr a) #f)))
(let ((k (list 'quote prim-name)))
(list 'begin
(list 'set! 'lib-primitives (list 'cons k 'lib-primitives))
(list 'putprop k ''*is-lib-prim* #t)
(if args
(list 'putprop k ''*arg-count* (length-vararg args))
#f)
(if args
(list 'putprop k ''*vararg* (is-vararg args))
#f)
(list 'putprop k ''*lib-code*
(if args
(list 'quote (list 'lambda args (make-body b)))
(list 'quote (make-begin b))))))))
bound-vars)]
[(and (list? expr) (not (quote? expr)))
(map (lambda (e) (transform e bound-vars)) expr)]
[else expr]))
(transform expr '()))
(define (alpha-conversion expr)
(define (transform expr env)
(cond
[(variable? expr)
(or (lookup expr env)
(and (lib-primitive? expr) expr)
(and (primitive? expr)
(let ((n (getprop expr '*arg-count*))
(v (getprop expr '*vararg*)))
(let ((args
(let loop ((i 0) (names '(x y z a b c d e f)))
(if (= i n)
(if v 'extra '())
(cons (car names) (loop (add1 i) (cdr names)))))))
(list 'lambda args (cons expr args)))))
(error 'alpha-conversion (format "undefined variable ~s" expr)))]
[(lambda? expr)
(let ([new-env (bulk-extend-env
(lambda-vars expr)
(map unique-name (lambda-vars expr))
env)])
(make-lambda
(map-formals (lambda (v) (lookup v new-env)) (lambda-formals expr))
(transform (lambda-body expr) new-env)))]
[(let? expr)
(let* ([lvars (map lhs (let-bindings expr))]
[new-env (bulk-extend-env
lvars
(map unique-name lvars)
env)])
(make-let
'let
(map (lambda (binding)
(bind (lookup (lhs binding) new-env)
(transform (rhs binding) env)))
(let-bindings expr))
(transform (let-body expr) new-env)))]
[(quote? expr) expr]
[(and (list? expr) (not (null? expr)) (special? (car expr)))
(cons (car expr) (map (lambda (e) (transform e env)) (cdr expr)))]
[(list? expr) (map (lambda (e) (transform e env)) expr)]
[else expr]))
(transform expr (make-initial-env '())))
(define (assignment-conversion expr)
(let ([assigned '()])
(define (variable-assigned v)
(member v assigned))
(define (set-variable-assigned! v)
(unless (variable-assigned v)
(set! assigned (cons v assigned))))
(define (mark expr)
(when (set? expr) (set-variable-assigned! (set-lhs expr)))
(when (list? expr) (for-each mark expr)))
(define (transform expr)
(cond
[(set? expr)
(list 'set-car! (set-lhs expr) (transform (set-rhs expr)))]
[(lambda? expr)
(let ([vars (filter variable-assigned (lambda-vars expr))])
(make-lambda
(lambda-formals expr)
(if (null? vars)
(transform (lambda-body expr))
(make-let
'let
(map (lambda (v) (bind v (list 'cons v #f))) vars)
(transform (lambda-body expr))))))]
[(let? expr)
(make-let
'let
(map (lambda (binding)
(let ([var (lhs binding)]
[val (transform (rhs binding))])
(bind var
(if (variable-assigned var)
(list 'cons val #f)
val))))
(let-bindings expr))
(transform (let-body expr)))]
[(quote? expr)
expr]
[(list? expr)
(map transform expr)]
[(and (variable? expr) (variable-assigned expr))
(list 'car expr)]
[else expr]))
(mark expr)
(transform expr)))
(define (quote? expr)
(tagged-list 'quote expr))
(define quote-expr cadr)
(define (translate-quote expr)
(cond
[(immediate? expr) expr]
[(symbol? expr) (list 'string->symbol (translate-quote (symbol->string expr)))]
[(pair? expr)
(list 'cons (translate-quote (car expr)) (translate-quote (cdr expr)))]
[(vector? expr)
(cons 'vector (map translate-quote (vector->list expr)))]
[(string? expr)
(cons 'string (map translate-quote (string->list expr)))]
[else (error 'translate-quote (format "don't know how to quote ~s" expr))]))
(define (lift-constants expr)
(let ([constants '()])
(define (transform expr)
(cond
[(and (quote? expr) (immediate? (quote-expr expr))) (quote-expr expr)]
[(and (quote? expr) (assoc expr constants)) => cadr]
[(quote? expr)
(set! constants (cons (list expr (list 'constant-ref (unique-name 'c))) constants))
(cadr (assoc expr constants))]
[(string? expr) (transform (list 'quote expr))]
[(foreign-call? expr) (make-foreign-call (foreign-call-name expr) (map transform (foreign-call-args expr)))]
[(list? expr) (map transform expr)]
[else expr]))
(let ([texpr (transform expr)])
(make-let
'labels
(map (lambda (val-cst)
(bind (cadadr val-cst) '(datum)))
constants)
(if (null? constants)
texpr
(combine-exprs
(make-begin
(map (lambda (val-cst)
(list 'constant-init
(cadadr val-cst)
(all-expr-conversions (translate-quote (quote-expr (car val-cst))))))
constants))
texpr))))))
(define (combine-exprs a b)
(cond
[(and (begin? a) (begin? b)) (make-begin (append (begin-seq a) (begin-seq b)))]
[(begin? a) (make-begin (append (begin-seq a) (list b)))]
[(begin? b) (make-begin (cons a (begin-seq b)))]
[else (make-begin (list a b))]))
(define (annotate-lib-primitives expr)
(define (transform expr)
(cond
[(and (variable? expr) (lib-primitive? expr)) (list 'primitive-ref expr)]
[(quote? expr) expr]
[(list? expr) (map transform expr)]
[else expr]))
(transform expr))
(define (emit-global-save)
(emit " mov ~s(%ebp), %edx" global-offset)
(emit " mov %eax, (%edx)")
(emit " mov %edx, %eax")
(emit " add $~s, %edx" wordsize)
(emit " mov %edx, ~s(%ebp)" global-offset))
(define (emit-global-load)
(emit " mov (%eax), %eax"))
(define (primitive-label name)
(let ([lst (map (lambda (c)
(case c
[(#\-) #\_]
[(#\!) #\b]
[(#\=) #\e]
[(#\>) #\g]
[(#\?) #\p]
[else c]))
(string->list (symbol->string name)))])
(string->symbol (string-append "P_" (list->string lst)))))
(define (primitive-alloc name)
(string->symbol (string-append (symbol->string (primitive-label name)) "_alloc")))
(define (app? expr)
(and (list? expr) (not (null? expr))))
(define (call-apply? expr)
(tagged-list 'apply expr))
(define (call-target expr)
(if (call-apply? expr)
(cadr expr)
(car expr)))
(define (call-args expr)
(if (call-apply? expr)
(cddr expr)
(cdr expr)))
(define (emit-app si env tail expr)
(define (emit-arguments si args)
(unless (empty? args)
(emit-expr si env (first args))
(emit-stack-save si)
(emit-arguments (- si wordsize) (rest args))))
(define (move-arguments si delta args)
(unless (or (= delta 0) (empty? args))
(emit-stack-load si)
(emit-stack-save (+ si delta))
(move-arguments (- si wordsize) delta (rest args))))
(define (splice-last-argument)
(let ([si (- (* wordsize (length (call-args expr))))]
[loop-label (unique-label)]
[pair-label (unique-label)]
[done-label (unique-label)])
(emit-stack-save (next-stack-index si))
(emit " mov $~s, %eax" (length (call-args expr)))
(emit-stack-save (next-stack-index (next-stack-index si)))
(emit " mov %eax, %edx")
(emit-stack-load si)
(emit-label loop-label)
(emit " cmp $~s, %al" list-nil)
(emit " jne ~a" pair-label)
(emit " mov %edx, %eax")
(emit " shl $2, %eax")
(emit " neg %eax")
(emit " add %esp, %eax")
(emit " mov -4(%eax), %edx")
(emit " mov -8(%eax), %eax")
(emit " sub $1, %eax")
(emit-jmp done-label)
(emit-label pair-label)
(emit " mov %edx, %eax")
(emit " shl $2, %eax")
(emit " neg %eax")
(emit " add %esp, %eax")
(emit " mov -8(%eax), %edx")
(emit " add $1, %edx")
(emit " mov %edx, -12(%eax)")
(emit " mov -4(%eax), %edx")
(emit " mov %edx, -8(%eax)")
(emit " mov (%eax), %edx")
(emit " mov ~s(%edx), %edx" (- paircdr pairtag))
(emit " mov %edx, -4(%eax)")
(emit " mov (%eax), %edx")
(emit " mov ~s(%edx), %edx" (- paircar pairtag))
(emit " mov %edx, (%eax)")
(emit " mov %eax, %edx")
(emit " mov -4(%eax), %eax")
(emit " mov -12(%edx), %edx")
(emit-jmp loop-label)
(emit-label done-label)))
(cond
[(not tail)
(emit " mov %edi, ~s(%esp)" si)
(emit " movl $~s, ~s(%esp)" return-addr (next-stack-index si))
(emit-arguments (- si (* 3 wordsize)) (call-args expr))
(emit-expr (- si (* wordsize (+ 3 (length (call-args expr))))) env (call-target expr))
(emit " mov %eax, %edi")
(emit-ensure-procedure si env expr)
(emit-load-closure-label)
(emit-adjust-base (next-stack-index si))
(emit " mov %eax, %edx")
(if (call-apply? expr)
(begin
(emit " sub $4, %esp")
(splice-last-argument)
(emit " add $4, %esp"))
(emit " mov $~s, %eax" (length (call-args expr))))
(emit-call "*%edx")
(emit-adjust-base (- (next-stack-index si)))
(emit " mov ~s(%esp), %edi" si)]
[else ; tail
(emit-arguments si (call-args expr))
(emit-expr (- si (* wordsize (length (call-args expr)))) env (call-target expr))
(emit " mov %eax, %edi")
(emit-ensure-procedure si env expr)
(move-arguments si (- (+ si wordsize)) (call-args expr))
(emit " mov %edi, %eax")
(emit-load-closure-label)
(emit " mov %eax, %edx")
(if (call-apply? expr)
(splice-last-argument)
(emit " mov $~s, %eax" (length (call-args expr))))
(emit-jmp "*%edx")]))
(define (emit-ensure-procedure si env expr)
(unless (equal? (call-target expr) '(primitive-ref error))
(let ([ok (unique-label)])
(emit " and $~s, %al" objmask)
(emit " cmp $~s, %al" closuretag)
(emit " je ~a" ok)
(emit-error si env)
(emit-label ok)
(emit " mov %edi, %eax"))))
(define (emit-error si env)
(emit-tail-expr si env (if enable-cps '((primitive-ref error) #f) '((primitive-ref error)))))
(define heap-cell-size (ash 1 objshift))
(define (emit-heap-alloc-static si size)
(let ([alloc-size (* (add1 (div (sub1 size) heap-cell-size)) heap-cell-size)])
(emit " mov $~s, %eax" alloc-size)
(emit-heap-alloc si)))
(define (emit-heap-alloc-dynamic si)
(emit " add $~s, %eax" (sub1 heap-cell-size))
(emit " and $~s, %eax" (- heap-cell-size))
(emit-heap-alloc si))
(define (emit-heap-alloc si)
(let ([new-si (- si (* 2 wordsize))])
(emit-adjust-base new-si)
(emit " mov %eax, ~s(%esp)" (* 2 wordsize))
(emit " mov %esp, %eax")
(emit " add $~s, %eax" (* 2 wordsize))
(emit " mov %eax, ~s(%esp)" (* 1 wordsize))
(emit " mov %ebp, ~s(%esp)" (* 0 wordsize))
(emit " mov %edi, ~s(%ebp)" edi-offset)
(emit-call "heap_alloc")
(emit-adjust-base (- new-si))
(emit " mov ~s(%ebp), %edi" edi-offset)))
(define (emit-stack-to-heap si offset)
(emit " mov ~s(%esp), %edx" si)
(emit " mov %edx, ~s(%eax)" offset))
(define (emit-heap-load offset)
(emit " mov ~s(%eax), %eax" offset))
(define (emit-object? tag si env arg)
(emit-expr si env arg)
(emit " and $~s, %al" objmask)
(emit " cmp $~s, %al" tag)
(emit-cmp-bool))
(define cps-conversion (lambda (x) x))
(define (closure-conversion expr)
(let ([labels '()]
[constants (map lhs (labels-bindings expr))])
(define (transform expr . label)
(cond
[(lambda? expr)
(let ([label (or (and (not (null? label)) (car label)) (unique-label))]
[fvs (filter (lambda (v) (not (member v constants))) (free-vars expr))]
[body (transform (lambda-body expr))])
(set! labels
(cons (bind label
(make-code (lambda-formals expr)
fvs
body))
labels))
(make-closure label fvs))]
[(any-let? expr)
(make-let (let-kind expr)