(export (*system-compiler* hobbit-file) (define (*system-compiler* expr env) "This is what Scheme.Compile calls" (%byte-code-template->procedure (assemble (compile expr)) env)) (define (hobbit-file file-name-root) "writes a bytecode-compiled file" (let* ((input-file-name (string-append file-name-root ".scheme")) (output-file-name (string-append file-name-root ".$cheme")) (in (open-input-file input-file-name)) (out (open-output-file output-file-name))) (let loop ((form (read in))) (unless (eof-object? form) (print-top-level-form form) (let ((xform (assemble (compile (expand form))))) (binary-write xform out) (newline out) (loop (read in))))) (close-input-port in) (close-output-port out))) (define (compile expr) (compile-lambda "Interpreted Code" '() (list expr) '() '())) (define (assemble acode) (%assembly-code->byte-code-template acode)) (define (print-top-level-form form) (change-looks "f") (display " ") (let loop ((form form) (length 2) (in-list? #f)) (cond ((null? form) (if in-list? ; ( for paren-matching (display ")") (display "()"))) ((pair? form) (cond ((memq (car form) '(quote #!quote)) (display "'") (loop (cadr form) length #f)) (else (unless in-list? (display "(")) ; ) for paren-matching (cond ((zero? length) ; ( for paren-matching (display "...)")) (else (loop (car form) 1 #f) (unless (null? (cdr form)) (display " ")) (loop (cdr form) (- length 1) #t)))))) (in-list? ; dotted list (display ". ") (loop form length #f) ; ( for paren-matching (display ")")) ((primitive-syntax-marker? form) (write (primitive-syntax-marker->symbol form))) (else (write form)))) (change-looks "F") (newline)) (define (compile-lambda name params body env code) (define (inner name-list nargs dotted?) (dynamic-bind ((*next-label* 0) (*max-depth* 0) (*name-list* name-list)) (let ((code (compile-expression `(#!begin ,@body) (nest-env env name-list) 'return 1 '())) (doc (if (and (string? (car body)) (not (null? (cdr body)))) (car body) ""))) `(,name ,nargs ,nargs ,dotted? ,(list->vector (dynamic-ref *name-list*)) ,(if (eqv? doc "") (format #f "~S" params) (if (char=? #\( (string-ref doc 0)) ; ) doc (format #f "~S ~A" params doc))) ,(dynamic-ref *next-label*) (enter ,(dynamic-ref *max-depth*)) ,@(reverse code))))) (let loop ((name-list '()) (params params) (nargs 0)) (cond ((null? params) (inner (reverse name-list) nargs #f)) ((symbol? params) (inner (reverse (cons params name-list)) nargs #t)) (else (loop (cons (car params) name-list) (cdr params) (+ nargs 1)))))) (define (lambda-expr? expr) (and (pair? expr) (eq? (car expr) '#!lambda))) (define (name-lambda name expr) (if (and (symbol? name) (lambda-expr? expr)) `(%%lambda-with-name%% ,name ,(cadr expr) ,@(cddr expr)) expr)) (define (compile-expression expr env ctxt depth code) ;; CTXT is one of VALUE, RETURN, or EFFECT (if (pair? expr) (case (car expr) ((#!define) (if (equal? env '((0))) ; "Top-level" form (let ((name (cadr expr)) (expr (caddr expr))) (compile-expression `(#!begin (#!set! ,name ,expr) (#!quote ,name)) env ctxt depth code)) (error '*system-compiler* expr "Misplaced definition"))) ((#!if) (if (eq? ctxt 'return) (let ((else-label (next-label!))) (compile-expression (cadddr expr) env ctxt depth (cons `(label ,else-label) (compile-expression (caddr expr) env ctxt depth (cons `(fjump ,else-label) (compile-expression (cadr expr) env 'value depth code)))))) (let ((else-label (next-label!)) (after-label (next-label!))) (cons `(label ,after-label) (compile-expression (cadddr expr) env ctxt depth (cons `(label ,else-label) (cons `(jump ,after-label) (compile-expression (caddr expr) env ctxt depth (cons `(fjump ,else-label) (compile-expression (cadr expr) env 'value depth code)))))))))) ((#!set!) (let ((code (cons (lookup (cadr expr) env 'pop-global 'pop-local) (compile-expression (name-lambda (cadr expr) (caddr expr)) env 'value depth code)))) (if (eq? ctxt 'effect) code (compile-expression '(#!quote #!unspecified) env ctxt depth code)))) ((#!lambda) (compile-push `(close ,(compile-lambda "Anonymous function" (cadr expr) (cddr expr) env '())) ctxt depth code)) ((%%lambda-with-name%%) (compile-push `(close ,(compile-lambda (cadr expr) (caddr expr) (cdddr expr) env '())) ctxt depth code)) ((#!begin) (if (null? (cdr expr)) (compile-expression '(#!quote #!unspecified) env ctxt depth code) (let loop ((tail (cdr expr)) (code code)) (if (null? (cdr tail)) (compile-expression (car tail) env ctxt depth code) (loop (cdr tail) (compile-expression (car tail) env 'effect depth code)))))) ((#!quote) (compile-push `(push-literal ,(cadr expr)) ctxt depth code)) (else (let ((fn (car expr))) (if (and (pair? fn) (eq? (car fn) '#!lambda) (or (null? (cadr fn)) (null? (cdr (last-pair (cadr fn)))))) (let ((body-env (extend-env env (cadr fn)))) (let loop ((params (cadr fn)) (args (cdr expr)) (code code)) (cond ((null? params) (unless (null? args) (error '*system-compiler* args "Extra arguments to inline LAMBDA")) (compile-expression `(#!begin ,@(cddr fn)) body-env ctxt depth code)) ((null? args) (error '*system-compiler* params "Too few arguments to inline LAMBDA")) (else (loop (cdr params) (cdr args) (cons (lookup (car params) body-env 'nonsense 'pop-local) (compile-expression (car args) env 'value depth code))))))) (let loop ((exprs expr) (code code) (depth depth)) (if (null? exprs) (let ((nargs (length (cdr expr)))) (case ctxt ((return) `((tail-call ,nargs) ,@code)) ((effect) `((pop) (call ,nargs) ,@code)) ((value) `((call ,nargs) ,@code)))) (loop (cdr exprs) (compile-expression (car exprs) env 'value depth code) (+ depth 1)))))))) ;; EXPR is not a pair (cond ((symbol? expr) (compile-push (lookup expr env 'push-global 'push-local) ctxt depth code)) ((or (number? expr) (boolean? expr) (char? expr) (string? expr)) (compile-push `(push-literal ,expr) ctxt depth code)) (else (error '*system-compiler* expr "Unevaluable expression"))))) (define (compile-push inst ctxt depth code) (case ctxt ((effect) code) ((value) (try-depth! depth) (cons inst code)) ((return) (try-depth! depth) (cons '(return) (cons inst code))))) (define *next-label* (make-dynamic 0)) (define (next-label!) (let ((x (dynamic-ref *next-label*))) (dynamic-set! *next-label* (+ x 1)) x)) (define *max-depth* (make-dynamic 0)) (define (try-depth! depth) (dynamic-set! *max-depth* (max depth (dynamic-ref *max-depth*)))) (define (nest-env env names) (cons (cons 0 names) env)) (define *name-list* (make-dynamic '())) (define (extend-env env names) (let ((index (length (dynamic-ref *name-list*)))) (dynamic-set! *name-list* (append (dynamic-ref *name-list*) names)) (cons (append (cons index names) (car env)) (cdr env)))) (define (lookup id env global-inst local-inst) (let outer ((env env) (up 0)) (if (null? env) `(,global-inst ,id) (let inner ((frame (car env)) (over 0)) (cond ((null? frame) (outer (cdr env) (+ up 1))) ((eq? id (car frame)) `(,local-inst ,up ,over)) ((integer? (car frame)) (inner (cdr frame) (car frame))) (else (inner (cdr frame) (+ over 1)))))))) ) ; end export 6 ;;; Hobbit.scheme ;;; Copyright Σ 1989, 1991 by Xerox Corporation. All rights reserved. ;;; Last changed by Pavel on April 2, 1990 6:19 pm PDT ;;; Michael Plass, December 27, 1990 1:06 pm PST ;;; Fast compilation into bytecodes; a "hasty halfling" compiler. ;; It's a LET ;; It's a normal application Κa–(cedarcode) style•NewlineDelimiter ™scheme™KšœΠetœ7™FK™6K™0—K˜K™AK˜˜'K˜˜$K˜#K˜?—K˜˜$Jšœ!˜!˜A˜?J˜'J˜+—˜˜J˜˜1J˜J˜ J˜———Jšœ˜Jšœ˜—K˜—˜K˜<—K˜˜DK˜—˜#J˜J˜˜J˜J˜˜˜ ˜+J˜ J˜——˜ ˜˜#J˜ J˜—˜˜J˜(—˜˜(J˜—˜J˜˜J˜—J˜&—————˜J˜J˜,J˜—˜ J˜/—˜J˜———J˜J˜ —J˜˜2˜'˜˜J˜!—˜1˜5˜!˜J˜—˜"˜$J˜ J˜————J˜J˜J˜J˜ J˜+˜˜˜'J˜J˜ ———J˜J˜$J˜——J˜—˜˜J˜—˜˜J˜%—˜J˜3—˜˜#˜Jšœ˜——————K˜˜K˜.K˜—˜˜,K˜8J˜—J˜—˜5K˜*˜˜˜ ˜*˜K˜˜˜ K˜K˜—K˜——K˜8——˜˜˜!˜0˜˜/˜J˜;—————˜ J˜ ˜˜0˜˜˜/˜J˜?—————————˜ ˜ ˜9˜J˜,J˜——˜J˜J˜D———˜ ˜ K˜OK˜——˜˜ K˜HK˜——˜ ˜K˜A˜K˜˜K˜3˜K˜;—————˜ K˜<—˜˜˜˜˜J˜)——J™ ˜,˜˜J˜—˜˜˜˜˜J˜%———J˜E—˜ ˜J˜ J˜*——˜˜˜ ˜J˜3J˜;———————K™˜˜K˜—˜˜"˜ ˜ K˜K˜ —˜ K˜K˜K˜ —˜K˜K˜ ———˜˜9K˜————————K˜K˜˜˜J˜J—˜˜K˜ K˜—K˜5—˜K˜<————K˜˜+˜ ˜ K˜—˜K˜K˜—˜ K˜K˜$———K˜K˜&K˜˜˜%K˜#K˜——K˜K˜%K˜˜K˜A—K˜˜K˜—K˜K˜'K˜˜˜1K˜C˜+K˜———K˜˜.˜K˜˜K˜˜K˜˜˜K˜—˜K˜—˜K˜ —˜K˜$——————K˜K˜——…—ͺ"A