(load "util.scm") (load "misc/sicp-compiler-lexical-addressing.scm") (define (compile-to-file code target linkage file-name) (set! label-counter 0) (define (write-list-to-port xs port) (if (null? xs) '() (begin (display (car xs) port) (display "\n" port) (write-list-to-port (cdr xs) port)))) (if #t ; #t means write to file; #f means don't write to file (let* ((compile-result (compile code (empty-compile-time-env) target linkage)) (assembly-insts (statements compile-result)) (port (open-output-file file-name))) (write-list-to-port assembly-insts port) (display "[") (display file-name) (display "]\n") (close-output-port port)) (begin (display "[") (display file-name) (display "]\n")))) (display "\nex-5.39 - lexical-addressing\n") (define (make-address frame-number index-number) (list frame-number index-number)) (define (frame-number address) (car address)) (define (index-number address) (cadr address)) (define test-env '((1 2 3) (4 5 6) (7 8 9))) (define (lexical-address-frame frame-number env) (cond ((null? env) (error "frame does not exist - LEXICAL-ADDRESS-FRAME" adr env)) ((= frame-number 0) (car env)) (else (lexical-address-frame (- frame-number 1) (cdr env))))) (define (lexical-address-lookup adr env) (define (iter-frame index-number frame) (cond ((null? frame) (error "index does not exist - LEXICAL-ADDRESS-LOOKUP" adr env)) ((and (= index-number 0) (eq? (car frame) '*unassigned*)) (error "var not assigned - LEXICAL-ADDRESS-LOOKUP" adr env)) ((= index-number 0) (car frame)) (else (iter-frame (- index-number 1) (cdr frame))))) (let ((frame (lexical-address-frame (frame-number adr) env))) (iter-frame (index-number adr) frame))) (define (lexical-address-set! adr val env) (define (iter-frame index-number frame) (cond ((null? frame) (error "index does not exist - LEXICAL-ADDRESS-LOOKUP" adr env)) ((= index-number 0) (set-car! frame val)) (else (iter-frame (- index-number 1) (cdr frame))))) (let ((frame (lexical-address-frame (frame-number adr) env))) (iter-frame (index-number adr) frame))) (assert (lexical-address-lookup (make-address 0 0) test-env) 1) (lexical-address-set! (make-address 0 0) 42 test-env) (assert (lexical-address-lookup (make-address 0 0) test-env) 42) (assert (lexical-address-lookup (make-address 2 2) test-env) 9) (lexical-address-set! (make-address 2 2) 43 test-env) (assert (lexical-address-lookup (make-address 2 2) test-env) 43) (display "\nex-5.40 - compile-time-env\n") (define (empty-compile-time-env) '()) (define (extend-compile-time-env parameters base-env) (cons parameters base-env)) (display "[done]\n") (display "\nex-5.41 - find-variable\n") (define (find-variable var env) (define (get-index frame current-index) (cond ((null? frame) (error "var not found -- FIND-VARIABLE")) ((eq? (car frame) var) current-index) (else (get-index (cdr frame) (+ current-index 1))))) (define (find-env i frames) (cond ((null? frames) 'not-found) ((memq var (car frames)) (cons i (car frames))) (else (find-env (+ i 1) (cdr frames))))) (let ((find-env-result (find-env 0 env))) (if (eq? find-env-result 'not-found) 'not-found (let* ((frame-number (car find-env-result)) (frame (cdr find-env-result)) (index-number (get-index frame 0))) (make-address frame-number index-number))))) (assert (find-variable 'c '((y z) (a b c d e) (x y))) (make-address 1 2)) (assert (find-variable 'x '((y z) (a b c d e) (x y))) (make-address 2 0)) (assert (find-variable 'w '((y z) (a b c d e) (x y))) 'not-found) (display "\nex-5.42 - compile-lexical-addressing\n") (compile-to-file '(let ((x 3) (y 4)) (lambda (a b c d e) (let ((y (* a b x)) (z (+ c d x))) (set! y 3) (* x y z)))) 'val 'next "f-lex-adr.scm") (display "[done]\n") (display "\nex-5.43 - defines-to-let\n") (define (contains-defines? body) (cond ((null? body) #f) ((definition? (car body)) #t) (else (contains-defines? (cdr body))))) (define (defines-to-let body) (define (get-defines body) (cond ((null? body) '()) ((definition? (car body)) (cons (car body) (get-defines (cdr body)))) (else (get-defines (cdr body))))) (define (expression->new-expression exp) (if (definition? exp) (define->set exp) exp)) (define (define->let-assignment def) (list (definition-variable def) '*unassigned*)) (define (define->set def) (list 'set! (definition-variable def) (definition-value def))) (let* ((defines (get-defines body)) (let-assignments (map define->let-assignment defines)) (let-expression (list 'let let-assignments)) (expressions (map expression->new-expression body))) (append let-expression expressions))) (define (lambda->lambda-without-defines exp) (if (contains-defines? (lambda-body exp)) (make-lambda (lambda-parameters exp) (list (defines-to-let (lambda-body exp)))) exp)) (compile-to-file '(lambda (x y) (define z 5) (+ x y z)) 'val 'next "f-def-to-var.scm") (display "[done]\n") (display "\nex-5.44\n") (display "\nex-5.45\n")