(load "misc/evaluator.scm") (display "\nex-4.22 - let\n") (display "[answered]\n") ; Since we have implemented let as a transformation we can simply analyze the ; transformed expression: ((let? exp) (analyze (let->combination exp))) (display "\nex-4.23\n") (display "[answered]\n") ; Implementation from book (define (analyze-sequence exps) (define (sequentially proc1 proc2) (lambda (env) (proc1 env) (proc2 env))) (define (loop first-proc rest-procs) (if (null? rest-procs) first-proc (loop (sequentially first-proc (car rest-procs)) (cdr rest-procs)))) (let ((procs (map analyze exps))) (if (null? procs) (error "Empty sequence -- ANALYZE")) (loop (car procs) (cdr procs)))) ; Alyssa's implementation (define (analyze-sequence exps) (define (execute-sequence procs env) (cond ((null? (cdr procs)) ((car procs) env)) (else ((car procs) env) (execute-sequence (cdr procs) env)))) (let ((procs (map analyze exps))) (if (null? procs) (error "Empty sequence -- ANALYZE")) (lambda (env) (execute-sequence procs env)))) ; Alyssa's implementation iterates over the sequence at runtime, while the ; implementation from the book returns a fully unrolled procedure. Hence, ; Alyssa's implementation is more expensive because it traverses the list at ; runtime and needs to do the condition checking. (display "\nex-4.24\n") (let ((start-time (runtime))) (eval '(define (fib n) (if (< n 2) 1 (+ (fib (- n 1)) (fib (- n 2))))) the-global-environment) (eval '(fib 20) the-global-environment) (display "[eval only] (fib 20) ") (display (- (runtime) start-time)) (display "s\n")) (define (analyze-sequence exps) (define (sequentially proc1 proc2) (lambda (env) (proc1 env) (proc2 env))) (define (loop first-proc rest-procs) (if (null? rest-procs) first-proc (loop (sequentially first-proc (car rest-procs)) (cdr rest-procs)))) (let ((procs (map analyze exps))) (if (null? procs) (error "Empty sequence -- ANALYZE")) (loop (car procs) (cdr procs)))) (define (eval exp env) ((analyze exp) env)) (define (analyze exp) (cond ((self-evaluating? exp) (analyze-self-evaluating exp)) ((quoted? exp) (analyze-quoted exp)) ((variable? exp) (analyze-variable exp)) ((assignment? exp) (analyze-assignment exp)) ((definition? exp) (analyze-definition exp)) ((if? exp) (analyze-if exp)) ((lambda? exp) (analyze-lambda exp)) ((begin? exp) (analyze-sequence (begin-actions exp))) ((cond? exp) (analyze (cond->if exp))) ((application? exp) (analyze-application exp)) (else (error "Unknown expression type -- ANALYZE" exp)))) (define (analyze-self-evaluating exp) (lambda (env) exp)) (define (analyze-quoted exp) (let ((qval (text-of-quotation exp))) (lambda (env) qval))) (define (analyze-variable exp) (lambda (env) (lookup-variable-value exp env))) (define (analyze-assignment exp) (let ((var (assignment-variable exp)) (vproc (analyze (assignment-value exp)))) (lambda (env) (set-variable-value! var (vproc env) env) 'ok))) (define (analyze-definition exp) (let ((var (definition-variable exp)) (vproc (analyze (definition-value exp)))) (lambda (env) (define-variable! var (vproc env) env) 'ok))) (define (analyze-if exp) (let ((pproc (analyze (if-predicate exp))) (cproc (analyze (if-consequent exp))) (aproc (analyze (if-alternative exp)))) (lambda (env) (if (true? (pproc env)) (cproc env) (aproc env))))) (define (analyze-lambda exp) (let ((vars (lambda-parameters exp)) (bproc (analyze-sequence (lambda-body exp)))) (lambda (env) (make-procedure vars bproc env)))) (define (analyze-application exp) (let ((fproc (analyze (operator exp))) (aprocs (map analyze (operands exp)))) (lambda (env) (execute-application (fproc env) (map (lambda (aproc) (aproc env)) aprocs))))) (define (execute-application proc args) (cond ((primitive-procedure? proc) (apply-primitive-procedure proc args)) ((compound-procedure? proc) ((procedure-body proc) (extend-environment (procedure-parameters proc) args (procedure-environment proc)))) (else (error "Unknown procedure type -- EXECUTE-APPLICATION" proc)))) (let ((start-time (runtime))) (eval '(define (fib n) (if (< n 2) 1 (+ (fib (- n 1)) (fib (- n 2))))) the-global-environment) (eval '(fib 20) the-global-environment) (display "[eval and analyze] (fib 20) ") (display (- (runtime) start-time)) (display "s\n"))