From: Ramakrishnan Muthukrishnan Date: Wed, 30 May 2012 17:05:29 +0000 (+0530) Subject: Solution to 4.30. Extremely enlightening! X-Git-Url: https://git.rkrishnan.org/pf/content/en/seg/bcase/install.html?a=commitdiff_plain;h=041983d7ecd6d276519708c91c1959f06b41c06e;p=sicp.git Solution to 4.30. Extremely enlightening! --- diff --git a/src/sicp/ex4_30.rkt b/src/sicp/ex4_30.rkt new file mode 100644 index 0000000..6b971b5 --- /dev/null +++ b/src/sicp/ex4_30.rkt @@ -0,0 +1,300 @@ +#lang racket + +(require "metacircular2-lazy.rkt") + +(define env1 (make-environment)) +(eval '(define (for-each proc items) + (if (null? items) + 'done + (begin (proc (car items)) + (for-each proc (cdr items))))) + env1) +(eval '(for-each (lambda(x) (newline) (display x)) '(1 2 3)) env1) + +#| + +Part a. + +One can observe the execution of this routine by a small modification to the 2 procedures that constitute +the lazy evaluator as follows (the only change is printing of the arguments) + +(define (actual-value exp env) + (display (format "eval expr ~s~%" exp)) + (newline) + (force-it (eval exp env))) + +(define (force-it obj) + ;; (display (format "~s~%" obj)) + (match obj + [`(thunk ,exp ,env) (begin + (display (format "eval's output ~s~%" obj)) + (newline) + (actual-value exp env))] + [_ obj])) + +As we can observe during the execution, the `begin' gets transformed to `eval-sequence' +and then `newline' and `(display x)' are called. Both these are primitive expressions +and so the arguments are forced by apply. + +The trace of the execution of the above definition and the evaluation are listed below. +|# + +#| + +eval expr for-each + +eval expr (null? items) + +eval expr null? + +eval expr items + +eval's output (thunk (quote (1 2 3)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (quote (1 2 3)) + +eval expr proc + +eval's output (thunk (lambda (x) (newline) (display x)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (lambda (x) (newline) (display x)) + +eval expr newline + + +eval expr display + +eval expr x + +eval's output (thunk #0=(car items) (#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc #0#) (for-each proc (cdr items))))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#)) + +eval expr (car items) + +eval expr car + +eval expr items + +eval's output (thunk (quote (1 2 3)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (quote (1 2 3)) + +1eval expr for-each + +eval expr (null? items) + +eval expr null? + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk (quote (1 2 3)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (quote (1 2 3)) + +eval expr proc + +eval's output (thunk proc (#hash((proc . (thunk (lambda (x) (newline) (display x)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#)))))) (items . (thunk (quote (1 2 3)) #0#))) . #0#)) + +eval expr proc + +eval's output (thunk (lambda (x) (newline) (display x)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (lambda (x) (newline) (display x)) + +eval expr newline + + +eval expr display + +eval expr x + +eval's output (thunk #0=(car items) (#hash((proc . (thunk proc #3=(#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc #0#) (for-each proc #2=(cdr items))))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#))) (items . (thunk #2# #3#))) . #1#)) + +eval expr (car items) + +eval expr car + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk (quote (1 2 3)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (quote (1 2 3)) + +2eval expr for-each + +eval expr (null? items) + +eval expr null? + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk proc #2=(#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#))) (items . (thunk #0# #2#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk (quote (1 2 3)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (quote (1 2 3)) + +eval expr proc + +eval's output (thunk proc (#hash((proc . (thunk proc #2=(#hash((proc . (thunk (lambda (x) (newline) (display x)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #1=(cdr items))))) #0#)))))) (items . (thunk (quote (1 2 3)) #0#))) . #0#))) (items . (thunk #1# #2#))) . #0#)) + +eval expr proc + +eval's output (thunk proc (#hash((proc . (thunk (lambda (x) (newline) (display x)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#)))))) (items . (thunk (quote (1 2 3)) #0#))) . #0#)) + +eval expr proc + +eval's output (thunk (lambda (x) (newline) (display x)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (lambda (x) (newline) (display x)) + +eval expr newline + + +eval expr display + +eval expr x + +eval's output (thunk #0=(car items) (#hash((proc . (thunk proc #4=(#hash((proc . (thunk proc #3=(#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc #0#) (for-each proc #2=(cdr items))))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#))) (items . (thunk #2# #3#))) . #1#))) (items . (thunk #2# #4#))) . #1#)) + +eval expr (car items) + +eval expr car + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk proc #2=(#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#))) (items . (thunk #0# #2#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk (quote (1 2 3)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (quote (1 2 3)) + +3eval expr for-each + +eval expr (null? items) + +eval expr null? + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk proc #3=(#hash((proc . (thunk proc #2=(#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#))) (items . (thunk #0# #2#))) . #1#))) (items . (thunk #0# #3#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk proc #2=(#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#))) (items . (thunk #0# #2#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk #0=(cdr items) (#hash((proc . (thunk (lambda (x) (newline) (display x)) #1=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc #0#)))) #1#)))))) (items . (thunk (quote (1 2 3)) #1#))) . #1#)) + +eval expr (cdr items) + +eval expr cdr + +eval expr items + +eval's output (thunk (quote (1 2 3)) #0=(#hash((newline . (primitive #)) (false . #f) (cons . (primitive #)) (cdr . (primitive #)) (display . (primitive #)) (car . (primitive #)) (/ . (primitive #)) (null? . (primitive #)) (list . (primitive #)) (+ . (primitive #)) (true . #t) (= . (primitive #)) (- . (primitive #)) (> . (primitive #>)) (* . (primitive #)) (< . (primitive #)) (for-each . (procedure (proc items) ((if (null? items) (quote done) (begin (proc (car items)) (for-each proc (cdr items))))) #0#))))) + +eval expr (quote (1 2 3)) + +'done +|# + +;; part b +(define env2 (make-environment)) +(eval '(define (p1 x) + (set! x (cons x '(2))) + x) + env2) +(eval '(define (p2 x) + (define (p e) + e + x) + (p (set! x (cons x '(2))))) + env2) +(eval '(p1 1) env2) +(eval '(p2 1) env2) + +#| +With the original evaluator, we get '(1 2) since cons is a primitive and the argument x (a thunk) of cons +is forced, giving the value 1. The output of cons, which is '(1 2) is set as the new value of a variable x. +x is no longer a thunk at this point. Then x is eval'ed and returned. + +In the second case, the argument of p2, x, is passed as a thunk. Now, the first statement, the definition +of the function p is defined. Now, this function is called with a (set! x ... ) in the second/final statement. +This statement is passed as a thunk (i.e. e is a thunk with expr (set! x ... )). As the first statement, e +is evaluated. e gets looked up and a thunk is returned. But the expr of thunk e is not evaluated. Now, we lookup +x and it is returned. x is the thunk with the expr `1'. This thunk is returned. If we don't force thunk in the +repl (as in my examples where I call eval directly), what is returned is a thunk. x is not modified by the +(set! x ...) because it is passed as thunk and has not been evaluated yet. + +If we modify the eval-sequence according to Cy D's suggestions, then we get '(1 2) for both the statements. This is +because the first statement, e, gets forced, which makes the (set! x (cons x '(2))) to evaluate, creating the +side effect (x itself is a thunk, but gets forced because cons is a primitive). + +|# + +;; part c +#| + +This is because the display function is a primitive and it forces the thunk anyway. + +|# + +;; part d +#| + +I like the approach in the text. + +|# \ No newline at end of file diff --git a/src/sicp/metacircular2-lazy.rkt b/src/sicp/metacircular2-lazy.rkt index b41ab4b..5e036ee 100644 --- a/src/sicp/metacircular2-lazy.rkt +++ b/src/sicp/metacircular2-lazy.rkt @@ -97,7 +97,9 @@ (list '/ /) (list '= =) (list '> >) - (list '< <))) + (list '< <) + (list 'newline newline) + (list 'display display))) (define (primitive-procedure-names) (map car primitive-procedures)) @@ -142,6 +144,7 @@ (define (procedure-environment p) (cadddr p)) (define (apply procedure arguments env) + ;;(display (format "~s~%" arguments)) (match procedure [`(primitive ,f ...) (apply-primitive-procedure procedure (list-of-arg-values arguments env))] [`(procedure ,f ...) (eval-sequence @@ -229,11 +232,17 @@ ;; thunks (define (actual-value exp env) + ;(display (format "eval expr ~s~%" exp)) + ;(newline) (force-it (eval exp env))) (define (force-it obj) + ;; (display (format "~s~%" obj)) (match obj - [`(thunk ,exp ,env) (actual-value exp env)] + [`(thunk ,exp ,env) (begin + ;(display (format "eval's output ~s~%" obj)) + ;(newline) + (actual-value exp env))] [_ obj])) (define (delay-it exp env)