From: Ramakrishnan Muthukrishnan Date: Sun, 3 Jul 2011 06:31:11 +0000 (+0530) Subject: streams. solutions to exercise 3.51 and 3.52 X-Git-Url: https://git.rkrishnan.org/components/listings/status?a=commitdiff_plain;h=4ddb0f14082874426c36bf9ab005d22d21db12f2;p=sicp.git streams. solutions to exercise 3.51 and 3.52 --- diff --git a/src/sicp/ex3_51.rkt b/src/sicp/ex3_51.rkt new file mode 100644 index 0000000..defdd8a --- /dev/null +++ b/src/sicp/ex3_51.rkt @@ -0,0 +1,130 @@ +#lang planet neil/sicp + +(define (stream-car s) (car s)) +(define (stream-cdr s) (force (cdr s))) + +(define (stream-ref s n) + (if (= n 0) + (stream-car s) + (stream-ref (stream-cdr s) + (- n 1)))) + +(define (stream-map proc s) + (if (stream-null? s) + the-empty-stream + (cons-stream (proc (stream-car s)) + (stream-map proc (stream-cdr s))))) + +(define (stream-filter pred? s) + (cond [(stream-null? s) the-empty-stream] + [(pred? (stream-car s)) + (cons-stream (stream-car s) + (stream-filter pred? (stream-cdr s)))] + [else (stream-filter pred? (stream-cdr s))])) + +(define (stream-for-each proc s) + (if (stream-null? s) + 'done + (begin + (proc (stream-car s)) + (stream-for-each proc (stream-cdr s))))) + +(define (display-stream s) + (stream-for-each display-line s)) + +(define (display-line x) + (newline) + (display x)) + +;; stream-enumerate-interval +(define (stream-enumerate-interval low high) + (if (> low high) + the-empty-stream + (cons-stream low + (stream-enumerate-interval (+ low 1) + high)))) + +#| + +(define (show x) + (display-line x) + x) + +(define x (stream-map show (stream-enumerate-interval 0 10))) + +This will display 0. The reason is that, we can reduce this expression +to + +(cons + (show (car + (cons 0 (delay (stream-enumerate-interval 1 10)))) + (delay + (stream-map show (stream-cdr + (cons 0 (delay (stream-enumerate-interval 1 10))))))) + +This will print 0 and the rest of the computation is delayed. + +(stream-ref x 5) + +stream-ref will keep calling stream-cdr on the stream for 5 times. This will 'force' evaluation +of the delayed operations. + +x is (cons 0 + (delay (stream-map show (stream-enumerate-interval 1 10)))) + +Calling stream-cdr once, this expression becomes + (cons 0 + (cons-stream (show (stream-car (stream-enumerate-interval 1 10))) + (stream-map show + (stream-cdr (stream-enumerate-interval 1 10))))) + += + + (cons 0 + (cons 1 ;; also prints 1 + (delay (stream-map show + (stream-cdr (stream-enumerata-interval 1 10)))))) + +As can be seen, this will print 1 and the rest are 'delayed'. + +Think of the output of (stream-enumerate-interval 0 10) as: + +(cons 0 + (delay (cons 1 + (delay (cons 2 + (delay (cons 3 + (delay (cons 4 + ......... + (delay (cons 10 the-empty-stream))...) + +Let us call it s. + +Now, x is (stream-map show s). This is equiv of: + +(cons (show (stream-car s)) + (delay (stream-map show (stream-cdr s))) + +This will first print 0, when defined. + +(stream-ref 5 x) is equiv to: + +(stream-car (stream-cdr (stream-cdr (stream-cdr (stream-cdr (stream-cdr x)))))) + +This will make the stream-map work on the 5 delayed computations and hence +numbers from 1 to 5 printed on the screen. Together will that, the value of +(stream-ref s 5) == 5 will also be printed. + +> (stream-ref x 7) + +This will print 6 and 7 along with the value of the expression (i.e. 7). + +|# + +(define (show x) + (display-line x) + x) + +(define x (stream-map show (stream-enumerate-interval 0 10))) +(stream-ref x 5) +(stream-ref x 7) + diff --git a/src/sicp/ex3_52.rkt b/src/sicp/ex3_52.rkt new file mode 100644 index 0000000..c7ec6ff --- /dev/null +++ b/src/sicp/ex3_52.rkt @@ -0,0 +1,191 @@ +#lang planet neil/sicp + +(define (stream-car s) (car s)) +(define (stream-cdr s) (force (cdr s))) + +(define (stream-ref s n) + (if (= n 0) + (stream-car s) + (stream-ref (stream-cdr s) + (- n 1)))) + +(define (stream-map proc s) + (if (stream-null? s) + the-empty-stream + (cons-stream (proc (stream-car s)) + (stream-map proc (stream-cdr s))))) + +(define (stream-filter pred? s) + (cond [(stream-null? s) the-empty-stream] + [(pred? (stream-car s)) + (cons-stream (stream-car s) + (stream-filter pred? (stream-cdr s)))] + [else (stream-filter pred? (stream-cdr s))])) + +(define (stream-for-each proc s) + (if (stream-null? s) + 'done + (begin + (proc (stream-car s)) + (stream-for-each proc (stream-cdr s))))) + +(define (display-stream s) + (stream-for-each display-line s)) + +(define (display-line x) + (newline) + (display x)) + +;; stream-enumerate-interval +(define (stream-enumerate-interval low high) + (if (> low high) + the-empty-stream + (cons-stream low + (stream-enumerate-interval (+ low 1) + high)))) + +#| + +(define sum 0) +(define (accum x) + (set! sum (+ x sum)) + sum) + +(define seq (stream-map accum (stream-enumerate-interval 1 20))) + +(define y (stream-filter even? seq)) + +(define z (stream-filter (lambda (x) (= (remainder x 5) 0)) + seq)) + +(stream-ref y 7) + +(display-stream z) + +|# + +#| + +What is the value of sum after each of the above expressions is evaluated? + +ANS: + +> (define seq (stream-map accum (stream-enumerate-interval 1 20))) +1 + +This is because (stream-enumerate-interval 1 20) builds up a stream +which looks as follows: + +s == + +(cons 1 + (delay (cons 2 + (delay (cons 3 + (delay .......)))..)) + +Now, calling stream-map will produce seq which looks like this: + +seq == (cons (accum (car s)) ;; adds (car s) to sum + (delay (stream-map accum (stream-cdr s)))) + == (cons 1 + (delay (stream-map accum (stream-cdr s)))) +|# + +#| + +(define y (stream-filter even? seq)) + +This will first run (even? (stream-car seq)) which will be false for +the first value (i.e. 1). So, it will do: + +(stream-filter even? (stream-cdr seq)) + +Calling stream-cdr on the seq will 'force' the delayed computation. +So, seq becomes: + +seq == (cons 1 + (stream-map accum (stream-cdr s))) + == (cons 1 + (cons (accum 2) ;; sum becomes 3 + (delay (stream-map accum (stream-cdr s))))) + +Now, stream-filter will be called with seq as: + + (cons 3 + (delay (stream-map accum (stream-cdr s)))) + +Again, stream-filter will run the car of seq with the predicate: + + (even? (car seq)) + +which will be false; Now the new computation will be: + + (cons (accum 3) ;; sum becomes 3 + 3 = 6 + (delay (stream-map accum (stream-cdr s))))) + +When stream-filter runs the predicate, (even? (stream-car seq)) +it will return true. At this point, sum = 6. + +|# + +#| + +(define z (stream-filter (lambda (x) (= (remainder x 5) 0)) + seq)) + +At this point, seq is + +(1 (3 (6 (delay (stream-map accum (stream-cdr s))))) + +The forming of the new value of z will run it thru 1, 3 and 6 +and finds that they are not multiple of 5. Now, seq is + +(cons (accum 4) ;; sum = 6 + 4 = 10 + (delay (stream-map accum (stream-cdr s)))) + += +(cons 10 + (delay (stream-map accum (stream-cdr s))))) + +Now, stream-filter will run the predicate and will return +true and returns a stream-cons. At this point, sum = 10. + +|# + +#| + +(stream-ref y 7) + +This will take out 7 values out of y, which means 7 even values. So, +we produce 16 values in the initial stream before we get 7 even values. + +(cons 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 (delay (cons 17 (delay (cons 18 ...)))) + +sum should be +(+ 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16) += 136 + +|# + +#| + +(display-stream z) + +If we were to evaluate seq as a whole and also the rest, we would +get the following. + +seq is: + +(1 3 6 10 15 21 28 36 45 55 66 78 91 105 120 136 153 171 190 210) + +y is + +(10 28 36 66 78 120 136 190 210) + +z is + +(10 15 45 55 95 105 120 190 210) + +sum is 210 + +|# \ No newline at end of file diff --git a/src/sicp/streams.rkt b/src/sicp/streams.rkt new file mode 100644 index 0000000..f7b2717 --- /dev/null +++ b/src/sicp/streams.rkt @@ -0,0 +1,61 @@ +#lang planet neil/sicp + +(define (stream-car s) (car s)) +(define (stream-cdr s) (force (cdr s))) + +(define (stream-ref s n) + (if (= n 0) + (stream-car s) + (stream-ref (stream-cdr s) + (- n 1)))) + +(define (stream-map proc s) + (if (stream-null? s) + the-empty-stream + (cons-stream (proc (stream-car s)) + (stream-map proc (stream-cdr s))))) + +(define (stream-filter pred? s) + (cond [(stream-null? s) the-empty-stream] + [(pred? (stream-car s)) + (cons-stream (stream-car s) + (stream-filter pred? (stream-cdr s)))] + [else (stream-filter pred? (stream-cdr s))])) + +(define (stream-for-each proc s) + (if (stream-null? s) + 'done + (begin + (proc (stream-car s)) + (stream-for-each proc (stream-cdr s))))) + +(define (display-stream s) + (stream-for-each display-line s)) + +(define (display-line x) + (newline) + (display x)) + +;; stream-enumerate-interval +(define (stream-enumerate-interval low high) + (if (> low high) + the-empty-stream + (cons-stream low + (stream-enumerate-interval (+ low 1) + high)))) + + +;; prime? +(define (square x) (* x x)) +(define (smallest-divisor n) + (find-divisor n 2)) +(define (find-divisor n test-divisor) + (cond ((> (square test-divisor) n) n) + ((divides? test-divisor n) test-divisor) + (else (find-divisor n (+ test-divisor 1))))) +(define (divides? a b) + (= (remainder b a) 0)) + +(define (prime? n) + (= (smallest-divisor n) n)) +