;;; sequence tests (set! (*s7* 'heap-size) (* 3 1024000)) (define (less-than a b) (or (< a b) (> b a))) (define (less-than-2 a b) (if (not (real? a)) (display "oops")) (cond ((< a b) #t) (#t #f))) (define (char-less-than a b) (cond ((char (float-vector-ref fv (- i 1)) (float-vector-ref fv i)) (display "oops"))) (do ((i 1 (+ i 1))) ((= i len)) (if (> (fv (- i 1)) (fv i)) (display "oops"))) (sort! fv-ran (lambda (a b) (< a b))) (if (not (equivalent? fv fv-ran)) (format *stderr* "float-vector closure not equal~%")) (sort! fv-ran1 less-than) (if (not (equivalent? fv fv-ran1)) (format *stderr* "float-vector cond closure not equal~%"))) (let ((fv-copy (copy fv))) (reverse! fv) (if (and (not (equivalent? fv-copy fv)) (equivalent? fv fv-orig)) (format *stderr* "float-vector reverse!: ~A ~A~%" fv fv-orig)) (reverse! fv) (if (not (equivalent? fv-copy fv)) (format *stderr* "float-vector reverse! twice: ~A ~A~%" fv fv-copy)) (let ((fv1 (apply float-vector (make-list len 1.0)))) (if (not (and (= (length fv1) len) (= (fv1 (- len 1)) 1.0))) (format *stderr* "float-vector apply: ~A ~A~%" len (fv (- len 1))))) )))) (define (iv-tst len) (let ((fv (make-int-vector len))) (if (not (= (length fv) len)) (format *stderr* "int-vector length ~A: ~A~%" fv (length fv))) (fill! fv 0) (let ((fv-orig (copy fv))) (do ((i 0 (+ i 1))) ((= i len)) (int-vector-set! fv i (- (random 1000000) 500000))) (do ((i 0 (+ i 1))) ((= i len)) (set! (fv i) (- (random 1000000) 500000))) (let ((fv-ran (copy fv)) (fv-ran1 (copy fv))) (sort! fv <) (do ((i 1 (+ i 1))) ((= i len)) (if (> (int-vector-ref fv (- i 1)) (int-vector-ref fv i)) (display "oops"))) (do ((i 1 (+ i 1))) ((= i len)) (if (> (fv (- i 1)) (fv i)) (display "oops"))) (sort! fv-ran (lambda (a b) (< a b))) (if (not (equal? fv fv-ran)) (format *stderr* "int-vector closure not equal~%")) (sort! fv-ran1 less-than) (if (not (equal? fv fv-ran1)) (format *stderr* "int-vector cond closure not equal~%"))) (let ((fv-copy (copy fv))) (reverse! fv) (if (and (not (equal? fv-copy fv)) (equal? fv fv-orig)) (format *stderr* "int-vector reverse!: ~A ~A~%" fv fv-orig)) (reverse! fv) (if (not (equal? fv-copy fv)) (format *stderr* "int-vector reverse! twice: ~A ~A~%" fv fv-copy)) )))) (define (v-tst len) (let ((fv (make-vector len))) (if (not (= (length fv) len)) (format *stderr* "vector length ~A: ~A~%" fv (length fv))) (fill! fv 0) (let ((fv-orig (copy fv))) (do ((i 0 (+ i 1))) ((= i len)) (vector-set! fv i (- (random 1000000) 500000))) (do ((i 0 (+ i 1))) ((= i len)) (set! (fv i) (- (random 1000000) 500000))) (let ((fv-ran (copy fv)) (fv-ran1 (copy fv))) (sort! fv <) (do ((i 1 (+ i 1))) ((= i len)) (if (> (vector-ref fv (- i 1)) (vector-ref fv i)) (display "oops"))) (do ((i 1 (+ i 1))) ((= i len)) (if (> (fv (- i 1)) (fv i)) (display "oops"))) (sort! fv-ran (lambda (a b) (< a b))) (if (not (equal? fv fv-ran)) (format *stderr* "vector closure not equal~%")) (sort! fv-ran1 less-than-2) (if (not (equal? fv fv-ran1)) (format *stderr* "vector cond closure not equal~%"))) (let ((fv-copy (copy fv))) (reverse! fv) (if (and (not (equal? fv-copy fv)) (equal? fv fv-orig)) (format *stderr* "vector reverse!: ~A ~A~%" fv fv-orig)) (reverse! fv) (if (not (equal? fv-copy fv)) (format *stderr* "vector reverse! twice: ~A ~A~%" fv fv-copy)) (let ((fv1 (apply vector (make-list len 1)))) (if (not (and (= (length fv1) len) (= (fv1 (- len 1)) 1))) (format *stderr* "vector apply: ~A ~A~%" len (fv (- len 1))))) )))) (define (s-tst len) (let ((fv (make-string len))) (if (not (= (length fv) len)) (format *stderr* "string length ~A: ~A~%" fv (length fv))) (fill! fv #\a) (let ((fv-orig (copy fv))) (do ((i 0 (+ i 1))) ((= i len)) (string-set! fv i (integer->char (+ 20 (random 100))))) (do ((i 0 (+ i 1))) ((= i len)) (set! (fv i) (integer->char (+ 20 (random 100))))) (let ((fv-ran (copy fv)) (fv-ran1 (copy fv))) (sort! fv char? (string-ref fv (- i 1)) (string-ref fv i)) (display "oops"))) (do ((i 1 (+ i 1))) ((= i len)) (if (char>? (fv (- i 1)) (fv i)) (display "oops"))) (sort! fv-ran (lambda (a b) (char p0 p1) (format *stderr* "list: ~A > ~A~%" (car p0) (car p1)) (quit)) (set! p0 p1)) (cdr fv))))) (set! fv-ran (sort! fv-ran (lambda (a b) (< a b)))) (if (not (equal? fv fv-ran)) (format *stderr* "pair closure not equal~%"))) (let ((fv-copy (copy fv))) (set! fv (reverse! fv)) (if (and (not (equal? fv-copy fv)) (equal? fv fv-orig)) (format *stderr* "list reverse!: ~A ~A~%" fv fv-orig)) (set! fv (reverse! fv)) (if (not (equal? fv-copy fv)) (format *stderr* "list reverse! twice: ~A ~A~%" fv fv-copy)) )))) (define (e-tst len) (let ((ht (make-hash-table len)) (lst (make-list len))) (do ((i 0 (+ i 1))) ((= i len)) (list-set! lst i i)) (do ((i 0 (+ i 1))) ((= i len)) (if (not (= (list-ref lst i) i)) (display "oops"))) (do ((i 0 (+ i 1))) ((= i len)) (set! (lst i) i)) (do ((i 0 (+ i 1))) ((= i len)) (if (not (= (lst i) i)) (display "oops"))) (do ((i 0 (+ i 1))) ((= i len)) (hash-table-set! ht i i)) (do ((i 0 (+ i 1))) ((= i len)) (if (not (= (hash-table-ref ht i) i)) (display "oops"))) (do ((i 0 (+ i 1))) ((= i len)) (set! (ht i) i)) (do ((i 0 (+ i 1))) ((= i len)) (if (not (= (ht i) i)) (display "oops"))))) (define (test-it) (for-each (lambda (b p) (do ((k 0 (+ k 1))) ((= k 1000)) (fv-tst b) (iv-tst b) (v-tst b) (s-tst b) (p-tst b) (e-tst b)) (do ((i 0 (+ i 1))) ((= i p)) (format *stderr* "~D " (expt b i)) (fv-tst (expt b i)) (iv-tst (expt b i)) (v-tst (expt b i)) (s-tst (expt b i)) (p-tst (expt b i)))) '(2 3 4 7 10) '(12 4 3 6 6))) (test-it) (newline *stderr*) (let ((size 1000000)) (define (fe1 x) (if (not (char=? x #\1)) (display x))) (define (fe2) (for-each fe1 (make-string size #\1))) (define (fe20) (for-each char-upcase (make-string size #\1))) (fe2) (fe20) (define (fe3 x) (if (not (char=? x #\1)) (display x))) (define (fe4) (for-each fe3 (make-list size #\1))) (define (fe40) (for-each char? (make-list size #\1))) (fe4) (fe40) (define (fe5 x) (if (not (char=? x #\1)) (display x))) (define (fe6) (for-each fe5 (make-vector size #\1))) (define (fe60) (for-each char-alphabetic? (make-vector size #\1))) (fe6) (fe60) (define (fe7 x) (if (not (= x 1)) (display x))) (define (fe8) (for-each fe7 (make-int-vector size 1))) (define (fe80) (for-each abs (make-int-vector size 1))) (fe8) (fe80) (define (fe9 x) (if (not (= x 1.0)) (display x))) (define (fe10) (for-each fe9 (make-float-vector size 1.0))) (define (fe100) (for-each real? (make-float-vector size 1.0))) (fe10) (fe100) (define (fe11 p) (if (member 1 (make-list p 2) >) (display "oops"))) (fe11 size) (fe11 1) (define (less a b) (> a b)) (define (fe12 p) (if (member 1 (make-list p 2) less) (display "oops"))) (fe12 size) (fe12 1) (define (fe13 p) (if (member 1 (make-list p 2) (lambda (a b) (cond ((> a b) #t) (#t #f)))) (display "oops"))) (fe13 size) (fe13 1)) ;;; -------------------------------------------------------------------------------- ;;; this is a revision of some code posted in comp.lang.lisp by melzzzzz for euler project 512 ;;; using int-vector is better for the largest cases (define (make-boolean-vector n) (make-vector n #f)) (define boolean-vector-ref vector-ref) (define-expansion (boolean-vector-set! v j) `(vector-set! ,v ,j #t)) (define (odd-get n) (let* ((visited-range (+ (ash n -1) 1)) (visited (make-boolean-vector visited-range)) (sqrt-n (+ (floor (sqrt n)) 1))) (do ((i 3 (+ i 2))) ((>= i sqrt-n)) (unless (boolean-vector-ref visited (ash i -1)) (do ((j (ash (* i i) -1) (+ j i))) ((>= j visited-range)) (boolean-vector-set! visited j)))) (let ((rc (make-int-vector (+ n 1))) (rcp 0) (lim (+ n 1))) (do ((i 3 (+ i 2))) ((= i lim) (copy rc (make-int-vector rcp))) (unless (boolean-vector-ref visited (ash i -1)) (int-vector-set! rc rcp i) (set! rcp (+ rcp 1))))))) (define (getr n) (let* ((odd-bound (ash (+ n 1) -1)) (prime-list (odd-get n)) (result (make-int-vector odd-bound)) (n2 (/ n 2))) ; this optimization suggested by "Peter" (in comp.lang.lisp) (do ((i 0 (+ i 1))) ((= i odd-bound)) (int-vector-set! result i (+ (* 2 i) 1))) (for-each (lambda (prime) (do ((j (ash prime -1) (+ j prime))) ((>= j n2)) (int-vector-set! result j (* (quotient (int-vector-ref result j) prime) (- prime 1))))) prime-list) (let ((sum 0)) (do ((i 0 (+ i 1))) ((= i odd-bound) sum) (set! sum (+ sum (int-vector-ref result i))))))) (let ((r (getr 100))) (unless (= r 2007) (display r) (newline))) (let ((r (getr 500000))) (unless (= r 50660660193) (display r) (newline))) ;;; (getr 5000000) 5066059769259 .5 ;;; (getr 50000000) 506605921933035 6 ;;; (getr 500000000) 50660591862310323 67 (32M, mutable_do) ;;; -------------------------------------------------------------------------------- ;;; some coverage cases (define fsize 200000) (define (f1 lst) (for-each (lambda (p) (if (integer? p) (display 'oops))) lst)) (define lst (make-list fsize ())) (f1 lst) (define (f2 v) (for-each (lambda (p) (if (integer? p) (display 'oops))) v)) (define fv (make-float-vector fsize 1.0)) (f2 fv) (define (f3 v) (for-each (lambda (p) (if (pair? p) (display 'oops))) v)) (define iv (make-int-vector fsize 1)) (f3 iv) (define (f4 v) (for-each (lambda (p) (if (integer? p) (display 'oops))) v)) (define nv (make-vector fsize "abc")) (f4 nv) (define (f5 lst) (for-each (lambda (p) (if (integer? p) (throw 'oops p))) lst)) (f5 lst) (define (f11 lst) (map (lambda (p) (if (integer? p) (display 'oops))) lst)) (f11 lst) (define (f12 v) (map (lambda (p) (if (integer? p) (display 'oops))) v)) (f12 fv) (define (f13 v) (map (lambda (p) (if (pair? p) (display 'oops))) v)) (f13 iv) (define (f14 v) (map (lambda (p) (if (integer? p) (display 'oops))) v)) (f14 nv) (define (f15 lst) (map (lambda (p) (if (integer? p) (throw 'oops p))) lst)) (f15 lst) (define gsize 1000000) (define glst (make-list gsize ())) (define gfv (make-float-vector gsize 1.0)) (define giv (make-int-vector gsize 1)) (define gv (make-vector gsize ())) (define (g1 lst) (for-each (lambda* (p) (if (integer? p) (display 'oops))) lst)) (define (g3 v) (for-each (lambda* (p) (if (pair? p) (display 'oops))) v)) (g1 glst) (g1 gfv) (g3 giv) (g1 gv) (define (g5 lst) (for-each (lambda* (p) (if (integer? p) (throw 'oops p))) lst)) (g5 glst) (define (g11 lst) (map (lambda* (p) (if (integer? p) (display 'oops) 0)) lst)) (define (g13 v) (map (lambda* (p) (if (pair? p) (display 'oops) 0)) v)) (g11 glst) (g11 gfv) (g13 giv) (g11 gv) (define (g15 lst) (map (lambda* (p) (if (integer? p) (throw 'oops p) 0)) lst)) (g15 glst) (define (g6 lst) (for-each (lambda (p) (if (integer? p) (display 'oops)) (if (pair? p) (display 'oops))) lst)) (g6 gv) (define (g61 lst) (for-each (lambda (p) (for-each (lambda (q) (if (integer? q) (display 'oops))) p)) lst)) (define glst1 (make-list 100 (make-list 100 #\a))) (g61 glst1) (define (g16 lst) (map (lambda (p) (map (lambda (q) (if (integer? q) (display 'oops) 0)) p)) lst)) (g16 glst1) (define fstr (make-string gsize #\a)) (define (f7 str) (for-each (lambda (p) (if (not (char? p)) (display 'oops))) str)) (f7 fstr) (define (f17 str) (map (lambda (p) (if (not (char? p)) (display 'oops) p)) str)) (f17 fstr) (define (f21 lst) (for-each (lambda (p q) (unless (eq? p q) (display 'oops))) lst lst)) (f21 lst) (define (f22 v) (for-each (lambda (p q) (if (not (= p q)) (display 'oops))) v v)) (f22 fv) (define (f23 str) (for-each (lambda (p q) (if (not (char=? p q)) (display 'oops))) str str)) (f23 fstr) (define (f24 v) (for-each (lambda (p q) (unless (string=? p q) (display 'oops))) v v)) (f24 nv) ;; if float-vector arg and only ref is in opt_d context, no need for make_real ;; i.e. 2 args even cell_opt outer, is ref b_dd or equivalent? (define hsize 75000) (define (f25 v) (do ((i 0 (+ i 1))) ((= i hsize)) (for-each (lambda (p) (unless (positive? p) (display 'oops))) v))) (define fgv (make-float-vector 100 1.0)) (f25 fgv) (define (f26 v1 v2) (for-each (lambda (p q) (if (not (= p q)) (display 'oops))) ;(format *stderr* "f2: ~S ~S~%" p q))) v1 v2)) (f26 fv iv) (define (f27 lst v) (for-each (lambda (p q) (if (equal? p q) (display 'oops))) ;(format *stderr* "f1: ~S ~S~%" p q))) lst v)) (f27 lst nv) (define (f28) (do ((p lst (cdr p)) (i 0 (+ i 1))) ((null? p)) (set-car! p i)) (map + lst lst)) (f28) (define (f29) (let ((str (make-string 100 #\a))) (set! (str 50) #\b) (do ((i 0 (+ i 1))) ((= i 30000)) (map char->integer str)))) (f29) (define (f30) (do ((i 0 (+ i 1))) ((= i 30)) (map pair? lst))) (f30) (newline) (when (> (*s7* 'profile) 0) (show-profile 200)) (exit)