From 6ee96c8f714852073bd08257d1904b4533153084 Mon Sep 17 00:00:00 2001 From: ESL Date: Sun, 28 Jul 2024 10:32:34 -0400 Subject: [PATCH] make test target added; misc/test.scm --- Makefile | 5 +- misc/test.scm | 3079 +++++++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 3083 insertions(+), 1 deletion(-) create mode 100644 misc/test.scm diff --git a/Makefile b/Makefile index 93df3a0..50e64c3 100644 --- a/Makefile +++ b/Makefile @@ -42,7 +42,7 @@ ifeq ($(ARCH),AMD64) CFLAGS += -D NAN_BOXING endif -.PHONY: all clean realclean install uninstall +.PHONY: all clean realclean test install uninstall exe = ./skint @@ -60,6 +60,9 @@ objects = $(sources:%.c=%.o) all: $(exe) +test: + $(exe) misc/test.scm + clean: $(RM) $(objects) diff --git a/misc/test.scm b/misc/test.scm new file mode 100644 index 0000000..17e6ecb --- /dev/null +++ b/misc/test.scm @@ -0,0 +1,3079 @@ +;; +;; R7RS and Skint tests from various sources +;; + + +;; tests from chibi scheme +;; + +(define *tests-run* 0) +(define *tests-passed* 0) + +(define-syntax test + (syntax-rules () + ((test name expect expr) + (test expect expr)) + ((test expect expr) + (begin + (set! *tests-run* (+ *tests-run* 1)) + (let ((display-str + (lambda () + (write *tests-run*) + (display ". ") + (write 'expr))) + (res expr)) + (display-str) + (write-char #\space) + (display (make-string 10 #\.)) + ;(flush-output) + (cond + ((equal? res expect) + (set! *tests-passed* (+ *tests-passed* 1)) + (display " [PASS]\n")) + (else + (display " [FAIL]\n") + (display "********** expected ") (write expect) + (display " but got ") (write res) (newline)))))))) + +(define-syntax test-assert + (syntax-rules () + ((test-assert expr) (test #t expr)) + ((test-assert name expr) (test name #t expr)))) + +(define-syntax test-values + (syntax-rules () + ((test-values vals expr) + (test (call-with-values (lambda () vals) list) (call-with-values (lambda () expr) list))))) + +(define-syntax test~= + (syntax-rules () + ((test~= val expr) (test (number->string val) (number->string expr))))) + + +(define (test-begin . name) + #f) + +(define (test-end) + (write *tests-passed*) + (display " out of ") + (write *tests-run*) + (display " passed (") + (write (* (/ *tests-passed* *tests-run*) 100)) + (display "%)") + (newline)) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(test-begin "r5rs") + +;(define (square x) (* x x)) -- standard in r7rs + +(test 1764 (square 42)) + +(test 4 (square 2)) + +(test 8 ((lambda (x) (+ x x)) 4)) + +(test '(3 4 5 6) ((lambda x x) 3 4 5 6)) + +(test '(5 6) ((lambda (x y . z) z) 3 4 5 6)) + +(test 'yes (if (> 3 2) 'yes 'no)) + +(test 'no (if (> 2 3) 'yes 'no)) + +(test 1 (if (> 3 2) (- 3 2) (+ 3 2))) + +(test 'greater (cond ((> 3 2) 'greater) ((< 3 2) 'less))) + +(test 'equal (cond ((> 3 3) 'greater) ((< 3 3) 'less) (else 'equal))) + +(test 'composite (case (* 2 3) ((2 3 5 7) 'prime) ((1 4 6 8 9) 'composite))) + +(test 'consonant + (case (car '(c d)) + ((a e i o u) 'vowel) + ((w y) 'semivowel) + (else 'consonant))) + +(test #t (and (= 2 2) (> 2 1))) + +(test #f (and (= 2 2) (< 2 1))) + +(test '(f g) (and 1 2 'c '(f g))) + +(test #t (and)) + +(test #t (or (= 2 2) (> 2 1))) + +(test #t (or (= 2 2) (< 2 1))) + +(test '(b c) (or (memq 'b '(a b c)) (/ 3 0))) + +(test 6 (let ((x 2) (y 3)) (* x y))) + +(test 35 (let ((x 2) (y 3)) (let ((x 7) (z (+ x y))) (* z x)))) + +(test 70 (let ((x 2) (y 3)) (let* ((x 7) (z (+ x y))) (* z x)))) + +(test -2 (let () + (define x 2) + (define f (lambda () (- x))) + (f))) + +(define let*-def 1) +(let* () (define let*-def 2) #f) +(test 1 let*-def) + +(test '#(0 1 2 3 4) + (do ((vec (make-vector 5)) + (i 0 (+ i 1))) + ((= i 5) vec) + (vector-set! vec i i))) + +(test 25 + (let ((x '(1 3 5 7 9))) + (do ((x x (cdr x)) + (sum 0 (+ sum (car x)))) + ((null? x) + sum)))) + +(test '((6 1 3) (-5 -2)) + (let loop ((numbers '(3 -2 1 6 -5)) (nonneg '()) (neg '())) + (cond + ((null? numbers) + (list nonneg neg)) + ((>= (car numbers) 0) + (loop (cdr numbers) (cons (car numbers) nonneg) neg)) + ((< (car numbers) 0) + (loop (cdr numbers) nonneg (cons (car numbers) neg)))))) + +(test '(list 3 4) `(list ,(+ 1 2) 4)) + +(test '(list a 'a) (let ((name 'a)) `(list ,name ',name))) + +(test '(a 3 4 5 6 b) + `(a ,(+ 1 2) ,@(map abs '(4 -5 6)) b)) + +(test '(10 5 4 16 9 8) + `(10 5 ,(expt 2 2) ,@(map (lambda (n) (expt n 2)) '(4 3)) 8)) + +(test '(a `(b ,(+ 1 2) ,(foo 4 d) e) f) + `(a `(b ,(+ 1 2) ,(foo ,(+ 1 3) d) e) f)) + +(test '(a `(b ,x ,'y d) e) + (let ((name1 'x) + (name2 'y)) + `(a `(b ,,name1 ,',name2 d) e))) + +(test '(list 3 4) + (quasiquote (list (unquote (+ 1 2)) 4))) + +(test #t (eqv? 'a 'a)) + +(test #f (eqv? 'a 'b)) + +(test #t (eqv? '() '())) + +(test #f (eqv? (cons 1 2) (cons 1 2))) + +(test #f (eqv? (lambda () 1) (lambda () 2))) + +(test #t (let ((p (lambda (x) x))) (eqv? p p))) + +(test #t (eq? 'a 'a)) + +(test #f (eq? (list 'a) (list 'a))) + +(test #t (eq? '() '())) + +(test #t (eq? car car)) + +(test #t (let ((x '(a))) (eq? x x))) + +(test #t (let ((p (lambda (x) x))) (eq? p p))) + +(test #t (equal? 'a 'a)) + +(test #t (equal? '(a) '(a))) + +(test #t (equal? '(a (b) c) '(a (b) c))) + +(test #t (equal? "abc" "abc")) + +(test #f (equal? "abc" "abcd")) + +(test #f (equal? "a" "b")) + +(test #t (equal? 2 2)) + +(test #f (eqv? 2 2.0)) + +(test #f (equal? 2.0 2)) + +(test #t (equal? (make-vector 5 'a) (make-vector 5 'a))) + +(test 4 (max 3 4)) + +(test 4.0 (max 3.9 4)) + +(test 7 (+ 3 4)) + +(test 3 (+ 3)) + +(test 0 (+)) + +(test 4 (* 4)) + +(test 1 (*)) + +(test -1 (- 3 4)) + +(test -6 (- 3 4 5)) + +(test -3 (- 3)) + +(test -1.0 (- 3.0 4)) + +(test #t (< -1 0)) + +(test 7 (abs -7)) + +(test 1 (modulo 13 4)) + +(test 1 (remainder 13 4)) + +(test 3 (modulo -13 4)) + +(test -1 (remainder -13 4)) + +(test -3 (modulo 13 -4)) + +(test 0 (modulo 3333333 -3)) + +(test 1 (remainder 13 -4)) + +(test -1 (modulo -13 -4)) + +(test -1 (remainder -13 -4)) + +(test 4 (gcd 32 -36)) + +(test 288 (lcm 32 -36)) + +(test 100 (string->number "100")) + +(test 256 (string->number "100" 16)) + +(test 127 (string->number "177" 8)) + +(test 5 (string->number "101" 2)) + +(test 100.0 (string->number "1e2")) + +(test "100" (number->string 100)) + +(test "100" (number->string 256 16)) + +(test "ff" (number->string 255 16)) + +(test "177" (number->string 127 8)) + +(test "101" (number->string 5 2)) + +(test #f (not 3)) + +(test #f (not (list 3))) + +(test #f (not '())) + +(test #f (not (list))) + +(test #f (not '())) + +(test #f (boolean? 0)) + +(test #f (boolean? '())) + +(test #t (boolean=? #t #t)) + +(test #f (boolean=? #f #t)) + +(test #t (boolean=? #f #f #f)) + +(test #f (boolean=? #f #f #f #t #f)) + +(test #t (pair? '(a . b))) + +(test #t (pair? '(a b c))) + +(test '(a) (cons 'a '())) + +(test '((a) b c d) (cons '(a) '(b c d))) + +(test '("a" b c) (cons "a" '(b c))) + +(test '(a . 3) (cons 'a 3)) + +(test '((a b) . c) (cons '(a b) 'c)) + +(test 'a (car '(a b c))) + +(test '(a) (car '((a) b c d))) + +(test 1 (car '(1 . 2))) + +(test '(b c d) (cdr '((a) b c d))) + +(test 2 (cdr '(1 . 2))) + +(test #t (list? '(a b c))) + +(test #t (list? '())) + +(test #f (list? '(a . b))) + +(test #f + (let ((x (list 'a))) + (set-cdr! x x) + (list? x))) + +(test '(a 7 c) (list 'a (+ 3 4) 'c)) + +(test '() (list)) + +(test 3 (length '(a b c))) + +(test 3 (length '(a (b) (c d e)))) + +(test 0 (length '())) + +(test '(x y) (append '(x) '(y))) + +(test '(a b c d) (append '(a) '(b c d))) + +(test '(a (b) (c)) (append '(a (b)) '((c)))) + +(test '(a b c . d) (append '(a b) '(c . d))) + +(test 'a (append '() 'a)) + +(test '(c b a) (reverse '(a b c))) + +(test '((e (f)) d (b c) a) (reverse '(a (b c) d (e (f))))) + +(test 'c (list-ref '(a b c d) 2)) + +(test '(a b c) (memq 'a '(a b c))) + +(test '(b c) (memq 'b '(a b c))) + +(test #f (memq 'a '(b c d))) + +(test #f (memq (list 'a) '(b (a) c))) + +(test '((a) c) (member (list 'a) '(b (a) c))) + +(test '(101 102) (memv 101 '(100 101 102))) + +(test #f (assq (list 'a) '(((a)) ((b)) ((c))))) + +(test '((a)) (assoc (list 'a) '(((a)) ((b)) ((c))))) + +(test '(5 7) (assv 5 '((2 3) (5 7) (11 13)))) + +(let* ((x (list 'a 'b 'c)) + (y x)) + (test '(a b c) (values y)) + (test #t (list? y)) + (set-cdr! x 4) + (test '(a . 4) (values x)) + (test #t (eqv? x y)) + (test #f (list? y)) + (set-cdr! x x) + (test #f (list? x))) + +(test #t (pair? '(a . b))) +(test #t (pair? '(a b c))) +(test #f (pair? '())) +(test #f (pair? '#(a b))) + +(test '(a) (cons 'a '())) +(test '((a) b c d) (cons '(a) '(b c d))) +(test '("a" b c) (cons "a" '(b c))) +(test '(a . 3) (cons 'a 3)) +(test '((a b) . c) (cons '(a b) 'c)) + +(test 'a (car '(a b c))) +(test '(a) (car '((a) b c d))) +(test 1 (car '(1 . 2))) + +(test '(b c d) (cdr '((a) b c d))) +(test 2 (cdr '(1 . 2))) + +(test #t (list? '(a b c))) +(test #t (list? '())) +(test #f (list? '(a . b))) +(test #f (let ((x (list 'a))) (set-cdr! x x) (list? x))) + +(test '() (make-list 0 3)) +(test '(3 3) (make-list 2 3)) +(test 42 (length (make-list 42))) + +(test '(a 7 c) (list 'a (+ 3 4) 'c)) +(test '() (list)) + +(test 3 (length '(a b c))) +(test 3 (length '(a (b) (c d e)))) +(test 0 (length '())) + +(test '(x y) (append '(x) '(y))) +(test '(a b c d) (append '(a) '(b c d))) +(test '(a (b) (c)) (append '(a (b)) '((c)))) + +(test '(a b c . d) (append '(a b) '(c . d))) +(test 'a (append '() 'a)) + +(test '(c b a) (reverse '(a b c))) +(test '((e (f)) d (b c) a) (reverse '(a (b c) d (e (f))))) + +(test '(d e) (list-tail '(a b c d e) 3)) + +(test 'c (list-ref '(a b c d) 2)) +(test 'c (list-ref '(a b c d) + (exact (round 1.8)))) + +(test '(0 ("Sue" "Sue") "Anna") + (let ((lst (list 0 '(2 2 2 2) "Anna"))) + (list-set! lst 1 '("Sue" "Sue")) + lst)) + +(test '(a b c) (memq 'a '(a b c))) +(test '(b c) (memq 'b '(a b c))) +(test #f (memq 'a '(b c d))) +(test #f (memq (list 'a) '(b (a) c))) +(test '((a) c) (member (list 'a) '(b (a) c))) +(test '("b" "c") (member "B" '("a" "b" "c") string-ci=?)) +(test '(101 102) (memv 101 '(100 101 102))) + +(let () + (define e '((a 1) (b 2) (c 3))) + (test '(a 1) (assq 'a e)) + (test '(b 2) (assq 'b e)) + (test #f (assq 'd e))) + +(test #f (assq (list 'a) '(((a)) ((b)) ((c))))) +(test '((a)) (assoc (list 'a) '(((a)) ((b)) ((c))))) +(test '(2 4) (assoc 2.0 '((1 1) (2 4) (3 9)) =)) +(test '(5 7) (assv 5 '((2 3) (5 7) (11 13)))) + +(test '(1 2 3) (list-copy '(1 2 3))) +(test "foo" (list-copy "foo")) +(test '() (list-copy '())) +(test '(3 . 4) (list-copy '(3 . 4))) +(test '(6 7 8 . 9) (list-copy '(6 7 8 . 9))) +(let* ((l1 '((a b) (c d) e)) + (l2 (list-copy l1))) + (test l2 '((a b) (c d) e)) + (test #t (eq? (car l1) (car l2))) + (test #t (eq? (cadr l1) (cadr l2))) + (test #f (eq? (cdr l1) (cdr l2))) + (test #f (eq? (cddr l1) (cddr l2)))) + +(test #t (char? #\a)) +(test #f (char? "a")) +(test #f (char? 'a)) +(test #f (char? 0)) + +(test #t (char=? #\a #\a #\a)) +(test #f (char=? #\a #\A)) +(test #t (char? #\a #\b)) +(test #f (char>? #\a #\a)) +(test #t (char>? #\c #\b #\a)) +(test #t (char<=? #\a #\b #\b)) +(test #t (char<=? #\a #\a)) +(test #f (char<=? #\b #\a)) +(test #f (char>=? #\a #\b)) +(test #t (char>=? #\a #\a)) +(test #t (char>=? #\b #\b #\a)) + +(test #t (char-ci=? #\a #\a)) +(test #t (char-ci=? #\a #\A #\a)) +(test #f (char-ci=? #\a #\b)) +(test #t (char-ci? #\A #\b)) +(test #f (char-ci>? #\a #\A)) +(test #t (char-ci>? #\c #\B #\a)) +(test #t (char-ci<=? #\a #\B #\b)) +(test #t (char-ci<=? #\A #\a)) +(test #f (char-ci<=? #\b #\A)) +(test #f (char-ci>=? #\A #\b)) +(test #t (char-ci>=? #\a #\A)) +(test #t (char-ci>=? #\b #\B #\a)) + +(test #t (char-alphabetic? #\a)) +(test #f (char-alphabetic? #\space)) +(test #t (char-numeric? #\0)) +(test #f (char-numeric? #\.)) +(test #f (char-numeric? #\a)) +(test #t (char-whitespace? #\space)) +(test #t (char-whitespace? #\tab)) +(test #t (char-whitespace? #\newline)) +(test #f (char-whitespace? #\_)) +(test #f (char-whitespace? #\a)) +(test #t (char-upper-case? #\A)) +(test #f (char-upper-case? #\a)) +(test #f (char-upper-case? #\3)) +(test #t (char-lower-case? #\a)) +(test #f (char-lower-case? #\A)) +(test #f (char-lower-case? #\3)) + +(test #\A (char-upcase #\a)) +(test #\A (char-upcase #\A)) +(test #\3 (char-upcase #\3)) +(test #\a (char-downcase #\A)) +(test #\a (char-downcase #\a)) +(test #\3 (char-downcase #\3)) +(test #\a (char-foldcase #\A)) +(test #\a (char-foldcase #\a)) +(test #\3 (char-foldcase #\3)) + +(test #f (digit-value #\space)) +(test 0 (digit-value #\0)) +(test 3 (digit-value #\3)) +(test 7 (digit-value #\7)) +(test 9 (digit-value #\9)) +(test #f (digit-value #\A)) + +(test #t (symbol? 'foo)) + +(test #t (symbol? (car '(a b)))) + +(test #f (symbol? "bar")) + +(test #t (symbol? 'nil)) + +(test #f (symbol? '())) + +(test #t (symbol=? 'a 'a)) + +(test #f (symbol=? 'a 'b)) + +(test #t (symbol=? 'b 'b 'b 'b)) + +(test #f (symbol=? 'b 'b 'b 'b 'a)) + +(test "flying-fish" (symbol->string 'flying-fish)) + +(test "Martin" (symbol->string 'Martin)) + +(test "Malvina" (symbol->string (string->symbol "Malvina"))) + +(test #t (string? "")) +(test #t (string? " ")) +(test #f (string? 'a)) +(test #f (string? #\a)) + +(test 3 (string-length (make-string 3))) +(test "---" (make-string 3 #\-)) + +(test "" (string)) +(test "---" (string #\- #\- #\-)) +(test "kitten" (string #\k #\i #\t #\t #\e #\n)) + +(test 0 (string-length "")) +(test 1 (string-length "a")) +(test 3 (string-length "abc")) + +(test #\a (string-ref "abc" 0)) +(test #\b (string-ref "abc" 1)) +(test #\c (string-ref "abc" 2)) + +(test "a-c" (let ((str (string #\a #\b #\c))) (string-set! str 1 #\-) str)) + +;(test (string #\a #\x1F700 #\c) +; (let ((s (string #\a #\b #\c))) +; (string-set! s 1 #\x1F700) +; s)) + +(test #t (string=? "" "")) +(test #t (string=? "abc" "abc" "abc")) +(test #f (string=? "" "abc")) +(test #f (string=? "abc" "aBc")) + +(test #f (string? "" "")) +(test #f (string>? "abc" "abc")) +(test #f (string>? "abc" "abcd")) +(test #t (string>? "acd" "abcd" "abc")) +(test #f (string>? "abc" "bbc")) + +(test #t (string<=? "" "")) +(test #t (string<=? "abc" "abc")) +(test #t (string<=? "abc" "abcd" "abcd")) +(test #f (string<=? "abcd" "abc")) +(test #t (string<=? "abc" "bbc")) + +(test #t (string>=? "" "")) +(test #t (string>=? "abc" "abc")) +(test #f (string>=? "abc" "abcd")) +(test #t (string>=? "abcd" "abcd" "abc")) +(test #f (string>=? "abc" "bbc")) + +(test #t (string-ci=? "" "")) +(test #t (string-ci=? "abc" "abc")) +(test #f (string-ci=? "" "abc")) +(test #t (string-ci=? "abc" "aBc")) +(test #f (string-ci=? "abc" "aBcD")) +(test #t (string-ci=? "abc" "aBc" "Abc")) + +(test #f (string-ci? "abc" "aBc")) +(test #f (string-ci>? "abc" "aBcD")) +(test #t (string-ci>? "ABCd" "aBc")) +(test #t (string-ci>? "ABCE" "ABCd" "aBc")) + +(test #t (string-ci<=? "abc" "aBc")) +(test #t (string-ci<=? "abc" "aBcD")) +(test #f (string-ci<=? "ABCd" "aBc")) +(test #t (string-ci<=? "abc" "aBc" "aBcD")) + +(test #t (string-ci>=? "abc" "aBc")) +(test #f (string-ci>=? "abc" "aBcD")) +(test #t (string-ci>=? "ABCd" "aBc")) +(test #t (string-ci>=? "ABCd" "aBc" "AbC")) + +(test "ABC" (string-upcase "abc")) +(test "ABC" (string-upcase "ABC")) +(test "abc" (string-downcase "abc")) +(test "abc" (string-downcase "ABC")) +(test "abc" (string-foldcase "abc")) +(test "abc" (string-foldcase "ABC")) + +(test "" (substring "" 0 0)) +(test "" (substring "a" 0 0)) +(test "" (substring "abc" 1 1)) +(test "ab" (substring "abc" 0 2)) +(test "bc" (substring "abc" 1 3)) + +(test "" (string-append "")) +(test "" (string-append "" "")) +(test "abc" (string-append "" "abc")) +(test "abc" (string-append "abc" "")) +(test "abcde" (string-append "abc" "de")) +(test "abcdef" (string-append "abc" "de" "f")) + +(test '() (string->list "")) +(test '(#\a) (string->list "a")) +(test '(#\a #\b #\c) (string->list "abc")) +(test '(#\a #\b #\c) (string->list "abc" 0)) +(test '(#\b #\c) (string->list "abc" 1)) +(test '(#\b #\c) (string->list "abc" 1 3)) + +(test "" (list->string '())) +(test "abc" (list->string '(#\a #\b #\c))) + +(test "" (string-copy "")) +(test "" (string-copy "" 0)) +(test "" (string-copy "" 0 0)) +(test "abc" (string-copy "abc")) +(test "abc" (string-copy "abc" 0)) +(test "bc" (string-copy "abc" 1)) +(test "b" (string-copy "abc" 1 2)) +(test "bc" (string-copy "abc" 1 3)) + +(test "-----" + (let ((str (make-string 5 #\x))) (string-fill! str #\-) str)) +(test "xx---" + (let ((str (make-string 5 #\x))) (string-fill! str #\- 2) str)) +(test "xx-xx" + (let ((str (make-string 5 #\x))) (string-fill! str #\- 2 3) str)) + +(test "a12de" + (let ((str (string-copy "abcde"))) (string-copy! str 1 "12345" 0 2) str)) +(test "-----" + (let ((str (make-string 5 #\x))) (string-copy! str 0 "-----") str)) +(test "---xx" + (let ((str (make-string 5 #\x))) (string-copy! str 0 "-----" 2) str)) +(test "xx---" + (let ((str (make-string 5 #\x))) (string-copy! str 2 "-----" 0 3) str)) +(test "xx-xx" + (let ((str (make-string 5 #\x))) (string-copy! str 2 "-----" 2 3) str)) + +;; same source and dest +(test "aabde" + (let ((str (string-copy "abcde"))) (string-copy! str 1 str 0 2) str)) +(test "abcab" + (let ((str (string-copy "abcde"))) (string-copy! str 3 str 0 2) str)) + +(test #t (string? "a")) + +(test #f (string? 'a)) + +(test 0 (string-length "")) + +(test 3 (string-length "abc")) + +(test #\a (string-ref "abc" 0)) + +(test #\c (string-ref "abc" 2)) + +(test #t (string=? "a" (string #\a))) + +(test #f (string=? "a" (string #\b))) + +(test #t (stringlist '#(dah dah didah))) +(test '(dah didah) (vector->list '#(dah dah didah) 1)) +(test '(dah) (vector->list '#(dah dah didah) 1 2)) +(test '#(dididit dah) (list->vector '(dididit dah))) + +(test '#() (string->vector "")) +(test '#(#\A #\B #\C) (string->vector "ABC")) +(test '#(#\B #\C) (string->vector "ABC" 1)) +(test '#(#\B) (string->vector "ABC" 1 2)) + +(test "" (vector->string #())) +(test "123" (vector->string '#(#\1 #\2 #\3))) +(test "23" (vector->string '#(#\1 #\2 #\3) 1)) +(test "2" (vector->string '#(#\1 #\2 #\3) 1 2)) + +(test '#() (vector-copy '#())) +(test '#(a b c) (vector-copy '#(a b c))) +(test '#(b c) (vector-copy '#(a b c) 1)) +(test '#(b) (vector-copy '#(a b c) 1 2)) + +(test '#() (vector-append)) +(test '#() (vector-append '#())) +(test '#() (vector-append '#() '#())) +(test '#(a b c) (vector-append '#() '#(a b c))) +(test '#(a b c) (vector-append '#(a b c) '#())) +(test '#(a b c d e) (vector-append '#(a b c) '#(d e))) +(test '#(a b c d e f) (vector-append '#(a b c) '#(d e) '#(f))) + +(test '#(1 2 smash smash 5) + (let ((vec (vector 1 2 3 4 5))) (vector-fill! vec 'smash 2 4) vec)) +(test '#(x x x x x) + (let ((vec (vector 1 2 3 4 5))) (vector-fill! vec 'x) vec)) +(test '#(1 2 x x x) + (let ((vec (vector 1 2 3 4 5))) (vector-fill! vec 'x 2) vec)) +(test '#(1 2 x 4 5) + (let ((vec (vector 1 2 3 4 5))) (vector-fill! vec 'x 2 3) vec)) + +(test '#(1 a b 4 5) + (let ((vec (vector 1 2 3 4 5))) (vector-copy! vec 1 #(a b c d e) 0 2) vec)) +(test '#(a b c d e) + (let ((vec (vector 1 2 3 4 5))) (vector-copy! vec 0 #(a b c d e)) vec)) +(test '#(c d e 4 5) + (let ((vec (vector 1 2 3 4 5))) (vector-copy! vec 0 #(a b c d e) 2) vec)) +(test '#(1 2 a b c) + (let ((vec (vector 1 2 3 4 5))) (vector-copy! vec 2 #(a b c d e) 0 3) vec)) +(test '#(1 2 c 4 5) + (let ((vec (vector 1 2 3 4 5))) (vector-copy! vec 2 #(a b c d e) 2 3) vec)) + +;; same source and dest +(test '#(1 1 2 4 5) + (let ((vec (vector 1 2 3 4 5))) (vector-copy! vec 1 vec 0 2) vec)) +(test '#(1 2 3 1 2) + (let ((vec (vector 1 2 3 4 5))) (vector-copy! vec 3 vec 0 2) vec)) + + +(test '#(0 ("Sue" "Sue") "Anna") + (let ((vec (vector 0 '(2 2 2 2) "Anna"))) + (vector-set! vec 1 '("Sue" "Sue")) + vec)) + +(test '(dah dah didah) (vector->list '#(dah dah didah))) + +(test '#(dididit dah) (list->vector '(dididit dah))) + +(test #t (procedure? car)) + +(test #f (procedure? 'car)) + +(test #t (procedure? (lambda (x) (* x x)))) + +(test #f (procedure? '(lambda (x) (* x x)))) + +(test #t (call-with-current-continuation procedure?)) + +(test 7 (call-with-current-continuation (lambda (k) (+ 2 5)))) + +(test 3 (call-with-current-continuation (lambda (k) (+ 2 5 (k 3))))) + +(test 7 (apply + (list 3 4))) + +(test '(b e h) (map cadr '((a b) (d e) (g h)))) + +(test '(1 4 27 256 3125) (map (lambda (n) (expt n n)) '(1 2 3 4 5))) + +(test '(5 7 9) (map + '(1 2 3) '(4 5 6))) + +(test '#(0 1 4 9 16) + (let ((v (make-vector 5))) + (for-each + (lambda (i) (vector-set! v i (* i i))) + '(0 1 2 3 4)) + v)) + +(test 3 (force (delay (+ 1 2)))) + +(test '(3 3) (let ((p (delay (+ 1 2)))) (list (force p) (force p)))) + +(test 'ok (let ((else 1)) (cond (else 'ok) (#t 'bad)))) + +(test 'ok (let ((=> 1)) (cond (#t => 'ok)))) + +(test '(,foo) (let ((unquote 1)) `(,foo))) + +(test '(,@foo) (let ((unquote-splicing 1)) `(,@foo))) + +(test '(list 3 4) `(list ,(+ 1 2) 4)) + +(let ((name 'a)) (test '(list a (quote a)) `(list ,name ',name))) + +(test '(a 3 4 5 6 b) `(a ,(+ 1 2) ,@(map abs '(4 -5 6)) b)) + +(test '#(10 5 4 16 9 8) + `#(10 5 ,(square 2) ,@(map square '(4 3)) 8)) + +(test '(a `(b ,(+ 1 2) ,(foo 4 d) e) f) + `(a `(b ,(+ 1 2) ,(foo ,(+ 1 3) d) e) f) ) + +(let ((name1 'x) + (name2 'y)) + (test '(a `(b ,x ,'y d) e) `(a `(b ,,name1 ,',name2 d) e))) + +(test '(list 3 4) (quasiquote (list (unquote (+ 1 2)) 4)) ) + +(test `(list ,(+ 1 2) 4) (quasiquote (list (unquote (+ 1 2)) 4))) + +(test 'greater (when (> 3 2) 'greater)) +(test '(greater) (let ((x '())) (when (> 3 2) (set! x (cons 'greater x)) x))) + +(test 'less (unless (< 3 2) 'less)) +(test '(less) (let ((x '())) (unless (< 3 2) (set! x (cons 'less x)) x))) + +(define plus + (case-lambda + (() 0) + ((x) x) + ((x y) (+ x y)) + ((x y z) (+ (+ x y) z)) + (args (apply + args)))) + +(test 0 (plus)) + +(test 1 (plus 1)) + +(test 3 (plus 1 2)) + +(test 6 (plus 1 2 3)) + +(test 10 (plus 1 2 3 4)) + +(define mult + (case-lambda + (() 1) + ((x) x) + ((x y) (* x y)) + ((x y . z) (apply mult (* x y) z)))) + +(test 1 (mult)) + +(test 1 (mult 1)) + +(test 2 (mult 1 2)) + +(test 6 (mult 1 2 3)) + +(test 24 (mult 1 2 3 4)) + +(test 'now (let-syntax + ((when (syntax-rules () + ((when test stmt1 stmt2 ...) + (if test + (begin stmt1 + stmt2 ...)))))) + (let ((if #t)) + (when if (set! if 'now)) + if))) + +(test 'outer (let ((x 'outer)) + (let-syntax ((m (syntax-rules () ((m) x)))) + (let ((x 'inner)) + (m))))) + +(test 7 (letrec-syntax + ((my-or (syntax-rules () + ((my-or) #f) + ((my-or e) e) + ((my-or e1 e2 ...) + (let ((temp e1)) + (if temp + temp + (my-or e2 ...))))))) + (let ((x #f) + (y 7) + (temp 8) + (let odd?) + (if even?)) + (my-or x + (let temp) + (if y) + y)))) + +(define-syntax be-like-begin1 + (syntax-rules () + ((be-like-begin1 name) + (define-syntax name + (syntax-rules () + ((name expr (... ...)) + (begin expr (... ...)))))))) +(be-like-begin1 sequence1) +(test 3 (sequence1 0 1 2 3)) + +(define-syntax be-like-begin2 + (syntax-rules () + ((be-like-begin2 name) + (define-syntax name + (... (syntax-rules () + ((name expr ...) + (begin expr ...)))))))) +(be-like-begin2 sequence2) +(test 4 (sequence2 1 2 3 4)) + +(define-syntax be-like-begin3 + (syntax-rules () + ((be-like-begin3 name) + (define-syntax name + (syntax-rules dots () + ((name expr dots) + (begin expr dots))))))) +(be-like-begin3 sequence3) +(test 5 (sequence3 2 3 4 5)) + +(define-syntax jabberwocky + (syntax-rules () + ((_ hatter) + (begin + (define march-hare 42) + (define-syntax hatter + (syntax-rules () + ((_) march-hare))))))) +(jabberwocky mad-hatter) +(test 42 (mad-hatter)) + +(test 'ok (let ((=> #f)) (cond (#t => 'ok)))) + +(let () + (define x 1) + (let-syntax () + (define x 2) + #f) + (test 1 x)) + +; this one is commented out because it breaks R7RS identifier +; discovery protocol +#;(let () + (define-syntax foo + (syntax-rules () + ((foo bar y) + (define-syntax bar + (syntax-rules () + ((bar x) 'y)))))) + (foo bar x) + (test 'x (bar 1))) + +(begin + (define-syntax ffoo + (syntax-rules () + ((ffoo ff) + (begin + (define (ff x) + (gg x)) + (define (gg x) + (* x x)))))) + (ffoo ff) + (test 100 (ff 10))) + +(let-syntax ((vector-lit + (syntax-rules () + ((vector-lit) + '#(b))))) + (test '#(b) (vector-lit))) + +(let () + ;; forward hygienic refs + (define-syntax foo399 + (syntax-rules () ((foo399) (bar399)))) + (define (quux399) + (foo399)) + (define (bar399) + 42) + (test 42 (quux399))) + +(let-syntax + ((m (syntax-rules () + ((m x) (let-syntax + ((n (syntax-rules (k) + ((n x) 'bound-identifier=?) + ((n y) 'free-identifier=?)))) + (n z)))))) + (test 'bound-identifier=? (m k))) + + +(test 'ok + (let ((... 2)) + (let-syntax ((s (syntax-rules () + ((_ x ...) 'bad) + ((_ . r) 'ok)))) + (s a b c)))) + +; esl+ -- test if we can 'zip' lists coming from separate enumerations +(test '(10 20) (let-syntax ((zlet (syntax-rules () ((_ (i ...) (v ...) . b) (let ((i v) ...) . b))))) + (zlet (a b) (10 20) (list a b)))) + +; esl+ -- test for non-final ... pattern +(test '(2 3 4 5 6) (let-syntax ((gotmid (syntax-rules () ((_ a b ... c) (list b ...))))) (gotmid 1 2 3 4 5 6 7))) + +; esl+ -- test for greedy dot-final ... pattern +(test '(2 3 4 5 6 7 ()) (let-syntax ((greedy (syntax-rules () ((_ a b ... . c) (list b ... c))))) (greedy 1 2 3 4 5 6 7))) + +; esl+ -- test for greedy dot-final ... pattern +(test '(2 3 4 5 6 7) (let-syntax ((greed.y (syntax-rules () ((_ a b ... . c) (list b ... c))))) (greed.y 1 2 3 4 5 6 . 7))) + +; esl+ -- nested underscores +(test '(_) (let-syntax ((foo (syntax-rules () ((_) + (let-syntax ((bar (syntax-rules () ((_) (list '_))))) + (bar)))))) + (foo))) + +; esl+ -- r7rs rule head pre-match test +(test '(x 123) (let-syntax ([ttt (syntax-rules () [(x y) '(x y)])]) (ttt 123))) + +; esl+ -- skint head pattern escape test +(test '(ttt 123) (let-syntax ([ttt (syntax-rules () [((... x) y) '(x y)])]) (ttt 123))) + +; esl+ -- similar to above -- but with template escape for pattern escape! +(test '(ttt 123) + ((syntax-rules () [(_) (let-syntax ([ttt (syntax-rules () [(((... ...) x) y) '(x y)])]) (ttt 123))]))) + +; esl+ -- generated globals +(define-syntax foo1 + (syntax-rules () + ((_ x) + (begin ; all returned lists should be equal! + (define x (lambda () (list x y z))) + (define y (lambda () (list x y z))) + (define-syntax define-thunk (syntax-rules () ((_ v e) (define v (lambda () e))))) + (define-thunk z (list x y z)))))) +(foo1 bar) +(test #t (let ((l3 (bar))) (and (equal? (bar) ((cadr l3))) (equal? (bar) ((caddr l3)))))) + +; esl+ -- boxen +(define-syntax unbox-rebox + (syntax-rules () + ((_ #&x ...) '(x ...)) + ((_ x ...) '(#&x ...)))) +(test '(#&1 #&2 #&3 #&4 #&5) (unbox-rebox 1 2 3 4 5)) +(test '(1 2 3 4 5) (unbox-rebox #&1 #&2 #&3 #&4 #&5)) + +; esl+ -- simple pattern escape +(let () + (define-syntax underscored + (syntax-rules () + ((_ (... _) (... ...)) (list (... ...) (... _))))) + (test '(2 1) (underscored 1 2))) + +; esl+ -- named pattern escapes +(define-syntax wrap-by-type + (syntax-rules () + ((_ (... string? x)) '#&x) + ((_ (... number? x)) '#(x)) + ((_ x) 'x))) +(test '(#(42) #&"yes" #\c) + (list (wrap-by-type 42) (wrap-by-type "yes") (wrap-by-type #\c))) + +; esl+ -- named template escape: string->id +(let () + (define-syntax pi-e-example + (syntax-rules () + [(_) + (let ([(... string->id "pi" e) 3.14] [e 2.72]) + (+ pi (... string->id "e" pi)))])) + (test 5.86 (pi-e-example))) + +; esl+ -- simple pattern escape, string->id +(let-syntax + ([define-math-constants + (syntax-rules () + [((... ref-id)) + (begin (define (... string->id "pi" ref-id) 3.14) + (define (... string->id "e" ref-id) 2.72))])]) + (define-math-constants) + (test 5.86 (+ pi e))) + + +; esl+ -- named template escape: string->id +(define-syntax loop-until-break + (syntax-rules () + [((... ref-id) e ...) + (call/cc + (lambda ((... string->id "break" ref-id)) + (let loop () e ... (loop))))])) +(test '6 + (let ((n 10) (steps 0) (break write)) + (loop-until-break + (when (= n 4) (break steps)) + (set! n (- n 1)) + (set! steps (+ steps 1))))) + +; esl+ -- named template escape: string->list +(let () + (define-syntax unstringed + (syntax-rules () + ((_ (... string? s)) '(... string->list s)))) + (test '(#\F #\o #\o) (unstringed "Foo"))) + + +; these 2 tests presume that let-syntax is splicing, which is not a requirenment in r7rs +#;(test 'ok (let () + (let-syntax () + (define internal-def 'ok)) + internal-def)) + +#;(test 'ok (let () + (letrec-syntax () + (define internal-def 'ok)) + internal-def)) + +(test '(2 1) + ((lambda () (let ((x 1)) (let ((y x)) (set! x 2) (list x y)))))) + +(test '(2 2) + ((lambda () (let ((x 1)) (set! x 2) (let ((y x)) (list x y)))))) + +(test '(1 2) + ((lambda () (let ((x 1)) (let ((y x)) (set! y 2) (list x y)))))) + +(test '(2 3) + ((lambda () (let ((x 1)) (let ((y x)) (set! x 2) (set! y 3) (list x y)))))) + +(test '(a b c) + (let* ((path '()) + (add (lambda (s) (set! path (cons s path))))) + (dynamic-wind (lambda () (add 'a)) (lambda () (add 'b)) (lambda () (add 'c))) + (reverse path))) + +(test '(connect talk1 disconnect connect talk2 disconnect) + (let ((path '()) + (c #f)) + (let ((add (lambda (s) + (set! path (cons s path))))) + (dynamic-wind + (lambda () (add 'connect)) + (lambda () + (add (call-with-current-continuation + (lambda (c0) + (set! c c0) + 'talk1)))) + (lambda () (add 'disconnect))) + (if (< (length path) 4) + (c 'talk2) + (reverse path))))) + +(test 2 (let-syntax + ((foo (syntax-rules ::: () + ((foo ... args :::) + (args ::: ...))))) + (foo 3 - 5))) + +(test '(5 4 1 2 3) + (let-syntax + ((foo (syntax-rules () + ((foo args ... penultimate ultimate) + (list ultimate penultimate args ...))))) + (foo 1 2 3 4 5))) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(define-syntax M + (syntax-rules E1 () + ((M x E1) (quote (x E1))))) + +(test '(1 2 3) (M 1 2 3)) + +(let ((E2 2)) + (define-syntax N + (syntax-rules E2 () + ((N y E2) (quote (y E2))))) + (test '(1 2 3) (N 1 2 3))) + +;(define-syntax ell +; (syntax-rules () +; ((ell body) +; (define-syntax emm +; (syntax-rules ...1 () +; ((emm) body)))))) + +;(ell +; (define-syntax enn +; (syntax-rules ...1 () ((enn args ...1) (quote (args ...1)))))) + +(let ((... 'local)) + (define-syntax asd + (syntax-rules () + ((asd x ...) (quote (... x))))) + (test '(2 1) (asd 1 2))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; +;; r7rs extras +;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +;(test #t (complex? 3+4i)) +(test #t (complex? 3)) +(test #t (real? 3)) +;(test #t (real? -2.5+0i)) +;(test #f (real? -2.5+0.0i)) +(test #t (real? #e1e5)) +;(test #t (real? #e1e10)) ;this one can't be made exact because 10^10 is outside fixnum range +(test #t (real? +inf.0)) +(test #f (rational? -inf.0)) +;(test #t (rational? 6/10)) +;(test #t (rational? 6/3)) +;(test #t (integer? 3+0i)) +(test #t (integer? 3.0)) +;(test #t (integer? 8/4)) ;this one should try to produce fixnum, otherwise flonum as if it were (/ 8 4) + +(test #f (exact? 3.0)) +(test #t (exact? #e3.0)) +(test #t (inexact? 3.)) + +(test #t (exact-integer? 32)) +(test #f (exact-integer? 32.0)) +;(test #f (exact-integer? 32/5)) + +(test #t (finite? 3)) +(test #f (finite? +inf.0)) +;(test #f (finite? 3.0+inf.0i)) + +(test #f (infinite? 3)) +(test #t (infinite? +inf.0)) +(test #f (infinite? +nan.0)) +;(test #t (infinite? 3.0+inf.0i)) + +(test #t (nan? +nan.0)) +(test #f (nan? 32)) +;; (test #t (nan? +nan.0+5.0i)) +;(test #f (nan? 1+2i)) + +;(test #t (= 1 1.0 1.0+0.0i)) +;(test #f (= 1.0 1.0+1.0i)) +(test #t (< 1 2 3)) +(test #f (< 1 1 2)) +(test #t (> 3.0 2.0 1.0)) +(test #f (> -3.0 2.0 1.0)) +(test #t (<= 1 1 2)) +(test #f (<= 1 2 1)) +(test #t (>= 2 1 1)) +(test #f (>= 1 2 1)) +(test '(#t #f) (list (<= 1 1 2) (<= 2 1 3))) + + +(define single-float-epsilon + (do ((eps 1.0 (* eps 2.0))) + ((= eps (+ eps 1.0)) eps))) + +; this one overflows fixnum range on (exact a) +#;(let* ((a (/ 10.0 single-float-epsilon)) + (j (exact a))) + (test #t (if (and (<= a j) (< j (+ j 1))) + (not (<= (+ j 1) a)) + #t))) + +(test #t (zero? 0)) +(test #t (zero? 0.0)) +;(test #t (zero? 0.0+0.0i)) +(test #f (zero? 1)) +(test #f (zero? -1)) + +(test #f (positive? 0)) +(test #f (positive? 0.0)) +(test #t (positive? 1)) +(test #t (positive? 1.0)) +(test #f (positive? -1)) +(test #f (positive? -1.0)) +(test #t (positive? +inf.0)) +(test #f (positive? -inf.0)) + +(test #f (negative? 0)) +(test #f (negative? 0.0)) +(test #f (negative? 1)) +(test #f (negative? 1.0)) +(test #t (negative? -1)) +(test #t (negative? -1.0)) +(test #f (negative? +inf.0)) +(test #t (negative? -inf.0)) + +(test #f (odd? 0)) +(test #t (odd? 1)) +(test #t (odd? -1)) +(test #f (odd? 102)) + +(test #t (even? 0)) +(test #f (even? 1)) +(test #t (even? -2)) +(test #t (even? 102)) + +(test 3 (max 3)) +(test 4 (max 3 4)) +(test 4.0 (max 3.9 4)) +(test 5.0 (max 5 3.9 4)) +(test +inf.0 (max 100 +inf.0)) +(test 3 (min 3)) +(test 3 (min 3 4)) +(test 3.0 (min 3 3.1)) +(test -inf.0 (min -inf.0 -100)) + +(test 7 (+ 3 4)) +(test 3 (+ 3)) +(test 0 (+)) +(test 4 (* 4)) +(test 1 (*)) + +(test -1 (- 3 4)) +(test -6 (- 3 4 5)) +(test -3 (- 3)) +;(test 3/20 (/ 3 4 5)) +;(test 1/3 (/ 3)) + +(test 7 (abs -7)) +(test 7 (abs 7)) + +(test-values (values 2 1) (floor/ 5 2)) +(test-values (values -3 1) (floor/ -5 2)) +(test-values (values -3 -1) (floor/ 5 -2)) +(test-values (values 2 -1) (floor/ -5 -2)) +(test-values (values 2 1) (truncate/ 5 2)) +(test-values (values -2 -1) (truncate/ -5 2)) +(test-values (values -2 1) (truncate/ 5 -2)) +(test-values (values 2 -1) (truncate/ -5 -2)) +(test-values (values 2.0 -1.0) (truncate/ -5.0 -2)) +(test-values (values 1111111 0) (truncate/ 3333333 3)) +(test-values (values 1111111.0 0.0) (truncate/ 3333333 3.0)) +(test-values (values -1111111 0) (truncate/ 3333333 -3)) +(test-values (values -1111111.0 0.0) (truncate/ 3333333 -3.0)) +(test-values (values -1111111 0) (truncate/ -3333333 3)) +(test-values (values -1111111.0 0.0) (truncate/ -3333333 3.0)) +(test-values (values 1111111 0) (truncate/ -3333333 -3)) +(test-values (values 1111111.0 0.0) (truncate/ -3333333 -3.0)) + +(test 1 (modulo 13 4)) +(test 1 (remainder 13 4)) + +(test 3 (modulo -13 4)) +(test -1 (remainder -13 4)) + +(test -3 (modulo 13 -4)) +(test 1 (remainder 13 -4)) + +(test -1 (modulo -13 -4)) +(test -1 (remainder -13 -4)) + +(test -1.0 (remainder -13 -4.0)) + +(test 4 (gcd 32 -36)) +(test 0 (gcd)) +(test 288 (lcm 32 -36)) +(test 288.0 (lcm 32.0 -36)) +(test 1 (lcm)) + +;(test 3 (numerator (/ 6 4))) +;(test 2 (denominator (/ 6 4))) +;(test 2.0 (denominator (inexact (/ 6 4)))) +;(test 11.0 (numerator 5.5)) +;(test 2.0 (denominator 5.5)) +;(test 5.0 (numerator 5.0)) +;(test 1.0 (denominator 5.0)) + +(test -5.0 (floor -4.3)) +(test -4.0 (ceiling -4.3)) +(test -4.0 (truncate -4.3)) +(test -4.0 (round -4.3)) + +(test 3.0 (floor 3.5)) +(test 4.0 (ceiling 3.5)) +(test 3.0 (truncate 3.5)) +(test 4.0 (round 3.5)) + +;(test 4 (round 7/2)) +;(test 7 (round 7)) +;(test 1 (round 7/10)) +;(test -4 (round -7/2)) +;(test -7 (round -7)) +;(test -1 (round -7/10)) + +;(test 1/3 (rationalize (exact .3) 1/10)) +;(test #i1/3 (rationalize .3 1/10)) + +(test 1.0 (inexact (exp 0))) ;; may return exact number +(test~= 20.0855369231877 (exp 3)) + +(test 0.0 (inexact (log 1))) ;; may return exact number +(test 1.0 (log (exp 1))) +(test 42.0 (log (exp 42))) +(test 2.0 (log 100 10)) +(test 12.0 (log 4096 2)) + +(test 0.0 (inexact (sin 0))) ;; may return exact number +(test 1.0 (sin 1.5707963267949)) +(test 1.0 (inexact (cos 0))) ;; may return exact number +(test -1.0 (cos 3.14159265358979)) +(test 0.0 (inexact (tan 0))) ;; may return exact number +(test~= 1.5574077246549 (tan 1)) + +(test 0.0 (inexact (asin 0))) ;; may return exact number +(test~= 1.5707963267949 (asin 1)) +(test 0.0 (inexact (acos 1))) ;; may return exact number +(test~= 3.14159265358979 (acos -1)) + +;; (test 0.0-0.0i (asin 0+0.0i)) +;; (test 1.5707963267948966+0.0i (acos 0+0.0i)) + +(test 0.0 (atan 0.0 1.0)) +(test -0.0 (atan -0.0 1.0)) +(test~= 0.785398163397448 (atan 1.0 1.0)) +(test~= 1.5707963267949 (atan 1.0 0.0)) +(test~= 2.35619449019234 (atan 1.0 -1.0)) +(test~= 3.14159265358979 (atan 0.0 -1.0)) +(test~= -3.14159265358979 (atan -0.0 -1.0)) ; +(test~= -2.35619449019234 (atan -1.0 -1.0)) +(test~= -1.5707963267949 (atan -1.0 0.0)) +(test~= -0.785398163397448 (atan -1.0 1.0)) +;; (test undefined (atan 0.0 0.0)) + +(test 1764 (square 42)) +(test 4 (square 2)) + +(test 3.0 (inexact (sqrt 9))) +(test~= 1.4142135623731 (sqrt 2)) +;(test 0.0+1.0i (inexact (sqrt -1))) + +(test '(0 0) (call-with-values (lambda () (exact-integer-sqrt 0)) list)) +(test '(1 0) (call-with-values (lambda () (exact-integer-sqrt 1)) list)) +(test '(1 1) (call-with-values (lambda () (exact-integer-sqrt 2)) list)) +(test '(1 2) (call-with-values (lambda () (exact-integer-sqrt 3)) list)) +(test '(2 0) (call-with-values (lambda () (exact-integer-sqrt 4)) list)) +(test '(2 1) (call-with-values (lambda () (exact-integer-sqrt 5)) list)) +(test '(2 1) (call-with-values (lambda () (exact-integer-sqrt 5)) list)) +(test '(6 6) (call-with-values (lambda () (exact-integer-sqrt 42)) list)) +(test '(2896 1791) (call-with-values (lambda () (exact-integer-sqrt 8388607)) list)) + +(test 27 (expt 3 3)) +(test 1 (expt 0 0)) +(test 0 (expt 0 1)) +(test 1.0 (expt 0.0 0)) +(test 0.0 (expt 0 1.0)) + +;(test 1+2i (make-rectangular 1 2)) + +;(test 0.54030230586814+0.841470984807897i (make-polar 1 1)) + +;(test 1 (real-part 1+2i)) + +;(test 2 (imag-part 1+2i)) + +;(test 2.23606797749979 (magnitude 1+2i)) + +;(test 1.10714871779409 (angle 1+2i)) + +(test 1.0 (inexact 1)) +(test #t (inexact? (inexact 1))) +(test 1 (exact 1.0)) +(test #t (exact? (exact 1.0))) + +(test 100 (string->number "100")) +(test 256 (string->number "100" 16)) +(test 100.0 (string->number "1e2")) + + +(define radix + (make-parameter + 10 + (lambda (x) + (if (and (integer? x) (<= 2 x 16)) + x + (error "invalid radix"))))) +(define (f n) (number->string n (radix))) +(test "12" (f 12)) +(test "1100" (parameterize ((radix 2)) + (f 12))) +(test "12" (f 12)) + +(test '(x y x y) (let ((a 'a) (b 'b) (x 'x) (y 'y)) + (let*-values (((a b) (values x y)) + ((x y) (values a b))) + (list a b x y)))) + +(test 'ok (let-values () 'ok)) + +(test 1 (let ((x 1)) + (let*-values () + (define x 2) + #f) + x)) + +(test 'ok + (let () + (define-values () (values)) + 'ok)) +(test 1 + (let () + (define-values (x) (values 1)) + x)) +(test 3 + (let () + (define-values x (values 1 2)) + (apply + x))) +(test 3 + (let () + (define-values (x y) (values 1 2)) + (+ x y))) +(test 6 + (let () + (define-values (x y z) (values 1 2 3)) + (+ x y z))) +(test 10 + (let () + (define-values (x y . z) (values 1 2 3 4)) + (+ x y (car z) (cadr z)))) + +(test 5 + (call-with-values (lambda () (values 4 5)) + (lambda (a b) b))) + +(test -1 (call-with-values * -)) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(test 65 + (with-exception-handler + (lambda (con) 42) + (lambda () + (+ (raise-continuable "should be a number") + 23)))) + +(test #t + (error-object? (guard (exn (else exn)) (error "BOOM!" 1 2 3)))) +(test "BOOM!" + (error-object-message (guard (exn (else exn)) (error "BOOM!" 1 2 3)))) +(test '(1 2 3) + (error-object-irritants (guard (exn (else exn)) (error "BOOM!" 1 2 3)))) + +(test #f + (file-error? (guard (exn (else exn)) (error "BOOM!")))) +(test #t + (file-error? (guard (exn (else exn)) (open-input-file " no such file ")))) + +(test #f + (read-error? (guard (exn (else exn)) (error "BOOM!")))) +(test #t + (read-error? (guard (exn (else exn)) (read (open-input-string ")"))))) +(test #t + (read-error? (guard (exn (else exn)) (read (open-input-string "\""))))) + +(define something-went-wrong #f) +(define (test-exception-handler-1 v) + (call-with-current-continuation + (lambda (k) + (with-exception-handler + (lambda (x) + (set! something-went-wrong (list "condition: " x)) + (k 'exception)) + (lambda () + (+ 1 (if (> v 0) (+ v 100) (raise 'an-error)))))))) +(test 106 (test-exception-handler-1 5)) +(test #f something-went-wrong) +(test 'exception (test-exception-handler-1 -1)) +(test '("condition: " an-error) something-went-wrong) + +(set! something-went-wrong #f) +(define (test-exception-handler-2 v) + (guard (ex (else 'caught-another-exception)) + (with-exception-handler + (lambda (x) + (set! something-went-wrong #t) + (list "exception:" x)) + (lambda () + (+ 1 (if (> v 0) (+ v 100) (raise 'an-error))))))) +(test 106 (test-exception-handler-2 5)) +(test #f something-went-wrong) +(test 'caught-another-exception (test-exception-handler-2 -1)) +(test #t something-went-wrong) + +;; Based on an example from R6RS-lib section 7.1 Exceptions. +;; R7RS section 6.11 Exceptions has a simplified version. +(let* ((out (open-output-string)) + (value (with-exception-handler + (lambda (con) + (cond + ((not (list? con)) + (raise con)) + ((list? con) + (display (car con) out)) + (else + (display "a warning has been issued" out))) + 42) + (lambda () + (+ (raise-continuable + (list "should be a number")) + 23))))) + (test "should be a number" (get-output-string out)) + (test 65 value)) + +;; From SRFI-34 "Examples" section - #3 +(define (test-exception-handler-3 v out) + (guard (condition + (else + (display "condition: " out) + (write condition out) + (display #\! out) + 'exception)) + (+ 1 (if (= v 0) (raise 'an-error) (/ 10 v))))) +(let* ((out (open-output-string)) + (value (test-exception-handler-3 0 out))) + (test 'exception value) + (test "condition: an-error!" (get-output-string out))) + +(define (test-exception-handler-4 v out) + (call-with-current-continuation + (lambda (k) + (with-exception-handler + (lambda (x) + (display "reraised " out) + (write x out) (display #\! out) + (k 'zero)) + (lambda () + (guard (condition + ((positive? condition) + 'positive) + ((negative? condition) + 'negative)) + (raise v))))))) + +;; From SRFI-34 "Examples" section - #5 +(let* ((out (open-output-string)) + (value (test-exception-handler-4 1 out))) + (test "" (get-output-string out)) + (test 'positive value)) +;; From SRFI-34 "Examples" section - #6 +(let* ((out (open-output-string)) + (value (test-exception-handler-4 -1 out))) + (test "" (get-output-string out)) + (test 'negative value)) +;; From SRFI-34 "Examples" section - #7 +(let* ((out (open-output-string)) + (value (test-exception-handler-4 0 out))) + (test "reraised 0!" (get-output-string out)) + (test 'zero value)) + +;; From SRFI-34 "Examples" section - #8 +(test 42 + (guard (condition + ((assq 'a condition) => cdr) + ((assq 'b condition))) + (raise (list (cons 'a 42))))) + +;; From SRFI-34 "Examples" section - #9 +(test '(b . 23) + (guard (condition + ((assq 'a condition) => cdr) + ((assq 'b condition))) + (raise (list (cons 'b 23))))) + +(test 'caught-d + (guard (condition + ((assq 'c condition) 'caught-c) + ((assq 'd condition) 'caught-d)) + (list + (sqrt 8) + (guard (condition + ((assq 'a condition) => cdr) + ((assq 'b condition))) + (raise (list (cons 'd 24))))))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(test-begin "6.9 Bytevectors") + +(test #t (bytevector? #u8())) +(test #t (bytevector? #u8(0 1 2))) +(test #f (bytevector? #())) +(test #f (bytevector? #(0 1 2))) +(test #f (bytevector? '())) +(test #t (bytevector? (make-bytevector 0))) + +(test 0 (bytevector-length (make-bytevector 0))) +(test 1024 (bytevector-length (make-bytevector 1024))) +(test 1024 (bytevector-length (make-bytevector 1024 255))) + +(test 3 (bytevector-length (bytevector 0 1 2))) + +(test 0 (bytevector-u8-ref (bytevector 0 1 2) 0)) +(test 1 (bytevector-u8-ref (bytevector 0 1 2) 1)) +(test 2 (bytevector-u8-ref (bytevector 0 1 2) 2)) + +(test #u8(0 255 2) + (let ((bv (bytevector 0 1 2))) (bytevector-u8-set! bv 1 255) bv)) + +;; NB: bytevector->list and list->bytevector are NOT in r7rs! +(test '() (bytevector->list #u8())) +(test '(0 1 2) (bytevector->list #u8(0 1 2))) +(test '(0 1 2) (bytevector->list #u8(0 1 2) 0)) +(test '(0 1 2) (bytevector->list #u8(0 1 2) 0 3)) +(test '(1 2) (bytevector->list #u8(0 1 2) 1)) +(test '(1) (bytevector->list #u8(0 1 2) 1 2)) +(test '() (bytevector->list #u8(0 1 2) 2 2)) +(test #u8() (list->bytevector '())) +(test #u8(24 42) (list->bytevector '(24 42))) + +(test #u8() (bytevector-copy #u8())) +(test #u8(0 1 2) (bytevector-copy #u8(0 1 2))) +(test #u8(1 2) (bytevector-copy #u8(0 1 2) 1)) +(test #u8(1) (bytevector-copy #u8(0 1 2) 1 2)) + +(test #u8(1 6 7 4 5) + (let ((bv (bytevector 1 2 3 4 5))) + (bytevector-copy! bv 1 #u8(6 7 8 9 10) 0 2) + bv)) +(test #u8(6 7 8 9 10) + (let ((bv (bytevector 1 2 3 4 5))) + (bytevector-copy! bv 0 #u8(6 7 8 9 10)) + bv)) +(test #u8(8 9 10 4 5) + (let ((bv (bytevector 1 2 3 4 5))) + (bytevector-copy! bv 0 #u8(6 7 8 9 10) 2) + bv)) +(test #u8(1 2 6 7 8) + (let ((bv (bytevector 1 2 3 4 5))) + (bytevector-copy! bv 2 #u8(6 7 8 9 10) 0 3) + bv)) +(test #u8(1 2 8 4 5) + (let ((bv (bytevector 1 2 3 4 5))) + (bytevector-copy! bv 2 #u8(6 7 8 9 10) 2 3) + bv)) + +;; same source and dest +(test #u8(1 1 2 4 5) + (let ((bv (bytevector 1 2 3 4 5))) + (bytevector-copy! bv 1 bv 0 2) + bv)) +(test #u8(1 2 3 1 2) + (let ((bv (bytevector 1 2 3 4 5))) + (bytevector-copy! bv 3 bv 0 2) + bv)) + +(test #u8() (bytevector-append)) +(test #u8() (bytevector-append #u8())) +(test #u8() (bytevector-append #u8() #u8())) +(test #u8(0 1 2) (bytevector-append #u8() #u8(0 1 2))) +(test #u8(0 1 2) (bytevector-append #u8(0 1 2) #u8())) +(test #u8(0 1 2 3 4) (bytevector-append #u8(0 1 2) #u8(3 4))) +(test #u8(0 1 2 3 4 5) (bytevector-append #u8(0 1 2) #u8(3 4) #u8(5))) + +(test "" (utf8->string #u8())) +(test "ABC" (utf8->string #u8(#x41 #x42 #x43))) +(test "ABC" (utf8->string #u8(0 #x41 #x42 #x43) 1)) +(test "ABC" (utf8->string #u8(0 #x41 #x42 #x43 0) 1 4)) +;(test "λ" (utf8->string #u8(0 #xCE #xBB 0) 1 3)) +(test #u8() (string->utf8 "")) +(test #u8(#x41 #x42 #x43) (string->utf8 "ABC")) +(test #u8(#x42 #x43) (string->utf8 "ABC" 1)) +(test #u8(#x42) (string->utf8 "ABC" 1 2)) +;(test #u8(#xCE #xBB) (string->utf8 "λ")) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(test-begin "6.10 Control Features") + +(test #t (procedure? car)) +(test #f (procedure? 'car)) +(test #t (procedure? (lambda (x) (* x x)))) +(test #f (procedure? '(lambda (x) (* x x)))) +(test #t (call-with-current-continuation procedure?)) + +(test 7 (apply + (list 3 4))) +(test 7 (apply + 3 4 (list))) +;(test-error (apply +)) ;; not enough args +;(test-error (apply + 3)) ;; final arg not a list +;(test-error (apply + 3 4)) ;; final arg not a list +;(test-error (apply + '(2 3 . 4))) ;; final arg is improper + + +(define compose + (lambda (f g) + (lambda args + (f (apply g args))))) +(test '(30 0) + (call-with-values (lambda () ((compose exact-integer-sqrt *) 12 75)) + list)) + +(test '(b e h) (map cadr '((a b) (d e) (g h)))) + +(test '(1 4 27 256 3125) (map (lambda (n) (expt n n)) '(1 2 3 4 5))) + +(test '(5 7 9) (map + '(1 2 3) '(4 5 6 7))) + +(test #t + (let ((res (let ((count 0)) + (map (lambda (ignored) + (set! count (+ count 1)) + count) + '(a b))))) + (or (equal? res '(1 2)) + (equal? res '(2 1))))) + +; map should terminate on the shortest list! +(test '(10 200 3000 40 500 6000) + (let ((ls1 (list 10 100 1000)) + (ls2 (list 1 2 3 4 5 6))) + (set-cdr! (cddr ls1) ls1) + (map * ls1 ls2))) + +(test "abdegh" (string-map char-foldcase "AbdEgH")) + +(test "IBM" (string-map + (lambda (c) + (integer->char (+ 1 (char->integer c)))) + "HAL")) + +(test "StUdLyCaPs" + (string-map + (lambda (c k) (if (eqv? k #\u) (char-upcase c) (char-downcase c))) + "studlycaps xxx" + "ululululul")) + +(test #(b e h) (vector-map cadr '#((a b) (d e) (g h)))) + +(test #(1 4 27 256 3125) + (vector-map (lambda (n) (expt n n)) + '#(1 2 3 4 5))) + +(test #(5 7 9) (vector-map + '#(1 2 3) '#(4 5 6 7))) + +(test #t + (let ((res (let ((count 0)) + (vector-map + (lambda (ignored) + (set! count (+ count 1)) + count) + '#(a b))))) + (or (equal? res #(1 2)) + (equal? res #(2 1))))) + +(test #(0 1 4 9 16) + (let ((v (make-vector 5))) + (for-each (lambda (i) + (vector-set! v i (* i i))) + '(0 1 2 3 4)) + v)) + +(test 9750 + (let ((ls1 (list 10 100 1000)) + (ls2 (list 1 2 3 4 5 6)) + (count 0)) + (set-cdr! (cddr ls1) ls1) + (for-each (lambda (x y) (set! count (+ count (* x y)))) ls2 ls1) + count)) + +(test '(101 100 99 98 97) + (let ((v '())) + (string-for-each + (lambda (c) (set! v (cons (char->integer c) v))) + "abcde") + v)) + +(test '(0 1 4 9 16) (let ((v (make-list 5))) + (vector-for-each + (lambda (i) (list-set! v i (* i i))) + '#(0 1 2 3 4)) + v)) + +(test -3 (call-with-current-continuation + (lambda (exit) + (for-each (lambda (x) + (if (negative? x) + (exit x))) + '(54 0 37 -3 245 19)) + #t))) + +(define list-length + (lambda (obj) + (call-with-current-continuation + (lambda (return) + (letrec ((r + (lambda (obj) + (cond ((null? obj) 0) + ((pair? obj) + (+ (r (cdr obj)) 1)) + (else (return #f)))))) + (r obj)))))) + +(test 4 (list-length '(1 2 3 4))) + +(test #f (list-length '(a b . c))) + +(test 5 + (call-with-values (lambda () (values 4 5)) + (lambda (a b) b))) + +(test -1 (call-with-values * -)) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(define-record-type + (kons x y) + pare? + (x kar set-kar!) + (y kdr)) + +(test #t (pare? (kons 1 2))) +(test #f (pare? (cons 1 2))) +(test 1 (kar (kons 1 2))) +(test 2 (kdr (kons 1 2))) +(test 3 (let ((k (kons 1 2))) + (set-kar! k 3) + (kar k))) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + + +(test-begin "6.13 Input and output") + +(test #t (port? (current-input-port))) +(test #t (input-port? (current-input-port))) +(test #t (output-port? (current-output-port))) +(test #t (output-port? (current-error-port))) +(test #t (input-port? (open-input-string "abc"))) +(test #t (output-port? (open-output-string))) + +(test #t (textual-port? (open-input-string "abc"))) +(test #t (textual-port? (open-output-string))) +(test #t (binary-port? (open-input-bytevector #u8(0 1 2)))) +(test #t (binary-port? (open-output-bytevector))) + +(test #t (input-port-open? (open-input-string "abc"))) +(test #t (output-port-open? (open-output-string))) + +(test #f + (let ((in (open-input-string "abc"))) + (close-input-port in) + (input-port-open? in))) + +(test #f + (let ((out (open-output-string))) + (close-output-port out) + (output-port-open? out))) + +(test #f + (let ((out (open-output-string))) + (close-port out) + (output-port-open? out))) + +; r7rs does not require signalling an error here +#;(test 'error + (let ((in (open-input-string "abc"))) + (close-input-port in) + (guard (exn (else 'error)) (read-char in)))) + +; r7rs does not require signalling an error here +#;(test 'error + (let ((out (open-output-string))) + (close-output-port out) + (guard (exn (else 'error)) (write-char #\c out)))) + +(test #t (eof-object? (eof-object))) +(test #t (eof-object? (read (open-input-string "")))) +(test #t (char-ready? (open-input-string "42"))) +(test 42 (read (open-input-string " 42 "))) + +(test #t (eof-object? (read-char (open-input-string "")))) +(test #\a (read-char (open-input-string "abc"))) + +(test #t (eof-object? (read-line (open-input-string "")))) +(test "abc" (read-line (open-input-string "abc"))) +(test "abc" (read-line (open-input-string "abc\ndef\n"))) + +(test #t (eof-object? (read-string 3 (open-input-string "")))) +(test "abc" (read-string 3 (open-input-string "abcd"))) +(test "abc" (read-string 3 (open-input-string "abc\ndef\n"))) + +#|(let ((in (open-input-string (string #\x10F700 #\x10F701 #\x10F702)))) + (let* ((c0 (peek-char in)) + (c1 (read-char in)) + (c2 (read-char in)) + (c3 (read-char in))) + (test #\x10F700 c0) + (test #\x10F700 c1) + (test #\x10F701 c2) + (test #\x10F702 c3))) + +(test (string #\x10F700) + (let ((out (open-output-string))) + (write-char #\x10F700 out) + (get-output-string out)))|# + +(test "abc" + (let ((out (open-output-string))) + (write 'abc out) + (get-output-string out))) + +(test "abc def" + (let ((out (open-output-string))) + (display "abc def" out) + (get-output-string out))) + +(test "abc" + (let ((out (open-output-string))) + (display #\a out) + (display "b" out) + (display #\c out) + (get-output-string out))) + +(test #t + (let* ((out (open-output-string)) + (r (begin (newline out) (get-output-string out)))) + (or (equal? r "\n") (equal? r "\r\n")))) + +(test "abc def" + (let ((out (open-output-string))) + (write-string "abc def" out) + (get-output-string out))) + +(test "def" + (let ((out (open-output-string))) + (write-string "abc def" out 4) + (get-output-string out))) + +(test "c d" + (let ((out (open-output-string))) + (write-string "abc def" out 2 5) + (get-output-string out))) + +(test "" + (let ((out (open-output-string))) + (flush-output-port out) + (get-output-string out))) + +(test #t (eof-object? (read-u8 (open-input-bytevector #u8())))) +(test 1 (read-u8 (open-input-bytevector #u8(1 2 3)))) + +(test #t (eof-object? (read-bytevector 3 (open-input-bytevector #u8())))) +(test #t (u8-ready? (open-input-bytevector #u8(1)))) +(test #u8(1) (read-bytevector 3 (open-input-bytevector #u8(1)))) +(test #u8(1 2) (read-bytevector 3 (open-input-bytevector #u8(1 2)))) +(test #u8(1 2 3) (read-bytevector 3 (open-input-bytevector #u8(1 2 3)))) +(test #u8(1 2 3) (read-bytevector 3 (open-input-bytevector #u8(1 2 3 4)))) + +(test #t + (let ((bv (bytevector 1 2 3 4 5))) + (eof-object? (read-bytevector! bv (open-input-bytevector #u8()))))) + +(test #u8(6 7 8 9 10) + (let ((bv (bytevector 1 2 3 4 5))) + (read-bytevector! bv (open-input-bytevector #u8(6 7 8 9 10)) 0 5) + bv)) + +(test #u8(6 7 8 4 5) + (let ((bv (bytevector 1 2 3 4 5))) + (read-bytevector! bv (open-input-bytevector #u8(6 7 8 9 10)) 0 3) + bv)) + +(test #u8(1 2 3 6 5) + (let ((bv (bytevector 1 2 3 4 5))) + (read-bytevector! bv (open-input-bytevector #u8(6 7 8 9 10)) 3 4) + bv)) + +(test 2 + (let ((bv (bytevector 1 2 3 4 5))) + (read-bytevector! bv (open-input-bytevector #u8(6 7))))) + +(test #t + (let ((bv (bytevector 1 2 3 4 5))) + (eof-object? (read-bytevector! bv (open-input-bytevector #u8()))))) + +(test #u8(1 2 3) + (let ((out (open-output-bytevector))) + (write-u8 1 out) + (write-u8 2 out) + (write-u8 3 out) + (get-output-bytevector out))) + +(test #u8(1 2 3 4 5) + (let ((out (open-output-bytevector))) + (write-bytevector #u8(1 2 3 4 5) out) + (get-output-bytevector out))) + +(test #u8(3 4 5) + (let ((out (open-output-bytevector))) + (write-bytevector #u8(1 2 3 4 5) out 2) + (get-output-bytevector out))) + +(test #u8(3 4) + (let ((out (open-output-bytevector))) + (write-bytevector #u8(1 2 3 4 5) out 2 4) + (get-output-bytevector out))) + +(test #u8() + (let ((out (open-output-bytevector))) + (flush-output-port out) + (get-output-bytevector out))) + +(test #t + (and (member + (let ((out (open-output-string)) + (x (list 1))) + (set-cdr! x x) + (write x out) + (get-output-string out)) + ;; labels not guaranteed to be 0 indexed, spacing may differ + '("#0=(1 . #0#)" "#1=(1 . #1#)")) + #t)) + +(test "((1 2 3) (1 2 3))" + (let ((out (open-output-string)) + (x (list 1 2 3))) + (write (list x x) out) + (get-output-string out))) + +(test "((1 2 3) (1 2 3))" + (let ((out (open-output-string)) + (x (list 1 2 3))) + (write-simple (list x x) out) + (get-output-string out))) + +(test #t + (and (member (let ((out (open-output-string)) + (x (list 1 2 3))) + (write-shared (list x x) out) + (get-output-string out)) + '("(#0=(1 2 3) #0#)" "(#1=(1 2 3) #1#)")) + #t)) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(test-begin "Read syntax") + +;; check reading boolean followed by eof +(test #t (read (open-input-string "#t"))) +(test #t (read (open-input-string "#true"))) +(test #f (read (open-input-string "#f"))) +(test #f (read (open-input-string "#false"))) +(define (read2 port) + (let* ((o1 (read port)) (o2 (read port))) + (cons o1 o2))) +;; check reading boolean followed by delimiter +(test '(#t . (5)) (read2 (open-input-string "#t(5)"))) +(test '(#t . 6) (read2 (open-input-string "#true 6 "))) +(test '(#f . 7) (read2 (open-input-string "#f 7"))) +(test '(#f . "8") (read2 (open-input-string "#false\"8\""))) + +(test '() (read (open-input-string "()"))) +(test '(1 2) (read (open-input-string "(1 2)"))) +(test '(1 . 2) (read (open-input-string "(1 . 2)"))) +(test '(1 2) (read (open-input-string "(1 . (2))"))) +(test '(1 2 3 4 5) (read (open-input-string "(1 . (2 3 4 . (5)))"))) +(test '1 (cadr (read (open-input-string "#0=(1 . #0#)")))) +(test '(1 2 3) (cadr (read (open-input-string "(#0=(1 2 3) #0#)")))) + +(test '(quote (1 2)) (read (open-input-string "'(1 2)"))) +(test '(quote (1 (unquote 2))) (read (open-input-string "'(1 ,2)"))) +(test '(quote (1 (unquote-splicing 2))) (read (open-input-string "'(1 ,@2)"))) +(test '(quasiquote (1 (unquote 2))) (read (open-input-string "`(1 ,2)"))) + +(test #() (read (open-input-string "#()"))) +(test #(a b) (read (open-input-string "#(a b)"))) + +(test #u8() (read (open-input-string "#u8()"))) +(test #u8(0 1) (read (open-input-string "#u8(0 1)"))) + +(test 'abc (read (open-input-string "abc"))) +(test 'abc (read (open-input-string "abc def"))) +(test 'ABC (read (open-input-string "ABC"))) +(test 'Hello (read (open-input-string "|H\\x65;llo|"))) + +;(test 'abc (read (open-input-string "#!fold-case ABC"))) +;(test 'ABC (read (open-input-string "#!fold-case #!no-fold-case ABC"))) + +(test 'def (read (open-input-string "#; abc def"))) +(test 'def (read (open-input-string "; abc \ndef"))) +(test 'def (read (open-input-string "#| abc |# def"))) +(test 'ghi (read (open-input-string "#| abc #| def |# |# ghi"))) +(test 'ghi (read (open-input-string "#; ; abc\n def ghi"))) +(test '(abs -16) (read (open-input-string "(#;sqrt abs -16)"))) +(test '(a d) (read (open-input-string "(a #; #;b c d)"))) +(test '(a e) (read (open-input-string "(a #;(b #;c d) e)"))) +(test '(a . c) (read (open-input-string "(a . #;b c)"))) +(test '(a . b) (read (open-input-string "(a . b #;c)"))) + +(define (test-read-error str) + (test-assert ;str + (guard (exn (else #t)) + (read (open-input-string str)) + #f))) + +(test-read-error "(#;a . b)") +(test-read-error "(a . #;b)") +(test-read-error "(a #;. b)") +(test-read-error "(#;x #;y . z)") +(test-read-error "(#; #;x #;y . z)") +(test-read-error "(#; #;x . z)") +(test-read-error "(#0#)") +(test-read-error "(#0=#0#)") + +(test #\a (read (open-input-string "#\\a"))) +(test #\space (read (open-input-string "#\\space"))) +(test 0 (char->integer (read (open-input-string "#\\null")))) +(test 7 (char->integer (read (open-input-string "#\\alarm")))) +(test 8 (char->integer (read (open-input-string "#\\backspace")))) +(test 9 (char->integer (read (open-input-string "#\\tab")))) +(test 10 (char->integer (read (open-input-string "#\\newline")))) +(test 13 (char->integer (read (open-input-string "#\\return")))) +(test #x7F (char->integer (read (open-input-string "#\\delete")))) +(test #x1B (char->integer (read (open-input-string "#\\escape")))) +(test #x1C (char->integer (read (open-input-string "#\\x1C")))) +;(test #x03BB (char->integer (read (open-input-string "#\\λ")))) +;(test #x03BB (char->integer (read (open-input-string "#\\x03BB")))) + +(test "abc" (read (open-input-string "\"abc\""))) +(test "abc" (read (open-input-string "\"abc\" \"def\""))) +(test "ABC" (read (open-input-string "\"ABC\""))) +(test "Hello" (read (open-input-string "\"H\\x65;llo\""))) +(test 7 (char->integer (string-ref (read (open-input-string "\"\\a\"")) 0))) +(test 8 (char->integer (string-ref (read (open-input-string "\"\\b\"")) 0))) +(test 9 (char->integer (string-ref (read (open-input-string "\"\\t\"")) 0))) +(test 10 (char->integer (string-ref (read (open-input-string "\"\\n\"")) 0))) +(test 13 (char->integer (string-ref (read (open-input-string "\"\\r\"")) 0))) +(test #x22 (char->integer (string-ref (read (open-input-string "\"\\\"\"")) 0))) +(test #x7C (char->integer (string-ref (read (open-input-string "\"\\|\"")) 0))) +(test #x1C (char->integer (string-ref (read (open-input-string "\"\\x1C;\"")) 0))) +(test "line 1\nline 2\n" (read (open-input-string "\"line 1\nline 2\n\""))) +(test "line 1continued\n" (read (open-input-string "\"line 1\\\ncontinued\n\""))) +(test "line 1continued\n" (read (open-input-string "\"line 1\\ \ncontinued\n\""))) +(test "line 1continued\n" (read (open-input-string "\"line 1\\\n continued\n\""))) +(test "line 1continued\n" (read (open-input-string "\"line 1\\ \t \n \t continued\n\""))) +(test "line 1\n\nline 3\n" (read (open-input-string "\"line 1\\ \t \n \t \n\nline 3\n\""))) +;(test #x03BB (char->integer (string-ref (read (open-input-string "\"\\x03BB;\"")) 0))) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + + +;; Numeric syntax adapted from Peter Bex's tests. +;; +;; These are updated to R7RS, using string ports instead of +;; string->number, and "error" tests removed because implementations +;; are free to provide their own numeric extensions. Currently all +;; tests are run by default - need to cond-expand and test for +;; infinities and -0.0. + +(define-syntax test-numeric-syntax + (syntax-rules () + ((test-numeric-syntax str expect strs ...) + (let* ((z (string->number str)) + (z-str (if z (number->string z) "?"))) + (test~= expect (values z)) + (test #t (and (member z-str '(str strs ...)) #t)))))) + +;; Each test is of the form: +;; +;; (test-numeric-syntax input-str expected-value expected-write-values ...) +;; +;; where the input should be eqv? to the expected-value, and the +;; written output the same as any of the expected-write-values. The +;; form +;; +;; (test-numeric-syntax input-str expected-value) +;; +;; is a shorthand for +;; +;; (test-numeric-syntax input-str expected-value (input-str)) +;; Simple +(test-numeric-syntax "1" 1) +(test-numeric-syntax "+1" 1 "1") +(test-numeric-syntax "-1" -1) +(test-numeric-syntax "#i1" 1.0 "1.0" "1.") +(test-numeric-syntax "#I1" 1.0 "1.0" "1.") +(test-numeric-syntax "#i-1" -1.0 "-1.0" "-1.") +;; Decimal +(test-numeric-syntax "1.0" 1.0 "1.0" "1.") +(test-numeric-syntax "1." 1.0 "1.0" "1.") +(test-numeric-syntax ".1" 0.1 "0.1" "100.0e-3") +(test-numeric-syntax "-.1" -0.1 "-0.1" "-100.0e-3") +;; Some Schemes don't allow negative zero. This is okay with the standard +(test-numeric-syntax "-.0" -0.0 "-0." "-0.0" "0.0" "0." ".0") +(test-numeric-syntax "-0." -0.0 "-.0" "-0.0" "0.0" "0." ".0") +(test-numeric-syntax "#i1.0" 1.0 "1.0" "1.") +(test-numeric-syntax "#e1.0" 1 "1") +(test-numeric-syntax "#e-.0" 0 "0") +(test-numeric-syntax "#e-0." 0 "0") +(test-numeric-syntax "#E1.0" 1 "1") +(test-numeric-syntax "#E-.0" 0 "0") +(test-numeric-syntax "#E-0." 0 "0") +;; Decimal notation with suffix +(test-numeric-syntax "1e2" 100.0 "100.0" "100.") +(test-numeric-syntax "1E2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1s2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1S2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1f2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1F2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1d2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1D2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1l2" 100.0 "100.0" "100.") +;(test-numeric-syntax "1L2" 100.0 "100.0" "100.") +;; NaN, Inf +(test-numeric-syntax "+nan.0" +nan.0 "+nan.0" "+NaN.0") +(test-numeric-syntax "+NAN.0" +nan.0 "+nan.0" "+NaN.0") +(test-numeric-syntax "+inf.0" +inf.0 "+inf.0" "+Inf.0") +(test-numeric-syntax "+InF.0" +inf.0 "+inf.0" "+Inf.0") +(test-numeric-syntax "-inf.0" -inf.0 "-inf.0" "-Inf.0") +(test-numeric-syntax "-iNF.0" -inf.0 "-inf.0" "-Inf.0") +(test-numeric-syntax "#i+nan.0" +nan.0 "+nan.0" "+NaN.0") +(test-numeric-syntax "#i+inf.0" +inf.0 "+inf.0" "+Inf.0") +(test-numeric-syntax "#i-inf.0" -inf.0 "-inf.0" "-Inf.0") +#| +;; Exact ratios +(test-numeric-syntax "1/2" (/ 1 2)) +(test-numeric-syntax "#e1/2" (/ 1 2) "1/2") +(test-numeric-syntax "10/2" 5 "5") +(test-numeric-syntax "-1/2" (- (/ 1 2))) +(test-numeric-syntax "0/10" 0 "0") +(test-numeric-syntax "#e0/10" 0 "0") +(test-numeric-syntax "#i3/2" (/ 3.0 2.0) "1.5") +;; Exact complex +(test-numeric-syntax "1+2i" (make-rectangular 1 2)) +(test-numeric-syntax "1+2I" (make-rectangular 1 2) "1+2i") +(test-numeric-syntax "1-2i" (make-rectangular 1 -2)) +(test-numeric-syntax "-1+2i" (make-rectangular -1 2)) +(test-numeric-syntax "-1-2i" (make-rectangular -1 -2)) +(test-numeric-syntax "+i" (make-rectangular 0 1) "+i" "+1i" "0+i" "0+1i") +(test-numeric-syntax "0+i" (make-rectangular 0 1) "+i" "+1i" "0+i" "0+1i") +(test-numeric-syntax "0+1i" (make-rectangular 0 1) "+i" "+1i" "0+i" "0+1i") +(test-numeric-syntax "-i" (make-rectangular 0 -1) "-i" "-1i" "0-i" "0-1i") +(test-numeric-syntax "0-i" (make-rectangular 0 -1) "-i" "-1i" "0-i" "0-1i") +(test-numeric-syntax "0-1i" (make-rectangular 0 -1) "-i" "-1i" "0-i" "0-1i") +(test-numeric-syntax "+2i" (make-rectangular 0 2) "2i" "+2i" "0+2i") +(test-numeric-syntax "-2i" (make-rectangular 0 -2) "-2i" "0-2i") +;; Decimal-notation complex numbers (rectangular notation) +(test-numeric-syntax "1.0+2i" (make-rectangular 1.0 2) "1.0+2.0i" "1.0+2i" "1.+2i" "1.+2.i") +(test-numeric-syntax "1+2.0i" (make-rectangular 1 2.0) "1.0+2.0i" "1+2.0i" "1.+2.i" "1+2.i") +(test-numeric-syntax "1e2+1.0i" (make-rectangular 100.0 1.0) "100.0+1.0i" "100.+1.i") +(test-numeric-syntax "1s2+1.0i" (make-rectangular 100.0 1.0) "100.0+1.0i" "100.+1.i") +(test-numeric-syntax "1.0+1e2i" (make-rectangular 1.0 100.0) "1.0+100.0i" "1.+100.i") +(test-numeric-syntax "1.0+1s2i" (make-rectangular 1.0 100.0) "1.0+100.0i" "1.+100.i") +;; Fractional complex numbers (rectangular notation) +(test-numeric-syntax "1/2+3/4i" (make-rectangular (/ 1 2) (/ 3 4))) +;; Mixed fractional/decimal notation complex numbers (rectangular notation) +(test-numeric-syntax "0.5+3/4i" (make-rectangular 0.5 (/ 3 4)) + "0.5+0.75i" ".5+.75i" "0.5+3/4i" ".5+3/4i" "500.0e-3+750.0e-3i") +;; Complex NaN, Inf (rectangular notation) +;;(test-numeric-syntax "+nan.0+nan.0i" (make-rectangular the-nan the-nan) "+NaN.0+NaN.0i") +(test-numeric-syntax "+inf.0+inf.0i" (make-rectangular +inf.0 +inf.0) "+Inf.0+Inf.0i") +(test-numeric-syntax "-inf.0+inf.0i" (make-rectangular -inf.0 +inf.0) "-Inf.0+Inf.0i") +(test-numeric-syntax "-inf.0-inf.0i" (make-rectangular -inf.0 -inf.0) "-Inf.0-Inf.0i") +(test-numeric-syntax "+inf.0-inf.0i" (make-rectangular +inf.0 -inf.0) "+Inf.0-Inf.0i") +;; Complex numbers (polar notation) +;; Need to account for imprecision in write output. +;;(test-numeric-syntax "1@2" -0.416146836547142+0.909297426825682i "-0.416146836547142+0.909297426825682i") +|# +;; Base prefixes +(test-numeric-syntax "#x11" 17 "17") +(test-numeric-syntax "#X11" 17 "17") +(test-numeric-syntax "#d11" 11 "11") +(test-numeric-syntax "#D11" 11 "11") +(test-numeric-syntax "#o11" 9 "9") +(test-numeric-syntax "#O11" 9 "9") +(test-numeric-syntax "#b11" 3 "3") +(test-numeric-syntax "#B11" 3 "3") +(test-numeric-syntax "#o7" 7 "7") +(test-numeric-syntax "#xa" 10 "10") +(test-numeric-syntax "#xA" 10 "10") +(test-numeric-syntax "#xf" 15 "15") +(test-numeric-syntax "#x-10" -16 "-16") +(test-numeric-syntax "#d-10" -10 "-10") +(test-numeric-syntax "#o-10" -8 "-8") +(test-numeric-syntax "#b-10" -2 "-2") +;; Combination of prefixes +(test-numeric-syntax "#e#x10" 16 "16") +(test-numeric-syntax "#E#X10" 16 "16") +(test-numeric-syntax "#X#E10" 16 "16") +(test-numeric-syntax "#i#x10" 16.0 "16.0" "16.") +;; (Attempted) decimal notation with base prefixes +(test-numeric-syntax "#d1." 1.0 "1.0" "1.") +(test-numeric-syntax "#d.1" 0.1 "0.1" ".1" "100.0e-3") +(test-numeric-syntax "#x1e2" 482 "482") +(test-numeric-syntax "#d1e2" 100.0 "100.0" "100.") +#| +;; Fractions with prefixes +(test-numeric-syntax "#x10/2" 8 "8") +(test-numeric-syntax "#x11/2" (/ 17 2) "17/2") +(test-numeric-syntax "#d11/2" (/ 11 2) "11/2") +(test-numeric-syntax "#o11/2" (/ 9 2) "9/2") +(test-numeric-syntax "#b11/10" (/ 3 2) "3/2") +;; Complex numbers with prefixes +;;(test-numeric-syntax "#x10+11i" (make-rectangular 16 17) "16+17i") +(test-numeric-syntax "#d1.0+1.0i" (make-rectangular 1.0 1.0) "1.0+1.0i" "1.+1.i") +(test-numeric-syntax "#d10+11i" (make-rectangular 10 11) "10+11i") +;;(test-numeric-syntax "#o10+11i" (make-rectangular 8 9) "8+9i") +;;(test-numeric-syntax "#b10+11i" (make-rectangular 2 3) "2+3i") +;;(test-numeric-syntax "#e1.0+1.0i" (make-rectangular 1 1) "1+1i" "1+i") +;;(test-numeric-syntax "#i1.0+1.0i" (make-rectangular 1.0 1.0) "1.0+1.0i" "1.+1.i") +|# +(define-syntax test-precision + (syntax-rules () + ((test-round-trip str alt ...) + (let* ((n (string->number str)) + (str2 (number->string n)) + (accepted (list str alt ...)) + (ls (member str2 accepted))) + (test-assert (string-append "(member? " str2 " " + (let ((out (open-output-string))) + (write accepted out) + (get-output-string out)) + ")") + (pair? ls)) + (when (pair? ls) + (test-assert (string-append "(eqv?: " str " " str2 ")") + (eqv? n (string->number (car ls))))))))) +;(test-precision "-1.7976931348623157e+308" "-inf.0") +;(test-precision "4.940656458412465e-324" "4.94065645841247e-324" "5.0e-324" "0.0") +;(test-precision "9.881312916824931e-324" "9.88131291682493e-324" "1.0e-323" "0.0") +;(test-precision "1.48219693752374e-323" "1.5e-323" "0.0") +;(test-precision "1.976262583364986e-323" "1.97626258336499e-323" "2.0e-323" "0.0") +;(test-precision "2.470328229206233e-323" "2.47032822920623e-323" "2.5e-323" "0.0") +;(test-precision "2.420921664622108e-322" "2.42092166462211e-322" "2.4e-322" "0.0") +;(test-precision "2.420921664622108e-320" "2.42092166462211e-320" "2.421e-320" "0.0") +;(test-precision "1.4489974452386991" "1.4489975") +;(test-precision "0.14285714285714282" "0.14285714285714288" "0.14285715") +;(test-precision "1.7976931348623157e+308" "+inf.0") + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; +;; read-write tests from chibi and larceny +;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + + +; equal? tests to make sure it can deal with circular structures + +(test (equal? 'a 'a) #t) +(test (equal? '(a) '(a)) #t) +(test (equal? '(a (b) c) '(a (b) c)) #t) +(test (equal? "abc" "abc") #t) +(test (equal? 2 2) #t) +(test (equal? (make-vector 5 'a) + (make-vector 5 'a)) + #t) + +; circular constants are legal in r7rs, but macroexpander hangs on them +;(test (equal? '#1=(a b . #1#) +; '#2=(a b a b . #2#)) +; #t) + +(test (equal? '#u8(1 2 3 4 5) + (bytevector 1 2 3 4 5)) + #t) + +(test (let* ((x (list 'a)) + (y (list 'a)) + (z (list x y))) + (list (equal? z (list y x)) + (equal? z (list x x)))) + '(#t #t)) + +(let () + (define x + (let ([x1 (vector 'h)] + [x2 (let ([x (list #f)]) (set-car! x x) x)]) + (vector x1 (vector 'h) x1 (vector 'h) x1 x2))) + (define y + (let ([y1 (vector 'h)] + [y2 (vector 'h)] + [y3 (let ([x (list #f)]) (set-car! x x) x)]) + (vector (vector 'h) y1 y1 y2 y2 y3))) + (test (equal? x y) #t)) + + (let () + (define x + (let ([x (cons (cons #f 'a) 'a)]) + (set-car! (car x) x) + x)) + (define y + (let ([y (cons (cons #f 'a) 'a)]) + (set-car! (car y) (car y)) + y)) + (test (equal? x y) #t)) + +(let ([k 100]) + (define x + (let ([x1 (cons + (let f ([n k]) + (if (= n 0) + (let ([x0 (cons #f #f)]) + (set-car! x0 x0) + (set-cdr! x0 x0) + x0) + (let ([xi (cons #f (f (- n 1)))]) + (set-car! xi xi) + xi))) + #f)]) + (set-cdr! x1 x1) + x1)) + (define y + (let* ([y2 (cons #f #f)] [y1 (cons y2 y2)]) + (set-car! y2 y1) + (set-cdr! y2 y1) + y1)) + (test (equal? x y) #t)) + +(test (let ((x (list 'a 'b 'c 'a)) + (y (list 'a 'b 'c 'a 'b 'c 'a))) + (set-cdr! (list-tail x 2) x) + (set-cdr! (list-tail y 5) y) + (list + (equal? x x) + (equal? x y) + (equal? (list x y 'a) (list y x 'b)))) + '(#t #t #f)) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(define-syntax test-io + (syntax-rules () + [(_ str expr) + (let ([p (open-output-string)]) + (write-shared expr p) + (test str (get-output-string p)))])) + +(define-syntax test-cyclic-io + (syntax-rules () + [(_ str expr) + (let ([p (open-output-string)]) + (write expr p) + (test str (get-output-string p)))])) + +; defined in libl +#;(define (last-pair ls) + (if (null? (cdr ls)) ls (last-pair (cdr ls)))) + +; defined in libl +#;(define (make-list n . o) + (let ((default (if (pair? o) (car o)))) + (let lp ((n n) (res '())) + (if (<= n 0) res (lp (- n 1) (cons default res)))))) + +(define (circular-list x . args) + (let ((res (cons x args))) + (set-cdr! (last-pair res) res) + res)) + +; (let ([l (make-list 1000000 1)]) (set-cdr! (last-pair l) l) (write-shared l) (newline)) +; (let* ([x (list 1)] [l (make-list 100000 x)]) (set-cdr! (last-pair l) l) (write-shared l) (newline)) + +(test-io "(1)" (list 1)) +(test-io "(1 2)" (list 1 2)) +(test-io "(1 . 2)" (cons 1 2)) + +(test-io "#0=(1 . #0#)" (circular-list 1)) +(test-io "#0=(1 2 . #0#)" (circular-list 1 2)) +(test-io "(1 . #0=(2 . #0#))" (cons 1 (circular-list 2))) +(test-io "#0=(1 #0# 3)" + (let ((x (list 1 2 3))) (set-car! (cdr x) x) x)) +(test-io "(#0=(1 #0# 3))" + (let ((x (list 1 2 3))) (set-car! (cdr x) x) (list x))) +(test-io "(#0=(1 #0# 3) #0#)" + (let ((x (list 1 2 3))) (set-car! (cdr x) x) (list x x))) +(test-io "(#0=(1 . #0#) #1=(1 . #1#))" + (list (circular-list 1) (circular-list 1))) + +(test-io "(#0=(1 . 2) #1=(1 . 2) #2=(3 . 4) #0# #1# #2#)" + (let ((a (cons 1 2)) (b (cons 1 2)) (c (cons 3 4))) + (list a b c a b c))) +(test-cyclic-io "((1 . 2) (1 . 2) (3 . 4) (1 . 2) (1 . 2) (3 . 4))" + (let ((a (cons 1 2)) (b (cons 1 2)) (c (cons 3 4))) + (list a b c a b c))) +(test-cyclic-io "#0=((1 . 2) (1 . 2) (3 . 4) . #0#)" + (let* ((a (cons 1 2)) + (b (cons 1 2)) + (c (cons 3 4)) + (ls (list a b c))) + (set-cdr! (cddr ls) ls) + ls)) + +(test-io "#0=#(#0#)" + (let ((x (vector 1))) (vector-set! x 0 x) x)) +(test-io "#0=#(1 #0#)" + (let ((x (vector 1 2))) (vector-set! x 1 x) x)) +(test-io "#0=#(1 #0# 3)" + (let ((x (vector 1 2 3))) (vector-set! x 1 x) x)) +(test-io "(#0=#(1 #0# 3))" + (let ((x (vector 1 2 3))) (vector-set! x 1 x) (list x))) +(test-io "#0=#(#0# 2 #0#)" + (let ((x (vector 1 2 3))) + (vector-set! x 0 x) + (vector-set! x 2 x) + x)) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; tests from Larceny ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(define (write-datum writer x) + (let ((q (open-output-string))) + (writer x q) (get-output-string q))) + +(define (write-data writer data) + (map (lambda (datum) (write-datum writer datum)) data)) + +(define (write-then-read-help writer datum) + (let* ((s (write-datum writer datum)) + (p (open-input-string s)) + (x (read p))) + (and (eof-object? (read p)) + x))) + +(define (write-then-read datum) + (let ((x1 (write-then-read-help write datum)) + (x2 (write-then-read-help write-shared datum)) + (x3 (write-then-read-help write-simple datum))) + (if (and (equal? x1 x2) (equal? x2 x3)) + x1 + (list x1 x2 x3)))) + +(define (read-from-string s) + (let ((p (open-input-string s))) + (read p))) + +;(define (string-downcase s) +; (list->string (map char-downcase (string->list s)))) + +;; Strings + +; skint can't read \| yet (legal in r7rs) +;(test (write-then-read "\r\n\t\b\a\|\"\\") +; (list->string +; (map integer->char +; '(13 10 9 8 7 124 34 92)))) + +(test (write-then-read + "\x7f;\x4c;\x61;\x72;\x63;\x65;\x6e;\x79;\x0;#x21;") + (list->string + (map integer->char + '(127 76 97 114 99 101 110 121 0 35 120 50 49 59)))) + +;; Characters +#| +(test (write-then-read (map integer->char '(32 9 10 13))) + '(#\space #\tab #\newline #\return)) + +; skint can't read \delete yet (legal in r7rs) +;(test (write-then-read '(#\alarm #\backspace #\delete #\escape #\newline)) +; (map integer->char '(7 8 127 27 10))) + +(test (write-then-read '(#\null #\return #\space #\tab)) + (map integer->char '(0 13 32 9))) + +(test (write-then-read '(#\return #\space #\tab)) + (map integer->char '(13 32 9))) + +(test (write-then-read '(#\x0 #\x00 #\x1 #\x20 #\x5f #\x7c #\x7f)) + (map integer->char '(0 0 1 32 95 124 127))) +|# + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; +;; +;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + + +;; ::= * + +(test (write-then-read (map string->symbol + '("a" "!" "$" "%" "&" "*" "/" ":" + "<" "=" ">" "?" "^" "_" "~" "@"))) + '(a ! $ % & * / : < = > ? ^ _ ~ @)) + +;; ::= | | + +(test (write-then-read + '(Z: !z $0 %/ &? *^ /~ :@ <9 =+ >- ?@ ^+- _-+ ~@- @@@@@)) + (map string->symbol + '("Z:" "!z" "$0" "%/" "&?" "*^" "/~" ":@" + "<9" "=+" ">-" "?@" "^+-" "_-+" "~@-" "@@@@@"))) + +;; ::= * + + +(test (write-then-read '|;alskjdf;aqwjepojq-1945apgf ;bna]as|) + (string->symbol ";alskjdf;aqwjepojq-1945apgf ;bna]as")) + +;; |\a\b\t\n\r\|\"\\| + +(test (write-then-read '|\a\b\t\n\r\|\"\\|) + (string->symbol + (string #\alarm #\backspace #\tab #\newline #\return + #\| #\" #\\))) +(test (write-then-read '(|\\\|\" a| |\"\|\\ b|)) + (map string->symbol + (list (string #\\ #\| #\" #\space #\a) + (string #\" #\| #\\ #\space #\b)))) +(test (write-then-read '|\x000;\x01;\x2;\t\r\x41;\n\t\x7e;\x7f;|) + (string->symbol + (string #\null #\x1 #\x2 #\tab #\return #\A + #\newline #\tab #\~ #\delete))) + +;; +;; +(test (write-then-read '(+ -)) '(+ -)) + +;; * +(test (write-then-read '(+: -@ +- -- +@ -@ +$$ -@3 +-4 --5 +@_ -@.)) + (map string->symbol + '("+:" "-@" "+-" "--" "+@" "-@" "+$$" + "-@3" "+-4" "--5" "+@_" "-@."))) +;; . * +(test (write-then-read '(+.! -.+ +.. -.. +.@ -.@)) + (map string->symbol + '("+.!" "-.+" "+.." "-.." "+.@" "-.@"))) +(test (write-then-read '(+.<.+ -.++. +..:? -..- +.@&. -.@24)) + (map string->symbol + '("+.<.+" "-.++." "+..:?" "-..-" "+.@&." "-.@24"))) +;; . * +(test (write-then-read '(._ .+ .- .@ .. ._. .+. .-. .@. ...)) + (map string->symbol + '("._" ".+" ".-" ".@" ".." + "._." ".+." ".-." ".@." "..."))) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; +;; Miscellaneous. +;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(test (read-from-string + (write-datum display '(( ) #( ) #u8( ) 'x `x ,x ,@x (a . b)))) + '(() #() #u8() 'x `x ,x ,@x (a . b))) + +(test (write-then-read '(( ) #( ) #u8( ) 'x `x ,x ,@x (a . b))) + '(() #() #u8() 'x `x ,x ,@x (a . b))) + +;; Shared data. +(test (write-then-read (let* ((x (list 1 2)) + (y (list x x))) + (list y y))) + '(((1 2) (1 2)) ((1 2) (1 2)))) + +(test (let ((z (read-from-string + (write-datum write-shared (let* ((x (list 1 2)) + (y (list x x))) + (list y y)))))) + (list (eq? (car z) (cadr z)) + (eq? (car (car z)) (cadr (car z))))) + '(#t #t)) + +;; Circular data. +(test (read-from-string + (write-datum write (let* ((x (list 1 2 3 4 5)) + (v (vector x x x))) + (set-car! (cddr x) v) + (set-cdr! (cdr (cdr (cdr x))) x) + (vector-set! v 1 (list v)) + v))) + (let* ((x (list 1 2 3 4 5)) + (v (vector x x x))) + (set-car! (cddr x) v) + (set-cdr! (cdr (cdr (cdr x))) x) + (vector-set! v 1 (list v)) + v)) + +(test (read-from-string + (write-datum write-shared (let* ((x (list 1 2 3 4 5)) + (v (vector x x x))) + (set-car! (cddr x) v) + (set-cdr! (cdr (cdr (cdr x))) x) + (vector-set! v 1 (list v)) + v))) + (let* ((x (list 1 2 3 4 5)) + (v (vector x x x))) + (set-car! (cddr x) v) + (set-cdr! (cdr (cdr (cdr x))) x) + (vector-set! v 1 (list v)) + v)) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;;; +;;; Some of these tests enforce a conventional representation +;;; when unconventional representations might be legal ouputs. +;;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +;; +(test (and (member (string-downcase (write-datum display #t)) + '("#t" "#true")) + #t) + #t) +(test (and (member (string-downcase (write-datum write #t)) + '("#t" "#true")) + #t) + #t) +(test (and (member (string-downcase (write-datum write-shared #t)) + '("#t" "#true")) + #t) + #t) +(test (and (member (string-downcase (write-datum write-simple #t)) + '("#t" "#true")) + #t) + #t) +(test (and (member (string-downcase (write-datum display #f)) + '("#f" "#false")) + #t) + #t) +;; +(test (and (member (string-downcase (write-datum write #f)) + '("#f" "#false")) + #t) + #t) +;; +(test (and (member (string-downcase (write-datum write-shared #f)) + '("#f" "#false")) + #t) + #t) +;; +(test (and (member (string-downcase (write-datum write-simple #f)) + '("#f" "#false")) + #t) + #t) +;; +(test (write-datum display + "The quick red fox jumped over the lazy dog.") + "The quick red fox jumped over the lazy dog.") +;; +(test (write-datum write + "The quick red fox jumped over the lazy dog.") + "\"The quick red fox jumped over the lazy dog.\"") + +;; + +(test (write-datum write-shared + "The quick red fox jumped over the lazy dog.") + "\"The quick red fox jumped over the lazy dog.\"") + +;; + +(test (write-datum write-simple + "The quick red fox jumped over the lazy dog.") + "\"The quick red fox jumped over the lazy dog.\"") + +;; + +(test (write-data display + '(#\a #\Z #\0 #\9 #\` #\' #\" #\~ #\! #\=)) + '("a" "Z" "0" "9" "`" "'" "\"" "~" "!" "=")) + +(test (write-data write + '(#\a #\Z #\0 #\9 #\` #\' #\" #\~ #\! #\=)) + '("#\\a" "#\\Z" "#\\0" "#\\9" "#\\`" "#\\'" + "#\\\"" "#\\~" "#\\!" "#\\=")) + +(test (write-data write-shared + '(#\a #\Z #\0 #\9 #\` #\' #\" #\~ #\! #\=)) + '("#\\a" "#\\Z" "#\\0" "#\\9" "#\\`" "#\\'" + "#\\\"" "#\\~" "#\\!" "#\\=")) + +(test (write-data write-simple + '(#\a #\Z #\0 #\9 #\` #\' #\" #\~ #\! #\=)) + '("#\\a" "#\\Z" "#\\0" "#\\9" "#\\`" "#\\'" + "#\\\"" "#\\~" "#\\!" "#\\=")) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; +;; +;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +;; ::= * + +(test (write-data display (map string->symbol + '("a" "!" "$" "%" "&" "*" "/" ":" + "<" "=" ">" "?" "^" "_" "~" "@"))) + '("a" "!" "$" "%" "&" "*" "/" ":" "<" "=" ">" "?" "^" "_" "~" "@")) + +(test (write-data write (map string->symbol + '("a" "!" "$" "%" "&" "*" "/" ":" + "<" "=" ">" "?" "^" "_" "~" "@"))) + '("a" "!" "$" "%" "&" "*" "/" ":" "<" "=" ">" "?" "^" "_" "~" "@")) + +(test (write-data write-shared (map string->symbol + '("a" "!" "$" "%" "&" "*" "/" ":" + "<" "=" ">" "?" "^" "_" "~" "@"))) + '("a" "!" "$" "%" "&" "*" "/" ":" "<" "=" ">" "?" "^" "_" "~" "@")) + +(test (write-data write-simple (map string->symbol + '("a" "!" "$" "%" "&" "*" "/" ":" + "<" "=" ">" "?" "^" "_" "~" "@"))) + '("a" "!" "$" "%" "&" "*" "/" ":" "<" "=" ">" "?" "^" "_" "~" "@")) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; +;; +;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +;; small exact integers + +(test (write-data display + '(0 +0 -0 00 +0000 -00000 001 2 -003 007 97 1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +(test (write-data write + '(0 +0 -0 00 +0000 -00000 001 2 -003 007 97 1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +(test (write-data write-shared + '(0 +0 -0 00 +0000 -00000 001 2 -003 007 97 1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +(test (write-data write-simple + '(0 +0 -0 00 +0000 -00000 001 2 -003 007 97 1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +(test (write-data display + '(#e0 #e+0 #e-0 #e00 #e+0000 #e-00000 + #e001 #e2 #e-003 #e007 #e97 #e1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +(test (write-data write + '(#e0 #e+0 #e-0 #e00 #e+0000 #e-00000 + #e001 #e2 #e-003 #e007 #e97 #e1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +(test (write-data write-shared + '(#e0 #e+0 #e-0 #e00 #e+0000 #e-00000 + #e001 #e2 #e-003 #e007 #e97 #e1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +(test (write-data write-simple + '(#e0 #e+0 #e-0 #e00 #e+0000 #e-00000 + #e001 #e2 #e-003 #e007 #e97 #e1001)) + '("0" "0" "0" "0" "0" "0" "1" "2" "-3" "7" "97" "1001")) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; +;; External representations of data. +;; +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +(test (write-data display '(#u8() #u8(0 1 2 3 255))) + '("#u8()" "#u8(0 1 2 3 255)")) + +(test (write-data write '(#u8() #u8(0 1 2 3 255))) + '("#u8()" "#u8(0 1 2 3 255)")) + +(test (write-data write-shared '(#u8() #u8(0 1 2 3 255))) + '("#u8()" "#u8(0 1 2 3 255)")) + +(test (write-data write-simple '(#u8() #u8(0 1 2 3 255))) + '("#u8()" "#u8(0 1 2 3 255)")) + +(test (write-data display '(() (1 . 2) (3 . (4 . (5 . ()))))) + '("()" "(1 . 2)" "(3 4 5)")) + +(test (write-data write '(() (1 . 2) (3 . (4 . (5 . ()))))) + '("()" "(1 . 2)" "(3 4 5)")) + +(test (write-data write-shared '(() (1 . 2) (3 . (4 . (5 . ()))))) + '("()" "(1 . 2)" "(3 4 5)")) + +(test (write-data write-simple '(() (1 . 2) (3 . (4 . (5 . ()))))) + '("()" "(1 . 2)" "(3 4 5)")) + +(test (write-data display '(#() #(a) #(19 21 c))) + '("#()" "#(a)" "#(19 21 c)")) + +(test (write-data write '(#() #(a) #(19 21 c))) + '("#()" "#(a)" "#(19 21 c)")) + +(test (write-data write-shared '(#() #(a) #(19 21 c))) + '("#()" "#(a)" "#(19 21 c)")) + +(test (write-data write-simple '(#() #(a) #(19 21 c))) + '("#()" "#(a)" "#(19 21 c)")) + +(test-end)