(define (every-int n) (list (fixnum n) (int8 n) (uint8 n) (int16 n) (uint16 n) (int32 n) (uint32 n) (int64 n) (uint64 n))) (define (every-sint n) (list (fixnum n) (int8 n) (int16 n) (int32 n) (int64 n))) (define (each f l) (if (atom l) () (progn (f (car l)) (each f (cdr l))))) (define (each^2 f l m) (each (lambda (o) (each (lambda (p) (f o p)) m)) l)) (define (test-lt a b) (each^2 (lambda (neg pos) (progn (eval `(assert (= -1 (compare ,neg ,pos)))) (eval `(assert (= 1 (compare ,pos ,neg)))))) a b)) (define (test-eq a b) (each^2 (lambda (a b) (progn (eval `(assert (= 0 (compare ,a ,b)))))) a b)) (test-lt (every-sint -1) (every-int 1)) (test-lt (every-int 0) (every-int 1)) (test-eq (every-int 88) (every-int 88)) (test-eq (every-sint -88) (every-sint -88)) (define (test-square a) (each (lambda (i) (eval `(assert (>= (* ,i ,i) 0)))) a)) (test-square (every-sint -67)) (test-square (every-int 3)) (test-square (every-int 0x80000000)) (test-square (every-sint 0x80000000)) (test-square (every-sint -0x80000000)) (assert (= (* 128 0x02000001) 0x100000080)) (assert (= (/ 1) 1)) (assert (= (/ -1) -1)) (assert (= (/ 2) 0)) (assert (= (/ 2.0) 0.5)) ; tricky cases involving INT_MIN (assert (< (- #uint32(0x80000000)) 0)) (assert (> (- #int32(0x80000000)) 0)) (assert (< (- #uint64(0x8000000000000000)) 0)) (assert (> (- #int64(0x8000000000000000)) 0)) (assert (not (equal #int64(0x8000000000000000) #uint64(0x8000000000000000)))) (assert (equal (+ #int64(0x4000000000000000) #int64(0x4000000000000000)) #uint64(0x8000000000000000))) (assert (equal (* 2 #int64(0x4000000000000000)) #uint64(0x8000000000000000))) (assert (equal (string 'sym #char(65) #wchar(945) "blah") "symA\u03B1blah")) ; ok, a couple end-to-end tests as well (define (fib n) (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2))))) (assert (equal (fib 20) 6765)) (load "color.lsp") (assert (equal (color-pairs (generate-5x5-pairs) '(a b c d e)) '((23 . a) (9 . a) (22 . b) (17 . d) (14 . d) (8 . b) (21 . e) (19 . b) (16 . c) (13 . c) (11 . b) (7 . e) (24 . c) (20 . d) (18 . e) (15 . a) (12 . a) (10 . e) (6 . d) (5 . c) (4 . e) (3 . d) (2 . c) (0 . b) (1 . a)))) (princ "all tests pass\n") T