(use srfi-63 test) (test-group "srfi-63" (test-assert "equal? with symbols" (equal? 'a 'a)) (test-assert "equal? with lists" (equal? '(a) '(a))) (test-assert "equal? with sublists" (equal? '(a (b) c) '(a (b) c))) (test-assert "equal? with strings" (equal? "abc" "abc")) (test-assert "equal? with numbers" (equal? 2 2)) (test-assert "equal? with vectors" (equal? (make-vector 5 'a) (make-vector 5 'a))) (test-assert "equal? with arrays fixnum arrays" (equal? (make-array (A:fixN32b 4) 5 3) (make-array (A:fixN32b 4) 5 3))) (test-assert "equal? with vector arrays" (equal? (make-array '#(foo) 3 3) (make-array '#(foo) 3 3))) (test "equal? with lambda" #f (equal? (lambda (x) x) (lambda (y) y))) (test "array-dimensions" '(3 5) (array-dimensions (make-array '#() 3 5))) (test-group "make-shared-array" (define fred (make-array '#(#f) 8 8)) (define freds-diagonal (make-shared-array fred (lambda (i) (list i i)) 8)) (array-set! freds-diagonal 'foo 3) (test "array-ref diagonal" 'foo (array-ref fred 3 3)) (define freds-center (make-shared-array fred (lambda (i j) (list (+ 3 i) (+ 3 j))) 2 2)) (test "array-ref center" 'foo (array-ref freds-center 0 0))) (test "list->array two-dimensional" (vector->array '#(1 2 3 4) '#() 2 2) (list->array 2 '#() '((1 2) (3 4)))) (test "list->array zero-dimensional" 3 (array->list (list->array 0 '#() 3))) ;; should really port srfi-58 to make use of the read notation (test "array->list" '((ho ho ho) (ho ho ho)) (array->list (make-array '#(ho ho ho) 2 3))) (test "array-list zero-dimensional" 'ho (array->list (list->array 0 '#() 'ho))) (test "vector->array" (list->array 2 '#() '((1 2) (3 4))) (vector->array '#(1 2 3 4) '#() 2 2)) (test "array->vector" '#(1 2 3 4) (array->vector (vector->array '#(1 2 3 4) '#() 2 2)))) (test-exit)