#! /bin/sh # -*-scheme-*- MES=${MES-$(dirname $0)/../scripts/mes} echo ' ()' | cat $(dirname $0)/../module/mes/base-0.mes $0 /dev/stdin | $MES $MES_FLAGS "$@" #paredit:|| exit $? !# ;;; -*-scheme-*- ;;; Mes --- Maxwell Equations of Software ;;; Copyright © 2016 Jan Nieuwenhuizen ;;; ;;; This file is part of Mes. ;;; ;;; Mes is free software; you can redistribute it and/or modify it ;;; under the terms of the GNU General Public License as published by ;;; the Free Software Foundation; either version 3 of the License, or (at ;;; your option) any later version. ;;; ;;; Mes is distributed in the hope that it will be useful, but ;;; WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with Mes. If not, see . (mes-use-module (mes test)) (pass-if "first dummy" #t) (pass-if-not "second dummy" #f) (pass-if "begin" (seq? (begin 'a 'b (+ 1 2)) 3)) (pass-if "lambda" (symbol? 'lambda)) (define *top-define-a* '*top-define-a*) (pass-if "top define " (seq? *top-define-a* '*top-define-a*)) (begin (define *top-begin-define-a* '*top-begin-define-a*)) (pass-if "top begin define " (seq? *top-begin-define-a* '*top-begin-define-a*)) (pass-if "if" (seq? (if #t 'true) 'true)) (pass-if "if 2" (seq? (if #f #f) *unspecified*)) (pass-if "if 3" (seq? (if (seq? 0 '0) 'true 'false) 'true)) (pass-if "if 4" (seq? (if (= 1 2) 'true 'false) 'false)) (pass-if-equal "append" '(0 1) (append '(0) '(1))) (pass-if-equal "append 1" '0 (append '() 0)) (pass-if-equal "append 2" '(0) (append '(0) '())) (pass-if-equal "append 3" 0 (append 0)) (pass-if-equal "append 4" 'cons (append (cdr '(c)) (car '(cons)))) (pass-if-equal "append 5" '(0 1 2) (append '(0) '(1) '(2))) ;;(pass-if ">=" (seq? (>= 3 2 1) #t)) (if (defined? 'cond) (begin (pass-if "cond" (seq? (cond (#f #f) (#t #t)) #t)) (pass-if "cond" (seq? (cond (#t)) #t)) (pass-if "cond 2" (seq? (cond (#f)) *unspecified*)) (pass-if "cond 3" (seq? (cond (#t 0)) 0)) (pass-if "cond 3" (seq? (cond (#f 1) (#t 0)) 0)) (pass-if-equal "cond => " 0 (let ((lst '(0 1 2))) (define (next) (let ((r (car lst))) (set! lst (cdr lst)) r)) (cond ((next) => identity)))))) (pass-if "and" (seq? (and 1) 1)) (pass-if "and 2" (seq? (and 1 (= 0 1) #f) #f)) (pass-if "or" (seq? (or) #f)) (pass-if "or 2" (seq? (or 1) 1)) (pass-if "or 3" (seq? (or #f (= 0 1) 3) 3)) (pass-if "or 4" (seq? (or (= 0 0) (= 0 1)) #t)) (pass-if "or 5" (seq? (or (= 0 1) (= 0 0)) #t)) (pass-if "let" (seq? (let () 0) 0)) (pass-if "let 2" (seq? (let ((x 0)) x) 0)) (pass-if "let 3" (seq? (let ((p 5) (q 6)) (+ p q)) 11)) (pass-if "apply" (sequal? (apply list '(1)) '(1))) (pass-if "apply 2" (sequal? (apply list 1 '(2)) '(1 2))) (pass-if "apply 3" (sequal? (apply list 1 2 '(3)) '(1 2 3))) (begin (define local-answer 41)) (pass-if-equal "begin 2" 41 (begin local-answer)) (if (not guile?) (pass-if-equal "load" 42 (begin (load "tests/data/load.scm") the-answer))) (pass-if-equal "call/cc" 0 (let ((cont #f) (seen? #f)) (+ 1 (call/cc (lambda (c) (set! cont c) 1))) (if seen? 0 (begin (set! seen? #t) (cont 2))))) (result 'report)