#! /bin/sh # -*-scheme-*- echo ' ()' | cat $(dirname $0)/../module/mes/base-0.mes $0 /dev/stdin | $(dirname $0)/../scripts/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 scm)) (mes-use-module (srfi srfi-0)) (mes-use-module (mes test)) (pass-if "first dummy" #t) (pass-if-not "second dummy" #f) (pass-if "when" (seq? (when #t 'true) 'true)) (pass-if "when 2" (seq? (when #f 'true) *unspecified*)) (pass-if "map" (sequal? (map identity '(1 2 3 4)) '(1 2 3 4))) (pass-if "map 2 " (sequal? (map (lambda (i a) (cons i a)) '(1 2 3 4) '(a b c d)) '((1 . a) (2 . b) (3 . c) (4 . d)))) (pass-if "for-each" (sequal? (let ((acc '())) (for-each (lambda (x) (set! acc (cons x acc))) '(1 2 3 4)) acc) '(4 3 2 1))) (define xxxa 0) (pass-if "set! " (seq? (begin (set! xxxa 1) xxxa) 1)) (pass-if "set! 2" (seq? (let ((a 0)) (set! a 1) a) 1)) (pass-if "list-ref" (seq? (list-ref '(0 1 2) 1) 1)) (pass-if "do" (sequal? (let ((acc '())) (do ((i 0 (+ i 1))) ((>= i 3)) (set! acc (cons i acc))) acc) '(2 1 0))) (pass-if "+" (seq? (+ 1 2 3) 6)) (pass-if "*" (seq? (* 3 3 3) 27)) (pass-if "/" (seq? (/ 9 3) 3)) (pass-if "remainder" (seq? (remainder 11 3) 2)) (pass-if "modulo" (seq? (modulo 11 3) 2)) (pass-if "expt" (seq? (expt 2 3) 8)) (pass-if "logior" (seq? (logior 0 1 2 4) 7)) (pass-if "=" (seq? 3 '3)) (pass-if "= 2" (not (= 3 '4))) (pass-if "string-append" (sequal? (string-append "a" "b" "c") "abc")) (pass-if "substring" (sequal? (substring "hello world" 6) "world")) (pass-if "substring 2" (sequal? (substring "hello world" 4 7) "o w")) (pass-if "string-ref" (seq? (string-ref "hello world" 4) #\o)) (pass-if "eq?" (not (eq? (string-append "a" "b" "c") "abc"))) (pass-if "string-length" (seq? (string-length (string-append "a" "b" "c")) 3)) (pass-if "string->list" (sequal? (string->list "abc\n") '(#\a #\b #\c #\newline))) (pass-if "char" (seq? (char->integer #\A) 65)) (pass-if "char 2" (seq? (char->integer #\101) (char->integer #\A))) (pass-if "char 3" (seq? (integer->char 10) #\newline)) (pass-if "char 4" (seq? (integer->char 32) #\space)) (pass-if "string " (sequal? (string #\a #\space #\s #\t #\r #\i #\n #\g) "a string")) (pass-if "length" (seq? (length '()) 0)) (pass-if "length 2" (seq? (length '(a b c)) 3)) (pass-if "make-list" (seq? (make-list 0) '())) (pass-if "make-list 1" (sequal? (make-list 1 0) '(0))) (pass-if "equal?" (sequal? #(1) #(1))) (pass-if "equal?" (not (equal? #() #(1)))) (pass-if "memq" (sequal? (memq 'a '(a b c)) '(a b c))) (pass-if "memq" (sequal? (memq 'b '(a b c)) '(b c))) (pass-if "memq" (seq? (memq 'd '(a b c)) #f)) (pass-if "member" (sequal? (member '(a) '((a) b c)) '((a) b c))) (pass-if "assq-ref" (seq? (assq-ref '((b . 1) (c . 2)) 'c) 2)) (pass-if "assq-ref 2" (seq? (assq-ref '((b . 1) (c . 2)) 'a) #f)) (pass-if "assq-set!" (sequal? (assq-set! '((b . 1)) 'a 0) '((a . 0) (b . 1)))) (pass-if "assq-set! 2" (sequal? (assq-set! '((a . 0)) 'a 1) '((a . 1)))) (pass-if "assoc" (sequal? (assoc '(a . 0) '((a . 0) (b . 1) ((a . 0) aa))) '((a . 0) aa))) (pass-if "builtin? car" (builtin? car)) (pass-if "builtin? cdr" (builtin? cdr)) (pass-if "builtin? cons" (builtin? cons)) (pass-if "builtin? eq?" (builtin? eq?)) (pass-if "builtin? if" (builtin? eq?)) (when (not guile?) (pass-if "builtin? eval" (not (builtin? not)))) (pass-if "procedure?" (procedure? builtin?)) (pass-if "procedure?" (procedure? procedure?)) (when (not guile?) (pass-if "gensym" (seq? (gensym) 'g0)) (pass-if "gensym" (seq? (gensym) 'g1)) (pass-if "gensym" (seq? (gensym) 'g2))) (pass-if "last-pair " (sequal? (last-pair '(1 2 3 4)) '(4))) (pass-if "last-pair 2" (seq? (last-pair '()) '())) ;; (pass-if "circular-list? " ;; (seq? ;; (let ((x (list 1 2 3 4))) ;; (set-cdr! (last-pair x) (cddr x)) ;; (circular-list? x)) ;; #t)) (pass-if-equal "iota" '(0 1 2) (iota 3)) (pass-if-equal "iota 0" '() (iota 0)) (pass-if-equal "iota -1" '() (iota -1)) (pass-if "reverse" (sequal? (reverse '(1 2 3)) '(3 2 1))) (pass-if "cond-expand" (sequal? (cond-expand (foobar #f) (mes (display ": pass: *YAY*") 'mes) (guile (display ": pass: *GUILE*") 'mes)) 'mes)) (pass-if "apply identity" (seq? (apply identity '(0)) 0)) (pass-if "apply identity 2" (sequal? (apply identity '((0 1))) '(0 1))) (pass-if "apply append" (sequal? (apply append '((1 2) (3 4))) '(1 2 3 4))) (pass-if "=" (seq? (=) #t)) (pass-if "= 1" (seq? (= 0) #t)) (pass-if "= 2" (seq? (= 0 0) #t)) (pass-if "= 3" (seq? (= 0 0) #t)) (pass-if "= 4" (seq? (= 0 1 0) #f)) (pass-if "<" (seq? (<) #t)) (pass-if "< 1" (seq? (< 0) #t)) (pass-if "< 2" (seq? (< 0 1) #t)) (pass-if "< 3" (seq? (< 1 0) #f)) (pass-if "< 4" (seq? (< 0 1 2) #t)) (pass-if "< 5" (seq? (< 0 2 1) #f)) (pass-if ">" (seq? (>) #t)) (pass-if "> 1" (seq? (> 0) #t)) (pass-if "> 2" (seq? (> 1 0) #t)) (pass-if "> 3" (seq? (> 0 1) #f)) (pass-if "> 4" (seq? (> 2 1 0) #t)) (pass-if "> 5" (seq? (> 1 2 0) #f)) (pass-if ">=" (seq? (>= 3 2 1) #t)) (pass-if ">= 2" (seq? (>= 1 2 3) #f)) (pass-if "<=" (seq? (<= 3 2 1) #f)) (pass-if "<= 2" (seq? (<= 1 2 3) #t)) (pass-if "max" (seq? (max 0) 0)) (pass-if "max 1" (seq? (max 0 1) 1)) (pass-if "max 2" (seq? (max 1 0 2) 2)) (pass-if "min" (seq? (min 0) 0)) (pass-if "min 1" (seq? (min 0 1) 0)) (pass-if "min 2" (seq? (min 1 0 2) 0)) (pass-if "char-alphabetic?" (seq? (char-alphabetic? #\a) #t)) (pass-if "char-alphabetic? 2" (seq? (char-alphabetic? #\[) #f)) (result 'report)