mes/tests/psyntax.test
Jan Nieuwenhuizen a937d18c38
build: Simplify, drop make.scm experiment.
* build.sh: Rewrite.
* build-aux/build-cc.sh: New file.
* build-aux/build-mes.sh: New file.
* build-aux/build-mlibc.sh: New file.
* build-aux/cc.sh: New file.
* build-aux/cc-mes.sh: New file.
* build-aux/cc-mlibc.sh: New file.
* install.sh: Update.
* make.scm: Remove.
* guile/guix/make.scm: Remove.
* guile/guix/records.scm: Remove.
* guile/guix/shell-utilsg.scm: Remove.
2018-04-29 18:38:57 +02:00

233 lines
6.2 KiB
Scheme
Executable file

#! /bin/sh
# -*-scheme-*-
MES=${MES-$(dirname $0)/../src/mes}
$MES -s $0
exit $?
!#
;;; -*-scheme-*-
;;; Mes --- Maxwell Equations of Software
;;; Copyright © 2016,2018 Jan (janneke) Nieuwenhuizen <janneke@gnu.org>
;;;
;;; 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 <http://www.gnu.org/licenses/>.
(cond-expand
(guile-2.2
(define sc-expand identity)
(define syntax-object->datum syntax->datum)
(define datum->syntax-object datum->syntax))
(guile-2
(define sc-expand identity)
(define syntax-object->datum syntax->datum)
(define datum->syntax-object datum->syntax)
(define-macro (with-ellipsis . stuff) #t))
(guile
(use-modules (ice-9 syncase))
(define sc-expand identity))
(mes
(mes-use-module (mes psyntax))
(mes-use-module (mes test))))
(pass-if "first dummy" #t)
(pass-if-not "second dummy" #f)
(cond-expand
(guile)
(mes
(pass-if "andmap"
(seq? (andmap (lambda (x) (> x 0)) '(3 2 1)) #t))
(pass-if "andmap 2"
(seq? (andmap (lambda (x) (> x 0)) '(3 2 1 0)) #f))
(pass-if "putprop" (putprop 'foo '*sc-expander 'bar))
(pass-if "getprop"
(seq? (getprop 'foo '*sc-expander) 'bar)))
)
(pass-if "syntax-case"
(sequal? (let* ((sexp '(syntax-case '((1 2) (3 4)) ()
(((x ...) ...) (syntax (x ... ...)))))
(expanded (sc-expand sexp)))
(primitive-eval expanded))
'(1 2 3 4)))
(pass-if "sc-expand"
(sequal? (let ()
(syntax-case '((1 2) (3 4)) ()
(((x ...) ...) (syntax (x ... ...)))))
'(1 2 3 4)))
(pass-if "syntax-object->datum"
(sequal? (syntax-object->datum (syntax (set! a b)))
'(set! a b)))
(pass-if-equal "syntax-case swap!"
'((lambda (temp)
(set! a b)
(set! b temp))
a)
(syntax-object->datum
(let ((exp '(set! a b)))
(syntax-case exp ()
((swap! a b)
(syntax
((lambda (temp)
(set! a b)
(set! b temp))
a)))))))
(pass-if-equal "syntax-case swap! let"
'(let ((temp a)) (set! a b) (set! b temp))
(syntax-object->datum
(let ((exp '(set! a b)))
(syntax-case exp ()
((swap! a b)
(syntax
(let ((temp a))
(set! a b)
(set! b temp))))))))
(cond-expand
(guile)
(mes
(pass-if-equal "syntax-case manual swap!"
'("bar" "foo")
(let* ((sc (sc-expand '(syntax-case exp () ((swap! a b) (syntax (let ((temp a)) (set! a b) (set! b temp)))))))
(exp '(swap foo bar))
(foo "foo")
(bar "bar")
(s (eval sc (current-module)))
(d (syntax-object->datum s))
(e (core:macro-expand d)))
(eval e (current-module))
(list foo bar)))))
(pass-if-equal "define-syntax swap! [syntax-case]"
(list "bar" "foo")
(let ()
(define-syntax swap!
(lambda (exp)
(syntax-case exp ()
((swap! a b)
(syntax
((lambda (temp)
(set! a b)
(set! b temp)) a))))))
(let ((foo "foo")
(bar "bar"))
(swap! foo bar)
(list foo bar))))
(pass-if-equal "define-syntax swap! [syntax-case+let]"
(list "bar" "foo")
(let ()
(define-syntax swap!
(lambda (exp)
(syntax-case exp ()
((swap! a b)
(syntax
(let ((temp a))
(set! a b)
(set! b temp)))))))
(let ((foo "foo")
(bar "bar"))
(swap! foo bar)
(list foo bar))))
(pass-if-equal "define-syntax sr:when [syntax-rules]"
"if not now, then?"
(let ()
(define-syntax sr:when
(syntax-rules ()
((sc:when condition exp ...)
(if condition
(begin exp ...)))))
(let ()
(sr:when #t "if not now, then?"))))
(pass-if-equal "define-syntax-rule"
"if not now, then?"
(let ()
(define-syntax-rule (sre:when c e ...)
(if c (begin e ...)))
(let ()
(sre:when #t "if not now, then?"))))
(pass-if-equal "syntax-rules plus"
(+ 1 2 3)
(let ()
(define-syntax plus
(syntax-rules ()
((plus x ...) (+ x ...))))
(plus 1 2 3)))
(cond-expand
(guile
(pass-if-equal "macro with quasisyntax"
'("foo" "foo")
(let ()
(define-syntax string-let
(lambda (stx)
(syntax-case stx ()
((_ id body ...)
#`(let ((id #,(symbol->string (syntax->datum #'id))))
body ...)))))
(string-let foo (list foo foo)))))
(mes))
;; (pass-if-equal "custom ellipsis within normal ellipsis"
;; '((((a x) (a y) (a …))
;; ((b x) (b y) (b …))
;; ((c x) (c y) (c …)))
;; (((a x) (b x) (c x))
;; ((a y) (b y) (c y))
;; ((a …) (b …) (c …))))
;; (let ()
;; (define-syntax foo
;; (syntax-rules ()
;; ((_ y ...)
;; (syntax-rules … ()
;; ((_ x …)
;; '((((x y) ...) …)
;; (((x y) …) ...)))))))
;; (define-syntax bar (foo x y …))
;; (bar a b c)))
(let ()
(define-syntax define-quotation-macros
(lambda (x)
(syntax-case x ()
((_ (macro-name head-symbol) ...)
#'(begin (define-syntax macro-name
(lambda (x)
(with-ellipsis :::
(syntax-case x ()
((_ x :::)
#'(quote (head-symbol x :::)))))))
...)))))
(define-quotation-macros (quote-a a) (quote-b b) (quote-c c))
(pass-if-equal "with-ellipsis"
'(a 1 2 3)
(quote-a 1 2 3)))
(result 'report (if (and guile?
(equal? (effective-version) "2.0")) 1
0))