mes/mes.scm

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#! /bin/sh
# -*-scheme-*-
exec guile -L $(pwd) -e '(mes)' -s "$0" "$@"
!#
;;; Mes --- The Maxwell Equations of Software
;;; Copyright © 2016 Jan Nieuwenhuizen <janneke@gnu.org>
;;;
;;; This file is part of GNU Guix.
;;;
;;; 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/>.
;; The Maxwell Equations of Software -- John McCarthy page 13
;; http://www.softwarepreservation.org/projects/LISP/book/LISP%201.5%20Programmers%20Manual.pdf
(define-module (mes)
#:export (main))
(set-current-module
(make-module 10 `(,(resolve-interface
'(guile)
#:select '(
;; Debugging
apply
cons*
current-error-port
current-output-port
display
eof-object?
exit
force-output
format
newline
read
with-input-from-string
;; Guile admin
module-define!
resolve-interface
;; PRIMITIVES
car
cdr
cons
eq?
null?
pair?
;; ADDITIONAL PRIMITIVES
apply
number?
procedure?
<
-
)
#:renamer (symbol-prefix-proc 'guile:)))))
(define (logf port string . rest)
(guile:apply guile:format (guile:cons* port string rest))
(guile:force-output port)
#t)
(define (stderr string . rest)
(guile:apply logf (guile:cons* (guile:current-error-port) string rest)))
(define (stdout string . rest)
(guile:apply logf (guile:cons* (guile:current-output-port) string rest)))
(define (debug . x) #t)
;;(define debug stderr)
;; TODO
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(define (atom? x)
(cond
((guile:pair? x) #f)
((guile:null? x) #f)
(#t x)))
;; PRIMITIVES
(define car guile:car)
(define cdr guile:cdr)
(define cons guile:cons)
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(define eq? guile:eq?)
(define null? guile:null?)
(define pair? guile:pair?)
(define builtin? guile:procedure?)
(define number? guile:number?)
(define call guile:apply)
(include "mes.mes")
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(define (pairlis x y a)
;;(debug "pairlis x=~a y=~a a=~a\n" x y a)
(cond
((null? x) a)
((atom? x) (cons (cons x y) a))
(#t (cons (cons (car x) (car y))
(pairlis (cdr x) (cdr y) a)))))
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(define (assq x a)
;;(stderr "assq x=~a\n" x)
;;(debug "assq x=~a a=~a\n" x a)
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(cond
((null? a) #f)
((eq? (caar a) x) (car a))
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(#t (assq x (cdr a)))))
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(define (append x y)
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(cond ((null? x) y)
(#t (cons (car x) (append (cdr x) y)))))
(define (eval-environment e a)
(eval e (append a environment)))
(define (apply-environment fn e a)
(apply fn e (append a environment)))
(define (readenv a)
(let ((x (guile:read)))
(if (guile:eof-object? x) '()
x)))
(define environment
`(
(() . ())
(#t . #t)
(#f . #f)
(*unspecified* . ,*unspecified*)
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(atom? . ,atom?)
(car . ,car)
(cdr . ,cdr)
(cons . ,cons)
(cond . ,evcon)
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(eq? . ,eq?)
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(null? . ,null?)
(pair? . ,guile:pair?)
;;(quote . ,quote)
(evlis . ,evlis)
(evcon . ,evcon)
(pairlis . ,pairlis)
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(assq . ,assq)
(eval . ,eval-environment)
(apply . ,apply-environment)
(readenv . ,readenv)
(display . ,guile:display)
(newline . ,guile:newline)
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(builtin? . ,builtin?)
(number? . ,number?)
(call . ,call)
(< . ,guile:<)
(- . ,guile:-)
;; DERIVED
(caar . ,caar)
(cadr . ,cadr)
(cdar . ,cdar)
(cddr . ,cddr)
(caadr . ,caadr)
(caddr . ,caddr)
(cdadr . ,cdadr)
(cadar . ,cadar)
(cddar . ,cddar)
(cdddr . ,cdddr)
(append . ,append)
(exit . ,guile:exit)
(*macro* . ())
;;
(stderr . ,stderr)))
(define (mes-define-lambda x a)
(cons (caadr x) (cons 'lambda (cons (cdadr x) (cddr x)))))
(define (mes-define x a)
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(if (atom? (cadr x))
(cons (cadr x) (eval (caddr x) a))
(mes-define-lambda x a)))
(define (mes-define-macro x a)
(cons '*macro*
(cons (mes-define-lambda x a)
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(cdr (assq '*macro* a)))))
(define (loop r e a)
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(cond ((null? e) r)
((eq? e 'exit)
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(apply (cdr (assq 'loop a))
(cons *unspecified* (cons #t (cons a '())))
a))
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((atom? e) (loop (eval e a) (readenv a) a))
((eq? (car e) 'define)
(loop *unspecified* (readenv a) (cons (mes-define e a) a)))
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((eq? (car e) 'define-macro)
(loop *unspecified* (readenv a) (cons (mes-define-macro e a) a)))
(#t (loop (eval e a) (readenv a) a))))
(define (main arguments)
(let ((a (append environment `((*a* . ,environment)))))
;;(guile:display (eval (readenv a) a))
(guile:display (loop *unspecified* (readenv a) a))
)
(guile:newline))
(guile:module-define! (guile:resolve-interface '(mes)) 'main main)