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mes/module/mes/scm.mes
Jan Nieuwenhuizen c3fdfedb20 mes: resurrect full reader in C core. 
* module/mes/read-0.mes (defined?): New function.
  (eat-whitespace, read-env, read-word, read-block-comment,
  read-line-comment, read-list, read-character, read-hex, read-octal,
  reader:read-string, lookup, read-hash, read-word): Only define if
  not %c-reader.
* module/mes/base-0.mes (defined?): Remove.
* src/mes.c[MES_C_READER]: Set ARENA_SIZE=10000000.
  (scm_symbol_quasiquote scm_symbol_unquote,
  scm_symbol_unquote_splicing, scm_symbol_syntax,
  scm_symbol_quasisyntax, scm_symbol_unsyntax,
  scm_symbol_unsyntax_splicing): New symbol.
  (scm_symbol_c_reader): New symbol.
  (MAKE_KEYWORD)[MES_C_READER]: New define.
  (mes_symbols): Define %c_reader.
* src/reader.c (read_word_)[MES_C_READER]: Extend to full Scheme
  reader.
  (eat_whitespace)[MES_C_READER]: Likewise.
  (read_block_comment, read_hash, read_word, read_character,
  read_octal, read_hex, append_char, read_string)[MES_C_READER]:
  Likewise.
* make.scm (bin.gcc,bin.mescc): Define MES_C_READER=1.
2017-11-29 21:42:50 +01:00

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;;; -*-scheme-*-
;;; Mes --- Maxwell Equations of Software
;;; Copyright © 2016,2017 Jan 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/>.
;;; Commentary:
;;; scm.mes is loaded after base, quasiquote and let. It provides
;;; basic Scheme functions bringing Mes close to basic RRS Scheme (no
;;; labels, processes, fluids or throw/catch).
;;; Code:
(mes-use-module (mes let))
(define (cadddr x) (car (cdddr x)))
(define-macro (case val . args)
(if (null? args) #f
(let ((clause (car args)))
(let ((pred (car clause)))
(let ((body (cdr clause)))
(if (pair? pred) `(if ,(if (null? (cdr pred))
`(eq? ,val ',(car pred))
`(member ,val ',pred))
(begin ,@body)
(case ,val ,@(cdr args)))
`(begin ,@body)))))))
(define-macro (when expr . body)
`(if ,expr
((lambda () ,@body))))
(define-macro (unless expr . body)
`(if (not ,expr)
((lambda () ,@body))))
(define-macro (do init test . body)
`(let loop ((,(caar init) ,(cadar init)))
(when (not ,@test)
,@body
(loop ,@(cddar init)))))
(define (for-each f l . r)
(if (pair? l) (if (null? r) (begin (f (car l)) (for-each f (cdr l)))
(if (null? (cdr r)) (begin (f (car l) (caar r)) (for-each f (cdr l) (cdar r)))))))
(define core:error error)
(define (error who . rest)
(display "error:" (current-error-port))
(display who (current-error-port))
(display ":" (current-error-port))
(display rest (current-error-port))
(newline (current-error-port))
(display "exiting...\n" (current-error-port))
(core:error (if (symbol? who) who 'error) (cons who rest)))
(define (syntax-error message . rest)
(display "syntax-error:" (current-error-port))
(display message (current-error-port))
(display ":" (current-error-port))
(display rest (current-error-port))
(newline (current-error-port))
(core:error 'syntax-error (cons message rest)))
(define integer? number?)
(define (eof-object? x)
(or (and (number? x) (= x -1))
(and (char? x) (eof-object? (char->integer x)))))
(if (not (defined? 'peek-char))
(define (peek-char)
(integer->char (peek-byte))))
(if (not (defined? 'read-char))
(define (read-char)
(integer->char (read-byte))))
(if (not (defined? 'unread-char))
(define (unread-char c)
(unread-byte (char->integer c))))
(define (assq-set! alist key val)
(let ((entry (assq key alist)))
(if (not entry) (acons key val alist)
(let ((entry (set-cdr! entry val)))
alist))))
(define (assq-ref alist key)
(let ((entry (assq key alist)))
(if entry (cdr entry)
#f)))
(define assv assq)
(define assv-ref assq-ref)
(define (assoc key alist)
(if (null? alist) #f ;; IF
(if (equal? key (caar alist)) (car alist)
(assoc key (cdr alist)))))
(define (assoc-ref alist key)
(let ((entry (assoc key alist)))
(if entry (cdr entry)
#f)))
(define (assoc-set! alist key value)
(let ((entry (assoc key alist)))
(if (not entry) (acons key value alist)
(let ((entry (set-cdr! entry value)))
alist))))
(define (memq x lst)
(if (null? lst) #f ;; IF
(if (eq? x (car lst)) lst
(memq x (cdr lst)))))
(define memv memq)
(define (member x lst)
(if (null? lst) #f ;; IF
(if (equal? x (car lst)) lst
(member x (cdr lst)))))
;;; Lists
(define (make-list n . x)
(let ((fill (if (pair? x) (car x) *unspecified*)))
(let loop ((n n))
(if (= 0 n) '()
(cons fill (loop (- n 1)))))))
(define (list-ref lst k)
(let loop ((lst lst) (k k))
(if (= 0 k) (car lst)
(loop (cdr lst) (- k 1)))))
(define (list-set! lst k v)
(let loop ((lst lst) (k k))
(if (= 0 k) (set-car! lst v)
(loop (cdr lst) (- k 1)))))
(define (list-head x n)
(if (= 0 n) '()
(cons (car x) (list-head (cdr x) (- n 1)))))
(define (list-tail x n)
(if (= 0 n) x
(list-tail (cdr x) (- n 1))))
(define (last-pair lst)
(let loop ((lst lst))
(if (or (null? lst) (null? (cdr lst))) lst
(loop (cdr lst)))))
(define (iota n)
(if (<= n 0) '()
(append2 (iota (- n 1)) (list (- n 1)))))
(define (reverse lst)
(if (null? lst) '()
(append (reverse (cdr lst)) (cons (car lst) '()))))
(define (filter pred lst)
(let loop ((lst lst))
(if (null? lst) '()
(if (pred (car lst))
(cons (car lst) (loop (cdr lst)))
(loop (cdr lst))))))
(define (delete x lst)
(filter (lambda (e) (not (equal? e x))) lst))
(define (delq x lst)
(filter (lambda (e) (not (eq? e x))) lst))
(define (compose proc . rest)
(if (null? rest) proc
(lambda args
(proc (apply (apply compose rest) args)))))
;; Vector
(define (vector . rest) (list->vector rest))
(define c:make-vector make-vector)
(define (make-vector n . x)
(if (null? x) (c:make-vector n)
(list->vector (apply make-list (cons n x)))))
(define (vector-copy x)
(list->vector (vector->list x)))
;;; Strings/srfi-13
(define (string-length s)
(length (string->list s)))
(define (string-ref s k)
(list-ref (string->list s) k))
(define (string-set! s k v)
(list->string (list-set! (string->list s) k v)))
(define (substring s start . rest)
(let* ((end (and (pair? rest) (car rest)))
(lst (list-tail (string->list s) start)))
(list->string (if (not end) lst
(list-head lst (- end start))))))
(define (string-prefix? prefix string)
(let ((length (string-length string))
(prefix-length (string-length prefix)))
(and
(>= length prefix-length)
(equal? (substring string 0 prefix-length) prefix))))
(define (string-suffix? suffix string)
(let ((length (string-length string))
(suffix-length (string-length suffix)))
(and
(>= length suffix-length)
(equal? (substring string (- length suffix-length)) suffix))))
(define (string->number s . rest)
(let* ((radix (if (null? rest) 10 (car rest)))
(lst (string->list s))
(sign (if (char=? (car lst) #\-) -1 1))
(lst (if (= sign -1) (cdr lst) lst)))
(let loop ((lst lst) (n 0))
(if (null? lst) (* sign n)
(let ((i (char->integer (car lst))))
(loop (cdr lst) (+ (* n radix) (- i (if (<= i (char->integer #\9)) (char->integer #\0)
(- (char->integer #\a) 10))))))))))
(define (number->string n . rest)
(let* ((radix (if (null? rest) 10 (car rest)))
(sign (if (< n 0) '(#\-) '())))
(let loop ((n (abs n)) (lst '()))
(let* ((i (remainder n radix))
(lst (cons (integer->char (+ i (if (< i 10) (char->integer #\0)
(- (char->integer #\a) 10)))) lst))
(n (quotient n radix)))
(if (= 0 n) (list->string (append sign lst))
(loop n lst))))))
;;; Symbols
(define (symbol-prefix? prefix symbol)
(string-prefix? (symbol->string prefix) (symbol->string symbol)))
(define (symbol-append . rest)
(string->symbol (apply string-append (map symbol->string rest))))
(define gensym
(let ((counter 0))
(lambda (. rest)
(let ((value (number->string counter)))
(set! counter (+ counter 1))
(string->symbol (string-append "g" value))))))
;;; Keywords
(define (keyword->symbol s)
(list->symbol (keyword->list s)))
;;; Characters
(define (char=? x y)
(and (char? x) (char? y)
(eq? x y)))
(define (char<? a b) (< (char->integer a) (char->integer b)))
(define (char>? a b) (> (char->integer a) (char->integer b)))
(define (char<=? a b) (<= (char->integer a) (char->integer b)))
(define (char>=? a b) (>= (char->integer a) (char->integer b)))
(define (char-alphabetic? x)
(and (char? x)
(let ((i (char->integer x)))
(or (and (>= i (char->integer #\A)) (<= i (char->integer #\Z)))
(and (>= i (char->integer #\a)) (<= i (char->integer #\z)))))))
(define (char-numeric? x)
(and (char? x)
(let ((i (char->integer x)))
(and (>= i (char->integer #\0)) (<= i (char->integer #\9))))))
;;; Math
(define quotient /)
(define (<= . rest)
(or (apply < rest)
(apply = rest)))
(define (>= . rest)
(or (apply > rest)
(apply = rest)))
(define (remainder x y)
(- x (* (quotient x y) y)))
(define (even? x)
(= 0 (remainder x 2)))
(define (odd? x)
(= 1 (remainder x 2)))
(define (negative? x)
(< x 0))
(define (positive? x)
(> x 0))
(define (zero? x)
(= x 0))
(define (1+ x)
(+ x 1))
(define (1- x)
(- x 1))
(define (abs x)
(if (>= x 0) x (- x)))
(define (expt x y)
(let loop ((s 1) (count y))
(if (= 0 count) s
(loop (* s x) (- count 1)))))
(define (max x . rest)
(if (null? rest) x
(let ((y (car rest)))
(let ((z (if (> x y) x y)))
(apply max (cons z (cdr rest)))))))
(define (min x . rest)
(if (null? rest) x
(let ((y (car rest)))
(let ((z (if (< x y) x y)))
(apply min (cons z (cdr rest)))))))
(define (negate proc)
(lambda args
(not (apply proc args))))
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