mes/build-aux/mes-snarf.scm
Jan Nieuwenhuizen 4b6d11e990
core: append2, append_reverse, reverse, reverse!: Create less garbage.
* src/mes.c (append_reverse): New function.
  (reverse_x_): New function.
  (append2): Use them to create less garbage.
* module/mes/scm.mes (reverse): Create less garbage.
* module/srfi/srfi-1.mes (reverse!): Rewrite, use core:reverse!.
  (append-reverse): Remove.
2018-04-20 14:38:24 +02:00

193 lines
8.3 KiB
Scheme
Executable file

#! /bin/sh
# -*- scheme -*-
exec ${GUILE-guile} --no-auto-compile -L $HOME/src/mes/build-aux -L build-aux -e '(@@ (mes-snarf) main)' -s "$0" ${1+"$@"}
!#
;;; Mes --- Maxwell Equations of Software
;;; Copyright © 2016,2017 Jan (janneke) Nieuwenhuizen <janneke@gnu.org>
;;;
;;; mes-snarf.scm: 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/>.
(define-module (mes-snarf)
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-26)
#:use-module (ice-9 curried-definitions)
#:use-module (ice-9 rdelim)
#:use-module (ice-9 regex)
#:use-module (oop goops))
(define ((regexp-replace regexp replace) string)
(or (and=> (string-match regexp string)
(cut regexp-substitute #f <> 'pre replace 'post))
string))
(define %gcc? #t)
;; (define-record-type function (make-function name formals annotation)
;; function?
;; (name .name)
;; (formals .formals)
;; (annotation .annotation))
(define-class <file> ()
(name #:accessor .name #:init-keyword #:name)
(content #:accessor .content #:init-keyword #:content))
(define-class <function> ()
(name #:accessor .name #:init-keyword #:name)
(formals #:accessor .formals #:init-keyword #:formals)
(annotation #:accessor .annotation #:init-keyword #:annotation))
(define (function-scm-name f)
(or (assoc-ref (.annotation f) 'name)
(let ((name ((compose
(regexp-replace "_" "-")
(regexp-replace "_" "-")
(regexp-replace "_" "-")
(regexp-replace "_" "-")
(regexp-replace "_to_" "->")
(regexp-replace "_x$" "!")
(regexp-replace "_x_$" "!-")
(regexp-replace "_p$" "?")
(regexp-replace "___" "***")
(regexp-replace "___" "***"))
(.name f))))
(if (not (string-suffix? "-" name)) name
(string-append "core:" (string-drop-right name 1))))))
(define %builtin-prefix% "scm_")
(define (function-builtin-name f)
(string-append %builtin-prefix% (.name f)))
(define %cell-prefix% "cell_")
(define (function-cell-name f)
(string-append %cell-prefix% (.name f)))
(define %start 1)
(define (symbol->header s i)
(format #f "#define cell_~a ~a\n" s i))
(define (symbol->source s i)
(string-append
(format #f "g_free++;\n")
(format #f "g_cells[cell_~a] = scm_~a;\n\n" s s)))
(define (symbol->names s i)
(if %gcc?
(format #f "g_cells[cell_~a].car = cstring_to_list (scm_~a.name);\n" s s)
(format #f "g_cells[cell_~a].car = cstring_to_list (scm_~a.car);\n" s s)))
(define (function->header f i)
(let* ((arity (or (assoc-ref (.annotation f) 'arity)
(if (string-null? (.formals f)) 0
(length (string-split (.formals f) #\,)))))
(n (if (eq? arity 'n) -1 arity)))
(string-append
(format #f "SCM ~a (~a);\n" (.name f) (.formals f))
(if %gcc?
(format #f "struct function fun_~a = {.function~a=&~a, .arity=~a, .name=~s};\n" (.name f) arity (.name f) n (function-scm-name f))
(format #f "struct function fun_~a = {&~a, ~a, ~s};\n" (.name f) (.name f) n (function-scm-name f)))
(if %gcc?
(format #f "struct scm ~a = {TFUNCTION, .name=0, .function=0};\n" (function-builtin-name f))
(format #f "struct scm ~a = {TFUNCTION, 0, 0};\n" (function-builtin-name f)))
(format #f "SCM cell_~a;\n\n" (.name f)))))
(define (function->source f i)
(string-append
(if %gcc?
(format #f "~a.function = g_function;\n" (function-builtin-name f))
(format #f "~a.cdr = g_function;\n" (function-builtin-name f)))
(format #f "g_functions[g_function++] = fun_~a;\n" (.name f))
(format #f "cell_~a = g_free++;\n" (.name f))
(format #f "g_cells[cell_~a] = ~a;\n\n" (.name f) (function-builtin-name f))))
(define (function->environment f i)
(string-append
(if %gcc?
(format #f "scm_~a.string = cstring_to_list (fun_~a.name);\n" (.name f) (.name f))
(format #f "scm_~a.car = cstring_to_list (fun_~a.name);\n" (.name f) (.name f)))
(if %gcc?
(format #f "g_cells[cell_~a].string = MAKE_STRING (scm_~a.string);\n" (.name f) (.name f))
(format #f "g_cells[cell_~a].car = MAKE_STRING (scm_~a.car);\n" (.name f) (.name f)))
(if %gcc?
(format #f "a = acons (lookup_symbol_ (scm_~a.string), ~a, a);\n\n" (.name f) (function-cell-name f))
(format #f "a = acons (lookup_symbol_ (scm_~a.car), ~a, a);\n\n" (.name f) (function-cell-name f)))))
(define (snarf-symbols string)
(let* ((matches (list-matches "\nstruct scm scm_([a-z_0-9]+) = [{](TSPECIAL|TSYMBOL)," string)))
(map (cut match:substring <> 1) matches)))
(define (snarf-functions string)
(let* ((matches (list-matches
"\nSCM[ \n]?([a-z0-9_]+) [(]((SCM ?[^,)]+|, )*)[)][^\n(]*([^\n]*)"
string)))
(map (lambda (m)
(make <function>
#:name (match:substring m 1)
#:formals (match:substring m 2)
#:annotation (with-input-from-string (match:substring m 4) read)))
matches)))
(define (content? f)
((compose not string-null? .content) f))
(define (internal? f)
((compose (cut assoc-ref <> 'internal) .annotation) f))
(define (no-environment? f)
((compose (cut assoc-ref <> 'no-environment) .annotation) f))
(define (generate-includes file-name)
(let* ((string (with-input-from-file file-name read-string))
(functions (snarf-functions string))
(functions (delete-duplicates functions (lambda (a b) (equal? (.name a) (.name b)))))
(functions (filter (negate internal?) functions))
(symbols (snarf-symbols string))
(base-name (basename file-name ".c"))
(dir (or (getenv "OUT") (dirname file-name)))
(base-name (string-append dir "/" base-name))
(base-name (if %gcc? base-name
(string-append base-name ".mes")))
(header (make <file>
#:name (string-append base-name ".h")
#:content (string-join (map function->header functions (iota (length functions) (+ %start (length symbols)))) "")))
(source (make <file>
#:name (string-append base-name ".i")
#:content (string-join (map function->source (filter (negate no-environment?) functions) (iota (length functions) (+ (length symbols) %start))) "")))
(environment (make <file>
#:name (string-append base-name ".environment.i")
#:content (string-join (map function->environment (filter (negate no-environment?) functions) (iota (length functions) (+ (length symbols) %start))) "")))
(symbols.h (make <file>
#:name (string-append base-name ".symbols.h")
#:content (string-join (map symbol->header symbols (iota (length symbols) %start)) "")))
(symbols.i (make <file>
#:name (string-append base-name ".symbols.i")
#:content (string-join (map symbol->source symbols (iota (length symbols))) "")))
(symbol-names.i (make <file>
#:name (string-append base-name ".symbol-names.i")
#:content (string-join (map symbol->names symbols (iota (length symbols))) ""))))
(list header source environment symbols.h symbols.i symbol-names.i)))
(define (file-write file)
(with-output-to-file (.name file) (lambda () (display (.content file)))))
(define (main args)
(let* ((files (if (not (and (pair? (cdr args)) (equal? (cadr args) "--mes"))) (cdr args)
(begin (set! %gcc? #f)
(cddr args)))))
(map file-write (filter content? (append-map generate-includes files)))))
;;(define string (with-input-from-file "../mes.c" read-string))