/* -*-comment-start: "//";comment-end:""-*- * Mes --- Maxwell Equations of Software * Copyright © 2016,2017,2018 Jan (janneke) 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 . */ #include SCM read_input_file_env_ (SCM e, SCM a) { if (e == cell_nil) return e; return cons (e, read_input_file_env_ (read_env (a), a)); } SCM read_input_file_env (SCM a) { r0 = a; #if 0 if (assq_ref_env (cell_symbol_read_input_file, r0) != cell_undefined) return apply (cell_symbol_read_input_file, cell_nil, r0); #endif return read_input_file_env_ (read_env (r0), r0); } int reader_read_line_comment (int c) { if (c == '\n') return c; return reader_read_line_comment (getchar ()); } SCM reader_read_block_comment (int s, int c); SCM read_hash (int c, SCM w, SCM a); SCM reader_read_list (int c, SCM a); SCM reader_read_sexp_ (int c, SCM s, SCM a) { switch (c) { case ' ': return reader_read_sexp_ ('\n', s, a); case '\f': return reader_read_sexp_ ('\n', s, a); case '\t': return reader_read_sexp_ ('\n', s, a); case ';': reader_read_line_comment (c); return reader_read_sexp_ ('\n', s, a); case '#': return read_hash (getchar (), s, a); case '`': return cons (cell_symbol_quasiquote, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); case ',': if (peekchar () == '@') { getchar (); return cons (cell_symbol_unquote_splicing, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); } return cons (cell_symbol_unquote, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); default: if (s == cell_nil) switch (c) { case EOF: return cell_nil; case '\n': return reader_read_sexp_ (getchar (), s, a); case '(': return reader_read_list (getchar (), a); case ')': ungetchar (c); return cell_nil; case '\'': return cons (cell_symbol_quote, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); case '"': return reader_read_string (); } else switch (c) { case EOF: return reader_lookup_ (s, a); case '\n': if (CAR (s) == cell_dot && CDR (s) == cell_nil) return cell_dot; else return reader_lookup_ (s, a); case '(': ungetchar (c); return reader_lookup_ (s, a); case ')': ungetchar (c); return reader_lookup_ (s, a); case '"': ungetchar (c); return reader_lookup_ (s, a); } } return reader_read_sexp_ (getchar (), append2 (s, cons (MAKE_CHAR (c), cell_nil)), a); } int eat_whitespace (int c) { while (c == ' ' || c == '\t' || c == '\n' || c == '\f') c = getchar (); if (c == ';') return eat_whitespace (reader_read_line_comment (c)); if (c == '#' && (peekchar () == '!' || peekchar () == '|')) {c=getchar (); reader_read_block_comment (c, getchar ()); return eat_whitespace (getchar ());} return c; } SCM reader_read_list (int c, SCM a) { c = eat_whitespace (c); if (c == ')') return cell_nil; SCM s = reader_read_sexp_ (c, cell_nil, a); if (s == cell_dot) return car (reader_read_list (getchar (), a)); return cons (s, reader_read_list (getchar (), a)); } SCM read_env (SCM a) { return reader_read_sexp_ (getchar (), cell_nil, a); } SCM reader_lookup_ (SCM s, SCM a) { if (isdigit (VALUE (car (s))) || (VALUE (car (s)) == '-' && cdr (s) != cell_nil)) { SCM p = s; int sign = 1; if (VALUE (car (s)) == '-') { sign = -1; p = cdr (s); } int n = 0; while (p != cell_nil && isdigit (VALUE (car (p)))) { n *= 10; n += VALUE (car (p)) - '0'; p = cdr (p); } if (p == cell_nil) return MAKE_NUMBER (n * sign); } return lookup_symbol_ (s); } SCM reader_read_block_comment (int s, int c) { if (c == s && peekchar () == '#') return getchar (); return reader_read_block_comment (s, getchar ()); } SCM read_hash (int c, SCM s, SCM a) { switch (c) { case '!': reader_read_block_comment (c, getchar ()); return reader_read_sexp_ (getchar (), s, a); case '|': reader_read_block_comment (c, getchar ()); return reader_read_sexp_ (getchar (), s, a); case 'f': return cell_f; case 't': return cell_t; case ',': if (peekchar () == '@') { getchar (); return cons (cell_symbol_unsyntax_splicing, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); } return cons (cell_symbol_unsyntax, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); case '\'': return cons (cell_symbol_syntax, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); case '`': return cons (cell_symbol_quasisyntax, cons (reader_read_sexp_ (getchar (), s, a), cell_nil)); case ':': return MAKE_KEYWORD (CAR (reader_read_sexp_ (getchar (), cell_nil, a))); case 'o': return reader_read_octal (); case 'x': return reader_read_hex (); case '\\': return reader_read_character (); case '(': return list_to_vector (reader_read_list (getchar (), a)); case ';': reader_read_sexp_ (getchar (), s, a); return reader_read_sexp_ (getchar (), s, a); } return reader_read_sexp_ (getchar (), append2 (s, cons (MAKE_CHAR (c), cell_nil)), a); } SCM reader_read_sexp (SCM c, SCM s, SCM a) { return reader_read_sexp_ (VALUE (c), s, a); } SCM reader_read_character () { int c = getchar (); if (c >= '0' && c <= '7' && peekchar () >= '0' && peekchar () <= '7') { c = c - '0'; while (peekchar () >= '0' && peekchar () <= '7') { c <<= 3; c += getchar () - '0'; } } else if (((c >= 'a' && c <= 'z') || c == '*') && ((peekchar () >= 'a' && peekchar () <= 'z') || peekchar () == '*')) { char buf[10]; char *p = buf; *p++ = c; while ((peekchar () >= 'a' && peekchar () <= 'z') || peekchar () == '*') { *p++ = getchar (); } *p = 0; if (!strcmp (buf, "*eof*")) c = EOF; else if (!strcmp (buf, "nul")) c = '\0'; else if (!strcmp (buf, "alarm")) c = '\a'; else if (!strcmp (buf, "backspace")) c = '\b'; else if (!strcmp (buf, "tab")) c = '\t'; else if (!strcmp (buf, "linefeed")) c = '\n'; else if (!strcmp (buf, "newline")) c = '\n'; else if (!strcmp (buf, "vtab")) c = '\v'; else if (!strcmp (buf, "page")) c = '\f'; #if __MESC__ //Nyacc bug else if (!strcmp (buf, "return")) c = 13; else if (!strcmp (buf, "esc")) c = 27; #else else if (!strcmp (buf, "return")) c = '\r'; //Nyacc crash else if (!strcmp (buf, "esc")) c = '\e'; #endif else if (!strcmp (buf, "space")) c = ' '; #if 1 // Nyacc uses old abbrevs else if (!strcmp (buf, "bel")) c = '\a'; else if (!strcmp (buf, "bs")) c = '\b'; else if (!strcmp (buf, "ht")) c = '\t'; else if (!strcmp (buf, "vt")) c = '\v'; #if __MESC__ //Nyacc bug else if (!strcmp (buf, "cr")) c = 13; #else else if (!strcmp (buf, "cr")) c = '\r'; #endif #endif // Nyacc uses old abbrevs else { eputs ("char not supported: "); eputs (buf); eputs ("\n"); #if !__MESC__ assert (!"char not supported"); #endif } } return MAKE_CHAR (c); } SCM reader_read_octal () { int n = 0; int c = peekchar (); int s = 1; if (c == '-') {s = -1;getchar (); c = peekchar ();} while (c >= '0' && c <= '7') { n <<= 3; n+= c - '0'; getchar (); c = peekchar (); } return MAKE_NUMBER (s*n); } SCM reader_read_hex () { int n = 0; int c = peekchar (); int s = 1; if (c == '-') {s = -1;getchar (); c = peekchar ();} while ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f')) { n <<= 4; if (c >= 'a') n += c - 'a' + 10; else if (c >= 'A') n += c - 'A' + 10; else n+= c - '0'; getchar (); c = peekchar (); } return MAKE_NUMBER (s*n); } SCM append_char (SCM x, int i) { return append2 (x, cons (MAKE_CHAR (i), cell_nil)); } SCM reader_read_string () { SCM p = cell_nil; int c = getchar (); while (1) { if (c == '"') break; if (c == '\\' && peekchar () == '\\') p = append_char (p, getchar ()); else if (c == '\\' && peekchar () == '"') p = append_char (p, getchar ()); else if (c == '\\' && peekchar () == 'n') {getchar (); p = append_char (p, '\n');} else if (c == '\\' && peekchar () == 't') {getchar (); p = append_char (p, '\t');} #if !__MESC__ else if (c == EOF) assert (!"EOF in string"); #endif else p = append_char (p, c); c = getchar (); } return MAKE_STRING (p); } int g_tiny = 0; int dump () { r1 = g_symbols; gc_push_frame (); gc (); gc_peek_frame (); char *p = (char*)g_cells; putchar ('M'); putchar ('E'); putchar ('S'); putchar (g_stack >> 8); putchar (g_stack % 256); eputs ("dumping\n"); if (g_debug > 1) { eputs ("program r2="); display_error_ (r2); eputs ("\n"); } for (int i=0; i