/***********************************************************************/ /* */ /* Objective Caml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the Q Public License version 1.0. */ /* */ /***********************************************************************/ /* Based on public-domain code from Berkeley Yacc */ /* $Id$ */ #include "defs.h" static int nvectors; static int nentries; static short **froms; static short **tos; static short *tally; static short *width; static short *state_count; static short *order; static short *base; static short *pos; static int maxtable; static short *table; static short *check; static int lowzero; static int high; void free_itemsets (void); void free_shifts (void); void free_reductions (void); void output_stored_text (void); void output_transl (void); void output_rule_data (void); void output_yydefred (void); void output_actions (void); void output_debug (void); void output_trailing_text (void); void output_semantic_actions (void); void output_entries (void); void token_actions (void); void goto_actions (void); void sort_actions (void); void pack_table (void); void output_base (void); void output_table (void); void output_check (void); int default_goto (int symbol); void save_column (int symbol, int default_state); int matching_vector (int vector); int pack_vector (int vector); void output(void) { extern char *header[], *define_tables[]; free_itemsets(); free_shifts(); free_reductions(); write_section(header); output_stored_text(); output_transl(); output_rule_data(); output_yydefred(); output_actions(); free_parser(); output_debug(); if (sflag) fprintf(output_file, "let yyact = Array.new %d (fun _ -> (failwith \"parser\" : Obj.t))\n", ntotalrules); else fprintf(output_file, "let yyact = [|\n (fun _ -> failwith \"parser\")\n"); output_semantic_actions(); if (!sflag) fprintf(output_file, "|]\n"); write_section(define_tables); output_entries(); output_trailing_text(); } static void output_char(unsigned int n) { n = n & 0xFF; putc('\\', output_file); putc('0' + n / 100, output_file); putc('0' + (n / 10) % 10, output_file); putc('0' + n % 10, output_file); } static void output_short(int n) { output_char(n); output_char(n >> 8); } void output_rule_data(void) { register int i; register int j; fprintf(output_file, "let yylhs = \""); output_short(symbol_value[start_symbol]); j = 8; for (i = 3; i < nrules; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else ++j; output_short(symbol_value[rlhs[i]]); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); fprintf(output_file, "let yylen = \""); output_short(2); j = 8; for (i = 3; i < nrules; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else j++; output_short(rrhs[i + 1] - rrhs[i] - 1); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); } void output_yydefred(void) { register int i, j; fprintf(output_file, "let yydefred = \""); output_short(defred[0] ? defred[0] - 2 : 0); j = 8; for (i = 1; i < nstates; i++) { if (j < 8) ++j; else { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } output_short(defred[i] ? defred[i] - 2 : 0); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); } void output_actions(void) { nvectors = 2*nstates + nvars; froms = NEW2(nvectors, short *); tos = NEW2(nvectors, short *); tally = NEW2(nvectors, short); width = NEW2(nvectors, short); token_actions(); FREE(lookaheads); FREE(LA); FREE(LAruleno); FREE(accessing_symbol); goto_actions(); FREE(goto_map + ntokens); FREE(from_state); FREE(to_state); sort_actions(); pack_table(); output_base(); output_table(); output_check(); } void token_actions(void) { register int i, j; register int shiftcount, reducecount; register int max, min; register short *actionrow, *r, *s; register action *p; actionrow = NEW2(2*ntokens, short); for (i = 0; i < nstates; ++i) { if (parser[i]) { for (j = 0; j < 2*ntokens; ++j) actionrow[j] = 0; shiftcount = 0; reducecount = 0; for (p = parser[i]; p; p = p->next) { if (p->suppressed == 0) { if (p->action_code == SHIFT) { ++shiftcount; actionrow[p->symbol] = p->number; } else if (p->action_code == REDUCE && p->number != defred[i]) { ++reducecount; actionrow[p->symbol + ntokens] = p->number; } } } tally[i] = shiftcount; tally[nstates+i] = reducecount; width[i] = 0; width[nstates+i] = 0; if (shiftcount > 0) { froms[i] = r = NEW2(shiftcount, short); tos[i] = s = NEW2(shiftcount, short); min = MAXSHORT; max = 0; for (j = 0; j < ntokens; ++j) { if (actionrow[j]) { if (min > symbol_value[j]) min = symbol_value[j]; if (max < symbol_value[j]) max = symbol_value[j]; *r++ = symbol_value[j]; *s++ = actionrow[j]; } } width[i] = max - min + 1; } if (reducecount > 0) { froms[nstates+i] = r = NEW2(reducecount, short); tos[nstates+i] = s = NEW2(reducecount, short); min = MAXSHORT; max = 0; for (j = 0; j < ntokens; ++j) { if (actionrow[ntokens+j]) { if (min > symbol_value[j]) min = symbol_value[j]; if (max < symbol_value[j]) max = symbol_value[j]; *r++ = symbol_value[j]; *s++ = actionrow[ntokens+j] - 2; } } width[nstates+i] = max - min + 1; } } } FREE(actionrow); } void goto_actions(void) { register int i, j, k; state_count = NEW2(nstates, short); k = default_goto(start_symbol + 1); fprintf(output_file, "let yydgoto = \""); output_short(k); save_column(start_symbol + 1, k); j = 8; for (i = start_symbol + 2; i < nsyms; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else ++j; k = default_goto(i); output_short(k); save_column(i, k); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); FREE(state_count); } int default_goto(int symbol) { register int i; register int m; register int n; register int default_state; register int max; m = goto_map[symbol]; n = goto_map[symbol + 1]; if (m == n) return (0); for (i = 0; i < nstates; i++) state_count[i] = 0; for (i = m; i < n; i++) state_count[to_state[i]]++; max = 0; default_state = 0; for (i = 0; i < nstates; i++) { if (state_count[i] > max) { max = state_count[i]; default_state = i; } } return (default_state); } void save_column(int symbol, int default_state) { register int i; register int m; register int n; register short *sp; register short *sp1; register short *sp2; register int count; register int symno; m = goto_map[symbol]; n = goto_map[symbol + 1]; count = 0; for (i = m; i < n; i++) { if (to_state[i] != default_state) ++count; } if (count == 0) return; symno = symbol_value[symbol] + 2*nstates; froms[symno] = sp1 = sp = NEW2(count, short); tos[symno] = sp2 = NEW2(count, short); for (i = m; i < n; i++) { if (to_state[i] != default_state) { *sp1++ = from_state[i]; *sp2++ = to_state[i]; } } tally[symno] = count; width[symno] = sp1[-1] - sp[0] + 1; } void sort_actions(void) { register int i; register int j; register int k; register int t; register int w; order = NEW2(nvectors, short); nentries = 0; for (i = 0; i < nvectors; i++) { if (tally[i] > 0) { t = tally[i]; w = width[i]; j = nentries - 1; while (j >= 0 && (width[order[j]] < w)) j--; while (j >= 0 && (width[order[j]] == w) && (tally[order[j]] < t)) j--; for (k = nentries - 1; k > j; k--) order[k + 1] = order[k]; order[j + 1] = i; nentries++; } } } void pack_table(void) { register int i; register int place; register int state; base = NEW2(nvectors, short); pos = NEW2(nentries, short); maxtable = 1000; table = NEW2(maxtable, short); check = NEW2(maxtable, short); lowzero = 0; high = 0; for (i = 0; i < maxtable; i++) check[i] = -1; for (i = 0; i < nentries; i++) { state = matching_vector(i); if (state < 0) place = pack_vector(i); else place = base[state]; pos[i] = place; base[order[i]] = place; } for (i = 0; i < nvectors; i++) { if (froms[i]) FREE(froms[i]); if (tos[i]) FREE(tos[i]); } FREE(froms); FREE(tos); FREE(pos); } /* The function matching_vector determines if the vector specified by */ /* the input parameter matches a previously considered vector. The */ /* test at the start of the function checks if the vector represents */ /* a row of shifts over terminal symbols or a row of reductions, or a */ /* column of shifts over a nonterminal symbol. Berkeley Yacc does not */ /* check if a column of shifts over a nonterminal symbols matches a */ /* previously considered vector. Because of the nature of LR parsing */ /* tables, no two columns can match. Therefore, the only possible */ /* match would be between a row and a column. Such matches are */ /* unlikely. Therefore, to save time, no attempt is made to see if a */ /* column matches a previously considered vector. */ /* */ /* Matching_vector is poorly designed. The test could easily be made */ /* faster. Also, it depends on the vectors being in a specific */ /* order. */ int matching_vector(int vector) { register int i; register int j; register int k; register int t; register int w; register int match; register int prev; i = order[vector]; if (i >= 2*nstates) return (-1); t = tally[i]; w = width[i]; for (prev = vector - 1; prev >= 0; prev--) { j = order[prev]; if (width[j] != w || tally[j] != t) return (-1); match = 1; for (k = 0; match && k < t; k++) { if (tos[j][k] != tos[i][k] || froms[j][k] != froms[i][k]) match = 0; } if (match) return (j); } return (-1); } int pack_vector(int vector) { register int i, j, k, l; register int t; register int loc; register int ok; register short *from; register short *to; int newmax; i = order[vector]; t = tally[i]; assert(t); from = froms[i]; to = tos[i]; j = lowzero - from[0]; for (k = 1; k < t; ++k) if (lowzero - from[k] > j) j = lowzero - from[k]; for (;; ++j) { if (j == 0) continue; ok = 1; for (k = 0; ok && k < t; k++) { loc = j + from[k]; if (loc >= maxtable) { if (loc >= MAXTABLE) fatal("maximum table size exceeded"); newmax = maxtable; do { newmax += 200; } while (newmax <= loc); table = (short *) REALLOC(table, newmax*sizeof(short)); if (table == 0) no_space(); check = (short *) REALLOC(check, newmax*sizeof(short)); if (check == 0) no_space(); for (l = maxtable; l < newmax; ++l) { table[l] = 0; check[l] = -1; } maxtable = newmax; } if (check[loc] != -1) ok = 0; } for (k = 0; ok && k < vector; k++) { if (pos[k] == j) ok = 0; } if (ok) { for (k = 0; k < t; k++) { loc = j + from[k]; table[loc] = to[k]; check[loc] = from[k]; if (loc > high) high = loc; } while (lowzero < maxtable && check[lowzero] != -1) ++lowzero; return (j); } } } void output_base(void) { register int i, j; fprintf(output_file, "let yysindex = \""); output_short(base[0]); j = 8; for (i = 1; i < nstates; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else ++j; output_short(base[i]); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); fprintf(output_file, "let yyrindex = \""); output_short(base[nstates]); j = 8; for (i = nstates + 1; i < 2*nstates; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else ++j; output_short(base[i]); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); fprintf(output_file, "let yygindex = \""); output_short(base[2*nstates]); j = 8; for (i = 2*nstates + 1; i < nvectors - 1; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else ++j; output_short(base[i]); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); FREE(base); } void output_table(void) { register int i; register int j; ++outline; fprintf(code_file, "let yytablesize = %d\n", high); fprintf(output_file, "let yytable = \""); output_short(table[0]); j = 8; for (i = 1; i <= high; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else ++j; output_short(table[i]); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); FREE(table); } void output_check(void) { register int i; register int j; fprintf(output_file, "let yycheck = \""); output_short(check[0]); j = 8; for (i = 1; i <= high; i++) { if (j >= 8) { if (!rflag) ++outline; fprintf(output_file, "\\\n"); j = 1; } else ++j; output_short(check[i]); } if (!rflag) outline += 2; fprintf(output_file, "\"\n\n"); FREE(check); } void output_transl(void) { int i; fprintf(code_file, "let yytransl_const = [|\n"); for (i = 0; i < ntokens; i++) { if (symbol_true_token[i] && symbol_tag[i] == NULL) { fprintf(code_file, " %3d (* %s *);\n", symbol_value[i], symbol_name[i]); } } fprintf(code_file, " 0|]\n\n"); fprintf(code_file, "let yytransl_block = [|\n"); for (i = 0; i < ntokens; i++) { if (symbol_true_token[i] && symbol_tag[i] != NULL) { fprintf(code_file, " %3d (* %s *);\n", symbol_value[i], symbol_name[i]); } } fprintf(code_file, " 0|]\n\n"); } void output_stored_text(void) { register int c; register FILE *in, *out; fclose(text_file); text_file = fopen(text_file_name, "r"); if (text_file == NULL) open_error(text_file_name); in = text_file; if ((c = getc(in)) == EOF) return; out = code_file; if (c == '\n') ++outline; putc(c, out); while ((c = getc(in)) != EOF) { if (c == '\n') ++outline; putc(c, out); } if (!lflag) fprintf(out, line_format, ++outline + 1, code_file_name); } void output_debug(void) { } void output_trailing_text(void) { register int c, last; register FILE *in, *out; if (line == 0) return; in = input_file; out = code_file; c = *cptr; if (c == '\n') { ++lineno; if ((c = getc(in)) == EOF) return; if (!lflag) { ++outline; fprintf(out, line_format, lineno, input_file_name); } if (c == '\n') ++outline; putc(c, out); last = c; } else { if (!lflag) { ++outline; fprintf(out, line_format, lineno, input_file_name); } do { putc(c, out); } while ((c = *++cptr) != '\n'); ++outline; putc('\n', out); last = '\n'; } while ((c = getc(in)) != EOF) { if (c == '\n') ++outline; putc(c, out); last = c; } if (last != '\n') { ++outline; putc('\n', out); } if (!lflag) fprintf(out, line_format, ++outline + 1, code_file_name); } void copy_file(FILE **file, char *file_name) { register int c, last; register FILE *out; fclose(*file); *file = fopen(file_name, "r"); if (*file == NULL) open_error(file_name); if ((c = getc(*file)) == EOF) return; out = code_file; last = c; if (c == '\n') ++outline; putc(c, out); while ((c = getc(*file)) != EOF) { if (c == '\n') ++outline; putc(c, out); last = c; } if (last != '\n') { ++outline; putc('\n', out); } } void output_semantic_actions(void) { copy_file (&action_file, action_file_name); } void output_entries(void) { copy_file (&entry_file, entry_file_name); } void free_itemsets(void) { register core *cp, *next; FREE(state_table); for (cp = first_state; cp; cp = next) { next = cp->next; FREE(cp); } } void free_shifts(void) { register shifts *sp, *next; FREE(shift_table); for (sp = first_shift; sp; sp = next) { next = sp->next; FREE(sp); } } void free_reductions(void) { register reductions *rp, *next; FREE(reduction_table); for (rp = first_reduction; rp; rp = next) { next = rp->next; FREE(rp); } }