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Add lint-style FALLTHROUGH annotations to fallthrough cases. (in the parse engine and thus the output code) Document this, because the old output causes warnings with gcc10.
author David A. Holland
date Mon, 13 Jun 2022 00:04:38 -0400
parents 13d2b8934445
children
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/*
 * AnaGram, A System for Syntax Directed Programming
 * Copyright 1993-1999 Parsifal Software. All Rights Reserved.
 * See the file COPYING for license and usage terms.
 *
 * cra.cpp - Chain Reduction Analysis
 */

#include <string.h>
#include "port.h"

#include "arrays.h"
#include "assert.h"
#include "cra.h"
#include "data.h"
#include "q1glbl.h"
#include "q5.h"
#include "rule.h"
#include "token.h"
#include "tsd.h"

//#define INCLUDE_LOGGING
#include "log.h"


static int *complete_form;


static int crax(Token completingToken, Rule rule) {
  LOGSECTION("crax");
  LOGV(completingToken) LCV(rule);
  RuleDescriptor &ruleDescriptor(rule);

/*
  if (rule.isNotNull() && rule->proc_name == 0
      && rule->not_unique_reduction == 0) {
    if (rule->length() == 1) {
      Token primaryToken = rule->prim_tkn;
*/
  if (rule.isNotNull() && ruleDescriptor.proc_name == 0
      && ruleDescriptor.not_unique_reduction == 0) {
    if (ruleDescriptor.length() == 1) {
      Token primaryToken = ruleDescriptor.prim_tkn;
      if (!primaryToken->subgrammar) {
        if (tut[primaryToken]) {
          at(lgt, (int)completingToken, complete_form[primaryToken]);
          LOGS("appendTuple to lgt") LV(completingToken)
	    LCV(complete_form[primaryToken]);
          return 1;
        }
        LOGV(primaryToken) LCV(complete_form[primaryToken]);
        if (complete_form[primaryToken] != -1) {
	  return crax(completingToken, complete_form[primaryToken]);
	}
      }
    }
  }
  at(lcftp, (int) completingToken, (int) rule);
  return 0;
}

void cra(void) {
  LOGSECTION("cra");
  int *p, *q;
  int i, k, n;
  int s, t, f;
  state_number_map *msn;

  if (lcft->nt == 0) {
    return;
  }
  msn = &map_state_number[kits];
  LOGV(kits);
  k = 0;
  //complete_form = token_list;
  complete_form = local_array(ntkns+1, int);
  memset(complete_form, -1, sizeof(*complete_form)*(ntkns+1));
  memset(tut, 0, sizeof(*tut) * (ntkns+1));
  q = lcft->sb;
  n = lcft->nt;
  for (i = 0; i< n; i++) {
    t = *q++;
    f = *q++;
    LOGV(t) LCV(f) LCV(tut[t]);
    assert(complete_form[t] == -1);
    complete_form[t] = f;
  }
  q = lgt->sb;
  n = lgt->nt;
  for (i = 0; i < n; i++) {
    t = *q++;
    s = *q++;
    tut[t] = 1;
    LOGV(t) LCV(s) LCV(tut[t]);
    assert(complete_form[t] == -1);
    complete_form[t] = s;
  }
  p = lcft->sb;
  n = lcft->nt;
  reset_tsd(lcftp);
  for (i = 0; i < n; i++) {
    t = *p++;
    f = *p++;
    k += crax(t, f);
  }
  if (lcftp->nt) {
    chain_completions_list = (unsigned *)
      size_prop(chain_completions_list, lcftp->nt);
    msn->chain_completions_index = store_tuples(lcftp, chain_completions_list);
    msn->n_chain_completions = lcftp->nt;
  }
  if (k) {
    chain_gotos_list = (unsigned *) size_prop(chain_gotos_list, lgt->nt);
    msn->chain_gotos_index = store_tuples(lgt, chain_gotos_list);
    msn->n_chain_gotos = lgt->nt;
    //check_counter_overflow(msn->n_chain_gotos == lgt->nt, "Chain gotos");
  }
  LOGV(lcft->nt) LCV(lcftp->nt) LCV(msn->n_gotos) LCV(msn->n_chain_gotos);
  assert(lcftp->nt + k == lcft->nt);
}