예제 #1
0
파일: ident.cpp 프로젝트: SRI-CSL/PVS
int 
varcmp_offsets(const void *i1, const void *i2)
{
  if (offsets.off(*((Ident *) i1)) < offsets.off(*((Ident *) i2)))
    return -1;
  else if (offsets.off(*((Ident *) i1)) > offsets.off(*((Ident *) i2)))
    return 1;
  else
    return 0;
}
예제 #2
0
파일: signature.cpp 프로젝트: Lanozavr/pvs
void
Signature::make(IdentList &idents)
{
  size = idents.size();
  int *tab1 = new int[size];
  int *tab2 = new int[size];
  IdentList::iterator i;
  unsigned int x,y,s;
  
  for (i = idents.begin(), x = 0; 
       i != idents.end(); i++, x++)
    tab1[x] = tab2[x] = offsets.off(*i);
  
  qsort((int *) tab2, size, sizeof(int), sortcmp);
  
  sign = new int[size];
  hashvalue = 0;

  for (x = 0; x < size; x++) {
    for (y = 0, s = 0; tab2[y] != tab1[x]; y++)
      if (y < size && tab2[y] != tab2[y+1])
	s++;
    sign[x] = s;
    hashvalue = hashvalue*x+sign[x];
  }

  delete[] tab1;
  delete[] tab2;
}
예제 #3
0
파일: st_dfa.cpp 프로젝트: JPLaska/nlp-tree
void 
st_dfa_replace_indices(DFA *a, IdentList *newvars, IdentList *oldvars,
		       bool offnew, bool offold)
{
  if (newvars && oldvars && newvars != oldvars) {
    invariant(newvars->size() == oldvars->size());
  
    int *indexmap = new int[offsets.maxOffset()];
    
    IdentList::iterator i, j;
    bool dif = false;

    for(i = newvars->begin(), j = oldvars->begin();
	j != oldvars->end(); i++, j++) {
      int theold = offold ? offsets.off(*j) : *j;
      int thenew = offnew ? offsets.off(*i) : *i;
      indexmap[theold] = thenew;
      if (theold != thenew)
	dif = true;
    }

    if (dif) {
      Timer temp;

      if (options.time) {
	timer_replace_indices.start();
	if (options.statistics)
	  temp.start();
      }

      if (options.statistics)
	cout << "Replacing indices\n";

      dfaReplaceIndices(a, indexmap);
      num_replaces++;

      if (options.time) {
	timer_replace_indices.stop();
	if (options.statistics) {
	  temp.stop();
	  cout << "  Time: ";
	  temp.print();
	}
      }
    }    

    delete[] indexmap;

    if (options.intermediate)
      dfaPrintVerbose(a);
  }

  /*#warning  update_largest(a);*/
}
예제 #4
0
파일: st_gta.cpp 프로젝트: SRI-CSL/PVS
void
st_gta_replace_indices(GTA *g, IdentList *newvars, IdentList *oldvars,
		       bool offnew, bool offold)
{
  if (newvars && oldvars && newvars != oldvars) {
    invariant(newvars->size() == oldvars->size());
  
    unsigned *indexmap = new unsigned[offsets.maxOffset()];
    
    IdentList::iterator i, j;
    bool dif = false;

    for(i = newvars->begin(), j = oldvars->begin();
        j != oldvars->end(); i++, j++) {
      int theold = offold ? offsets.off(*j) : *j;
      int thenew = offnew ? offsets.off(*i) : *i;
      indexmap[theold] = thenew;
      if (theold != thenew)
	dif = true;
    }

    if (dif) {
      Timer temp;

      if (options.time) {
	timer_replace_indices.start();
	if (options.statistics)
	  temp.start();
      }

      if (options.statistics) 
        cout << "Replacing indices\n";

      gtaReplaceIndices(g, indexmap);
      num_replaces++;

      if (options.time) {
	timer_replace_indices.stop();
	if (options.statistics) {
	  temp.stop();
	  cout << "  Time: ";
	  temp.print();
	}
      }
    }    

    delete[] indexmap;
  }

  update_largest(g);
}
예제 #5
0
파일: st_dfa.cpp 프로젝트: JPLaska/nlp-tree
DFA*
st_dfa_allpos(DFA *dfa, Ident i)
{
  DFA *t1, *t2;

  t1 = st_dfa_minimization(st_dfa_product(dfa, 
					  dfaAllPos(offsets.off(i)),
					  dfaAND,
					  dummyPos));
  t2 = st_dfa_minimization(st_dfa_project(t1, 
					  i,
					  dummyPos, false));
  /*#warning  update_largest(t2);*/
  return t2;
}
예제 #6
0
파일: st_gta.cpp 프로젝트: SRI-CSL/PVS
GTA *
st_gta_allpos(GTA *gta, Ident i)
{
  GTA *t1, *t2;
  IdentList *u = symbolTable.allRealUnivs();
  SSSet set = stateSpaces(u);
  delete u;
  t1 = st_gta_minimization(st_gta_product(gta,
					  gtaAllPos(offsets.off(i), set),
					  gtaAND,
					  dummyPos));
  t2 = st_gta_minimization(st_gta_project(t1,
					  i,
					  dummyPos, false));
  update_largest(t2);
  return t2;
}
예제 #7
0
파일: st_gta.cpp 프로젝트: SRI-CSL/PVS
GTA * 
st_gta_project(GTA *g, Ident i, Pos &p, bool quotient) 
{
  Timer temp;

  if (options.time) {
    timer_project.start();
    if (options.statistics)
      temp.start();
  }
  
  if (options.statistics) {
    cout << "Right-quotient\n" << "Projecting #" << i;
    p.printsource();
    cout << "\n  ";
    print_stat(g);
    cout << " -> ";
    cout.flush();
  }
  
  codeTable->begin();
  GTA *result = gtaQuotientAndProject(g, offsets.off(i), quotient);
  codeTable->done();
  
  num_projections++;
  num_right_quotients++;

  if (options.statistics) {
    print_stat(result);
    cout << "\n";
  }
  
  if (options.time) {
    timer_project.stop();
    if (options.statistics) {
      temp.stop();
      cout << "  Time: ";
      temp.print();
    }
  }

  gtaFree(g);

  update_largest(result);
  return result;
}
예제 #8
0
파일: mona.cpp 프로젝트: ondrik/mona-vata
int 
main(int argc, char *argv[])
{
  std::set_new_handler(&mem_error);

  if (!ParseArguments(argc, argv)) {
    Usage();
    exit(-1);
  }

  // Disable core dump
  struct rlimit r_core;
  r_core.rlim_cur = 0;
  r_core.rlim_max = 0;
  setrlimit(RLIMIT_CORE, &r_core);

  // Set demo limits 
  if (options.demo) {
    struct rlimit r_cpu, r_as;
    memlimit = true;

    r_cpu.rlim_cur = 30; // max 30 secs.
    r_cpu.rlim_max = 30;
    setrlimit(RLIMIT_CPU, &r_cpu);

    r_as.rlim_cur = 20971520; // max 20MB
    r_as.rlim_max = 20971520;
    setrlimit(RLIMIT_DATA, &r_as);

    signal(SIGXCPU, &cpuLimit);
  }

  initTimer();
  Timer timer_total;
  timer_total.start();
  
  ///////// PARSING ////////////////////////////////////////////////////////

  if (options.printProgress)
    cout << "MONA v" << VERSION << "-" << RELEASE <<  " for WS1S/WS2S\n"
      "Copyright (C) 1997-2008 BRICS\n\n"
      "PARSING\n";

  Timer timer_parsing;
  timer_parsing.start();

  loadFile(inputFileName);
  yyparse();
  MonaAST *ast = untypedAST->typeCheck();
  lastPosVar = ast->lastPosVar;
  allPosVar = ast->allPosVar;

  timer_parsing.stop();

  if (options.printProgress) {
    cout << "Time: ";
    timer_parsing.print();
  }

  delete untypedAST;

  if (options.dump) {
    // Dump AST for main formula, verify formulas, and assertion
    cout << "Main formula:\n";
    (ast->formula)->dump();
    Deque<ASTForm *>::iterator vf;
    Deque<char *>::iterator vt;
    for (vf = ast->verifyformlist.begin(), vt = ast->verifytitlelist.begin();
	 vf != ast->verifyformlist.end(); vf++, vt++) {
      cout << "\n\nFormula " << *vt << ":\n";
      (*vf)->dump();
    }
    cout << "\n\nAssertions:\n";
    (ast->assertion)->dump();
    cout << "\n";

    if (lastPosVar != -1)
      cout << "\nLastPos variable: " 
	   << symbolTable.lookupSymbol(lastPosVar) << "\n";
    if (allPosVar != -1)
      cout << "\nAllPos variable: " 
	   << symbolTable.lookupSymbol(allPosVar) << "\n";
    
    // Dump ASTs for predicates and macros
    PredLibEntry *pred = predicateLib.first();
    while (pred != NULL) {
      if (pred->isMacro)
	cout << "\nMacro '";
      else
	cout << "\nPredicate '";
      cout << symbolTable.lookupSymbol(pred->name) 
	   << "':\n";
      (pred->ast)->dump();
      cout << "\n";
      pred = predicateLib.next();
    }

    // Dump restrictions
    if (symbolTable.defaultRestriction1) {
      cout << "\nDefault first-order restriction (" 
	   << symbolTable.lookupSymbol(symbolTable.defaultIdent1) << "):\n";
      symbolTable.defaultRestriction1->dump();
      cout << "\n";
    }
    if (symbolTable.defaultRestriction2) {
      cout << "\nDefault second-order restriction (" 
	   << symbolTable.lookupSymbol(symbolTable.defaultIdent2) << "):\n";
      symbolTable.defaultRestriction2->dump();
      cout << "\n";
    }

    Ident id;
    for (id = 0; id < (Ident) symbolTable.noIdents; id++) {
      Ident t;
      ASTForm *f = symbolTable.getRestriction(id, &t);
      if (f) {
	cout << "\nRestriction for #" << id << " (" 
	     << symbolTable.lookupSymbol(id) << "):";
	if (t != -1)
	  cout << " default\n";
	else {
	  cout << "\n";
	  f->dump();
	  cout << "\n";
	}
      }
    }
  }

  if (options.mode != TREE && 
      (options.graphvizSatisfyingEx || options.graphvizCounterEx ||
       options.inheritedAcceptance)) 
    cout << "Warning: options -gc, -gs, and -h are only used in tree mode\n";
  if (options.mode == TREE && options.graphvizDFA)
    cout << "Warning: option -gw is only used in linear mode\n";
  
  if (options.mode == TREE && (options.dump || options.whole) && 
      !options.externalWhole)
    printGuide();


  ///////// CODE GENERATION ////////////////////////////////////////////////
  
  if (options.printProgress)
    cout << "\nCODE GENERATION\n";
  Timer timer_gencode;
  timer_gencode.start();
  
  // Generate code
  codeTable = new CodeTable;
  VarCode formulaCode = ast->formula->makeCode();
  VarCode assertionCode = ast->assertion->makeCode();
  Deque<VarCode> verifyCode;
  /* #warning NEW: 'VERIFY' */
  for (Deque<ASTForm *>::iterator i = ast->verifyformlist.begin(); 
       i != ast->verifyformlist.end(); i++)
    verifyCode.push_back((*i)->makeCode());

  // Implicitly assert restrictions for all global variables
  for (IdentList::iterator i = ast->globals.begin(); 
       i != ast->globals.end(); i++)
    assertionCode = andList(assertionCode, getRestriction(*i, NULL));

  // Restrict assertion if not trivial
  if (assertionCode.code->kind != cTrue)
    assertionCode = codeTable->insert
      (new Code_Restrict(assertionCode, assertionCode.code->pos));

  // Add assertion to main formula and to all verify formulas
  for (Deque<VarCode>::iterator i = verifyCode.begin(); 
       i != verifyCode.end(); i++) {
    assertionCode.code->refs++;
    *i = andList(*i, VarCode(copy(assertionCode.vars), assertionCode.code));
  }
  formulaCode = andList(formulaCode, assertionCode);

  timer_gencode.stop();
  if (options.printProgress) {
    codeTable->print_statistics();
    /* if (options.dump && options.statistics)
      codeTable->print_sizes(); */
    cout << "Time: ";
    timer_gencode.print();
  }
  
  ///////// REORDER BDD OFFSETS ////////////////////////////////////////////

  if (options.reorder >= 1) {
    Timer timer_reorder;
    timer_reorder.start();
    if (options.printProgress)
      cout << "\nREORDERING\n";

    // reorder using heuristics
    offsets.reorder();
    
    // regenerate DAG in new codetable
    CodeTable *oldCodeTable = codeTable, *newCodeTable = new CodeTable;
    IdentList emptylist;
    codeTable = newCodeTable;
    regenerate = true; // force making new nodes
    VarCode newcode = formulaCode.substCopy(&emptylist, &emptylist);
    Deque<VarCode> newverifycode;
    for (Deque<VarCode>::iterator i = verifyCode.begin(); 
	 i != verifyCode.end(); i++)
      newverifycode.push_back((*i).substCopy(&emptylist, &emptylist));
    codeTable->clearSCTable();
    regenerate = false;
    codeTable = oldCodeTable;
    formulaCode.remove();
    for (Deque<VarCode>::iterator i = verifyCode.begin(); 
	 i != verifyCode.end(); i++)
      (*i).remove();
    formulaCode = newcode;
    verifyCode.reset();
    for (Deque<VarCode>::iterator i = newverifycode.begin(); 
	 i != newverifycode.end(); i++)
      verifyCode.push_back(*i);
    delete oldCodeTable;
    codeTable = newCodeTable;

    if (options.printProgress) {
      codeTable->print_statistics2();
      cout << "Time: ";
      timer_reorder.print();
    }
  }

  ///////// REDUCTION AND CODE DUMPING /////////////////////////////////////

  if (options.optimize >= 1) {
    if (options.printProgress)
      cout << "\nREDUCTION\n";
    Timer timer_reduction;
    timer_reduction.start();
    
    // Reduce
    formulaCode.reduceAll(&verifyCode);

    timer_reduction.stop();
    if (options.printProgress) {
      codeTable->print_reduction_statistics();
      /* if (options.dump && options.statistics)
	 codeTable->print_sizes(); */
      cout << "Time: ";
      timer_reduction.print();
    }
  }
  
  if (options.dump) {
    // Dump symboltable
    symbolTable.dump();
    
    // Dump code
    cout << "\nMain formula:\n";
    formulaCode.dump();
    cout << "\n\n";
    Deque<VarCode>::iterator i;
    Deque<char *>::iterator j;
    for (i = verifyCode.begin(), j = ast->verifytitlelist.begin(); 
	 i != verifyCode.end(); i++, j++) {
      cout << "Formula " << *j << ":\n";
      (*i).dump();
      cout << "\n\n";
    }
  }
  
  if (options.graphvizDAG) {
    printf("digraph MONA_CODE_DAG {\n"
	   " size = \"7.5,10.5\";\n"
	   " main [shape = plaintext];\n"
	   " main -> L%lx;\n", 
	   (unsigned long) formulaCode.code);
    formulaCode.code->viz();
    Deque<VarCode>::iterator i;
    Deque<char *>::iterator j;
    for (i = verifyCode.begin(), j = ast->verifytitlelist.begin(); 
	 i != verifyCode.end(); i++, j++) {
      printf(" \"%s\" [shape = plaintext];\n"
	     " \"%s\" -> L%lx;\n", 
	     *j, *j, (unsigned long) (*i).code);
      (*i).code->viz();
    }
    formulaCode.unmark();
    for (Deque<VarCode>::iterator i = verifyCode.begin(); 
	 i != verifyCode.end(); i++)
      (*i).unmark();
    cout << "}\n";
  }

  ///////// AUTOMATON CONSTRUCTION /////////////////////////////////////////

  // Make variable lists
  Deque<char *> *verifytitlelist = ast->verifytitlelist.copy();
  if (lastPosVar != -1)
    ast->globals.remove(lastPosVar); 
  if (allPosVar != -1)
    ast->globals.remove(allPosVar); 
  ast->globals.sort(); // sort by id (= index)
  int numVars = ast->globals.size();
  int ix = 0;
  char **vnames = new char*[numVars];
  unsigned *offs = new unsigned[numVars];
  char *types = new char[numVars];
  int **univs = new int*[numVars];
  int *trees = new int[numVars];
  SSSet *statespaces = new SSSet[numVars];
  IdentList sign, freeVars;
  IdentList::iterator id;
  for (id = ast->globals.begin(); id != ast->globals.end(); id++, ix++) {
    statespaces[ix] = stateSpaces(*id);
    vnames[ix] = symbolTable.lookupSymbol(*id);
    offs[ix] = offsets.off(*id);
    sign.push_back(ix);
    freeVars.push_back(*id);
    switch (symbolTable.lookupType(*id)) {
    case VarnameTree:
      trees[ix] = 1;
      break;
    default:
      trees[ix] = 0;
    }
    IdentList *uu = symbolTable.lookupUnivs(*id);
    if (uu) {
      unsigned j;
      univs[ix] = new int[uu->size()+1];
      for (j = 0; j < uu->size(); j++)
	univs[ix][j] = symbolTable.lookupUnivNumber(uu->get(j));
      univs[ix][j] = -1;
    }
    else
      univs[ix] = 0;
    switch (symbolTable.lookupType(*id)) 
      {
      case Varname0: 
	types[ix] = 0;
	break;
      case Varname1: 
	types[ix] = 1;
	break;
      default:
	types[ix] = 2;
	break;
      }
  }
  
  if (options.printProgress)
    cout << "\nAUTOMATON CONSTRUCTION\n";

  Timer timer_automaton;
  timer_automaton.start();
  
  DFA *dfa = 0;
  Deque<DFA *> dfalist;
  GTA *gta = 0;
  Deque<GTA *> gtalist;
  
  // Initialize
  bdd_init();
  codeTable->init_print_progress();

  if (options.mode != TREE) { 
    // Generate DFAs
    dfa = formulaCode.DFATranslate();
    if (lastPosVar != -1)
      dfa = st_dfa_lastpos(dfa, lastPosVar);
    if (allPosVar != -1)
      dfa = st_dfa_allpos(dfa, allPosVar);
    for (Deque<VarCode>::iterator i = verifyCode.begin(); 
	 i != verifyCode.end(); i++) {
      DFA *d = (*i).DFATranslate();
      if (lastPosVar != -1)
	d = st_dfa_lastpos(d, lastPosVar);
      if (allPosVar != -1)
	d = st_dfa_allpos(d, allPosVar);
      dfalist.push_back(d);
    }
  }
  else { 
    // Generate GTAs
    gta = formulaCode.GTATranslate();
    if (allPosVar != -1)
      gta = st_gta_allpos(gta, allPosVar);
    for (Deque<VarCode>::iterator i = verifyCode.begin(); 
	 i != verifyCode.end(); i++) {
      GTA *g = (*i).GTATranslate();
      if (allPosVar != -1)
	g = st_gta_allpos(g, allPosVar);
      gtalist.push_back(g);
    }
  }
  formulaCode.remove();
  for (Deque<VarCode>::iterator i = verifyCode.begin(); 
       i != verifyCode.end(); i++)
    (*i).remove();
  
  timer_automaton.stop();
  if (options.printProgress) {
    if (options.statistics)
      cout << "Total automaton construction time: ";
    else
      cout << "Time: ";
    timer_automaton.print();
  }

  delete ast;
  delete codeTable;

  ///////// PRINT AUTOMATON ////////////////////////////////////////////////

  DFA *dfa2 = dfa;
  GTA *gta2 = gta;
  Deque<DFA *> *dfalist2 = &dfalist;
  Deque<GTA *> *gtalist2 = &gtalist;

  if (options.whole &&
      !options.externalWhole)
    cout << "\n";
  if (options.unrestrict) {
    // Unrestrict automata
    if (options.mode != TREE) {
      DFA *t = dfaCopy(dfa2);
      dfaUnrestrict(t);
      dfa2 = dfaMinimize(t);
      dfaFree(t);
      dfalist2 = new Deque<DFA *>;
      for (Deque<DFA *>::iterator i = dfalist.begin(); i != dfalist.end(); i++) {
	t = dfaCopy(*i);
	dfaUnrestrict(t);
	dfalist2->push_back(dfaMinimize(t));
	dfaFree(t);
      }
    }
    else {
      GTA *t = gtaCopy(gta2);
      gtaUnrestrict(t);
      gta2 = gtaMinimize(t);
      gtaFree(t);
      gtalist2 = new Deque<GTA *>;
      for (Deque<GTA *>::iterator i = gtalist.begin(); i != gtalist.end(); i++) {
	t = gtaCopy(*i);
	gtaUnrestrict(t);
	gtalist2->push_back(gtaMinimize(t));
	gtaFree(t);	
      }
    }
  }

  if (options.whole)
    // Print whole automaton
    if (options.mode != TREE) {
      if (options.externalWhole) {
	if (!dfalist.empty())
	  cout << "Main formula:\n";
	DFA *t = dfaCopy(dfa2);
	st_dfa_replace_indices(t, &sign, &freeVars, false, true);
	dfaExport(t, 0, numVars, vnames, types);
	dfaFree(t);
	Deque<DFA *>::iterator i;
	Deque<char *>::iterator j;
	for (i = dfalist2->begin(), j = verifytitlelist->begin();
	     i != dfalist2->end(); i++, j++) {
	  cout << "\nFormula " << *j << ":\n";
	  t = dfaCopy(*i);
	  st_dfa_replace_indices(t, &sign, &freeVars, false, true);
	  dfaExport(t, 0, numVars, vnames, types);
	  dfaFree(t);
	}
      }
      else if (options.graphvizDFA) {
	dfaPrintGraphviz(dfa2, numVars, offs);
	for (Deque<DFA *>::iterator i = dfalist2->begin(); i != dfalist2->end(); i++)
	  dfaPrintGraphviz(*i, numVars, offs);
      }
      else {
	if (!dfalist.empty())
	  cout << "Main formula:\n";
	dfaPrint(dfa2, numVars, vnames, offs);
	Deque<DFA *>::iterator i;
	Deque<char *>::iterator j;
	for (i = dfalist2->begin(), j = verifytitlelist->begin(); 
	     i != dfalist2->end(); i++, j++) {
	  cout << "\nFormula " << *j << ":\n";
	  dfaPrint(*i, numVars, vnames, offs);
	}
      }
    }
    else {
      if (options.externalWhole) {
	if (!gtalist.empty())
	  cout << "Main formula:\n";
	GTA *t = gtaCopy(gta2);
	st_gta_replace_indices(t, &sign, &freeVars, false, true);
	gtaExport(t, 0, numVars, vnames, types, statespaces, 
		  options.inheritedAcceptance);
	gtaFree(t);
	Deque<GTA *>::iterator i;
	Deque<char *>::iterator j;
	for (i = gtalist2->begin(), j = verifytitlelist->begin();
	     i != gtalist2->end(); i++, j++) {
	  cout << "\nFormula " << *j << ":\n";
	  t = gtaCopy(*i);
	  st_gta_replace_indices(t, &sign, &freeVars, false, true);
	  gtaExport(t, 0, numVars, vnames, types, statespaces, 
		    options.inheritedAcceptance);
	  gtaFree(t);
	}
      }
      else {
	if (!gtalist.empty())
	  cout << "Main formula:\n";
	gtaPrint(gta2, offs, numVars, vnames, 
		 options.inheritedAcceptance);
	Deque<GTA *>::iterator i;
	Deque<char *>::iterator j;
	for (i = gtalist2->begin(), j = verifytitlelist->begin();
	     i != gtalist2->end(); i++, j++) {
	  cout << "\nFormula " << *j << ":\n";
	  gtaPrint(*i, offs, numVars, vnames, 
		   options.inheritedAcceptance);
	}
      }
    }
  else if (options.analysis &&
	   !options.graphvizSatisfyingEx &&
	   !options.graphvizCounterEx &&
	   options.printProgress) {
    // Print summary only
    if (options.mode != TREE) {
      if (!dfalist.empty())
	cout << "Main formula:";
      dfaPrintVitals(dfa2);
      Deque<DFA *>::iterator i;
      Deque<char *>::iterator j;
      for (i = dfalist2->begin(), j = verifytitlelist->begin(); 
	   i != dfalist2->end(); i++, j++) {
	cout << "\nFormula " << *j << ":";
	dfaPrintVitals(*i);
      }
    }
    else {
      if (!gtalist.empty())
	cout << "Main formula:";
      gtaPrintTotalSize(gta2);
      Deque<GTA *>::iterator i;
      Deque<char *>::iterator j;
      for (i = gtalist2->begin(), j = verifytitlelist->begin(); 
	   i != gtalist2->end(); i++, j++) {
	cout << "\nFormula " << *j << ":";
	gtaPrintTotalSize(*i);
      }
    }
  }
  if (dfa2 != dfa) {
    dfaFree(dfa2);
    for (Deque<DFA *>::iterator i = dfalist2->begin(); i != dfalist2->end(); i++) 
      dfaFree(*i);
    delete dfalist2;
  }
  if (gta2 != gta) {
    gtaFree(gta2);
    for (Deque<GTA *>::iterator i = gtalist2->begin(); i != gtalist2->end(); i++) 
      gtaFree(*i);
    delete gtalist2;
  }

  ///////// AUTOMATON ANALYSIS /////////////////////////////////////////////

  if (options.analysis) {
    if (options.printProgress)
      cout << "\nANALYSIS\n";
    
    if (options.mode != TREE) {
      if (!dfalist.empty())
	cout << "Main formula:\n";
      dfaAnalyze(dfa, numVars, vnames, offs, types, 
		 options.treemodeOutput);
      Deque<DFA *>::iterator i;
      Deque<char *>::iterator j;
      for (i = dfalist.begin(), j = verifytitlelist->begin(); 
	   i != dfalist.end(); i++, j++) {
	cout << "\nFormula " << *j << ":\n";
	dfaAnalyze(*i, numVars, vnames, offs, types, 
		   options.treemodeOutput);
      }
    }
    else {
      if (numTypes == 0 || options.treemodeOutput) {
	if (!gtalist.empty())
	  cout << "Main formula:\n";
	gtaAnalyze(gta, numVars, vnames, offs,
		   options.graphvizSatisfyingEx,
		   options.graphvizCounterEx);
	Deque<GTA *>::iterator i;
	Deque<char *>::iterator j;
	for (i = gtalist.begin(), j = verifytitlelist->begin(); 
	     i != gtalist.end(); i++, j++) {
	  cout << "\nFormula " << *j << ":\n";
	  gtaAnalyze(*i, numVars, vnames, offs,
		     options.graphvizSatisfyingEx,
		     options.graphvizCounterEx);
	}
      }
      else {
	if (options.graphvizSatisfyingEx ||
	    options.graphvizCounterEx)
	  cout << "Graphviz output of typed trees not implemented.\n";
	if (!gtalist.empty())
	  cout << "Main formula:\n";
	gtaTypeAnalyze(gta, numVars, vnames, types, offs, univs, trees);
	Deque<GTA *>::iterator i;
	Deque<char *>::iterator j;
	for (i = gtalist.begin(), j = verifytitlelist->begin(); 
	     i != gtalist.end(); i++, j++) {
	  cout << "\nFormula " << *j << ":\n";
	  gtaTypeAnalyze(*i, numVars, vnames, types, offs, univs, trees);
	}
      }
    }
  }

  ///////// CLEAN UP ///////////////////////////////////////////////////////

  if (options.mode != TREE) {
    dfaFree(dfa);
    for (Deque<DFA *>::iterator i = dfalist.begin(); i != dfalist.end(); i++)
      dfaFree(*i);
  }
  else {
    gtaFree(gta);
    for (Deque<GTA *>::iterator i = gtalist.begin(); i != gtalist.end(); i++)
      gtaFree(*i);
    freeGuide();
  }
  delete verifytitlelist;

  Deque<FileSource *>::iterator i;
  for (i = source.begin(); i != source.end(); i++)
    delete *i;
  
  for (ix = 0; ix < numVars; ix++) {
    delete[] univs[ix];
    mem_free(statespaces[ix]);
  }
  delete[] statespaces;
  delete[] vnames;
  delete[] offs;
  delete[] types;
  delete[] univs;
  delete[] trees;
  freeTreetypes();
    
  if (options.statistics)
    print_statistics();

  if (options.time) {
    timer_total.stop();
    cout << "\nTotal time:     ";
    timer_total.print();
    print_timing();
  }
  else if (options.printProgress) { 
    timer_total.stop();
    cout << "\nTotal time: ";
    timer_total.print();
  }
#ifdef MAXALLOCATED
  cout << "Maximum space allocated: " << (maxallocated+524288)/1048576 << " MB\n";
#endif
}
예제 #9
0
파일: st_dfa.cpp 프로젝트: JPLaska/nlp-tree
DFA* 
st_dfa_project(DFA *a, Ident i, Pos &p, bool quotient) 
{
  Timer temp1, temp2;

  int a_ns = a->ns;
  
  if (options.time) {
    timer_right_quotient.start();
    if (options.statistics)
      temp1.start();
  }

  if (options.statistics)
    cout << "Right-quotient\n";

  if (quotient) {
    codeTable->begin();
    dfaRightQuotient(a, offsets.off(i));
    codeTable->done();
    num_right_quotients++;
  }

  if (options.time) {
    timer_right_quotient.stop();
    if (options.statistics) {
      temp1.stop();
      cout << "  Time: ";
      temp1.print();
    }
  }
 
  if (options.time) {
    timer_project.start();
    if (options.statistics)
      temp2.start();
  }

  if (options.statistics) {
    cout << "Projecting #" << i;
    p.printsource();
    cout << "\n  (" << a_ns << "," << bdd_size(a->bddm) << ") -> ";
    cout.flush();
  }

  codeTable->begin();
  DFA *result = dfaProject(a, offsets.off(i));
  codeTable->done();
  num_projections++;

  if (options.statistics)
    cout << "("  << result->ns << "," << bdd_size(result->bddm) << ")\n";

  if (options.time) {
    timer_project.stop();
    if (options.statistics) {
      temp2.stop();
      cout << "  Time: ";
      temp2.print();
    }
  }

  dfaFree(a);

  /*#warning  update_largest(result);*/
  return result;
}