source: vis_dev/vis-2.3/src/puresat/puresatRefine.c @ 40

/**CFile***********************************************************************

  FileName    [puresatRefine.c]

  PackageName [puresat]

  Synopsis    [Abstraction refinement for large scale invariant checking.]

  Description [This file contains the functions to check invariant properties
  by the PureSAT abstraction refinement algorithm, which is entirely based on
  SAT solver, the input of which could be either CNF or AIG. It has several
  parts:

  * Localization-reduction base Abstraction
  * K-induction or interpolation to prove the truth of a property
  * Bounded Model Checking to find bugs
  * Incremental concretization based methods to verify abstract bugs
  * Incremental SAT solver to improve efficiency
  * UNSAT proof based method to obtain refinement
  * AROSAT to bring in only necessary latches into unsat proofs
  * Bridge abstraction to get compact coarse refinement
  * Refinement minization to guarrantee minimal refinements
  * Unsat proof-based refinement minimization to eliminate multiple candidate
    by on SAT test
  * Refinement prediction to decrease the number of refinement iterations
  * Dynamic switching to redistribute computional resources to improve
    efficiency
  
  For more information, please check the BMC'03, ICCAD'04, STTT'05 and TACAS'05
  paper of Li et al., "A satisfiability-based appraoch to abstraction
  refinement in model checking", " Abstraction in symbolic model checking
  using satisfiability as the only decision procedure", "Efficient computation
  of small abstraction refinements", and "Efficient abstraction refinement in
  interpolation-based unbounded model checking"]
  
  Author      [Bing Li]

  Copyright   [Copyright (c) 2004 The Regents of the Univ. of Colorado.
  All rights reserved.

  Permission is hereby granted, without written agreement and without
  license or royalty fees, to use, copy, modify, and distribute this
  software and its documentation for any purpose, provided that the
  above copyright notice and the following two paragraphs appear in
  all copies of this software.]

******************************************************************************/
#include "puresatInt.h"

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/* Static function prototypes                                                */
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/* Definition of exported functions                                          */
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/* Definition of internal functions                                          */
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/**Function********************************************************************

  Synopsis    [Refinement procedure of PURESAT algorithm]

  Description [Refinement procedure of PURESAT algorithm]

  SideEffects []

  SeeAlso     []

******************************************************************************/


array_t * PureSatRefineOnAbs(Ntk_Network_t *network,
                      PureSat_Manager_t *pm,
                      bAigEdge_t  property,
                      int latchThreshHold)
{
  mAig_Manager_t    *maigManager       = Ntk_NetworkReadMAigManager(network);
  lsGen             gen;
  Ntk_Node_t        *latch;
  FILE              *fp, *fp1;
  BmcOption_t       *options,*option2;
  int        i,j,k,Length,beginPosition=0;
  int        NumInSecondLevel=0;
  array_t    * tmpRefinement,*tmpArray1,*tmpArray2;
  array_t    *tmpModel,*tmpRefinement1;
  /*st_table   * RefinementTable, *CandidateTable;*/
  array_t    *Pclause, *tmpRefinement2, *tmpRefinement3, *oriSufArray;
  char       buffer[1024],str[100];
  char       *name, *coreFile, *tmpCoreFile, *coreFile1=(char *)0;
  int         oldLength=0,oriCoreSize, CoreSize,weight;
  st_table          *nodeToMvfAigTable;
  BmcCnfStates_t    *cnfstate;
  int             oldNumOfLatchInCore;
  int             newNumOfLatchInCore,NumOfLatchInModel,round;
  boolean     VarInCoreIsEnough = FALSE, LatchFromCore = FALSE;
  boolean     firstTime = TRUE;
  long t1,t2,t3,t4;
  st_table * localSufAbsTable;
  PureSat_IncreSATManager_t * pism = PureSatIncreSATManagerAlloc(pm);
  satManager_t * cm = pism->cm;
  BmcCnfClauses_t   * cnfClauses = pism->cnfClauses;
  st_table *vertexTable = pm->vertexTable;
  st_table *SufAbsTable = pm->SufAbsTable;
  /*st_table *CoiTable = pm->CoiTable;*/
  /*st_table *supportTable = pm->supportTable;*/
  /* st_table *AbsTable = pm->AbsTable;*/
    
  t1 = util_cpu_ctime();

  cm->option->clauseDeletionHeuristic = 0;
  cm->option->incTraceObjective = 0;
  pism->Length = pm->Length;
  Length =  pm->Length;
  coreFile = BmcCreateTmpFile();
  tmpCoreFile = BmcCreateTmpFile();
  strcpy(str,"coreFile: ");
  strcat(str,coreFile);
  strcat(str,", tmpCoreFile: ");
  strcat(str,tmpCoreFile);
  strcat(str,"\n");
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"%s",str);
  nodeToMvfAigTable = (st_table *) Ntk_NetworkReadApplInfo(network, MVFAIG_NETWORK_APPL_KEY);
  if (nodeToMvfAigTable == NIL(st_table)){
    (void) fprintf(vis_stderr, "** bmc error: please run buid_partiton_maigs first\n");
    exit (0);
  }
  
  option2 = BmcOptionAlloc();
  option2->satInFile = BmcCreateTmpFile();
  option2->satOutFile = BmcCreateTmpFile();
  options = BmcOptionAlloc();
  options->satInFile = BmcCreateTmpFile();
  options->satOutFile = BmcCreateTmpFile();

  newNumOfLatchInCore = 0;
  NumOfLatchInModel = 0;
  tmpModel = array_alloc(char *,0);
  oriSufArray = array_alloc(char *,0);
  Ntk_NetworkForEachLatch(network, gen, latch){
    name = Ntk_NodeReadName(latch);
    if(st_lookup(vertexTable,name,NIL(char *))){
      array_insert_last(char *,tmpModel,name);
      NumOfLatchInModel++;
    }
    else
      if(st_lookup(SufAbsTable,latch,NIL(char *))){
        newNumOfLatchInCore++;
        array_insert_last(char *,oriSufArray,name);
      }
  }
  
  localSufAbsTable = st_copy(SufAbsTable);
  //tmpRefinement2 = array_alloc(char *,0);
  tmpRefinement3 = array_alloc(char *,0);
  //tmpArray1 = array_alloc(char *,0);
  //tmpArray2 = array_alloc(char *,0);
  weight = (NumOfLatchInModel+newNumOfLatchInCore+1)*10000;
  round=0;
  
  round++;
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"round: %d\n",round);
  oldNumOfLatchInCore = newNumOfLatchInCore;
  pm->ClsidxToLatchTable = st_init_table(st_numcmp,st_numhash);
  PureSatGenerateClausesForPath_EnhanceInit(network,0,Length,pism,pm,nodeToMvfAigTable,localSufAbsTable);
  Pclause = array_alloc(int,0);
  array_insert_last(int, Pclause, BmcGenerateCnfFormulaForAigFunction(maigManager,property,
                                                                      Length, cnfClauses));
  BmcCnfInsertClause(cnfClauses, Pclause);
  array_free(Pclause);
  CoreSize=cnfClauses->noOfClauses;
  
  oriCoreSize = CoreSize;
  cm->option->coreGeneration = 1;
  cm->fp = fopen(tmpCoreFile, "w");
  if(pm->verbosity>=2)
    PureSatWriteClausesToFile(pism,maigManager,coreFile1);
  t1 = util_cpu_ctime();
  PureSatReadClauses(pism,pm);
  sat_Main(cm);
  t2 = util_cpu_ctime();
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"time for SAT Solver(satMain): %g\n",(double)((t2-t1)/1000.0));
  
  fclose(cm->fp);
  if(cm->status == SAT_SAT){
    fprintf(vis_stderr,"This instance is supposed to be UNSAT, wrong and exit\n");
    exit(0);
  }
  cm->stdOut = vis_stdout; 
  cm->option->coreGeneration = 0;
  
  t2 = util_cpu_ctime();
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"time for satMain: %g\n",(double)((t2-t1)/1000.0));
  CoreSize = cm->numOfClsInCore;
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"CoreSize:%d/OriCoreSize:%d\n", CoreSize,oriCoreSize);
  
  fp1 = fopen(coreFile, "w");
  fp = fopen(tmpCoreFile, "r");
  sprintf(buffer,"p cnf %d %d 0\n", cm->initNumVariables, cm->numOfClsInCore);
  fputs(buffer, fp1);
  while(fgets(buffer,1024,fp)){
    fputs(buffer, fp1);
  }
  fclose(fp);
  fclose(fp1);

  //tmpRefinement1 = array_alloc(char *,0);
  /* generate sufficient refinement */
  st_free_table(localSufAbsTable);
  localSufAbsTable = st_init_table(st_ptrcmp,st_ptrhash);  
  t3 = util_cpu_ctime();
  tmpRefinement1 = PureSatGetLatchFromTable(network,pm,coreFile);
  t4 = util_cpu_ctime();
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"time for PureSatGetLatchFromTable: %g\n",(double)((t4-t3)/1000.0));
  
  if(array_n(tmpRefinement1)>array_n(oriSufArray)){
    array_free(tmpRefinement1);
    tmpRefinement1 = array_dup(oriSufArray);
  }
  else{
    array_free(oriSufArray);
    oriSufArray = array_dup(tmpRefinement1);
  }
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"All latches picked from UNSAT Proof:\n");
  arrayForEachItem(char *,tmpRefinement1,i,name){
    if(pm->verbosity>=2)
      fprintf(vis_stdout," %s  ",name);
    latch = Ntk_NetworkFindNodeByName(network,name);
    st_insert(localSufAbsTable,latch,(char *)0);
  }
  if(pm->verbosity>=2){
    fprintf(vis_stdout,"\n");
    fprintf(vis_stdout,"tmpModel: \n");
  }
  arrayForEachItem(char *,tmpModel,i,name){
    if(pm->verbosity>=2)
      fprintf(vis_stdout," %s  ",name);
    latch = Ntk_NetworkFindNodeByName(network,name);
    st_insert(localSufAbsTable,latch,(char *)0);
  }
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"\n");
  newNumOfLatchInCore = array_n(tmpRefinement1);
  BmcCnfClausesFree(pism->cnfClauses);
  
  if(pm->verbosity>=2)
    fprintf(vis_stdout,"newNumOfLatchInCore/oldNumOfLatchInCore=%f\n",(double)newNumOfLatchInCore/(double)oldNumOfLatchInCore);
  
  /* Add the refinement to vertexTable*/
  arrayForEachItem(char *,tmpRefinement1,i,name){
    st_insert(vertexTable, name,(char*)0);
  }
  
  pism->cnfClauses = BmcCnfClausesAlloc();
  cnfClauses = pism->cnfClauses;
  if(array_n(tmpRefinement1)) 
    {
      tmpRefinement = PureSatGenerateRingFromAbs(network,pm,tmpRefinement1,&NumInSecondLevel);
      /* latchThreshHold = (latchThreshHold <= NumInSecondLevel) ? latchThreshHold:NumInSecondLevel;*/
      array_free(tmpRefinement1);
      LatchFromCore = TRUE;
      for(i=0;i<array_n(tmpRefinement);i=i+latchThreshHold)
        {
          for(j=0;j<latchThreshHold;j++)
            {
              if((i+j)<array_n(tmpRefinement))
                {
                  name = array_fetch(char *,tmpRefinement,i+j);
                  array_insert_last(char *,tmpRefinement3,name);
                  if(pm->verbosity>=1)
                    fprintf(vis_stdout, "picking %s\n",name);
                }
              else
                break;
            }
          tmpRefinement2=array_dup(tmpModel);
          array_append(tmpRefinement2,tmpRefinement3);
          if(!PureSatExistCE(network,pism,option2,tmpRefinement2,property,pm,0)){
            VarInCoreIsEnough = TRUE;
            array_free(tmpRefinement2);
            for(k=i+j;k<array_n(tmpRefinement);k++)
              {
                name = array_fetch(char *,tmpRefinement,k);
                if(st_lookup(vertexTable,name,NIL(char *))){
                  st_delete(vertexTable,&name,NIL(char *));
                }
              }
            break;
          }
          firstTime = FALSE;
          beginPosition = array_n(tmpRefinement2);
          array_free(tmpRefinement2);
          oldLength = Length;
        } 
      array_free(tmpRefinement);
      tmpRefinement = array_dup(tmpRefinement3); /* now tmpRefinement1 contains the
                                                   latches in Core*/
      array_free(tmpRefinement3);
      oldLength=0;
      beginPosition=0;
      BmcCnfClausesFree(pism->cnfClauses);
      pism->cnfClauses = BmcCnfClausesAlloc();
    }
  
#if 1
  if(!VarInCoreIsEnough){
    fprintf(vis_stderr,"this should never happen, wrong\n");
    exit(0);
  }
#endif
  
  //tmpRefinement = array_dup(tmpRefinement1);
  //array_free(tmpRefinement1);
  
# if 1
  /*Refinement Minimization
    try all the candidates*/
  for(i=array_n(tmpRefinement)-1;i>=0;i--)
    {
      name = array_fetch(char *,tmpRefinement,i);
      if(pm->verbosity>=1)
        fprintf(vis_stdout,"RefMin: testing %s\n",name);
      tmpArray2 = PureSatRemove_char(tmpRefinement,i);
      tmpArray1 = array_dup(tmpModel);
      array_append(tmpArray1,tmpArray2);
      cnfstate = BmcCnfClausesFreeze(pism->cnfClauses);
      if(PureSatExistCE(network,pism,option2,tmpArray1,property,pm,0))
        array_free(tmpArray2);
      else /*delete it*/
        {
          /*   i--;*/
          name = array_fetch(char *, tmpRefinement,i);
          if(st_lookup(vertexTable, name,NIL(char *)))
            st_delete(vertexTable, &name, NIL(char *));
          else
            fprintf(vis_stderr," %s should be in vertexTable, Wrong!!!\n",name);
          array_free(tmpRefinement);
          tmpRefinement = tmpArray2;
        }
      array_free(tmpArray1);
      BmcCnfClausesRestore(pism->cnfClauses, cnfstate);
      FREE(cnfstate);
    }
  //BmcCnfClausesFree(pism->cnfClauses);
#endif
  
  if(pm->verbosity>=1){
    fprintf(vis_stdout,"\n sufficient refinement candidates from CA\n");
    arrayForEachItem(char *,tmpRefinement,i,name)
      fprintf(vis_stdout,"%s\n",name);
  }
  BmcOptionFree(option2);
  BmcOptionFree(options);
  unlink(coreFile);
  unlink(tmpCoreFile);
  FREE(coreFile);
  FREE(tmpCoreFile);
  array_free(oriSufArray);
  st_free_table(pm->ClsidxToLatchTable);
  pm->ClsidxToLatchTable = NIL(st_table);
  PureSatIncreSATManagerFree(pm,pism);
  return tmpRefinement;
}


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/* Definition of static functions                                            */
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