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/**CFile****************************************************************
FileName [giaAbs.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Scalable AIG package.]
Synopsis [Counter-example-guided abstraction refinement.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: giaAbs.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#include "gia.h"
#include "sat/bsat/satSolver.h"
#include "sat/cnf/cnf.h"
#include "sat/bmc/bmc.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Resimulates the counter-example.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Gia_ManVerifyCex( Gia_Man_t * pAig, Abc_Cex_t * p, int fDualOut )
{
Gia_Obj_t * pObj, * pObjRi, * pObjRo;
int RetValue, i, k, iBit = 0;
Gia_ManCleanMark0(pAig);
Gia_ManForEachRo( pAig, pObj, i )
pObj->fMark0 = Abc_InfoHasBit(p->pData, iBit++);
for ( i = 0; i <= p->iFrame; i++ )
{
Gia_ManForEachPi( pAig, pObj, k )
pObj->fMark0 = Abc_InfoHasBit(p->pData, iBit++);
Gia_ManForEachAnd( pAig, pObj, k )
pObj->fMark0 = (Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj)) &
(Gia_ObjFanin1(pObj)->fMark0 ^ Gia_ObjFaninC1(pObj));
Gia_ManForEachCo( pAig, pObj, k )
pObj->fMark0 = Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj);
if ( i == p->iFrame )
break;
Gia_ManForEachRiRo( pAig, pObjRi, pObjRo, k )
{
pObjRo->fMark0 = pObjRi->fMark0;
}
}
assert( iBit == p->nBits );
if ( fDualOut )
RetValue = Gia_ManPo(pAig, 2*p->iPo)->fMark0 ^ Gia_ManPo(pAig, 2*p->iPo+1)->fMark0;
else
RetValue = Gia_ManPo(pAig, p->iPo)->fMark0;
Gia_ManCleanMark0(pAig);
return RetValue;
}
/**Function*************************************************************
Synopsis [Resimulates the counter-example.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Gia_ManFindFailedPoCex( Gia_Man_t * pAig, Abc_Cex_t * p, int nOutputs )
{
Gia_Obj_t * pObj, * pObjRi, * pObjRo;
int RetValue, i, k, iBit = 0;
assert( Gia_ManPiNum(pAig) == p->nPis );
Gia_ManCleanMark0(pAig);
Gia_ManForEachRo( pAig, pObj, i )
pObj->fMark0 = Abc_InfoHasBit(p->pData, iBit++);
iBit = p->nRegs;
for ( i = 0; i <= p->iFrame; i++ )
{
Gia_ManForEachPi( pAig, pObj, k )
pObj->fMark0 = Abc_InfoHasBit(p->pData, iBit++);
Gia_ManForEachAnd( pAig, pObj, k )
pObj->fMark0 = (Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj)) &
(Gia_ObjFanin1(pObj)->fMark0 ^ Gia_ObjFaninC1(pObj));
Gia_ManForEachCo( pAig, pObj, k )
pObj->fMark0 = Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj);
Gia_ManForEachRiRo( pAig, pObjRi, pObjRo, k )
pObjRo->fMark0 = pObjRi->fMark0;
}
assert( iBit == p->nBits );
// figure out the number of failed output
RetValue = -1;
// for ( i = Gia_ManPoNum(pAig) - 1; i >= nOutputs; i-- )
for ( i = nOutputs; i < Gia_ManPoNum(pAig); i++ )
{
if ( Gia_ManPo(pAig, i)->fMark0 )
{
RetValue = i;
break;
}
}
Gia_ManCleanMark0(pAig);
return RetValue;
}
/**Function*************************************************************
Synopsis [Determines the failed PO when its exact frame is not known.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Gia_ManSetFailedPoCex( Gia_Man_t * pAig, Abc_Cex_t * p )
{
Gia_Obj_t * pObj, * pObjRi, * pObjRo;
int i, k, iBit = 0;
assert( Gia_ManPiNum(pAig) == p->nPis );
Gia_ManCleanMark0(pAig);
p->iPo = -1;
// Gia_ManForEachRo( pAig, pObj, i )
// pObj->fMark0 = Abc_InfoHasBit(p->pData, iBit++);
iBit = p->nRegs;
for ( i = 0; i <= p->iFrame; i++ )
{
Gia_ManForEachPi( pAig, pObj, k )
pObj->fMark0 = Abc_InfoHasBit(p->pData, iBit++);
Gia_ManForEachAnd( pAig, pObj, k )
pObj->fMark0 = (Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj)) &
(Gia_ObjFanin1(pObj)->fMark0 ^ Gia_ObjFaninC1(pObj));
Gia_ManForEachCo( pAig, pObj, k )
pObj->fMark0 = Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj);
Gia_ManForEachRiRo( pAig, pObjRi, pObjRo, k )
pObjRo->fMark0 = pObjRi->fMark0;
// check the POs
Gia_ManForEachPo( pAig, pObj, k )
{
if ( !pObj->fMark0 )
continue;
p->iPo = k;
p->iFrame = i;
p->nBits = iBit;
break;
}
}
Gia_ManCleanMark0(pAig);
return p->iPo;
}
/**Function*************************************************************
Synopsis [Starts the process of returning values for internal nodes.]
Description [Should be called when pCex is available, before probing
any object for its value using Gia_ManCounterExampleValueLookup().]
SideEffects []
SeeAlso []
***********************************************************************/
void Gia_ManCounterExampleValueStart( Gia_Man_t * pGia, Abc_Cex_t * pCex )
{
Gia_Obj_t * pObj, * pObjRi, * pObjRo;
int Val0, Val1, nObjs, i, k, iBit = 0;
assert( Gia_ManRegNum(pGia) > 0 ); // makes sense only for sequential AIGs
assert( pGia->pData2 == NULL ); // if this fail, there may be a memory leak
// allocate memory to store simulation bits for internal nodes
pGia->pData2 = ABC_CALLOC( unsigned, Abc_BitWordNum( (pCex->iFrame + 1) * Gia_ManObjNum(pGia) ) );
// the register values in the counter-example should be zero
Gia_ManForEachRo( pGia, pObj, k )
assert( Abc_InfoHasBit(pCex->pData, iBit++) == 0 );
// iterate through the timeframes
nObjs = Gia_ManObjNum(pGia);
for ( i = 0; i <= pCex->iFrame; i++ )
{
// no need to set constant-0 node
// set primary inputs according to the counter-example
Gia_ManForEachPi( pGia, pObj, k )
if ( Abc_InfoHasBit(pCex->pData, iBit++) )
Abc_InfoSetBit( (unsigned *)pGia->pData2, nObjs * i + Gia_ObjId(pGia, pObj) );
// compute values for each node
Gia_ManForEachAnd( pGia, pObj, k )
{
Val0 = Abc_InfoHasBit( (unsigned *)pGia->pData2, nObjs * i + Gia_ObjFaninId0p(pGia, pObj) );
Val1 = Abc_InfoHasBit( (unsigned *)pGia->pData2, nObjs * i + Gia_ObjFaninId1p(pGia, pObj) );
if ( (Val0 ^ Gia_ObjFaninC0(pObj)) & (Val1 ^ Gia_ObjFaninC1(pObj)) )
Abc_InfoSetBit( (unsigned *)pGia->pData2, nObjs * i + Gia_ObjId(pGia, pObj) );
}
// derive values for combinational outputs
Gia_ManForEachCo( pGia, pObj, k )
{
Val0 = Abc_InfoHasBit( (unsigned *)pGia->pData2, nObjs * i + Gia_ObjFaninId0p(pGia, pObj) );
if ( Val0 ^ Gia_ObjFaninC0(pObj) )
Abc_InfoSetBit( (unsigned *)pGia->pData2, nObjs * i + Gia_ObjId(pGia, pObj) );
}
if ( i == pCex->iFrame )
continue;
// transfer values to the register output of the next frame
Gia_ManForEachRiRo( pGia, pObjRi, pObjRo, k )
if ( Abc_InfoHasBit( (unsigned *)pGia->pData2, nObjs * i + Gia_ObjId(pGia, pObjRi) ) )
Abc_InfoSetBit( (unsigned *)pGia->pData2, nObjs * (i+1) + Gia_ObjId(pGia, pObjRo) );
}
assert( iBit == pCex->nBits );
// check that the counter-example is correct, that is, the corresponding output is asserted
assert( Abc_InfoHasBit( (unsigned *)pGia->pData2, nObjs * pCex->iFrame + Gia_ObjId(pGia, Gia_ManCo(pGia, pCex->iPo)) ) );
}
/**Function*************************************************************
Synopsis [Stops the process of returning values for internal nodes.]
Description [Should be called when probing is no longer needed]
SideEffects []
SeeAlso []
***********************************************************************/
void Gia_ManCounterExampleValueStop( Gia_Man_t * pGia )
{
assert( pGia->pData2 != NULL ); // if this fail, we try to call this procedure more than once
ABC_FREE( pGia->pData2 );
pGia->pData2 = NULL;
}
/**Function*************************************************************
Synopsis [Returns the value of the given object in the given timeframe.]
Description [Should be called to probe the value of an object with
the given ID (iFrame is a 0-based number of a time frame - should not
exceed the number of timeframes in the original counter-example).]
SideEffects []
SeeAlso []
***********************************************************************/
int Gia_ManCounterExampleValueLookup( Gia_Man_t * pGia, int Id, int iFrame )
{
assert( Id >= 0 && Id < Gia_ManObjNum(pGia) );
return Abc_InfoHasBit( (unsigned *)pGia->pData2, Gia_ManObjNum(pGia) * iFrame + Id );
}
/**Function*************************************************************
Synopsis [Procedure to test the above code.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Gia_ManCounterExampleValueTest( Gia_Man_t * pGia, Abc_Cex_t * pCex )
{
Gia_Obj_t * pObj = Gia_ManObj( pGia, Gia_ManObjNum(pGia)/2 );
int iFrame = Abc_MaxInt( 0, pCex->iFrame - 1 );
printf( "\nUsing counter-example, which asserts output %d in frame %d.\n", pCex->iPo, pCex->iFrame );
Gia_ManCounterExampleValueStart( pGia, pCex );
printf( "Value of object %d in frame %d is %d.\n", Gia_ObjId(pGia, pObj), iFrame,
Gia_ManCounterExampleValueLookup(pGia, Gia_ObjId(pGia, pObj), iFrame) );
Gia_ManCounterExampleValueStop( pGia );
}
/**Function*************************************************************
Synopsis [Returns CEX containing PI+CS values for each timeframe.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Abc_Cex_t * Gia_ManCexExtendToIncludeCurrentStates( Gia_Man_t * p, Abc_Cex_t * pCex )
{
Abc_Cex_t * pNew;
Gia_Obj_t * pObj, * pObjRo, * pObjRi;
int i, k, iBit = 0;
assert( pCex->nRegs > 0 );
// start the counter-example
pNew = Abc_CexAlloc( 0, Gia_ManCiNum(p), pCex->iFrame + 1 );
pNew->iFrame = pCex->iFrame;
pNew->iPo = pCex->iPo;
// set const0
Gia_ManConst0(p)->fMark0 = 0;
// set init state
Gia_ManForEachRi( p, pObjRi, k )
pObjRi->fMark0 = Abc_InfoHasBit(pCex->pData, iBit++);
assert( iBit == pCex->nRegs );
for ( i = 0; i <= pCex->iFrame; i++ )
{
Gia_ManForEachPi( p, pObj, k )
pObj->fMark0 = Abc_InfoHasBit(pCex->pData, iBit++);
Gia_ManForEachRiRo( p, pObjRi, pObjRo, k )
pObjRo->fMark0 = pObjRi->fMark0;
Gia_ManForEachCi( p, pObj, k )
if ( pObj->fMark0 )
Abc_InfoSetBit( pNew->pData, pNew->nPis * i + k );
Gia_ManForEachAnd( p, pObj, k )
pObj->fMark0 = (Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj)) & (Gia_ObjFanin1(pObj)->fMark0 ^ Gia_ObjFaninC1(pObj));
Gia_ManForEachCo( p, pObj, k )
pObj->fMark0 = Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj);
}
assert( iBit == pCex->nBits );
assert( Gia_ManPo(p, pCex->iPo)->fMark0 == 1 );
Gia_ManCleanMark0(p);
return pNew;
}
/**Function*************************************************************
Synopsis [Returns CEX containing all object valuess for each timeframe.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Abc_Cex_t * Gia_ManCexExtendToIncludeAllObjects( Gia_Man_t * p, Abc_Cex_t * pCex )
{
Abc_Cex_t * pNew;
Gia_Obj_t * pObj, * pObjRo, * pObjRi;
int i, k, iBit = 0;
assert( pCex->nRegs > 0 );
// start the counter-example
pNew = Abc_CexAlloc( 0, Gia_ManObjNum(p), pCex->iFrame + 1 );
pNew->iFrame = pCex->iFrame;
pNew->iPo = pCex->iPo;
// set const0
Gia_ManConst0(p)->fMark0 = 0;
// set init state
Gia_ManForEachRi( p, pObjRi, k )
pObjRi->fMark0 = Abc_InfoHasBit(pCex->pData, iBit++);
assert( iBit == pCex->nRegs );
for ( i = 0; i <= pCex->iFrame; i++ )
{
Gia_ManForEachPi( p, pObj, k )
pObj->fMark0 = Abc_InfoHasBit(pCex->pData, iBit++);
Gia_ManForEachRiRo( p, pObjRi, pObjRo, k )
pObjRo->fMark0 = pObjRi->fMark0;
Gia_ManForEachObj( p, pObj, k )
if ( pObj->fMark0 )
Abc_InfoSetBit( pNew->pData, pNew->nPis * i + k );
Gia_ManForEachAnd( p, pObj, k )
pObj->fMark0 = (Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj)) & (Gia_ObjFanin1(pObj)->fMark0 ^ Gia_ObjFaninC1(pObj));
Gia_ManForEachCo( p, pObj, k )
pObj->fMark0 = Gia_ObjFanin0(pObj)->fMark0 ^ Gia_ObjFaninC0(pObj);
}
assert( iBit == pCex->nBits );
assert( Gia_ManPo(p, pCex->iPo)->fMark0 == 1 );
Gia_ManCleanMark0(p);
return pNew;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Gia_Man_t * Gia_ManFramesForCexMin( Gia_Man_t * p, int nFrames )
{
Gia_Man_t * pFrames, * pTemp;
Gia_Obj_t * pObj; int i, f;
assert( Gia_ManPoNum(p) == 1 );
pFrames = Gia_ManStart( Gia_ManObjNum(p) );
pFrames->pName = Abc_UtilStrsav( p->pName );
pFrames->pSpec = Abc_UtilStrsav( p->pSpec );
Gia_ManHashAlloc( pFrames );
Gia_ManConst0(p)->Value = 0;
for ( f = 0; f < nFrames; f++ )
{
Gia_ManForEachRo( p, pObj, i )
pObj->Value = f ? Gia_ObjRoToRi( p, pObj )->Value : 0;
Gia_ManForEachPi( p, pObj, i )
pObj->Value = Gia_ManAppendCi( pFrames );
Gia_ManForEachAnd( p, pObj, i )
pObj->Value = Gia_ManHashAnd( pFrames, Gia_ObjFanin0Copy(pObj), Gia_ObjFanin1Copy(pObj) );
Gia_ManForEachRi( p, pObj, i )
pObj->Value = Gia_ObjFanin0Copy(pObj);
}
Gia_ManForEachCo( p, pObj, i )
Gia_ManAppendCo( pFrames, Gia_ObjFanin0Copy(pObj) );
pFrames = Gia_ManCleanup( pTemp = pFrames );
//printf( "Before cleanup = %d nodes. After cleanup = %d nodes.\n",
// Gia_ManAndNum(pTemp), Gia_ManAndNum(pFrames) );
Gia_ManStop( pTemp );
return pFrames;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Gia_ManMinCex( Gia_Man_t * p, Abc_Cex_t * pCex )
{
abctime clk = Abc_Clock();
int n, i, iFirstVar, iLit, status, Counter = 0;//, Id;
Vec_Int_t * vLits;
sat_solver * pSat;
Cnf_Dat_t * pCnf;
int nFinal, * pFinal;
Abc_Cex_t * pCexCare;
Gia_Man_t * pFrames;
// CEX minimization
clk = Abc_Clock();
pCexCare = Bmc_CexCareMinimizeAig( p, Gia_ManPiNum(p), pCex, 1, 1, 1 );
for ( i = pCexCare->nRegs; i < pCexCare->nBits; i++ )
Counter += Abc_InfoHasBit(pCexCare->pData, i);
Abc_CexFree( pCexCare );
printf( "Care bits = %d. ", Counter );
Abc_PrintTime( 1, "CEX minimization", Abc_Clock() - clk );
// SAT instance
clk = Abc_Clock();
pFrames = Gia_ManFramesForCexMin( p, pCex->iFrame + 1 );
pCnf = (Cnf_Dat_t*)Mf_ManGenerateCnf( pFrames, 8, 0, 0, 0, 0 );
iFirstVar = pCnf->nVars - (pCex->iFrame+1) * pCex->nPis;
pSat = (sat_solver*)Cnf_DataWriteIntoSolver( pCnf, 1, 0 );
iLit = Abc_Var2Lit( 1, 1 );
status = sat_solver_addclause( pSat, &iLit, &iLit + 1 );
assert( status );
// create literals
vLits = Vec_IntAlloc( 100 );
for ( i = pCex->nRegs; i < pCex->nBits; i++ )
Vec_IntPush( vLits, Abc_Var2Lit(iFirstVar + i - pCex->nRegs, !Abc_InfoHasBit(pCex->pData, i)) );
Abc_PrintTime( 1, "SAT solver", Abc_Clock() - clk );
for ( n = 0; n < 2; n++ )
{
if ( n ) Vec_IntReverseOrder( vLits );
// SAT-based minimization
clk = Abc_Clock();
status = sat_solver_solve( pSat, Vec_IntArray(vLits), Vec_IntLimit(vLits), 0, 0, 0, 0 );
nFinal = sat_solver_final( pSat, &pFinal );
printf( "Status %d. Selected %d assumptions out of %d. ", status, nFinal, Vec_IntSize(vLits) );
Abc_PrintTime( 1, "Analyze_final", Abc_Clock() - clk );
// SAT-based minimization
clk = Abc_Clock();
nFinal = sat_solver_minimize_assumptions( pSat, Vec_IntArray(vLits), Vec_IntSize(vLits), 0 );
printf( "Status %d. Selected %d assumptions out of %d. ", status, nFinal, Vec_IntSize(vLits) );
Abc_PrintTime( 1, "LEXUNSAT", Abc_Clock() - clk );
}
// cleanup
Vec_IntFree( vLits );
sat_solver_delete( pSat );
Cnf_DataFree( pCnf );
Gia_ManStop( pFrames );
}
Abc_Cex_t * Bmc_CexCareDeriveCex( Abc_Cex_t * pCex, int iFirstVar, int * pLits, int nLits )
{
Abc_Cex_t * pCexMin; int i;
pCexMin = Abc_CexAlloc( pCex->nRegs, pCex->nPis, pCex->iFrame + 1 );
pCexMin->iPo = pCex->iPo;
pCexMin->iFrame = pCex->iFrame;
for ( i = 0; i < nLits; i++ )
{
int PiNum = Abc_Lit2Var(pLits[i]) - iFirstVar;
assert( PiNum >= 0 && PiNum < pCex->nBits - pCex->nRegs );
Abc_InfoSetBit( pCexMin->pData, pCexMin->nRegs + PiNum );
}
return pCexMin;
}
Abc_Cex_t * Bmc_CexCareSatBasedMinimizeAig( Gia_Man_t * p, Abc_Cex_t * pCex, int fHighEffort, int fVerbose )
{
abctime clk = Abc_Clock();
int n, i, iFirstVar, iLit, status;
Vec_Int_t * vLits = NULL, * vTemp;
sat_solver * pSat;
Cnf_Dat_t * pCnf;
int nFinal, * pFinal;
Abc_Cex_t * pCexBest = NULL;
int CountBest = 0;
Gia_Man_t * pFrames;
// CEX minimization
clk = Abc_Clock();
pCexBest = Bmc_CexCareMinimizeAig( p, Gia_ManPiNum(p), pCex, 1, 1, fVerbose );
for ( i = pCexBest->nRegs; i < pCexBest->nBits; i++ )
CountBest += Abc_InfoHasBit(pCexBest->pData, i);
if ( fVerbose )
{
printf( "Care bits = %d. ", CountBest );
Abc_PrintTime( 1, "Non-SAT-based CEX minimization", Abc_Clock() - clk );
}
// SAT instance
clk = Abc_Clock();
pFrames = Gia_ManFramesForCexMin( p, pCex->iFrame + 1 );
pCnf = (Cnf_Dat_t*)Mf_ManGenerateCnf( pFrames, 8, 0, 0, 0, 0 );
iFirstVar = pCnf->nVars - (pCex->iFrame+1) * pCex->nPis;
pSat = (sat_solver*)Cnf_DataWriteIntoSolver( pCnf, 1, 0 );
iLit = Abc_Var2Lit( 1, 1 );
status = sat_solver_addclause( pSat, &iLit, &iLit + 1 );
assert( status );
// create literals
vTemp = Vec_IntAlloc( 100 );
for ( i = pCex->nRegs; i < pCex->nBits; i++ )
Vec_IntPush( vTemp, Abc_Var2Lit(iFirstVar + i - pCex->nRegs, !Abc_InfoHasBit(pCex->pData, i)) );
if ( fVerbose )
Abc_PrintTime( 1, "Constructing SAT solver", Abc_Clock() - clk );
for ( n = 0; n < 2; n++ )
{
Vec_IntFreeP( &vLits );
vLits = Vec_IntDup( vTemp );
if ( n ) Vec_IntReverseOrder( vLits );
// SAT-based minimization
clk = Abc_Clock();
status = sat_solver_solve( pSat, Vec_IntArray(vLits), Vec_IntLimit(vLits), 0, 0, 0, 0 );
nFinal = sat_solver_final( pSat, &pFinal );
if ( fVerbose )
{
printf( "Status %s Selected %5d assumptions out of %5d. ", status == l_False ? "OK ":"BUG", nFinal, Vec_IntSize(vLits) );
Abc_PrintTime( 1, "Analyze_final", Abc_Clock() - clk );
}
if ( CountBest > nFinal )
{
CountBest = nFinal;
ABC_FREE( pCexBest );
pCexBest = Bmc_CexCareDeriveCex( pCex, iFirstVar, pFinal, nFinal );
}
if ( !fHighEffort )
continue;
// SAT-based minimization
clk = Abc_Clock();
nFinal = sat_solver_minimize_assumptions( pSat, Vec_IntArray(vLits), Vec_IntSize(vLits), 0 );
if ( fVerbose )
{
printf( "Status %s Selected %5d assumptions out of %5d. ", status == l_False ? "OK ":"BUG", nFinal, Vec_IntSize(vLits) );
Abc_PrintTime( 1, "LEXUNSAT ", Abc_Clock() - clk );
}
if ( CountBest > nFinal )
{
CountBest = nFinal;
ABC_FREE( pCexBest );
pCexBest = Bmc_CexCareDeriveCex( pCex, iFirstVar, Vec_IntArray(vLits), nFinal );
}
}
if ( fVerbose )
{
printf( "Final : " );
Bmc_CexPrint( pCexBest, pCexBest->nPis, 0 );
}
// cleanup
Vec_IntFreeP( &vLits );
Vec_IntFreeP( &vTemp );
sat_solver_delete( pSat );
Cnf_DataFree( pCnf );
Gia_ManStop( pFrames );
return pCexBest;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
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