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/**CFile****************************************************************
FileName [sswDyn.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Inductive prover with constraints.]
Synopsis [Dynamic loading of constraints.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - September 1, 2008.]
Revision [$Id: sswDyn.c,v 1.00 2008/09/01 00:00:00 alanmi Exp $]
***********************************************************************/
#include "sswInt.h"
#include "src/misc/bar/bar.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Label PIs nodes of the frames corresponding to PIs of AIG.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Ssw_ManLabelPiNodes( Ssw_Man_t * p )
{
Aig_Obj_t * pObj, * pObjFrames;
int f, i;
Aig_ManConst1( p->pFrames )->fMarkA = 1;
Aig_ManConst1( p->pFrames )->fMarkB = 1;
for ( f = 0; f < p->nFrames; f++ )
{
Saig_ManForEachPi( p->pAig, pObj, i )
{
pObjFrames = Ssw_ObjFrame( p, pObj, f );
assert( Aig_ObjIsCi(pObjFrames) );
assert( pObjFrames->fMarkB == 0 );
pObjFrames->fMarkA = 1;
pObjFrames->fMarkB = 1;
}
}
}
/**Function*************************************************************
Synopsis [Collects new POs in p->vNewPos.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Ssw_ManCollectPis_rec( Aig_Obj_t * pObj, Vec_Ptr_t * vNewPis )
{
assert( !Aig_IsComplement(pObj) );
if ( pObj->fMarkA )
return;
pObj->fMarkA = 1;
if ( Aig_ObjIsCi(pObj) )
{
Vec_PtrPush( vNewPis, pObj );
return;
}
assert( Aig_ObjIsNode(pObj) );
Ssw_ManCollectPis_rec( Aig_ObjFanin0(pObj), vNewPis );
Ssw_ManCollectPis_rec( Aig_ObjFanin1(pObj), vNewPis );
}
/**Function*************************************************************
Synopsis [Collects new POs in p->vNewPos.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Ssw_ManCollectPos_rec( Ssw_Man_t * p, Aig_Obj_t * pObj, Vec_Int_t * vNewPos )
{
Aig_Obj_t * pFanout;
int iFanout = -1, i;
assert( !Aig_IsComplement(pObj) );
if ( pObj->fMarkB )
return;
pObj->fMarkB = 1;
if ( pObj->Id > p->nSRMiterMaxId )
return;
if ( Aig_ObjIsCo(pObj) )
{
// skip if it is a register input PO
if ( Aig_ObjPioNum(pObj) >= Aig_ManCoNum(p->pFrames)-Aig_ManRegNum(p->pAig) )
return;
// add the number of this constraint
Vec_IntPush( vNewPos, Aig_ObjPioNum(pObj)/2 );
return;
}
// visit the fanouts
assert( p->pFrames->pFanData != NULL );
Aig_ObjForEachFanout( p->pFrames, pObj, pFanout, iFanout, i )
Ssw_ManCollectPos_rec( p, pFanout, vNewPos );
}
/**Function*************************************************************
Synopsis [Loads logic cones and relevant constraints.]
Description [Both pRepr and pObj are objects of the AIG.
The result is the current SAT solver loaded with the logic cones
for pRepr and pObj corresponding to them in the frames,
as well as all the relevant constraints.]
SideEffects []
SeeAlso []
***********************************************************************/
void Ssw_ManLoadSolver( Ssw_Man_t * p, Aig_Obj_t * pRepr, Aig_Obj_t * pObj )
{
Aig_Obj_t * pObjFrames, * pReprFrames;
Aig_Obj_t * pTemp, * pObj0, * pObj1;
int i, iConstr, RetValue;
assert( pRepr != pObj );
// get the corresponding frames nodes
pReprFrames = Aig_Regular( Ssw_ObjFrame( p, pRepr, p->pPars->nFramesK ) );
pObjFrames = Aig_Regular( Ssw_ObjFrame( p, pObj, p->pPars->nFramesK ) );
assert( pReprFrames != pObjFrames );
/*
// compute the AIG support
Vec_PtrClear( p->vNewLos );
Ssw_ManCollectPis_rec( pRepr, p->vNewLos );
Ssw_ManCollectPis_rec( pObj, p->vNewLos );
// add logic cones for register outputs
Vec_PtrForEachEntry( Aig_Obj_t *, p->vNewLos, pTemp, i )
{
pObj0 = Aig_Regular( Ssw_ObjFrame( p, pTemp, p->pPars->nFramesK ) );
Ssw_CnfNodeAddToSolver( p->pMSat, pObj0 );
}
*/
// add cones for the nodes
Ssw_CnfNodeAddToSolver( p->pMSat, pReprFrames );
Ssw_CnfNodeAddToSolver( p->pMSat, pObjFrames );
// compute the frames support
Vec_PtrClear( p->vNewLos );
Ssw_ManCollectPis_rec( pReprFrames, p->vNewLos );
Ssw_ManCollectPis_rec( pObjFrames, p->vNewLos );
// these nodes include both nodes corresponding to PIs and LOs
// (the nodes corresponding to PIs should be labeled with fMarkB!)
// collect the related constraint POs
Vec_IntClear( p->vNewPos );
Vec_PtrForEachEntry( Aig_Obj_t *, p->vNewLos, pTemp, i )
Ssw_ManCollectPos_rec( p, pTemp, p->vNewPos );
// check if the corresponding pairs are added
Vec_IntForEachEntry( p->vNewPos, iConstr, i )
{
pObj0 = Aig_ManCo( p->pFrames, 2*iConstr );
pObj1 = Aig_ManCo( p->pFrames, 2*iConstr+1 );
// if ( pObj0->fMarkB && pObj1->fMarkB )
if ( pObj0->fMarkB || pObj1->fMarkB )
{
pObj0->fMarkB = 1;
pObj1->fMarkB = 1;
Ssw_NodesAreConstrained( p, Aig_ObjChild0(pObj0), Aig_ObjChild0(pObj1) );
}
}
if ( p->pMSat->pSat->qtail != p->pMSat->pSat->qhead )
{
RetValue = sat_solver_simplify(p->pMSat->pSat);
assert( RetValue != 0 );
}
}
/**Function*************************************************************
Synopsis [Tranfers simulation information from FRAIG to AIG.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Ssw_ManSweepTransferDyn( Ssw_Man_t * p )
{
Aig_Obj_t * pObj, * pObjFraig;
unsigned * pInfo;
int i, f, nFrames;
// transfer simulation information
Aig_ManForEachCi( p->pAig, pObj, i )
{
pObjFraig = Ssw_ObjFrame( p, pObj, 0 );
if ( pObjFraig == Aig_ManConst0(p->pFrames) )
{
Ssw_SmlObjAssignConst( p->pSml, pObj, 0, 0 );
continue;
}
assert( !Aig_IsComplement(pObjFraig) );
assert( Aig_ObjIsCi(pObjFraig) );
pInfo = (unsigned *)Vec_PtrEntry( p->vSimInfo, Aig_ObjPioNum(pObjFraig) );
Ssw_SmlObjSetWord( p->pSml, pObj, pInfo[0], 0, 0 );
}
// set random simulation info for the second frame
for ( f = 1; f < p->nFrames; f++ )
{
Saig_ManForEachPi( p->pAig, pObj, i )
{
pObjFraig = Ssw_ObjFrame( p, pObj, f );
assert( !Aig_IsComplement(pObjFraig) );
assert( Aig_ObjIsCi(pObjFraig) );
pInfo = (unsigned *)Vec_PtrEntry( p->vSimInfo, Aig_ObjPioNum(pObjFraig) );
Ssw_SmlObjSetWord( p->pSml, pObj, pInfo[0], 0, f );
}
}
// create random info
nFrames = Ssw_SmlNumFrames( p->pSml );
for ( ; f < nFrames; f++ )
{
Saig_ManForEachPi( p->pAig, pObj, i )
Ssw_SmlAssignRandomFrame( p->pSml, pObj, f );
}
}
/**Function*************************************************************
Synopsis [Performs one round of simulation with counter-examples.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Ssw_ManSweepResimulateDyn( Ssw_Man_t * p, int f )
{
int RetValue1, RetValue2, clk = clock();
// transfer PI simulation information from storage
// Ssw_SmlAssignDist1Plus( p->pSml, p->pPatWords );
Ssw_ManSweepTransferDyn( p );
// simulate internal nodes
// Ssw_SmlSimulateOneFrame( p->pSml );
Ssw_SmlSimulateOne( p->pSml );
// check equivalence classes
RetValue1 = Ssw_ClassesRefineConst1( p->ppClasses, 1 );
RetValue2 = Ssw_ClassesRefine( p->ppClasses, 1 );
// prepare simulation info for the next round
Vec_PtrCleanSimInfo( p->vSimInfo, 0, 1 );
p->nPatterns = 0;
p->nSimRounds++;
p->timeSimSat += clock() - clk;
return RetValue1 > 0 || RetValue2 > 0;
}
/**Function*************************************************************
Synopsis [Performs one round of simulation with counter-examples.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Ssw_ManSweepResimulateDynLocal( Ssw_Man_t * p, int f )
{
Aig_Obj_t * pObj, * pRepr, ** ppClass;
int i, k, nSize, RetValue1, RetValue2, clk = clock();
p->nSimRounds++;
// transfer PI simulation information from storage
// Ssw_SmlAssignDist1Plus( p->pSml, p->pPatWords );
Ssw_ManSweepTransferDyn( p );
// determine const1 cands and classes to be simulated
Vec_PtrClear( p->vResimConsts );
Vec_PtrClear( p->vResimClasses );
Aig_ManIncrementTravId( p->pAig );
for ( i = p->iNodeStart; i < p->iNodeLast + p->pPars->nResimDelta; i++ )
{
if ( i >= Aig_ManObjNumMax( p->pAig ) )
break;
pObj = Aig_ManObj( p->pAig, i );
if ( pObj == NULL )
continue;
if ( Ssw_ObjIsConst1Cand(p->pAig, pObj) )
{
Vec_PtrPush( p->vResimConsts, pObj );
continue;
}
pRepr = Aig_ObjRepr(p->pAig, pObj);
if ( pRepr == NULL )
continue;
if ( Aig_ObjIsTravIdCurrent(p->pAig, pRepr) )
continue;
Aig_ObjSetTravIdCurrent(p->pAig, pRepr);
Vec_PtrPush( p->vResimClasses, pRepr );
}
// simulate internal nodes
// Ssw_SmlSimulateOneFrame( p->pSml );
// Ssw_SmlSimulateOne( p->pSml );
// resimulate dynamically
// Aig_ManIncrementTravId( p->pAig );
// Aig_ObjIsTravIdCurrent( p->pAig, Aig_ManConst1(p->pAig) );
p->nVisCounter++;
Vec_PtrForEachEntry( Aig_Obj_t *, p->vResimConsts, pObj, i )
Ssw_SmlSimulateOneDyn_rec( p->pSml, pObj, p->nFrames-1, p->pVisited, p->nVisCounter );
// resimulate the cone of influence of the cand classes
Vec_PtrForEachEntry( Aig_Obj_t *, p->vResimClasses, pRepr, i )
{
ppClass = Ssw_ClassesReadClass( p->ppClasses, pRepr, &nSize );
for ( k = 0; k < nSize; k++ )
Ssw_SmlSimulateOneDyn_rec( p->pSml, ppClass[k], p->nFrames-1, p->pVisited, p->nVisCounter );
}
// check equivalence classes
// RetValue1 = Ssw_ClassesRefineConst1( p->ppClasses, 1 );
// RetValue2 = Ssw_ClassesRefine( p->ppClasses, 1 );
// refine these nodes
RetValue1 = Ssw_ClassesRefineConst1Group( p->ppClasses, p->vResimConsts, 1 );
RetValue2 = 0;
Vec_PtrForEachEntry( Aig_Obj_t *, p->vResimClasses, pRepr, i )
RetValue2 += Ssw_ClassesRefineOneClass( p->ppClasses, pRepr, 1 );
// prepare simulation info for the next round
Vec_PtrCleanSimInfo( p->vSimInfo, 0, 1 );
p->nPatterns = 0;
p->nSimRounds++;
p->timeSimSat += clock() - clk;
return RetValue1 > 0 || RetValue2 > 0;
}
/**Function*************************************************************
Synopsis [Performs fraiging for the internal nodes.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Ssw_ManSweepDyn( Ssw_Man_t * p )
{
Bar_Progress_t * pProgress = NULL;
Aig_Obj_t * pObj, * pObjNew;
int clk, i, f;
// perform speculative reduction
clk = clock();
// create timeframes
p->pFrames = Ssw_FramesWithClasses( p );
Aig_ManFanoutStart( p->pFrames );
p->nSRMiterMaxId = Aig_ManObjNumMax( p->pFrames );
// map constants and PIs of the last frame
f = p->pPars->nFramesK;
Ssw_ObjSetFrame( p, Aig_ManConst1(p->pAig), f, Aig_ManConst1(p->pFrames) );
Saig_ManForEachPi( p->pAig, pObj, i )
Ssw_ObjSetFrame( p, pObj, f, Aig_ObjCreateCi(p->pFrames) );
Aig_ManSetPioNumbers( p->pFrames );
// label nodes corresponding to primary inputs
Ssw_ManLabelPiNodes( p );
p->timeReduce += clock() - clk;
// prepare simulation info
assert( p->vSimInfo == NULL );
p->vSimInfo = Vec_PtrAllocSimInfo( Aig_ManCiNum(p->pFrames), 1 );
Vec_PtrCleanSimInfo( p->vSimInfo, 0, 1 );
// sweep internal nodes
p->fRefined = 0;
Ssw_ClassesClearRefined( p->ppClasses );
if ( p->pPars->fVerbose )
pProgress = Bar_ProgressStart( stdout, Aig_ManObjNumMax(p->pAig) );
p->iNodeStart = 0;
Aig_ManForEachObj( p->pAig, pObj, i )
{
if ( p->iNodeStart == 0 )
p->iNodeStart = i;
if ( p->pPars->fVerbose )
Bar_ProgressUpdate( pProgress, i, NULL );
if ( Saig_ObjIsLo(p->pAig, pObj) )
p->fRefined |= Ssw_ManSweepNode( p, pObj, f, 0, NULL );
else if ( Aig_ObjIsNode(pObj) )
{
pObjNew = Aig_And( p->pFrames, Ssw_ObjChild0Fra(p, pObj, f), Ssw_ObjChild1Fra(p, pObj, f) );
Ssw_ObjSetFrame( p, pObj, f, pObjNew );
p->fRefined |= Ssw_ManSweepNode( p, pObj, f, 0, NULL );
}
// check if it is time to recycle the solver
if ( p->pMSat->pSat == NULL ||
(p->pPars->nSatVarMax2 &&
p->pMSat->nSatVars > p->pPars->nSatVarMax2 &&
p->nRecycleCalls > p->pPars->nRecycleCalls2) )
{
// resimulate
if ( p->nPatterns > 0 )
{
p->iNodeLast = i;
if ( p->pPars->fLocalSim )
Ssw_ManSweepResimulateDynLocal( p, f );
else
Ssw_ManSweepResimulateDyn( p, f );
p->iNodeStart = i+1;
}
// printf( "Recycling SAT solver with %d vars and %d calls.\n",
// p->pMSat->nSatVars, p->nRecycleCalls );
// Aig_ManCleanMarkAB( p->pAig );
Aig_ManCleanMarkAB( p->pFrames );
// label nodes corresponding to primary inputs
Ssw_ManLabelPiNodes( p );
// replace the solver
if ( p->pMSat )
{
p->nVarsMax = Abc_MaxInt( p->nVarsMax, p->pMSat->nSatVars );
p->nCallsMax = Abc_MaxInt( p->nCallsMax, p->pMSat->nSolverCalls );
Ssw_SatStop( p->pMSat );
p->nRecycles++;
p->nRecyclesTotal++;
p->nRecycleCalls = 0;
}
p->pMSat = Ssw_SatStart( 0 );
assert( p->nPatterns == 0 );
}
// resimulate
if ( p->nPatterns == 32 )
{
p->iNodeLast = i;
if ( p->pPars->fLocalSim )
Ssw_ManSweepResimulateDynLocal( p, f );
else
Ssw_ManSweepResimulateDyn( p, f );
p->iNodeStart = i+1;
}
}
// resimulate
if ( p->nPatterns > 0 )
{
p->iNodeLast = i;
if ( p->pPars->fLocalSim )
Ssw_ManSweepResimulateDynLocal( p, f );
else
Ssw_ManSweepResimulateDyn( p, f );
}
// collect stats
if ( p->pPars->fVerbose )
Bar_ProgressStop( pProgress );
// cleanup
// Ssw_ClassesCheck( p->ppClasses );
return p->fRefined;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
|