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/**CFile****************************************************************
FileName [saigHaig.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Sequential AIG package.]
Synopsis [Experiments with history AIG recording.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - April 28, 2007.]
Revision [$Id: saigHaig.c,v 1.00 2007/04/28 00:00:00 alanmi Exp $]
***********************************************************************/
#include "saig.h"
#include "src/sat/bsat/satSolver.h"
#include "src/sat/cnf/cnf.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Prepares the inductive case with speculative reduction.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Aig_ManHaigSpeculate( Aig_Man_t * pFrames, Aig_Obj_t * pObj )
{
Aig_Obj_t * pObjNew, * pObjNew2, * pObjRepr, * pObjReprNew;//, * pMiter;
Aig_Obj_t * pPo;
// skip nodes without representative
pObjRepr = pObj->pHaig;
if ( pObjRepr == NULL )
return;
// assert( pObjRepr->Id < pObj->Id );
// get the new node
pObjNew = (Aig_Obj_t *)pObj->pData;
// get the new node of the representative
pObjReprNew = (Aig_Obj_t *)pObjRepr->pData;
// if this is the same node, no need to add constraints
assert( pObjNew != NULL && pObjReprNew != NULL );
if ( Aig_Regular(pObjNew) == Aig_Regular(pObjReprNew) )
return;
// these are different nodes - perform speculative reduction
pObjNew2 = Aig_NotCond( pObjReprNew, pObj->fPhase ^ pObjRepr->fPhase );
// set the new node
pObj->pData = pObjNew2;
// add the constraint
if ( pObj->fMarkA )
return;
// pMiter = Aig_Exor( pFrames, pObjNew, pObjReprNew );
// pMiter = Aig_NotCond( pMiter, !Aig_ObjPhaseReal(pMiter) );
// assert( Aig_ObjPhaseReal(pMiter) == 1 );
// Aig_ObjCreateCo( pFrames, pMiter );
if ( Aig_ObjPhaseReal(pObjNew) != Aig_ObjPhaseReal(pObjReprNew) )
pObjReprNew = Aig_Not(pObjReprNew);
pPo = Aig_ObjCreateCo( pFrames, pObjNew );
Aig_ObjCreateCo( pFrames, pObjReprNew );
// remember the node corresponding to this PO
pPo->pData = pObj;
}
/**Function*************************************************************
Synopsis [Prepares the inductive case with speculative reduction.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Aig_Man_t * Aig_ManHaigFrames( Aig_Man_t * pHaig, int nFrames )
{
Aig_Man_t * pFrames;
Aig_Obj_t * pObj, * pObjLi, * pObjLo;
int i, f, nAssumptions = 0;
assert( nFrames == 1 || nFrames == 2 );
assert( nFrames == 1 || Saig_ManRegNum(pHaig) > 0 );
// start AIG manager for timeframes
pFrames = Aig_ManStart( Aig_ManNodeNum(pHaig) * nFrames );
pFrames->pName = Abc_UtilStrsav( pHaig->pName );
pFrames->pSpec = Abc_UtilStrsav( pHaig->pSpec );
// map the constant node
Aig_ManConst1(pHaig)->pData = Aig_ManConst1( pFrames );
// create variables for register outputs
Saig_ManForEachLo( pHaig, pObj, i )
pObj->pData = Aig_ObjCreateCi( pFrames );
// add timeframes
Aig_ManSetCioIds( pHaig );
for ( f = 0; f < nFrames; f++ )
{
// create primary inputs
Saig_ManForEachPi( pHaig, pObj, i )
pObj->pData = Aig_ObjCreateCi( pFrames );
// create internal nodes
Aig_ManForEachNode( pHaig, pObj, i )
{
pObj->pData = Aig_And( pFrames, Aig_ObjChild0Copy(pObj), Aig_ObjChild1Copy(pObj) );
Aig_ManHaigSpeculate( pFrames, pObj );
}
if ( f == nFrames - 2 )
nAssumptions = Aig_ManCoNum(pFrames);
if ( f == nFrames - 1 )
break;
// save register inputs
Saig_ManForEachLi( pHaig, pObj, i )
pObj->pData = Aig_ObjChild0Copy(pObj);
// transfer to register outputs
Saig_ManForEachLiLo( pHaig, pObjLi, pObjLo, i )
pObjLo->pData = pObjLi->pData;
}
Aig_ManCleanup( pFrames );
pFrames->nAsserts = Aig_ManCoNum(pFrames) - nAssumptions;
Aig_ManSetRegNum( pFrames, 0 );
return pFrames;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Aig_ManMapHaigNodes( Aig_Man_t * pHaig )
{
Aig_Obj_t * pObj1, * pObj2;
int Id1, Id2, i, Counter = 0;
Aig_ManForEachObj( pHaig, pObj1, i )
pObj1->pHaig = NULL;
Vec_IntForEachEntry( pHaig->vEquPairs, Id1, i )
{
Id2 = Vec_IntEntry( pHaig->vEquPairs, ++i );
pObj1 = Aig_ManObj( pHaig, Id1 );
pObj2 = Aig_ManObj( pHaig, Id2 );
assert( pObj1 != pObj2 );
assert( !Aig_ObjIsCi(pObj1) || !Aig_ObjIsCi(pObj2) );
if ( Aig_ObjIsCi(pObj1) )
{
Counter += (int)(pObj2->pHaig != NULL);
pObj2->pHaig = pObj1;
}
else if ( Aig_ObjIsCi(pObj2) )
{
Counter += (int)(pObj1->pHaig != NULL);
pObj1->pHaig = pObj2;
}
else if ( pObj1->Id < pObj2->Id )
{
Counter += (int)(pObj2->pHaig != NULL);
pObj2->pHaig = pObj1;
}
else
{
Counter += (int)(pObj1->pHaig != NULL);
pObj1->pHaig = pObj2;
}
}
// printf( "Overwrites %d out of %d.\n", Counter, Vec_IntSize(pHaig->vEquPairs)/2 );
return Counter;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Aig_ManHaigVerify( Aig_Man_t * p, Aig_Man_t * pAig, Aig_Man_t * pHaig, int nFrames, clock_t clkSynth )
{
int nBTLimit = 0;
Aig_Man_t * pFrames, * pTemp;
Cnf_Dat_t * pCnf;
sat_solver * pSat;
Aig_Obj_t * pObj1, * pObj2;
int i, RetValue1, RetValue2, Counter, Lits[2], nOvers;
clock_t clk = clock(), clkVerif;
nOvers = Aig_ManMapHaigNodes( pHaig );
// create time frames with speculative reduction and convert them into CNF
clk = clock();
pFrames = Aig_ManHaigFrames( pHaig, nFrames );
Aig_ManCleanMarkA( pHaig );
printf( "Frames: " );
Aig_ManPrintStats( pFrames );
pFrames = Dar_ManRwsat( pTemp = pFrames, 1, 0 );
Aig_ManStop( pTemp );
printf( "Frames synt:" );
Aig_ManPrintStats( pFrames );
printf( "Additional frames stats: Assumptions = %d. Assertions = %d. Pairs = %d. Over = %d.\n",
Aig_ManCoNum(pFrames)/2 - pFrames->nAsserts/2, pFrames->nAsserts/2, Vec_IntSize(pHaig->vEquPairs)/2, nOvers );
// pCnf = Cnf_DeriveSimple( pFrames, Aig_ManCoNum(pFrames) );
pCnf = Cnf_Derive( pFrames, Aig_ManCoNum(pFrames) );
// pCnf = Cnf_Derive( pFrames, Aig_ManCoNum(pFrames) - pFrames->nAsserts );
//Cnf_DataWriteIntoFile( pCnf, "temp.cnf", 1 );
// Saig_ManDumpBlif( pHaig, "haig_temp.blif" );
// Saig_ManDumpBlif( pFrames, "haig_temp_frames.blif" );
// create the SAT solver to be used for this problem
pSat = (sat_solver *)Cnf_DataWriteIntoSolver( pCnf, 1, 0 );
if ( pSat == NULL )
{
printf( "Aig_ManHaigVerify(): Computed CNF is not valid.\n" );
return 0;
}
if ( nFrames == 2 )
{
// add clauses for the first frame
Aig_ManForEachCo( pFrames, pObj1, i )
{
if ( i >= Aig_ManCoNum(pFrames) - pFrames->nAsserts )
break;
pObj2 = Aig_ManCo( pFrames, ++i );
assert( pObj1->fPhase == pObj2->fPhase );
Lits[0] = toLitCond( pCnf->pVarNums[pObj1->Id], 0 );
Lits[1] = toLitCond( pCnf->pVarNums[pObj2->Id], 1 );
if ( !sat_solver_addclause( pSat, Lits, Lits + 2 ) )
{
sat_solver_delete( pSat );
return 0;
}
Lits[0]++;
Lits[1]--;
if ( !sat_solver_addclause( pSat, Lits, Lits + 2 ) )
{
sat_solver_delete( pSat );
return 0;
}
}
if ( !sat_solver_simplify(pSat) )
{
sat_solver_delete( pSat );
return 0;
}
}
ABC_PRT( "Preparation", clock() - clk );
// check in the second timeframe
clk = clock();
Counter = 0;
printf( "Started solving ...\r" );
Aig_ManForEachCo( pFrames, pObj1, i )
{
if ( i < Aig_ManCoNum(pFrames) - pFrames->nAsserts )
continue;
pObj2 = Aig_ManCo( pFrames, ++i );
assert( pObj1->fPhase == pObj2->fPhase );
Lits[0] = toLitCond( pCnf->pVarNums[pObj1->Id], 0 );
Lits[1] = toLitCond( pCnf->pVarNums[pObj2->Id], 1 );
RetValue1 = sat_solver_solve( pSat, Lits, Lits + 2, (ABC_INT64_T)nBTLimit, (ABC_INT64_T)0, (ABC_INT64_T)0, (ABC_INT64_T)0 );
if ( RetValue1 == l_False )
{
Lits[0] = lit_neg( Lits[0] );
Lits[1] = lit_neg( Lits[1] );
// RetValue = sat_solver_addclause( pSat, Lits, Lits + 2 );
// assert( RetValue );
}
Lits[0]++;
Lits[1]--;
RetValue2 = sat_solver_solve( pSat, Lits, Lits + 2, (ABC_INT64_T)nBTLimit, (ABC_INT64_T)0, (ABC_INT64_T)0, (ABC_INT64_T)0 );
if ( RetValue2 == l_False )
{
Lits[0] = lit_neg( Lits[0] );
Lits[1] = lit_neg( Lits[1] );
// RetValue = sat_solver_addclause( pSat, Lits, Lits + 2 );
// assert( RetValue );
}
if ( RetValue1 != l_False || RetValue2 != l_False )
Counter++;
if ( i % 50 == 1 )
printf( "Solving assertion %6d out of %6d.\r",
(i - (Aig_ManCoNum(pFrames) - pFrames->nAsserts))/2,
pFrames->nAsserts/2 );
// if ( nClasses == 1000 )
// break;
}
printf( " \r" );
ABC_PRT( "Solving ", clock() - clk );
clkVerif = clock() - clk;
if ( Counter )
printf( "Verification failed for %d out of %d assertions.\n", Counter, pFrames->nAsserts/2 );
else
printf( "Verification is successful for all %d assertions.\n", pFrames->nAsserts/2 );
// print the statistic into a file
{
FILE * pTable;
Aig_Man_t * pTemp, * pHaig2;
pHaig2 = pAig->pManHaig;
pAig->pManHaig = NULL;
pTemp = Aig_ManDupDfs( pAig );
pAig->pManHaig = pHaig2;
Aig_ManSeqCleanup( pTemp );
pTable = fopen( "stats.txt", "a+" );
fprintf( pTable, "%s ", p->pName );
fprintf( pTable, "%d ", Saig_ManPiNum(p) );
fprintf( pTable, "%d ", Saig_ManPoNum(p) );
fprintf( pTable, "%d ", Saig_ManRegNum(p) );
fprintf( pTable, "%d ", Aig_ManNodeNum(p) );
fprintf( pTable, "%d ", Aig_ManLevelNum(p) );
fprintf( pTable, "%d ", Saig_ManRegNum(pTemp) );
fprintf( pTable, "%d ", Aig_ManNodeNum(pTemp) );
fprintf( pTable, "%d ", Aig_ManLevelNum(pTemp) );
fprintf( pTable, "%d ", Saig_ManRegNum(pHaig) );
fprintf( pTable, "%d ", Aig_ManNodeNum(pHaig) );
fprintf( pTable, "%d ", Aig_ManLevelNum(pHaig) );
fprintf( pTable, "%.2f", (float)(clkSynth)/(float)(CLOCKS_PER_SEC) );
fprintf( pTable, "\n" );
fclose( pTable );
pTable = fopen( "stats2.txt", "a+" );
fprintf( pTable, "%s ", p->pName );
fprintf( pTable, "%d ", Aig_ManNodeNum(pFrames) );
fprintf( pTable, "%d ", Aig_ManLevelNum(pFrames) );
fprintf( pTable, "%d ", pCnf->nVars );
fprintf( pTable, "%d ", pCnf->nClauses );
fprintf( pTable, "%d ", pCnf->nLiterals );
fprintf( pTable, "%d ", Aig_ManCoNum(pFrames)/2 - pFrames->nAsserts/2 );
fprintf( pTable, "%d ", pFrames->nAsserts/2 );
fprintf( pTable, "%d ", Vec_IntSize(pHaig->vEquPairs)/2 );
fprintf( pTable, "%.2f", (float)(clkVerif)/(float)(CLOCKS_PER_SEC) );
fprintf( pTable, "\n" );
fclose( pTable );
Aig_ManStop( pTemp );
}
// clean up
Aig_ManStop( pFrames );
Cnf_DataFree( pCnf );
sat_solver_delete( pSat );
return 1;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Aig_ManHaigVerify2( Aig_Man_t * p, Aig_Man_t * pAig, Aig_Man_t * pHaig, int nFrames )
{
int nBTLimit = 0;
Cnf_Dat_t * pCnf;
sat_solver * pSat;
Aig_Obj_t * pObj1, * pObj2;
int i, RetValue1, RetValue2, Counter, Lits[2];
clock_t clk = clock();
int Delta;
int Id1, Id2;
assert( nFrames == 1 || nFrames == 2 );
clk = clock();
pCnf = Cnf_DeriveSimple( pHaig, Aig_ManCoNum(pHaig) );
// Aig_ManForEachObj( pHaig, pObj, i )
// printf( "%d=%d ", pObj->Id, pCnf->pVarNums[pObj->Id] );
// printf( "\n" );
// create the SAT solver to be used for this problem
pSat = (sat_solver *)Cnf_DataWriteIntoSolver( pCnf, nFrames, 0 );
//Sat_SolverWriteDimacs( pSat, "1.cnf", NULL, NULL, 0 );
if ( pSat == NULL )
{
printf( "Aig_ManHaigVerify(): Computed CNF is not valid.\n" );
return -1;
}
if ( nFrames == 2 )
{
Vec_IntForEachEntry( pHaig->vEquPairs, Id1, i )
{
Id2 = Vec_IntEntry( pHaig->vEquPairs, ++i );
pObj1 = Aig_ManObj( pHaig, Id1 );
pObj2 = Aig_ManObj( pHaig, Id2 );
if ( pObj1->fPhase ^ pObj2->fPhase )
{
Lits[0] = toLitCond( pCnf->pVarNums[pObj1->Id], 0 );
Lits[1] = toLitCond( pCnf->pVarNums[pObj2->Id], 0 );
if ( !sat_solver_addclause( pSat, Lits, Lits + 2 ) )
{
sat_solver_delete( pSat );
return 0;
}
Lits[0]++;
Lits[1]++;
if ( !sat_solver_addclause( pSat, Lits, Lits + 2 ) )
{
sat_solver_delete( pSat );
return 0;
}
}
else
{
Lits[0] = toLitCond( pCnf->pVarNums[pObj1->Id], 0 );
Lits[1] = toLitCond( pCnf->pVarNums[pObj2->Id], 1 );
if ( !sat_solver_addclause( pSat, Lits, Lits + 2 ) )
{
sat_solver_delete( pSat );
return 0;
}
Lits[0]++;
Lits[1]--;
if ( !sat_solver_addclause( pSat, Lits, Lits + 2 ) )
{
sat_solver_delete( pSat );
return 0;
}
}
}
if ( !sat_solver_simplify(pSat) )
{
sat_solver_delete( pSat );
return 0;
}
}
ABC_PRT( "Preparation", clock() - clk );
// check in the second timeframe
clk = clock();
Counter = 0;
Delta = (nFrames == 2)? pCnf->nVars : 0;
Vec_IntForEachEntry( pHaig->vEquPairs, Id1, i )
{
Id2 = Vec_IntEntry( pHaig->vEquPairs, ++i );
pObj1 = Aig_ManObj( pHaig, Id1 );
pObj2 = Aig_ManObj( pHaig, Id2 );
if ( pObj1->fPhase ^ pObj2->fPhase )
{
Lits[0] = toLitCond( pCnf->pVarNums[pObj1->Id]+Delta, 0 );
Lits[1] = toLitCond( pCnf->pVarNums[pObj2->Id]+Delta, 0 );
RetValue1 = sat_solver_solve( pSat, Lits, Lits + 2, (ABC_INT64_T)nBTLimit, (ABC_INT64_T)0, (ABC_INT64_T)0, (ABC_INT64_T)0 );
Lits[0]++;
Lits[1]++;
RetValue2 = sat_solver_solve( pSat, Lits, Lits + 2, (ABC_INT64_T)nBTLimit, (ABC_INT64_T)0, (ABC_INT64_T)0, (ABC_INT64_T)0 );
if ( RetValue1 != l_False || RetValue2 != l_False )
Counter++;
}
else
{
Lits[0] = toLitCond( pCnf->pVarNums[pObj1->Id]+Delta, 0 );
Lits[1] = toLitCond( pCnf->pVarNums[pObj2->Id]+Delta, 1 );
RetValue1 = sat_solver_solve( pSat, Lits, Lits + 2, (ABC_INT64_T)nBTLimit, (ABC_INT64_T)0, (ABC_INT64_T)0, (ABC_INT64_T)0 );
Lits[0]++;
Lits[1]--;
RetValue2 = sat_solver_solve( pSat, Lits, Lits + 2, (ABC_INT64_T)nBTLimit, (ABC_INT64_T)0, (ABC_INT64_T)0, (ABC_INT64_T)0 );
if ( RetValue1 != l_False || RetValue2 != l_False )
Counter++;
}
if ( i % 50 == 1 )
printf( "Solving assertion %6d out of %6d.\r", i/2, Vec_IntSize(pHaig->vEquPairs)/2 );
// if ( i / 2 > 1000 )
// break;
}
ABC_PRT( "Solving ", clock() - clk );
if ( Counter )
printf( "Verification failed for %d out of %d classes.\n", Counter, Vec_IntSize(pHaig->vEquPairs)/2 );
else
printf( "Verification is successful for all %d classes.\n", Vec_IntSize(pHaig->vEquPairs)/2 );
Cnf_DataFree( pCnf );
sat_solver_delete( pSat );
return 1;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Aig_Man_t * Saig_ManHaigDump( Aig_Man_t * pHaig )
{
Vec_Ptr_t * vTemp;
Aig_Obj_t * pObj, * pObj1, * pObj2, * pMiter;
int Id1, Id2, i;
// remove regular POs
Aig_ManSetCioIds( pHaig );
vTemp = Vec_PtrAlloc( Saig_ManRegNum(pHaig) );
Aig_ManForEachCo( pHaig, pObj, i )
{
if ( Saig_ObjIsPo(pHaig, pObj) )
{
Aig_ObjDisconnect( pHaig, pObj );
Vec_PtrWriteEntry( pHaig->vObjs, pObj->Id, NULL );
}
else
{
Vec_PtrPush( vTemp, pObj );
}
}
Vec_PtrShrink( pHaig->vCos, 0 );
pHaig->nObjs[AIG_OBJ_CO] = Vec_PtrSize( vTemp );
// add new POs
Vec_IntForEachEntry( pHaig->vEquPairs, Id1, i )
{
Id2 = Vec_IntEntry( pHaig->vEquPairs, ++i );
pObj1 = Aig_ManObj( pHaig, Id1 );
pObj2 = Aig_ManObj( pHaig, Id2 );
assert( pObj1 != pObj2 );
assert( !Aig_ObjIsCi(pObj1) || !Aig_ObjIsCi(pObj2) );
pMiter = Aig_Exor( pHaig, pObj1, pObj2 );
pMiter = Aig_NotCond( pMiter, Aig_ObjPhaseReal(pMiter) );
assert( Aig_ObjPhaseReal(pMiter) == 0 );
Aig_ObjCreateCo( pHaig, pMiter );
}
printf( "Added %d property outputs.\n", Vec_IntSize(pHaig->vEquPairs)/2 );
// add the registers
Vec_PtrForEachEntry( Aig_Obj_t *, vTemp, pObj, i )
Vec_PtrPush( pHaig->vCos, pObj );
Vec_PtrFree( vTemp );
assert( pHaig->nObjs[AIG_OBJ_CO] == Vec_PtrSize(pHaig->vCos) );
Aig_ManCleanup( pHaig );
Aig_ManSetRegNum( pHaig, pHaig->nRegs );
// return pHaig;
printf( "HAIG: " );
Aig_ManPrintStats( pHaig );
printf( "HAIG is written into file \"haig.blif\".\n" );
Saig_ManDumpBlif( pHaig, "haig.blif" );
Vec_IntFree( pHaig->vEquPairs );
Aig_ManStop( pHaig );
return NULL;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Aig_Man_t * Saig_ManHaigRecord( Aig_Man_t * p, int nIters, int nSteps, int fRetimingOnly, int fAddBugs, int fUseCnf, int fVerbose )
{
int fSeqHaig = (int)( Aig_ManRegNum(p) > 0 );
Dar_RwrPar_t ParsRwr, * pParsRwr = &ParsRwr;
Aig_Man_t * pNew, * pTemp;
Aig_Obj_t * pObj;
int i, k, nStepsReal;
clock_t clk = clock(), clkSynth;
Dar_ManDefaultRwrParams( pParsRwr );
clk = clock();
// duplicate this manager
pNew = Aig_ManDupSimple( p );
// create its history AIG
pNew->pManHaig = Aig_ManDupSimple( pNew );
Aig_ManForEachObj( pNew, pObj, i )
pObj->pHaig = (Aig_Obj_t *)pObj->pData;
// remove structural hashing table
Aig_TableClear( pNew->pManHaig );
pNew->pManHaig->vEquPairs = Vec_IntAlloc( 10000 );
ABC_PRT( "HAIG setup time", clock() - clk );
clk = clock();
if ( fSeqHaig )
{
if ( fRetimingOnly )
{
// perform retiming
nStepsReal = Saig_ManRetimeSteps( pNew, nSteps, 1, fAddBugs );
pNew = Aig_ManDupSimpleDfs( pTemp = pNew );
Aig_ManStop( pTemp );
printf( "Performed %d retiming moves.\n", nStepsReal );
}
else
{
for ( k = 0; k < nIters; k++ )
{
// perform balancing
pNew = Dar_ManBalance( pTemp = pNew, 0 );
Aig_ManStop( pTemp );
// perform rewriting
Dar_ManRewrite( pNew, pParsRwr );
pNew = Aig_ManDupDfs( pTemp = pNew );
Aig_ManStop( pTemp );
// perform retiming
nStepsReal = Saig_ManRetimeSteps( pNew, nSteps, 1, fAddBugs );
pNew = Aig_ManDupSimpleDfs( pTemp = pNew );
Aig_ManStop( pTemp );
printf( "Performed %d retiming moves.\n", nStepsReal );
}
}
}
else
{
for ( k = 0; k < nIters; k++ )
{
// perform balancing
pNew = Dar_ManBalance( pTemp = pNew, 0 );
Aig_ManStop( pTemp );
// perform rewriting
Dar_ManRewrite( pNew, pParsRwr );
pNew = Aig_ManDupDfs( pTemp = pNew );
Aig_ManStop( pTemp );
}
}
ABC_PRT( "Synthesis time ", clock() - clk );
clkSynth = clock() - clk;
// use the haig for verification
// Aig_ManAntiCleanup( pNew->pManHaig );
Aig_ManSetRegNum( pNew->pManHaig, pNew->pManHaig->nRegs );
//Aig_ManShow( pNew->pManHaig, 0, NULL );
printf( "AIG before: " );
Aig_ManPrintStats( p );
printf( "AIG after: " );
Aig_ManPrintStats( pNew );
printf( "HAIG: " );
Aig_ManPrintStats( pNew->pManHaig );
if ( fUseCnf )
{
if ( !Aig_ManHaigVerify2( p, pNew, pNew->pManHaig, 1+fSeqHaig ) )
printf( "Constructing SAT solver has failed.\n" );
}
else
{
if ( !Aig_ManHaigVerify( p, pNew, pNew->pManHaig, 1+fSeqHaig, clkSynth ) )
printf( "Constructing SAT solver has failed.\n" );
}
Saig_ManHaigDump( pNew->pManHaig );
pNew->pManHaig = NULL;
return pNew;
/*
// cleanup
Vec_IntFree( pNew->pManHaig->vEquPairs );
Aig_ManStop( pNew->pManHaig );
pNew->pManHaig = NULL;
return pNew;
*/
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
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