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/**CFile****************************************************************
FileName [abcCut.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Network and node package.]
Synopsis [Interface to cut computation.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: abcCut.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#include "abc.h"
#include "cut.h"
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
static void Abc_NtkPrintCuts( void * p, Abc_Ntk_t * pNtk, int fSeq );
static void Abc_NtkPrintCuts_( void * p, Abc_Ntk_t * pNtk, int fSeq );
extern int nTotal, nGood, nEqual;
static Vec_Int_t * Abc_NtkGetNodeAttributes( Abc_Ntk_t * pNtk );
static int Abc_NtkComputeArea( Abc_Ntk_t * pNtk, Cut_Man_t * p );
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Cut_Man_t * Abc_NtkCuts( Abc_Ntk_t * pNtk, Cut_Params_t * pParams )
{
ProgressBar * pProgress;
Cut_Man_t * p;
Abc_Obj_t * pObj, * pNode;
Vec_Ptr_t * vNodes;
Vec_Int_t * vChoices;
int i;
int clk = clock();
extern void Abc_NtkBalanceAttach( Abc_Ntk_t * pNtk );
extern void Abc_NtkBalanceDetach( Abc_Ntk_t * pNtk );
nTotal = nGood = nEqual = 0;
assert( Abc_NtkIsStrash(pNtk) );
// start the manager
pParams->nIdsMax = Abc_NtkObjNumMax( pNtk );
p = Cut_ManStart( pParams );
// compute node attributes if local or global cuts are requested
if ( pParams->fGlobal || pParams->fLocal )
{
extern Vec_Int_t * Abc_NtkGetNodeAttributes( Abc_Ntk_t * pNtk );
Cut_ManSetNodeAttrs( p, Abc_NtkGetNodeAttributes(pNtk) );
}
// prepare for cut dropping
if ( pParams->fDrop )
Cut_ManSetFanoutCounts( p, Abc_NtkFanoutCounts(pNtk) );
// set cuts for PIs
Abc_NtkForEachCi( pNtk, pObj, i )
if ( Abc_ObjFanoutNum(pObj) > 0 )
Cut_NodeSetTriv( p, pObj->Id );
// compute cuts for internal nodes
vNodes = Abc_AigDfs( pNtk, 0, 1 ); // collects POs
vChoices = Vec_IntAlloc( 100 );
pProgress = Extra_ProgressBarStart( stdout, Vec_PtrSize(vNodes) );
Vec_PtrForEachEntry( vNodes, pObj, i )
{
// when we reached a CO, it is time to deallocate the cuts
if ( Abc_ObjIsCo(pObj) )
{
if ( pParams->fDrop )
Cut_NodeTryDroppingCuts( p, Abc_ObjFaninId0(pObj) );
continue;
}
// skip constant node, it has no cuts
// if ( Abc_NodeIsConst(pObj) )
// continue;
Extra_ProgressBarUpdate( pProgress, i, NULL );
// compute the cuts to the internal node
Abc_NodeGetCuts( p, pObj, pParams->fDag, pParams->fTree );
// consider dropping the fanins cuts
if ( pParams->fDrop )
{
Cut_NodeTryDroppingCuts( p, Abc_ObjFaninId0(pObj) );
Cut_NodeTryDroppingCuts( p, Abc_ObjFaninId1(pObj) );
}
// add cuts due to choices
if ( Abc_AigNodeIsChoice(pObj) )
{
Vec_IntClear( vChoices );
for ( pNode = pObj; pNode; pNode = pNode->pData )
Vec_IntPush( vChoices, pNode->Id );
Cut_NodeUnionCuts( p, vChoices );
}
}
Extra_ProgressBarStop( pProgress );
Vec_PtrFree( vNodes );
Vec_IntFree( vChoices );
Cut_ManPrintStats( p );
PRT( "TOTAL ", clock() - clk );
printf( "Area = %d.\n", Abc_NtkComputeArea( pNtk, p ) );
//Abc_NtkPrintCuts( p, pNtk, 0 );
// Cut_ManPrintStatsToFile( p, pNtk->pSpec, clock() - clk );
// temporary printout of stats
if ( nTotal )
printf( "Total cuts = %d. Good cuts = %d. Ratio = %5.2f\n", nTotal, nGood, ((double)nGood)/nTotal );
return p;
}
/**Function*************************************************************
Synopsis [Cut computation using the oracle.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Abc_NtkCutsOracle( Abc_Ntk_t * pNtk, Cut_Oracle_t * p )
{
Abc_Obj_t * pObj;
Vec_Ptr_t * vNodes;
int i, clk = clock();
int fDrop = Cut_OracleReadDrop(p);
assert( Abc_NtkIsStrash(pNtk) );
// prepare cut droppping
if ( fDrop )
Cut_OracleSetFanoutCounts( p, Abc_NtkFanoutCounts(pNtk) );
// set cuts for PIs
Abc_NtkForEachCi( pNtk, pObj, i )
if ( Abc_ObjFanoutNum(pObj) > 0 )
Cut_OracleNodeSetTriv( p, pObj->Id );
// compute cuts for internal nodes
vNodes = Abc_AigDfs( pNtk, 0, 1 ); // collects POs
Vec_PtrForEachEntry( vNodes, pObj, i )
{
// when we reached a CO, it is time to deallocate the cuts
if ( Abc_ObjIsCo(pObj) )
{
if ( fDrop )
Cut_OracleTryDroppingCuts( p, Abc_ObjFaninId0(pObj) );
continue;
}
// skip constant node, it has no cuts
// if ( Abc_NodeIsConst(pObj) )
// continue;
// compute the cuts to the internal node
Cut_OracleComputeCuts( p, pObj->Id, Abc_ObjFaninId0(pObj), Abc_ObjFaninId1(pObj),
Abc_ObjFaninC0(pObj), Abc_ObjFaninC1(pObj) );
// consider dropping the fanins cuts
if ( fDrop )
{
Cut_OracleTryDroppingCuts( p, Abc_ObjFaninId0(pObj) );
Cut_OracleTryDroppingCuts( p, Abc_ObjFaninId1(pObj) );
}
}
Vec_PtrFree( vNodes );
//PRT( "Total", clock() - clk );
//Abc_NtkPrintCuts_( p, pNtk, 0 );
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Cut_Man_t * Abc_NtkSeqCuts( Abc_Ntk_t * pNtk, Cut_Params_t * pParams )
{
/*
Cut_Man_t * p;
Abc_Obj_t * pObj, * pNode;
int i, nIters, fStatus;
Vec_Int_t * vChoices;
int clk = clock();
assert( Abc_NtkIsSeq(pNtk) );
assert( pParams->fSeq );
// assert( Abc_NtkIsDfsOrdered(pNtk) );
// start the manager
pParams->nIdsMax = Abc_NtkObjNumMax( pNtk );
pParams->nCutSet = Abc_NtkCutSetNodeNum( pNtk );
p = Cut_ManStart( pParams );
// set cuts for the constant node and the PIs
pObj = Abc_AigConst1(pNtk);
if ( Abc_ObjFanoutNum(pObj) > 0 )
Cut_NodeSetTriv( p, pObj->Id );
Abc_NtkForEachPi( pNtk, pObj, i )
{
//printf( "Setting trivial cut %d.\n", pObj->Id );
Cut_NodeSetTriv( p, pObj->Id );
}
// label the cutset nodes and set their number in the array
// assign the elementary cuts to the cutset nodes
Abc_SeqForEachCutsetNode( pNtk, pObj, i )
{
assert( pObj->fMarkC == 0 );
pObj->fMarkC = 1;
pObj->pCopy = (Abc_Obj_t *)i;
Cut_NodeSetTriv( p, pObj->Id );
//printf( "Setting trivial cut %d.\n", pObj->Id );
}
// process the nodes
vChoices = Vec_IntAlloc( 100 );
for ( nIters = 0; nIters < 10; nIters++ )
{
//printf( "ITERATION %d:\n", nIters );
// compute the cuts for the internal nodes
Abc_AigForEachAnd( pNtk, pObj, i )
{
Abc_NodeGetCutsSeq( p, pObj, nIters==0 );
// add cuts due to choices
if ( Abc_AigNodeIsChoice(pObj) )
{
Vec_IntClear( vChoices );
for ( pNode = pObj; pNode; pNode = pNode->pData )
Vec_IntPush( vChoices, pNode->Id );
Cut_NodeUnionCutsSeq( p, vChoices, (pObj->fMarkC ? (int)pObj->pCopy : -1), nIters==0 );
}
}
// merge the new cuts with the old cuts
Abc_NtkForEachPi( pNtk, pObj, i )
Cut_NodeNewMergeWithOld( p, pObj->Id );
Abc_AigForEachAnd( pNtk, pObj, i )
Cut_NodeNewMergeWithOld( p, pObj->Id );
// for the cutset, transfer temp cuts to new cuts
fStatus = 0;
Abc_SeqForEachCutsetNode( pNtk, pObj, i )
fStatus |= Cut_NodeTempTransferToNew( p, pObj->Id, i );
if ( fStatus == 0 )
break;
}
Vec_IntFree( vChoices );
// if the status is not finished, transfer new to old for the cutset
Abc_SeqForEachCutsetNode( pNtk, pObj, i )
Cut_NodeNewMergeWithOld( p, pObj->Id );
// transfer the old cuts to the new positions
Abc_NtkForEachObj( pNtk, pObj, i )
Cut_NodeOldTransferToNew( p, pObj->Id );
// unlabel the cutset nodes
Abc_SeqForEachCutsetNode( pNtk, pObj, i )
pObj->fMarkC = 0;
if ( pParams->fVerbose )
{
Cut_ManPrintStats( p );
PRT( "TOTAL ", clock() - clk );
printf( "Converged after %d iterations.\n", nIters );
}
//Abc_NtkPrintCuts( p, pNtk, 1 );
return p;
*/
return NULL;
}
/**Function*************************************************************
Synopsis [Computes area.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Abc_NtkComputeArea( Abc_Ntk_t * pNtk, Cut_Man_t * p )
{
Abc_Obj_t * pObj;
int Counter, i;
Counter = 0;
Abc_NtkForEachCo( pNtk, pObj, i )
Counter += Cut_ManMappingArea_rec( p, Abc_ObjFaninId0(pObj) );
return Counter;
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void * Abc_NodeGetCutsRecursive( void * p, Abc_Obj_t * pObj, int fDag, int fTree )
{
void * pList;
if ( pList = Abc_NodeReadCuts( p, pObj ) )
return pList;
Abc_NodeGetCutsRecursive( p, Abc_ObjFanin0(pObj), fDag, fTree );
Abc_NodeGetCutsRecursive( p, Abc_ObjFanin1(pObj), fDag, fTree );
return Abc_NodeGetCuts( p, pObj, fDag, fTree );
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void * Abc_NodeGetCuts( void * p, Abc_Obj_t * pObj, int fDag, int fTree )
{
Abc_Obj_t * pFanin;
int fDagNode, fTriv, TreeCode = 0;
// assert( Abc_NtkIsStrash(pObj->pNtk) );
assert( Abc_ObjFaninNum(pObj) == 2 );
// check if the node is a DAG node
fDagNode = (Abc_ObjFanoutNum(pObj) > 1 && !Abc_NodeIsMuxControlType(pObj));
// increment the counter of DAG nodes
if ( fDagNode ) Cut_ManIncrementDagNodes( p );
// add the trivial cut if the node is a DAG node, or if we compute all cuts
fTriv = fDagNode || !fDag;
// check if fanins are DAG nodes
if ( fTree )
{
pFanin = Abc_ObjFanin0(pObj);
TreeCode |= (Abc_ObjFanoutNum(pFanin) > 1 && !Abc_NodeIsMuxControlType(pFanin));
pFanin = Abc_ObjFanin1(pObj);
TreeCode |= ((Abc_ObjFanoutNum(pFanin) > 1 && !Abc_NodeIsMuxControlType(pFanin)) << 1);
}
// changes due to the global/local cut computation
{
Cut_Params_t * pParams = Cut_ManReadParams(p);
if ( pParams->fLocal )
{
Vec_Int_t * vNodeAttrs = Cut_ManReadNodeAttrs(p);
fDagNode = Vec_IntEntry( vNodeAttrs, pObj->Id );
if ( fDagNode ) Cut_ManIncrementDagNodes( p );
// fTriv = fDagNode || !pParams->fGlobal;
fTriv = !Vec_IntEntry( vNodeAttrs, pObj->Id );
TreeCode = 0;
pFanin = Abc_ObjFanin0(pObj);
TreeCode |= Vec_IntEntry( vNodeAttrs, pFanin->Id );
pFanin = Abc_ObjFanin1(pObj);
TreeCode |= (Vec_IntEntry( vNodeAttrs, pFanin->Id ) << 1);
}
}
return Cut_NodeComputeCuts( p, pObj->Id, Abc_ObjFaninId0(pObj), Abc_ObjFaninId1(pObj),
Abc_ObjFaninC0(pObj), Abc_ObjFaninC1(pObj), fTriv, TreeCode );
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Abc_NodeGetCutsSeq( void * p, Abc_Obj_t * pObj, int fTriv )
{
/*
int CutSetNum;
assert( Abc_NtkIsSeq(pObj->pNtk) );
assert( Abc_ObjFaninNum(pObj) == 2 );
fTriv = pObj->fMarkC ? 0 : fTriv;
CutSetNum = pObj->fMarkC ? (int)pObj->pCopy : -1;
Cut_NodeComputeCutsSeq( p, pObj->Id, Abc_ObjFaninId0(pObj), Abc_ObjFaninId1(pObj),
Abc_ObjFaninC0(pObj), Abc_ObjFaninC1(pObj), Seq_ObjFaninL0(pObj), Seq_ObjFaninL1(pObj), fTriv, CutSetNum );
*/
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void * Abc_NodeReadCuts( void * p, Abc_Obj_t * pObj )
{
return Cut_NodeReadCutsNew( p, pObj->Id );
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Abc_NodeFreeCuts( void * p, Abc_Obj_t * pObj )
{
Cut_NodeFreeCuts( p, pObj->Id );
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Abc_NtkPrintCuts( void * p, Abc_Ntk_t * pNtk, int fSeq )
{
Cut_Man_t * pMan = p;
Cut_Cut_t * pList;
Abc_Obj_t * pObj;
int i;
printf( "Cuts of the network:\n" );
Abc_NtkForEachObj( pNtk, pObj, i )
{
pList = Abc_NodeReadCuts( p, pObj );
printf( "Node %s:\n", Abc_ObjName(pObj) );
Cut_CutPrintList( pList, fSeq );
}
}
/**Function*************************************************************
Synopsis [Computes the cuts for the network.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Abc_NtkPrintCuts_( void * p, Abc_Ntk_t * pNtk, int fSeq )
{
Cut_Man_t * pMan = p;
Cut_Cut_t * pList;
Abc_Obj_t * pObj;
pObj = Abc_NtkObj( pNtk, 2 * Abc_NtkObjNum(pNtk) / 3 );
pList = Abc_NodeReadCuts( p, pObj );
printf( "Node %s:\n", Abc_ObjName(pObj) );
Cut_CutPrintList( pList, fSeq );
}
/**Function*************************************************************
Synopsis [Assigns global attributes randomly.]
Description [Old code.]
SideEffects []
SeeAlso []
***********************************************************************/
Vec_Int_t * Abc_NtkGetNodeAttributes( Abc_Ntk_t * pNtk )
{
Vec_Int_t * vAttrs;
// Vec_Ptr_t * vNodes;
Abc_Obj_t * pObj;//, * pTemp;
int i;//, k;
int nNodesTotal = 0, nMffcsTotal = 0;
extern Vec_Ptr_t * Abc_NodeMffsInsideCollect( Abc_Obj_t * pNode );
vAttrs = Vec_IntStart( Abc_NtkObjNumMax(pNtk) + 1 );
// Abc_NtkForEachCi( pNtk, pObj, i )
// Vec_IntWriteEntry( vAttrs, pObj->Id, 1 );
Abc_NtkForEachObj( pNtk, pObj, i )
{
if ( Abc_ObjIsNode(pObj) )
nNodesTotal++;
if ( Abc_ObjIsCo(pObj) && Abc_ObjIsNode(Abc_ObjFanin0(pObj)) )
nMffcsTotal += Abc_NodeMffcSize( Abc_ObjFanin0(pObj) );
// if ( Abc_ObjIsNode(pObj) && (rand() % 4 == 0) )
// if ( Abc_ObjIsNode(pObj) && Abc_ObjFanoutNum(pObj) > 1 && !Abc_NodeIsMuxControlType(pObj) && (rand() % 3 == 0) )
if ( Abc_ObjIsNode(pObj) && Abc_ObjFanoutNum(pObj) > 1 && !Abc_NodeIsMuxControlType(pObj) )
{
int nMffc = Abc_NodeMffcSize(pObj);
nMffcsTotal += Abc_NodeMffcSize(pObj);
// printf( "%d ", nMffc );
if ( nMffc > 2 || Abc_ObjFanoutNum(pObj) > 8 )
Vec_IntWriteEntry( vAttrs, pObj->Id, 1 );
}
}
/*
Abc_NtkForEachObj( pNtk, pObj, i )
{
if ( Vec_IntEntry( vAttrs, pObj->Id ) )
{
vNodes = Abc_NodeMffsInsideCollect( pObj );
Vec_PtrForEachEntry( vNodes, pTemp, k )
if ( pTemp != pObj )
Vec_IntWriteEntry( vAttrs, pTemp->Id, 0 );
Vec_PtrFree( vNodes );
}
}
*/
printf( "Total nodes = %d. Total MFFC nodes = %d.\n", nNodesTotal, nMffcsTotal );
return vAttrs;
}
/**Function*************************************************************
Synopsis [Assigns global attributes randomly.]
Description [Old code.]
SideEffects []
SeeAlso []
***********************************************************************/
int Abc_NtkSubDagSize_rec( Abc_Obj_t * pObj, Vec_Int_t * vAttrs )
{
if ( Abc_NodeIsTravIdCurrent(pObj) )
return 0;
Abc_NodeSetTravIdCurrent(pObj);
if ( Vec_IntEntry( vAttrs, pObj->Id ) )
return 0;
if ( Abc_ObjIsCi(pObj) )
return 1;
assert( Abc_ObjFaninNum(pObj) == 2 );
return 1 + Abc_NtkSubDagSize_rec(Abc_ObjFanin0(pObj), vAttrs) +
Abc_NtkSubDagSize_rec(Abc_ObjFanin1(pObj), vAttrs);
}
/**Function*************************************************************
Synopsis [Assigns global attributes randomly.]
Description [Old code.]
SideEffects []
SeeAlso []
***********************************************************************/
Vec_Int_t * Abc_NtkGetNodeAttributes2( Abc_Ntk_t * pNtk )
{
Vec_Int_t * vAttrs;
Abc_Obj_t * pObj;
int i, nSize;
assert( Abc_NtkIsDfsOrdered(pNtk) );
vAttrs = Vec_IntStart( Abc_NtkObjNumMax(pNtk) + 1 );
Abc_NtkForEachObj( pNtk, pObj, i )
{
// skip no-nodes and nodes without fanouts
if ( pObj->Id == 0 || !(Abc_ObjIsNode(pObj) && Abc_ObjFanoutNum(pObj) > 1 && !Abc_NodeIsMuxControlType(pObj)) )
continue;
// the node has more than one fanout - count its sub-DAG size
Abc_NtkIncrementTravId( pNtk );
nSize = Abc_NtkSubDagSize_rec( pObj, vAttrs );
if ( nSize > 15 )
Vec_IntWriteEntry( vAttrs, pObj->Id, 1 );
}
return vAttrs;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
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