/**CFile**************************************************************** FileName [ifMan.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [FPGA mapping based on priority cuts.] Synopsis [Mapping manager.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - November 21, 2006.] Revision [$Id: ifMan.c,v 1.00 2006/11/21 00:00:00 alanmi Exp $] ***********************************************************************/ #include "if.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// static If_Obj_t * If_ManSetupObj( If_Man_t * p ); static void If_ManCutSetRecycle( If_Man_t * p, If_Set_t * pSet ) { pSet->pNext = p->pFreeList; p->pFreeList = pSet; } static If_Set_t * If_ManCutSetFetch( If_Man_t * p ) { If_Set_t * pTemp = p->pFreeList; p->pFreeList = p->pFreeList->pNext; return pTemp; } //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Starts the AIG manager.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ If_Man_t * If_ManStart( If_Par_t * pPars ) { If_Man_t * p; int v; assert( !pPars->fUseDsd || !pPars->fUseTtPerm ); // start the manager p = ABC_ALLOC( If_Man_t, 1 ); memset( p, 0, sizeof(If_Man_t) ); p->pPars = pPars; p->fEpsilon = pPars->Epsilon; // allocate arrays for nodes p->vCis = Vec_PtrAlloc( 100 ); p->vCos = Vec_PtrAlloc( 100 ); p->vObjs = Vec_PtrAlloc( 100 ); p->vTemp = Vec_PtrAlloc( 100 ); // prepare the memory manager if ( p->pPars->fTruth ) { for ( v = 0; v <= p->pPars->nLutSize; v++ ) p->nTruth6Words[v] = Abc_Truth6WordNum( v ); for ( v = 6; v <= Abc_MaxInt(6,p->pPars->nLutSize); v++ ) p->vTtMem[v] = Vec_MemAllocForTT( v, pPars->fUseTtPerm ); for ( v = 0; v < 6; v++ ) p->vTtMem[v] = p->vTtMem[6]; if ( p->pPars->fDelayOpt || pPars->nGateSize > 0 ) { for ( v = 6; v <= Abc_MaxInt(6,p->pPars->nLutSize); v++ ) p->vTtIsops[v] = Vec_WecAlloc( 1000 ); for ( v = 6; v <= Abc_MaxInt(6,p->pPars->nLutSize); v++ ) Vec_WecInit( p->vTtIsops[v], 2 ); for ( v = 0; v < 6; v++ ) p->vTtIsops[v] = p->vTtIsops[6]; } if ( pPars->fDelayOpt || pPars->nGateSize > 0 || pPars->fDsdBalance ) { p->vCover = Vec_IntAlloc( 0 ); p->vArray = Vec_IntAlloc( 1000 ); } } p->nPermWords = p->pPars->fUsePerm? If_CutPermWords( p->pPars->nLutSize ) : 0; p->nObjBytes = sizeof(If_Obj_t) + sizeof(int) * (p->pPars->nLutSize + p->nPermWords); p->nCutBytes = sizeof(If_Cut_t) + sizeof(int) * (p->pPars->nLutSize + p->nPermWords); p->nSetBytes = sizeof(If_Set_t) + (sizeof(If_Cut_t *) + p->nCutBytes) * (p->pPars->nCutsMax + 1); p->pMemObj = Mem_FixedStart( p->nObjBytes ); // report expected memory usage if ( p->pPars->fVerbose ) Abc_Print( 1, "K = %d. Memory (bytes): Truth = %4d. Cut = %4d. Obj = %4d. Set = %4d. CutMin = %s\n", p->pPars->nLutSize, 8 * p->nTruth6Words[p->pPars->nLutSize], p->nCutBytes, p->nObjBytes, p->nSetBytes, p->pPars->fCutMin? "yes":"no" ); // room for temporary truth tables p->puTemp[0] = p->pPars->fTruth? ABC_ALLOC( unsigned, 8 * p->nTruth6Words[p->pPars->nLutSize] ) : NULL; p->puTemp[1] = p->puTemp[0] + p->nTruth6Words[p->pPars->nLutSize]*2; p->puTemp[2] = p->puTemp[1] + p->nTruth6Words[p->pPars->nLutSize]*2; p->puTemp[3] = p->puTemp[2] + p->nTruth6Words[p->pPars->nLutSize]*2; p->puTempW = p->pPars->fTruth? ABC_ALLOC( word, p->nTruth6Words[p->pPars->nLutSize] ) : NULL; if ( pPars->fUseDsd ) { for ( v = 6; v <= Abc_MaxInt(6,p->pPars->nLutSize); v++ ) { p->vTtDsds[v] = Vec_IntAlloc( 1000 ); Vec_IntPush( p->vTtDsds[v], 0 ); Vec_IntPush( p->vTtDsds[v], 2 ); p->vTtPerms[v] = Vec_StrAlloc( 10000 ); Vec_StrFill( p->vTtPerms[v], 2 * v, IF_BIG_CHAR ); Vec_StrWriteEntry( p->vTtPerms[v], v, 0 ); } for ( v = 0; v < 6; v++ ) { p->vTtDsds[v] = p->vTtDsds[6]; p->vTtPerms[v] = p->vTtPerms[6]; } } if ( pPars->fUseTtPerm ) { p->vPairHash = Hash_IntManStart( 10000 ); p->vPairPerms = Vec_StrAlloc( 10000 ); Vec_StrFill( p->vPairPerms, p->pPars->nLutSize, 0 ); p->vPairRes = Vec_IntAlloc( 1000 ); Vec_IntPush( p->vPairRes, -1 ); } if ( pPars->fUseBat ) { // abctime clk = Abc_Clock(); extern int Bat_ManCellFuncLookup( void * pMan, unsigned * pTruth, int nVars, int nLeaves, char * pStr ); extern void Bat_ManFuncSetupTable(); pPars->pFuncCell = (int (*) (If_Man_t *, unsigned *, int, int, char *))Bat_ManCellFuncLookup; Bat_ManFuncSetupTable(); // Abc_PrintTime( 1, "Setup time", Abc_Clock() - clk ); } // create the constant node p->pConst1 = If_ManSetupObj( p ); p->pConst1->Type = IF_CONST1; p->pConst1->fPhase = 1; p->nObjs[IF_CONST1]++; return p; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManRestart( If_Man_t * p ) { ABC_FREE( p->pMemCi ); Vec_PtrClear( p->vCis ); Vec_PtrClear( p->vCos ); Vec_PtrClear( p->vObjs ); Vec_PtrClear( p->vTemp ); Mem_FixedRestart( p->pMemObj ); // create the constant node p->pConst1 = If_ManSetupObj( p ); p->pConst1->Type = IF_CONST1; p->pConst1->fPhase = 1; // reset the counter of other nodes p->nObjs[IF_CI] = p->nObjs[IF_CO] = p->nObjs[IF_AND] = 0; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManStop( If_Man_t * p ) { extern void If_ManCacheAnalize( If_Man_t * p ); int i; if ( p->pPars->fVerbose && p->vCutData ) If_ManCacheAnalize( p ); if ( p->pPars->fVerbose && p->pPars->fTruth ) { int nUnique = 0, nMemTotal = 0; for ( i = 6; i <= Abc_MaxInt(6,p->pPars->nLutSize); i++ ) nUnique += Vec_MemEntryNum(p->vTtMem[i]); for ( i = 6; i <= Abc_MaxInt(6,p->pPars->nLutSize); i++ ) nMemTotal += (int)Vec_MemMemory(p->vTtMem[i]); printf( "Unique truth tables = %d Memory = %.2f MB ", nUnique, 1.0 * nMemTotal / (1<<20) ); Abc_PrintTime( 1, "Time", p->timeCache[4] ); if ( p->nCacheMisses ) { printf( "Cache hits = %d. Cache misses = %d (%.2f %%)\n", p->nCacheHits, p->nCacheMisses, 100.0 * p->nCacheMisses / (p->nCacheHits + p->nCacheMisses) ); Abc_PrintTime( 1, "Non-DSD ", p->timeCache[0] ); Abc_PrintTime( 1, "DSD hits ", p->timeCache[1] ); Abc_PrintTime( 1, "DSD misses", p->timeCache[2] ); Abc_PrintTime( 1, "TOTAL ", p->timeCache[0] + p->timeCache[1] + p->timeCache[2] ); Abc_PrintTime( 1, "Canon ", p->timeCache[3] ); } } if ( p->pPars->fVerbose && p->nCutsUselessAll ) { for ( i = 0; i <= 16; i++ ) if ( p->nCutsUseless[i] ) Abc_Print( 1, "Useless cuts %2d = %9d (out of %9d) (%6.2f %%)\n", i, p->nCutsUseless[i], p->nCutsCount[i], 100.0*p->nCutsUseless[i]/(p->nCutsCount[i]+1) ); Abc_Print( 1, "Useless cuts all = %9d (out of %9d) (%6.2f %%)\n", p->nCutsUselessAll, p->nCutsCountAll, 100.0*p->nCutsUselessAll/(p->nCutsCountAll+1) ); } // if ( p->pPars->fVerbose && p->nCuts5 ) // Abc_Print( 1, "Statistics about 5-cuts: Total = %d Non-decomposable = %d (%.2f %%)\n", p->nCuts5, p->nCuts5-p->nCuts5a, 100.0*(p->nCuts5-p->nCuts5a)/p->nCuts5 ); if ( p->pIfDsdMan ) p->pIfDsdMan = NULL; if ( p->pPars->fUseDsd && (p->nCountNonDec[0] || p->nCountNonDec[1]) ) printf( "NonDec0 = %d. NonDec1 = %d.\n", p->nCountNonDec[0], p->nCountNonDec[1] ); Vec_IntFreeP( &p->vCoAttrs ); Vec_PtrFree( p->vCis ); Vec_PtrFree( p->vCos ); Vec_PtrFree( p->vObjs ); Vec_PtrFree( p->vTemp ); Vec_IntFreeP( &p->vCover ); Vec_IntFreeP( &p->vArray ); Vec_WrdFreeP( &p->vAnds ); Vec_WrdFreeP( &p->vAndGate ); Vec_WrdFreeP( &p->vOrGate ); Vec_PtrFreeP( &p->vObjsRev ); Vec_PtrFreeP( &p->vLatchOrder ); Vec_IntFreeP( &p->vLags ); for ( i = 6; i <= Abc_MaxInt(6,p->pPars->nLutSize); i++ ) Vec_IntFreeP( &p->vTtDsds[i] ); for ( i = 6; i <= Abc_MaxInt(6,p->pPars->nLutSize); i++ ) Vec_StrFreeP( &p->vTtPerms[i] ); Vec_IntFreeP( &p->vCutData ); Vec_IntFreeP( &p->vPairRes ); Vec_StrFreeP( &p->vPairPerms ); if ( p->vPairHash ) Hash_IntManStop( p->vPairHash ); for ( i = 6; i <= Abc_MaxInt(6,p->pPars->nLutSize); i++ ) Vec_MemHashFree( p->vTtMem[i] ); for ( i = 6; i <= Abc_MaxInt(6,p->pPars->nLutSize); i++ ) Vec_MemFreeP( &p->vTtMem[i] ); for ( i = 6; i <= Abc_MaxInt(6,p->pPars->nLutSize); i++ ) Vec_WecFreeP( &p->vTtIsops[i] ); Mem_FixedStop( p->pMemObj, 0 ); ABC_FREE( p->pMemCi ); ABC_FREE( p->pMemAnd ); ABC_FREE( p->puTemp[0] ); ABC_FREE( p->puTempW ); // free pars memory ABC_FREE( p->pPars->pTimesArr ); ABC_FREE( p->pPars->pTimesReq ); if ( p->pManTim ) Tim_ManStop( p->pManTim ); if ( p->vSwitching ) Vec_IntFree( p->vSwitching ); if ( p->pPars->fUseBat ) { extern void Bat_ManFuncSetdownTable(); Bat_ManFuncSetdownTable(); } // hash table // if ( p->pPars->fVerbose && p->nTableEntries[0] ) // printf( "Hash table 2: Entries = %7d. Size = %7d.\n", p->nTableEntries[0], p->nTableSize[0] ); // if ( p->pPars->fVerbose && p->nTableEntries[1] ) // printf( "Hash table 3: Entries = %7d. Size = %7d.\n", p->nTableEntries[1], p->nTableSize[1] ); ABC_FREE( p->pHashTable[0] ); ABC_FREE( p->pHashTable[1] ); if ( p->pMemEntries ) Mem_FixedStop( p->pMemEntries, 0 ); ABC_FREE( p->pName ); ABC_FREE( p ); } /**Function************************************************************* Synopsis [Creates primary input.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ If_Obj_t * If_ManCreateCi( If_Man_t * p ) { If_Obj_t * pObj; pObj = If_ManSetupObj( p ); pObj->Type = IF_CI; pObj->IdPio = Vec_PtrSize( p->vCis ); Vec_PtrPush( p->vCis, pObj ); p->nObjs[IF_CI]++; return pObj; } /**Function************************************************************* Synopsis [Creates primary output with the given driver.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ If_Obj_t * If_ManCreateCo( If_Man_t * p, If_Obj_t * pDriver ) { If_Obj_t * pObj; pObj = If_ManSetupObj( p ); pObj->IdPio = Vec_PtrSize( p->vCos ); Vec_PtrPush( p->vCos, pObj ); pObj->Type = IF_CO; pObj->fCompl0 = If_IsComplement(pDriver); pDriver = If_Regular(pDriver); pObj->pFanin0 = pDriver; pDriver->nRefs++; pObj->fPhase = (pObj->fCompl0 ^ pDriver->fPhase); pObj->Level = pDriver->Level; if ( p->nLevelMax < (int)pObj->Level ) p->nLevelMax = (int)pObj->Level; p->nObjs[IF_CO]++; return pObj; } /**Function************************************************************* Synopsis [Create the new node assuming it does not exist.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ If_Obj_t * If_ManCreateAnd( If_Man_t * p, If_Obj_t * pFan0, If_Obj_t * pFan1 ) { If_Obj_t * pObj; // perform constant propagation if ( pFan0 == pFan1 ) return pFan0; if ( pFan0 == If_Not(pFan1) ) return If_Not(p->pConst1); if ( If_Regular(pFan0) == p->pConst1 ) return pFan0 == p->pConst1 ? pFan1 : If_Not(p->pConst1); if ( If_Regular(pFan1) == p->pConst1 ) return pFan1 == p->pConst1 ? pFan0 : If_Not(p->pConst1); // get memory for the new object pObj = If_ManSetupObj( p ); pObj->Type = IF_AND; pObj->fCompl0 = If_IsComplement(pFan0); pFan0 = If_Regular(pFan0); pObj->fCompl1 = If_IsComplement(pFan1); pFan1 = If_Regular(pFan1); pObj->pFanin0 = pFan0; pFan0->nRefs++; pFan0->nVisits++; pFan0->nVisitsCopy++; pObj->pFanin1 = pFan1; pFan1->nRefs++; pFan1->nVisits++; pFan1->nVisitsCopy++; pObj->fPhase = (pObj->fCompl0 ^ pFan0->fPhase) & (pObj->fCompl1 ^ pFan1->fPhase); pObj->Level = 1 + IF_MAX( pFan0->Level, pFan1->Level ); if ( p->nLevelMax < (int)pObj->Level ) p->nLevelMax = (int)pObj->Level; p->nObjs[IF_AND]++; return pObj; } /**Function************************************************************* Synopsis [Create the new node assuming it does not exist.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ If_Obj_t * If_ManCreateXor( If_Man_t * p, If_Obj_t * pFan0, If_Obj_t * pFan1 ) { If_Obj_t * pRes1, * pRes2; pRes1 = If_ManCreateAnd( p, If_Not(pFan0), pFan1 ); pRes2 = If_ManCreateAnd( p, pFan0, If_Not(pFan1) ); return If_Not( If_ManCreateAnd( p, If_Not(pRes1), If_Not(pRes2) ) ); } /**Function************************************************************* Synopsis [Create the new node assuming it does not exist.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ If_Obj_t * If_ManCreateMux( If_Man_t * p, If_Obj_t * pFan0, If_Obj_t * pFan1, If_Obj_t * pCtrl ) { If_Obj_t * pRes1, * pRes2; pRes1 = If_ManCreateAnd( p, pFan0, If_Not(pCtrl) ); pRes2 = If_ManCreateAnd( p, pFan1, pCtrl ); return If_Not( If_ManCreateAnd( p, If_Not(pRes1), If_Not(pRes2) ) ); } /**Function************************************************************* Synopsis [Creates the choice node.] Description [Should be called after the equivalence class nodes are linked.] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManCreateChoice( If_Man_t * p, If_Obj_t * pObj ) { If_Obj_t * pTemp; // mark the node as a representative if its class assert( pObj->fRepr == 0 ); pObj->fRepr = 1; // update the level of this node (needed for correct required time computation) for ( pTemp = pObj; pTemp; pTemp = pTemp->pEquiv ) { pObj->Level = IF_MAX( pObj->Level, pTemp->Level ); pTemp->nVisits++; pTemp->nVisitsCopy++; } // mark the largest level if ( p->nLevelMax < (int)pObj->Level ) p->nLevelMax = (int)pObj->Level; p->nChoices++; } /**Function************************************************************* Synopsis [Prepares memory for one cutset.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManSetupSet( If_Man_t * p, If_Set_t * pSet ) { char * pArray; int i; pSet->nCuts = 0; pSet->nCutsMax = p->pPars->nCutsMax; pSet->ppCuts = (If_Cut_t **)(pSet + 1); pArray = (char *)pSet->ppCuts + sizeof(If_Cut_t *) * (pSet->nCutsMax+1); for ( i = 0; i <= pSet->nCutsMax; i++ ) { pSet->ppCuts[i] = (If_Cut_t *)(pArray + i * p->nCutBytes); If_CutSetup( p, pSet->ppCuts[i] ); } // pArray += (pSet->nCutsMax + 1) * p->nCutBytes; // assert( ((char *)pArray) - ((char *)pSet) == p->nSetBytes ); } /**Function************************************************************* Synopsis [Prepares memory for one cut.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManSetupCutTriv( If_Man_t * p, If_Cut_t * pCut, int ObjId ) { pCut->fCompl = 0; pCut->nLimit = p->pPars->nLutSize; pCut->nLeaves = 1; pCut->pLeaves[0] = p->pPars->fLiftLeaves? (ObjId << 8) : ObjId; pCut->uSign = If_ObjCutSign( pCut->pLeaves[0] ); pCut->iCutFunc = p->pPars->fUseTtPerm ? 3 : (p->pPars->fTruth ? 2: -1); pCut->uMaskFunc = 0; assert( pCut->pLeaves[0] < p->vObjs->nSize ); } /**Function************************************************************* Synopsis [Prepares memory for the node with cuts.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ If_Obj_t * If_ManSetupObj( If_Man_t * p ) { If_Obj_t * pObj; // get memory for the object pObj = (If_Obj_t *)Mem_FixedEntryFetch( p->pMemObj ); memset( pObj, 0, sizeof(If_Obj_t) ); If_CutSetup( p, &pObj->CutBest ); // assign ID and save pObj->Id = Vec_PtrSize(p->vObjs); Vec_PtrPush( p->vObjs, pObj ); // set the required times pObj->Required = IF_FLOAT_LARGE; return pObj; } /**Function************************************************************* Synopsis [Prepares memory for one cut.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManSetupCiCutSets( If_Man_t * p ) { If_Obj_t * pObj; int i; assert( p->pMemCi == NULL ); // create elementary cuts for the CIs If_ManForEachCi( p, pObj, i ) If_ManSetupCutTriv( p, &pObj->CutBest, pObj->Id ); // create elementary cutsets for the CIs p->pMemCi = (If_Set_t *)ABC_ALLOC( char, If_ManCiNum(p) * (sizeof(If_Set_t) + sizeof(void *)) ); If_ManForEachCi( p, pObj, i ) { pObj->pCutSet = (If_Set_t *)((char *)p->pMemCi + i * (sizeof(If_Set_t) + sizeof(void *))); pObj->pCutSet->nCuts = 1; pObj->pCutSet->nCutsMax = p->pPars->nCutsMax; pObj->pCutSet->ppCuts = (If_Cut_t **)(pObj->pCutSet + 1); pObj->pCutSet->ppCuts[0] = &pObj->CutBest; } } /**Function************************************************************* Synopsis [Prepares cutset of the node.] Description [Elementary cutset will be added last.] SideEffects [] SeeAlso [] ***********************************************************************/ If_Set_t * If_ManSetupNodeCutSet( If_Man_t * p, If_Obj_t * pObj ) { assert( If_ObjIsAnd(pObj) ); assert( pObj->pCutSet == NULL ); // pObj->pCutSet = (If_Set_t *)Mem_FixedEntryFetch( p->pMemSet ); // If_ManSetupSet( p, pObj->pCutSet ); pObj->pCutSet = If_ManCutSetFetch( p ); pObj->pCutSet->nCuts = 0; pObj->pCutSet->nCutsMax = p->pPars->nCutsMax; return pObj->pCutSet; } /**Function************************************************************* Synopsis [Dereferences cutset of the node.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManDerefNodeCutSet( If_Man_t * p, If_Obj_t * pObj ) { If_Obj_t * pFanin; assert( If_ObjIsAnd(pObj) ); // consider the node assert( pObj->nVisits >= 0 ); if ( pObj->nVisits == 0 ) { // Mem_FixedEntryRecycle( p->pMemSet, (char *)pObj->pCutSet ); If_ManCutSetRecycle( p, pObj->pCutSet ); pObj->pCutSet = NULL; } // consider the first fanin pFanin = If_ObjFanin0(pObj); assert( pFanin->nVisits > 0 ); if ( !If_ObjIsCi(pFanin) && --pFanin->nVisits == 0 ) { // Mem_FixedEntryRecycle( p->pMemSet, (char *)pFanin->pCutSet ); If_ManCutSetRecycle( p, pFanin->pCutSet ); pFanin->pCutSet = NULL; } // consider the second fanin pFanin = If_ObjFanin1(pObj); assert( pFanin->nVisits > 0 ); if ( !If_ObjIsCi(pFanin) && --pFanin->nVisits == 0 ) { // Mem_FixedEntryRecycle( p->pMemSet, (char *)pFanin->pCutSet ); If_ManCutSetRecycle( p, pFanin->pCutSet ); pFanin->pCutSet = NULL; } } /**Function************************************************************* Synopsis [Dereferences cutset of the node.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManDerefChoiceCutSet( If_Man_t * p, If_Obj_t * pObj ) { If_Obj_t * pTemp; assert( If_ObjIsAnd(pObj) ); assert( pObj->fRepr ); assert( pObj->nVisits > 0 ); // consider the nodes in the choice class for ( pTemp = pObj; pTemp; pTemp = pTemp->pEquiv ) { // assert( pTemp == pObj || pTemp->nVisits == 1 ); if ( --pTemp->nVisits == 0 ) { // Mem_FixedEntryRecycle( p->pMemSet, (char *)pTemp->pCutSet ); If_ManCutSetRecycle( p, pTemp->pCutSet ); pTemp->pCutSet = NULL; } } } /**Function************************************************************* Synopsis [Dereferences cutset of the node.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ManSetupSetAll( If_Man_t * p, int nCrossCut ) { If_Set_t * pCutSet; int i, nCutSets; nCutSets = 128 + nCrossCut; p->pFreeList = p->pMemAnd = pCutSet = (If_Set_t *)ABC_ALLOC( char, nCutSets * p->nSetBytes ); for ( i = 0; i < nCutSets; i++ ) { If_ManSetupSet( p, pCutSet ); if ( i == nCutSets - 1 ) pCutSet->pNext = NULL; else pCutSet->pNext = (If_Set_t *)( (char *)pCutSet + p->nSetBytes ); pCutSet = pCutSet->pNext; } assert( pCutSet == NULL ); if ( p->pPars->fVerbose ) { Abc_Print( 1, "Node = %7d. Ch = %5d. Total mem = %7.2f MB. Peak cut mem = %7.2f MB.\n", If_ManAndNum(p), p->nChoices, 1.0 * (p->nObjBytes + 2*sizeof(void *)) * If_ManObjNum(p) / (1<<20), 1.0 * p->nSetBytes * nCrossCut / (1<<20) ); } // Abc_Print( 1, "Cross cut = %d.\n", nCrossCut ); } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END