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author | Alan Mishchenko <alanmi@berkeley.edu> | 2014-02-16 19:49:10 -0800 |
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committer | Alan Mishchenko <alanmi@berkeley.edu> | 2014-02-16 19:49:10 -0800 |
commit | 2140c1298cee7f7ae7310bf208374447c5a0321e (patch) | |
tree | 5c8a26045463ac176828b0a8f6d4b32883dafb35 /src/base/abci/abcRec.c | |
parent | 46532e6c2f3d0dabdb03daad5c55f6f732311797 (diff) | |
download | abc-2140c1298cee7f7ae7310bf208374447c5a0321e.tar.gz abc-2140c1298cee7f7ae7310bf208374447c5a0321e.tar.bz2 abc-2140c1298cee7f7ae7310bf208374447c5a0321e.zip |
Removing unused LMS code.
Diffstat (limited to 'src/base/abci/abcRec.c')
-rw-r--r-- | src/base/abci/abcRec.c | 3110 |
1 files changed, 0 insertions, 3110 deletions
diff --git a/src/base/abci/abcRec.c b/src/base/abci/abcRec.c deleted file mode 100644 index 40a05661..00000000 --- a/src/base/abci/abcRec.c +++ /dev/null @@ -1,3110 +0,0 @@ -/**CFile**************************************************************** - - FileName [abcRec.c] - - SystemName [ABC: Logic synthesis and verification system.] - - PackageName [Network and node package.] - - Synopsis [Record of semi-canonical AIG subgraphs.] - - Author [Allan Yang, Alan Mishchenko] - - Affiliation [Fudan University in Shanghai, UC Berkeley] - - Date [Ver. 1.0. Started - June 20, 2005.] - - Revision [$Id: abcRec.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $] - -***********************************************************************/ - -#include "base/abc/abc.h" -#include "map/if/if.h" -#include "bool/kit/kit.h" - -ABC_NAMESPACE_IMPL_START - -//#define LibOut -//////////////////////////////////////////////////////////////////////// -/// DECLARATIONS /// -//////////////////////////////////////////////////////////////////////// - -typedef struct Abc_ManRec_t_ Abc_ManRec_t; -typedef struct Rec_Obj_t_ Rec_Obj_t; - -typedef enum { - REC_ERROR, //0: error - REC_SMALL, //1: smaller than - REC_EQUAL, //2: equal with - REC_BIG, //3: bigger than - REC_DOMINANCE, //4: dominance - REC_BEDOMINANCED //5: be dominated -} Abc_LookUpStatus_t; - -struct Rec_Obj_t_ -{ - Abc_Obj_t* obj; // the actual structure in the library - Rec_Obj_t* pNext; // link to the next structure of the same functional class - Rec_Obj_t* pCopy; // link to the next functional class in the same bucket - int Id; // structure's ID - int nFrequency; // appear times of this functional class among benchmarks - unsigned char cost; // structure's cost - char* pinToPinDelay; // structure's pin-to-pin delay -}; - - -struct Abc_ManRec_t_ -{ - Abc_Ntk_t * pNtk; // the record - Vec_Ptr_t * vTtElems; // the elementary truth tables - Vec_Ptr_t * vTtNodes; // the node truth tables - Mem_Fixed_t * pMmTruth; // memory manager for truth tables - Rec_Obj_t ** pBins; // hash table mapping truth tables into nodes - int nBins; // the number of allocated bins - int nVars; // the number of variables - int nVarsInit; // the number of variables requested initially - int nWords; // the number of TT words - int nCuts; // the max number of cuts to use - Mem_Fixed_t * pMemObj; // memory manager for Rec objects - int recObjSize; // size for one Rec object - int fTrim; // filter the library or not. - // temporaries - int * pBytes; // temporary storage for minterms - int * pMints; // temporary storage for minterm counters - unsigned * pTemp1; // temporary truth table - unsigned * pTemp2; // temporary truth table - unsigned * pTempTruth; // temporary truth table - char * pTempDepths; // temporary depths - int * pTempleaves; // temporary leaves - unsigned tempUsign; - unsigned tempNleaves; - unsigned currentCost; - int currentDelay; - Vec_Ptr_t * vNodes; // the temporary nodes - Vec_Ptr_t * vTtTemps; // the truth tables for the internal nodes of the cut - Vec_Ptr_t * vLabels; // temporary storage for AIG node labels - Vec_Str_t * vCosts; // temporary storage for costs - Vec_Int_t * vMemory; // temporary memory for truth tables - // statistics - int nTried; // the number of cuts tried - int nFilterSize; // the number of same structures - int nFilterRedund; // the number of same structures - int nFilterVolume; // the number of same structures - int nFilterTruth; // the number of same structures - int nFilterError; // the number of same structures - int nFilterSame; // the number of same structures - int nAdded; // the number of subgraphs added - int nAddedFuncs; // the number of functions added - int nIfMapTried; - int nIfMapError; - int nTrimed; // the number of structures filtered - // rewriting - int nFunsFound; // the found functions - int nFunsNotFound; // the missing functions - int nFunsTried; - int nFunsFilteredBysupport; // the function filtered when rewriting because not all supports are in use. - int nFunsDelayComput; // the times delay computed, just for statistics - int nNoBetter; // the number of functions found but no better than the current structures. - // rewriting runtime - abctime timeIfTotal; // time used on the whole process of rewriting a structure. - abctime timeIfComputDelay; // time used on the structure's delay computation. - abctime timeIfCanonicize; // time used on canonicize the function - abctime timeIfDerive; // time used on derive the final network; - abctime timeIfCopmutCur; // time used on compute the current structures info - abctime timeIfOther; // time used on other things - // record runtime - abctime timeTrim; // the runtime to filter the library - abctime timeCollect; // the runtime to collect the node of a structure. - abctime timeTruth; // the runtime to compute truth table. - abctime timeCanon; // the runtime to canonicize - abctime timeInsert; // the runtime to insert a structure. - abctime timeBuild; // the runtime to build a new structure in the library. - abctime timeMerge; // the runtime to merge libraries; - abctime timeReHash; // the runtime to resize the hash table. - abctime timeOther; // the runtime of other - abctime timeTotal; // the runtime to total. -}; - - -// the truth table is canonicized in such a way that for (00000) its value is 0 - -static Rec_Obj_t ** Abc_NtkRecTableLookup( Abc_ManRec_t* p, Rec_Obj_t ** pBins, int nBins, unsigned * pTruth, int nVars); -static int Abc_NtkRecComputeTruth( Abc_Obj_t * pObj, Vec_Ptr_t * vTtNodes, int nVars ); -static int Abc_NtkRecAddCutCheckCycle_rec( Abc_Obj_t * pRoot, Abc_Obj_t * pObj ); -static void Abc_NtkRecAddFromLib( Abc_Ntk_t* pNtk, Abc_Obj_t * pRoot, int nVars ); -static void Abc_NtkRecCurrentUnMark_rec(If_Obj_t * pObj); -static Abc_ManRec_t * s_pMan = NULL; - -static inline void Abc_ObjSetMax( Abc_Obj_t * pObj, int Value ) { assert( pObj->Level < 0xff ); pObj->Level = (Value << 8) | (pObj->Level & 0xff); } -static inline void Abc_ObjClearMax( Abc_Obj_t * pObj ) { pObj->Level = (pObj->Level & 0xff); } -static inline int Abc_ObjGetMax( Abc_Obj_t * pObj ) { return (pObj->Level >> 8) & 0xff; } - -static inline void Abc_NtkRecFrequencyInc(Rec_Obj_t* entry) -{ - // the hit number of this functional class increased - if (entry != NULL && entry->nFrequency < 0x7fffffff) - entry->nFrequency += 1; -} - -//////////////////////////////////////////////////////////////////////// -/// FUNCTION DEFINITIONS /// -//////////////////////////////////////////////////////////////////////// - -/**Function************************************************************* - - Synopsis [stretch the truthtable to have more input variables.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void If_CutTruthStretch(unsigned* pInOut, int nVarS, int nVarB) -{ - int w, i; - int step = Kit_TruthWordNum(nVarS); - int nWords = Kit_TruthWordNum(nVarB); - assert(step <= nWords); - if (step == nWords) - return; - for (w = 0; w <nWords; w += step) - for (i = 0; i < step; i++) - pInOut[w + i] = pInOut[i]; -} - -/**Function************************************************************* - - Synopsis [Alloc the Rec object from its manger.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ - -Rec_Obj_t* Rec_ObjAlloc(Abc_ManRec_t* p, Abc_Obj_t* pObj, char* pinToPinDelay, char cost, int nVar) -{ - int i; - Rec_Obj_t * pRecObj; - pRecObj = (Rec_Obj_t *)Mem_FixedEntryFetch( p->pMemObj); - pRecObj->pinToPinDelay = (char*)(pRecObj + 1); - pRecObj->pNext = NULL; - pRecObj->pCopy = NULL; - pRecObj->obj = pObj; - pRecObj->Id = pObj->Id; - for (i = 0; i < nVar; i++) - pRecObj->pinToPinDelay[i] = pinToPinDelay[i]; - pRecObj->cost = cost; - pRecObj->nFrequency = 0; - return pRecObj; -} - -/**Function************************************************************* - - Synopsis [set the property of a Rec object.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Rec_ObjSet(Abc_ManRec_t* p, Rec_Obj_t* pRecObj, Abc_Obj_t* pObj, char* newDelay, unsigned char cost, int nVar) -{ - int i; - pRecObj->obj = pObj; - pRecObj->Id = pObj->Id; - pRecObj->cost = cost; - for (i = 0; i < nVar; i++) - pRecObj->pinToPinDelay[i] = newDelay[i]; -} - -/**Function************************************************************* - - Synopsis [Compute the delay of the structure recursively.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -/* int If_CutDelayRecComput_rec(Abc_Obj_t* pObj, Vec_Str_t* vCosts) - { - char Delay0, Delay1, Delay; - Abc_Obj_t *pFanin0, *pFanin1; - pObj = Abc_ObjRegular(pObj); - if (Abc_NodeIsTravIdCurrent(pObj) || pObj->Type == ABC_OBJ_PI) - return Vec_StrEntry(vCosts,pObj->Id); - Abc_NodeSetTravIdCurrent(pObj); - Delay0 = If_CutDelayRecComput_rec(Abc_ObjFanin0(pObj), vCosts); - Delay1 = If_CutDelayRecComput_rec(Abc_ObjFanin1(pObj), vCosts); - Delay = Abc_MaxInt(Delay0, Delay1) + 1; - Vec_StrWriteEntry(vCosts,pObj->Id,Delay); - return Delay; - }*/ - -/**Function************************************************************* - - Synopsis [Compute delay of the structure using pin-to-pin delay.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -inline int If_CutComputDelay(If_Man_t* p, Rec_Obj_t* entry, If_Cut_t* pCut, char* pCanonPerm , int nVars) -{ - If_Obj_t* pLeaf; - int i, delayTemp, delayMax = -ABC_INFINITY; - for (i = 0; i < nVars; i++) - { - pLeaf = If_ManObj(p, (pCut)->pLeaves[(int)pCanonPerm[i]]); - pLeaf = If_Regular(pLeaf); - delayTemp = entry->pinToPinDelay[i] + If_ObjCutBest(pLeaf)->Delay; - if(delayTemp > delayMax) - delayMax = delayTemp; - } - // plus each pin's delay with its pin-to-output delay, the biggest one is the delay of the structure. - return delayMax; -} - -/**Function************************************************************* - - Synopsis [Compute pin-to-pin delay of the structure.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -char If_CutDepthRecComput_rec(Abc_Obj_t* pObj, int iLeaf) -{ - char Depth0, Depth1, Depth; - pObj = Abc_ObjRegular(pObj); - if(pObj->Id == iLeaf) - return 0; - if(pObj->Type == ABC_OBJ_PI ) - return -IF_BIG_CHAR; - Depth0 = If_CutDepthRecComput_rec(Abc_ObjFanin0(pObj), iLeaf); - Depth1 = If_CutDepthRecComput_rec(Abc_ObjFanin1(pObj), iLeaf); - Depth = Abc_MaxInt(Depth0, Depth1); - Depth = (Depth == -IF_BIG_CHAR) ? -IF_BIG_CHAR : Depth + 1; -// assert(Depth <= 127); - return Depth; -} - -/**Function************************************************************* - - Synopsis [Compute area of the structure.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -unsigned char Abc_NtkRecAreaAndMark_rec(Abc_Obj_t* pObj) -{ - unsigned char Area0, Area1, Area; - pObj = Abc_ObjRegular(pObj); - if(Abc_ObjIsCi(pObj) || pObj->fMarkA == 1) - return 0; - Area0 = Abc_NtkRecAreaAndMark_rec(Abc_ObjFanin0(pObj)); - Area1 = Abc_NtkRecAreaAndMark_rec(Abc_ObjFanin1(pObj)); - Area = Area1 + Area0 + 1; -// assert(Area <= 255); - pObj->fMarkA = 1; - return Area; -} - - -/**Function************************************************************* - - Synopsis [Compute area of the structure.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecAreaUnMark_rec(Abc_Obj_t* pObj) -{ - pObj = Abc_ObjRegular(pObj); - if ( Abc_ObjIsCi(pObj) || pObj->fMarkA == 0 ) - return; - Abc_NtkRecAreaUnMark_rec( Abc_ObjFanin0(pObj) ); - Abc_NtkRecAreaUnMark_rec( Abc_ObjFanin1(pObj) ); - assert( pObj->fMarkA ); // loop detection - pObj->fMarkA = 0; -} - -/**Function************************************************************* - - Synopsis [Compute area of the structure.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -unsigned char Abc_NtkRecArea(Abc_Obj_t* pObj) -{ - unsigned char area; - area = Abc_NtkRecAreaAndMark_rec(pObj); - Abc_NtkRecAreaUnMark_rec(pObj); - return area; -} - -/**Function************************************************************* - - Synopsis [Compare delay profile of two structures.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ - -Abc_LookUpStatus_t ABC_NtkRecDelayCompare(char* delayFromStruct, char* delayFromTable, int nVar) -{ - int i, bigThan = 0, smallThan = 0, equal = 1, dominace = 1, beDominaced = 1; - for (i = 0; i < nVar; i++) - { - if(delayFromStruct[i] < delayFromTable[i]) - { - equal = 0; - beDominaced = 0; - if(bigThan == 0) - smallThan = 1; - } - else if (delayFromStruct[i] > delayFromTable[i]) - { - equal = 0; - dominace = 0; - if (smallThan == 0) - bigThan = 1; - } - } - if(equal) - return REC_EQUAL; - else if(dominace) - return REC_DOMINANCE; - else if(beDominaced) - return REC_BEDOMINANCED; - if(bigThan) - return REC_BIG; - else if(smallThan) - return REC_SMALL; - else - return REC_SMALL; -} - -/**Function************************************************************* - - Synopsis [link a useless PO to constant 0.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecReplacePO(Abc_Obj_t* pObj ) -{ - Abc_Obj_t * pConst0, * pFaninNew; - Abc_Ntk_t * pNtk = pObj->pNtk; - if ( Abc_ObjFanin0(pObj) == Abc_AigConst1(pNtk) ) - { - if ( !Abc_ObjFaninC0(pObj) ) - Abc_ObjXorFaninC( pObj, 0 ); - return; - } - pConst0 = Abc_ObjNot( Abc_AigConst1(pNtk) ); - pFaninNew = Abc_ObjNotCond( pConst0, Abc_ObjFaninC0(pObj) ); - Abc_ObjPatchFanin( pObj, Abc_ObjFanin0(pObj), pFaninNew ); - assert( Abc_ObjChild0(pObj) == pConst0 ); - //Abc_AigCleanup( (Abc_Aig_t *)pNtk->pManFunc ); -} - -/**Function************************************************************* - - Synopsis [Delete a useless structure in the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecDeleteSubGragh(Abc_ManRec_t* p, Abc_Obj_t* pObj) -{ - Abc_Obj_t* pFanOut; - int i, deleted = 0; - Abc_ObjForEachFanout(pObj, pFanOut, i) - { - if (Abc_ObjIsCo(pFanOut)) - { - Abc_NtkRecReplacePO(pFanOut); - deleted++; - p->nTrimed++; - } - } - assert(deleted == 1); -} - -/**Function************************************************************* - - Synopsis [Check if the structure is dominant or not.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int ABC_NtkRecIsDominant(char* delayFromStruct, char* delayFromTable, int nVar) -{ - int i; - for (i = 0; i < nVar; i++) - { - if(delayFromStruct[i] > delayFromTable[i]) - return 0; - } - return 1; -} - -/**Function************************************************************* - - Synopsis [Sweep the dominated structures.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecSweepDominance(Abc_ManRec_t* p, Rec_Obj_t* previous, Rec_Obj_t* current, char * delayFromStruct, int nVars, int fTrim) -{ - Abc_Obj_t* pObj; - while(current != NULL) - { - if (ABC_NtkRecIsDominant(delayFromStruct, current->pinToPinDelay, nVars)) - { - pObj = current->obj; - previous->pNext = current->pNext; - current->pNext = NULL; - Mem_FixedEntryRecycle(p->pMemObj, (char *)current); - current = previous->pNext; - p->nAdded--; - // if filter the library is needed, then point the PO to a constant. - if (fTrim) - Abc_NtkRecDeleteSubGragh(p, pObj); - } - else - { - previous = current; - current = current->pNext; - } - } -} - - -/**Function************************************************************* - - Synopsis [Insert a structure into the look up table.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecInsertToLookUpTable(Abc_ManRec_t* p, Rec_Obj_t** ppSpot, Abc_Obj_t* pObj, int nVars, int fTrim) -{ - char delayFromStruct[16] ; - int i; - Abc_Obj_t* pLeaf; - Rec_Obj_t* entry, *previous = NULL, *current = * ppSpot; - unsigned char costFromStruct = Abc_NtkRecArea(pObj); - Abc_LookUpStatus_t result; - for (i = 0; i < nVars; i++) - { - pLeaf = Abc_NtkPi( p->pNtk, i); - pLeaf =Abc_ObjRegular(pLeaf); - delayFromStruct[i] = If_CutDepthRecComput_rec(pObj, pLeaf->Id); - } - if(fTrim) - { - while(1) - { - if (current == NULL) - { - p->nAdded++; - entry = Rec_ObjAlloc(p, pObj, delayFromStruct, costFromStruct, nVars); - if(previous != NULL) - { - previous->pNext = entry; - } - else - { - // new functional class found - p->nAddedFuncs++; - *ppSpot = entry; - entry->nFrequency = 1; - } - break; - } - result = ABC_NtkRecDelayCompare(delayFromStruct, current->pinToPinDelay, nVars); - if(result == REC_EQUAL) - { - // when delay profile is equal, replace only if it has smaller cost. - if(costFromStruct < current->cost) - { - Abc_NtkRecDeleteSubGragh(p, current->obj); - Rec_ObjSet(p, current, pObj, delayFromStruct, costFromStruct, nVars); - } - else - Abc_NtkRecDeleteSubGragh(p, pObj); - break; - } - // when the new structure can dominate others, sweep them out of the library, delete them if required. - else if(result == REC_DOMINANCE) - { - Abc_NtkRecDeleteSubGragh(p, current->obj); - Rec_ObjSet(p, current, pObj, delayFromStruct, costFromStruct, nVars); - Abc_NtkRecSweepDominance(p,current,current->pNext,delayFromStruct, nVars, fTrim); - break; - } - // when the new structure is domianted by an existed one, don't store it. - else if (result == REC_BEDOMINANCED) - { - Abc_NtkRecDeleteSubGragh(p, pObj); - break; - } - // when the new structure's delay profile is big than the current, test the next one - else if (result == REC_BIG) - { - previous = current; - current = current->pNext; - } - // insert the new structure to the right position, sweep the ones it can dominate. - else if (result == REC_SMALL) - { - p->nAdded++; - entry = Rec_ObjAlloc(p, pObj, delayFromStruct, costFromStruct, nVars); - if(previous != NULL) - { - previous->pNext = entry; - entry->pNext = current; - } - else - { - entry->pNext = current; - entry->pCopy = (*ppSpot)->pCopy; - entry->nFrequency = (*ppSpot)->nFrequency; - (*ppSpot)->pCopy = NULL; - (*ppSpot)->nFrequency = 0; - *ppSpot = entry; - } - Abc_NtkRecSweepDominance(p,current,current->pNext,delayFromStruct, nVars, fTrim); - break; - } - else - assert(0); - } - } - else - { - if (current == NULL) - { - p->nAdded++; - entry = Rec_ObjAlloc(p, pObj, delayFromStruct, costFromStruct, nVars); - p->nAddedFuncs++; - *ppSpot = entry; - entry->nFrequency = 1; - } - else - { - p->nAdded++; - entry = Rec_ObjAlloc(p, pObj, delayFromStruct, costFromStruct, nVars); - entry->pNext = (*ppSpot)->pNext; - (*ppSpot)->pNext = entry; - } - } -} - -/**Function************************************************************* - - Synopsis [Build up the structure using library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ - Hop_Obj_t * Abc_NtkRecBuildUp_rec(Hop_Man_t* pMan, Abc_Obj_t* pObj, Vec_Ptr_t * vNodes) - { - Hop_Obj_t * pRes0, *pRes1, *pRes; - Abc_Obj_t *pRegular = Abc_ObjRegular(pObj); - if (Abc_NodeIsTravIdCurrent(pRegular) || pRegular->Type == ABC_OBJ_PI) - return (Hop_Obj_t *)Vec_PtrEntry(vNodes, pRegular->Id); - Abc_NodeSetTravIdCurrent(pRegular); - pRes0 = Abc_NtkRecBuildUp_rec(pMan, Abc_ObjFanin0(pRegular), vNodes); - pRes0 = Hop_NotCond(pRes0, pRegular->fCompl0); - pRes1 = Abc_NtkRecBuildUp_rec(pMan, Abc_ObjFanin1(pRegular), vNodes); - pRes1 = Hop_NotCond(pRes1, pRegular->fCompl1); - pRes = Hop_And(pMan, pRes0, pRes1); - Vec_PtrWriteEntry(vNodes,pRegular->Id,pRes); - return pRes; - } - - /**Function************************************************************* - - Synopsis [Build up the structure using library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ - Hop_Obj_t * Abc_NtkRecBuildUpFromCurrent_rec(Hop_Man_t* pMan, If_Obj_t* pObj, Vec_Ptr_t * vNodes) - { - Hop_Obj_t * pRes0, *pRes1, *pRes; - If_Obj_t *pRegular = If_Regular(pObj); - if (Vec_PtrEntry(vNodes, pRegular->Id) && pRegular->fMark == 1) - return (Hop_Obj_t *)Vec_PtrEntry(vNodes, pRegular->Id); - pRes0 = Abc_NtkRecBuildUpFromCurrent_rec(pMan, If_ObjFanin0(pRegular), vNodes); - pRes0 = Hop_NotCond(pRes0, pRegular->fCompl0); - pRes1 = Abc_NtkRecBuildUpFromCurrent_rec(pMan, If_ObjFanin1(pRegular), vNodes); - pRes1 = Hop_NotCond(pRes1, pRegular->fCompl1); - pRes = Hop_And(pMan, pRes0, pRes1); - Vec_PtrWriteEntry(vNodes,pRegular->Id,pRes); - assert(pRegular->fMark == 0); - pRegular->fMark = 1; - return pRes; - } - - /**Function************************************************************* - - Synopsis [Derive the final network from the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ - Hop_Obj_t * Abc_RecFromCurrentToHop(Hop_Man_t * pMan, If_Man_t * pIfMan, If_Cut_t * pCut, If_Obj_t * pRoot) - { - int i; - If_Obj_t * pLeaf; - Hop_Obj_t* pHopObj; - Vec_PtrGrow(s_pMan->vLabels, pIfMan->vObjs->nSize); - s_pMan->vLabels->nSize = s_pMan->vLabels->nCap; - If_CutForEachLeaf(pIfMan, pCut, pLeaf, i) - { - pHopObj = Hop_IthVar(pMan, i); - Vec_PtrWriteEntry(s_pMan->vLabels, pLeaf->Id, pHopObj); - assert(pLeaf->fMark == 0); - pLeaf->fMark = 1; - } - pHopObj = Abc_NtkRecBuildUpFromCurrent_rec(pMan, pRoot, s_pMan->vLabels); - Abc_NtkRecCurrentUnMark_rec(pRoot); - return pHopObj; - - - } - - /**Function************************************************************* - - Synopsis [Look up the best strcuture in the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ - int Abc_NtkRecLookUpEnum(If_Man_t * pIfMan,If_Cut_t * pCut, Rec_Obj_t ** ppSpot, Rec_Obj_t ** pCandMin, char * pCanonPerm) - { - int DelayMin = ABC_INFINITY , Delay = -ABC_INFINITY; - Rec_Obj_t *pCand; - int nLeaves = pCut->nLeaves; - assert( *ppSpot != NULL ); - for ( pCand = *ppSpot; pCand; pCand = pCand->pNext ) - { - s_pMan->nFunsDelayComput++; - Delay = If_CutComputDelay(pIfMan, pCand, pCut, pCanonPerm ,nLeaves); - if ( DelayMin > Delay ) - { - DelayMin = Delay; - *pCandMin = pCand; - } - else if(Delay == DelayMin) - { - if(pCand->cost < (*pCandMin)->cost) - *pCandMin = pCand; - } - } - assert( *pCandMin != NULL ); - return DelayMin; - } - - /**Function************************************************************* - - Synopsis [Look up the best strcuture in the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ - Rec_Obj_t * Abc_NtkRecLookUpBest(If_Man_t * pIfMan,If_Cut_t * pCut, unsigned * pInOut, char * pCanonPerm, int * fCompl, int * delayBest) - { - Rec_Obj_t *pCandMin = NULL, *pCandMinCompl = NULL, **ppSpot; - int delay = ABC_INFINITY, delayCompl = ABC_INFINITY; - int nVars = s_pMan->nVars; - //int nLeaves = pCut->nLeaves; - ppSpot = Abc_NtkRecTableLookup(s_pMan, s_pMan->pBins, s_pMan->nBins, pInOut, nVars ); - if (*ppSpot != NULL) - delay = Abc_NtkRecLookUpEnum(pIfMan, pCut, ppSpot, &pCandMin, pCanonPerm); - Kit_TruthNot(pInOut, pInOut, nVars); - ppSpot = Abc_NtkRecTableLookup(s_pMan, s_pMan->pBins, s_pMan->nBins, pInOut, nVars ); - if (*ppSpot != NULL) - delayCompl = Abc_NtkRecLookUpEnum(pIfMan, pCut, ppSpot, &pCandMinCompl, pCanonPerm); - if (delayBest) - *delayBest = delay < delayCompl ? delay : delayCompl; - if (pCandMin == NULL && pCandMinCompl == NULL) - return NULL; - else if (pCandMin != NULL && pCandMinCompl != NULL) - { - if (delay > delayCompl || (delay == delayCompl && pCandMin->cost > pCandMinCompl->cost)) - { - if (fCompl) - *fCompl = 1; - return pCandMinCompl; - } - else - { - if (fCompl) - *fCompl = 0; - return pCandMin; - } - } - else if (pCandMin != NULL) - { - if (fCompl) - *fCompl = 0; - return pCandMin; - } - else - { - if (fCompl) - *fCompl = 1; - return pCandMinCompl; - } - } - -/**Function************************************************************* - - Synopsis [Derive the final network from the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -Hop_Obj_t * Abc_RecToHop( Hop_Man_t * pMan, If_Man_t * pIfMan, If_Cut_t * pCut, If_Obj_t * pIfObj ) -{ - Rec_Obj_t *pCandMin; - Hop_Obj_t* pHopObj; - Abc_Obj_t* pAbcObj; - Abc_Ntk_t * pAig = s_pMan->pNtk; - int nLeaves, i;// DelayMin = ABC_INFINITY , Delay = -ABC_INFINITY - unsigned uCanonPhase; - int nVars = s_pMan->nVars; - char pCanonPerm[16]; - unsigned *pInOut = s_pMan->pTemp1; - unsigned *pTemp = s_pMan->pTemp2; - abctime time = Abc_Clock(); - int fCompl; - int * pCompl = &fCompl; - nLeaves = If_CutLeaveNum(pCut); -// if (nLeaves < 3) -// return Abc_NodeTruthToHop(pMan, pIfMan, pCut); - Kit_TruthCopy(pInOut, If_CutTruth(pIfMan, pCut), pCut->nLimit); - //special cases when cut-minimization return 2, that means there is only one leaf in the cut. - if ((Kit_TruthIsConst0(pInOut, nLeaves) && pCut->fCompl == 0) || (Kit_TruthIsConst1(pInOut, nLeaves) && pCut->fCompl == 1)) - return Hop_ManConst0(pMan); - if ((Kit_TruthIsConst0(pInOut, nLeaves) && pCut->fCompl == 1) || (Kit_TruthIsConst1(pInOut, nLeaves) && pCut->fCompl == 0)) - return Hop_ManConst1(pMan); - if (Kit_TruthSupport(pInOut, nLeaves) != Kit_BitMask(nLeaves)) - { - for (i = 0; i < nLeaves; i++) - if(Kit_TruthVarInSupport( pInOut, nLeaves, i )) - return Hop_NotCond(Hop_IthVar(pMan, i), (pCut->fCompl ^ ((*pInOut & 0x01) > 0))); - } - - for (i = 0; i < nLeaves; i++) - pCanonPerm[i] = i; - uCanonPhase = Kit_TruthSemiCanonicize(pInOut, pTemp, nLeaves, pCanonPerm); - If_CutTruthStretch(pInOut, nLeaves, nVars); - pCandMin = Abc_NtkRecLookUpBest(pIfMan, pCut, pInOut, pCanonPerm, pCompl,NULL); - Vec_PtrGrow(s_pMan->vLabels, Abc_NtkObjNumMax(pAig)); - s_pMan->vLabels->nSize = s_pMan->vLabels->nCap; - for (i = 0; i < nLeaves; i++) - { - pAbcObj = Abc_NtkPi( pAig, i ); - pHopObj = Hop_IthVar(pMan, pCanonPerm[i]); - pHopObj = Hop_NotCond(pHopObj, ((uCanonPhase & (1 << i)) > 0)); - Vec_PtrWriteEntry(s_pMan->vLabels, pAbcObj->Id, pHopObj); - } - Abc_NtkIncrementTravId(pAig); - //derive the best structure in the library. - pHopObj = Abc_NtkRecBuildUp_rec(pMan, pCandMin->obj, s_pMan->vLabels); - s_pMan->timeIfDerive += Abc_Clock() - time; - s_pMan->timeIfTotal += Abc_Clock() - time; - return Hop_NotCond(pHopObj, (pCut->fCompl)^(((uCanonPhase & (1 << nLeaves)) > 0)) ^ fCompl); -} - -/**Function************************************************************* - - Synopsis [Duplicates non-danglingn nodes and POs driven by constants.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkDupWithoutDangling_rec( Abc_Ntk_t * pNtkNew, Abc_Obj_t * pObj ) -{ - if ( pObj->pCopy != NULL ) - return; - assert( Abc_ObjIsNode(pObj) ); - Abc_NtkDupWithoutDangling_rec( pNtkNew, Abc_ObjFanin0(pObj) ); - Abc_NtkDupWithoutDangling_rec( pNtkNew, Abc_ObjFanin1(pObj) ); - pObj->pCopy = Abc_AigAnd( (Abc_Aig_t *)pNtkNew->pManFunc, Abc_ObjChild0Copy(pObj), Abc_ObjChild1Copy(pObj) ); -} - -/**Function************************************************************* - - Synopsis [Duplicates non-danglingn nodes and POs driven by constants.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -Abc_Ntk_t * Abc_NtkDupWithoutDangling( Abc_Ntk_t * pNtk ) -{ - Abc_Ntk_t * pNtkNew; - Abc_Obj_t * pObj; - int i; - assert( Abc_NtkIsStrash(pNtk) ); - // start the network - pNtkNew = Abc_NtkAlloc( pNtk->ntkType, pNtk->ntkFunc, 1 ); - // duplicate the name and the spec - pNtkNew->pName = Extra_UtilStrsav(pNtk->pName); - pNtkNew->pSpec = Extra_UtilStrsav(pNtk->pSpec); - // clean the node copy fields - Abc_NtkCleanCopy( pNtk ); - // map the constant nodes - Abc_AigConst1(pNtk)->pCopy = Abc_AigConst1(pNtkNew); - // clone PIs - Abc_NtkForEachPi( pNtk, pObj, i ) - Abc_NtkDupObj( pNtkNew, pObj, 0 ); - // recursively add non-dangling logic - Abc_NtkForEachPo( pNtk, pObj, i ) - if ( Abc_ObjFanin0(pObj) != Abc_AigConst1(pNtk) ) - Abc_NtkDupWithoutDangling_rec( pNtkNew, Abc_ObjFanin0(pObj) ); - // clone POs - Abc_NtkForEachPo( pNtk, pObj, i ) - if ( Abc_ObjFanin0(pObj) != Abc_AigConst1(pNtk) ) - { - Abc_NtkDupObj( pNtkNew, pObj, 0 ); - Abc_ObjAddFanin( pObj->pCopy, Abc_ObjFanin0(pObj)->pCopy ); - } - Abc_NtkAddDummyPiNames( pNtkNew ); - Abc_NtkAddDummyPoNames( pNtkNew ); - if ( !Abc_NtkCheck( pNtkNew ) ) - fprintf( stdout, "Abc_NtkDupWithoutDangling(): Network check has failed.\n" ); - pNtk->pCopy = pNtkNew; - return pNtkNew; -} - -/**Function************************************************************* - - Synopsis [Filter the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_RecUpdateHashTable() -{ - Abc_ManRec_t * p = s_pMan; - Rec_Obj_t * pEntry, * pTemp; - int i; - for ( i = 0; i < p->nBins; i++ ) - for ( pEntry = p->pBins[i]; pEntry; pEntry = pEntry->pCopy ) - for ( pTemp = pEntry; pTemp; pTemp = pTemp->pNext ) - pTemp->obj = pTemp->obj->pCopy; -} - -/**Function************************************************************* - - Synopsis [Filter the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecFilter(int nLimit) -{ - Rec_Obj_t * previous = NULL, * entry = NULL, * pTemp; - int i; - Abc_Ntk_t * pNtk = s_pMan->pNtk; - abctime time = Abc_Clock(); - if (nLimit > 0) - { - for ( i = 0; i < s_pMan->nBins; i++ ) - { - previous = NULL; - for ( entry = s_pMan->pBins[i]; entry; entry = entry->pCopy) - { - assert(entry->nFrequency != 0); - // only filter the functional classed with frequency less than nLimit. - if(entry->nFrequency > nLimit) - { - previous = entry; - continue; - } - if(previous == NULL) - { - s_pMan->pBins[i] = entry->pCopy; - previous = NULL; - } - else - previous->pCopy = entry->pCopy; - - s_pMan->nAddedFuncs--; - //delete all the subgragh. - for ( pTemp = entry; pTemp; pTemp = pTemp->pNext ) - { - s_pMan->nAdded--; - Abc_NtkRecDeleteSubGragh(s_pMan, pTemp->obj); - Mem_FixedEntryRecycle(s_pMan->pMemObj, (char *)pTemp); - } - } - } - } - - // remove dangling nodes and POs driven by constants - s_pMan->pNtk = Abc_NtkDupWithoutDangling( pNtk ); - Abc_RecUpdateHashTable(); - Abc_NtkDelete( pNtk ); - - // collect runtime stats - s_pMan->timeTrim += Abc_Clock() - time; - s_pMan->timeTotal += Abc_Clock() - time; -} - - - -/**Function************************************************************* - - Synopsis [Test if the record is running.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecIsRunning() -{ - return s_pMan != NULL; -} - -/**Function************************************************************* - - Synopsis [Test if the record is working in trim mode.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecIsInTrimMode() -{ - return (s_pMan != NULL && s_pMan->fTrim); -} - -/**Function************************************************************* - - Synopsis [] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecVarNum() -{ - return (s_pMan != NULL)? s_pMan->nVars : -1; -} - -/**Function************************************************************* - - Synopsis [] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -Vec_Int_t * Abc_NtkRecMemory() -{ - return s_pMan->vMemory; -} - -/**Function************************************************************* - - Synopsis [Starts the record for the given network.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecLibMerge(Abc_Ntk_t* pNtk) -{ - int i; - Abc_Obj_t * pObj; - Abc_ManRec_t * p = s_pMan; - abctime clk = Abc_Clock(); - if ( Abc_NtkPiNum(pNtk) > s_pMan->nVars ) - { - printf( "The library has more inputs than the record.\n"); - return; - } - Abc_NtkForEachPi( pNtk, pObj, i ) - Abc_ObjSetMax( pObj, i+1 ); - Abc_AigForEachAnd( pNtk, pObj, i ) - Abc_ObjSetMax( pObj, Abc_MaxInt( Abc_ObjGetMax(Abc_ObjFanin0(pObj)), Abc_ObjGetMax(Abc_ObjFanin1(pObj)) ) ); - - // insert the PO nodes into the table - Abc_NtkForEachPo( pNtk, pObj, i ) - { - p->nTried++; - //if the PO's input is a constant, skip it. - if (Abc_ObjChild0(pObj) == Abc_ObjNot( Abc_AigConst1(pNtk))) - { - p->nTrimed++; - continue; - } - pObj = Abc_ObjFanin0(pObj); - Abc_NtkRecAddFromLib(pNtk, pObj, Abc_ObjGetMax(pObj) ); - } - Abc_NtkForEachObj( pNtk, pObj, i ) - { - Abc_ObjClearMax( pObj ); - } - s_pMan->timeMerge += Abc_Clock() - clk; - s_pMan->timeTotal += Abc_Clock() - clk; -} - -/**Function************************************************************* - - Synopsis [Resize the hash table.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecRezieHash(Abc_ManRec_t* p) -{ - Rec_Obj_t ** pBinsNew, **ppSpot; - Rec_Obj_t * pEntry, * pTemp; - int nBinsNew, Counter, i; - abctime clk = Abc_Clock(); - // get the new table size - nBinsNew = Cudd_Prime( 3 * p->nBins ); - printf("Hash table resize from %d to %d.\n", p->nBins, nBinsNew); - // allocate a new array - pBinsNew = ABC_ALLOC( Rec_Obj_t *, nBinsNew ); - memset( pBinsNew, 0, sizeof(Rec_Obj_t *) * nBinsNew ); - // rehash the entries from the old table - Counter = 0; - for ( i = 0; i < p->nBins; i++ ) - for ( pEntry = p->pBins[i]; pEntry;) - { - pTemp = pEntry->pCopy; - ppSpot = Abc_NtkRecTableLookup(p, pBinsNew, nBinsNew, (unsigned *)Vec_PtrEntry(p->vTtNodes, pEntry->Id), p->nVars); - assert(*ppSpot == NULL); - *ppSpot = pEntry; - pEntry->pCopy = NULL; - pEntry = pTemp; - Counter++; - } - assert( Counter == p->nAddedFuncs); - ABC_FREE( p->pBins ); - p->pBins = pBinsNew; - p->nBins = nBinsNew; - p->timeReHash += Abc_Clock() - clk; - p->timeTotal += Abc_Clock() - clk; - -} - - -/**Function************************************************************* - - Synopsis [Starts the record for the given network.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecStart( Abc_Ntk_t * pNtk, int nVars, int nCuts, int fTrim ) -{ - Abc_ManRec_t * p; - Abc_Obj_t * pObj; - Rec_Obj_t** ppSpot; - char Buffer[10]; - unsigned * pTruth; - int i, RetValue; - abctime clkTotal = Abc_Clock(), clk, timeInsert; - //int testNum = 0; - - assert( s_pMan == NULL ); - if ( pNtk == NULL ) - { - assert( nVars > 2 && nVars <= 16 ); - pNtk = Abc_NtkAlloc( ABC_NTK_STRASH, ABC_FUNC_AIG, 1 ); - pNtk->pName = Extra_UtilStrsav( "record" ); - } - else - { - if ( Abc_NtkGetChoiceNum(pNtk) > 0 ) - { - printf( "The starting record should be a network without choice nodes.\n" ); - return; - } - if ( Abc_NtkPiNum(pNtk) > 16 ) - { - printf( "The starting record should be a network with no more than %d primary inputs.\n", 16 ); - return; - } - if ( Abc_NtkPiNum(pNtk) > nVars ) - printf( "The starting record has %d inputs (warning only).\n", Abc_NtkPiNum(pNtk) ); - pNtk = Abc_NtkDup( pNtk ); - } - // create the primary inputs - for ( i = Abc_NtkPiNum(pNtk); i < nVars; i++ ) - { - pObj = Abc_NtkCreatePi( pNtk ); - Buffer[0] = 'a' + i; - Buffer[1] = 0; - Abc_ObjAssignName( pObj, Buffer, NULL ); - } - Abc_NtkCleanCopy( pNtk ); - - // start the manager - p = ABC_ALLOC( Abc_ManRec_t, 1 ); - memset( p, 0, sizeof(Abc_ManRec_t) ); - p->pNtk = pNtk; - p->nVars = Abc_NtkPiNum(pNtk); - p->nWords = Kit_TruthWordNum( p->nVars ); - p->nCuts = nCuts; - p->nVarsInit = nVars; - p->recObjSize = sizeof(Rec_Obj_t) + sizeof(char) * p->nVars; - p->pMemObj = Mem_FixedStart(p->recObjSize); - p->fTrim = fTrim; - // create elementary truth tables - p->vTtElems = Vec_PtrAlloc( 0 ); assert( p->vTtElems->pArray == NULL ); - p->vTtElems->nSize = p->nVars; - p->vTtElems->nCap = p->nVars; - p->vTtElems->pArray = (void **)Extra_TruthElementary( p->nVars ); -/* - // allocate room for node truth tables - if ( Abc_NtkObjNum(pNtk) > (1<<14) ) - p->vTtNodes = Vec_PtrAllocSimInfo( 2 * Abc_NtkObjNum(pNtk), p->nWords ); - else - p->vTtNodes = Vec_PtrAllocSimInfo( 1<<14, p->nWords ); -*/ - p->vTtNodes = Vec_PtrAlloc( 1000 ); - p->pMmTruth = Mem_FixedStart( sizeof(unsigned)*p->nWords ); - for ( i = 0; i < Abc_NtkObjNumMax(pNtk); i++ ) -// Vec_PtrPush( p->vTtNodes, ABC_ALLOC(unsigned, p->nWords) ); - Vec_PtrPush( p->vTtNodes, Mem_FixedEntryFetch(p->pMmTruth) ); - - // create hash table - //p->nBins = 50011; - p->nBins =500011; - p->pBins = ABC_ALLOC( Rec_Obj_t *, p->nBins ); - memset( p->pBins, 0, sizeof(Rec_Obj_t *) * p->nBins ); - - // set elementary tables - Kit_TruthFill( (unsigned *)Vec_PtrEntry(p->vTtNodes, 0), p->nVars ); - Abc_NtkForEachPi( pNtk, pObj, i ) - Kit_TruthCopy( (unsigned *)Vec_PtrEntry(p->vTtNodes, pObj->Id), (unsigned *)Vec_PtrEntry(p->vTtElems, i), p->nVars ); - - // compute the tables -clk = Abc_Clock(); - - Abc_AigForEachAnd( pNtk, pObj, i ) - { - RetValue = Abc_NtkRecComputeTruth( pObj, p->vTtNodes, p->nVars ); - assert( RetValue ); - } -p->timeTruth += Abc_Clock() - clk; - - Abc_NtkForEachPi( pNtk, pObj, i ) - Abc_ObjSetMax( pObj, i+1 ); - Abc_AigForEachAnd( pNtk, pObj, i ) - Abc_ObjSetMax( pObj, Abc_MaxInt( Abc_ObjGetMax(Abc_ObjFanin0(pObj)), Abc_ObjGetMax(Abc_ObjFanin1(pObj)) ) ); - - // insert the PO nodes into the table - timeInsert = Abc_Clock(); - Abc_NtkForEachPo( pNtk, pObj, i ) - { - p->nTried++; - //if the PO's input is a constant, skip it. - if (Abc_ObjChild0(pObj) == Abc_ObjNot( Abc_AigConst1(pNtk))) - { - p->nTrimed++; - continue; - } - pObj = Abc_ObjFanin0(pObj); - pTruth = (unsigned *)Vec_PtrEntry( p->vTtNodes, pObj->Id ); - // add the resulting truth table to the hash table - if(p->nAddedFuncs > 2 * p->nBins) - Abc_NtkRecRezieHash(p); - ppSpot = Abc_NtkRecTableLookup(p, p->pBins, p->nBins, pTruth, p->nVars ); - Abc_NtkRecInsertToLookUpTable(p, ppSpot, pObj, Abc_ObjGetMax(pObj), p->fTrim); - } - p->timeInsert += Abc_Clock() - timeInsert; - Abc_NtkForEachObj( pNtk, pObj, i ) - { - Abc_ObjClearMax( pObj ); - } - // temporaries - p->pBytes = ABC_ALLOC( int, 4*p->nWords ); - p->pMints = ABC_ALLOC( int, 2*p->nVars ); - p->pTemp1 = ABC_ALLOC( unsigned, p->nWords ); - p->pTemp2 = ABC_ALLOC( unsigned, p->nWords ); - p->pTempTruth = ABC_ALLOC( unsigned, p->nWords ); - p->pTempDepths = ABC_ALLOC( char, p->nVars ); - p->pTempleaves = ABC_ALLOC( int, p->nVars ); - p->vNodes = Vec_PtrAlloc( 100 ); - p->vTtTemps = Vec_PtrAllocSimInfo( 1024, p->nWords ); - p->vMemory = Vec_IntAlloc( Abc_TruthWordNum(p->nVars) * 1000 ); - p->vLabels = Vec_PtrStart( 1000); - - // set the manager - s_pMan = p; - p->timeTotal += Abc_Clock() - clkTotal; -} - -/**Function************************************************************* - - Synopsis [Dump truth tables into a file.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -/*void Abc_NtkRecDumpTruthTables( Abc_ManRec_t * p ) -{ - int nVars = 10; - FILE * pFile; - Rec_Obj_t * pObj; - unsigned * pTruth; - int i; - pFile = fopen( "tt10.txt", "wb" ); - for ( i = 0; i < p->nBins; i++ ) - for ( pObj = p->pBins[i]; pObj; pObj = pObj->pCopy ) - { - pTruth = Vec_PtrEntry(p->vTtNodes, pObj->Id); - if ( (int)Kit_TruthSupport(pTruth, nVars) != (1<<nVars)-1 ) - continue; - Extra_PrintHex( pFile, pTruth, nVars ); - fprintf( pFile, " " ); - Kit_DsdPrintFromTruth2( pFile, pTruth, nVars ); - fprintf( pFile, "\n" ); - } - fclose( pFile ); -}*/ - -/**Function************************************************************* - - Synopsis [Returns the given record.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecStop() -{ - assert( s_pMan != NULL ); -// Abc_NtkRecDumpTruthTables( s_pMan ); - if ( s_pMan->pNtk ) - Abc_NtkDelete( s_pMan->pNtk ); -// Vec_PtrFreeFree( s_pMan->vTtNodes ); - Mem_FixedStop( s_pMan->pMmTruth, 0 ); - Vec_PtrFree( s_pMan->vTtNodes ); - Vec_PtrFree( s_pMan->vTtElems ); - ABC_FREE( s_pMan->pBins ); - - // temporaries - ABC_FREE( s_pMan->pBytes ); - ABC_FREE( s_pMan->pMints ); - ABC_FREE( s_pMan->pTemp1 ); - ABC_FREE( s_pMan->pTemp2 ); - ABC_FREE( s_pMan->pTempTruth ); - ABC_FREE( s_pMan->pTempDepths ); - Vec_PtrFree( s_pMan->vNodes ); - Vec_PtrFree( s_pMan->vTtTemps ); - if ( s_pMan->vLabels ) - Vec_PtrFree( s_pMan->vLabels ); - if ( s_pMan->vCosts ) - Vec_StrFree( s_pMan->vCosts ); - if(s_pMan->pMemObj) - Mem_FixedStop(s_pMan->pMemObj, 0); - Vec_IntFree( s_pMan->vMemory ); -// if(s_pMan->vFiltered) -// Vec_StrFree(s_pMan->vFiltered); - - ABC_FREE( s_pMan ); - s_pMan = NULL; -} - -/**Function************************************************************* - - Synopsis [Returns the given record.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -Abc_Ntk_t * Abc_NtkRecUse() -{ - Abc_ManRec_t * p = s_pMan; - Abc_Ntk_t * pNtk = p->pNtk; - assert( p != NULL ); - Abc_NtkRecPs(0); - p->pNtk = NULL; - Abc_NtkRecStop(); - Abc_NtkCleanData(pNtk); - return pNtk; -} - - -/**Function************************************************************* - - Synopsis [Print statistics about the current record.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecPs(int fPrintLib) -{ - int Counter, Counters[17] = {0}; - int CounterS, CountersS[17] = {0}; - Abc_ManRec_t * p = s_pMan; - Abc_Ntk_t * pNtk = p->pNtk; - Rec_Obj_t * pEntry, * pTemp; - Abc_Obj_t * pObj; - int i; - FILE * pFile; - unsigned* pTruth; - Rec_Obj_t* entry; - int j; - int nVars = s_pMan->nVars; - // set the max PI number - Abc_NtkForEachPi( pNtk, pObj, i ) - Abc_ObjSetMax( pObj, i+1 ); - Abc_AigForEachAnd( pNtk, pObj, i ) - Abc_ObjSetMax( pObj, Abc_MaxInt( Abc_ObjGetMax(Abc_ObjFanin0(pObj)), Abc_ObjGetMax(Abc_ObjFanin1(pObj)) ) ); -if(fPrintLib) -{ - pFile = fopen( "tt10.txt", "wb" ); -for ( i = 0; i < p->nBins; i++ ) - for ( entry = p->pBins[i]; entry; entry = entry->pCopy ) - { - int tmp = 0; - pTruth = (unsigned*)Vec_PtrEntry(p->vTtNodes, entry->Id); - /*if ( (int)Kit_TruthSupport(pTruth, nVars) != (1<<nVars)-1 ) - continue;*/ - Extra_PrintHex( pFile, pTruth, nVars ); - fprintf( pFile, " : nVars: %d, Frequency:%d, nBin:%d : ", Abc_ObjGetMax(entry->obj), entry->nFrequency, i); - Kit_DsdPrintFromTruth2( pFile, pTruth, Abc_ObjGetMax(entry->obj) ); - fprintf( pFile, "\n" ); - for ( pTemp = entry; pTemp; pTemp = pTemp->pNext ) - { - fprintf(pFile,"%d :", tmp); - for (j = 0; j <Abc_ObjGetMax(pTemp->obj); j++) - { - fprintf(pFile, " %d, ", pTemp->pinToPinDelay[j]); - } - fprintf(pFile, "cost = %d ID = %d\n", pTemp->cost, pTemp->Id); - tmp++; - } - fprintf( pFile, "\n"); - fprintf( pFile, "\n"); - } - fclose( pFile) ; -} - - // go through the table - Counter = CounterS = 0; - for ( i = 0; i < p->nBins; i++ ) - for ( pEntry = p->pBins[i]; pEntry; pEntry = pEntry->pCopy ) - { - assert(Abc_ObjGetMax(pEntry->obj) >= 2); - Counters[ Abc_ObjGetMax(pEntry->obj)]++; - Counter++; - for ( pTemp = pEntry; pTemp; pTemp = pTemp->pNext ) - { - assert( Abc_ObjGetMax(pTemp->obj) == Abc_ObjGetMax(pEntry->obj) ); - CountersS[ Abc_ObjGetMax(pTemp->obj) ]++; - CounterS++; - } - } - //printf( "Functions = %d. Expected = %d.\n", Counter, p->nAddedFuncs ); - //printf( "Subgraphs = %d. Expected = %d.\n", CounterS, p->nAdded ); - assert( Counter == p->nAddedFuncs ); - assert( CounterS == p->nAdded ); - // clean - Abc_NtkForEachObj( pNtk, pObj, i ) - { - Abc_ObjClearMax( pObj ); - } - printf( "The record with %d AND nodes in %d subgraphs for %d functions with %d inputs:\n", - Abc_NtkNodeNum(pNtk), Abc_NtkPoNum(pNtk), p->nAddedFuncs, Abc_NtkPiNum(pNtk) ); - for ( i = 0; i <= 16; i++ ) - { - if ( Counters[i] ) - printf( "Inputs = %2d. Funcs = %8d. Subgrs = %8d. Ratio = %6.2f.\n", i, Counters[i], CountersS[i], 1.0*CountersS[i]/Counters[i] ); - } - - printf( "Subgraphs tried = %10d. (%6.2f %%)\n", p->nTried, !p->nTried? 0 : 100.0*p->nTried/p->nTried ); - printf( "Subgraphs filtered by support size = %10d. (%6.2f %%)\n", p->nFilterSize, !p->nTried? 0 : 100.0*p->nFilterSize/p->nTried ); - printf( "Subgraphs filtered by structural redundancy = %10d. (%6.2f %%)\n", p->nFilterRedund, !p->nTried? 0 : 100.0*p->nFilterRedund/p->nTried ); - printf( "Subgraphs filtered by volume = %10d. (%6.2f %%)\n", p->nFilterVolume, !p->nTried? 0 : 100.0*p->nFilterVolume/p->nTried ); - printf( "Subgraphs filtered by TT redundancy = %10d. (%6.2f %%)\n", p->nFilterTruth, !p->nTried? 0 : 100.0*p->nFilterTruth/p->nTried ); - printf( "Subgraphs filtered by error = %10d. (%6.2f %%)\n", p->nFilterError, !p->nTried? 0 : 100.0*p->nFilterError/p->nTried ); - printf( "Subgraphs filtered by isomorphism = %10d. (%6.2f %%)\n", p->nFilterSame, !p->nTried? 0 : 100.0*p->nFilterSame/p->nTried ); - printf( "Subgraphs added = %10d. (%6.2f %%)\n", p->nAdded, !p->nTried? 0 : 100.0*p->nAdded/p->nTried ); - printf( "Functions added = %10d. (%6.2f %%)\n", p->nAddedFuncs, !p->nTried? 0 : 100.0*p->nAddedFuncs/p->nTried ); - if(s_pMan->fTrim) - printf( "Functions trimed = %10d. (%6.2f %%)\n", p->nTrimed, !p->nTried? 0 : 100.0*p->nTrimed/p->nTried ); - p->timeOther = p->timeTotal - p->timeCollect - p->timeTruth - p->timeCanon - p->timeInsert - p->timeBuild - p->timeTrim - p->timeMerge - p->timeReHash; - ABC_PRTP( "Collecting nodes ", p->timeCollect, p->timeTotal); - ABC_PRTP( "Computing truth ", p->timeTruth, p->timeTotal ); - ABC_PRTP( "Canonicizing ", p->timeCanon, p->timeTotal ); - ABC_PRTP( "Building ", p->timeBuild, p->timeTotal ); - ABC_PRTP( "ReHash ", p->timeReHash, p->timeTotal ); - ABC_PRTP( "Merge ", p->timeMerge, p->timeTotal ); - ABC_PRTP( "Insert ", p->timeInsert, p->timeTotal); - if(s_pMan->fTrim) - ABC_PRTP( "Filter ", p->timeTrim, p->timeTotal); - ABC_PRTP( "Other ", p->timeOther, p->timeTotal ); - ABC_PRTP( "TOTAL ", p->timeTotal, p->timeTotal ); - - if ( p->nFunsFound ) - { - printf("\n"); - printf( "During rewriting found = %d and not found = %d functions.\n", p->nFunsFound, p->nFunsNotFound ); - printf( "Functions tried = %10d. (%6.2f %%)\n", p->nFunsTried, !p->nFunsTried? 0 : 100.0*p->nFunsTried/p->nFunsTried ); - printf( "Functions filtered by support = %10d. (%6.2f %%)\n", p->nFunsFilteredBysupport, !p->nFunsFilteredBysupport? 0 : 100.0*p->nFunsFilteredBysupport/p->nFunsTried ); - printf( "Functions not found in lib = %10d. (%6.2f %%)\n", p->nFunsNotFound, !p->nFunsNotFound? 0 : 100.0*p->nFunsNotFound/p->nFunsTried ); - printf( "Functions founded = %10d. (%6.2f %%)\n", p->nFunsFound, !p->nFunsFound? 0 : 100.0*p->nFunsFound/p->nFunsTried ); - printf( "Functions delay computed = %10d. Ratio = %6.2f.\n", p->nFunsDelayComput, !p->nFunsDelayComput? 0 : 1.0*p->nFunsDelayComput/p->nFunsFound ); - p->timeIfOther = p->timeIfTotal - p->timeIfCanonicize - p->timeIfComputDelay -p->timeIfDerive; - ABC_PRTP( "Canonicize ", p->timeIfCanonicize, p->timeIfTotal ); - ABC_PRTP( "Compute Delay ", p->timeIfComputDelay, p->timeIfTotal ); - ABC_PRTP( "Derive ", p->timeIfDerive, p->timeIfTotal ); - ABC_PRTP( "Other ", p->timeIfOther, p->timeIfTotal ); - ABC_PRTP( "TOTAL ", p->timeIfTotal, p->timeIfTotal ); - } - -} - - -/**Function************************************************************* - - Synopsis [Returns the hash key.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -static inline unsigned Abc_NtkRecTableHash( unsigned * pTruth, int nVars, int nBins, int * pPrimes ) -{ - int i, nWords = Kit_TruthWordNum( nVars ); - unsigned uHash = 0; - for ( i = 0; i < nWords; i++ ) - uHash ^= pTruth[i] * pPrimes[i & 0x7]; - return uHash % nBins; -} - -/**Function************************************************************* - - Synopsis [Returns the given record.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -Rec_Obj_t ** Abc_NtkRecTableLookup(Abc_ManRec_t* p, Rec_Obj_t ** pBins, int nBins, unsigned * pTruth, int nVars ) -{ - static int s_Primes[10] = { 1291, 1699, 2357, 4177, 5147, 5647, 6343, 7103, 7873, 8147 }; - Rec_Obj_t ** ppSpot, * pEntry; - ppSpot = pBins + Abc_NtkRecTableHash( pTruth, nVars, nBins, s_Primes ); - for ( pEntry = *ppSpot; pEntry; ppSpot = &pEntry->pCopy, pEntry = pEntry->pCopy ) - if ( Kit_TruthIsEqualWithPhase((unsigned *)Vec_PtrEntry(p->vTtNodes, pEntry->Id), pTruth, nVars) ) - return ppSpot; - return ppSpot; -} - -/**Function************************************************************* - - Synopsis [Computes the truth table of the node.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecComputeTruth( Abc_Obj_t * pObj, Vec_Ptr_t * vTtNodes, int nVars ) -{ - unsigned * pTruth, * pTruth0, * pTruth1; - int RetValue; - assert( Abc_ObjIsNode(pObj) ); - pTruth = (unsigned *)Vec_PtrEntry( vTtNodes, pObj->Id ); - pTruth0 = (unsigned *)Vec_PtrEntry( vTtNodes, Abc_ObjFaninId0(pObj) ); - pTruth1 = (unsigned *)Vec_PtrEntry( vTtNodes, Abc_ObjFaninId1(pObj) ); - Kit_TruthAndPhase( pTruth, pTruth0, pTruth1, nVars, Abc_ObjFaninC0(pObj), Abc_ObjFaninC1(pObj) ); - assert( (pTruth[0] & 1) == pObj->fPhase ); - RetValue = ((pTruth[0] & 1) == pObj->fPhase); - return RetValue; -} - -/**Function************************************************************* - - Synopsis [Performs renoding as technology mapping.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecAdd( Abc_Ntk_t * pNtk, int fUseSOPB) -{ - extern Abc_Ntk_t * Abc_NtkIf( Abc_Ntk_t * pNtk, If_Par_t * pPars ); - extern int Abc_NtkRecAddCut( If_Man_t * pIfMan, If_Obj_t * pRoot, If_Cut_t * pCut ); - - If_Par_t Pars, * pPars = &Pars; - Abc_Ntk_t * pNtkNew; - abctime clk = Abc_Clock(); - - if ( Abc_NtkGetChoiceNum( pNtk ) ) - printf( "Performing renoding with choices.\n" ); - - // set defaults - memset( pPars, 0, sizeof(If_Par_t) ); - // user-controlable paramters - pPars->nLutSize = s_pMan->nVarsInit; - pPars->nCutsMax = s_pMan->nCuts; - pPars->nFlowIters = 0; - pPars->nAreaIters = 0; - pPars->DelayTarget = -1; - pPars->Epsilon = (float)0.005; - pPars->fPreprocess = 0; - pPars->fArea = 1; - pPars->fFancy = 0; - pPars->fExpRed = 0; - pPars->fLatchPaths = 0; - pPars->fSeqMap = 0; - pPars->fVerbose = 0; - //pPars->fCutMin = 1; - // internal parameters - if (fUseSOPB) - { - pPars->fTruth = 1; - pPars->fUsePerm = 1; - pPars->fDelayOpt = 1; - } - else - { - pPars->fTruth = 0; - pPars->fUsePerm = 0; - pPars->fDelayOpt = 0; - } - pPars->nLatchesCi = 0; - pPars->nLatchesCo = 0; - pPars->pLutLib = NULL; // Abc_FrameReadLibLut(); - pPars->pTimesArr = NULL; - pPars->pTimesArr = NULL; - pPars->fUseBdds = 0; - pPars->fUseSops = 0; - pPars->fUseCnfs = 0; - pPars->fUseMv = 0; - pPars->fSkipCutFilter = 1; - pPars->pFuncCost = NULL; - pPars->pFuncUser = Abc_NtkRecAddCut; - - // perform recording - pNtkNew = Abc_NtkIf( pNtk, pPars ); - Abc_NtkDelete( pNtkNew ); -s_pMan->timeTotal += Abc_Clock() - clk; - -// if ( !Abc_NtkCheck( s_pMan->pNtk ) ) -// printf( "Abc_NtkRecAdd: The network check has failed.\n" ); -} - -/**Function************************************************************* - - Synopsis [Adds the cut function to the internal storage.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecCollectNodes_rec( If_Obj_t * pNode, Vec_Ptr_t * vNodes ) -{ - if ( pNode->fMark ) - return; - pNode->fMark = 1; - assert( If_ObjIsAnd(pNode) ); - Abc_NtkRecCollectNodes_rec( If_ObjFanin0(pNode), vNodes ); - Abc_NtkRecCollectNodes_rec( If_ObjFanin1(pNode), vNodes ); - Vec_PtrPush( vNodes, pNode ); -} - -/**Function************************************************************* - - Synopsis [Adds the cut function to the internal storage.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecCollectNodesFromLib_rec( Abc_Obj_t * pNode, Vec_Ptr_t * vNodes ) -{ - if ( Abc_ObjIsPi(pNode)) - return; - Abc_NtkRecCollectNodesFromLib_rec( Abc_ObjFanin0(pNode), vNodes ); - Abc_NtkRecCollectNodesFromLib_rec( Abc_ObjFanin1(pNode), vNodes ); - Vec_PtrPush( vNodes, pNode ); -} - -/**Function************************************************************* - - Synopsis [Adds the cut function to the internal storage.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecCollectNodes( If_Man_t * pIfMan, If_Obj_t * pRoot, If_Cut_t * pCut, Vec_Ptr_t * vNodes ) -{ - If_Obj_t * pLeaf; - int i, RetValue = 1; - - // collect the internal nodes of the cut - Vec_PtrClear( vNodes ); - If_CutForEachLeaf( pIfMan, pCut, pLeaf, i ) - { - Vec_PtrPush( vNodes, pLeaf ); - assert( pLeaf->fMark == 0 ); - pLeaf->fMark = 1; - } - - // collect other nodes - Abc_NtkRecCollectNodes_rec( pRoot, vNodes ); - - // check if there are leaves, such that both of their fanins are marked - // this indicates a redundant cut - If_CutForEachLeaf( pIfMan, pCut, pLeaf, i ) - { - if ( !If_ObjIsAnd(pLeaf) ) - continue; - if ( If_ObjFanin0(pLeaf)->fMark && If_ObjFanin1(pLeaf)->fMark ) - { - RetValue = 0; - break; - } - } - - // clean the mark - Vec_PtrForEachEntry( If_Obj_t *, vNodes, pLeaf, i ) - pLeaf->fMark = 0; -/* - if ( pRoot->Id == 2639 ) - { - // print the cut - Vec_PtrForEachEntry( If_Obj_t *, vNodes, pLeaf, i ) - { - if ( If_ObjIsAnd(pLeaf) ) - printf( "%4d = %c%4d & %c%4d\n", pLeaf->Id, - (If_ObjFaninC0(pLeaf)? '-':'+'), If_ObjFanin0(pLeaf)->Id, - (If_ObjFaninC1(pLeaf)? '-':'+'), If_ObjFanin1(pLeaf)->Id ); - else - printf( "%4d = pi\n", pLeaf->Id ); - } - printf( "\n" ); - } -*/ - return RetValue; -} - -/**Function************************************************************* - - Synopsis [Adds the cut function to the internal storage.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecCollectNodesFromLib(Abc_Ntk_t* pNtk, Abc_Obj_t * pRoot, Vec_Ptr_t * vNodes , int nVars) -{ - int i; - // collect the internal nodes of the cut - Vec_PtrClear( vNodes ); - for ( i = 0; i < nVars; i++ ) - Vec_PtrPush( vNodes, Abc_NtkPi(pNtk, i)); - - - // collect other nodes - Abc_NtkRecCollectNodesFromLib_rec( pRoot, vNodes ); -} - -/**Function************************************************************* - - Synopsis [Computes truth tables of nodes in the cut.] - - Description [Returns 0 if the TT does not depend on some cut variables. - Or if the TT can be expressed simpler using other nodes.] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecCutTruth( Vec_Ptr_t * vNodes, int nLeaves, Vec_Ptr_t * vTtTemps, Vec_Ptr_t * vTtElems ) -{ - unsigned * pSims, * pSims0, * pSims1; - unsigned * pTemp = s_pMan->pTemp2; - unsigned uWord; - If_Obj_t * pObj, * pObj2, * pRoot; - int i, k, nLimit, nInputs = s_pMan->nVars; - - assert( Vec_PtrSize(vNodes) > nLeaves ); - - // set the elementary truth tables and compute the truth tables of the nodes - Vec_PtrForEachEntry( If_Obj_t *, vNodes, pObj, i ) - { - pObj->pCopy = Vec_PtrEntry(vTtTemps, i); - pSims = (unsigned *)pObj->pCopy; - if ( i < nLeaves ) - { - Kit_TruthCopy( pSims, (unsigned *)Vec_PtrEntry(vTtElems, i), nInputs ); - continue; - } - assert( If_ObjIsAnd(pObj) ); - // get hold of the simulation information - pSims0 = (unsigned *)If_ObjFanin0(pObj)->pCopy; - pSims1 = (unsigned *)If_ObjFanin1(pObj)->pCopy; - // simulate the node - Kit_TruthAndPhase( pSims, pSims0, pSims1, nInputs, If_ObjFaninC0(pObj), If_ObjFaninC1(pObj) ); - } - - // check the support size - pRoot = (If_Obj_t *)Vec_PtrEntryLast( vNodes ); - pSims = (unsigned *)pRoot->pCopy; - if ( Kit_TruthSupport(pSims, nInputs) != Kit_BitMask(nLeaves) ) - return 0; - - // make sure none of the nodes has the same simulation info as the output - // check pairwise comparisons - nLimit = Vec_PtrSize(vNodes) - 1; - Vec_PtrForEachEntryStop( If_Obj_t *, vNodes, pObj, i, nLimit ) - { - pSims0 = (unsigned *)pObj->pCopy; - if ( Kit_TruthIsEqualWithPhase(pSims, pSims0, nInputs) ) - return 0; - Vec_PtrForEachEntryStop( If_Obj_t *, vNodes, pObj2, k, i ) - { - if ( (If_ObjFanin0(pRoot) == pObj && If_ObjFanin1(pRoot) == pObj2) || - (If_ObjFanin1(pRoot) == pObj && If_ObjFanin0(pRoot) == pObj2) ) - continue; - pSims1 = (unsigned *)pObj2->pCopy; - - uWord = pSims0[0] & pSims1[0]; - if ( pSims[0] == uWord || pSims[0] == ~uWord ) - { - Kit_TruthAndPhase( pTemp, pSims0, pSims1, nInputs, 0, 0 ); - if ( Kit_TruthIsEqualWithPhase(pSims, pTemp, nInputs) ) - return 0; - } - - uWord = pSims0[0] & ~pSims1[0]; - if ( pSims[0] == uWord || pSims[0] == ~uWord ) - { - Kit_TruthAndPhase( pTemp, pSims0, pSims1, nInputs, 0, 1 ); - if ( Kit_TruthIsEqualWithPhase(pSims, pTemp, nInputs) ) - return 0; - } - - uWord = ~pSims0[0] & pSims1[0]; - if ( pSims[0] == uWord || pSims[0] == ~uWord ) - { - Kit_TruthAndPhase( pTemp, pSims0, pSims1, nInputs, 1, 0 ); - if ( Kit_TruthIsEqualWithPhase(pSims, pTemp, nInputs) ) - return 0; - } - - uWord = ~pSims0[0] & ~pSims1[0]; - if ( pSims[0] == uWord || pSims[0] == ~uWord ) - { - Kit_TruthAndPhase( pTemp, pSims0, pSims1, nInputs, 1, 1 ); - if ( Kit_TruthIsEqualWithPhase(pSims, pTemp, nInputs) ) - return 0; - } - } - } - return 1; -} - -/**Function************************************************************* - - Synopsis [Computes truth tables of nodes in the cut.] - - Description [Returns 0 if the TT does not depend on some cut variables. - Or if the TT can be expressed simpler using other nodes.] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecCutTruthFromLib( Vec_Ptr_t * vNodes, int nLeaves, Vec_Ptr_t * vTtTemps, Vec_Ptr_t * vTtElems ) -{ - unsigned * pSims, * pSims0, * pSims1; - //unsigned * pTemp = s_pMan->pTemp2; - Abc_Obj_t * pObj, * pRoot; - int i, nInputs = s_pMan->nVars; - - assert( Vec_PtrSize(vNodes) > nLeaves ); - - // set the elementary truth tables and compute the truth tables of the nodes - Vec_PtrForEachEntry( Abc_Obj_t *, vNodes, pObj, i ) - { - pObj->pTemp = Vec_PtrEntry(vTtTemps, i); - pSims = (unsigned *)pObj->pTemp; - if ( i < nLeaves ) - { - Kit_TruthCopy( pSims, (unsigned *)Vec_PtrEntry(vTtElems, i), nInputs ); - continue; - } - // get hold of the simulation information - pSims0 = (unsigned *)Abc_ObjFanin0(pObj)->pTemp; - pSims1 = (unsigned *)Abc_ObjFanin1(pObj)->pTemp; - // simulate the node - Kit_TruthAndPhase( pSims, pSims0, pSims1, nInputs, Abc_ObjFaninC0(pObj), Abc_ObjFaninC1(pObj) ); - } - - // check the support size - pRoot = (Abc_Obj_t *)Vec_PtrEntryLast( vNodes ); - pSims = (unsigned *)pRoot->pTemp; - assert ( Kit_TruthSupport(pSims, nInputs) == Kit_BitMask(nLeaves) ); -} - -/**Function************************************************************* - - Synopsis [Adds the cut function to the internal storage.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecAddCutCheckCycle_rec( Abc_Obj_t * pRoot, Abc_Obj_t * pObj ) -{ - assert( pRoot->Level > 0 ); - if ( pObj->Level < pRoot->Level ) - return 1; - if ( pObj == pRoot ) - return 0; - if ( !Abc_NtkRecAddCutCheckCycle_rec(pRoot, Abc_ObjFanin0(pObj)) ) - return 0; - if ( !Abc_NtkRecAddCutCheckCycle_rec(pRoot, Abc_ObjFanin1(pObj)) ) - return 0; - return 1; -} - - -/**Function************************************************************* - - Synopsis [Building structures generated by SOPB.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecAddSOPB( If_Man_t * pIfMan, If_Cut_t * pCut, unsigned* pInOut, char* pCanonPerm, unsigned uCanonPhase ) -{ - If_And_t Leaf; - int i, nNodes, RetValue, nNodesBeg, timeInsert; - Vec_Wrd_t * vAnds; - Abc_Ntk_t * pAig = s_pMan->pNtk; - Abc_Obj_t * pAbcObj, * pFanin0, * pFanin1, * pObj = NULL, * pObjPo; - static int s_MaxSize[16] = { 0 }; - int nLeaves = If_CutLeaveNum(pCut); - int nInputs = s_pMan->nVars; - word Entry; - If_And_t This; - Rec_Obj_t ** ppSpot; - char Buffer[40], Name[20], Truth[20]; - abctime timeBuild = Abc_Clock(); - unsigned * pTruth; - vAnds = If_CutDelaySopArray( pIfMan, pCut ); - if(Vec_WrdSize(vAnds) > nLeaves + 3*(nLeaves-1) + s_MaxSize[nLeaves]) - { - s_pMan->nFilterVolume++; - return; - } - Vec_PtrGrow(s_pMan->vLabels, Abc_NtkObjNumMax(pAig)); - s_pMan->vLabels->nSize = s_pMan->vLabels->nCap; - for (i = 0; i < nLeaves; i++) - { - pAbcObj = Abc_NtkPi( pAig, i ); - Leaf = If_WrdToAnd(Vec_WrdEntry(vAnds, pCanonPerm[i])); - pAbcObj = Abc_ObjNotCond(pAbcObj,Leaf.fCompl ^ ((uCanonPhase & (1 << i)) > 0)); - Vec_PtrWriteEntry(s_pMan->vLabels, Leaf.Id, pAbcObj); - } - nNodesBeg = Abc_NtkObjNumMax( pAig ); - Vec_WrdForEachEntryStart( vAnds, Entry, i, nLeaves ) - { - This = If_WrdToAnd( Entry ); - pFanin0 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(s_pMan->vLabels, This.iFan0), This.fCompl0 ); - pFanin1 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(s_pMan->vLabels, This.iFan1), This.fCompl1 ); - nNodes = Abc_NtkObjNumMax( pAig ); - pObj = Abc_AigAnd( (Abc_Aig_t *)pAig->pManFunc, pFanin0, pFanin1 ); - Vec_PtrWriteEntry(s_pMan->vLabels,This.Id,pObj); - assert( !Abc_ObjIsComplement(pObj) ); - - if ( pObj->Id == nNodes ) - { - // increase storage for truth tables - // if ( Vec_PtrSize(s_pMan->vTtNodes) <= pObj->Id ) - // Vec_PtrDoubleSimInfo(s_pMan->vTtNodes); - while ( Vec_PtrSize(s_pMan->vTtNodes) <= pObj->Id ) - // Vec_PtrPush( s_pMan->vTtNodes, ABC_ALLOC(unsigned, s_pMan->nWords) ); - Vec_PtrPush( s_pMan->vTtNodes, Mem_FixedEntryFetch(s_pMan->pMmTruth) ); - - // compute the truth table - RetValue = Abc_NtkRecComputeTruth( pObj, s_pMan->vTtNodes, nInputs ); - if ( RetValue == 0 ) - { - s_pMan->nFilterError++; - printf( "T" ); - return; - } - } - } - assert(pObj); - pTruth = (unsigned *)Vec_PtrEntry( s_pMan->vTtNodes, pObj->Id ); - if ( Kit_TruthSupport(pTruth, nInputs) != Kit_BitMask(nLeaves) ) - { - s_pMan->nFilterError++; - printf( "S" ); - return; - } - - // compare the truth tables - if ( !Kit_TruthIsEqualWithPhase( pTruth, pInOut, nInputs ) ) - { - s_pMan->nFilterError++; - printf( "F" ); - return; - } - s_pMan->timeBuild = Abc_Clock() - timeBuild; - // Extra_PrintBinary( stdout, pInOut, 8 ); printf( "\n" ); - - // look up in the hash table and increase the hit number of the functional class - if(s_pMan->nAddedFuncs > 2 * s_pMan->nBins) - Abc_NtkRecRezieHash(s_pMan); - ppSpot = Abc_NtkRecTableLookup(s_pMan, s_pMan->pBins,s_pMan->nBins , pTruth, nInputs ); - Abc_NtkRecFrequencyInc(*ppSpot); - // if not new nodes were added and the node has a CO fanout - - if ( nNodesBeg == Abc_NtkObjNumMax(pAig) && Abc_NodeFindCoFanout(pObj) != NULL ) - { - s_pMan->nFilterSame++; - //assert(*ppSpot != NULL); - return; - } - - // create PO for this node - pObjPo = Abc_NtkCreatePo(pAig); - Abc_ObjAddFanin( pObjPo, pObj ); - - // assign the name to this PO - sprintf( Name, "%d_%06d", nLeaves, Abc_NtkPoNum(pAig) ); - if ( (nInputs <= 6) && 0 ) - { - Extra_PrintHexadecimalString( Truth, pInOut, nInputs ); - sprintf( Buffer, "%s_%s", Name, Truth ); - } - else - { - sprintf( Buffer, "%s", Name ); - } - Abc_ObjAssignName( pObjPo, Buffer, NULL ); - - // add the resulting truth table to the hash table - timeInsert = Abc_Clock(); - ppSpot = Abc_NtkRecTableLookup(s_pMan, s_pMan->pBins, s_pMan->nBins, pTruth, s_pMan->nVars ); - Abc_NtkRecInsertToLookUpTable(s_pMan, ppSpot, pObj, nLeaves, s_pMan->fTrim); - s_pMan->timeInsert += Abc_Clock() - timeInsert; - s_pMan->timeTotal = Abc_Clock() - timeBuild; - return; - -} - -/**Function************************************************************* - - Synopsis [Adds the cut function to the internal storage.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecAddCut( If_Man_t * pIfMan, If_Obj_t * pRoot, If_Cut_t * pCut ) -{ - static int s_MaxSize[16] = { 0 }; - char Buffer[40], Name[20], Truth[20]; - char pCanonPerm[16]; - Abc_Obj_t * pObj = NULL, * pFanin0, * pFanin1, * pObjPo; - Rec_Obj_t ** ppSpot; - Abc_Ntk_t * pAig = s_pMan->pNtk; - If_Obj_t * pIfObj; - Vec_Ptr_t * vNodes = s_pMan->vNodes; - unsigned * pInOut = s_pMan->pTemp1; - unsigned * pTemp = s_pMan->pTemp2; - unsigned * pTruth; - int i, RetValue, nNodes, nNodesBeg, nInputs = s_pMan->nVars, nLeaves = If_CutLeaveNum(pCut); - unsigned uCanonPhase; - abctime clk, timeInsert, timeBuild; - //int begin = Abc_Clock(); - assert( nInputs <= 16 ); - assert( nInputs == (int)pCut->nLimit ); - s_pMan->nTried++; - // skip small cuts - if ( nLeaves < 2 ) - { - s_pMan->nFilterSize++; - return 1; - } - - // collect internal nodes and skip redundant cuts -clk = Abc_Clock(); - RetValue = Abc_NtkRecCollectNodes( pIfMan, pRoot, pCut, vNodes ); - -s_pMan->timeCollect += Abc_Clock() - clk; - if ( !RetValue ) - { - s_pMan->nFilterRedund++; - return 1; - } - - // skip cuts with very large volume - if ( Vec_PtrSize(vNodes) > nLeaves + 3*(nLeaves-1) + s_MaxSize[nLeaves] ) - { - s_pMan->nFilterVolume++; - return 1; - } - - // compute truth table and skip the redundant structures -clk = Abc_Clock(); - RetValue = Abc_NtkRecCutTruth( vNodes, nLeaves, s_pMan->vTtTemps, s_pMan->vTtElems ); - s_pMan->timeTruth += Abc_Clock() - clk; - if ( !RetValue ) - { - //fprintf(file,"redundant structures\n"); - //fclose(file); - s_pMan->nFilterTruth++; - return 1; - } - - // copy the truth table - Kit_TruthCopy( pInOut, (unsigned *)pRoot->pCopy, nInputs ); - - // set permutation - for ( i = 0; i < nLeaves; i++ ) - pCanonPerm[i] = i; - - // semi-canonicize the truth table -clk = Abc_Clock(); - uCanonPhase = Kit_TruthSemiCanonicize( pInOut, pTemp, nLeaves, pCanonPerm ); - If_CutTruthStretch(pInOut, nLeaves, s_pMan->nVars); - s_pMan->timeCanon += Abc_Clock() - clk; - // pCanonPerm and uCanonPhase show what was the variable corresponding to each var in the current truth - - // go through the variables in the new truth table - timeBuild = Abc_Clock(); - for ( i = 0; i < nLeaves; i++ ) - { - // get hold of the corresponding leaf - pIfObj = If_ManObj( pIfMan, pCut->pLeaves[(int)pCanonPerm[i]] ); - // get hold of the corresponding new node - pObj = Abc_NtkPi( pAig, i ); - pObj = Abc_ObjNotCond( pObj, (uCanonPhase & (1 << i)) ); - // map them - pIfObj->pCopy = pObj; - } - - // build the node and compute its truth table - nNodesBeg = Abc_NtkObjNumMax( pAig ); - Vec_PtrForEachEntryStart( If_Obj_t *, vNodes, pIfObj, i, nLeaves ) - { - pFanin0 = Abc_ObjNotCond( (Abc_Obj_t *)If_ObjFanin0(pIfObj)->pCopy, If_ObjFaninC0(pIfObj) ); - pFanin1 = Abc_ObjNotCond( (Abc_Obj_t *)If_ObjFanin1(pIfObj)->pCopy, If_ObjFaninC1(pIfObj) ); - - nNodes = Abc_NtkObjNumMax( pAig ); - pObj = Abc_AigAnd( (Abc_Aig_t *)pAig->pManFunc, pFanin0, pFanin1 ); - assert( !Abc_ObjIsComplement(pObj) ); - pIfObj->pCopy = pObj; - - if ( pObj->Id == nNodes ) - { - // increase storage for truth tables -// if ( Vec_PtrSize(s_pMan->vTtNodes) <= pObj->Id ) -// Vec_PtrDoubleSimInfo(s_pMan->vTtNodes); - while ( Vec_PtrSize(s_pMan->vTtNodes) <= pObj->Id ) -// Vec_PtrPush( s_pMan->vTtNodes, ABC_ALLOC(unsigned, s_pMan->nWords) ); - Vec_PtrPush( s_pMan->vTtNodes, Mem_FixedEntryFetch(s_pMan->pMmTruth) ); - - // compute the truth table - RetValue = Abc_NtkRecComputeTruth( pObj, s_pMan->vTtNodes, nInputs ); - if ( RetValue == 0 ) - { - s_pMan->nFilterError++; - printf( "T" ); - return 1; - } - } - } - assert(pObj); - s_pMan->timeBuild += Abc_Clock() - timeBuild; - pTruth = (unsigned *)Vec_PtrEntry( s_pMan->vTtNodes, pObj->Id ); - if ( Kit_TruthSupport(pTruth, nInputs) != Kit_BitMask(nLeaves) ) - { - s_pMan->nFilterError++; - printf( "S" ); - return 1; - } - - // compare the truth tables - if ( !Kit_TruthIsEqualWithPhase( pTruth, pInOut, nInputs ) ) - { - s_pMan->nFilterError++; - printf( "F" ); - return 1; - } -// Extra_PrintBinary( stdout, pInOut, 8 ); printf( "\n" ); - - // look up in the hash table and increase the hit number of the functional class - if(s_pMan->nAddedFuncs > 2 * s_pMan->nBins) - Abc_NtkRecRezieHash(s_pMan); - ppSpot = Abc_NtkRecTableLookup(s_pMan, s_pMan->pBins,s_pMan->nBins , pTruth, nInputs ); - Abc_NtkRecFrequencyInc(*ppSpot); - // if not new nodes were added and the node has a CO fanout - - if ( nNodesBeg == Abc_NtkObjNumMax(pAig) && Abc_NodeFindCoFanout(pObj) != NULL ) - { - s_pMan->nFilterSame++; - //assert(*ppSpot != NULL); - return 1; - } - - // create PO for this node - pObjPo = Abc_NtkCreatePo(pAig); - Abc_ObjAddFanin( pObjPo, pObj ); - - // assign the name to this PO - sprintf( Name, "%d_%06d", nLeaves, Abc_NtkPoNum(pAig) ); - if ( (nInputs <= 6) && 0 ) - { - Extra_PrintHexadecimalString( Truth, pInOut, nInputs ); - sprintf( Buffer, "%s_%s", Name, Truth ); - } - else - { - sprintf( Buffer, "%s", Name ); - } - Abc_ObjAssignName( pObjPo, Buffer, NULL ); - - // add the resulting truth table to the hash table - timeInsert = Abc_Clock(); - Abc_NtkRecInsertToLookUpTable(s_pMan, ppSpot, pObj, nLeaves, s_pMan->fTrim); - s_pMan->timeInsert += Abc_Clock() - timeInsert; - if (pIfMan->pPars->fDelayOpt) - Abc_NtkRecAddSOPB(pIfMan, pCut, pTruth, pCanonPerm, uCanonPhase ); - return 1; -} - -/**Function************************************************************* - - Synopsis [Adds the cut function to the internal storage.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecAddFromLib( Abc_Ntk_t* pNtk, Abc_Obj_t * pRoot, int nVars ) -{ - char Buffer[40], Name[20], Truth[20]; - Abc_Obj_t * pObj = NULL, * pFanin0, * pFanin1, * pObjPo; - Rec_Obj_t ** ppSpot; - Abc_Ntk_t * pAig = s_pMan->pNtk; - Abc_Obj_t * pAbcObj; - Vec_Ptr_t * vNodes = s_pMan->vNodes; - unsigned * pInOut = s_pMan->pTemp1; - //unsigned * pTemp = s_pMan->pTemp2; - unsigned * pTruth; - int i, RetValue, nNodes, nNodesBeg, nInputs = s_pMan->nVars, nLeaves = nVars; - assert( nInputs <= 16 ); - // collect internal nodes and skip redundant cuts - Abc_NtkRecCollectNodesFromLib(pNtk, pRoot, vNodes , nLeaves); - Abc_NtkRecCutTruthFromLib(vNodes, nLeaves, s_pMan->vTtTemps, s_pMan->vTtElems ); - // copy the truth table - Kit_TruthCopy( pInOut, (unsigned *)pRoot->pTemp, nInputs ); - // go through the variables in the new truth table - for ( i = 0; i < nLeaves; i++ ) - { - // get hold of the corresponding leaf - pAbcObj = Abc_NtkPi(pNtk, i); - // get hold of the corresponding new node - pObj = Abc_NtkPi( pAig, i ); - // map them - pAbcObj->pCopy = pObj; - } - - // build the node and compute its truth table - nNodesBeg = Abc_NtkObjNumMax( pAig ); - Vec_PtrForEachEntryStart( Abc_Obj_t *, vNodes, pAbcObj, i, nLeaves ) - { - pFanin0 = Abc_ObjNotCond( (Abc_Obj_t *)Abc_ObjFanin0(pAbcObj)->pCopy, Abc_ObjFaninC0(pAbcObj) ); - pFanin1 = Abc_ObjNotCond( (Abc_Obj_t *)Abc_ObjFanin1(pAbcObj)->pCopy, Abc_ObjFaninC1(pAbcObj) ); - - nNodes = Abc_NtkObjNumMax( pAig ); - pObj = Abc_AigAnd( (Abc_Aig_t *)pAig->pManFunc, pFanin0, pFanin1 ); - assert( !Abc_ObjIsComplement(pObj) ); - pAbcObj->pCopy = pObj; - - if ( pObj->Id == nNodes ) - { - // increase storage for truth tables -// if ( Vec_PtrSize(s_pMan->vTtNodes) <= pObj->Id ) -// Vec_PtrDoubleSimInfo(s_pMan->vTtNodes); - while ( Vec_PtrSize(s_pMan->vTtNodes) <= pObj->Id ) -// Vec_PtrPush( s_pMan->vTtNodes, ABC_ALLOC(unsigned, s_pMan->nWords) ); - Vec_PtrPush( s_pMan->vTtNodes, Mem_FixedEntryFetch(s_pMan->pMmTruth) ); - // compute the truth table - RetValue = Abc_NtkRecComputeTruth( pObj, s_pMan->vTtNodes, nInputs ); - if ( RetValue == 0 ) - { - s_pMan->nFilterError++; - printf( "T" ); - } - } - } - assert(pObj); - pTruth = (unsigned *)Vec_PtrEntry( s_pMan->vTtNodes, pObj->Id ); - assert ( Kit_TruthSupport(pTruth, nInputs) == Kit_BitMask(nLeaves) ); - // compare the truth tables - assert (Kit_TruthIsEqual( pTruth, pInOut, nInputs ) ); - -// Extra_PrintBinary( stdout, pInOut, 8 ); printf( "\n" ); - - // look up in the hash table and increase the hit number of the functional class - if(s_pMan->nAddedFuncs > 2 * s_pMan->nBins) - Abc_NtkRecRezieHash(s_pMan); - ppSpot = Abc_NtkRecTableLookup(s_pMan, s_pMan->pBins, s_pMan->nBins, pTruth, nInputs ); - - // if not new nodes were added and the node has a CO fanout - if ( nNodesBeg == Abc_NtkObjNumMax(pAig) && Abc_NodeFindCoFanout(pObj) != NULL ) - { - s_pMan->nFilterSame++; - //assert(*ppSpot != NULL); - return; - } - - // create PO for this node - pObjPo = Abc_NtkCreatePo(pAig); - Abc_ObjAddFanin( pObjPo, pObj ); - - // assign the name to this PO - sprintf( Name, "%d_%06d", nLeaves, Abc_NtkPoNum(pAig) ); - if ( (nInputs <= 6) && 0 ) - { - Extra_PrintHexadecimalString( Truth, pInOut, nInputs ); - sprintf( Buffer, "%s_%s", Name, Truth ); - } - else - { - sprintf( Buffer, "%s", Name ); - } - Abc_ObjAssignName( pObjPo, Buffer, NULL ); - - // add the resulting truth table to the hash table - Abc_NtkRecInsertToLookUpTable(s_pMan, ppSpot, pObj, nLeaves, s_pMan->fTrim); -} - -/**Function************************************************************* - - Synopsis [Prints one AIG sugraph recursively.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_RecPrint_rec( Abc_Obj_t * pObj ) -{ - if ( Abc_ObjIsPi(pObj) ) - { - printf( "%c", 'a' + pObj->Id - 1 ); - return; - } - assert( Abc_ObjIsNode(pObj) ); - printf( "(%s", Abc_ObjFaninC0(pObj)? "!" : "" ); - Abc_RecPrint_rec( Abc_ObjFanin0(pObj) ); - printf( "*%s", Abc_ObjFaninC1(pObj)? "!" : "" ); - Abc_RecPrint_rec( Abc_ObjFanin1(pObj) ); - printf( ")" ); -} - -/**Function************************************************************* - - Synopsis [back up the info of the cut.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecBackUpCut(If_Cut_t* pCut) -{ - int i; - s_pMan->tempUsign = pCut->uSign; - s_pMan->tempNleaves = pCut->nLeaves; - for (i = 0; i < (int)pCut->nLeaves; i++) - s_pMan->pTempleaves[i] = pCut->pLeaves[i]; -// Kit_TruthCopy(s_pMan->pTempTruth, pCut->pTruth, s_pMan->nVars); -} - -/**Function************************************************************* - - Synopsis [restore the info of the cut.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecRestoreCut(If_Cut_t* pCut) -{ - int i; - pCut->uSign = s_pMan->tempUsign; - pCut->nLeaves = s_pMan->tempNleaves; - for (i = 0; i < (int)pCut->nLeaves; i++) - pCut->pLeaves[i] = s_pMan->pTempleaves[i]; -// Kit_TruthCopy(pCut->pTruth ,s_pMan->pTempTruth, s_pMan->nVars); -} - -/**Function************************************************************* - - Synopsis [compute current cut's area.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecCurrentUnMark_rec(If_Obj_t * pObj) -{ - pObj = If_Regular(pObj); - if(pObj->fMark == 0) - return; - if(pObj->pFanin0) - Abc_NtkRecCurrentUnMark_rec(If_ObjFanin0(pObj)); - if(pObj->pFanin1) - Abc_NtkRecCurrentUnMark_rec(If_ObjFanin1(pObj)); - pObj->fMark = 0; - return; -} - -/**Function************************************************************* - - Synopsis [compute current cut's area.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecCurrentMarkAndCount_rec(If_Obj_t * pObj) -{ - int Area0, Area1, Area; - pObj = If_Regular(pObj); - if(pObj->fMark == 1) - return 0; - Area0 = Abc_NtkRecCurrentMarkAndCount_rec(If_ObjFanin0(pObj)); - Area1 = Abc_NtkRecCurrentMarkAndCount_rec(If_ObjFanin1(pObj)); - Area = Area1 + Area0 + 1; - pObj->fMark = 1; - return Area; -} - -/**Function************************************************************* - - Synopsis [compute current cut's area.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecCurrentAera(If_Man_t* p, If_Cut_t* pCut, If_Obj_t * pRoot) -{ - int Area, i; - If_Obj_t * pLeaf; - Vec_PtrClear( s_pMan->vNodes ); - If_CutForEachLeaf( p, pCut, pLeaf, i ) - { - Vec_PtrPush( s_pMan->vNodes, pLeaf ); - assert( pLeaf->fMark == 0 ); - pLeaf->fMark = 1; - } - - // collect other nodes - Abc_NtkRecCollectNodes_rec( pRoot, s_pMan->vNodes ); - Vec_PtrForEachEntry( If_Obj_t *, s_pMan->vNodes, pLeaf, i ) - pLeaf->fMark = 0; - If_CutForEachLeaf(p, pCut, pLeaf, i) - pLeaf->fMark = 1; - Area = Abc_NtkRecCurrentMarkAndCount_rec(pRoot); - Abc_NtkRecCurrentUnMark_rec(pRoot); - return Area; -} - -/**Function************************************************************* - - Synopsis [compute current cut's delay.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -char Abc_NtkRecCurrentDepth_rec(If_Obj_t * pObj, int iLeaf) -{ - char Depth0, Depth1, Depth; - pObj = If_Regular(pObj); - if(pObj->Id == iLeaf) - return 0; - if(pObj->fMark) - return -IF_BIG_CHAR; - Depth0 = Abc_NtkRecCurrentDepth_rec(If_ObjFanin0(pObj), iLeaf); - Depth1 = Abc_NtkRecCurrentDepth_rec(If_ObjFanin1(pObj), iLeaf); - Depth = Abc_MaxInt(Depth0, Depth1); - Depth = (Depth == -IF_BIG_CHAR) ? -IF_BIG_CHAR : Depth + 1; -// assert(Depth <= 127); - return Depth; -} - -/**Function************************************************************* - - Synopsis [compute current cut's delay.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecCurrentDepth(If_Man_t* p, If_Cut_t* pCut, If_Obj_t * pRoot) -{ - int i; - If_Obj_t * pLeaf; - If_CutForEachLeaf(p, pCut, pLeaf, i) - pLeaf->fMark = 1; - If_CutForEachLeaf(p, pCut, pLeaf, i) - s_pMan->pTempDepths[i] = Abc_NtkRecCurrentDepth_rec(pRoot, pLeaf->Id); - If_CutForEachLeaf(p, pCut, pLeaf, i) - pLeaf->fMark = 0; -} - -/**Function************************************************************* - - Synopsis [compute current cut's delay.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int Abc_NtkRecCurrentDelay(If_Man_t* p, If_Cut_t* pCut, If_Obj_t * pRoot) -{ - If_Obj_t* pLeaf; - int i, delayTemp, delayMax = -ABC_INFINITY; - Abc_NtkRecCurrentDepth(p , pCut, pRoot); - If_CutForEachLeaf(p, pCut, pLeaf, i) - { - delayTemp = s_pMan->pTempDepths[i] + If_ObjCutBest(pLeaf)->Delay; - if(delayTemp > delayMax) - delayMax = delayTemp; - } - // plus each pin's delay with its pin-to-output delay, the biggest one is the delay of the structure. - return delayMax; -} - -/**Function************************************************************* - - Synopsis [compute current cut's delay and area.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void Abc_NtkRecComputCurrentStructure(If_Man_t* p, If_Cut_t* pCut, If_Obj_t * pRoot) -{ -// if (pRoot->Id == 78) -// { -// int a = 1; -// } - - s_pMan->currentCost = Abc_NtkRecCurrentAera(p, pCut, pRoot); - s_pMan->currentDelay = Abc_NtkRecCurrentDelay(p, pCut, pRoot); -} - -/**Function************************************************************* - - Synopsis [the cut not found in the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void SetUselessCut(If_Cut_t* pCut) -{ - int i; - pCut->fUseless = 1; - pCut->fUser = 1; - pCut->Cost = s_pMan->currentCost; - for (i = 0; i < (int)pCut->nLeaves; i++) - pCut->pPerm[i] = s_pMan->pTempDepths[i]; - return; -} - -/**Function************************************************************* - - Synopsis [the cut not found in the library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -void SetUseCut(If_Cut_t* pCut, Rec_Obj_t * pRecObj, char * pCanonPerm) -{ - int i; - pCut->fUseless = 0; - pCut->fUser = 1; - pCut->Cost = pRecObj->cost; - for (i = 0; i < (int)pCut->nLeaves; i++) - pCut->pPerm[(int)pCanonPerm[i]] = pRecObj->pinToPinDelay[i]; - return; - -} - -/**Function************************************************************* - - Synopsis [Computes the delay using library.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -int If_CutDelayRecCost(If_Man_t* p, If_Cut_t* pCut, If_Obj_t * pObj) -{ - //int fVerbose = 0; - abctime timeDelayComput, timeTotal = Abc_Clock(), timeCanonicize; - int nLeaves, i, DelayMin = ABC_INFINITY , * pDelayBest = &DelayMin; - char pCanonPerm[16]; - unsigned uCanonPhase; - unsigned* pTruthRec; - Rec_Obj_t *pCandMin; - //Abc_Ntk_t *pAig = s_pMan->pNtk; - unsigned *pInOut = s_pMan->pTemp1; - unsigned *pTemp = s_pMan->pTemp2; - int nVars = s_pMan->nVars; - //int Counter; - assert( s_pMan != NULL ); - nLeaves = If_CutLeaveNum(pCut); - s_pMan->nFunsTried++; - assert( nLeaves >= 2 && nLeaves <= nVars ); - Kit_TruthCopy(pInOut, If_CutTruth(p, pCut), nLeaves); - //if not every variables are in the support, skip this cut. - if ( Kit_TruthSupport(pInOut, nLeaves) != Kit_BitMask(nLeaves) ) - { - DelayMin = 0; - //s_pMan->nFunsFilteredBysupport++; - pCut->fUser = 1; - pCut->fUseless = 0; - pCut->Cost = 1; - for (i = 0; i < nLeaves; i++) - { - if(Kit_TruthVarInSupport( pInOut, nLeaves, i )) - { - pCut->pPerm[i] = 0; - DelayMin = If_ObjCutBest(If_ManObj( p, pCut->pLeaves[i]))->Delay; - } - else - pCut->pPerm[i] = IF_BIG_CHAR; - } - - return DelayMin; - } - timeCanonicize = Abc_Clock(); - //canonicize - for (i = 0; i < nLeaves; i++) - pCanonPerm[i] = i; - uCanonPhase = Kit_TruthSemiCanonicize(pInOut, pTemp, nLeaves, pCanonPerm); - If_CutTruthStretch(pInOut, nLeaves, nVars); - s_pMan->timeIfCanonicize += Abc_Clock() - timeCanonicize; - timeDelayComput = Abc_Clock(); - pCandMin = Abc_NtkRecLookUpBest(p, pCut, pInOut, pCanonPerm, NULL,pDelayBest); - assert (!(pCandMin == NULL && nLeaves == 2)); - s_pMan->timeIfComputDelay += Abc_Clock() - timeDelayComput; - //functional class not found in the library. - if ( pCandMin == NULL ) - { - s_pMan->nFunsNotFound++; - pCut->Cost = IF_COST_MAX; - pCut->fUser = 1; - pCut->fUseless = 1; - return ABC_INFINITY; - } - s_pMan->nFunsFound++; - // make sure the truth table is the same - pTruthRec = (unsigned*)Vec_PtrEntry( s_pMan->vTtNodes, pCandMin->Id ); - if ( !Kit_TruthIsEqualWithPhase( pTruthRec, pInOut, nLeaves ) ) - { - assert( 0 ); - s_pMan->nIfMapError++; - return -1; - } - // mark as user cut. - pCut->fUser = 1; - - -// if ( fVerbose ) -// Kit_DsdPrintFromTruth( pInOut, nLeaves ), printf( " Subgraphs: " ); - - //find the best structure of the functional class. -// Counter = 0; -// for ( pCand = *ppSpot; pCand; pCand = pCand->pNext ) -// { -// Counter++; -// if ( fVerbose ) -// { -// printf( "%s(", Abc_ObjIsComplement(pCand->obj)? "!" : "" ); -// Abc_RecPrint_rec( Abc_ObjRegular(pCand->obj) ); -// printf( ") " ); -// } -// s_pMan->nFunsDelayComput++; -// Delay = If_CutComputDelay(p, pCand, pCut, pCanonPerm ,nLeaves); -// if ( DelayMin > Delay ) -// { -// // printf( "%d ", Cost ); -// DelayMin = Delay; -// pCandMin = pCand; -// } -// else if(Delay == DelayMin) -// { -// if(pCand->cost < pCandMin->cost) -// pCandMin = pCand; -// } -// } -// if ( fVerbose ) -// printf( "Printed %d subgraphs.\n", Counter ); - - //assert( pCandMin != NULL ); - for ( i = 0; i < nLeaves; i++ ) - { - pCut->pPerm[(int)pCanonPerm[i]] = pCandMin->pinToPinDelay[i]; - } - s_pMan->timeIfTotal += Abc_Clock() - timeTotal; - pCut->Cost = pCandMin->cost; - return DelayMin; - -} - -/**Function************************************************************* - - Synopsis [Labels the record AIG with the corresponding new AIG nodes.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -/*Abc_Obj_t * Abc_NtkRecStrashNodeLabel_rec( Abc_Ntk_t * pNtkNew, Abc_Obj_t * pObj, int fBuild, Vec_Ptr_t * vLabels ) -{ - Abc_Obj_t * pFanin0New, * pFanin1New, * pLabel; - assert( !Abc_ObjIsComplement(pObj) ); - // if this node is already visited, skip - if ( Abc_NodeIsTravIdCurrent( pObj ) ) - return (Abc_Obj_t *)Vec_PtrEntry( vLabels, pObj->Id ); - assert( Abc_ObjIsNode(pObj) ); - // mark the node as visited - Abc_NodeSetTravIdCurrent( pObj ); - // label the fanins - pFanin0New = Abc_NtkRecStrashNodeLabel_rec( pNtkNew, Abc_ObjFanin0(pObj), fBuild, vLabels ); - pFanin1New = Abc_NtkRecStrashNodeLabel_rec( pNtkNew, Abc_ObjFanin1(pObj), fBuild, vLabels ); - // label the node if possible - pLabel = NULL; - if ( pFanin0New && pFanin1New ) - { - pFanin0New = Abc_ObjNotCond( pFanin0New, Abc_ObjFaninC0(pObj) ); - pFanin1New = Abc_ObjNotCond( pFanin1New, Abc_ObjFaninC1(pObj) ); - if ( fBuild ) - pLabel = Abc_AigAnd( (Abc_Aig_t *)pNtkNew->pManFunc, pFanin0New, pFanin1New ); - else - pLabel = Abc_AigAndLookup( (Abc_Aig_t *)pNtkNew->pManFunc, pFanin0New, pFanin1New ); - } - Vec_PtrWriteEntry( vLabels, pObj->Id, pLabel ); - return pLabel; -}*/ - -/**Function************************************************************* - - Synopsis [Counts the area of the given node.] - - Description [] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -/*int Abc_NtkRecStrashNodeCount_rec( Abc_Obj_t * pObj, Vec_Str_t * vCosts, Vec_Ptr_t * vLabels ) -{ - int Cost0, Cost1; - if ( Vec_PtrEntry( vLabels, pObj->Id ) ) - return 0; - assert( Abc_ObjIsNode(pObj) ); - // if this node is already visited, skip - if ( Abc_NodeIsTravIdCurrent( pObj ) ) - return Vec_StrEntry( vCosts, pObj->Id ); - // mark the node as visited - Abc_NodeSetTravIdCurrent( pObj ); - // count for the fanins - Cost0 = Abc_NtkRecStrashNodeCount_rec( Abc_ObjFanin0(pObj), vCosts, vLabels ); - Cost1 = Abc_NtkRecStrashNodeCount_rec( Abc_ObjFanin1(pObj), vCosts, vLabels ); - Vec_StrWriteEntry( vCosts, pObj->Id, (char)(Cost0 + Cost1 + 1) ); - return Cost0 + Cost1 + 1; -}*/ - -/**Function************************************************************* - - Synopsis [Strashes the given node using its local function.] - - Description [Assumes that the fanins are already strashed. - Returns 0 if the function is not found in the table.] - - SideEffects [] - - SeeAlso [] - -***********************************************************************/ -/*int Abc_NtkRecStrashNode( Abc_Ntk_t * pNtkNew, Abc_Obj_t * pObj, unsigned * pTruth, int nVars ) -{ - char pCanonPerm[16]; - Abc_Ntk_t * pAig = s_pMan->pNtk; - unsigned * pInOut = s_pMan->pTemp1; - unsigned * pTemp = s_pMan->pTemp2; - unsigned * pTruthRec; - Abc_Obj_t * pCand, * pCandMin, * pLeaf, * pFanin, ** ppSpot; - unsigned uCanonPhase; - int i, nLeaves, CostMin, Cost, nOnes, fCompl; - - // check if the record works - nLeaves = Abc_ObjFaninNum(pObj); - assert( nLeaves >= 3 && nLeaves <= s_pMan->nVars ); - pFanin = Abc_ObjFanin0(pObj); - assert( Abc_ObjRegular(pFanin->pCopy)->pNtk == pNtkNew ); - assert( s_pMan != NULL ); - assert( nVars == s_pMan->nVars ); - - // copy the truth table - Kit_TruthCopy( pInOut, pTruth, nVars ); - - // set permutation - for ( i = 0; i < nVars; i++ ) - pCanonPerm[i] = i; - - // canonicize the truth table - uCanonPhase = Kit_TruthSemiCanonicize( pInOut, pTemp, nVars, pCanonPerm ); - - // get hold of the curresponding class - ppSpot = Abc_NtkRecTableLookup( s_pMan, pInOut, nVars ); - if ( *ppSpot == NULL ) - { - s_pMan->nFunsNotFound++; -// printf( "The class of a function with %d inputs is not found.\n", nLeaves ); - return 0; - } - s_pMan->nFunsFound++; - - // make sure the truth table is the same - pTruthRec = (unsigned *)Vec_PtrEntry( s_pMan->vTtNodes, (*ppSpot)->Id ); - if ( !Kit_TruthIsEqualWithPhase( pTruthRec, pInOut, nVars ) ) - { - assert( 0 ); - return 0; - } - - - // allocate storage for costs - if ( s_pMan->vLabels && Vec_PtrSize(s_pMan->vLabels) < Abc_NtkObjNumMax(pAig) ) - { - Vec_PtrFree( s_pMan->vLabels ); - s_pMan->vLabels = NULL; - } - if ( s_pMan->vLabels == NULL ) - s_pMan->vLabels = Vec_PtrStart( Abc_NtkObjNumMax(pAig) ); - - // go through the variables in the new truth table - Abc_NtkIncrementTravId( pAig ); - for ( i = 0; i < nLeaves; i++ ) - { - // get hold of the corresponding fanin - pFanin = Abc_ObjFanin( pObj, pCanonPerm[i] )->pCopy; - pFanin = Abc_ObjNotCond( pFanin, (uCanonPhase & (1 << i)) ); - // label the PI of the AIG subgraphs with this fanin - pLeaf = Abc_NtkPi( pAig, i ); - Vec_PtrWriteEntry( s_pMan->vLabels, pLeaf->Id, pFanin ); - Abc_NodeSetTravIdCurrent( pLeaf ); - } - - // go through the candidates - and recursively label them - for ( pCand = *ppSpot; pCand; pCand = (Abc_Obj_t *)pCand->pData ) - Abc_NtkRecStrashNodeLabel_rec( pNtkNew, pCand, 0, s_pMan->vLabels ); - - - // allocate storage for costs - if ( s_pMan->vCosts && Vec_StrSize(s_pMan->vCosts) < Abc_NtkObjNumMax(pAig) ) - { - Vec_StrFree( s_pMan->vCosts ); - s_pMan->vCosts = NULL; - } - if ( s_pMan->vCosts == NULL ) - s_pMan->vCosts = Vec_StrStart( Abc_NtkObjNumMax(pAig) ); - - // find the best subgraph - CostMin = ABC_INFINITY; - pCandMin = NULL; - for ( pCand = *ppSpot; pCand; pCand = (Abc_Obj_t *)pCand->pData ) - { - // label the leaves - Abc_NtkIncrementTravId( pAig ); - // count the number of non-labeled nodes - Cost = Abc_NtkRecStrashNodeCount_rec( pCand, s_pMan->vCosts, s_pMan->vLabels ); - if ( CostMin > Cost ) - { -// printf( "%d ", Cost ); - CostMin = Cost; - pCandMin = pCand; - } - } -// printf( "\n" ); - assert( pCandMin != NULL ); - if ( pCandMin == NULL ) - return 0; - - - // label the leaves - Abc_NtkIncrementTravId( pAig ); - for ( i = 0; i < nLeaves; i++ ) - Abc_NodeSetTravIdCurrent( Abc_NtkPi(pAig, i) ); - - // implement the subgraph - pObj->pCopy = Abc_NtkRecStrashNodeLabel_rec( pNtkNew, pCandMin, 1, s_pMan->vLabels ); - assert( Abc_ObjRegular(pObj->pCopy)->pNtk == pNtkNew ); - - // determine phase difference - nOnes = Kit_TruthCountOnes(pTruth, nVars); - fCompl = (nOnes > (1<< nVars)/2); -// assert( fCompl == ((uCanonPhase & (1 << nVars)) > 0) ); - - nOnes = Kit_TruthCountOnes(pTruthRec, nVars); - fCompl ^= (nOnes > (1<< nVars)/2); - // complement - pObj->pCopy = Abc_ObjNotCond( pObj->pCopy, fCompl ); - return 1; -}*/ - - - - - - -//////////////////////////////////////////////////////////////////////// -/// END OF FILE /// -//////////////////////////////////////////////////////////////////////// - - -ABC_NAMESPACE_IMPL_END - - |