/**CFile**************************************************************** FileName [acb.h] SystemName [ABC: Logic synthesis and verification system.] PackageName [Hierarchical word-level netlist.] Synopsis [External declarations.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - July 21, 2015.] Revision [$Id: acb.h,v 1.00 2014/11/29 00:00:00 alanmi Exp $] ***********************************************************************/ #ifndef ABC__base__acb__acb_h #define ABC__base__acb__acb_h //////////////////////////////////////////////////////////////////////// /// INCLUDES /// //////////////////////////////////////////////////////////////////////// #include "aig/gia/gia.h" #include "misc/extra/extra.h" #include "misc/util/utilNam.h" #include "misc/vec/vecHash.h" #include "aig/miniaig/abcOper.h" #include "misc/vec/vecQue.h" //////////////////////////////////////////////////////////////////////// /// PARAMETERS /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_HEADER_START //////////////////////////////////////////////////////////////////////// /// BASIC TYPES /// //////////////////////////////////////////////////////////////////////// typedef struct Acb_Aig_t_ Acb_Aig_t; typedef struct Acb_Ntk_t_ Acb_Ntk_t; typedef struct Acb_Man_t_ Acb_Man_t; // network struct Acb_Ntk_t_ { Acb_Man_t * pDesign; // design int Id; // network ID int NameId; // name ID int iCopy; // copy module unsigned Mark : 1; // visit mark unsigned fComb: 1; // the network is combinational unsigned fSeq : 1; // the network is sequential // interface Vec_Int_t vCis; // inputs Vec_Int_t vCos; // outputs Vec_Int_t vOrder; // order Vec_Int_t vSeq; // sequential objects int nRegs; // flop count int nFaninMax; // default fanin count int nObjTravs; // trav ID int LevelMax; // max level int nPaths; // the number of paths // stucture Vec_Str_t vObjType; // type Vec_Int_t vObjFans; // fanin offsets Vec_Int_t vFanSto; // fanin storage // optional Vec_Int_t vObjCopy; // copy Vec_Int_t vObjFunc; // function Vec_Int_t vObjWeight; // weight Vec_Wrd_t vObjTruth; // function Vec_Int_t vObjName; // name Vec_Int_t vObjRange; // range Vec_Int_t vObjTrav; // trav ID Vec_Int_t vObjBits; // obj mapping into AIG nodes Vec_Int_t vObjAttr; // attribute offset Vec_Int_t vAttrSto; // attribute storage Vec_Int_t vNtkObjs; // instances Vec_Int_t vTargets; // targets Vec_Int_t vLevelD; // level Vec_Int_t vLevelR; // level Vec_Int_t vPathD; // path Vec_Int_t vPathR; // path Vec_Flt_t vCounts; // priority counts Vec_Wec_t vFanouts; // fanouts Vec_Wec_t vCnfs; // CNF Vec_Str_t vCnf; // CNF Vec_Int_t vSuppOld; // previous support // other Vec_Que_t * vQue; // temporary Vec_Int_t vCover; // temporary Vec_Int_t vArray0; // temporary Vec_Int_t vArray1; // temporary Vec_Int_t vArray2; // temporary }; // design struct Acb_Man_t_ { char * pName; // design name char * pSpec; // spec file name Abc_Nam_t * pStrs; // string manager Abc_Nam_t * pFuns; // constant manager Abc_Nam_t * pMods; // module name manager Hash_IntMan_t * vHash; // variable ranges Vec_Int_t vNameMap; // mapping names Vec_Int_t vNameMap2; // mapping names Vec_Int_t vUsed; // used map entries Vec_Int_t vUsed2; // used map entries char * pTypeNames[ABC_OPER_LAST]; int nObjs[ABC_OPER_LAST]; // counter of objects of each type int nAnds[ABC_OPER_LAST]; // counter of AND gates after blasting // internal data int iRoot; // root network Vec_Ptr_t vNtks; // networks // user data int nOpens; Vec_Str_t vOut; Vec_Str_t vOut2; void * pMioLib; }; //////////////////////////////////////////////////////////////////////// /// MACRO DEFINITIONS /// //////////////////////////////////////////////////////////////////////// static inline char * Acb_ManName( Acb_Man_t * p ) { return p->pName; } static inline char * Acb_ManSpec( Acb_Man_t * p ) { return p->pSpec; } static inline int Acb_ManNtkNum( Acb_Man_t * p ) { return Vec_PtrSize(&p->vNtks)-1; } static inline int Acb_ManNtkIsOk( Acb_Man_t * p, int i ) { return i > 0 && i <= Acb_ManNtkNum(p); } static inline Acb_Ntk_t * Acb_ManNtk( Acb_Man_t * p, int i ) { return Acb_ManNtkIsOk(p, i) ? (Acb_Ntk_t *)Vec_PtrEntry(&p->vNtks, i) : NULL; } static inline int Acb_ManNtkFindId( Acb_Man_t * p, char * pName ) { return Abc_NamStrFind(p->pMods, pName); } static inline Acb_Ntk_t * Acb_ManNtkFind( Acb_Man_t * p, char * pName ) { return Acb_ManNtk( p, Acb_ManNtkFindId(p, pName) ); } static inline Acb_Ntk_t * Acb_ManRoot( Acb_Man_t * p ) { return Acb_ManNtk(p, p->iRoot); } static inline char * Acb_ManStr( Acb_Man_t * p, int i ) { return Abc_NamStr(p->pStrs, i); } static inline int Acb_ManStrId( Acb_Man_t * p, char * pStr ) { return Abc_NamStrFind(p->pStrs, pStr); } static inline int Acb_ManNameIdMax( Acb_Man_t * p ) { return Abc_NamObjNumMax(p->pStrs) + 1; } static inline char * Acb_ManConst( Acb_Man_t * p, int i ) { return Abc_NamStr(p->pFuns, i); } static inline int Acb_ManConstId( Acb_Man_t * p, char * pStr ) { return Abc_NamStrFind(p->pFuns, pStr); } static inline int Acb_ManConstIdMax( Acb_Man_t * p ) { return Abc_NamObjNumMax(p->pFuns) + 1; } static inline Acb_Man_t * Acb_NtkMan( Acb_Ntk_t * p ) { return p->pDesign; } static inline Acb_Ntk_t * Acb_NtkNtk( Acb_Ntk_t * p, int i ) { return Acb_ManNtk(p->pDesign, i); } static inline int Acb_NtkId( Acb_Ntk_t * p ) { return p->Id; } static inline int Acb_NtkCi( Acb_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vCis, i); } static inline int Acb_NtkCo( Acb_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vCos, i); } static inline int Acb_NtkCioOrder( Acb_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vOrder, i); } static inline int Acb_NtkBoxSeq( Acb_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vSeq, i); } static inline Abc_Nam_t * Acb_NtkNam( Acb_Ntk_t * p ) { return p->pDesign->pStrs; } static inline char * Acb_NtkStr( Acb_Ntk_t * p, int i ) { return Acb_ManStr(p->pDesign, i); } static inline int Acb_NtkStrId( Acb_Ntk_t * p, char * pName ) { return Acb_ManStrId(p->pDesign, pName); } static inline char * Acb_NtkConst( Acb_Ntk_t * p, int i ) { return Acb_ManConst(p->pDesign, i); } static inline char * Acb_NtkSop( Acb_Ntk_t * p, int i ) { return Acb_ManConst(p->pDesign, i); } static inline int Acb_NtkNameId( Acb_Ntk_t * p ) { return p->NameId; } static inline char * Acb_NtkName( Acb_Ntk_t * p ) { return Acb_NtkStr(p, p->NameId); } static inline char * Acb_NtkTypeName( Acb_Ntk_t * p, int Type ) { return p->pDesign->pTypeNames[Type]; } static inline int Acb_NtkCopy( Acb_Ntk_t * p ) { return p->iCopy; } static inline Acb_Ntk_t * Acb_NtkCopyNtk(Acb_Man_t * pNew, Acb_Ntk_t * p) { return Acb_ManNtk(pNew, Acb_NtkCopy(p)); } static inline void Acb_NtkSetCopy( Acb_Ntk_t * p, int i ) { assert(p->iCopy == 0); p->iCopy = i; } static inline int Acb_NtkHashRange( Acb_Ntk_t * p, int l, int r ) { return Hash_Int2ManInsert( p->pDesign->vHash, l, r, 0 ); } static inline int Acb_NtkRangeLeft( Acb_Ntk_t * p, int h ) { return h ? Hash_IntObjData0( p->pDesign->vHash, h ) : 0; } static inline int Acb_NtkRangeRight( Acb_Ntk_t * p, int h ) { return h ? Hash_IntObjData1( p->pDesign->vHash, h ) : 0; } static inline int Acb_NtkRangeSize( Acb_Ntk_t * p, int h ) { int l = Acb_NtkRangeLeft(p, h), r = Acb_NtkRangeRight(p, h); return 1 + (l > r ? l-r : r-l);} static inline int Acb_NtkCiNum( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vCis); } static inline int Acb_NtkCoNum( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vCos); } static inline int Acb_NtkCioNum( Acb_Ntk_t * p ) { return Acb_NtkCiNum(p) + Acb_NtkCoNum(p); } static inline int Acb_NtkCiNumAlloc( Acb_Ntk_t * p ) { return Vec_IntCap(&p->vCis); } static inline int Acb_NtkCoNumAlloc( Acb_Ntk_t * p ) { return Vec_IntCap(&p->vCos); } static inline int Acb_NtkRegNum( Acb_Ntk_t * p ) { return p->nRegs; } static inline void Acb_NtkSetRegNum( Acb_Ntk_t * p, int nRegs ) { p->nRegs = nRegs; } static inline int Acb_NtkPiNum( Acb_Ntk_t * p ) { return Acb_NtkCiNum(p) - Acb_NtkRegNum(p); } static inline int Acb_NtkPoNum( Acb_Ntk_t * p ) { return Acb_NtkCoNum(p) - Acb_NtkRegNum(p); } static inline int Acb_NtkCioOrderNum( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vOrder); } static inline int Acb_NtkObjNumAlloc( Acb_Ntk_t * p ) { return Vec_StrCap(&p->vObjType)-1; } static inline int Acb_NtkObjNum( Acb_Ntk_t * p ) { return Vec_StrSize(&p->vObjType)-1; } static inline int Acb_NtkObjNumMax( Acb_Ntk_t * p ) { return Vec_StrSize(&p->vObjType); } static inline int Acb_NtkTypeNum( Acb_Ntk_t * p, int Type ) { return Vec_StrCountEntry(&p->vObjType, (char)Type); } static inline int Acb_NtkBoxNum( Acb_Ntk_t * p ) { return Acb_NtkTypeNum(p, ABC_OPER_BOX); } static inline int Acb_NtkNodeNum( Acb_Ntk_t * p ) { return Vec_StrCountLarger(&p->vObjType, (char)ABC_OPER_BOX); } static inline int Acb_NtkSeqNum( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vSeq); } static inline void Acb_NtkCleanObjCopies( Acb_Ntk_t * p ) { Vec_IntFill(&p->vObjCopy, Vec_StrCap(&p->vObjType), -1); } static inline void Acb_NtkCleanObjFuncs( Acb_Ntk_t * p ) { Vec_IntFill(&p->vObjFunc, Vec_StrCap(&p->vObjType), -1); } static inline void Acb_NtkCleanObjWeights( Acb_Ntk_t * p ) { Vec_IntFill(&p->vObjWeight,Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjTruths( Acb_Ntk_t * p ) { Vec_WrdFill(&p->vObjTruth, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjNames( Acb_Ntk_t * p ) { Vec_IntFill(&p->vObjName, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjRanges( Acb_Ntk_t * p ) { Vec_IntFill(&p->vObjRange, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjTravs( Acb_Ntk_t * p ) { Vec_IntFill(&p->vObjTrav, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjAttrs( Acb_Ntk_t * p ) { Vec_IntFill(&p->vObjAttr, Vec_StrCap(&p->vObjType), 0); Vec_IntFill(&p->vAttrSto, 1, -1); } static inline void Acb_NtkCleanObjLevelD( Acb_Ntk_t * p ) { Vec_IntFill(&p->vLevelD, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjLevelR( Acb_Ntk_t * p ) { Vec_IntFill(&p->vLevelR, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjPathD( Acb_Ntk_t * p ) { Vec_IntFill(&p->vPathD, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjPathR( Acb_Ntk_t * p ) { Vec_IntFill(&p->vPathR, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjCounts( Acb_Ntk_t * p ) { Vec_FltFill(&p->vCounts, Vec_StrCap(&p->vObjType), 0); } static inline void Acb_NtkCleanObjFanout( Acb_Ntk_t * p ) { Vec_WecInit(&p->vFanouts, Vec_StrCap(&p->vObjType) ); } static inline void Acb_NtkCleanObjCnfs( Acb_Ntk_t * p ) { Vec_WecInit(&p->vCnfs, Vec_StrCap(&p->vObjType) ); } static inline int Acb_NtkHasObjCopies( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vObjCopy) > 0; } static inline int Acb_NtkHasObjFuncs( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vObjFunc) > 0; } static inline int Acb_NtkHasObjWeights( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vObjWeight)> 0; } static inline int Acb_NtkHasObjTruths( Acb_Ntk_t * p ) { return Vec_WrdSize(&p->vObjTruth) > 0; } static inline int Acb_NtkHasObjNames( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vObjName) > 0; } static inline int Acb_NtkHasObjRanges( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vObjRange) > 0; } static inline int Acb_NtkHasObjTravs( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vObjTrav) > 0; } static inline int Acb_NtkHasObjAttrs( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vObjAttr) > 0; } static inline int Acb_NtkHasObjLevelD( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vLevelD) > 0; } static inline int Acb_NtkHasObjLevelR( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vLevelR) > 0; } static inline int Acb_NtkHasObjPathD( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vPathD) > 0; } static inline int Acb_NtkHasObjPathR( Acb_Ntk_t * p ) { return Vec_IntSize(&p->vPathR) > 0; } static inline int Acb_NtkHasObjCounts( Acb_Ntk_t * p ) { return Vec_FltSize(&p->vCounts) > 0; } static inline int Acb_NtkHasObjFanout( Acb_Ntk_t * p ) { return Vec_WecSize(&p->vFanouts) > 0; } static inline int Acb_NtkHasObjCnfs( Acb_Ntk_t * p ) { return Vec_WecSize(&p->vCnfs) > 0; } static inline void Acb_NtkFreeObjCopies( Acb_Ntk_t * p ) { Vec_IntErase(&p->vObjCopy); } static inline void Acb_NtkFreeObjFuncs( Acb_Ntk_t * p ) { Vec_IntErase(&p->vObjFunc); } static inline void Acb_NtkFreeObjWeights( Acb_Ntk_t * p ) { Vec_IntErase(&p->vObjWeight); } static inline void Acb_NtkFreeObjTruths( Acb_Ntk_t * p ) { Vec_WrdErase(&p->vObjTruth); } static inline void Acb_NtkFreeObjNames( Acb_Ntk_t * p ) { Vec_IntErase(&p->vObjName); } static inline void Acb_NtkFreeObjRanges( Acb_Ntk_t * p ) { Vec_IntErase(&p->vObjRange); } static inline void Acb_NtkFreeObjTravs( Acb_Ntk_t * p ) { Vec_IntErase(&p->vObjTrav); } static inline void Acb_NtkFreeObjAttrs( Acb_Ntk_t * p ) { Vec_IntErase(&p->vObjAttr); } static inline void Acb_NtkFreeObjLevelD( Acb_Ntk_t * p ) { Vec_IntErase(&p->vLevelD); } static inline void Acb_NtkFreeObjLevelR( Acb_Ntk_t * p ) { Vec_IntErase(&p->vLevelR); } static inline void Acb_NtkFreeObjPathD( Acb_Ntk_t * p ) { Vec_IntErase(&p->vPathD); } static inline void Acb_NtkFreeObjPathR( Acb_Ntk_t * p ) { Vec_IntErase(&p->vPathR); } static inline void Acb_NtkFreeObjCounts( Acb_Ntk_t * p ) { Vec_FltErase(&p->vCounts); } static inline void Acb_NtkFreeObjFanout( Acb_Ntk_t * p ) { Vec_WecErase(&p->vFanouts); } static inline void Acb_NtkFreeObjCnfs( Acb_Ntk_t * p ) { Vec_WecErase(&p->vCnfs); } static inline Acb_ObjType_t Acb_ObjType( Acb_Ntk_t * p, int i ) { assert(i>0); return (Acb_ObjType_t)(int)(unsigned char)Vec_StrEntry(&p->vObjType, i); } static inline void Acb_ObjCleanType( Acb_Ntk_t * p, int i ) { assert(i>0); Vec_StrWriteEntry( &p->vObjType, i, (char)ABC_OPER_NONE ); } static inline int Acb_TypeIsSeq( Acb_ObjType_t Type ) { return Type >= ABC_OPER_RAM && Type <= ABC_OPER_DFFLAST; } static inline int Acb_TypeIsUnary( Acb_ObjType_t Type ) { return Type == ABC_OPER_BIT_BUF || Type == ABC_OPER_BIT_INV || Type == ABC_OPER_LOGIC_NOT || Type == ABC_OPER_ARI_MIN || Type == ABC_OPER_ARI_SQRT || Type == ABC_OPER_ARI_ABS || (Type >= ABC_OPER_RED_AND && Type <= ABC_OPER_RED_NXOR); } static inline int Acb_TypeIsMux( Acb_ObjType_t Type ) { return Type == ABC_OPER_BIT_MUX || Type == ABC_OPER_SEL_NMUX || Type == ABC_OPER_SEL_SEL || Type == ABC_OPER_SEL_PSEL; } static inline int Acb_ObjIsCi( Acb_Ntk_t * p, int i ) { return Acb_ObjType(p, i) == ABC_OPER_CI; } static inline int Acb_ObjIsCo( Acb_Ntk_t * p, int i ) { return Acb_ObjType(p, i) == ABC_OPER_CO; } static inline int Acb_ObjIsCio( Acb_Ntk_t * p, int i ) { return Acb_ObjIsCi(p, i) || Acb_ObjIsCo(p, i); } static inline int Acb_ObjIsFon( Acb_Ntk_t * p, int i ) { return Acb_ObjType(p, i) == ABC_OPER_FON; } static inline int Acb_ObjIsBox( Acb_Ntk_t * p, int i ) { return Acb_ObjType(p, i) == ABC_OPER_BOX; } static inline int Acb_ObjIsGate( Acb_Ntk_t * p, int i ) { return Acb_ObjType(p, i) == ABC_OPER_GATE; } static inline int Acb_ObjIsSlice( Acb_Ntk_t * p, int i ) { return Acb_ObjType(p, i) == ABC_OPER_SLICE; } static inline int Acb_ObjIsConcat( Acb_Ntk_t * p, int i ) { return Acb_ObjType(p, i) == ABC_OPER_CONCAT; } static inline int Acb_ObjIsUnary( Acb_Ntk_t * p, int i ) { return Acb_TypeIsUnary(Acb_ObjType(p, i)); } static inline int Acb_ObjFanOffset( Acb_Ntk_t * p, int i ) { assert(i>0); return Vec_IntEntry(&p->vObjFans, i); } static inline int * Acb_ObjFanins( Acb_Ntk_t * p, int i ) { return Vec_IntEntryP(&p->vFanSto, Acb_ObjFanOffset(p, i)); } static inline int Acb_ObjFanin( Acb_Ntk_t * p, int i, int k ) { return Acb_ObjFanins(p, i)[k+1]; } static inline int Acb_ObjFaninNum( Acb_Ntk_t * p, int i ) { return Acb_ObjFanins(p, i)[0]; } static inline int Acb_ObjFanoutNum( Acb_Ntk_t * p, int i ) { return Vec_IntSize( Vec_WecEntry(&p->vFanouts, i) ); } static inline Vec_Int_t * Acb_ObjFanoutVec( Acb_Ntk_t * p, int i ) { assert(i>0); return Vec_WecEntry( &p->vFanouts, i ); } static inline int Acb_ObjFanout( Acb_Ntk_t * p, int i, int k ) { return Vec_IntEntry( Acb_ObjFanoutVec(p, i), k ); } static inline int Acb_ObjFanin0( Acb_Ntk_t * p, int i ) { return Acb_ObjFanins(p, i)[1]; } static inline int Acb_ObjCioId( Acb_Ntk_t * p, int i ) { return Acb_ObjFanins(p, i)[2]; } static inline int Acb_ObjCopy( Acb_Ntk_t * p, int i ) { assert(i>0); assert( Acb_NtkHasObjCopies(p) ); return Vec_IntEntry(&p->vObjCopy, i); } static inline int Acb_ObjFunc( Acb_Ntk_t * p, int i ) { assert(i>0); assert( Acb_NtkHasObjFuncs(p) ); return Vec_IntEntry(&p->vObjFunc, i); } static inline int Acb_ObjWeight( Acb_Ntk_t * p, int i ) { assert(i>0); assert( Acb_NtkHasObjWeights(p) );return Vec_IntEntry(&p->vObjWeight, i); } static inline word Acb_ObjTruth( Acb_Ntk_t * p, int i ) { assert(i>0); assert( Acb_NtkHasObjTruths(p) ); return Vec_WrdEntry(&p->vObjTruth, i); } static inline word * Acb_ObjTruthP( Acb_Ntk_t * p, int i ) { assert(i>0); assert( Acb_NtkHasObjTruths(p) ); return Vec_WrdEntryP(&p->vObjTruth, i); } static inline int Acb_ObjName( Acb_Ntk_t * p, int i ) { assert(i>0); assert( Acb_NtkHasObjNames(p) ); return Vec_IntEntry(&p->vObjName, i); } static inline char * Acb_ObjNameStr( Acb_Ntk_t * p, int i ) { assert(i>0); return Acb_NtkStr(p, Acb_ObjName(p, i)); } static inline int Acb_ObjAttr( Acb_Ntk_t * p, int i ) { assert(i>=0); return Acb_NtkHasObjAttrs(p) ? Vec_IntEntry(&p->vObjAttr, i) : 0; } static inline int Acb_ObjAttrSize( Acb_Ntk_t * p, int i ) { assert(i>=0); return Acb_ObjAttr(p, i) ? Vec_IntEntry(&p->vAttrSto, Acb_ObjAttr(p, i)) : 0; } static inline int * Acb_ObjAttrArray( Acb_Ntk_t * p, int i ) { assert(i>=0); return Acb_ObjAttr(p, i) ? Vec_IntEntryP(&p->vAttrSto, Acb_ObjAttr(p, i)+1) : NULL; } static inline int Acb_ObjAttrValue( Acb_Ntk_t * p, int i, int x ) { int k, s = Acb_ObjAttrSize(p, i), * a = Acb_ObjAttrArray(p, i); for ( k = 0; k < s; k += 2) if (a[k] == x) return a[k+1]; return 0; } static inline int Acb_ObjLevelD( Acb_Ntk_t * p, int i ) { assert(i>0); return Vec_IntEntry(&p->vLevelD, i); } static inline int Acb_ObjLevelR( Acb_Ntk_t * p, int i ) { assert(i>0); return Vec_IntEntry(&p->vLevelR, i); } static inline int Acb_ObjPathD( Acb_Ntk_t * p, int i ) { assert(i>0); return Vec_IntEntry(&p->vPathD, i); } static inline int Acb_ObjPathR( Acb_Ntk_t * p, int i ) { assert(i>0); return Vec_IntEntry(&p->vPathR, i); } static inline float Acb_ObjCounts( Acb_Ntk_t * p, int i ) { assert(i>0); return Vec_FltEntry(&p->vCounts, i); } static inline Vec_Str_t * Acb_ObjCnfs( Acb_Ntk_t * p, int i ) { assert(i>0); return (Vec_Str_t *)Vec_WecEntry(&p->vCnfs, i); } static inline void Acb_ObjSetCopy( Acb_Ntk_t * p, int i, int x ) { assert(Acb_ObjCopy(p, i) == -1); Vec_IntWriteEntry( &p->vObjCopy, i, x ); } static inline void Acb_ObjSetFunc( Acb_Ntk_t * p, int i, int x ) { assert(Acb_ObjFunc(p, i) == -1); Vec_IntWriteEntry( &p->vObjFunc, i, x ); } static inline void Acb_ObjSetWeight( Acb_Ntk_t * p, int i, int x ) { assert(Acb_ObjWeight(p, i)== 0); Vec_IntWriteEntry( &p->vObjWeight, i, x ); } static inline void Acb_ObjSetTruth( Acb_Ntk_t * p, int i, word x ) { assert(Acb_ObjTruth(p, i) == 0); Vec_WrdWriteEntry( &p->vObjTruth, i, x ); } static inline void Acb_ObjSetName( Acb_Ntk_t * p, int i, int x ) { assert(Acb_ObjName(p, i) == 0); Vec_IntWriteEntry( &p->vObjName, i, x ); } static inline void Acb_ObjSetAttrs( Acb_Ntk_t * p, int i, int * a, int s ) { assert(Acb_ObjAttr(p, i) == 0); if ( !a ) return; Vec_IntWriteEntry(&p->vObjAttr, i, Vec_IntSize(&p->vAttrSto)); Vec_IntPush(&p->vAttrSto, s); Vec_IntPushArray(&p->vAttrSto, a, s); } static inline int Acb_ObjSetLevelD( Acb_Ntk_t * p, int i, int x ) { Vec_IntWriteEntry( &p->vLevelD, i, x ); return x; } static inline int Acb_ObjSetLevelR( Acb_Ntk_t * p, int i, int x ) { Vec_IntWriteEntry( &p->vLevelR, i, x ); return x; } static inline int Acb_ObjSetPathD( Acb_Ntk_t * p, int i, int x ) { Vec_IntWriteEntry( &p->vPathD, i, x ); return x; } static inline int Acb_ObjSetPathR( Acb_Ntk_t * p, int i, int x ) { Vec_IntWriteEntry( &p->vPathR, i, x ); return x; } static inline float Acb_ObjSetCounts( Acb_Ntk_t * p, int i, float x ) { Vec_FltWriteEntry( &p->vCounts, i, x ); return x; } static inline int Acb_ObjUpdateLevelD( Acb_Ntk_t * p, int i, int x ) { Vec_IntUpdateEntry( &p->vLevelD, i, x ); return x; } static inline int Acb_ObjUpdateLevelR( Acb_Ntk_t * p, int i, int x ) { Vec_IntUpdateEntry( &p->vLevelR, i, x ); return x; } static inline int Acb_ObjAddToPathD( Acb_Ntk_t * p, int i, int x ) { Vec_IntAddToEntry( &p->vPathD, i, x ); return x; } static inline int Acb_ObjAddToPathR( Acb_Ntk_t * p, int i, int x ) { Vec_IntAddToEntry( &p->vPathR, i, x ); return x; } static inline int Acb_ObjNtkId( Acb_Ntk_t * p, int i ) { assert(i>0); return Acb_ObjIsBox(p, i) ? Acb_ObjFanin(p, i, Acb_ObjFaninNum(p, i)) : 0; } static inline Acb_Ntk_t * Acb_ObjNtk( Acb_Ntk_t * p, int i ) { assert(i>0); return Acb_NtkNtk(p, Acb_ObjNtkId(p, i)); } static inline int Acb_ObjIsSeq( Acb_Ntk_t * p, int i ) { assert(i>0); return Acb_ObjIsBox(p, i) ? Acb_ObjNtk(p, i)->fSeq : Acb_TypeIsSeq(Acb_ObjType(p, i)); } static inline int Acb_ObjRangeId( Acb_Ntk_t * p, int i ) { return Acb_NtkHasObjRanges(p) ? Vec_IntEntry(&p->vObjRange, i) : 0; } static inline int Acb_ObjRange( Acb_Ntk_t * p, int i ) { return Abc_Lit2Var( Acb_ObjRangeId(p, i) ); } static inline int Acb_ObjLeft( Acb_Ntk_t * p, int i ) { return Acb_NtkRangeLeft(p, Acb_ObjRange(p, i)); } static inline int Acb_ObjRight( Acb_Ntk_t * p, int i ) { return Acb_NtkRangeRight(p, Acb_ObjRange(p, i)); } static inline int Acb_ObjSigned( Acb_Ntk_t * p, int i ) { return Abc_LitIsCompl(Acb_ObjRangeId(p, i)); } static inline int Acb_ObjRangeSize( Acb_Ntk_t * p, int i ) { return Acb_NtkRangeSize(p, Acb_ObjRange(p, i)); } static inline void Acb_ObjSetRangeSign( Acb_Ntk_t * p, int i, int x ) { assert(Acb_NtkHasObjRanges(p)); Vec_IntWriteEntry(&p->vObjRange, i, x); } static inline void Acb_ObjSetRange( Acb_Ntk_t * p, int i, int x ) { assert(Acb_NtkHasObjRanges(p)); Vec_IntWriteEntry(&p->vObjRange, i, Abc_Var2Lit(x,0)); } static inline void Acb_ObjHashRange( Acb_Ntk_t * p, int i, int l, int r ) { Acb_ObjSetRange( p, i, Acb_NtkHashRange(p, l, r) ); } static inline int Acb_ObjRangeSign( Acb_Ntk_t * p, int i ) { return Abc_Var2Lit( Acb_ObjRangeSize(p, i), Acb_ObjSigned(p, i) ); } static inline int Acb_ObjTravId( Acb_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vObjTrav, i); } static inline int Acb_ObjTravIdDiff( Acb_Ntk_t * p, int i ) { return p->nObjTravs - Vec_IntEntry(&p->vObjTrav, i); } static inline int Acb_ObjIsTravIdCur( Acb_Ntk_t * p, int i ) { return Acb_ObjTravId(p, i) == p->nObjTravs; } static inline int Acb_ObjIsTravIdPrev( Acb_Ntk_t * p, int i ) { return Acb_ObjTravId(p, i) == p->nObjTravs-1; } static inline int Acb_ObjIsTravIdDiff( Acb_Ntk_t * p, int i, int d ) { return Acb_ObjTravId(p, i) == p->nObjTravs-d; } static inline int Acb_ObjSetTravIdCur( Acb_Ntk_t * p, int i ) { int r = Acb_ObjIsTravIdCur(p, i); Vec_IntWriteEntry(&p->vObjTrav, i, p->nObjTravs); return r; } static inline int Acb_ObjSetTravIdPrev( Acb_Ntk_t * p, int i ) { int r = Acb_ObjIsTravIdPrev(p, i); Vec_IntWriteEntry(&p->vObjTrav, i, p->nObjTravs-1); return r; } static inline int Acb_ObjSetTravIdDiff( Acb_Ntk_t * p, int i, int d ) { int r = Acb_ObjTravIdDiff(p, i); Vec_IntWriteEntry(&p->vObjTrav, i, p->nObjTravs-d); return r; } static inline int Acb_NtkTravId( Acb_Ntk_t * p ) { return p->nObjTravs; } static inline void Acb_NtkIncTravId( Acb_Ntk_t * p ) { if ( !Acb_NtkHasObjTravs(p) ) Acb_NtkCleanObjTravs(p); p->nObjTravs++; } //////////////////////////////////////////////////////////////////////// /// ITERATORS /// //////////////////////////////////////////////////////////////////////// #define Acb_ManForEachNtk( p, pNtk, i ) \ for ( i = 1; (i <= Acb_ManNtkNum(p)) && (((pNtk) = Acb_ManNtk(p, i)), 1); i++ ) #define Acb_NtkForEachPi( p, iObj, i ) \ for ( i = 0; (i < Acb_NtkPiNum(p)) && (((iObj) = Acb_NtkCi(p, i)), 1); i++ ) #define Acb_NtkForEachPo( p, iObj, i ) \ for ( i = 0; (i < Acb_NtkPoNum(p)) && (((iObj) = Acb_NtkCo(p, i)), 1); i++ ) #define Acb_NtkForEachCi( p, iObj, i ) \ for ( i = 0; (i < Acb_NtkCiNum(p)) && (((iObj) = Acb_NtkCi(p, i)), 1); i++ ) #define Acb_NtkForEachCo( p, iObj, i ) \ for ( i = 0; (i < Acb_NtkCoNum(p)) && (((iObj) = Acb_NtkCo(p, i)), 1); i++ ) #define Acb_NtkForEachCoDriver( p, iObj, i ) \ for ( i = 0; (i < Acb_NtkCoNum(p)) && (((iObj) = Acb_ObjFanin(p, Acb_NtkCo(p, i), 0)), 1); i++ ) #define Acb_NtkForEachCoAndDriver( p, iObj, iDriver, i ) \ for ( i = 0; (i < Acb_NtkCoNum(p)) && (((iObj) = Acb_NtkCo(p, i)), 1) && (((iDriver) = Acb_ObjFanin(p, iObj, 0)), 1); i++ ) #define Acb_NtkForEachCiVec( vVec, p, iObj, i ) \ for ( i = 0; (i < Vec_IntSize(vVec)) && (((iObj) = Acb_NtkCi(p, Vec_IntEntry(vVec,i))), 1); i++ ) #define Acb_NtkForEachCoVec( vVec, p, iObj, i ) \ for ( i = 0; (i < Vec_IntSize(vVec)) && (((iObj) = Acb_NtkCo(p, Vec_IntEntry(vVec,i))), 1); i++ ) #define Acb_NtkForEachCoDriverVec( vVec, p, iObj, i ) \ for ( i = 0; (i < Vec_IntSize(vVec)) && (((iObj) = Acb_ObjFanin(p, Acb_NtkCo(p, Vec_IntEntry(vVec,i)), 0)), 1); i++ ) #define Acb_NtkForEachBoxSeq( p, iObj, i ) \ for ( i = 0; (i < Acb_NtkSeqNum(p)) && (((iObj) = Acb_NtkBoxSeq(p, i)), 1); i++ ) #define Acb_NtkForEachCioOrder( p, iObj, i ) \ for ( i = 0; (i < Acb_NtkCioOrderNum(p)) && (((iObj) = Acb_NtkCioOrder(p, i)), 1); i++ ) #define Acb_NtkForEachObj( p, i ) \ for ( i = 1; i < Vec_StrSize(&p->vObjType); i++ ) if ( !Acb_ObjType(p, i) ) {} else #define Acb_NtkForEachObjReverse( p, i ) \ for ( i = Vec_StrSize(&p->vObjType)-1; i > 0; i-- ) if ( !Acb_ObjType(p, i) ) {} else #define Acb_NtkForEachNode( p, i ) \ for ( i = 1; i < Vec_StrSize(&p->vObjType); i++ ) if ( !Acb_ObjType(p, i) || Acb_ObjIsCio(p, i) ) {} else #define Acb_NtkForEachNodeSupp( p, i, nSuppSize ) \ for ( i = 1; i < Vec_StrSize(&p->vObjType); i++ ) if ( !Acb_ObjType(p, i) || Acb_ObjIsCio(p, i) || Acb_ObjFaninNum(p, i) != nSuppSize ) {} else #define Acb_NtkForEachNodeReverse( p, i ) \ for ( i = Vec_StrSize(&p->vObjType)-1; i > 0; i-- ) if ( !Acb_ObjType(p, i) || Acb_ObjIsCio(p, i) ) {} else #define Acb_NtkForEachObjType( p, Type, i ) \ for ( i = 1; i < Vec_StrSize(&p->vObjType) && (((Type) = Acb_ObjType(p, i)), 1); i++ ) if ( !Type ) {} else #define Acb_NtkForEachBox( p, i ) \ for ( i = 1; i < Vec_StrSize(&p->vObjType); i++ ) if ( !Acb_ObjIsBox(p, i) ) {} else #define Acb_ObjForEachFanin( p, iObj, iFanin, k ) \ for ( k = 0; k < Acb_ObjFaninNum(p, iObj) && ((iFanin = Acb_ObjFanin(p, iObj, k)), 1); k++ ) #define Acb_ObjForEachFaninFast( p, iObj, pFanins, iFanin, k ) \ for ( k = 0, pFanins = Acb_ObjFanins(p, iObj); k < pFanins[0] && ((iFanin = pFanins[k+1]), 1); k++ ) #define Acb_ObjForEachFanout( p, iObj, iFanout, k ) \ Vec_IntForEachEntry( Vec_WecEntry(&p->vFanouts, iObj), iFanout, k ) if ( !Acb_ObjType(p, iFanout) ) {} else #define Acb_ObjForEachFon( p, iObj, iFon ) \ for ( assert(Acb_ObjIsBox(p, iObj)), iFon = iObj + 1; iFon < Acb_NtkObjNum(p) && Acb_ObjIsFon(p, iFon); iFon++ ) //////////////////////////////////////////////////////////////////////// /// FUNCTION DECLARATIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Object APIs.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Acb_ObjFonNum( Acb_Ntk_t * p, int iObj ) { int i, Count = 0; if ( !Acb_ObjIsBox(p, iObj) ) return 0; Acb_ObjForEachFon( p, iObj, i ) Count++; return Count; } static inline int Acb_ObjWhatFanin( Acb_Ntk_t * p, int iObj, int iFaninGiven ) { int k, iFanin, * pFanins; Acb_ObjForEachFaninFast( p, iObj, pFanins, iFanin, k ) if ( iFanin == iFaninGiven ) return k; return -1; } static inline void Acb_ObjAddFanin( Acb_Ntk_t * p, int iObj, int iFanin ) { int * pFanins = Acb_ObjFanins( p, iObj ); assert( iFanin > 0 ); assert( pFanins[ 1 + pFanins[0] ] == -1 ); pFanins[ 1 + pFanins[0]++ ] = iFanin; } static inline void Acb_ObjDeleteFaninIndex( Acb_Ntk_t * p, int iObj, int iFaninIndex ) { int i, * pFanins = Acb_ObjFanins( p, iObj ); pFanins[0]--; for ( i = iFaninIndex; i < pFanins[0]; i++ ) pFanins[ 1 + i ] = pFanins[ 2 + i ]; pFanins[ 1 + pFanins[0] ] = -1; } static inline void Acb_ObjDeleteFanin( Acb_Ntk_t * p, int iObj, int iFanin ) { int * pFanins = Acb_ObjFanins( p, iObj ); int iFaninIndex = Acb_ObjWhatFanin( p, iObj, iFanin ); assert( pFanins[ 1 + iFaninIndex ] == iFanin ); Acb_ObjDeleteFaninIndex( p, iObj, iFaninIndex ); } static inline void Acb_ObjAddFanins( Acb_Ntk_t * p, int iObj, Vec_Int_t * vFanins ) { int i, iFanin; if ( vFanins ) Vec_IntForEachEntry( vFanins, iFanin, i ) Acb_ObjAddFanin( p, iObj, iFanin ); } static inline void Acb_ObjSetNtkId( Acb_Ntk_t * p, int iObj, int iNtk ) // should be called after fanins are added { int * pFanins = Acb_ObjFanins( p, iObj ); assert( pFanins[ 1 + pFanins[0] ] == -1 ); pFanins[ 1 + pFanins[0] ] = iNtk; } static inline void Acb_ObjRemoveFanins( Acb_Ntk_t * p, int iObj ) { int i, * pFanins = Acb_ObjFanins( p, iObj ); for ( i = 1; i <= pFanins[0]; i++ ) { assert( pFanins[i] > 0 ); pFanins[i] = -1; } pFanins[0] = 0; } static inline int Acb_ObjAlloc( Acb_Ntk_t * p, Acb_ObjType_t Type, int nFans, int nFons ) { int i, nFansReal, CioId = -1, iObj = Vec_StrSize(&p->vObjType); Vec_StrPush( &p->vObjType, (char)Type ); if ( Type == ABC_OPER_CI ) { assert( nFans == 0 ); CioId = Vec_IntSize( &p->vCis ); Vec_IntPush( &p->vCis, iObj ); nFansReal = 2; } else if ( Type == ABC_OPER_CO ) { assert( nFans == 1 ); CioId = Vec_IntSize( &p->vCos ); Vec_IntPush( &p->vCos, iObj ); nFansReal = 2; } else nFansReal = Abc_MaxInt( nFans + Acb_ObjIsBox(p, iObj), p->nFaninMax ); // add fins Vec_IntPush( &p->vObjFans, Vec_IntSize(&p->vFanSto) ); Vec_IntPush( &p->vFanSto, 0 ); for ( i = 0; i < nFansReal; i++ ) Vec_IntPush( &p->vFanSto, (CioId >= 0 && i == 1) ? CioId : -1 ); // add fons assert( !Acb_ObjIsBox(p, iObj) || nFons > 0 ); for ( i = 0; i < nFons; i++ ) Acb_ObjAddFanin( p, Acb_ObjAlloc(p, ABC_OPER_FON, 1, 0), iObj ); // extend storage if ( Acb_NtkHasObjCopies(p) ) Vec_IntPush(&p->vObjCopy , -1); if ( Acb_NtkHasObjFuncs(p) ) Vec_IntPush(&p->vObjFunc , -1); if ( Acb_NtkHasObjWeights(p)) Vec_IntPush(&p->vObjWeight, 0); if ( Acb_NtkHasObjTruths(p) ) Vec_WrdPush(&p->vObjTruth , 0); if ( Acb_NtkHasObjNames(p) ) Vec_IntPush(&p->vObjName , 0); if ( Acb_NtkHasObjRanges(p) ) Vec_IntPush(&p->vObjRange , 0); if ( Acb_NtkHasObjTravs(p) ) Vec_IntPush(&p->vObjTrav , 0); if ( Acb_NtkHasObjAttrs(p) ) Vec_IntPush(&p->vObjAttr , 0); if ( Acb_NtkHasObjLevelD(p) ) Vec_IntPush(&p->vLevelD , 0); if ( Acb_NtkHasObjLevelR(p) ) Vec_IntPush(&p->vLevelR , 0); if ( Acb_NtkHasObjPathD(p) ) Vec_IntPush(&p->vPathD , 0); if ( Acb_NtkHasObjPathR(p) ) Vec_IntPush(&p->vPathR , 0); if ( Acb_NtkHasObjCounts(p) ) Vec_FltPush(&p->vCounts , 0); if ( Acb_NtkHasObjFanout(p) ) Vec_WecPushLevel(&p->vFanouts); if ( Acb_NtkHasObjCnfs(p) ) Vec_WecPushLevel(&p->vCnfs); if ( p->vQue ) Vec_QueSetPriority( p->vQue, Vec_FltArrayP(&p->vCounts) ); return iObj; } static inline int Acb_ObjDup( Acb_Ntk_t * pNew, Acb_Ntk_t * p, int i ) { int iObj = Acb_ObjAlloc( pNew, Acb_ObjType(p, i), Acb_ObjFaninNum(p, i), Acb_ObjFonNum(p, i) ); Acb_ObjSetCopy( p, i, iObj ); return iObj; } static inline void Acb_ObjDelete( Acb_Ntk_t * p, int iObj ) { int i; Acb_ObjCleanType( p, iObj ); if ( !Acb_ObjIsBox(p, iObj) ) return; Acb_ObjForEachFon( p, iObj, i ) Acb_ObjCleanType( p, i ); } static inline void Acb_ObjAddFaninFanoutOne( Acb_Ntk_t * p, int iObj, int iFanin ) { Vec_IntPush( Vec_WecEntry(&p->vFanouts, iFanin), iObj ); Acb_ObjAddFanin( p, iObj, iFanin ); } static inline void Acb_ObjAddFaninFanout( Acb_Ntk_t * p, int iObj ) { int k, iFanin, * pFanins; Acb_ObjForEachFaninFast( p, iObj, pFanins, iFanin, k ) Vec_IntPush( Vec_WecEntry(&p->vFanouts, iFanin), iObj ); } static inline void Acb_ObjRemoveFaninFanoutOne( Acb_Ntk_t * p, int iObj, int iFanin ) { int RetValue = Vec_IntRemove( Vec_WecEntry(&p->vFanouts, iFanin), iObj ); assert( RetValue ); Acb_ObjDeleteFanin( p, iObj, iFanin ); } static inline void Acb_ObjRemoveFaninFanout( Acb_Ntk_t * p, int iObj ) { int k, iFanin, * pFanins; Acb_ObjForEachFaninFast( p, iObj, pFanins, iFanin, k ) { int RetValue = Vec_IntRemove( Vec_WecEntry(&p->vFanouts, iFanin), iObj ); assert( RetValue ); } } static inline void Acb_ObjPatchFanin( Acb_Ntk_t * p, int iObj, int iFanin, int iFaninNew ) { int i, RetValue, * pFanins = Acb_ObjFanins( p, iObj ); assert( iFanin != iFaninNew ); for ( i = 0; i < pFanins[0]; i++ ) if ( pFanins[ 1 + i ] == iFanin ) pFanins[ 1 + i ] = iFaninNew; if ( !Acb_NtkHasObjFanout(p) ) return; RetValue = Vec_IntRemove( Vec_WecEntry(&p->vFanouts, iFanin), iObj ); assert( RetValue ); Vec_IntPush( Vec_WecEntry(&p->vFanouts, iFaninNew), iObj ); } static inline void Acb_NtkCreateFanout( Acb_Ntk_t * p ) { int iObj; Acb_NtkCleanObjFanout( p ); Acb_NtkForEachObj( p, iObj ) Acb_ObjAddFaninFanout( p, iObj ); } /**Function************************************************************* Synopsis [Network APIs.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline Acb_Ntk_t * Acb_NtkAlloc( Acb_Man_t * p, int NameId, int nCis, int nCos, int nObjs ) { Acb_Ntk_t * pNew = ABC_CALLOC( Acb_Ntk_t, 1 ); assert( nCis >= 0 && nCos >= 0 && nObjs >= 0 ); pNew->Id = Vec_PtrSize(&p->vNtks); Vec_PtrPush( &p->vNtks, pNew ); pNew->NameId = NameId; pNew->pDesign = p; Vec_IntGrow( &pNew->vCis, nCis ); Vec_IntGrow( &pNew->vCos, nCos ); Vec_StrGrow( &pNew->vObjType, nObjs+1 ); Vec_StrPush( &pNew->vObjType, (char)ABC_OPER_NONE ); Vec_IntGrow( &pNew->vObjFans, nObjs+1 ); Vec_IntPush( &pNew->vObjFans, -1 ); Vec_IntGrow( &pNew->vFanSto, 3*nObjs ); return pNew; } static inline void Acb_NtkFree( Acb_Ntk_t * p ) { // interface Vec_IntErase( &p->vCis ); Vec_IntErase( &p->vCos ); Vec_IntErase( &p->vOrder ); Vec_IntErase( &p->vSeq ); // stucture Vec_StrErase( &p->vObjType ); Vec_IntErase( &p->vObjFans ); Vec_IntErase( &p->vFanSto ); // optional Vec_IntErase( &p->vObjCopy ); Vec_IntErase( &p->vObjFunc ); Vec_IntErase( &p->vObjWeight ); Vec_WrdErase( &p->vObjTruth ); Vec_IntErase( &p->vObjName ); Vec_IntErase( &p->vObjRange ); Vec_IntErase( &p->vObjTrav ); Vec_IntErase( &p->vObjBits ); Vec_IntErase( &p->vObjAttr ); Vec_IntErase( &p->vAttrSto ); Vec_IntErase( &p->vNtkObjs ); Vec_IntErase( &p->vTargets ); Vec_IntErase( &p->vLevelD ); Vec_IntErase( &p->vLevelR ); Vec_IntErase( &p->vPathD ); Vec_IntErase( &p->vPathR ); Vec_FltErase( &p->vCounts ); Vec_WecErase( &p->vFanouts ); Vec_WecErase( &p->vCnfs ); Vec_StrErase( &p->vCnf ); Vec_IntErase( &p->vSuppOld ); // other Vec_QueFreeP( &p->vQue ); Vec_IntErase( &p->vCover ); Vec_IntErase( &p->vArray0 ); Vec_IntErase( &p->vArray1 ); Vec_IntErase( &p->vArray2 ); ABC_FREE( p ); } static inline int Acb_NtkNewStrId( Acb_Ntk_t * pNtk, const char * format, ... ) { Abc_Nam_t * p = Acb_NtkNam( pNtk ); Vec_Str_t * vBuf = Abc_NamBuffer( p ); int nAdded, nSize = 1000; va_list args; va_start( args, format ); Vec_StrGrow( vBuf, Vec_StrSize(vBuf) + nSize ); nAdded = vsnprintf( Vec_StrLimit(vBuf), nSize, format, args ); if ( nAdded > nSize ) { Vec_StrGrow( vBuf, Vec_StrSize(vBuf) + nAdded + nSize ); nSize = vsnprintf( Vec_StrLimit(vBuf), nAdded, format, args ); assert( nSize == nAdded ); } va_end( args ); return Abc_NamStrFindOrAddLim( p, Vec_StrLimit(vBuf), Vec_StrLimit(vBuf) + nAdded, NULL ); } static inline int Acb_ManNewConstId( Acb_Ntk_t * p, Vec_Str_t * vBits ) { Vec_Str_t * vOut = Abc_NamBuffer(Acb_NtkNam(p)); Vec_StrPrintF( vOut, "%d\'b%s", Vec_StrSize(vBits)-1, Vec_StrArray(vBits) ); return Abc_NamStrFindOrAdd(p->pDesign->pFuns, Vec_StrArray(vOut), NULL); } static inline int Acb_ManNewConstZero( Acb_Ntk_t * p, int nBits ) { Vec_Str_t * vOut = Abc_NamBuffer(Acb_NtkNam(p)); Vec_StrPrintF( vOut, "%d\'b%0s", nBits, "" ); return Abc_NamStrFindOrAdd(p->pDesign->pFuns, Vec_StrArray(vOut), NULL); } static inline void Acb_NtkAdd( Acb_Man_t * p, Acb_Ntk_t * pNtk ) { int fFound, NtkId = Abc_NamStrFindOrAdd( p->pMods, Acb_NtkName(pNtk), &fFound ); if ( fFound ) printf( "Network with name \"%s\" already exists.\n", Acb_NtkName(pNtk) ); else assert( NtkId == pNtk->Id ); } static inline void Acb_NtkUpdate( Acb_Man_t * p, Acb_Ntk_t * pNtk ) { int fFound, NtkId = Abc_NamStrFindOrAdd( p->pMods, Acb_NtkName(pNtk), &fFound ); if ( !fFound ) printf( "Network with name \"%s\" does not exist.\n", Acb_NtkName(pNtk) ); else { Acb_NtkFree( Acb_ManNtk(p, NtkId) ); Vec_PtrWriteEntry( &p->vNtks, NtkId, pNtk ); } } static inline Vec_Int_t * Acb_NtkCollect( Acb_Ntk_t * p ) { int iObj; Vec_Int_t * vObjs = Vec_IntAlloc( Acb_NtkObjNum(p) ); Acb_NtkForEachObj( p, iObj ) Vec_IntPush( vObjs, iObj ); return vObjs; } static inline Acb_Ntk_t * Acb_NtkDup( Acb_Man_t * pMan, Acb_Ntk_t * p, Vec_Int_t * vObjs ) { Acb_Ntk_t * pNew; int i, k, iObj, iObjNew, iFanin; pNew = Acb_NtkAlloc( pMan, Acb_NtkNameId(p), Acb_NtkCiNum(p), Acb_NtkCoNum(p), Vec_IntSize(vObjs) ); Acb_NtkCleanObjCopies( p ); Vec_IntForEachEntry( vObjs, iObj, i ) iObjNew = Acb_ObjDup( pNew, p, iObj ); Vec_IntForEachEntry( vObjs, iObj, i ) { iObjNew = Acb_ObjCopy( p, iObj ); Acb_ObjForEachFanin( p, iObj, iFanin, k ) Acb_ObjAddFanin( pNew, iObjNew, Acb_ObjCopy(p, iFanin) ); } //Acb_NtkFreeObjCopies( p ); assert( Acb_NtkObjNum(pNew) == Acb_NtkObjNumAlloc(pNew) ); Acb_NtkSetCopy( p, Acb_NtkId(pNew) ); Acb_NtkSetRegNum( pNew, Acb_NtkRegNum(p) ); return pNew; } static inline Acb_Ntk_t * Acb_NtkDupOrder( Acb_Man_t * pMan, Acb_Ntk_t * p, Vec_Int_t*(* pFuncOrder)(Acb_Ntk_t*) ) { Acb_Ntk_t * pNew; Vec_Int_t * vObjs = pFuncOrder ? pFuncOrder(p) : Acb_NtkCollect(p); if ( vObjs == NULL ) return NULL; pNew = Acb_NtkDup( pMan, p, vObjs ); Vec_IntFree( vObjs ); //Acb_NtkPrepareSeq( pNew ); return pNew; } static inline void Acb_NtkDupAttrs( Acb_Ntk_t * pNew, Acb_Ntk_t * p ) { int i, iObj; assert( Vec_IntSize(&pNew->vOrder) == 0 ); Acb_NtkForEachCioOrder( p, iObj, i ) Vec_IntPush( &pNew->vOrder, Acb_ObjCopy(p, iObj) ); // Vec_IntRemapArray( &p->vObjCopy, &p->vOrder, &pNew->vOrder, Acb_NtkCioOrderNum(p) ); // Vec_IntRemapArray( &p->vObjCopy, &p->vSeq, &pNew->vSeq, Acb_NtkSeqNum(p) ); // transfer object attributes Vec_IntRemapArray( &p->vObjCopy, &p->vObjFunc, &pNew->vObjFunc, Acb_NtkObjNum(pNew) + 1 ); Vec_IntRemapArray( &p->vObjCopy, &p->vObjWeight, &pNew->vObjWeight, Acb_NtkObjNum(pNew) + 1 ); // Vec_WrdRemapArray( &p->vObjCopy, &p->vObjTruth, &pNew->vObjTruth, Acb_NtkObjNum(pNew) + 1 ); Vec_IntRemapArray( &p->vObjCopy, &p->vObjName, &pNew->vObjName, Acb_NtkObjNum(pNew) + 1 ); Vec_IntRemapArray( &p->vObjCopy, &p->vObjRange, &pNew->vObjRange, Acb_NtkObjNum(pNew) + 1 ); Vec_IntRemapArray( &p->vObjCopy, &p->vObjAttr, &pNew->vObjAttr, Acb_NtkObjNum(pNew) + 1 ); // duplicate attributes Vec_IntAppend( &pNew->vAttrSto, &p->vAttrSto ); } static inline int Acb_NtkMemory( Acb_Ntk_t * p ) { int nMem = sizeof(Acb_Ntk_t); // interface nMem += (int)Vec_IntMemory(&p->vCis); nMem += (int)Vec_IntMemory(&p->vCos); nMem += (int)Vec_IntMemory(&p->vOrder); nMem += (int)Vec_IntMemory(&p->vSeq); // stucture nMem += (int)Vec_StrMemory(&p->vObjType); nMem += (int)Vec_IntMemory(&p->vObjFans); nMem += (int)Vec_IntMemory(&p->vFanSto); nMem += (int)Vec_WecMemory(&p->vFanouts); // optional nMem += (int)Vec_IntMemory(&p->vObjCopy ); nMem += (int)Vec_IntMemory(&p->vObjFunc ); nMem += (int)Vec_IntMemory(&p->vObjWeight ); nMem += (int)Vec_WrdMemory(&p->vObjTruth ); nMem += (int)Vec_IntMemory(&p->vObjName ); nMem += (int)Vec_IntMemory(&p->vObjRange ); nMem += (int)Vec_IntMemory(&p->vObjTrav ); nMem += (int)Vec_IntMemory(&p->vObjBits ); nMem += (int)Vec_IntMemory(&p->vObjAttr ); nMem += (int)Vec_IntMemory(&p->vAttrSto ); nMem += (int)Vec_IntMemory(&p->vNtkObjs ); nMem += (int)Vec_IntMemory(&p->vTargets ); // other nMem += (int)Vec_IntMemory(&p->vCover ); nMem += (int)Vec_IntMemory(&p->vArray0 ); nMem += (int)Vec_IntMemory(&p->vArray1 ); nMem += (int)Vec_IntMemory(&p->vArray2 ); return nMem; } static inline void Acb_NtkPrintStats( Acb_Ntk_t * p ) { printf( "pi =%5d ", Acb_NtkPiNum(p) ); printf( "po =%5d ", Acb_NtkPoNum(p) ); printf( "ff =%5d ", Acb_NtkRegNum(p) ); printf( "node =%5d ", Acb_NtkNodeNum(p) ); printf( "box =%5d ", Acb_NtkBoxNum(p) ); //printf( "topo =%4s ", Acb_NtkIsTopoOrder(p) ? "yes" : "no" ); printf( " %s ", Acb_NtkName(p) ); if ( Vec_IntSize(&p->vNtkObjs) ) printf( "-> %s", Acb_NtkName(Acb_NtkNtk(p, Vec_IntEntry(&p->vNtkObjs, 0))) ); printf( "\n" ); // Vec_StrIntPrint( &p->vObjType ); } static inline void Acb_NtkPrint( Acb_Ntk_t * p ) { int i, Type; printf( "Interface (%d):\n", Acb_NtkCioNum(p) ); printf( "Objects (%d):\n", Acb_NtkObjNum(p) ); Acb_NtkForEachObjType( p, Type, i ) { printf( "%6d : ", i ); printf( "Type =%3d ", Type ); printf( "Fanins = %d ", Acb_ObjFaninNum(p, i) ); if ( Acb_NtkHasObjNames(p) && Acb_ObjName(p, i) ) printf( "%s", Acb_ObjNameStr(p, i) ); printf( "\n" ); } } /**Function************************************************************* Synopsis [Manager APIs.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline Acb_Man_t * Acb_ManAlloc( char * pFileName, int nNtks, Abc_Nam_t * pStrs, Abc_Nam_t * pFuns, Abc_Nam_t * pMods, Hash_IntMan_t * vHash ) { Acb_Man_t * pNew = ABC_CALLOC( Acb_Man_t, 1 ); pNew->pName = Extra_FileDesignName( pFileName ); pNew->pSpec = Abc_UtilStrsav( pFileName ); pNew->pStrs = pStrs ? pStrs : Abc_NamStart( 1000, 24 ); pNew->pFuns = pFuns ? pFuns : Abc_NamStart( 100, 24 ); pNew->pMods = pMods ? pMods : Abc_NamStart( 100, 24 ); pNew->vHash = vHash ? vHash : Hash_IntManStart( 1000 ); if ( pFuns == NULL ) { Abc_NamStrFindOrAdd(pNew->pFuns, "1\'b0", NULL); Abc_NamStrFindOrAdd(pNew->pFuns, "1\'b1", NULL); Abc_NamStrFindOrAdd(pNew->pFuns, "1\'bx", NULL); Abc_NamStrFindOrAdd(pNew->pFuns, "1\'bz", NULL); } // if ( vHash == NULL ) // Hash_Int2ManInsert( pNew->vHash, 0, 0, 0 ); Vec_PtrGrow( &pNew->vNtks, nNtks+1 ); Vec_PtrPush( &pNew->vNtks, NULL ); // set default root module pNew->iRoot = 1; return pNew; } static inline void Acb_ManDupTypeNames( Acb_Man_t * pNew, Acb_Man_t * p ) { memcpy( pNew->pTypeNames, p->pTypeNames, sizeof(void *) * ABC_OPER_LAST ); } static inline Acb_Man_t * Acb_ManDup( Acb_Man_t * p, Vec_Int_t*(* pFuncOrder)(Acb_Ntk_t*) ) { Acb_Ntk_t * pNtk, * pNtkNew; int i; Acb_Man_t * pNew = Acb_ManAlloc( p->pSpec, Acb_ManNtkNum(p), Abc_NamRef(p->pStrs), Abc_NamRef(p->pFuns), Abc_NamStart(100, 24), Hash_IntManRef(p->vHash) ); Acb_ManDupTypeNames( pNew, p ); Acb_ManForEachNtk( p, pNtk, i ) { pNtkNew = Acb_NtkDupOrder( pNew, pNtk, pFuncOrder ); Acb_NtkAdd( pNew, pNtkNew ); Acb_NtkDupAttrs( pNtkNew, pNtk ); } // Acb_ManForEachNtk( p, pNtk, i ) // if ( (pHost = Acb_NtkHostNtk(pNtk)) ) // Acb_NtkSetHost( Acb_NtkCopyNtk(pNew, pNtk), Acb_NtkCopy(pHost), Acb_ObjCopy(pHost, Acb_NtkHostObj(pNtk)) ); pNew->iRoot = Acb_ManNtkNum(pNew); return pNew; } static inline void Acb_ManFree( Acb_Man_t * p ) { Acb_Ntk_t * pNtk; int i; Acb_ManForEachNtk( p, pNtk, i ) Acb_NtkFree( pNtk ); ABC_FREE( p->vNtks.pArray ); Abc_NamDeref( p->pStrs ); Abc_NamDeref( p->pFuns ); Abc_NamDeref( p->pMods ); Hash_IntManDeref( p->vHash ); Vec_IntErase( &p->vNameMap ); Vec_IntErase( &p->vUsed ); Vec_IntErase( &p->vNameMap2 ); Vec_IntErase( &p->vUsed2 ); Vec_StrErase( &p->vOut ); Vec_StrErase( &p->vOut2 ); ABC_FREE( p->pName ); ABC_FREE( p->pSpec ); ABC_FREE( p ); } static inline int Acb_ManGetMap( Acb_Man_t * p, int i ) { return Vec_IntGetEntry(&p->vNameMap, i); } static inline void Acb_ManSetMap( Acb_Man_t * p, int i, int x ) { assert( Vec_IntGetEntry(&p->vNameMap, i) == 0 ); Vec_IntSetEntry( &p->vNameMap, i, x ); Vec_IntPush( &p->vUsed, i ); } static inline void Acb_ManUnsetMap( Acb_Man_t * p, int i ) { Vec_IntSetEntry( &p->vNameMap, i, 0 ); } static inline void Acb_ManCleanMap( Acb_Man_t * p ) { int i, Entry; Vec_IntForEachEntry( &p->vUsed, Entry, i ) Vec_IntWriteEntry( &p->vNameMap, Entry, 0 ); Vec_IntClear( &p->vUsed ); } static inline int Acb_NtkGetMap( Acb_Ntk_t * p, int i ) { return Acb_ManGetMap(p->pDesign, i); } static inline void Acb_NtkSetMap( Acb_Ntk_t * p, int i, int x ) { Acb_ManSetMap(p->pDesign, i, x); } static inline void Acb_NtkUnsetMap( Acb_Ntk_t * p, int i ) { Acb_ManUnsetMap(p->pDesign, i); } static inline void Acb_NtkCleanMap( Acb_Ntk_t * p ) { Acb_ManCleanMap(p->pDesign); } static inline int Acb_ManGetMap2( Acb_Man_t * p, int i ) { return Vec_IntGetEntry(&p->vNameMap2, i); } static inline void Acb_ManSetMap2( Acb_Man_t * p, int i, int x ) { assert( Vec_IntGetEntry(&p->vNameMap2, i) == 0 ); Vec_IntSetEntry( &p->vNameMap2, i, x ); Vec_IntPush( &p->vUsed2, i ); } static inline void Acb_ManUnsetMap2( Acb_Man_t * p, int i ) { Vec_IntSetEntry( &p->vNameMap2, i, 0 ); } static inline void Acb_ManCleanMap2( Acb_Man_t * p ) { int i, Entry; Vec_IntForEachEntry( &p->vUsed2, Entry, i ) Vec_IntWriteEntry( &p->vNameMap2, Entry, 0 ); Vec_IntClear( &p->vUsed2 ); } static inline int Acb_NtkGetMap2( Acb_Ntk_t * p, int i ) { return Acb_ManGetMap2(p->pDesign, i); } static inline void Acb_NtkSetMap2( Acb_Ntk_t * p, int i, int x ) { Acb_ManSetMap2(p->pDesign, i, x); } static inline void Acb_NtkUnsetMap2( Acb_Ntk_t * p, int i ) { Acb_ManUnsetMap2(p->pDesign, i); } static inline void Acb_NtkCleanMap2( Acb_Ntk_t * p ) { Acb_ManCleanMap2(p->pDesign); } static inline int Acb_ManMemory( Acb_Man_t * p ) { Acb_Ntk_t * pNtk; int i; int nMem = sizeof(Acb_Man_t); nMem += p->pName ? (int)strlen(p->pName) : 0; nMem += p->pSpec ? (int)strlen(p->pSpec) : 0; nMem += Abc_NamMemUsed(p->pStrs); nMem += Abc_NamMemUsed(p->pFuns); nMem += Abc_NamMemUsed(p->pMods); nMem += (int)Vec_IntMemory(&p->vNameMap ); nMem += (int)Vec_IntMemory(&p->vUsed ); nMem += (int)Vec_StrMemory(&p->vOut ); nMem += (int)Vec_StrMemory(&p->vOut2 ); nMem += (int)Vec_PtrMemory(&p->vNtks); Acb_ManForEachNtk( p, pNtk, i ) nMem += Acb_NtkMemory( pNtk ); return nMem; } static inline int Acb_ManObjNum( Acb_Man_t * p ) { Acb_Ntk_t * pNtk; int i, Count = 0; Acb_ManForEachNtk( p, pNtk, i ) Count += Acb_NtkObjNum(pNtk); return Count; } static inline int Acb_ManBoxNum( Acb_Man_t * p ) { Acb_Ntk_t * pNtk; int i, Count = 0; Acb_ManForEachNtk( p, pNtk, i ) Count += Acb_NtkBoxNum( pNtk ); return Count; } static inline void Acb_ManBoxNumRec_rec( Acb_Ntk_t * p, int * pCountP, int * pCountU ) { int iObj, Id = Acb_NtkId(p); if ( pCountP[Id] >= 0 ) return; pCountP[Id] = pCountU[Id] = 0; Acb_NtkForEachObj( p, iObj ) { if ( Acb_ObjIsBox(p, iObj) ) { Acb_ManBoxNumRec_rec( Acb_ObjNtk(p, iObj), pCountP, pCountU ); pCountP[Id] += pCountP[Acb_ObjNtkId(p, iObj)]; pCountU[Id] += pCountU[Acb_ObjNtkId(p, iObj)] + 1; } else pCountP[Id] += 1; } } static inline void Acb_ManBoxNumRec( Acb_Man_t * p, int * pnPrims, int * pnUsers ) { Acb_Ntk_t * pNtk = Acb_ManRoot(p); int * pCountP = ABC_FALLOC( int, Acb_ManNtkNum(p) + 1 ); int * pCountU = ABC_FALLOC( int, Acb_ManNtkNum(p) + 1 ); Acb_ManBoxNumRec_rec( pNtk, pCountP, pCountU ); *pnPrims = pCountP[Acb_NtkId(pNtk)]; *pnUsers = pCountU[Acb_NtkId(pNtk)]; ABC_FREE( pCountP ); ABC_FREE( pCountU ); } static inline void Acb_ManPrintStats( Acb_Man_t * p, int nModules, int fVerbose ) { Acb_Ntk_t * pNtk; int i, nPrims, nUsers; Acb_Ntk_t * pRoot = Acb_ManRoot( p ); Acb_ManBoxNumRec( p, &nPrims, &nUsers ); printf( "%-12s : ", Acb_ManName(p) ); printf( "pi =%5d ", Acb_NtkCiNum(pRoot) ); printf( "po =%5d ", Acb_NtkCoNum(pRoot) ); printf( "mod =%5d ", Acb_ManNtkNum(p) ); printf( "box =%5d ", nPrims + nUsers ); printf( "prim =%5d ", nPrims ); printf( "user =%5d ", nUsers ); printf( "mem =%6.3f MB", 1.0*Acb_ManMemory(p)/(1<<20) ); printf( "\n" ); Acb_ManForEachNtk( p, pNtk, i ) { if ( i == nModules+1 ) break; printf( "Module %5d : ", i ); Acb_NtkPrintStats( pNtk ); } } /*=== acbUtil.c =============================================================*/ extern Vec_Int_t * Acb_ObjCollectTfi( Acb_Ntk_t * p, int iObj, int fTerm ); extern Vec_Int_t * Acb_ObjCollectTfo( Acb_Ntk_t * p, int iObj, int fTerm ); extern Vec_Int_t * Acb_ObjCollectTfiVec( Acb_Ntk_t * p, Vec_Int_t * vObjs ); extern Vec_Int_t * Acb_ObjCollectTfoVec( Acb_Ntk_t * p, Vec_Int_t * vObjs ); extern int Acb_NtkCountPiBuffers( Acb_Ntk_t * p, Vec_Int_t * vObjs ); extern int Acb_NtkCountPoDrivers( Acb_Ntk_t * p, Vec_Int_t * vObjs ); extern int Acb_NtkFindMffcSize( Acb_Ntk_t * p, Vec_Int_t * vObjsRefed, Vec_Int_t * vObjsDerefed, int nGates[5] ); extern int Acb_ObjComputeLevelD( Acb_Ntk_t * p, int iObj ); extern int Acb_NtkComputeLevelD( Acb_Ntk_t * p, Vec_Int_t * vTfo ); extern void Acb_NtkUpdateLevelD( Acb_Ntk_t * p, int iObj ); extern void Acb_NtkUpdateTiming( Acb_Ntk_t * p, int iObj ); extern void Acb_NtkPrintNode( Acb_Ntk_t * p, int iObj ); extern int Acb_NtkCreateNode( Acb_Ntk_t * p, word uTruth, Vec_Int_t * vSupp ); extern void Acb_NtkUpdateNode( Acb_Ntk_t * p, int Pivot, word uTruth, Vec_Int_t * vSupp ); extern Acb_Ntk_t * Acb_VerilogSimpleRead( char * pFileName, char * pFileNameW ); ABC_NAMESPACE_HEADER_END #endif //////////////////////////////////////////////////////////////////////// /// END OF FILE /// ////////////////////////////////////////////////////////////////////////