/**CFile**************************************************************** FileName [cbaNtk.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Hierarchical word-level netlist.] Synopsis [Network manipulation.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - July 21, 2015.] Revision [$Id: cbaNtk.c,v 1.00 2014/11/29 00:00:00 alanmi Exp $] ***********************************************************************/ #include #include "cba.h" #include "base/main/main.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Prints distribution of operator types.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Vec_WrdSelectSortCost2( word * pArray, int nSize, word * pCosts ) { int i, j, best_i; for ( i = 0; i < nSize-1; i++ ) { best_i = i; for ( j = i+1; j < nSize; j++ ) if ( pCosts[j] < pCosts[best_i] ) best_i = j; ABC_SWAP( word, pArray[i], pArray[best_i] ); ABC_SWAP( word, pCosts[i], pCosts[best_i] ); } } static inline word Cba_NtkPrintDistribMakeSign( int s, int s0, int s1 ) { return ((word)s1 << 42) | ((word)s0 << 21) | (word)s; } static inline void Cba_NtkPrintDistribFromSign( word sss, int * s, int * s0, int * s1 ) { *s1 = (int)(sss >> 42); *s0 = (int)(sss >> 21) & 0x1FFFFF; *s = (int)sss & 0x1FFFFF; } static inline void Cba_NtkPrintDistribAddOne( Vec_Ptr_t * vTypes, Vec_Ptr_t * vOccurs, int Type, word Sign ) { Vec_Wrd_t * vType = (Vec_Wrd_t *)Vec_PtrEntry( vTypes, Type ); Vec_Wrd_t * vOccur = (Vec_Wrd_t *)Vec_PtrEntry( vOccurs, Type ); word Entry; int i; Vec_WrdForEachEntry( vType, Entry, i ) if ( Entry == Sign ) { Vec_WrdAddToEntry( vOccur, i, 1 ); return; } Vec_WrdPush( vType, Sign ); Vec_WrdPush( vOccur, 1 ); } void Cba_NtkPrintDistribSortOne( Vec_Ptr_t * vTypes, Vec_Ptr_t * vOccurs, int Type ) { Vec_Wrd_t * vType = (Vec_Wrd_t *)Vec_PtrEntry( vTypes, Type ); Vec_Wrd_t * vOccur = (Vec_Wrd_t *)Vec_PtrEntry( vOccurs, Type ); Vec_WrdSelectSortCost2( Vec_WrdArray(vType), Vec_WrdSize(vType), Vec_WrdArray(vOccur) ); Vec_WrdReverseOrder( vType ); Vec_WrdReverseOrder( vOccur ); } void Cba_NtkPrintDistrib( Cba_Ntk_t * p, int fVerbose ) { Vec_Ptr_t * vTypes, * vOccurs; Vec_Int_t * vAnds = Vec_IntStart( CBA_BOX_LAST ); int iRnObj = -1, nCountRange = 0; int i, k, s, s0, s1; word Sign; Cba_ObjType_t Type; char * pTypeNames[CBA_BOX_LAST]; Cba_ManCreatePrimMap( pTypeNames ); // allocate statistics arrays vTypes = Vec_PtrStart( CBA_BOX_LAST ); vOccurs = Vec_PtrStart( CBA_BOX_LAST ); for ( i = 0; i < CBA_BOX_LAST; i++ ) Vec_PtrWriteEntry( vTypes, i, Vec_WrdAlloc(16) ); for ( i = 0; i < CBA_BOX_LAST; i++ ) Vec_PtrWriteEntry( vOccurs, i, Vec_WrdAlloc(16) ); // add nodes Cba_NtkForEachObj( p, i ) { // char * pName = Cba_ObjName(p, i); Type = Cba_ObjType( p, i ); if ( Cba_ObjSign(p, i) > 0x1FFFFF ) printf( "Object %6d has range %d, which is reduced to %d in the statistics.\n", i, Cba_ObjRangeSize(p, i), Cba_ObjRangeSize(p, i) & 0xFFFFF ); if ( Cba_ObjLeft(p, i) && Cba_ObjRight(p, i) ) { if ( iRnObj == -1 ) iRnObj = 1; nCountRange++; } // 0-input types if ( Cba_ObjIsPi(p, i) || (Type == CBA_BOX_BUF && Cba_FonIsConst(Cba_ObjFinFon(p, i, 0))) || Type == CBA_BOX_CONCAT ) Sign = Cba_NtkPrintDistribMakeSign( Cba_ObjSign(p, i), 0, 0 ); // 1-input types else if ( Cba_TypeIsUnary(Type) ) Sign = Cba_NtkPrintDistribMakeSign( Cba_ObjSign(p, i), Cba_ObjSign(p, Cba_ObjFinFon(p, i, 0)), 0 ); // 2-input types (including MUX) else if ( Cba_ObjFinNum(p, i) == 1 ) Sign = Cba_NtkPrintDistribMakeSign( Cba_ObjSign(p, i), Cba_ObjSign(p, Cba_ObjFinFon(p, i, 0)), 0 ); else { assert( Cba_ObjFinNum(p, i) >= 2 ); Sign = Cba_NtkPrintDistribMakeSign( Cba_ObjSign(p, i), Cba_ObjSign(p, Cba_ObjFinFon(p, i, 0)), Cba_ObjSign(p, Cba_ObjFinFon(p, i, 1)) ); } // add to storage Cba_NtkPrintDistribAddOne( vTypes, vOccurs, Type, Sign ); // count the number of AIG nodes if ( Type == CBA_BOX_MUX ) Vec_IntAddToEntry( vAnds, CBA_BOX_MUX, 3 * Cba_ObjRangeSize(p, i) * (Cba_ObjFinNum(p, i) - 2) ); else if ( Type == CBA_BOX_SHIR ) Vec_IntAddToEntry( vAnds, CBA_BOX_SHIR, Abc_MinInt(Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)), Abc_Base2Log(Cba_ObjRangeSize(p, i))) * 3 ); else if ( Type == CBA_BOX_SHIRA ) Vec_IntAddToEntry( vAnds, CBA_BOX_SHIRA, Cba_ObjRangeSize(p, i) * Abc_MinInt(Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)), Abc_Base2Log(Cba_ObjRangeSize(p, i))) * 3 ); else if ( Type == CBA_BOX_SHIL ) Vec_IntAddToEntry( vAnds, CBA_BOX_SHIL, Cba_ObjRangeSize(p, i) * Abc_MinInt(Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)), Abc_Base2Log(Cba_ObjRangeSize(p, i))) * 3 ); else if ( Type == CBA_BOX_SHILA ) Vec_IntAddToEntry( vAnds, CBA_BOX_SHILA, Cba_ObjRangeSize(p, i) * Abc_MinInt(Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)), Abc_Base2Log(Cba_ObjRangeSize(p, i))) * 3 ); else if ( Type == CBA_BOX_ROTR ) Vec_IntAddToEntry( vAnds, CBA_BOX_ROTR, Cba_ObjRangeSize(p, i) * Abc_MinInt(Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)), Abc_Base2Log(Cba_ObjRangeSize(p, i))) * 3 ); else if ( Type == CBA_BOX_ROTL ) Vec_IntAddToEntry( vAnds, CBA_BOX_ROTL, Cba_ObjRangeSize(p, i) * Abc_MinInt(Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)), Abc_Base2Log(Cba_ObjRangeSize(p, i))) * 3 ); else if ( Type == CBA_BOX_INV ) Vec_IntAddToEntry( vAnds, CBA_BOX_INV, 0 ); else if ( Type == CBA_BOX_AND ) Vec_IntAddToEntry( vAnds, CBA_BOX_AND, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) ); else if ( Type == CBA_BOX_OR ) Vec_IntAddToEntry( vAnds, CBA_BOX_OR, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) ); else if ( Type == CBA_BOX_XOR ) Vec_IntAddToEntry( vAnds, CBA_BOX_XOR, 3 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) ); else if ( Type == CBA_BOX_SLICE ) Vec_IntAddToEntry( vAnds, CBA_BOX_SLICE, 0 ); else if ( Type == CBA_BOX_CONCAT ) Vec_IntAddToEntry( vAnds, CBA_BOX_CONCAT, 0 ); else if ( Type == CBA_BOX_LNOT ) Vec_IntAddToEntry( vAnds, CBA_BOX_LNOT, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 1 ); else if ( Type == CBA_BOX_LAND ) Vec_IntAddToEntry( vAnds, CBA_BOX_LAND, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) + Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 1)) - 1 ); else if ( Type == CBA_BOX_LOR ) Vec_IntAddToEntry( vAnds, CBA_BOX_LOR, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) + Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 1)) - 1 ); else if ( Type == CBA_BOX_LXOR ) Vec_IntAddToEntry( vAnds, CBA_BOX_LXOR, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) + Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 1)) + 1 ); else if ( Type == CBA_BOX_EQU ) Vec_IntAddToEntry( vAnds, CBA_BOX_EQU, 4 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 1 ); else if ( Type == CBA_BOX_NEQU ) Vec_IntAddToEntry( vAnds, CBA_BOX_NEQU, 4 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 1 ); else if ( Type == CBA_BOX_LTHAN ) Vec_IntAddToEntry( vAnds, CBA_BOX_LTHAN, 6 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 6 ); else if ( Type == CBA_BOX_MTHAN ) Vec_IntAddToEntry( vAnds, CBA_BOX_MTHAN, 6 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 6 ); else if ( Type == CBA_BOX_LETHAN ) Vec_IntAddToEntry( vAnds, CBA_BOX_LETHAN, 6 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 6 ); else if ( Type == CBA_BOX_METHAN ) Vec_IntAddToEntry( vAnds, CBA_BOX_METHAN, 6 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 6 ); else if ( Type == CBA_BOX_RAND ) Vec_IntAddToEntry( vAnds, CBA_BOX_RAND, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 1 ); else if ( Type == CBA_BOX_ROR ) Vec_IntAddToEntry( vAnds, CBA_BOX_ROR, Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 1 ); else if ( Type == CBA_BOX_RXOR ) Vec_IntAddToEntry( vAnds, CBA_BOX_RXOR, 3 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 3 ); else if ( Type == CBA_BOX_ADD ) Vec_IntAddToEntry( vAnds, CBA_BOX_ADD, 9 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) ); else if ( Type == CBA_BOX_SUB ) Vec_IntAddToEntry( vAnds, CBA_BOX_SUB, 9 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) ); else if ( Type == CBA_BOX_MUL ) Vec_IntAddToEntry( vAnds, CBA_BOX_MUL, 9 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 1)) ); else if ( Type == CBA_BOX_DIV ) Vec_IntAddToEntry( vAnds, CBA_BOX_DIV, 13 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 19 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) + 10 ); else if ( Type == CBA_BOX_MOD ) Vec_IntAddToEntry( vAnds, CBA_BOX_MOD, 13 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 7 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) - 2 ); else if ( Type == CBA_BOX_POW ) Vec_IntAddToEntry( vAnds, CBA_BOX_POW, 10 * (int)pow((double)Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)),(double)Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0))) ); else if ( Type == CBA_BOX_MIN ) Vec_IntAddToEntry( vAnds, CBA_BOX_MIN, 4 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) ); else if ( Type == CBA_BOX_SQRT ) Vec_IntAddToEntry( vAnds, CBA_BOX_SQRT, 11 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) / 8 + 5 * Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)) / 2 - 5 ); } if ( nCountRange ) { printf( "Warning: %d objects of the design have non-zero-based ranges.\n", nCountRange ); printf( "In particular, object %6d with name \"%s\" has range %d=[%d:%d]\n", iRnObj, Cba_FonNameStr(p, Cba_ObjFon0(p, iRnObj)), Cba_ObjRangeSize(p, iRnObj), Cba_ObjLeft(p, iRnObj), Cba_ObjRight(p, iRnObj) ); } // print by occurrence printf( "ID : name occurrence and2 (occurrence)=. ...\n" ); for ( i = 0; i < CBA_BOX_LAST; i++ ) { Vec_Wrd_t * vType = (Vec_Wrd_t *)Vec_PtrEntry( vTypes, i ); Vec_Wrd_t * vOccur = (Vec_Wrd_t *)Vec_PtrEntry( vOccurs, i ); if ( p->pDesign->nObjs[i] == 0 ) continue; printf( "%2d : %-8s %6d%8d ", i, pTypeNames[i], p->pDesign->nObjs[i], Vec_IntEntry(vAnds, i) ); // sort by occurence Cba_NtkPrintDistribSortOne( vTypes, vOccurs, i ); Vec_WrdForEachEntry( vType, Sign, k ) { Cba_NtkPrintDistribFromSign( Sign, &s, &s0, &s1 ); if ( ((k % 6) == 5 && s1) || ((k % 8) == 7 && !s1) ) printf( "\n " ); printf( "(%d)", (int)Vec_WrdEntry( vOccur, k ) ); printf( "%s%d", Abc_LitIsCompl(s)?"-":"", Abc_Lit2Var(s) ); if ( s0 ) printf( "=%s%d", Abc_LitIsCompl(s0)?"-":"", Abc_Lit2Var(s0) ); if ( s1 ) printf( ".%s%d", Abc_LitIsCompl(s1)?"-":"", Abc_Lit2Var(s1) ); printf( " " ); } printf( "\n" ); } Vec_VecFree( (Vec_Vec_t *)vTypes ); Vec_VecFree( (Vec_Vec_t *)vOccurs ); Vec_IntFree( vAnds ); } void Cba_NtkPrintNodes( Cba_Ntk_t * p, int Type ) { int i, iFon0, iFon1, Counter = 0; char * pTypeNames[CBA_BOX_LAST]; Cba_ManCreatePrimMap( pTypeNames ); printf( "Operation %s\n", pTypeNames[Type] ); Cba_NtkForEachObj( p, i ) { if ( (int)Type != Type ) continue; iFon0 = Cba_ObjFinFon(p, i, 0); iFon1 = Cba_ObjFinFon(p, i, 1); printf( "%8d :", Counter++ ); printf( "%8d : ", i ); printf( "%3d%s = ", Cba_ObjRangeSize(p, i), Cba_ObjSigned(p, i) ? "s" : " " ); printf( "%3d%s %s ", Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 0)), Cba_ObjSigned(p, iFon0) ? "s" : " ", pTypeNames[Type] ); printf( "%3d%s ", Cba_ObjRangeSize(p, Cba_ObjFinFon(p, i, 1)), Cba_ObjSigned(p, iFon1) ? "s" : " " ); printf( " : " ); printf( "%-12s = ", Cba_ObjNameStr(p, i) ); printf( "%-12s %s ", Cba_FonIsConst(iFon0) ? Cba_NtkConst(p, Cba_FonConst(iFon0)) : Cba_FonNameStr(p, iFon0), pTypeNames[Type] ); printf( "%-12s ", Cba_FonIsConst(iFon1) ? Cba_NtkConst(p, Cba_FonConst(iFon1)) : Cba_FonNameStr(p, iFon1) ); printf( "\n" ); } } void Cba_NtkPrintStatsFull( Cba_Ntk_t * p, int fDistrib, int fVerbose ) { int i; char * pTypeNames[CBA_BOX_LAST]; Cba_ManCreatePrimMap( pTypeNames ); printf( "%-20s : ", Cba_NtkName(p) ); printf( "PI = %4d ", Cba_NtkPiNum(p) ); printf( "PO = %4d ", Cba_NtkPoNum(p) ); printf( "FF = %4d ", Cba_NtkBoxSeqNum(p) ); printf( "Obj = %6d ", Cba_NtkObjNum(p) ); printf( "Mem = %.3f MB", 1.0*Cba_NtkMemory(p)/(1<<20) ); printf( "\n" ); if ( fDistrib ) { Cba_NtkPrintDistrib( p, fVerbose ); return; } if ( !fVerbose ) return; printf( "Node type statistics:\n" ); for ( i = 1; i < CBA_BOX_LAST; i++ ) { if ( !p->pDesign->nObjs[i] ) continue; if ( p->pDesign->nAnds[0] && p->pDesign->nAnds[i] ) printf( "%2d : %-8s %6d %7.2f %%\n", i, pTypeNames[i], p->pDesign->nObjs[i], 100.0*p->pDesign->nAnds[i]/p->pDesign->nAnds[0] ); else printf( "%2d : %-8s %6d\n", i, pTypeNames[i], p->pDesign->nObjs[i] ); } } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Cba_NtkCollectDistrib( Cba_Ntk_t * p, int * pCounts, int * pUserCounts ) { int i; Cba_NtkForEachBox( p, i ) if ( Cba_ObjIsBoxUser(p, i) ) pUserCounts[Cba_ObjNtkId(p, i)]++; else pCounts[Cba_ObjType(p, i)]++; } void Cba_NtkPrintDistribStat( Cba_Ntk_t * p, int * pCounts, int * pUserCounts ) { Cba_Ntk_t * pNtk; int i; printf( "Primitives (%d):\n", Cba_NtkBoxPrimNum(p) ); for ( i = 0; i < CBA_BOX_LAST; i++ ) if ( pCounts[i] ) printf( "%-20s = %5d\n", Cba_NtkTypeName(p, i), pCounts[i] ); printf( "User hierarchy (%d):\n", Cba_NtkBoxUserNum(p) ); Cba_ManForEachNtk( p->pDesign, pNtk, i ) if ( pUserCounts[i] ) printf( "%-20s = %5d\n", Cba_NtkName(pNtk), pUserCounts[i] ); } void Cba_NtkPrintDistribOld( Cba_Ntk_t * p ) { int pCounts[CBA_BOX_LAST] = {0}; int * pUserCounts = ABC_CALLOC( int, Cba_ManNtkNum(p->pDesign) + 1 ); Cba_ManCreatePrimMap( p->pDesign->pTypeNames ); Cba_NtkCollectDistrib( p, pCounts, pUserCounts ); Cba_NtkPrintDistribStat( p, pCounts, pUserCounts ); ABC_FREE( pUserCounts ); } void Cba_ManPrintDistribStat( Cba_Man_t * p, int * pCounts, int * pUserCounts ) { Cba_Ntk_t * pNtk = Cba_ManRoot(p); int i; printf( "Primitives:\n" ); for ( i = 0; i < CBA_BOX_LAST; i++ ) if ( pCounts[i] ) printf( "%-20s = %5d\n", Cba_NtkTypeName(pNtk, i), pCounts[i] ); printf( "User hierarchy:\n" ); Cba_ManForEachNtk( p, pNtk, i ) if ( pUserCounts[i] ) printf( "%-20s = %5d\n", Cba_NtkName(pNtk), pUserCounts[i] ); } void Cba_ManPrintDistrib( Cba_Man_t * p ) { Cba_Ntk_t * pNtk; int i; int pCounts[CBA_BOX_LAST] = {0}; int * pUserCounts = ABC_CALLOC( int, Cba_ManNtkNum(p) + 1 ); Cba_ManCreatePrimMap( p->pTypeNames ); Cba_ManForEachNtk( p, pNtk, i ) Cba_NtkCollectDistrib( pNtk, pCounts, pUserCounts ); Cba_ManPrintDistribStat( p, pCounts, pUserCounts ); ABC_FREE( pUserCounts ); } /**Function************************************************************* Synopsis [Order objects by box type and then by name.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ // compares two numbers with the first mismatching char in i-th position static inline int Cba_CharIsDigit( char c ) { return c >= '0' && c <= '9'; } int Cba_StrCmpInt( char * p1, char * p2, int i ) { // check if one of the mismatching chars is a digit if ( Cba_CharIsDigit(p1[i]) || Cba_CharIsDigit(p2[i]) ) { // if previous (equal) char was a digit or if this is first digit on both sides, scroll back if ( (i > 0 && Cba_CharIsDigit(p1[i-1])) || (Cba_CharIsDigit(p1[i]) && Cba_CharIsDigit(p2[i])) ) { int Num1, Num2; // find the first digit for ( --i; i >= 0; i-- ) if ( !Cba_CharIsDigit(p1[i]) ) break; i++; // current char is digit assert( Cba_CharIsDigit(p1[i]) ); assert( Cba_CharIsDigit(p2[i]) ); // previous char does not exist or is not a digit assert( i == 0 || !Cba_CharIsDigit(p1[i-1]) ); assert( i == 0 || !Cba_CharIsDigit(p2[i-1]) ); // compare numbers Num1 = atoi( p1 + i ); Num2 = atoi( p2 + i ); if ( Num1 < Num2 ) return -1; if ( Num1 > Num2 ) return 1; assert( 0 ); return 0; } } // compare as usual if ( p1[i] < p2[i] ) return -1; if ( p1[i] > p2[i] ) return 1; assert( 0 ); return 0; } int Cba_StrCmp( char ** pp1, char ** pp2 ) { char * p1 = *pp1; char * p2 = *pp2; int i; for ( i = 0; p1[i] && p2[i]; i++ ) if ( p1[i] != p2[i] ) return Cba_StrCmpInt( p1, p2, i ); assert( !p1[i] || !p2[i] ); return Cba_StrCmpInt( p1, p2, i ); } void Cba_NtkObjOrder( Cba_Ntk_t * p, Vec_Int_t * vObjs, Vec_Int_t * vNameIds ) { char Buffer[1000], * pName; Vec_Ptr_t * vNames; int i, iObj; if ( Vec_IntSize(vObjs) < 2 ) return; vNames = Vec_PtrAlloc( Vec_IntSize(vObjs) ); Vec_IntForEachEntry( vObjs, iObj, i ) { char * pTypeName = Cba_NtkTypeName( p, Cba_ObjType(p, iObj) ); char * pInstName = vNameIds ? Cba_NtkStr(p, Vec_IntEntry(vNameIds, i)) : Cba_ObjNameStr(p, iObj); sprintf( Buffer, "%s_%s_%d", pTypeName, pInstName, iObj ); Vec_PtrPush( vNames, Abc_UtilStrsav(Buffer) ); } // print before // Vec_PtrForEachEntry( char *, vNames, pName, i ) // printf( "%s \n", pName ); // printf( "\n" ); // do the sorting Vec_PtrSort( vNames, (int (*)(const void *, const void *))Cba_StrCmp ); // print after // Vec_PtrForEachEntry( char *, vNames, pName, i ) // printf( "%s \n", pName ); // printf( "\n" ); // reload in a new order Vec_IntClear( vObjs ); Vec_PtrForEachEntry( char *, vNames, pName, i ) Vec_IntPush( vObjs, atoi(strrchr(pName, '_')+1) ); Vec_PtrFreeFree( vNames ); } /**Function************************************************************* Synopsis [Returns the number of CI fons.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cba_NtkCiFonNum( Cba_Ntk_t * p ) { int i, iObj, Count = Cba_NtkPiNum(p); Cba_NtkForEachBoxSeq( p, iObj, i ) Count += Cba_ObjFonNum(p, iObj); return Count; } int Cba_NtkCoFinNum( Cba_Ntk_t * p ) { int i, iObj, Count = Cba_NtkPoNum(p); Cba_NtkForEachBoxSeq( p, iObj, i ) Count += Cba_ObjFinNum(p, iObj); return Count; } /**Function************************************************************* Synopsis [Returns 1 if the manager is in the topo order.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cba_NtkIsTopoOrder( Cba_Ntk_t * p ) { int i, k, iObj, iFin, iFanin, fTopo = 1; Vec_Bit_t * vVisited = Vec_BitStart( Cba_NtkObjNum(p) + 1 ); // mark PIs and seq objects Cba_NtkForEachPi( p, iObj, i ) Vec_BitWriteEntry( vVisited, iObj, 1 ); Cba_NtkForEachBoxSeq( p, iObj, i ) Vec_BitWriteEntry( vVisited, iObj, 1 ); // visit combinational nodes Cba_NtkForEachBox( p, iObj ) if ( !Cba_ObjIsSeq(p, iObj) ) { Cba_ObjForEachFinFaninReal( p, iObj, iFin, iFanin, k ) if ( !Vec_BitEntry(vVisited, iFanin) ) fTopo = 0; if ( !fTopo ) break; Vec_BitWriteEntry( vVisited, iObj, 1 ); } // visit POs and seq objects if ( fTopo ) Cba_NtkForEachPo( p, iObj, i ) { Cba_ObjForEachFinFaninReal( p, iObj, iFin, iFanin, k ) if ( !Vec_BitEntry(vVisited, iFanin) ) fTopo = 0; if ( !fTopo ) break; } if ( fTopo ) Cba_NtkForEachBoxSeq( p, iObj, i ) { Cba_ObjForEachFinFaninReal( p, iObj, iFin, iFanin, k ) if ( !Vec_BitEntry(vVisited, iFanin) ) fTopo = 0; if ( !fTopo ) break; } Vec_BitFree( vVisited ); return fTopo; } int Cba_ManIsTopoOrder( Cba_Man_t * p ) { Cba_Ntk_t * pNtk; int i; Cba_ManForEachNtk( p, pNtk, i ) if ( !Cba_NtkIsTopoOrder(pNtk) ) return 0; return 1; } /**Function************************************************************* Synopsis [Collects user boxes in the DFS order.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cba_NtkCheckComboLoop_rec( Cba_Ntk_t * p, int iObj ) { int k, iFin, iFanin; if ( Cba_ObjIsPi(p, iObj) ) return 1; if ( Cba_ObjCopy(p, iObj) == 1 ) // visited return 1; if ( Cba_ObjCopy(p, iObj) == 0 ) // loop return 0; Cba_ObjSetCopy( p, iObj, 0 ); Cba_ObjForEachFinFaninReal( p, iObj, iFin, iFanin, k ) if ( !Cba_ObjIsSeq(p, iFanin) ) if ( !Cba_NtkCheckComboLoop_rec( p, iFanin ) ) return 0; //Cba_ObjSetCopy( p, iObj, 1 ); Vec_IntSetEntry( &p->vObjCopy, iObj, 1 ); return 1; } int Cba_NtkCheckComboLoop( Cba_Ntk_t * p ) { int iObj; Cba_NtkCleanObjCopies( p ); // -1 = not visited; 0 = on the path; 1 = finished Cba_NtkForEachBox( p, iObj ) if ( !Cba_ObjIsSeq(p, iObj) ) if ( !Cba_NtkCheckComboLoop_rec( p, iObj ) ) { printf( "Cyclic dependency of user boxes is detected.\n" ); return 0; } return 1; } /**Function************************************************************* Synopsis [Find one missing object.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cba_NtkFindMissing( Vec_Int_t * vObjs, int nObjs ) { Vec_Int_t * vMap = Vec_IntStartFull( nObjs + 1 ); int i, iObj; Vec_IntForEachEntry( vObjs, iObj, i ) Vec_IntWriteEntry( vMap, iObj, i ); Vec_IntForEachEntryStart( vMap, i, iObj, 1 ) if ( i == -1 ) { Vec_IntFree( vMap ); return iObj; } Vec_IntFree( vMap ); return -1; } /**Function************************************************************* Synopsis [Collect nodes in the DFS order.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Cba_NtkCollectDfs_rec( Cba_Ntk_t * p, int iObj, Vec_Int_t * vObjs ) { int iFin, iFanin, k; if ( !Cba_ObjCopy(p, iObj) ) return; Cba_ObjSetCopy( p, iObj, 0 ); Cba_ObjForEachFinFaninReal( p, iObj, iFin, iFanin, k ) Cba_NtkCollectDfs_rec( p, iFanin, vObjs ); Vec_IntPush( vObjs, iObj ); } Vec_Int_t * Cba_NtkCollectDfs( Cba_Ntk_t * p ) { int i, k, iObj, iFin, iFanin; Vec_Int_t * vObjs = Vec_IntAlloc( Cba_NtkObjNum(p) ); // collect PIs and seq boxes Cba_NtkForEachPi( p, iObj, i ) Vec_IntPush( vObjs, iObj ); Cba_NtkForEachBoxSeq( p, iObj, i ) Vec_IntPush( vObjs, iObj ); // prepare leaves Cba_NtkCleanObjCopies( p ); Vec_IntForEachEntry( vObjs, iObj, i ) Cba_ObjSetCopy( p, iObj, 0 ); // collect internal Cba_NtkForEachPo( p, iObj, i ) Cba_ObjForEachFinFaninReal( p, iObj, iFin, iFanin, k ) Cba_NtkCollectDfs_rec( p, iFanin, vObjs ); Cba_NtkForEachBoxSeq( p, iObj, i ) Cba_ObjForEachFinFaninReal( p, iObj, iFin, iFanin, k ) Cba_NtkCollectDfs_rec( p, iFanin, vObjs ); // collect POs Cba_NtkForEachPo( p, iObj, i ) Vec_IntPush( vObjs, iObj ); assert( Vec_IntSize(vObjs) <= Cba_NtkObjNum(p) ); if ( Vec_IntSize(vObjs) != Cba_NtkObjNum(p) && !Abc_FrameReadFlag("silentmode") ) { int iObj = Cba_NtkFindMissing( vObjs, Cba_NtkObjNum(p) ); printf( "Warning: DSF ordering for module \"%s\" collected %d out of %d objects.\n", Cba_NtkName(p), Vec_IntSize(vObjs), Cba_NtkObjNum(p) ); printf( " For example, object %d with name \"%s\" is not reachable from outputs.\n", iObj, iObj > 0 ? Cba_FonNameStr( p, Cba_ObjFon0(p, iObj) ) : "" ); } return vObjs; } /**Function************************************************************* Synopsis [Count number of objects after collapsing.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Cba_ManGetClpStats_rec( Cba_Ntk_t * p, int * pCountN, int * pCountI, int * pCountO ) { int iObj, Id = Cba_NtkId(p); if ( pCountN[Id] >= 0 ) return; pCountN[Id] = pCountI[Id] = pCountO[Id] = 0; Cba_NtkForEachObj( p, iObj ) if ( Cba_ObjIsBoxPrim(p, iObj) ) { pCountN[Id] += 1; pCountI[Id] += Cba_ObjFinNum(p, iObj); pCountO[Id] += Cba_ObjFonNum(p, iObj); } else if ( Cba_ObjIsBoxUser(p, iObj) ) { int NtkId = Cba_ObjNtkId(p, iObj); Cba_ManGetClpStats_rec( Cba_ObjNtk(p, iObj), pCountN, pCountI, pCountO ); pCountN[Id] += pCountN[NtkId] + Cba_ObjFonNum(p, iObj); pCountI[Id] += pCountI[NtkId] + Cba_ObjFonNum(p, iObj); pCountO[Id] += pCountO[NtkId] + Cba_ObjFonNum(p, iObj); } } void Cba_ManGetClpStats( Cba_Man_t * p, int * nObjs, int * nFins, int * nFons ) { int * pCountN = ABC_FALLOC( int, Cba_ManNtkNum(p) + 1 ); int * pCountI = ABC_FALLOC( int, Cba_ManNtkNum(p) + 1 ); int * pCountO = ABC_FALLOC( int, Cba_ManNtkNum(p) + 1 ); Cba_Ntk_t * pRoot = Cba_ManRoot(p); Cba_ManGetClpStats_rec( pRoot, pCountN, pCountI, pCountO ); *nObjs = Cba_NtkPioNum(pRoot) + pCountN[Cba_NtkId(pRoot)]; *nFins = Cba_NtkPoNum(pRoot) + pCountI[Cba_NtkId(pRoot)]; *nFons = Cba_NtkPiNum(pRoot) + pCountO[Cba_NtkId(pRoot)]; ABC_FREE( pCountN ); ABC_FREE( pCountI ); ABC_FREE( pCountO ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Cba_NtkCollapse_rec( Cba_Ntk_t * pNew, Cba_Ntk_t * p, Vec_Int_t * vSigs ) { int i, iObj, iObjNew, iFin, iFon; Cba_NtkCleanObjCopies( p ); Cba_NtkCleanFonCopies( p ); // set PI copies assert( Vec_IntSize(vSigs) == Cba_NtkPiNum(p) ); Cba_NtkForEachPiFon( p, iObj, iFon, i ) Cba_FonSetCopy( p, iFon, Vec_IntEntry(vSigs, i) ); // duplicate primitives and create buffers for user instances Cba_NtkForEachObj( p, iObj ) if ( Cba_ObjIsBoxPrim( p, iObj ) ) { iObjNew = Cba_ObjDup( pNew, p, iObj ); Cba_ObjForEachFon( p, iObj, iFon, i ) Cba_FonSetCopy( p, iFon, Cba_ObjFon(pNew, iObjNew, i) ); if ( Cba_ObjAttr(p, iObj) ) Cba_ObjSetAttrs( pNew, iObjNew, Cba_ObjAttrArray(p, iObj), Cba_ObjAttrSize(p, iObj) ); } else if ( Cba_ObjIsBoxUser( p, iObj ) ) { Cba_ObjForEachFon( p, iObj, iFon, i ) { iObjNew = Cba_ObjAlloc( pNew, CBA_BOX_BUF, 1, 1 ); Cba_FonSetCopy( p, iFon, Cba_ObjFon0(pNew, iObjNew) ); } } // connect primitives and collapse user instances Cba_NtkForEachObj( p, iObj ) if ( Cba_ObjIsBoxPrim( p, iObj ) ) { iObjNew = Cba_ObjCopy( p, iObj ); Cba_ObjForEachFinFon( p, iObj, iFin, iFon, i ) Cba_ObjSetFinFon( pNew, iObjNew, i, Cba_FonCopy(p, iFon) ); } else if ( Cba_ObjIsBoxUser( p, iObj ) ) { Vec_IntClear( vSigs ); Cba_ObjForEachFinFon( p, iObj, iFin, iFon, i ) Vec_IntPush( vSigs, Cba_FonCopy(p, iFon) ); assert( Vec_IntSize(vSigs) == Cba_ObjFinNum(p, iObj) ); Cba_NtkCollapse_rec( pNew, Cba_ObjNtk(p, iObj), vSigs ); assert( Vec_IntSize(vSigs) == Cba_ObjFonNum(p, iObj) ); Cba_ObjForEachFon( p, iObj, iFon, i ) { iObjNew = Cba_FonObj( pNew, Cba_FonCopy(p, iFon) ); // buffer Cba_ObjSetFinFon( pNew, iObjNew, 0, Vec_IntEntry(vSigs, i) ); } } // collect POs Vec_IntClear( vSigs ); Cba_NtkForEachPoDriverFon( p, iObj, iFon, i ) Vec_IntPush( vSigs, Cba_FonCopy(p, iFon) ); } Cba_Man_t * Cba_ManCollapse( Cba_Man_t * p ) { Cba_Man_t * pNew = Cba_ManAlloc( p->pSpec, 1, Abc_NamRef(p->pStrs), Abc_NamRef(p->pFuns), Abc_NamStart(100, 24), Hash_IntManRef(p->vHash) ); Cba_Ntk_t * pRoot = Cba_ManRoot( p ), * pRootNew; Vec_Int_t * vSigs = Vec_IntAlloc( 1000 ); int i, iObj, iObjNew, iFon, nObjs = 0, nFins = 0, nFons = 0; Cba_ManDupTypeNames( pNew, p ); Cba_ManGetClpStats( p, &nObjs, &nFins, &nFons ); pRootNew = Cba_NtkAlloc( pNew, Cba_NtkNameId(pRoot), Cba_NtkPiNum(pRoot), Cba_NtkPoNum(pRoot), nObjs, nFins, nFons ); Cba_NtkAdd( pNew, pRootNew ); if ( Cba_NtkHasObjNames(pRoot) ) Cba_NtkCleanObjNames( pRootNew ); if ( Cba_NtkHasFonNames(pRoot) ) Cba_NtkCleanFonNames( pRootNew ); if ( Cba_NtkHasObjAttrs(pRoot) ) Cba_NtkCleanObjAttrs( pRootNew ); if ( Cba_ObjAttr(pRoot, 0) ) Cba_ObjSetAttrs( pRootNew, 0, Cba_ObjAttrArray(pRoot, 0), Cba_ObjAttrSize(pRoot, 0) ); Cba_NtkCleanObjCopies( pRoot ); Cba_NtkForEachPiFon( pRoot, iObj, iFon, i ) { iObjNew = Cba_ObjDup( pRootNew, pRoot, iObj ); Vec_IntPush( vSigs, Cba_ObjFon0(pRootNew, iObjNew) ); if ( Cba_NtkHasObjNames(pRoot) ) Cba_ObjSetName( pRootNew, iObjNew, Cba_ObjName(pRoot, iObj) ); if ( Cba_NtkHasFonNames(pRoot) ) Cba_FonSetName( pRootNew, Cba_ObjFon0(pRootNew, iObjNew), Cba_FonName(pRoot, iFon) ); if ( Cba_ObjAttr(pRoot, iObj) ) Cba_ObjSetAttrs( pRootNew, iObjNew, Cba_ObjAttrArray(pRoot, iObj), Cba_ObjAttrSize(pRoot, iObj) ); } assert( Vec_IntSize(vSigs) == Cba_NtkPiNum(pRoot) ); Cba_NtkCollapse_rec( pRootNew, pRoot, vSigs ); assert( Vec_IntSize(vSigs) == Cba_NtkPoNum(pRoot) ); Cba_NtkForEachPoDriverFon( pRoot, iObj, iFon, i ) { iObjNew = Cba_ObjDup( pRootNew, pRoot, iObj ); Cba_ObjSetFinFon( pRootNew, iObjNew, 0, Vec_IntEntry(vSigs, i) ); if ( Cba_NtkHasObjNames(pRoot) ) Cba_ObjSetName( pRootNew, iObjNew, Cba_ObjName(pRoot, iObj) ); if ( Cba_NtkHasFonNames(pRoot) ) Cba_FonSetName( pRootNew, Vec_IntEntry(vSigs, i), Cba_FonName(pRoot, iFon) ); if ( Cba_ObjAttr(pRoot, iObj) ) Cba_ObjSetAttrs( pRootNew, iObjNew, Cba_ObjAttrArray(pRoot, iObj), Cba_ObjAttrSize(pRoot, iObj) ); } Vec_IntFree( vSigs ); assert( Cba_NtkObjNum(pRootNew) == Cba_NtkObjNumAlloc(pRootNew) ); assert( Cba_NtkFinNum(pRootNew) == Cba_NtkFinNumAlloc(pRootNew) ); assert( Cba_NtkFonNum(pRootNew) == Cba_NtkFonNumAlloc(pRootNew) ); // create internal node names Cba_NtkMissingFonNames( pRootNew, "m" ); //Cba_NtkPrepareSeq( pRootNew ); return pNew; } /**Function************************************************************* Synopsis [Performs the reverse of collapsing.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Vec_Int_t * Cba_NtkCollectInFons( Cba_Ntk_t * p, Vec_Int_t * vObjs ) { Vec_Int_t * vFons = Vec_IntAlloc( 100 ); Vec_Bit_t * vVisFons = Vec_BitStart( Cba_NtkFonNum(p) + 1 ); int i, k, iObj, iFin, iFon, Entry; // mark fanin fons Vec_IntForEachEntry( vObjs, iObj, i ) Cba_ObjForEachFinFon( p, iObj, iFin, iFon, k ) if ( iFon > 0 ) Vec_BitWriteEntry( vVisFons, iFon, 1 ); // unmark internal fons Vec_IntForEachEntry( vObjs, iObj, i ) Cba_ObjForEachFon( p, iObj, iFon, k ) Vec_BitWriteEntry( vVisFons, iFon, 0 ); // collect fons Vec_BitForEachEntry( vVisFons, Entry, iFon ) if ( Entry ) Vec_IntPush( vFons, iFon ); Vec_BitFree( vVisFons ); return vFons; } Vec_Int_t * Cba_NtkCollectOutFons( Cba_Ntk_t * p, Vec_Int_t * vObjs ) { Vec_Int_t * vFons = Vec_IntAlloc( 100 ); Vec_Bit_t * vMapObjs = Vec_BitStart( Cba_NtkObjNum(p) + 1 ); Vec_Bit_t * vVisFons = Vec_BitStart( Cba_NtkFonNum(p) + 1 ); int i, k, iObj, iFin, iFon; // map objects Vec_IntForEachEntry( vObjs, iObj, i ) Vec_BitWriteEntry( vMapObjs, iObj, 1 ); // mark those used by non-objects Cba_NtkForEachObj( p, iObj ) if ( !Vec_BitEntry(vMapObjs, iObj) ) Cba_ObjForEachFinFon( p, iObj, iFin, iFon, k ) if ( iFon > 0 ) Vec_BitWriteEntry( vVisFons, iFon, 1 ); // collect pointed fons among those in objects Vec_IntForEachEntry( vObjs, iObj, i ) Cba_ObjForEachFon( p, iObj, iFon, k ) if ( Vec_BitEntry(vVisFons, iFon) ) Vec_IntPush( vFons, iFon ); Vec_BitFree( vMapObjs ); Vec_BitFree( vVisFons ); return vFons; } void Cba_NtkCollectGroupStats( Cba_Ntk_t * p, Vec_Int_t * vObjs, int * pnFins, int * pnFons ) { int i, iObj, nFins = 0, nFons = 0; Vec_IntForEachEntry( vObjs, iObj, i ) { nFins += Cba_ObjFinNum(p, iObj); nFons += Cba_ObjFonNum(p, iObj); } *pnFins = nFins; *pnFons = nFons; } void Cba_ManExtractGroupInt( Cba_Ntk_t * pNew, Cba_Ntk_t * p, Vec_Int_t * vObjs, Vec_Int_t * vFonIns, Vec_Int_t * vFonOuts ) { int i, k, iObj, iObjNew, iFin, iFon; Cba_NtkCleanObjCopies( p ); Cba_NtkCleanFonCopies( p ); // create inputs and map fons Vec_IntForEachEntry( vFonIns, iFon, i ) { iObjNew = Cba_ObjAlloc( pNew, CBA_OBJ_PI, 0, 1 ); Cba_FonSetCopy( p, iFon, Cba_ObjFon0(pNew, iObjNew) ); if ( Cba_NtkHasObjNames(p) ) Cba_ObjSetName( pNew, iObjNew, Cba_ObjName(p, Cba_FonObj(p, iFon)) ); if ( Cba_NtkHasFonNames(p) ) Cba_FonSetName( pNew, Cba_ObjFon0(pNew, iObjNew), Cba_FonName(p, iFon) ); } // create internal Vec_IntForEachEntry( vObjs, iObj, i ) { iObjNew = Cba_ObjDup( pNew, p, iObj ); if ( Cba_NtkHasObjNames(p) ) Cba_ObjSetName( pNew, iObjNew, Cba_ObjName(p, iObj) ); Cba_ObjForEachFon( p, iObj, iFon, k ) { Cba_FonSetCopy( p, iFon, Cba_ObjFon(pNew, iObjNew, k) ); if ( Cba_NtkHasFonNames(p) ) Cba_FonSetName( pNew, Cba_ObjFon(pNew, iObjNew, k), Cba_FonName(p, iFon) ); } } // connect internal Vec_IntForEachEntry( vObjs, iObj, i ) { iObjNew = Cba_ObjCopy( p, iObj ); Cba_ObjForEachFinFon( p, iObj, iFin, iFon, k ) Cba_ObjSetFinFon( pNew, iObjNew, k, Cba_FonCopy(p, iFon) ); } // create POs Vec_IntForEachEntry( vFonOuts, iFon, i ) { iObjNew = Cba_ObjAlloc( pNew, CBA_OBJ_PO, 1, 0 ); if ( Cba_NtkHasObjNames(p) ) Cba_ObjSetName( pNew, iObjNew, Cba_FonName(p, iFon) ); Cba_ObjSetFinFon( pNew, iObjNew, 0, Cba_FonCopy(p, iFon) ); } assert( Cba_NtkObjNum(pNew) == Cba_NtkObjNumAlloc(pNew) ); assert( Cba_NtkFinNum(pNew) == Cba_NtkFinNumAlloc(pNew) ); assert( Cba_NtkFonNum(pNew) == Cba_NtkFonNumAlloc(pNew) ); } Cba_Man_t * Cba_ManExtractGroup( Cba_Man_t * p, Vec_Int_t * vObjs ) { Cba_Man_t * pNew = Cba_ManAlloc( p->pSpec, 1, Abc_NamRef(p->pStrs), Abc_NamRef(p->pFuns), Abc_NamStart(100, 24), Hash_IntManRef(p->vHash) ); Cba_Ntk_t * pRoot = Cba_ManRoot( p ), * pRootNew; Vec_Int_t * vFonIns = Cba_NtkCollectInFons( pRoot, vObjs ); Vec_Int_t * vFonOuts = Cba_NtkCollectOutFons( pRoot, vObjs ); int nObjs, nFins, nFons; Cba_ManDupTypeNames( pNew, p ); // collect stats Cba_NtkCollectGroupStats( pRoot, vObjs, &nFins, &nFons ); nObjs = Vec_IntSize(vObjs) + Vec_IntSize(vFonIns) + Vec_IntSize(vFonOuts); nFins += Vec_IntSize(vFonOuts); nFons += Vec_IntSize(vFonIns); // create network pRootNew = Cba_NtkAlloc( pNew, Cba_NtkNameId(pRoot), Vec_IntSize(vFonIns), Vec_IntSize(vFonOuts), nObjs, nFins, nFons ); Cba_NtkAdd( pNew, pRootNew ); if ( Cba_NtkHasObjNames(pRoot) ) Cba_NtkCleanObjNames( pRootNew ); if ( Cba_NtkHasFonNames(pRoot) ) Cba_NtkCleanFonNames( pRootNew ); // add group nodes Cba_ManExtractGroupInt( pRootNew, pRoot, vObjs, vFonIns, vFonOuts ); Cba_NtkMissingFonNames( pRootNew, "b" ); //Cba_NtkPrepareSeq( pRootNew ); // cleanup Vec_IntFree( vFonIns ); Vec_IntFree( vFonOuts ); return pNew; } /**Function************************************************************* Synopsis [Derives the design from the GIA manager.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Cba_NtkInsertGiaLit( Cba_Ntk_t * p, int iLit, Vec_Int_t * vLit2Fon, int fUseXor ) { int iObjNew; if ( iLit == 0 || iLit == 1 ) return Cba_FonFromConst(iLit); if ( Vec_IntEntry(vLit2Fon, iLit) >= 0 ) return Vec_IntEntry(vLit2Fon, iLit); assert( Abc_LitIsCompl(iLit) ); assert( Vec_IntEntry(vLit2Fon, Abc_LitNot(iLit)) >= 0 ); // create inverter if ( fUseXor ) { iObjNew = Cba_ObjAlloc( p, CBA_BOX_XOR, 2, 1 ); Cba_ObjSetFinFon( p, iObjNew, 0, Vec_IntEntry(vLit2Fon, Abc_LitNot(iLit)) ); Cba_ObjSetFinFon( p, iObjNew, 1, Cba_FonFromConst(1) ); } else { iObjNew = Cba_ObjAlloc( p, CBA_BOX_INV, 1, 1 ); Cba_ObjSetFinFon( p, iObjNew, 0, Vec_IntEntry(vLit2Fon, Abc_LitNot(iLit)) ); } // save the result Vec_IntWriteEntry( vLit2Fon, iLit, Cba_ObjFon0(p, iObjNew) ); return Cba_ObjFon0(p, iObjNew); } static inline int Cba_NtkInsertGiaObj( Cba_Ntk_t * p, Gia_Man_t * pGia, int iObj, Vec_Int_t * vLit2Fon, int fUseXor ) { Gia_Obj_t * pObj = Gia_ManObj( pGia, iObj ); int iLit0 = Gia_ObjFaninLit0( pObj, iObj ); int iLit1 = Gia_ObjFaninLit1( pObj, iObj ); int iFon0 = Cba_NtkInsertGiaLit( p, iLit0, vLit2Fon, fUseXor ); int iFon1 = Cba_NtkInsertGiaLit( p, iLit1, vLit2Fon, fUseXor ); int iObjNew; if ( Gia_ObjIsMux(pGia, pObj) ) { int iLit2 = Gia_ObjFaninLit2( pGia, iObj ); int iFon2 = Cba_NtkInsertGiaLit( p, iLit2, vLit2Fon, fUseXor ); iObjNew = Cba_ObjAlloc( p, CBA_BOX_MUX, 3, 1 ); Cba_ObjSetFinFon( p, iObjNew, 0, iFon2 ); Cba_ObjSetFinFon( p, iObjNew, 1, iFon1 ); Cba_ObjSetFinFon( p, iObjNew, 2, iFon0 ); } else { assert( Gia_ObjIsAnd(pObj) ); iObjNew = Cba_ObjAlloc( p, Gia_ObjIsXor(pObj) ? CBA_BOX_XOR : CBA_BOX_AND, 2, 1 ); Cba_ObjSetFinFon( p, iObjNew, 0, iFon0 ); Cba_ObjSetFinFon( p, iObjNew, 1, iFon1 ); } Vec_IntWriteEntry( vLit2Fon, Abc_Var2Lit(iObj, 0), Cba_ObjFon0(p, iObjNew) ); return iObjNew; } Cba_Man_t * Cba_ManDeriveFromGia( Cba_Man_t * pOld, Gia_Man_t * pGia, int fUseXor ) { Cba_Man_t * p = Cba_ManAlloc( pGia->pSpec, 1, pOld ? Abc_NamRef(pOld->pStrs) : NULL, pOld ? Abc_NamRef(pOld->pFuns) : NULL, NULL, NULL ); Cba_Ntk_t * pNtk = Cba_NtkAlloc( p, Abc_NamStrFindOrAdd(p->pStrs, pGia->pName, NULL), Gia_ManCiNum(pGia), Gia_ManCoNum(pGia), 1000, 2000, 2000 ); Vec_Int_t * vLit2Fon = Vec_IntStartFull( 2*Gia_ManObjNum(pGia) ); int i, iObj, iObjNew, NameId, iLit0, iFon0; Gia_Obj_t * pObj; //Cba_ManPrepareTypeNames( p ); Cba_NtkAdd( p, pNtk ); Cba_NtkCleanObjNames( pNtk ); Gia_ManForEachCiId( pGia, iObj, i ) { NameId = pGia->vNamesIn? Abc_NamStrFindOrAdd(p->pStrs, (char*)Vec_PtrEntry(pGia->vNamesIn, i), NULL) : Cba_NtkNewStrId(pNtk, "i%d", i); iObjNew = Cba_ObjAlloc( pNtk, CBA_OBJ_PI, 0, 1 ); Cba_ObjSetName( pNtk, iObjNew, NameId ); Vec_IntWriteEntry( vLit2Fon, Abc_Var2Lit(iObj, 0), Cba_ObjFon0(pNtk, iObjNew) ); } Gia_ManForEachAndId( pGia, iObj ) Cba_NtkInsertGiaObj( pNtk, pGia, iObj, vLit2Fon, fUseXor ); // create inverters if needed Gia_ManForEachCoId( pGia, iObj, i ) { pObj = Gia_ManObj( pGia, iObj ); iLit0 = Gia_ObjFaninLit0( pObj, iObj ); iFon0 = Cba_NtkInsertGiaLit( pNtk, iLit0, vLit2Fon, fUseXor ); // can be const! } Gia_ManForEachCoId( pGia, iObj, i ) { pObj = Gia_ManObj( pGia, iObj ); iLit0 = Gia_ObjFaninLit0( pObj, iObj ); iFon0 = Cba_NtkInsertGiaLit( pNtk, iLit0, vLit2Fon, fUseXor ); // can be const! iObjNew = Cba_ObjAlloc( pNtk, CBA_BOX_BUF, 1, 1 ); Cba_ObjSetFinFon( pNtk, iObjNew, 0, iFon0 ); iFon0 = Cba_ObjFon0(pNtk, iObjNew); // non-const fon unique for this output NameId = pGia->vNamesOut? Abc_NamStrFindOrAdd(p->pStrs, (char*)Vec_PtrEntry(pGia->vNamesOut, i), NULL) : Cba_NtkNewStrId(pNtk, "o%d", i); iObjNew = Cba_ObjAlloc( pNtk, CBA_OBJ_PO, 1, 0 ); Cba_ObjSetName( pNtk, iObjNew, NameId ); Cba_ObjSetFinFon( pNtk, iObjNew, 0, iFon0 ); } Cba_NtkCleanFonNames( pNtk ); Cba_NtkCreateFonNames( pNtk, "a" ); Vec_IntFree( vLit2Fon ); return p; } /**Function************************************************************* Synopsis [Inserts the network into the root module instead of objects.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Cba_NtkInsertGroup( Cba_Ntk_t * p, Vec_Int_t * vObjs, Cba_Ntk_t * pSyn ) { Vec_Int_t * vFonIns = Cba_NtkCollectInFons( p, vObjs ); Vec_Int_t * vFonOuts = Cba_NtkCollectOutFons( p, vObjs ); int k, iObj, iObjNew, iFin, iFon; assert( Cba_NtkPiNum(pSyn) == Vec_IntSize(vFonIns) ); assert( Cba_NtkPoNum(pSyn) == Vec_IntSize(vFonOuts) ); // mark AIG with the input fons Cba_NtkCleanFonCopies( pSyn ); Cba_NtkForEachPiFon( pSyn, iObj, iFon, k ) Cba_FonSetCopy( pSyn, iFon, Vec_IntEntry(vFonIns, k) ); Vec_IntFree( vFonIns ); // build up internal nodes Cba_NtkCleanObjCopies( pSyn ); Cba_NtkForEachBox( pSyn, iObj ) { iObjNew = Cba_ObjDup( p, pSyn, iObj ); Cba_ObjForEachFon( pSyn, iObj, iFon, k ) Cba_FonSetCopy( pSyn, iFon, Cba_ObjFon(p, iObjNew, k) ); } // connect internal nodes Cba_NtkForEachBox( pSyn, iObj ) { iObjNew = Cba_ObjCopy( pSyn, iObj ); Cba_ObjForEachFinFon( pSyn, iObj, iFin, iFon, k ) Cba_ObjSetFinFon( p, iObjNew, k, Cba_FonCopy(pSyn, iFon) ); } // connect output fons Cba_NtkCleanFonCopies( p ); if ( Cba_NtkHasFonNames(p) ) Vec_IntFillExtra( &p->vFonName, Cba_NtkFonNum(p) + 1, 0 ); Cba_NtkForEachPoDriverFon( pSyn, iObj, iFon, k ) { assert( Cba_FonIsReal(Cba_FonCopy(pSyn, iFon)) ); Cba_FonSetCopy( p, Vec_IntEntry(vFonOuts, k), Cba_FonCopy(pSyn, iFon) ); // transfer names if ( Cba_NtkHasFonNames(p) ) { Cba_FonSetName( p, Cba_FonCopy(pSyn, iFon), Cba_FonName(p, Vec_IntEntry(vFonOuts, k)) ); Cba_FonCleanName( p, Vec_IntEntry(vFonOuts, k) ); } } Vec_IntFree( vFonOuts ); // delete nodes // Vec_IntForEachEntry( vObjs, iObj, k ) // Cba_ObjDelete( p, iObj ); // update fins pointing to output fons to point to the new fons Cba_NtkForEachFinFon( p, iFon, iFin ) if ( Cba_FonIsReal(iFon) && Cba_FonCopy(p, iFon) ) Cba_PatchFinFon( p, iFin, Cba_FonCopy(p, iFon) ); Cba_NtkMissingFonNames( p, "j" ); /* // duplicate in DFS order pNew = Cba_NtkDupOrder( p->pDesign, p, Cba_NtkCollectDfs ); Cba_NtkDupAttrs( pNew, p ); // replace "p" with "pNew" Cba_NtkUpdate( Cba_NtkMan(p), pNew ); // removes "p" return pNew; */ } Cba_Man_t * Cba_ManInsertGroup( Cba_Man_t * p, Vec_Int_t * vObjs, Cba_Ntk_t * pSyn ) { Cba_NtkInsertGroup( Cba_ManRoot(p), vObjs, pSyn ); Cba_NtkCheckComboLoop( Cba_ManRoot(p) ); return Cba_ManDup( p, Cba_NtkCollectDfs ); } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END