/**CFile**************************************************************** FileName [cbaReadBlif.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Hierarchical word-level netlist.] Synopsis [BLIF parser.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - November 29, 2014.] Revision [$Id: cbaReadBlif.c,v 1.00 2014/11/29 00:00:00 alanmi Exp $] ***********************************************************************/ #include "cba.h" #include "cbaPrs.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// // BLIF keywords typedef enum { PRS_BLIF_NONE = 0, // 0: unused PRS_BLIF_MODEL, // 1: .model PRS_BLIF_INOUTS, // 2: .inouts PRS_BLIF_INPUTS, // 3: .inputs PRS_BLIF_OUTPUTS, // 4: .outputs PRS_BLIF_NAMES, // 5: .names PRS_BLIF_SUBCKT, // 6: .subckt PRS_BLIF_GATE, // 7: .gate PRS_BLIF_LATCH, // 8: .latch PRS_BLIF_SHORT, // 9: .short PRS_BLIF_END, // 10: .end PRS_BLIF_UNKNOWN // 11: unknown } Cba_BlifType_t; static const char * s_BlifTypes[PRS_BLIF_UNKNOWN+1] = { NULL, // 0: unused ".model", // 1: .model ".inouts", // 2: .inputs ".inputs", // 3: .inputs ".outputs", // 4: .outputs ".names", // 5: .names ".subckt", // 6: .subckt ".gate", // 7: .gate ".latch", // 8: .latch ".short", // 9: .short ".end", // 10: .end NULL // 11: unknown }; static inline void Prs_NtkAddBlifDirectives( Prs_Man_t * p ) { int i; for ( i = 1; s_BlifTypes[i]; i++ ) Abc_NamStrFindOrAdd( p->pStrs, (char *)s_BlifTypes[i], NULL ); assert( Abc_NamObjNumMax(p->pStrs) == i ); } //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Reading characters.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Prs_CharIsSpace( char c ) { return c == ' ' || c == '\t' || c == '\r'; } static inline int Prs_CharIsStop( char c ) { return c == '#' || c == '\\' || c == '\n' || c == '='; } static inline int Prs_CharIsLit( char c ) { return c == '0' || c == '1' || c == '-'; } static inline int Prs_ManIsSpace( Prs_Man_t * p ) { return Prs_CharIsSpace(*p->pCur); } static inline int Prs_ManIsStop( Prs_Man_t * p ) { return Prs_CharIsStop(*p->pCur); } static inline int Prs_ManIsLit( Prs_Man_t * p ) { return Prs_CharIsLit(*p->pCur); } static inline int Prs_ManIsChar( Prs_Man_t * p, char c ) { return *p->pCur == c; } static inline int Prs_ManIsChar2( Prs_Man_t * p, char c ) { return *p->pCur++ == c; } static inline void Prs_ManSkip( Prs_Man_t * p ) { p->pCur++; } static inline char Prs_ManSkip2( Prs_Man_t * p ) { return *p->pCur++; } /**Function************************************************************* Synopsis [Reading names.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Prs_ManSkipToChar( Prs_Man_t * p, char c ) { while ( !Prs_ManIsChar(p, c) ) Prs_ManSkip(p); } static inline void Prs_ManSkipSpaces( Prs_Man_t * p ) { while ( 1 ) { while ( Prs_ManIsSpace(p) ) Prs_ManSkip(p); if ( Prs_ManIsChar(p, '\\') ) { Prs_ManSkipToChar( p, '\n' ); Prs_ManSkip(p); continue; } if ( Prs_ManIsChar(p, '#') ) Prs_ManSkipToChar( p, '\n' ); break; } assert( !Prs_ManIsSpace(p) ); } static inline int Prs_ManReadName( Prs_Man_t * p ) { char * pStart; Prs_ManSkipSpaces( p ); if ( Prs_ManIsChar(p, '\n') ) return 0; pStart = p->pCur; while ( !Prs_ManIsSpace(p) && !Prs_ManIsStop(p) ) Prs_ManSkip(p); if ( pStart == p->pCur ) return 0; return Abc_NamStrFindOrAddLim( p->pStrs, pStart, p->pCur, NULL ); } static inline int Prs_ManReadList( Prs_Man_t * p, Vec_Int_t * vOrder, int Type ) { int iToken; Vec_IntClear( &p->vTemp ); while ( (iToken = Prs_ManReadName(p)) ) { Vec_IntPush( &p->vTemp, iToken ); Vec_IntPush( vOrder, Abc_Var2Lit2(iToken, Type) ); } if ( Vec_IntSize(&p->vTemp) == 0 ) return Prs_ManErrorSet(p, "Signal list is empty.", 1); return 0; } static inline int Prs_ManReadList2( Prs_Man_t * p ) { int iToken; Vec_IntClear( &p->vTemp ); while ( (iToken = Prs_ManReadName(p)) ) Vec_IntPushTwo( &p->vTemp, 0, iToken ); if ( Vec_IntSize(&p->vTemp) == 0 ) return Prs_ManErrorSet(p, "Signal list is empty.", 1); return 0; } static inline int Prs_ManReadList3( Prs_Man_t * p ) { Vec_IntClear( &p->vTemp ); while ( !Prs_ManIsChar(p, '\n') ) { int iToken = Prs_ManReadName(p); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read formal name.", 1); Vec_IntPush( &p->vTemp, iToken ); Prs_ManSkipSpaces( p ); if ( !Prs_ManIsChar2(p, '=') ) return Prs_ManErrorSet(p, "Cannot find symbol \"=\".", 1); iToken = Prs_ManReadName(p); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read actual name.", 1); Vec_IntPush( &p->vTemp, iToken ); Prs_ManSkipSpaces( p ); } if ( Vec_IntSize(&p->vTemp) == 0 ) return Prs_ManErrorSet(p, "Cannot read a list of formal/actual names.", 1); if ( Vec_IntSize(&p->vTemp) % 2 ) return Prs_ManErrorSet(p, "The number of formal/actual names is not even.", 1); return 0; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Prs_ManReadCube( Prs_Man_t * p ) { assert( Prs_ManIsLit(p) ); while ( Prs_ManIsLit(p) ) Vec_StrPush( &p->vCover, Prs_ManSkip2(p) ); Prs_ManSkipSpaces( p ); if ( Prs_ManIsChar(p, '\n') ) { if ( Vec_StrSize(&p->vCover) != 1 ) return Prs_ManErrorSet(p, "Cannot read cube.", 1); // fix single literal cube by adding space Vec_StrPush( &p->vCover, Vec_StrEntry(&p->vCover,0) ); Vec_StrWriteEntry( &p->vCover, 0, ' ' ); Vec_StrPush( &p->vCover, '\n' ); return 0; } if ( !Prs_ManIsLit(p) ) return Prs_ManErrorSet(p, "Cannot read output literal.", 1); Vec_StrPush( &p->vCover, ' ' ); Vec_StrPush( &p->vCover, Prs_ManSkip2(p) ); Vec_StrPush( &p->vCover, '\n' ); Prs_ManSkipSpaces( p ); if ( !Prs_ManIsChar(p, '\n') ) return Prs_ManErrorSet(p, "Cannot read end of cube.", 1); return 0; } static inline void Prs_ManSaveCover( Prs_Man_t * p ) { int iToken; if ( Vec_StrSize(&p->vCover) == 0 ) p->pNtk->fHasC0s = 1; else if ( Vec_StrSize(&p->vCover) == 2 ) { if ( Vec_StrEntryLast(&p->vCover) == '0' ) p->pNtk->fHasC0s = 1; else if ( Vec_StrEntryLast(&p->vCover) == '1' ) p->pNtk->fHasC1s = 1; else assert( 0 ); } assert( Vec_StrSize(&p->vCover) > 0 ); Vec_StrPush( &p->vCover, '\0' ); // iToken = Ptr_SopToType( Vec_StrArray(&p->vCover) ); iToken = Abc_NamStrFindOrAdd( p->pFuns, Vec_StrArray(&p->vCover), NULL ); Vec_StrClear( &p->vCover ); // set the cover to the module of this box assert( Prs_BoxNtk(p->pNtk, Prs_NtkBoxNum(p->pNtk)-1) == 1 ); // default const 0 Prs_BoxSetNtk( p->pNtk, Prs_NtkBoxNum(p->pNtk)-1, iToken ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Prs_ManReadInouts( Prs_Man_t * p ) { if ( Prs_ManReadList(p, &p->pNtk->vOrder, 3) ) return 1; Vec_IntAppend( &p->pNtk->vInouts, &p->vTemp ); return 0; } static inline int Prs_ManReadInputs( Prs_Man_t * p ) { if ( Prs_ManReadList(p, &p->pNtk->vOrder, 1) ) return 1; Vec_IntAppend( &p->pNtk->vInputs, &p->vTemp ); return 0; } static inline int Prs_ManReadOutputs( Prs_Man_t * p ) { if ( Prs_ManReadList(p, &p->pNtk->vOrder, 2) ) return 1; Vec_IntAppend( &p->pNtk->vOutputs, &p->vTemp ); return 0; } static inline int Prs_ManReadNode( Prs_Man_t * p ) { if ( Prs_ManReadList2(p) ) return 1; // save results Prs_NtkAddBox( p->pNtk, 1, 0, &p->vTemp ); // default const 0 function return 0; } static inline int Prs_ManReadBox( Prs_Man_t * p, int fGate ) { int iToken = Prs_ManReadName(p); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read model name.", 1); if ( Prs_ManReadList3(p) ) return 1; // save results Prs_NtkAddBox( p->pNtk, iToken, 0, &p->vTemp ); if ( fGate ) p->pNtk->fMapped = 1; return 0; } static inline int Prs_ManReadLatch( Prs_Man_t * p ) { int iToken = Prs_ManReadName(p); Vec_IntClear( &p->vTemp ); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read latch input.", 1); Vec_IntWriteEntry( &p->vTemp, 1, iToken ); iToken = Prs_ManReadName(p); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read latch output.", 1); Vec_IntWriteEntry( &p->vTemp, 0, iToken ); Prs_ManSkipSpaces( p ); if ( Prs_ManIsChar(p, '0') ) iToken = 0; else if ( Prs_ManIsChar(p, '1') ) iToken = 1; else iToken = 2; Prs_ManSkipToChar( p, '\n' ); // save results Prs_NtkAddBox( p->pNtk, -1, iToken, &p->vTemp ); // -1 stands for latch return 0; } static inline int Prs_ManReadShort( Prs_Man_t * p ) { int iToken = Prs_ManReadName(p); Vec_IntClear( &p->vTemp ); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read .short input.", 1); Vec_IntWriteEntry( &p->vTemp, 1, iToken ); iToken = Prs_ManReadName(p); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read .short output.", 1); Vec_IntWriteEntry( &p->vTemp, 0, iToken ); Prs_ManSkipSpaces( p ); if ( !Prs_ManIsChar(p, '\n') ) return Prs_ManErrorSet(p, "Trailing symbols on .short line.", 1); // save results iToken = Abc_NamStrFindOrAdd( p->pStrs, "1 1\n", NULL ); Prs_NtkAddBox( p->pNtk, iToken, 0, &p->vTemp ); return 0; } static inline int Prs_ManReadModel( Prs_Man_t * p ) { int iToken; if ( p->pNtk != NULL ) return Prs_ManErrorSet(p, "Parsing previous model is unfinished.", 1); iToken = Prs_ManReadName(p); if ( iToken == 0 ) return Prs_ManErrorSet(p, "Cannot read model name.", 1); Prs_ManInitializeNtk( p, iToken, 0 ); Prs_ManSkipSpaces( p ); if ( !Prs_ManIsChar(p, '\n') ) return Prs_ManErrorSet(p, "Trailing symbols on .model line.", 1); return 0; } static inline int Prs_ManReadEnd( Prs_Man_t * p ) { if ( p->pNtk == 0 ) return Prs_ManErrorSet(p, "Directive .end without .model.", 1); //printf( "Saving model \"%s\".\n", Abc_NamStr(p->pStrs, p->iModuleName) ); Prs_ManFinalizeNtk( p ); Prs_ManSkipSpaces( p ); if ( !Prs_ManIsChar(p, '\n') ) return Prs_ManErrorSet(p, "Trailing symbols on .end line.", 1); return 0; } static inline int Prs_ManReadDirective( Prs_Man_t * p ) { int iToken; if ( !Prs_ManIsChar(p, '.') ) return Prs_ManReadCube( p ); if ( Vec_StrSize(&p->vCover) > 0 ) // SOP was specified for the previous node Prs_ManSaveCover( p ); iToken = Prs_ManReadName( p ); if ( iToken == PRS_BLIF_MODEL ) return Prs_ManReadModel( p ); if ( iToken == PRS_BLIF_INOUTS ) return Prs_ManReadInouts( p ); if ( iToken == PRS_BLIF_INPUTS ) return Prs_ManReadInputs( p ); if ( iToken == PRS_BLIF_OUTPUTS ) return Prs_ManReadOutputs( p ); if ( iToken == PRS_BLIF_NAMES ) return Prs_ManReadNode( p ); if ( iToken == PRS_BLIF_SUBCKT ) return Prs_ManReadBox( p, 0 ); if ( iToken == PRS_BLIF_GATE ) return Prs_ManReadBox( p, 1 ); if ( iToken == PRS_BLIF_LATCH ) return Prs_ManReadLatch( p ); if ( iToken == PRS_BLIF_SHORT ) return Prs_ManReadShort( p ); if ( iToken == PRS_BLIF_END ) return Prs_ManReadEnd( p ); printf( "Cannot read directive \"%s\".\n", Abc_NamStr(p->pStrs, iToken) ); return 1; } static inline int Prs_ManReadLines( Prs_Man_t * p ) { while ( p->pCur[1] != '\0' ) { assert( Prs_ManIsChar(p, '\n') ); Prs_ManSkip(p); Prs_ManSkipSpaces( p ); if ( Prs_ManIsChar(p, '\n') ) continue; if ( Prs_ManReadDirective(p) ) return 1; } return 0; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Vec_Ptr_t * Prs_ManReadBlif( char * pFileName ) { Vec_Ptr_t * vPrs = NULL; Prs_Man_t * p = Prs_ManAlloc( pFileName ); if ( p == NULL ) return NULL; Abc_NamStrFindOrAdd( p->pFuns, " 0\n", NULL ); Abc_NamStrFindOrAdd( p->pFuns, " 1\n", NULL ); Prs_NtkAddBlifDirectives( p ); Prs_ManReadLines( p ); if ( Prs_ManErrorPrint(p) ) ABC_SWAP( Vec_Ptr_t *, vPrs, p->vNtks ); Prs_ManFree( p ); return vPrs; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Prs_ManReadBlifTest( char * pFileName ) { abctime clk = Abc_Clock(); Vec_Ptr_t * vPrs = Prs_ManReadBlif( pFileName ); if ( !vPrs ) return; printf( "Finished reading %d networks. ", Vec_PtrSize(vPrs) ); printf( "NameIDs = %d. ", Abc_NamObjNumMax(Prs_ManNameMan(vPrs)) ); printf( "Memory = %.2f MB. ", 1.0*Prs_ManMemory(vPrs)/(1<<20) ); Abc_PrintTime( 1, "Time", Abc_Clock() - clk ); // Abc_NamPrint( p->pStrs ); Prs_ManWriteBlif( Extra_FileNameGenericAppend(pFileName, "_out.blif"), vPrs ); Prs_ManVecFree( vPrs ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Prs_CreateBlifFindFon( Cba_Ntk_t * p, int NameId ) { int iFon = Cba_NtkGetMap( p, NameId ); if ( iFon ) return iFon; printf( "Network \"%s\": Signal \"%s\" is not driven.\n", Cba_NtkName(p), Cba_NtkStr(p, NameId) ); return 0; } void Prs_CreateBlifPio( Cba_Ntk_t * p, Prs_Ntk_t * pNtk ) { int i, NameId, iObj, iFon; Cba_NtkCleanObjFuncs( p ); Cba_NtkCleanObjNames( p ); Cba_NtkCleanFonNames( p ); // create inputs Prs_NtkForEachPi( pNtk, NameId, i ) { iObj = Cba_ObjAlloc( p, CBA_OBJ_PI, 0, 1 ); Cba_ObjSetName( p, iObj, NameId ); iFon = Cba_ObjFon0(p, iObj); Cba_FonSetName( p, iFon, NameId ); Cba_NtkSetMap( p, NameId, iFon ); Vec_IntPush( &p->vOrder, iObj ); } // create outputs Prs_NtkForEachPo( pNtk, NameId, i ) { iObj = Cba_ObjAlloc( p, CBA_OBJ_PO, 1, 0 ); Cba_ObjSetName( p, iObj, NameId ); Vec_IntPush( &p->vOrder, iObj ); } } int Prs_CreateBlifNtk( Cba_Ntk_t * p, Prs_Ntk_t * pNtk ) { Vec_Int_t * vBox; int i, k, iObj, iTerm, iFon, FormId, ActId; // map inputs Cba_NtkCleanMap( p ); Cba_NtkForEachPi( p, iObj, i ) Cba_NtkSetMap( p, Cba_ObjName(p, iObj), Cba_ObjFon0(p, iObj) ); // create objects Prs_NtkForEachBox( pNtk, vBox, i ) { int FuncId = Prs_BoxNtk(pNtk, i); assert( Prs_BoxIONum(pNtk, i) > 0 ); assert( Vec_IntSize(vBox) % 2 == 0 ); if ( FuncId == -1 ) // latch { iObj = Cba_ObjAlloc( p, CBA_BOX_DFFRS, 4, 1 ); Cba_NtkSetMap( p, Vec_IntEntry(vBox, 3), Cba_ObjFon0(p, iObj) ); // latch output Cba_ObjSetFunc( p, iObj, Prs_BoxName(pNtk, i)+1 ); // init + 1 } else if ( Prs_BoxIsNode(pNtk, i) ) // node { iObj = Cba_ObjAlloc( p, CBA_BOX_NODE, Prs_BoxIONum(pNtk, i)-1, 1 ); Cba_FonSetName( p, Cba_ObjFon0(p, iObj), Vec_IntEntryLast(vBox) ); // node output Cba_NtkSetMap( p, Vec_IntEntryLast(vBox), Cba_ObjFon0(p, iObj) ); Cba_ObjSetFunc( p, iObj, FuncId ); } else // box { Cba_Ntk_t * pBox = Cba_ManNtkFind( p->pDesign, Prs_NtkStr(pNtk, FuncId) ); iObj = Cba_ObjAlloc( p, CBA_OBJ_BOX, Cba_NtkPiNum(pBox), Cba_NtkPoNum(pBox) ); Cba_ObjSetFunc( p, iObj, Cba_NtkId(pBox) ); // mark PO objects Cba_NtkCleanMap2( p ); Cba_NtkForEachPo( pBox, iTerm, k ) Cba_NtkSetMap2( p, Cba_ObjName(pBox, iTerm), k+1 ); // map box fons Vec_IntForEachEntryDouble( vBox, FormId, ActId, k ) if ( Cba_NtkGetMap2(p, FormId) ) { iFon = Cba_ObjFon(p, iObj, Cba_NtkGetMap2(p, FormId)-1); Cba_FonSetName( p, iFon, ActId ); Cba_NtkSetMap( p, ActId, iFon ); } } } // connect objects Prs_NtkForEachBox( pNtk, vBox, i ) { iObj = Cba_NtkPiNum(p) + Cba_NtkPoNum(p) + i + 1; if ( Prs_BoxNtk(pNtk, i) == -1 ) // latch { assert( Cba_ObjType(p, iObj) == CBA_BOX_DFFRS ); iFon = Prs_CreateBlifFindFon( p, Vec_IntEntry(vBox, 1) ); // latch input if ( iFon ) Cba_ObjSetFinFon( p, iObj, 0, iFon ); } else if ( Prs_BoxIsNode(pNtk, i) ) // node { assert( Cba_ObjType(p, iObj) == CBA_BOX_NODE ); Vec_IntForEachEntryDouble( vBox, FormId, ActId, k ) { if ( k == 2 * Cba_ObjFinNum(p, iObj) ) // stop at node output break; iFon = Prs_CreateBlifFindFon( p, ActId ); if ( iFon ) Cba_ObjSetFinFon( p, iObj, k/2, iFon ); } } else // box { // mark PI objects Cba_Ntk_t * pBox = Cba_ObjNtk(p, iObj); assert( Cba_NtkPiNum(pBox) == Cba_ObjFinNum(p, iObj) ); assert( Cba_NtkPoNum(pBox) == Cba_ObjFonNum(p, iObj) ); Cba_NtkCleanMap2( p ); Cba_NtkForEachPi( pBox, iTerm, k ) Cba_NtkSetMap2( p, Cba_ObjName(pBox, iTerm), k+1 ); // connect box fins Vec_IntForEachEntryDouble( vBox, FormId, ActId, k ) if ( Cba_NtkGetMap2(p, FormId) ) { iFon = Prs_CreateBlifFindFon( p, ActId ); if ( iFon ) Cba_ObjSetFinFon( p, iObj, Cba_NtkGetMap2(p, FormId)-1, iFon ); } } } // connect outputs Cba_NtkForEachPo( p, iObj, i ) { iFon = Prs_CreateBlifFindFon( p, Cba_ObjName(p, iObj) ); if ( iFon ) Cba_ObjSetFinFon( p, iObj, 0, iFon ); } return 0; } Cba_Man_t * Prs_ManBuildCbaBlif( char * pFileName, Vec_Ptr_t * vDes ) { Prs_Ntk_t * pPrsNtk; int i, fError = 0; Prs_Ntk_t * pPrsRoot = Prs_ManRoot(vDes); // start the manager Abc_Nam_t * pStrs = Abc_NamRef(pPrsRoot->pStrs); Abc_Nam_t * pFuns = Abc_NamRef(pPrsRoot->pFuns); Abc_Nam_t * pMods = Abc_NamStart( 100, 24 ); Cba_Man_t * p = Cba_ManAlloc( pFileName, Vec_PtrSize(vDes), pStrs, pFuns, pMods, NULL ); // initialize networks Vec_PtrForEachEntry( Prs_Ntk_t *, vDes, pPrsNtk, i ) { Cba_Ntk_t * pNtk = Cba_NtkAlloc( p, Prs_NtkId(pPrsNtk), Prs_NtkPiNum(pPrsNtk), Prs_NtkPoNum(pPrsNtk), Prs_NtkObjNum(pPrsNtk), 100, 100 ); Prs_CreateBlifPio( pNtk, pPrsNtk ); Cba_NtkAdd( p, pNtk ); } // create networks Vec_PtrForEachEntry( Prs_Ntk_t *, vDes, pPrsNtk, i ) { printf( "Elaboration module \"%s\"...\n", Prs_NtkName(pPrsNtk) ); fError = Prs_CreateBlifNtk( Cba_ManNtk(p, i+1), pPrsNtk ); if ( fError ) break; } if ( fError ) printf( "Quitting because of errors.\n" ); else Cba_ManPrepareSeq( p ); return p; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Cba_Man_t * Cba_ManReadBlif( char * pFileName ) { Cba_Man_t * p = NULL; Vec_Ptr_t * vDes = Prs_ManReadBlif( pFileName ); if ( vDes && Vec_PtrSize(vDes) ) p = Prs_ManBuildCbaBlif( pFileName, vDes ); if ( vDes ) Prs_ManVecFree( vDes ); return p; } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END