/**CFile**************************************************************** FileName [ntlReadBlif.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Command processing package.] Synopsis [Procedures to read BLIF file.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - January 8, 2007.] Revision [$Id: ntlReadBlif.c,v 1.1 2008/10/10 14:09:30 mjarvin Exp $] ***********************************************************************/ // The code in this file is developed in collaboration with Mark Jarvin of Toronto. #include "ntl.h" #include "bzlib.h" #include "zlib.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// typedef struct Ntl_ReadMod_t_ Ntl_ReadMod_t; // parsing model typedef struct Ntl_ReadMan_t_ Ntl_ReadMan_t; // parsing manager struct Ntl_ReadMod_t_ { // file lines char * pFirst; // .model line char * pAttrib; // .attrib line Vec_Ptr_t * vInputs; // .inputs lines Vec_Ptr_t * vOutputs; // .outputs lines Vec_Ptr_t * vLatches; // .latch lines Vec_Ptr_t * vNames; // .names lines Vec_Ptr_t * vSubckts; // .subckt lines Vec_Ptr_t * vDelays; // .delay lines Vec_Ptr_t * vTimeInputs; // .input_arrival/required lines Vec_Ptr_t * vTimeOutputs; // .output_required/arrival lines int fBlackBox; // indicates blackbox model int fNoMerge; // indicates no-merge model char fInArr; char fInReq; char fOutArr; char fOutReq; // the resulting network Ntl_Mod_t * pNtk; // the parent manager Ntl_ReadMan_t * pMan; }; struct Ntl_ReadMan_t_ { // general info about file char * pFileName; // the name of the file char * pBuffer; // the contents of the file Vec_Ptr_t * vLines; // the line beginnings // the results of reading Ntl_Man_t * pDesign; // the design under construction // intermediate storage for models Vec_Ptr_t * vModels; // vector of models Ntl_ReadMod_t * pLatest; // the current model // current processing info Vec_Ptr_t * vTokens; // the current tokens Vec_Ptr_t * vTokens2; // the current tokens Vec_Str_t * vFunc; // the local function // error reporting char sError[512]; // the error string generated during parsing // statistics int nTablesRead; // the number of processed tables int nTablesLeft; // the number of dangling tables }; // static functions static Ntl_ReadMan_t * Ntl_ReadAlloc(); static void Ntl_ReadFree( Ntl_ReadMan_t * p ); static Ntl_ReadMod_t * Ntl_ReadModAlloc(); static void Ntl_ReadModFree( Ntl_ReadMod_t * p ); static char * Ntl_ReadLoadFile( char * pFileName ); static char * Ntl_ReadLoadFileBz2( char * pFileName ); static char * Ntl_ReadLoadFileGz( char * pFileName ); static void Ntl_ReadReadPreparse( Ntl_ReadMan_t * p ); static int Ntl_ReadReadInterfaces( Ntl_ReadMan_t * p ); static Ntl_Man_t * Ntl_ReadParse( Ntl_ReadMan_t * p ); static int Ntl_ReadParseLineModel( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadParseLineAttrib( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadParseLineInputs( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadParseLineOutputs( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadParseLineLatch( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadParseLineSubckt( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadParseLineDelay( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadParseLineTimes( Ntl_ReadMod_t * p, char * pLine, int fOutput ); static int Ntl_ReadParseLineNamesBlif( Ntl_ReadMod_t * p, char * pLine ); static int Ntl_ReadCharIsSpace( char s ) { return s == ' ' || s == '\t' || s == '\r' || s == '\n'; } static int Ntl_ReadCharIsSopSymb( char s ) { return s == '0' || s == '1' || s == '-' || s == '\r' || s == '\n'; } //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Reads the network from the BLIF file.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Ntl_Man_t * Ntl_ManReadBlif( char * pFileName, int fCheck ) { FILE * pFile; Ntl_ReadMan_t * p; Ntl_Man_t * pDesign; if ( !Ntl_FileIsType(pFileName, ".blif", ".blif.gz", ".blif.bz2") ) { printf( "Wrong file format\n" ); return NULL; } // check that the file is available pFile = fopen( pFileName, "rb" ); if ( pFile == NULL ) { printf( "Ntl_ManReadBlif(): The file is unavailable (absent or open).\n" ); return 0; } fclose( pFile ); // start the file reader p = Ntl_ReadAlloc(); p->pFileName = pFileName; if ( !strncmp(pFileName+strlen(pFileName)-4,".bz2",4) ) p->pBuffer = Ntl_ReadLoadFileBz2( pFileName ); else if ( !strncmp(pFileName+strlen(pFileName)-3,".gz",3) ) p->pBuffer = Ntl_ReadLoadFileGz( pFileName ); else p->pBuffer = Ntl_ReadLoadFile( pFileName ); if ( p->pBuffer == NULL ) { Ntl_ReadFree( p ); return NULL; } // set the design name p->pDesign = Ntl_ManAlloc(); p->pDesign->pName = Ntl_ManStoreFileName( p->pDesign, pFileName ); p->pDesign->pSpec = Ntl_ManStoreName( p->pDesign, pFileName ); // prepare the file for parsing Ntl_ReadReadPreparse( p ); // parse interfaces of each network if ( !Ntl_ReadReadInterfaces( p ) ) { if ( p->sError[0] ) fprintf( stdout, "%s\n", p->sError ); Ntl_ReadFree( p ); return NULL; } // construct the network pDesign = Ntl_ReadParse( p ); if ( p->sError[0] ) fprintf( stdout, "%s\n", p->sError ); if ( pDesign == NULL ) { Ntl_ReadFree( p ); return NULL; } p->pDesign = NULL; Ntl_ReadFree( p ); // pDesign should be linked to all models of the design // make sure that everything is okay with the network structure if ( fCheck ) { if ( !Ntl_ManCheck( pDesign ) ) { printf( "Ntl_ReadBlif: The check has failed for design %s.\n", pDesign->pName ); Ntl_ManFree( pDesign ); return NULL; } } // transform the design by removing the CO drivers // if ( (nNodes = Ntl_ManReconnectCoDrivers(pDesign)) ) // printf( "The design was transformed by removing %d buf/inv CO drivers.\n", nNodes ); //Ntl_ManWriteBlif( pDesign, "_temp_.blif" ); /* { Aig_Man_t * p = Ntl_ManCollapseSeq( pDesign ); Aig_ManStop( p ); } */ return pDesign; } /**Function************************************************************* Synopsis [Allocates the BLIF parsing structure.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static Ntl_ReadMan_t * Ntl_ReadAlloc() { Ntl_ReadMan_t * p; p = ABC_ALLOC( Ntl_ReadMan_t, 1 ); memset( p, 0, sizeof(Ntl_ReadMan_t) ); p->vLines = Vec_PtrAlloc( 512 ); p->vModels = Vec_PtrAlloc( 512 ); p->vTokens = Vec_PtrAlloc( 512 ); p->vTokens2 = Vec_PtrAlloc( 512 ); p->vFunc = Vec_StrAlloc( 512 ); return p; } /**Function************************************************************* Synopsis [Frees the BLIF parsing structure.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Ntl_ReadFree( Ntl_ReadMan_t * p ) { Ntl_ReadMod_t * pMod; int i; if ( p->pDesign ) Ntl_ManFree( p->pDesign ); if ( p->pBuffer ) ABC_FREE( p->pBuffer ); if ( p->vLines ) Vec_PtrFree( p->vLines ); if ( p->vModels ) { Vec_PtrForEachEntry( Ntl_ReadMod_t *, p->vModels, pMod, i ) Ntl_ReadModFree( pMod ); Vec_PtrFree( p->vModels ); } Vec_PtrFree( p->vTokens ); Vec_PtrFree( p->vTokens2 ); Vec_StrFree( p->vFunc ); ABC_FREE( p ); } /**Function************************************************************* Synopsis [Allocates the BLIF parsing structure for one model.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static Ntl_ReadMod_t * Ntl_ReadModAlloc() { Ntl_ReadMod_t * p; p = ABC_ALLOC( Ntl_ReadMod_t, 1 ); memset( p, 0, sizeof(Ntl_ReadMod_t) ); p->vInputs = Vec_PtrAlloc( 8 ); p->vOutputs = Vec_PtrAlloc( 8 ); p->vLatches = Vec_PtrAlloc( 8 ); p->vNames = Vec_PtrAlloc( 8 ); p->vSubckts = Vec_PtrAlloc( 8 ); p->vDelays = Vec_PtrAlloc( 8 ); p->vTimeInputs = Vec_PtrAlloc( 8 ); p->vTimeOutputs = Vec_PtrAlloc( 8 ); return p; } /**Function************************************************************* Synopsis [Deallocates the BLIF parsing structure for one model.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Ntl_ReadModFree( Ntl_ReadMod_t * p ) { Vec_PtrFree( p->vInputs ); Vec_PtrFree( p->vOutputs ); Vec_PtrFree( p->vLatches ); Vec_PtrFree( p->vNames ); Vec_PtrFree( p->vSubckts ); Vec_PtrFree( p->vDelays ); Vec_PtrFree( p->vTimeInputs ); Vec_PtrFree( p->vTimeOutputs ); ABC_FREE( p ); } /**Function************************************************************* Synopsis [Counts the number of given chars.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadCountChars( char * pLine, char Char ) { char * pCur; int Counter = 0; for ( pCur = pLine; *pCur; pCur++ ) if ( *pCur == Char ) Counter++; return Counter; } /**Function************************************************************* Synopsis [Collects the already split tokens.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Ntl_ReadCollectTokens( Vec_Ptr_t * vTokens, char * pInput, char * pOutput ) { char * pCur; Vec_PtrClear( vTokens ); for ( pCur = pInput; pCur < pOutput; pCur++ ) { if ( *pCur == 0 ) continue; Vec_PtrPush( vTokens, pCur ); while ( *++pCur ); } } /**Function************************************************************* Synopsis [Splits the line into tokens.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Ntl_ReadSplitIntoTokens( Vec_Ptr_t * vTokens, char * pLine, char Stop ) { char * pCur; // clear spaces for ( pCur = pLine; *pCur != Stop; pCur++ ) if ( Ntl_ReadCharIsSpace(*pCur) ) *pCur = 0; // collect tokens Ntl_ReadCollectTokens( vTokens, pLine, pCur ); } /**Function************************************************************* Synopsis [Splits the line into tokens.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Ntl_ReadSplitIntoTokensAndClear( Vec_Ptr_t * vTokens, char * pLine, char Stop, char Char ) { char * pCur; // clear spaces for ( pCur = pLine; *pCur != Stop; pCur++ ) if ( Ntl_ReadCharIsSpace(*pCur) || *pCur == Char ) *pCur = 0; // collect tokens Ntl_ReadCollectTokens( vTokens, pLine, pCur ); } /**Function************************************************************* Synopsis [Returns the 1-based number of the line in which the token occurs.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadGetLine( Ntl_ReadMan_t * p, char * pToken ) { char * pLine; int i; Vec_PtrForEachEntry( char *, p->vLines, pLine, i ) if ( pToken < pLine ) return i; return -1; } /**Function************************************************************* Synopsis [Reads the file into a character buffer.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static char * Ntl_ReadLoadFile( char * pFileName ) { FILE * pFile; int nFileSize; char * pContents; pFile = fopen( pFileName, "rb" ); if ( pFile == NULL ) { fclose( pFile ); printf( "Ntl_ReadLoadFile(): The file is unavailable (absent or open).\n" ); return NULL; } fseek( pFile, 0, SEEK_END ); nFileSize = ftell( pFile ); if ( nFileSize == 0 ) { fclose( pFile ); printf( "Ntl_ReadLoadFile(): The file is empty.\n" ); return NULL; } pContents = ABC_ALLOC( char, nFileSize + 10 ); rewind( pFile ); fread( pContents, nFileSize, 1, pFile ); fclose( pFile ); // finish off the file with the spare .end line // some benchmarks suddenly break off without this line strcpy( pContents + nFileSize, "\n.end\n" ); return pContents; } /**Function************************************************************* Synopsis [Reads the file into a character buffer.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ typedef struct buflist { char buf[1<<20]; int nBuf; struct buflist * next; } buflist; static char * Ntl_ReadLoadFileBz2( char * pFileName ) { FILE * pFile; int nFileSize = 0; char * pContents; BZFILE * b; int bzError; struct buflist * pNext; buflist * bufHead = NULL, * buf = NULL; pFile = fopen( pFileName, "rb" ); if ( pFile == NULL ) { printf( "Ntl_ReadLoadFileBz2(): The file is unavailable (absent or open).\n" ); return NULL; } b = BZ2_bzReadOpen(&bzError,pFile,0,0,NULL,0); if (bzError != BZ_OK) { printf( "Ntl_ReadLoadFileBz2(): BZ2_bzReadOpen() failed with error %d.\n",bzError ); return NULL; } do { if (!bufHead) buf = bufHead = ABC_ALLOC( buflist, 1 ); else buf = buf->next = ABC_ALLOC( buflist, 1 ); nFileSize += buf->nBuf = BZ2_bzRead(&bzError,b,buf->buf,1<<20); buf->next = NULL; } while (bzError == BZ_OK); if (bzError == BZ_STREAM_END) { // we're okay char * p; int nBytes = 0; BZ2_bzReadClose(&bzError,b); p = pContents = ABC_ALLOC( char, nFileSize + 10 ); buf = bufHead; do { memcpy(p+nBytes,buf->buf,buf->nBuf); nBytes += buf->nBuf; // } while((buf = buf->next)); pNext = buf->next; ABC_FREE( buf ); } while((buf = pNext)); } else if (bzError == BZ_DATA_ERROR_MAGIC) { // not a BZIP2 file BZ2_bzReadClose(&bzError,b); fseek( pFile, 0, SEEK_END ); nFileSize = ftell( pFile ); if ( nFileSize == 0 ) { printf( "Ntl_ReadLoadFileBz2(): The file is empty.\n" ); return NULL; } pContents = ABC_ALLOC( char, nFileSize + 10 ); rewind( pFile ); fread( pContents, nFileSize, 1, pFile ); } else { // Some other error. printf( "Ntl_ReadLoadFileBz2(): Unable to read the compressed BLIF.\n" ); return NULL; } fclose( pFile ); // finish off the file with the spare .end line // some benchmarks suddenly break off without this line strcpy( pContents + nFileSize, "\n.end\n" ); return pContents; } /**Function************************************************************* Synopsis [Reads the file into a character buffer.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static char * Ntl_ReadLoadFileGz( char * pFileName ) { const int READ_BLOCK_SIZE = 100000; FILE * pFile; char * pContents; int amtRead, readBlock, nFileSize = READ_BLOCK_SIZE; pFile = (FILE *)gzopen( pFileName, "rb" ); // if pFileName doesn't end in ".gz" then this acts as a passthrough to fopen pContents = ABC_ALLOC( char, nFileSize ); readBlock = 0; while ((amtRead = gzread(pFile, pContents + readBlock * READ_BLOCK_SIZE, READ_BLOCK_SIZE)) == READ_BLOCK_SIZE) { //printf("%d: read %d bytes\n", readBlock, amtRead); nFileSize += READ_BLOCK_SIZE; pContents = ABC_REALLOC(char, pContents, nFileSize); ++readBlock; } //printf("%d: read %d bytes\n", readBlock, amtRead); assert( amtRead != -1 ); // indicates a zlib error nFileSize -= (READ_BLOCK_SIZE - amtRead); gzclose(pFile); return pContents; } /**Function************************************************************* Synopsis [Prepares the parsing.] Description [Performs several preliminary operations: - Cuts the file buffer into separate lines. - Removes comments and line extenders. - Sorts lines by directives. - Estimates the number of objects. - Allocates room for the objects. - Allocates room for the hash table.] SideEffects [] SeeAlso [] ***********************************************************************/ static void Ntl_ReadReadPreparse( Ntl_ReadMan_t * p ) { char * pCur, * pPrev; int i, fComment = 0; // parse the buffer into lines and remove comments Vec_PtrPush( p->vLines, p->pBuffer ); for ( pCur = p->pBuffer; *pCur; pCur++ ) { if ( *pCur == '\n' ) { *pCur = 0; // if ( *(pCur-1) == '\r' ) // *(pCur-1) = 0; fComment = 0; Vec_PtrPush( p->vLines, pCur + 1 ); } else if ( *pCur == '#' ) fComment = 1; // remove comments if ( fComment ) *pCur = 0; } // unfold the line extensions and sort lines by directive Vec_PtrForEachEntry( char *, p->vLines, pCur, i ) { if ( *pCur == 0 ) continue; // find previous non-space character for ( pPrev = pCur - 2; pPrev >= p->pBuffer; pPrev-- ) if ( !Ntl_ReadCharIsSpace(*pPrev) ) break; // if it is the line extender, overwrite it with spaces if ( pPrev >= p->pBuffer && *pPrev == '\\' ) { for ( ; *pPrev; pPrev++ ) *pPrev = ' '; *pPrev = ' '; continue; } // skip spaces at the beginning of the line while ( Ntl_ReadCharIsSpace(*pCur++) ); // parse directives if ( *(pCur-1) != '.' ) continue; if ( !strncmp(pCur, "names", 5) ) Vec_PtrPush( p->pLatest->vNames, pCur ); else if ( !strncmp(pCur, "latch", 5) ) Vec_PtrPush( p->pLatest->vLatches, pCur ); else if ( !strncmp(pCur, "inputs", 6) ) Vec_PtrPush( p->pLatest->vInputs, pCur ); else if ( !strncmp(pCur, "outputs", 7) ) Vec_PtrPush( p->pLatest->vOutputs, pCur ); else if ( !strncmp(pCur, "subckt", 6) ) Vec_PtrPush( p->pLatest->vSubckts, pCur ); else if ( !strncmp(pCur, "delay", 5) ) Vec_PtrPush( p->pLatest->vDelays, pCur ); else if ( !strncmp(pCur, "input_arrival", 13) || !strncmp(pCur, "input_required", 14) ) { if ( !strncmp(pCur, "input_arrival", 13) ) p->pLatest->fInArr = 1; if ( !strncmp(pCur, "input_required", 14) ) p->pLatest->fInReq = 1; Vec_PtrPush( p->pLatest->vTimeInputs, pCur ); } else if ( !strncmp(pCur, "output_required", 15) || !strncmp(pCur, "output_arrival", 14) ) { if ( !strncmp(pCur, "output_required", 15) ) p->pLatest->fOutReq = 1; if ( !strncmp(pCur, "output_arrival", 14) ) p->pLatest->fOutArr = 1; Vec_PtrPush( p->pLatest->vTimeOutputs, pCur ); } else if ( !strncmp(pCur, "blackbox", 8) ) p->pLatest->fBlackBox = 1; else if ( !strncmp(pCur, "model", 5) ) { p->pLatest = Ntl_ReadModAlloc(); p->pLatest->pFirst = pCur; p->pLatest->pMan = p; } else if ( !strncmp(pCur, "attrib", 6) ) { if ( p->pLatest->pAttrib != NULL ) fprintf( stdout, "Line %d: Skipping second .attrib line for this model.\n", Ntl_ReadGetLine(p, pCur) ); else p->pLatest->pAttrib = pCur; } else if ( !strncmp(pCur, "end", 3) ) { if ( p->pLatest ) Vec_PtrPush( p->vModels, p->pLatest ); p->pLatest = NULL; } else if ( !strncmp(pCur, "exdc", 4) ) { fprintf( stdout, "Line %d: Skipping EXDC network.\n", Ntl_ReadGetLine(p, pCur) ); break; } else if ( !strncmp(pCur, "no_merge", 8) ) { p->pLatest->fNoMerge = 1; } else { pCur--; if ( pCur[strlen(pCur)-1] == '\r' ) pCur[strlen(pCur)-1] = 0; fprintf( stdout, "Line %d: Skipping line \"%s\".\n", Ntl_ReadGetLine(p, pCur), pCur ); } } } /**Function************************************************************* Synopsis [Parses interfaces of the models.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadReadInterfaces( Ntl_ReadMan_t * p ) { Ntl_ReadMod_t * pMod; char * pLine; int i, k; // iterate through the models Vec_PtrForEachEntry( Ntl_ReadMod_t *, p->vModels, pMod, i ) { // parse the model if ( !Ntl_ReadParseLineModel( pMod, pMod->pFirst ) ) return 0; // parse the model attributes if ( pMod->pAttrib && !Ntl_ReadParseLineAttrib( pMod, pMod->pAttrib ) ) return 0; // parse no-merge if ( pMod->fNoMerge ) pMod->pNtk->attrNoMerge = 1; // parse the inputs Vec_PtrForEachEntry( char *, pMod->vInputs, pLine, k ) if ( !Ntl_ReadParseLineInputs( pMod, pLine ) ) return 0; // parse the outputs Vec_PtrForEachEntry( char *, pMod->vOutputs, pLine, k ) if ( !Ntl_ReadParseLineOutputs( pMod, pLine ) ) return 0; // parse the delay info Ntl_ModelSetPioNumbers( pMod->pNtk ); Vec_PtrForEachEntry( char *, pMod->vDelays, pLine, k ) if ( !Ntl_ReadParseLineDelay( pMod, pLine ) ) return 0; Vec_PtrForEachEntry( char *, pMod->vTimeInputs, pLine, k ) if ( !Ntl_ReadParseLineTimes( pMod, pLine, 0 ) ) return 0; Vec_PtrForEachEntry( char *, pMod->vTimeOutputs, pLine, k ) if ( !Ntl_ReadParseLineTimes( pMod, pLine, 1 ) ) return 0; // report timing line stats if ( pMod->fInArr && pMod->fInReq ) printf( "Model %s has both .input_arrival and .input_required.\n", pMod->pNtk->pName ); if ( pMod->fOutArr && pMod->fOutReq ) printf( "Model %s has both .output_arrival and .output_required.\n", pMod->pNtk->pName ); if ( !pMod->vDelays && !pMod->fInArr && !pMod->fInReq ) printf( "Model %s has neither .input_arrival nor .input_required.\n", pMod->pNtk->pName ); if ( !pMod->vDelays && !pMod->fOutArr && !pMod->fOutReq ) printf( "Model %s has neither .output_arrival nor .output_required.\n", pMod->pNtk->pName ); } return 1; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static Ntl_Man_t * Ntl_ReadParse( Ntl_ReadMan_t * p ) { Ntl_Man_t * pDesign; Ntl_ReadMod_t * pMod; char * pLine; int i, k; // iterate through the models Vec_PtrForEachEntry( Ntl_ReadMod_t *, p->vModels, pMod, i ) { // parse the latches Vec_PtrForEachEntry( char *, pMod->vLatches, pLine, k ) if ( !Ntl_ReadParseLineLatch( pMod, pLine ) ) return NULL; // parse the nodes Vec_PtrForEachEntry( char *, pMod->vNames, pLine, k ) if ( !Ntl_ReadParseLineNamesBlif( pMod, pLine ) ) return NULL; // parse the subcircuits Vec_PtrForEachEntry( char *, pMod->vSubckts, pLine, k ) if ( !Ntl_ReadParseLineSubckt( pMod, pLine ) ) return NULL; // finalize the network Ntl_ModelFixNonDrivenNets( pMod->pNtk ); } if ( i == 0 ) return NULL; // update the design name pMod = (Ntl_ReadMod_t *)Vec_PtrEntry( p->vModels, 0 ); if ( Ntl_ModelLatchNum(pMod->pNtk) > 0 ) Ntl_ModelTransformLatches( pMod->pNtk ); p->pDesign->pName = Ntl_ManStoreName( p->pDesign, pMod->pNtk->pName ); // return the network pDesign = p->pDesign; p->pDesign = NULL; return pDesign; } /**Function************************************************************* Synopsis [Parses the model line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineModel( Ntl_ReadMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; char * pToken; Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); pToken = (char *)Vec_PtrEntry( vTokens, 0 ); assert( !strcmp(pToken, "model") ); if ( Vec_PtrSize(vTokens) != 2 ) { sprintf( p->pMan->sError, "Line %d: The number of entries (%d) in .model line is different from two.", Ntl_ReadGetLine(p->pMan, pToken), Vec_PtrSize(vTokens) ); return 0; } p->pNtk = Ntl_ModelAlloc( p->pMan->pDesign, (char *)Vec_PtrEntry(vTokens, 1) ); if ( p->pNtk == NULL ) { sprintf( p->pMan->sError, "Line %d: Model %s already exists.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens, 1) ); return 0; } return 1; } /**Function************************************************************* Synopsis [Parses the model line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineAttrib( Ntl_ReadMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; char * pToken; int i; Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); pToken = (char *)Vec_PtrEntry( vTokens, 0 ); assert( !strncmp(pToken, "attrib", 6) ); Vec_PtrForEachEntryStart( char *, vTokens, pToken, i, 1 ) { pToken = (char *)Vec_PtrEntry( vTokens, i ); if ( strcmp( pToken, "white" ) == 0 ) p->pNtk->attrWhite = 1; else if ( strcmp( pToken, "black" ) == 0 ) p->pNtk->attrWhite = 0; else if ( strcmp( pToken, "box" ) == 0 ) p->pNtk->attrBox = 1; else if ( strcmp( pToken, "logic" ) == 0 ) p->pNtk->attrBox = 0; else if ( strcmp( pToken, "comb" ) == 0 ) p->pNtk->attrComb = 1; else if ( strcmp( pToken, "seq" ) == 0 ) p->pNtk->attrComb = 0; else if ( strcmp( pToken, "keep" ) == 0 ) p->pNtk->attrKeep = 1; else if ( strcmp( pToken, "sweep" ) == 0 ) p->pNtk->attrKeep = 0; else { sprintf( p->pMan->sError, "Line %d: Unknown attribute (%s) in the .attrib line of model %s.", Ntl_ReadGetLine(p->pMan, pToken), pToken, p->pNtk->pName ); return 0; } } return 1; } /**Function************************************************************* Synopsis [Parses the inputs line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineInputs( Ntl_ReadMod_t * p, char * pLine ) { Ntl_Net_t * pNet; Ntl_Obj_t * pObj; Vec_Ptr_t * vTokens = p->pMan->vTokens; char * pToken; int i; Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); pToken = (char *)Vec_PtrEntry(vTokens, 0); assert( !strcmp(pToken, "inputs") ); Vec_PtrForEachEntryStart( char *, vTokens, pToken, i, 1 ) { pObj = Ntl_ModelCreatePi( p->pNtk ); pNet = Ntl_ModelFindOrCreateNet( p->pNtk, pToken ); if ( !Ntl_ModelSetNetDriver( pObj, pNet ) ) { sprintf( p->pMan->sError, "Line %d: Net %s already has a driver.", Ntl_ReadGetLine(p->pMan, pToken), pNet->pName ); return 0; } } return 1; } /**Function************************************************************* Synopsis [Parses the outputs line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineOutputs( Ntl_ReadMod_t * p, char * pLine ) { Ntl_Net_t * pNet; Ntl_Obj_t * pObj; Vec_Ptr_t * vTokens = p->pMan->vTokens; char * pToken; int i; Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); pToken = (char *)Vec_PtrEntry(vTokens, 0); assert( !strcmp(pToken, "outputs") ); Vec_PtrForEachEntryStart( char *, vTokens, pToken, i, 1 ) { pNet = Ntl_ModelFindOrCreateNet( p->pNtk, pToken ); pObj = Ntl_ModelCreatePo( p->pNtk, pNet ); pNet->pCopy = pObj; } return 1; } /**Function************************************************************* Synopsis [Parses the latches line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineLatch( Ntl_ReadMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Ntl_Net_t * pNetLi, * pNetLo; Ntl_Obj_t * pObj; char * pToken, * pNameLi, * pNameLo; Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); pToken = (char *)Vec_PtrEntry(vTokens,0); assert( !strcmp(pToken, "latch") ); if ( Vec_PtrSize(vTokens) < 3 ) { sprintf( p->pMan->sError, "Line %d: Latch does not have input name and output name.", Ntl_ReadGetLine(p->pMan, pToken) ); return 0; } // create latch pNameLi = (char *)Vec_PtrEntry( vTokens, 1 ); pNameLo = (char *)Vec_PtrEntry( vTokens, 2 ); pNetLi = Ntl_ModelFindOrCreateNet( p->pNtk, pNameLi ); pNetLo = Ntl_ModelFindOrCreateNet( p->pNtk, pNameLo ); pObj = Ntl_ModelCreateLatch( p->pNtk ); pObj->pFanio[0] = pNetLi; if ( !Ntl_ModelSetNetDriver( pObj, pNetLo ) ) { sprintf( p->pMan->sError, "Line %d: Net %s already has a driver.", Ntl_ReadGetLine(p->pMan, pToken), pNetLo->pName ); return 0; } // get initial value if ( Vec_PtrSize(vTokens) > 3 ) pObj->LatchId.regInit = atoi( (char *)Vec_PtrEntry(vTokens,Vec_PtrSize(vTokens)-1) ); else pObj->LatchId.regInit = 2; if ( pObj->LatchId.regInit < 0 || pObj->LatchId.regInit > 2 ) { sprintf( p->pMan->sError, "Line %d: Initial state of the latch is incorrect \"%s\".", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens,3) ); return 0; } // get the register class // if ( Vec_PtrSize(vTokens) == 6 ) if ( Vec_PtrSize(vTokens) == 5 || Vec_PtrSize(vTokens) == 6 ) { pToken = (char *)Vec_PtrEntry(vTokens,3); if ( strcmp( pToken, "fe" ) == 0 ) pObj->LatchId.regType = 1; else if ( strcmp( pToken, "re" ) == 0 ) pObj->LatchId.regType = 2; else if ( strcmp( pToken, "ah" ) == 0 ) pObj->LatchId.regType = 3; else if ( strcmp( pToken, "al" ) == 0 ) pObj->LatchId.regType = 4; else if ( strcmp( pToken, "as" ) == 0 ) pObj->LatchId.regType = 5; else if ( pToken[0] >= '0' && pToken[0] <= '9' ) pObj->LatchId.regClass = atoi(pToken); else { sprintf( p->pMan->sError, "Line %d: Type/class of the latch is incorrect \"%s\".", Ntl_ReadGetLine(p->pMan, pToken), pToken ); return 0; } } if ( pObj->LatchId.regClass < 0 || pObj->LatchId.regClass > (1<<24) ) { sprintf( p->pMan->sError, "Line %d: Class of the latch is incorrect \"%s\".", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens,3) ); return 0; } // get the clock // if ( Vec_PtrSize(vTokens) == 5 || Vec_PtrSize(vTokens) == 6 ) if ( Vec_PtrSize(vTokens) == 6 ) { pToken = (char *)Vec_PtrEntry(vTokens,Vec_PtrSize(vTokens)-2); pNetLi = Ntl_ModelFindOrCreateNet( p->pNtk, pToken ); pObj->pClock = pNetLi; } return 1; } /**Function************************************************************* Synopsis [Parses the subckt line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineSubckt( Ntl_ReadMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Ntl_Mod_t * pModel; Ntl_Obj_t * pBox, * pTerm; Ntl_Net_t * pNet; char * pToken, * pName, ** ppNames; int nEquals, i, k; // split the line into tokens nEquals = Ntl_ReadCountChars( pLine, '=' ); Ntl_ReadSplitIntoTokensAndClear( vTokens, pLine, '\0', '=' ); pToken = (char *)Vec_PtrEntry(vTokens,0); assert( !strcmp(pToken, "subckt") ); // get the model for this box pName = (char *)Vec_PtrEntry(vTokens,1); pModel = Ntl_ManFindModel( p->pMan->pDesign, pName ); if ( pModel == NULL ) { sprintf( p->pMan->sError, "Line %d: Cannot find the model for subcircuit %s.", Ntl_ReadGetLine(p->pMan, pToken), pName ); return 0; } /* // temporary fix for splitting the .subckt line if ( nEquals < Ntl_ModelPiNum(pModel) + Ntl_ModelPoNum(pModel) ) { Vec_Ptr_t * vTokens2 = Vec_PtrAlloc( 10 ); // get one additional token pToken = Vec_PtrEntry( vTokens, Vec_PtrSize(vTokens) - 1 ); for ( ; *pToken; pToken++ ); for ( ; *pToken == 0; pToken++ ); Ntl_ReadSplitIntoTokensAndClear( vTokens2, pToken, '\0', '=' ); // assert( Vec_PtrSize( vTokens2 ) == 2 ); Vec_PtrForEachEntry( char *, vTokens2, pToken, i ) Vec_PtrPush( vTokens, pToken ); nEquals += Vec_PtrSize(vTokens2)/2; Vec_PtrFree( vTokens2 ); } */ // check if the number of tokens is correct if ( nEquals != Ntl_ModelPiNum(pModel) + Ntl_ModelPoNum(pModel) ) { sprintf( p->pMan->sError, "Line %d: The number of ports (%d) in .subckt %s differs from the sum of PIs and POs of the model (%d).", Ntl_ReadGetLine(p->pMan, pToken), nEquals, pName, Ntl_ModelPiNum(pModel) + Ntl_ModelPoNum(pModel) ); return 0; } // get the names ppNames = (char **)Vec_PtrArray(vTokens) + 2; // create the box with these terminals pBox = Ntl_ModelCreateBox( p->pNtk, Ntl_ModelPiNum(pModel), Ntl_ModelPoNum(pModel) ); pBox->pImplem = pModel; Ntl_ModelForEachPi( pModel, pTerm, i ) { // find this terminal among the formal inputs of the subcircuit pName = Ntl_ObjFanout0(pTerm)->pName; for ( k = 0; k < nEquals; k++ ) if ( !strcmp( ppNames[2*k], pName ) ) break; if ( k == nEquals ) { sprintf( p->pMan->sError, "Line %d: Cannot find PI \"%s\" of the model \"%s\" as a formal input of the subcircuit.", Ntl_ReadGetLine(p->pMan, pToken), pName, pModel->pName ); return 0; } // create the BI with the actual name pNet = Ntl_ModelFindOrCreateNet( p->pNtk, ppNames[2*k+1] ); Ntl_ObjSetFanin( pBox, pNet, i ); } Ntl_ModelForEachPo( pModel, pTerm, i ) { // find this terminal among the formal outputs of the subcircuit pName = Ntl_ObjFanin0(pTerm)->pName; for ( k = 0; k < nEquals; k++ ) if ( !strcmp( ppNames[2*k], pName ) ) break; if ( k == nEquals ) { sprintf( p->pMan->sError, "Line %d: Cannot find PO \"%s\" of the model \"%s\" as a formal output of the subcircuit.", Ntl_ReadGetLine(p->pMan, pToken), pName, pModel->pName ); return 0; } // create the BI with the actual name pNet = Ntl_ModelFindOrCreateNet( p->pNtk, ppNames[2*k+1] ); Ntl_ObjSetFanout( pBox, pNet, i ); } return 1; } /**Function************************************************************* Synopsis [Parses the subckt line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineDelay( Ntl_ReadMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; int RetValue1, RetValue2, Number1, Number2, Temp; char * pToken, * pTokenNum; float Delay; assert( sizeof(float) == sizeof(int) ); Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); pToken = (char *)Vec_PtrEntry(vTokens,0); assert( !strcmp(pToken, "delay") ); if ( Vec_PtrSize(vTokens) < 2 && Vec_PtrSize(vTokens) > 4 ) { sprintf( p->pMan->sError, "Line %d: Delay line does not have a valid number of parameters (1, 2, or 3).", Ntl_ReadGetLine(p->pMan, pToken) ); return 0; } // find the delay number pTokenNum = (char *)Vec_PtrEntryLast(vTokens); Delay = atof( pTokenNum ); if ( Delay == 0.0 && pTokenNum[0] != '0' ) { sprintf( p->pMan->sError, "Line %d: Delay value (%s) appears to be invalid.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntryLast(vTokens) ); return 0; } // find the PI/PO numbers RetValue1 = 0; Number1 = -1; if ( Vec_PtrSize(vTokens) > 2 ) { RetValue1 = Ntl_ModelFindPioNumber( p->pNtk, 0, 0, (char *)Vec_PtrEntry(vTokens, 1), &Number1 ); if ( RetValue1 == 0 ) { sprintf( p->pMan->sError, "Line %d: Cannot find signal \"%s\" among PIs/POs.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens, 1) ); return 0; } } RetValue2 = 0; Number2 = -1; if ( Vec_PtrSize(vTokens) > 3 ) { RetValue2 = Ntl_ModelFindPioNumber( p->pNtk, 0, 0, (char *)Vec_PtrEntry(vTokens, 2), &Number2 ); if ( RetValue2 == 0 ) { sprintf( p->pMan->sError, "Line %d: Cannot find signal \"%s\" among PIs/POs.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens, 2) ); return 0; } } if ( RetValue1 == RetValue2 && RetValue1 ) { sprintf( p->pMan->sError, "Line %d: Both signals \"%s\" and \"%s\" listed appear to be PIs or POs.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens, 1), (char*)Vec_PtrEntry(vTokens, 2) ); return 0; } if ( RetValue2 < RetValue1 ) { Temp = RetValue2; RetValue2 = RetValue1; RetValue1 = Temp; Temp = Number2; Number2 = Number1; Number1 = Temp; } assert( RetValue1 == 0 || RetValue1 == -1 ); assert( RetValue2 == 0 || RetValue2 == 1 ); // store the values if ( p->pNtk->vDelays == NULL ) p->pNtk->vDelays = Vec_IntAlloc( 100 ); Vec_IntPush( p->pNtk->vDelays, Number1 ); Vec_IntPush( p->pNtk->vDelays, Number2 ); Vec_IntPush( p->pNtk->vDelays, Aig_Float2Int(Delay) ); return 1; } /**Function************************************************************* Synopsis [Parses the subckt line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineTimes( Ntl_ReadMod_t * p, char * pLine, int fOutput ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; int RetValue, Number = -1; char * pToken, * pTokenNum; float Delay; assert( sizeof(float) == sizeof(int) ); Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); pToken = (char *)Vec_PtrEntry(vTokens,0); if ( fOutput ) assert( !strncmp(pToken, "output_", 7) ); else assert( !strncmp(pToken, "input_", 6) ); if ( Vec_PtrSize(vTokens) != 2 && Vec_PtrSize(vTokens) != 3 ) { sprintf( p->pMan->sError, "Line %d: Delay line does not have a valid number of parameters (2 or 3).", Ntl_ReadGetLine(p->pMan, pToken) ); return 0; } // find the delay number pTokenNum = (char *)Vec_PtrEntryLast(vTokens); if ( !strcmp( pTokenNum, "-inf" ) ) Delay = -TIM_ETERNITY; else if ( !strcmp( pTokenNum, "inf" ) ) Delay = TIM_ETERNITY; else Delay = atof( pTokenNum ); if ( Delay == 0.0 && pTokenNum[0] != '0' ) { sprintf( p->pMan->sError, "Line %d: Delay value (%s) appears to be invalid.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntryLast(vTokens) ); return 0; } // find the PI/PO numbers if ( fOutput ) { if ( Vec_PtrSize(vTokens) == 3 ) { RetValue = Ntl_ModelFindPioNumber( p->pNtk, 0, 1, (char *)Vec_PtrEntry(vTokens, 1), &Number ); if ( RetValue == 0 ) { sprintf( p->pMan->sError, "Line %d: Cannot find signal \"%s\" among POs.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens, 1) ); return 0; } } // store the values if ( p->pNtk->vTimeOutputs == NULL ) p->pNtk->vTimeOutputs = Vec_IntAlloc( 100 ); Vec_IntPush( p->pNtk->vTimeOutputs, Number ); Vec_IntPush( p->pNtk->vTimeOutputs, Aig_Float2Int(Delay) ); } else { if ( Vec_PtrSize(vTokens) == 3 ) { RetValue = Ntl_ModelFindPioNumber( p->pNtk, 1, 0, (char *)Vec_PtrEntry(vTokens, 1), &Number ); if ( RetValue == 0 ) { sprintf( p->pMan->sError, "Line %d: Cannot find signal \"%s\" among PIs.", Ntl_ReadGetLine(p->pMan, pToken), (char*)Vec_PtrEntry(vTokens, 1) ); return 0; } } // store the values if ( p->pNtk->vTimeInputs == NULL ) p->pNtk->vTimeInputs = Vec_IntAlloc( 100 ); Vec_IntPush( p->pNtk->vTimeInputs, Number ); Vec_IntPush( p->pNtk->vTimeInputs, Aig_Float2Int(Delay) ); } return 1; } /**Function************************************************************* Synopsis [Constructs the SOP cover from the file parsing info.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static char * Ntl_ReadParseTableBlif( Ntl_ReadMod_t * p, char * pTable, int nFanins ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Vec_Str_t * vFunc = p->pMan->vFunc; char * pProduct, * pOutput; int i, Polarity = -1; p->pMan->nTablesRead++; // get the tokens Ntl_ReadSplitIntoTokens( vTokens, pTable, '.' ); if ( Vec_PtrSize(vTokens) == 0 ) return Ntl_ManStoreSop( p->pMan->pDesign->pMemSops, " 0\n" ); if ( Vec_PtrSize(vTokens) == 1 ) { pOutput = (char *)Vec_PtrEntry( vTokens, 0 ); if ( *pOutput == '\"' ) return Ntl_ManStoreSop( p->pMan->pDesign->pMemSops, pOutput ); if ( ((pOutput[0] - '0') & 0x8E) || pOutput[1] ) { sprintf( p->pMan->sError, "Line %d: Constant table has wrong output value \"%s\".", Ntl_ReadGetLine(p->pMan, pOutput), pOutput ); return NULL; } return Ntl_ManStoreSop( p->pMan->pDesign->pMemSops, (pOutput[0] == '0') ? " 0\n" : " 1\n" ); } pProduct = (char *)Vec_PtrEntry( vTokens, 0 ); if ( Vec_PtrSize(vTokens) % 2 == 1 ) { sprintf( p->pMan->sError, "Line %d: Table has odd number of tokens (%d).", Ntl_ReadGetLine(p->pMan, pProduct), Vec_PtrSize(vTokens) ); return NULL; } // parse the table Vec_StrClear( vFunc ); for ( i = 0; i < Vec_PtrSize(vTokens)/2; i++ ) { pProduct = (char *)Vec_PtrEntry( vTokens, 2*i + 0 ); pOutput = (char *)Vec_PtrEntry( vTokens, 2*i + 1 ); if ( strlen(pProduct) != (unsigned)nFanins ) { sprintf( p->pMan->sError, "Line %d: Cube \"%s\" has size different from the fanin count (%d).", Ntl_ReadGetLine(p->pMan, pProduct), pProduct, nFanins ); return NULL; } if ( ((pOutput[0] - '0') & 0x8E) || pOutput[1] ) { sprintf( p->pMan->sError, "Line %d: Output value \"%s\" is incorrect.", Ntl_ReadGetLine(p->pMan, pProduct), pOutput ); return NULL; } if ( Polarity == -1 ) Polarity = pOutput[0] - '0'; else if ( Polarity != pOutput[0] - '0' ) { sprintf( p->pMan->sError, "Line %d: Output value \"%s\" differs from the value in the first line of the table (%d).", Ntl_ReadGetLine(p->pMan, pProduct), pOutput, Polarity ); return NULL; } // parse one product Vec_StrPrintStr( vFunc, pProduct ); Vec_StrPush( vFunc, ' ' ); Vec_StrPush( vFunc, pOutput[0] ); Vec_StrPush( vFunc, '\n' ); } Vec_StrPush( vFunc, '\0' ); return Vec_StrArray( vFunc ); } /**Function************************************************************* Synopsis [Parses the nodes line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Ntl_ReadParseLineNamesBlif( Ntl_ReadMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Ntl_Obj_t * pNode; Ntl_Net_t * pNetOut, * pNetIn; char * pNameOut, * pNameIn; int i; Ntl_ReadSplitIntoTokens( vTokens, pLine, '\0' ); // parse the mapped node // if ( !strcmp(Vec_PtrEntry(vTokens,0), "gate") ) // return Ntl_ReadParseLineGateBlif( p, vTokens ); // parse the regular name line assert( !strcmp((char *)Vec_PtrEntry(vTokens,0), "names") ); pNameOut = (char *)Vec_PtrEntryLast( vTokens ); pNetOut = Ntl_ModelFindOrCreateNet( p->pNtk, pNameOut ); // create fanins pNode = Ntl_ModelCreateNode( p->pNtk, Vec_PtrSize(vTokens) - 2 ); for ( i = 0; i < Vec_PtrSize(vTokens) - 2; i++ ) { pNameIn = (char *)Vec_PtrEntry(vTokens, i+1); pNetIn = Ntl_ModelFindOrCreateNet( p->pNtk, pNameIn ); Ntl_ObjSetFanin( pNode, pNetIn, i ); } if ( !Ntl_ModelSetNetDriver( pNode, pNetOut ) ) { sprintf( p->pMan->sError, "Line %d: Signal \"%s\" is defined more than once.", Ntl_ReadGetLine(p->pMan, pNameOut), pNameOut ); return 0; } // parse the table of this node pNode->pSop = Ntl_ReadParseTableBlif( p, pNameOut + strlen(pNameOut), pNode->nFanins ); if ( pNode->pSop == NULL ) return 0; pNode->pSop = Ntl_ManStoreSop( p->pNtk->pMan->pMemSops, pNode->pSop ); return 1; } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END