/**CFile**************************************************************** FileName [ioReadBlifMv.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Command processing package.] Synopsis [Procedures to read BLIF-MV file.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - January 8, 2007.] Revision [$Id: ioReadBlifMv.c,v 1.00 2007/01/08 00:00:00 alanmi Exp $] ***********************************************************************/ #include "abc.h" #include "extra.h" #include "vecPtr.h" #include "io.h" //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// #define IO_BLIFMV_MAXVALUES 256 typedef struct Io_MvVar_t_ Io_MvVar_t; // parsing var typedef struct Io_MvMod_t_ Io_MvMod_t; // parsing model typedef struct Io_MvMan_t_ Io_MvMan_t; // parsing manager struct Io_MvVar_t_ { int nValues; // the number of values char ** pNames; // the value names }; struct Io_MvMod_t_ { // file lines char * pName; // .model line Vec_Ptr_t * vInputs; // .inputs lines Vec_Ptr_t * vOutputs; // .outputs lines Vec_Ptr_t * vLatches; // .latch lines Vec_Ptr_t * vResets; // .reset lines Vec_Ptr_t * vNames; // .names lines Vec_Ptr_t * vSubckts; // .subckt lines Vec_Ptr_t * vMvs; // .mv lines int fBlackBox; // indicates blackbox model // the resulting network Abc_Ntk_t * pNtk; Abc_Obj_t * pResetLatch; // the parent manager Io_MvMan_t * pMan; }; struct Io_MvMan_t_ { // general info about file int fBlifMv; // the file is BLIF-MV 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 Abc_Lib_t * pDesign; // the design under construction // intermediate storage for models Vec_Ptr_t * vModels; // vector of models Io_MvMod_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 Io_MvMan_t * Io_MvAlloc(); static void Io_MvFree( Io_MvMan_t * p ); static Io_MvMod_t * Io_MvModAlloc(); static void Io_MvModFree( Io_MvMod_t * p ); static char * Io_MvLoadFile( char * pFileName ); static void Io_MvReadPreparse( Io_MvMan_t * p ); static void Io_MvReadInterfaces( Io_MvMan_t * p ); static Abc_Lib_t * Io_MvParse( Io_MvMan_t * p ); static int Io_MvParseLineModel( Io_MvMod_t * p, char * pLine ); static int Io_MvParseLineInputs( Io_MvMod_t * p, char * pLine ); static int Io_MvParseLineOutputs( Io_MvMod_t * p, char * pLine ); static int Io_MvParseLineLatch( Io_MvMod_t * p, char * pLine ); static int Io_MvParseLineSubckt( Io_MvMod_t * p, char * pLine ); static int Io_MvParseLineMv( Io_MvMod_t * p, char * pLine ); static int Io_MvParseLineNamesMv( Io_MvMod_t * p, char * pLine, int fReset ); static int Io_MvParseLineNamesBlif( Io_MvMod_t * p, char * pLine ); static int Io_MvCharIsSpace( char s ) { return s == ' ' || s == '\t' || s == '\r' || s == '\n'; } static int Io_MvCharIsMvSymb( char s ) { return s == '(' || s == ')' || s == '{' || s == '}' || s == '-' || s == ',' || s == '!'; } extern void Abc_NtkStartMvVars( Abc_Ntk_t * pNtk ); //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Reads the network from the BLIF or BLIF-MV file.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Abc_Ntk_t * Io_ReadBlifMv( char * pFileName, int fBlifMv, int fCheck ) { FILE * pFile; Io_MvMan_t * p; Abc_Ntk_t * pNtk; Abc_Lib_t * pDesign; char * pDesignName; int i; // check that the file is available pFile = fopen( pFileName, "rb" ); if ( pFile == NULL ) { printf( "Io_ReadBlifMv(): The file is unavailable (absent or open).\n" ); return 0; } fclose( pFile ); // start the file reader p = Io_MvAlloc(); p->fBlifMv = fBlifMv; p->pFileName = pFileName; p->pBuffer = Io_MvLoadFile( pFileName ); if ( p->pBuffer == NULL ) { Io_MvFree( p ); return NULL; } // set the design name pDesignName = Extra_FileNameGeneric( pFileName ); p->pDesign = Abc_LibCreate( pDesignName ); free( pDesignName ); // prepare the file for parsing Io_MvReadPreparse( p ); // parse interfaces of each network Io_MvReadInterfaces( p ); // construct the network pDesign = Io_MvParse( p ); if ( p->sError[0] ) fprintf( stdout, "%s\n", p->sError ); if ( pDesign == NULL ) return NULL; Io_MvFree( p ); // make sure that everything is okay with the network structure if ( fCheck ) { Vec_PtrForEachEntry( pDesign->vModules, pNtk, i ) { if ( !Abc_NtkCheckRead( pNtk ) ) { printf( "Io_ReadBlifMv: The network check has failed for network %s.\n", pNtk->pName ); Abc_LibFree( pDesign, NULL ); return NULL; } } } // pDesign should be linked to all models of the design // extract the master network pNtk = Vec_PtrEntry( pDesign->vModules, 0 ); pNtk->pDesign = pDesign; // verify the design for cyclic dependence assert( Vec_PtrSize(pDesign->vModules) > 0 ); if ( Vec_PtrSize(pDesign->vModules) == 1 ) { // printf( "Warning: The design is not hierarchical.\n" ); Abc_LibFree( pDesign, pNtk ); pNtk->pDesign = NULL; pNtk->pSpec = Extra_UtilStrsav( pFileName ); } else Abc_NtkIsAcyclicHierarchy( pNtk ); //Io_WriteBlifMvDesign( pDesign, "_temp_.mv" ); //Abc_LibPrint( pDesign ); //Abc_LibFree( pDesign ); //return NULL; return pNtk; } /**Function************************************************************* Synopsis [Allocates the BLIF parsing structure.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static Io_MvMan_t * Io_MvAlloc() { Io_MvMan_t * p; p = ALLOC( Io_MvMan_t, 1 ); memset( p, 0, sizeof(Io_MvMan_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 Io_MvFree( Io_MvMan_t * p ) { Io_MvMod_t * pMod; int i; if ( p->pDesign ) Abc_LibFree( p->pDesign, NULL ); if ( p->pBuffer ) free( p->pBuffer ); if ( p->vLines ) Vec_PtrFree( p->vLines ); if ( p->vModels ) { Vec_PtrForEachEntry( p->vModels, pMod, i ) Io_MvModFree( pMod ); Vec_PtrFree( p->vModels ); } Vec_PtrFree( p->vTokens ); Vec_PtrFree( p->vTokens2 ); Vec_StrFree( p->vFunc ); free( p ); } /**Function************************************************************* Synopsis [Allocates the BLIF parsing structure for one model.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static Io_MvMod_t * Io_MvModAlloc() { Io_MvMod_t * p; p = ALLOC( Io_MvMod_t, 1 ); memset( p, 0, sizeof(Io_MvMod_t) ); p->vInputs = Vec_PtrAlloc( 512 ); p->vOutputs = Vec_PtrAlloc( 512 ); p->vLatches = Vec_PtrAlloc( 512 ); p->vResets = Vec_PtrAlloc( 512 ); p->vNames = Vec_PtrAlloc( 512 ); p->vSubckts = Vec_PtrAlloc( 512 ); p->vMvs = Vec_PtrAlloc( 512 ); return p; } /**Function************************************************************* Synopsis [Allocates the BLIF parsing structure for one model.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Io_MvModFree( Io_MvMod_t * p ) { // if ( p->pNtk ) // Abc_NtkDelete( p->pNtk ); Vec_PtrFree( p->vInputs ); Vec_PtrFree( p->vOutputs ); Vec_PtrFree( p->vLatches ); Vec_PtrFree( p->vResets ); Vec_PtrFree( p->vNames ); Vec_PtrFree( p->vSubckts ); Vec_PtrFree( p->vMvs ); free( p ); } /**Function************************************************************* Synopsis [Counts the number of given chars.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvCountChars( char * pLine, char Char ) { char * pCur; int Counter = 0; for ( pCur = pLine; *pCur; pCur++ ) if ( *pCur == Char ) Counter++; return Counter; } /**Function************************************************************* Synopsis [Returns the place where the arrow is hiding.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static char * Io_MvFindArrow( char * pLine ) { char * pCur; for ( pCur = pLine; *(pCur+1); pCur++ ) if ( *pCur == '-' && *(pCur+1) == '>' ) { *pCur = ' '; *(pCur+1) = ' '; return pCur; } return NULL; } /**Function************************************************************* Synopsis [Collects the already split tokens.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Io_MvCollectTokens( 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 Io_MvSplitIntoTokens( Vec_Ptr_t * vTokens, char * pLine, char Stop ) { char * pCur; // clear spaces for ( pCur = pLine; *pCur != Stop; pCur++ ) if ( Io_MvCharIsSpace(*pCur) ) *pCur = 0; // collect tokens Io_MvCollectTokens( vTokens, pLine, pCur ); } /**Function************************************************************* Synopsis [Splits the line into tokens when .default may be present.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Io_MvSplitIntoTokensMv( Vec_Ptr_t * vTokens, char * pLine ) { char * pCur; // clear spaces for ( pCur = pLine; *pCur != '.' || *(pCur+1) == 'd'; pCur++ ) if ( Io_MvCharIsSpace(*pCur) ) *pCur = 0; // collect tokens Io_MvCollectTokens( vTokens, pLine, pCur ); } /**Function************************************************************* Synopsis [Splits the line into tokens.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Io_MvSplitIntoTokensAndClear( Vec_Ptr_t * vTokens, char * pLine, char Stop, char Char ) { char * pCur; // clear spaces for ( pCur = pLine; *pCur != Stop; pCur++ ) if ( Io_MvCharIsSpace(*pCur) || *pCur == Char ) *pCur = 0; // collect tokens Io_MvCollectTokens( vTokens, pLine, pCur ); } /**Function************************************************************* Synopsis [Returns the 1-based number of the line in which the token occurs.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvGetLine( Io_MvMan_t * p, char * pToken ) { char * pLine; int i; Vec_PtrForEachEntry( 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 * Io_MvLoadFile( char * pFileName ) { FILE * pFile; int nFileSize; char * pContents; pFile = fopen( pFileName, "rb" ); if ( pFile == NULL ) { printf( "Io_MvLoadFile(): The file is unavailable (absent or open).\n" ); return NULL; } fseek( pFile, 0, SEEK_END ); nFileSize = ftell( pFile ); if ( nFileSize == 0 ) { printf( "Io_MvLoadFile(): The file is empty.\n" ); return NULL; } pContents = 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 [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 Io_MvReadPreparse( Io_MvMan_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( p->vLines, pCur, i ) { if ( *pCur == 0 ) continue; // find previous non-space character for ( pPrev = pCur - 2; pPrev >= p->pBuffer; pPrev-- ) if ( !Io_MvCharIsSpace(*pPrev) ) break; // if it is the line extender, overwrite it with spaces if ( *pPrev == '\\' ) { for ( ; *pPrev; pPrev++ ) *pPrev = ' '; *pPrev = ' '; continue; } // skip spaces at the beginning of the line while ( Io_MvCharIsSpace(*pCur++) ); // parse directives if ( *(pCur-1) != '.' ) continue; if ( !strncmp(pCur, "names", 5) || !strncmp(pCur, "table", 5) ) Vec_PtrPush( p->pLatest->vNames, pCur ); else if ( p->fBlifMv && (!strncmp(pCur, "def ", 4) || !strncmp(pCur, "default ", 8)) ) continue; else if ( !strncmp(pCur, "latch", 5) ) Vec_PtrPush( p->pLatest->vLatches, pCur ); else if ( !strncmp(pCur, "r ", 2) || !strncmp(pCur, "reset ", 6) ) Vec_PtrPush( p->pLatest->vResets, 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 ( p->fBlifMv && !strncmp(pCur, "mv", 2) ) Vec_PtrPush( p->pLatest->vMvs, pCur ); else if ( !strncmp(pCur, "blackbox", 8) ) p->pLatest->fBlackBox = 1; else if ( !strncmp(pCur, "model", 5) ) { p->pLatest = Io_MvModAlloc(); p->pLatest->pName = pCur; p->pLatest->pMan = p; } 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", Io_MvGetLine(p, pCur) ); break; } else { pCur--; if ( pCur[strlen(pCur)-1] == '\r' ) pCur[strlen(pCur)-1] = 0; fprintf( stdout, "Line %d: Skipping line \"%s\".\n", Io_MvGetLine(p, pCur), pCur ); } } } /**Function************************************************************* Synopsis [Parses interfaces of the models.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static void Io_MvReadInterfaces( Io_MvMan_t * p ) { Io_MvMod_t * pMod; char * pLine; int i, k; // iterate through the models Vec_PtrForEachEntry( p->vModels, pMod, i ) { // parse the model if ( !Io_MvParseLineModel( pMod, pMod->pName ) ) return; // add model to the design if ( !Abc_LibAddModel( p->pDesign, pMod->pNtk ) ) { sprintf( p->sError, "Line %d: Model %s is defined twice.", Io_MvGetLine(p, pMod->pName), pMod->pName ); return; } // parse the inputs Vec_PtrForEachEntry( pMod->vInputs, pLine, k ) if ( !Io_MvParseLineInputs( pMod, pLine ) ) return; // parse the outputs Vec_PtrForEachEntry( pMod->vOutputs, pLine, k ) if ( !Io_MvParseLineOutputs( pMod, pLine ) ) return; } } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static Abc_Lib_t * Io_MvParse( Io_MvMan_t * p ) { Abc_Lib_t * pDesign; Io_MvMod_t * pMod; char * pLine; int i, k; // iterate through the models Vec_PtrForEachEntry( p->vModels, pMod, i ) { // check if there any MV lines if ( Vec_PtrSize(pMod->vMvs) > 0 ) Abc_NtkStartMvVars( pMod->pNtk ); // parse the mv lines Vec_PtrForEachEntry( pMod->vMvs, pLine, k ) if ( !Io_MvParseLineMv( pMod, pLine ) ) return NULL; // if reset lines are used there should be the same number of them as latches if ( Vec_PtrSize(pMod->vResets) > 0 ) { if ( Vec_PtrSize(pMod->vLatches) != Vec_PtrSize(pMod->vResets) ) { sprintf( p->sError, "Line %d: Model %s has different number of latches (%d) and reset nodes (%d).", Io_MvGetLine(p, pMod->pName), Abc_NtkName(pMod->pNtk), Vec_PtrSize(pMod->vLatches), Vec_PtrSize(pMod->vResets) ); return NULL; } // create binary latch with 1-data and 0-init pMod->pResetLatch = Io_ReadCreateResetLatch( pMod->pNtk, p->fBlifMv ); } // parse the latches Vec_PtrForEachEntry( pMod->vLatches, pLine, k ) if ( !Io_MvParseLineLatch( pMod, pLine ) ) return NULL; // parse the reset lines Vec_PtrForEachEntry( pMod->vResets, pLine, k ) if ( !Io_MvParseLineNamesMv( pMod, pLine, 1 ) ) return NULL; // parse the nodes if ( p->fBlifMv ) { Vec_PtrForEachEntry( pMod->vNames, pLine, k ) if ( !Io_MvParseLineNamesMv( pMod, pLine, 0 ) ) return NULL; } else { Vec_PtrForEachEntry( pMod->vNames, pLine, k ) if ( !Io_MvParseLineNamesBlif( pMod, pLine ) ) return NULL; } // parse the subcircuits Vec_PtrForEachEntry( pMod->vSubckts, pLine, k ) if ( !Io_MvParseLineSubckt( pMod, pLine ) ) return NULL; // finalize the network Abc_NtkFinalizeRead( pMod->pNtk ); } // return the network pDesign = p->pDesign; p->pDesign = NULL; return pDesign; } /**Function************************************************************* Synopsis [Parses the model line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineModel( Io_MvMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; char * pToken; Io_MvSplitIntoTokens( vTokens, pLine, '\0' ); pToken = Vec_PtrEntry( vTokens, 0 ); assert( !strcmp(pToken, "model") ); if ( Vec_PtrSize(vTokens) != 2 ) { sprintf( p->pMan->sError, "Line %d: Model line has %d entries while it should have 2.", Io_MvGetLine(p->pMan, pToken), Vec_PtrSize(vTokens) ); return 0; } if ( p->fBlackBox ) p->pNtk = Abc_NtkAlloc( ABC_NTK_NETLIST, ABC_FUNC_BLACKBOX, 1 ); else if ( p->pMan->fBlifMv ) p->pNtk = Abc_NtkAlloc( ABC_NTK_NETLIST, ABC_FUNC_BLIFMV, 1 ); else p->pNtk = Abc_NtkAlloc( ABC_NTK_NETLIST, ABC_FUNC_SOP, 1 ); p->pNtk->pName = Extra_UtilStrsav( Vec_PtrEntry(vTokens, 1) ); return 1; } /**Function************************************************************* Synopsis [Parses the inputs line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineInputs( Io_MvMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; char * pToken; int i; Io_MvSplitIntoTokens( vTokens, pLine, '\0' ); pToken = Vec_PtrEntry(vTokens, 0); assert( !strcmp(pToken, "inputs") ); Vec_PtrForEachEntryStart( vTokens, pToken, i, 1 ) Io_ReadCreatePi( p->pNtk, pToken ); return 1; } /**Function************************************************************* Synopsis [Parses the outputs line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineOutputs( Io_MvMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; char * pToken; int i; Io_MvSplitIntoTokens( vTokens, pLine, '\0' ); pToken = Vec_PtrEntry(vTokens, 0); assert( !strcmp(pToken, "outputs") ); Vec_PtrForEachEntryStart( vTokens, pToken, i, 1 ) Io_ReadCreatePo( p->pNtk, pToken ); return 1; } /**Function************************************************************* Synopsis [Parses the latches line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineLatch( Io_MvMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Abc_Obj_t * pObj, * pMux, * pNet; char * pToken; int Init; Io_MvSplitIntoTokens( vTokens, pLine, '\0' ); pToken = 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.", Io_MvGetLine(p->pMan, pToken) ); return 0; } // create latch if ( p->pResetLatch == NULL ) { pObj = Io_ReadCreateLatch( p->pNtk, Vec_PtrEntry(vTokens,1), Vec_PtrEntry(vTokens,2) ); // get initial value if ( Vec_PtrSize(vTokens) > 3 ) Init = atoi( Vec_PtrEntry(vTokens,3) ); else Init = 2; if ( Init < 0 || Init > 2 ) { sprintf( p->pMan->sError, "Line %d: Initial state of the latch is incorrect \"%s\".", Io_MvGetLine(p->pMan, pToken), Vec_PtrEntry(vTokens,3) ); return 0; } if ( Init == 0 ) Abc_LatchSetInit0( pObj ); else if ( Init == 1 ) Abc_LatchSetInit1( pObj ); else // if ( Init == 2 ) Abc_LatchSetInitDc( pObj ); } else { // get the net corresponding to output of reset latch pNet = Abc_ObjFanout0(Abc_ObjFanout0(p->pResetLatch)); assert( Abc_ObjIsNet(pNet) ); // create mux pMux = Io_ReadCreateResetMux( p->pNtk, Abc_ObjName(pNet), Vec_PtrEntry(vTokens,1), p->pMan->fBlifMv ); // get the net of mux output pNet = Abc_ObjFanout0(pMux); // create latch pObj = Io_ReadCreateLatch( p->pNtk, Abc_ObjName(pNet), Vec_PtrEntry(vTokens,2) ); Abc_LatchSetInit0( pObj ); } return 1; } /**Function************************************************************* Synopsis [Parses the subckt line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineSubckt( Io_MvMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Abc_Ntk_t * pModel; Abc_Obj_t * pBox, * pNet, * pTerm; char * pToken, * pName, ** ppNames; int nEquals, i, k; // split the line into tokens nEquals = Io_MvCountChars( pLine, '=' ); Io_MvSplitIntoTokensAndClear( vTokens, pLine, '\0', '=' ); pToken = Vec_PtrEntry(vTokens,0); assert( !strcmp(pToken, "subckt") ); // get the model for this box pName = Vec_PtrEntry(vTokens,1); pModel = Abc_LibFindModelByName( p->pMan->pDesign, pName ); if ( pModel == NULL ) { sprintf( p->pMan->sError, "Line %d: Cannot find the model for subcircuit %s.", Io_MvGetLine(p->pMan, pToken), pName ); return 0; } // check if the number of tokens is correct if ( nEquals != Abc_NtkPiNum(pModel) + Abc_NtkPoNum(pModel) ) { sprintf( p->pMan->sError, "Line %d: The number of ports (%d) in .subckt differs from the sum of PIs and POs of the model (%d).", Io_MvGetLine(p->pMan, pToken), nEquals, Abc_NtkPiNum(pModel) + Abc_NtkPoNum(pModel) ); return 0; } // get the names ppNames = (char **)Vec_PtrArray(vTokens) + 2 + p->pMan->fBlifMv; // create the box with these terminals if ( Abc_NtkHasBlackbox(pModel) ) pBox = Abc_NtkCreateBlackbox( p->pNtk ); else pBox = Abc_NtkCreateWhitebox( p->pNtk ); pBox->pData = pModel; if ( p->pMan->fBlifMv ) Abc_ObjAssignName( pBox, Vec_PtrEntry(vTokens,2), NULL ); Abc_NtkForEachPi( pModel, pTerm, i ) { // find this terminal among the formal inputs of the subcircuit pName = Abc_ObjName(Abc_ObjFanout0(pTerm)); 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.", Io_MvGetLine(p->pMan, pToken), pName, Abc_NtkName(pModel) ); return 0; } // create the BI with the actual name pNet = Abc_NtkFindOrCreateNet( p->pNtk, ppNames[2*k+1] ); pTerm = Abc_NtkCreateBi( p->pNtk ); Abc_ObjAddFanin( pBox, pTerm ); Abc_ObjAddFanin( pTerm, pNet ); } Abc_NtkForEachPo( pModel, pTerm, i ) { // find this terminal among the formal outputs of the subcircuit pName = Abc_ObjName(Abc_ObjFanin0(pTerm)); 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 modell \"%s\" as a formal output of the subcircuit.", Io_MvGetLine(p->pMan, pToken), pName, Abc_NtkName(pModel) ); return 0; } // create the BI with the actual name pNet = Abc_NtkFindOrCreateNet( p->pNtk, ppNames[2*k+1] ); pTerm = Abc_NtkCreateBo( p->pNtk ); Abc_ObjAddFanin( pNet, pTerm ); Abc_ObjAddFanin( pTerm, pBox ); } return 1; } /**Function************************************************************* Synopsis [Parses the mv line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineMv( Io_MvMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Abc_Obj_t * pObj; Io_MvVar_t * pVar; Extra_MmFlex_t * pFlex; char * pName; int nCommas, nValues, i, k; // count commas and get the tokens nCommas = Io_MvCountChars( pLine, ',' ); Io_MvSplitIntoTokensAndClear( vTokens, pLine, '\0', ',' ); pName = Vec_PtrEntry(vTokens,0); assert( !strcmp(pName, "mv") ); // get the number of values if ( Vec_PtrSize(vTokens) <= nCommas + 2 ) { sprintf( p->pMan->sError, "Line %d: The number of values in not specified in .mv line.", Io_MvGetLine(p->pMan, pName), pName ); return 0; } nValues = atoi( Vec_PtrEntry(vTokens,nCommas+2) ); if ( nValues < 2 || nValues > IO_BLIFMV_MAXVALUES ) { sprintf( p->pMan->sError, "Line %d: The number of values (%d) is incorrect (should be >= 2 and <= %d).", Io_MvGetLine(p->pMan, pName), nValues, IO_BLIFMV_MAXVALUES ); return 0; } // if there is no symbolic values, quit if ( nValues == 2 && Vec_PtrSize(vTokens) == nCommas + 3 ) return 1; if ( Vec_PtrSize(vTokens) > nCommas + 3 && Vec_PtrSize(vTokens) - (nCommas + 3) != nValues ) { sprintf( p->pMan->sError, "Line %d: Wrong number (%d) of symbolic value names (should be %d).", Io_MvGetLine(p->pMan, pName), Vec_PtrSize(vTokens) - (nCommas + 3), nValues ); return 0; } // go through variables pFlex = Abc_NtkMvVarMan( p->pNtk ); for ( i = 0; i <= nCommas; i++ ) { pName = Vec_PtrEntry( vTokens, i+1 ); pObj = Abc_NtkFindOrCreateNet( p->pNtk, pName ); // allocate variable pVar = (Io_MvVar_t *)Extra_MmFlexEntryFetch( pFlex, sizeof(Io_MvVar_t) ); pVar->nValues = nValues; pVar->pNames = NULL; // create names if ( Vec_PtrSize(vTokens) > nCommas + 3 ) { pVar->pNames = (char **)Extra_MmFlexEntryFetch( pFlex, sizeof(char *) * nValues ); Vec_PtrForEachEntryStart( vTokens, pName, k, nCommas + 3 ) { pVar->pNames[k-(nCommas + 3)] = (char *)Extra_MmFlexEntryFetch( pFlex, strlen(pName) + 1 ); strcpy( pVar->pNames[k-(nCommas + 3)], pName ); } } // save the variable Abc_ObjSetMvVar( pObj, pVar ); } // make sure the names are unique if ( pVar->pNames ) { for ( i = 0; i < nValues; i++ ) for ( k = i+1; k < nValues; k++ ) if ( !strcmp(pVar->pNames[i], pVar->pNames[k]) ) { pName = Vec_PtrEntry(vTokens,0); sprintf( p->pMan->sError, "Line %d: Symbolic value name \"%s\" is repeated in .mv line.", Io_MvGetLine(p->pMan, pName), pVar->pNames[i] ); return 0; } } return 1; } /**Function************************************************************* Synopsis [Writes the values into the BLIF-MV representation for the node.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvWriteValues( Abc_Obj_t * pNode, Vec_Str_t * vFunc ) { char Buffer[10]; Abc_Obj_t * pFanin; int i; // add the fanin number of values Abc_ObjForEachFanin( pNode, pFanin, i ) { sprintf( Buffer, "%d", Abc_ObjMvVarNum(pFanin) ); Vec_StrAppend( vFunc, Buffer ); Vec_StrPush( vFunc, ' ' ); } // add the node number of values sprintf( Buffer, "%d", Abc_ObjMvVarNum(Abc_ObjFanout0(pNode)) ); Vec_StrAppend( vFunc, Buffer ); Vec_StrPush( vFunc, '\n' ); return 1; } /**Function************************************************************* Synopsis [Translated one literal.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLiteralMv( Io_MvMod_t * p, Abc_Obj_t * pNode, char * pToken, Vec_Str_t * vFunc, int iLit ) { char Buffer[10]; Io_MvVar_t * pVar; Abc_Obj_t * pFanin, * pNet; char * pCur, * pNext; int i; // consider the equality literal if ( pToken[0] == '=' ) { // find the fanins Abc_ObjForEachFanin( pNode, pFanin, i ) if ( !strcmp( Abc_ObjName(pFanin), pToken + 1 ) ) break; if ( i == Abc_ObjFaninNum(pNode) ) { sprintf( p->pMan->sError, "Line %d: Node name in the table \"%s\" cannot be found on .names line.", Io_MvGetLine(p->pMan, pToken), pToken + 1 ); return 0; } Vec_StrPush( vFunc, '=' ); sprintf( Buffer, "%d", i ); Vec_StrAppend( vFunc, Buffer ); Vec_StrPush( vFunc, (char)((iLit == -1)? '\n' : ' ') ); return 1; } // consider regular literal assert( iLit < Abc_ObjFaninNum(pNode) ); pNet = iLit >= 0 ? Abc_ObjFanin(pNode, iLit) : Abc_ObjFanout0(pNode); pVar = Abc_ObjMvVar( pNet ); // if the var is absent or has no symbolic values quit if ( pVar == NULL || pVar->pNames == NULL ) { Vec_StrAppend( vFunc, pToken ); Vec_StrPush( vFunc, (char)((iLit == -1)? '\n' : ' ') ); return 1; } // parse the literal using symbolic values for ( pCur = pToken; *pCur; pCur++ ) { if ( Io_MvCharIsMvSymb(*pCur) ) { Vec_StrPush( vFunc, *pCur ); continue; } // find the next MvSymb char for ( pNext = pCur+1; *pNext; pNext++ ) if ( Io_MvCharIsMvSymb(*pNext) ) break; // look for the value name for ( i = 0; i < pVar->nValues; i++ ) if ( !strncmp( pVar->pNames[i], pCur, pNext-pCur ) ) break; if ( i == pVar->nValues ) { *pNext = 0; sprintf( p->pMan->sError, "Line %d: Cannot find value name \"%s\" among the value names of variable \"%s\".", Io_MvGetLine(p->pMan, pToken), pCur, Abc_ObjName(pNet) ); return 0; } // value name is found sprintf( Buffer, "%d", i ); Vec_StrAppend( vFunc, Buffer ); // update the pointer pCur = pNext - 1; } Vec_StrPush( vFunc, (char)((iLit == -1)? '\n' : ' ') ); return 1; } /**Function************************************************************* Synopsis [Constructs the MV-SOP cover from the file parsing info.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static char * Io_MvParseTableMv( Io_MvMod_t * p, Abc_Obj_t * pNode, Vec_Ptr_t * vTokens2, int nInputs, int nOutputs, int iOut ) { Vec_Str_t * vFunc = p->pMan->vFunc; char * pFirst, * pToken; int iStart, i; // prepare the place for the cover Vec_StrClear( vFunc ); // write the number of values Io_MvWriteValues( pNode, vFunc ); // get the first token pFirst = Vec_PtrEntry( vTokens2, 0 ); if ( pFirst[0] == '.' ) { // write the default literal Vec_StrPush( vFunc, 'd' ); pToken = Vec_PtrEntry(vTokens2, 1 + iOut); if ( !Io_MvParseLiteralMv( p, pNode, pToken, vFunc, -1 ) ) return NULL; iStart = 1 + nOutputs; } else iStart = 0; // write the remaining literals while ( iStart < Vec_PtrSize(vTokens2) ) { // input literals for ( i = 0; i < nInputs; i++ ) { pToken = Vec_PtrEntry( vTokens2, iStart + i ); if ( !Io_MvParseLiteralMv( p, pNode, pToken, vFunc, i ) ) return NULL; } // output literal pToken = Vec_PtrEntry( vTokens2, iStart + nInputs + iOut ); if ( !Io_MvParseLiteralMv( p, pNode, pToken, vFunc, -1 ) ) return NULL; // update the counter iStart += nInputs + nOutputs; } Vec_StrPush( vFunc, '\0' ); return Vec_StrArray( vFunc ); } /**Function************************************************************* Synopsis [Parses the nodes line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineNamesMvOne( Io_MvMod_t * p, Vec_Ptr_t * vTokens, Vec_Ptr_t * vTokens2, int nInputs, int nOutputs, int iOut, int fReset ) { Abc_Obj_t * pNet, * pNode; char * pName; // get the output name pName = Vec_PtrEntry( vTokens, Vec_PtrSize(vTokens) - nOutputs + iOut ); // create the node if ( fReset ) { pNet = Abc_NtkFindNet( p->pNtk, pName ); if ( pNet == NULL ) { sprintf( p->pMan->sError, "Line %d: Latch with output signal \"%s\" does not exist.", Io_MvGetLine(p->pMan, pName), pName ); return 0; } if ( !Abc_ObjIsBo(Abc_ObjFanin0(pNet)) ) { sprintf( p->pMan->sError, "Line %d: Reset line \"%s\" defines signal that is not a latch output.", Io_MvGetLine(p->pMan, pName), pName ); return 0; } // get the latch input pNode = Abc_ObjFanin0(Abc_ObjFanin0(Abc_ObjFanin0(pNet))); assert( Abc_ObjIsBi(pNode) ); // get the MUX feeding into the latch pNode = Abc_ObjFanin0(Abc_ObjFanin0(pNode)); assert( Abc_ObjFaninNum(pNode) == 3 ); // get the corresponding fanin net pNet = Abc_ObjFanin( pNode, 2 ); // create fanins pNode = Io_ReadCreateNode( p->pNtk, Abc_ObjName(pNet), (char **)(vTokens->pArray + 1), nInputs ); assert( nInputs == Vec_PtrSize(vTokens) - 2 ); } else { pNet = Abc_NtkFindOrCreateNet( p->pNtk, pName ); if ( Abc_ObjFaninNum(pNet) > 0 ) { sprintf( p->pMan->sError, "Line %d: Signal \"%s\" is defined more than once.", Io_MvGetLine(p->pMan, pName), pName ); return 0; } pNode = Io_ReadCreateNode( p->pNtk, pName, (char **)(vTokens->pArray + 1), nInputs ); } // create the cover pNode->pData = Io_MvParseTableMv( p, pNode, vTokens2, nInputs, nOutputs, iOut ); if ( pNode->pData == NULL ) return 0; pNode->pData = Abc_SopRegister( p->pNtk->pManFunc, pNode->pData ); //printf( "Finished parsing node \"%s\" with table:\n%s\n", pName, pNode->pData ); return 1; } /**Function************************************************************* Synopsis [Parses the nodes line.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static int Io_MvParseLineNamesMv( Io_MvMod_t * p, char * pLine, int fReset ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Vec_Ptr_t * vTokens2 = p->pMan->vTokens2; char * pName, * pFirst, * pArrow; int nInputs, nOutputs, nLiterals, nLines, i; assert( p->pMan->fBlifMv ); // get the arrow if it is present pArrow = Io_MvFindArrow( pLine ); if ( !p->pMan->fBlifMv && pArrow ) { sprintf( p->pMan->sError, "Line %d: Multi-output node symbol (->) in binary BLIF file.", Io_MvGetLine(p->pMan, pLine) ); return 0; } // split names line into tokens Io_MvSplitIntoTokens( vTokens, pLine, '\0' ); if ( fReset ) assert( !strcmp(Vec_PtrEntry(vTokens,0), "r") || !strcmp(Vec_PtrEntry(vTokens,0), "reset") ); else assert( !strcmp(Vec_PtrEntry(vTokens,0), "names") || !strcmp(Vec_PtrEntry(vTokens,0), "table") ); // find the number of inputs and outputs nInputs = Vec_PtrSize(vTokens) - 2; nOutputs = 1; if ( pArrow != NULL ) { for ( i = Vec_PtrSize(vTokens) - 2; i >= 1; i-- ) if ( pArrow < (char*)Vec_PtrEntry(vTokens,i) ) { nInputs--; nOutputs++; } } // split table into tokens pName = Vec_PtrEntryLast( vTokens ); Io_MvSplitIntoTokensMv( vTokens2, pName + strlen(pName) ); pFirst = Vec_PtrEntry( vTokens2, 0 ); if ( pFirst[0] == '.' ) { assert( pFirst[1] == 'd' ); nLiterals = Vec_PtrSize(vTokens2) - 1 - nOutputs; } else nLiterals = Vec_PtrSize(vTokens2); // check the number of lines if ( nLiterals % (nInputs + nOutputs) != 0 ) { sprintf( p->pMan->sError, "Line %d: Wrong number of literals in the table of node \"%s\". (Spaces inside literals are not allowed.)", Io_MvGetLine(p->pMan, pFirst), pName ); return 0; } // check for the ND table nLines = nLiterals / (nInputs + nOutputs); if ( nInputs == 0 && nLines > 1 ) { Abc_Obj_t * pNode, * pNet; // add the outputs to the PIs for ( i = 0; i < nOutputs; i++ ) { pName = Vec_PtrEntry( vTokens, Vec_PtrSize(vTokens) - nOutputs + i ); fprintf( stdout, "Io_ReadBlifMv(): Adding PI for internal non-deterministic node \"%s\".\n", pName ); // get the net corresponding to this node pNet = Abc_NtkFindOrCreateNet(p->pNtk, pName); if ( fReset ) { // get the latch input pNode = Abc_ObjFanin0(Abc_ObjFanin0(Abc_ObjFanin0(pNet))); assert( Abc_ObjIsBi(pNode) ); // get the MUX feeding into the latch pNode = Abc_ObjFanin0(Abc_ObjFanin0(pNode)); assert( Abc_ObjFaninNum(pNode) == 3 ); // get the corresponding fanin net pNet = Abc_ObjFanin( pNode, 2 ); } // Io_ReadCreatePi( p->pNtk, pName ); Abc_ObjAddFanin( pNet, Abc_NtkCreatePi(p->pNtk) ); } return 1; } // iterate through the outputs for ( i = 0; i < nOutputs; i++ ) { if ( !Io_MvParseLineNamesMvOne( p, vTokens, vTokens2, nInputs, nOutputs, i, fReset ) ) return 0; } return 1; } /**Function************************************************************* Synopsis [Constructs the SOP cover from the file parsing info.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static char * Io_MvParseTableBlif( Io_MvMod_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 Io_MvSplitIntoTokens( vTokens, pTable, '.' ); if ( Vec_PtrSize(vTokens) == 0 ) return Abc_SopCreateConst0( p->pNtk->pManFunc ); if ( Vec_PtrSize(vTokens) == 1 ) { pOutput = Vec_PtrEntry( vTokens, 0 ); if ( ((pOutput[0] - '0') & 0x8E) || pOutput[1] ) { sprintf( p->pMan->sError, "Line %d: Constant table has wrong output value \"%s\".", Io_MvGetLine(p->pMan, pOutput), pOutput ); return NULL; } return pOutput[0] == '0' ? Abc_SopCreateConst0(p->pNtk->pManFunc) : Abc_SopCreateConst1(p->pNtk->pManFunc); } pProduct = Vec_PtrEntry( vTokens, 0 ); if ( Vec_PtrSize(vTokens) % 2 == 1 ) { sprintf( p->pMan->sError, "Line %d: Table has odd number of tokens (%d).", Io_MvGetLine(p->pMan, pProduct), Vec_PtrSize(vTokens) ); return NULL; } // parse the table Vec_StrClear( vFunc ); for ( i = 0; i < Vec_PtrSize(vTokens)/2; i++ ) { pProduct = Vec_PtrEntry( vTokens, 2*i + 0 ); pOutput = 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).", Io_MvGetLine(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.", Io_MvGetLine(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).", Io_MvGetLine(p->pMan, pProduct), pOutput, Polarity ); return NULL; } // parse one product product Vec_StrAppend( 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 Io_MvParseLineNamesBlif( Io_MvMod_t * p, char * pLine ) { Vec_Ptr_t * vTokens = p->pMan->vTokens; Abc_Obj_t * pNet, * pNode; char * pName; assert( !p->pMan->fBlifMv ); Io_MvSplitIntoTokens( vTokens, pLine, '\0' ); assert( !strcmp(Vec_PtrEntry(vTokens,0), "names") ); pName = Vec_PtrEntryLast( vTokens ); pNet = Abc_NtkFindOrCreateNet( p->pNtk, pName ); if ( Abc_ObjFaninNum(pNet) > 0 ) { sprintf( p->pMan->sError, "Line %d: Signal \"%s\" is defined more than once.", Io_MvGetLine(p->pMan, pName), pName ); return 0; } // create fanins pNode = Io_ReadCreateNode( p->pNtk, pName, (char **)(vTokens->pArray + 1), Vec_PtrSize(vTokens) - 2 ); // parse the table of this node pNode->pData = Io_MvParseTableBlif( p, pName + strlen(pName), Abc_ObjFaninNum(pNode) ); if ( pNode->pData == NULL ) return 0; pNode->pData = Abc_SopRegister( p->pNtk->pManFunc, pNode->pData ); return 1; } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// ////////////////////////////////////////////////////////////////////////