/**CFile**************************************************************** FileName [mioRead.c] PackageName [MVSIS 1.3: Multi-valued logic synthesis system.] Synopsis [File reading/writing for technology mapping.] Author [MVSIS Group] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - September 8, 2003.] Revision [$Id: mioRead.c,v 1.9 2004/10/19 06:40:16 satrajit Exp $] ***********************************************************************/ #include "mioInt.h" //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// static Mio_Library_t * Mio_LibraryReadOne( Abc_Frame_t * pAbc, char * FileName, bool fExtendedFormat, st_table * tExcludeGate, int fVerbose ); static int Mio_LibraryReadInternal( Mio_Library_t * pLib, char * pBuffer, bool fExtendedFormat, st_table * tExcludeGate, int fVerbose ); static Mio_Gate_t * Mio_LibraryReadGate( char ** ppToken, bool fExtendedFormat ); static Mio_Pin_t * Mio_LibraryReadPin( char ** ppToken, bool fExtendedFormat ); static char * chomp( char *s ); static void Mio_LibraryDetectSpecialGates( Mio_Library_t * pLib ); static void Io_ReadFileRemoveComments( char * pBuffer, int * pnDots, int * pnLines ); #ifdef WIN32 extern int isspace( int c ); // to silence the warning in VS #endif /**Function************************************************************* Synopsis [Read the genlib type of library.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Mio_Library_t * Mio_LibraryRead( Abc_Frame_t * pAbc, char * FileName, char * ExcludeFile, int fVerbose ) { Mio_Library_t * pLib; int num; st_table * tExcludeGate = 0; if ( ExcludeFile ) { tExcludeGate = st_init_table(strcmp, st_strhash); if ( (num = Mio_LibraryReadExclude( pAbc, ExcludeFile, tExcludeGate )) == -1 ) { st_free_table( tExcludeGate ); tExcludeGate = 0; return 0; } fprintf ( Abc_FrameReadOut( pAbc ), "Read %d gates from exclude file\n", num ); } pLib = Mio_LibraryReadOne( pAbc, FileName, 0, tExcludeGate, fVerbose ); // try normal format first .. if ( pLib == NULL ) { pLib = Mio_LibraryReadOne( pAbc, FileName, 1, tExcludeGate, fVerbose ); // .. otherwise try extended format if ( pLib != NULL ) printf ( "Warning: Read extended GENLIB format but ignoring extensions\n" ); } return pLib; } /**Function************************************************************* Synopsis [Read the genlib type of library.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Mio_Library_t * Mio_LibraryReadOne( Abc_Frame_t * pAbc, char * FileName, bool fExtendedFormat, st_table * tExcludeGate, int fVerbose ) { Mio_Library_t * pLib; char * pBuffer = 0; // allocate the genlib structure pLib = ALLOC( Mio_Library_t, 1 ); memset( pLib, 0, sizeof(Mio_Library_t) ); pLib->pName = util_strsav( FileName ); pLib->tName2Gate = st_init_table(strcmp, st_strhash); pLib->pMmFlex = Extra_MmFlexStart(); pLib->vCube = Vec_StrAlloc( 100 ); // read the file and clean comments // pBuffer = Io_ReadFileFileContents( FileName, NULL ); // we don't use above function but actually do the same thing explicitly // to handle open_path expansion correctly { FILE * pFile; int nFileSize; // open the BLIF file for binary reading pFile = Io_FileOpen( FileName, "open_path", "rb", 1 ); // pFile = fopen( FileName, "rb" ); // if we got this far, file should be okay otherwise would // have been detected by caller assert ( pFile != NULL ); // get the file size, in bytes fseek( pFile, 0, SEEK_END ); nFileSize = ftell( pFile ); // move the file current reading position to the beginning rewind( pFile ); // load the contents of the file into memory pBuffer = ALLOC( char, nFileSize + 10 ); fread( pBuffer, nFileSize, 1, pFile ); // terminate the string with '\0' pBuffer[ nFileSize ] = '\0'; strcat( pBuffer, "\n.end\n" ); // close file fclose( pFile ); } Io_ReadFileRemoveComments( pBuffer, NULL, NULL ); // parse the contents of the file if ( Mio_LibraryReadInternal( pLib, pBuffer, fExtendedFormat, tExcludeGate, fVerbose ) ) { Mio_LibraryDelete( pLib ); free( pBuffer ); return NULL; } free( pBuffer ); // derive the functinality of gates if ( Mio_LibraryParseFormulas( pLib ) ) { printf( "Mio_LibraryRead: Had problems parsing formulas.\n" ); Mio_LibraryDelete( pLib ); return NULL; } // detect INV and NAND2 Mio_LibraryDetectSpecialGates( pLib ); //Mio_WriteLibrary( stdout, pLib ); return pLib; } /**Function************************************************************* Synopsis [Read the genlib type of library.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Mio_LibraryReadInternal( Mio_Library_t * pLib, char * pBuffer, bool fExtendedFormat, st_table * tExcludeGate, int fVerbose ) { Mio_Gate_t * pGate, ** ppGate; char * pToken; int nGates = 0; int nDel = 0; // start the linked list of gates pLib->pGates = NULL; ppGate = &pLib->pGates; // read gates one by one pToken = strtok( pBuffer, " \t\r\n" ); while ( pToken && strcmp( pToken, MIO_STRING_GATE ) == 0 ) { // derive the next gate pGate = Mio_LibraryReadGate( &pToken, fExtendedFormat ); if ( pGate == NULL ) return 1; // set the library pGate->pLib = pLib; // printf ("Processing: '%s'\n", pGate->pName); if ( tExcludeGate && st_is_member( tExcludeGate, pGate->pName ) ) { //printf ("Excluding: '%s'\n", pGate->pName); Mio_GateDelete( pGate ); nDel++; } else { // add this gate to the list *ppGate = pGate; ppGate = &pGate->pNext; nGates++; // remember this gate by name if ( !st_is_member( pLib->tName2Gate, pGate->pName ) ) st_insert( pLib->tName2Gate, pGate->pName, (char *)pGate ); else printf( "The gate with name \"%s\" appears more than once.\n", pGate->pName ); } } if ( fVerbose ) printf( "The number of gates read = %d.\n", nGates ); // check what is the last word read if ( pToken && strcmp( pToken, ".end" ) != 0 ) return 1; if ( nDel != 0 ) printf( "Actually excluded %d cells\n", nDel ); return 0; } /**Function************************************************************* Synopsis [Read the genlib type of gate.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Mio_Gate_t * Mio_LibraryReadGate( char ** ppToken, bool fExtendedFormat ) { Mio_Gate_t * pGate; Mio_Pin_t * pPin, ** ppPin; char * pToken = *ppToken; // allocate the gate structure pGate = ALLOC( Mio_Gate_t, 1 ); memset( pGate, 0, sizeof(Mio_Gate_t) ); // read the name pToken = strtok( NULL, " \t\r\n" ); pGate->pName = util_strsav( pToken ); // read the area pToken = strtok( NULL, " \t\r\n" ); pGate->dArea = atof( pToken ); // read the formula // first the output name pToken = strtok( NULL, "=" ); pGate->pOutName = chomp( pToken ); // then rest of the expression pToken = strtok( NULL, ";" ); pGate->pForm = util_strsav( pToken ); // read the pin info // start the linked list of pins pGate->pPins = NULL; ppPin = &pGate->pPins; // read gates one by one pToken = strtok( NULL, " \t\r\n" ); while ( pToken && strcmp( pToken, MIO_STRING_PIN ) == 0 ) { // derive the next gate pPin = Mio_LibraryReadPin( &pToken, fExtendedFormat ); if ( pPin == NULL ) { Mio_GateDelete( pGate ); *ppToken = pToken; return NULL; } // add this pin to the list *ppPin = pPin; ppPin = &pPin->pNext; // get the next token pToken = strtok( NULL, " \t\r\n" ); } *ppToken = pToken; return pGate; } /**Function************************************************************* Synopsis [Read the genlib type of pin.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Mio_Pin_t * Mio_LibraryReadPin( char ** ppToken, bool fExtendedFormat ) { Mio_Pin_t * pPin; char * pToken = *ppToken; // allocate the gate structure pPin = ALLOC( Mio_Pin_t, 1 ); memset( pPin, 0, sizeof(Mio_Pin_t) ); // read the name pToken = strtok( NULL, " \t\r\n" ); pPin->pName = util_strsav( pToken ); // read the pin phase pToken = strtok( NULL, " \t\r\n" ); if ( strcmp( pToken, MIO_STRING_UNKNOWN ) == 0 ) pPin->Phase = MIO_PHASE_UNKNOWN; else if ( strcmp( pToken, MIO_STRING_INV ) == 0 ) pPin->Phase = MIO_PHASE_INV; else if ( strcmp( pToken, MIO_STRING_NONINV ) == 0 ) pPin->Phase = MIO_PHASE_NONINV; else { printf( "Cannot read pin phase specification\n" ); Mio_PinDelete( pPin ); *ppToken = pToken; return NULL; } pToken = strtok( NULL, " \t\r\n" ); pPin->dLoadInput = atof( pToken ); pToken = strtok( NULL, " \t\r\n" ); pPin->dLoadMax = atof( pToken ); pToken = strtok( NULL, " \t\r\n" ); pPin->dDelayBlockRise = atof( pToken ); pToken = strtok( NULL, " \t\r\n" ); pPin->dDelayFanoutRise = atof( pToken ); pToken = strtok( NULL, " \t\r\n" ); pPin->dDelayBlockFall = atof( pToken ); pToken = strtok( NULL, " \t\r\n" ); pPin->dDelayFanoutFall = atof( pToken ); if ( fExtendedFormat ) { /* In extended format, the field after dDelayFanoutRise * is to be ignored **/ pPin->dDelayBlockFall = pPin->dDelayFanoutFall; pToken = strtok( NULL, " \t" ); pPin->dDelayFanoutFall = atof( pToken ); /* last field is ignored */ pToken = strtok( NULL, " \t\r\n" ); } if ( pPin->dDelayBlockRise > pPin->dDelayBlockFall ) pPin->dDelayBlockMax = pPin->dDelayBlockRise; else pPin->dDelayBlockMax = pPin->dDelayBlockFall; *ppToken = pToken; return pPin; } /**Function************************************************************* Synopsis [Duplicates string and returns it with leading and trailing spaces removed.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ char *chomp( char *s ) { char *b = ALLOC(char, strlen(s)+1), *c = b; while (*s && isspace(*s)) ++s; while (*s && !isspace(*s)) *c++ = *s++; *c = 0; return b; } /**Function************************************************************* Synopsis [Duplicates string and returns it with leading and trailing spaces removed.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Mio_LibraryDetectSpecialGates( Mio_Library_t * pLib ) { Mio_Gate_t * pGate; DdNode * bFuncBuf, * bFuncInv, * bFuncNand2, * bFuncAnd2; bFuncBuf = pLib->dd->vars[0]; Cudd_Ref( bFuncBuf ); bFuncInv = Cudd_Not( pLib->dd->vars[0] ); Cudd_Ref( bFuncInv ); bFuncNand2 = Cudd_bddNand( pLib->dd, pLib->dd->vars[0], pLib->dd->vars[1] ); Cudd_Ref( bFuncNand2 ); bFuncAnd2 = Cudd_bddAnd( pLib->dd, pLib->dd->vars[0], pLib->dd->vars[1] ); Cudd_Ref( bFuncAnd2 ); // get buffer Mio_LibraryForEachGate( pLib, pGate ) if ( pLib->pGateBuf == NULL && pGate->bFunc == bFuncBuf ) { pLib->pGateBuf = pGate; break; } if ( pLib->pGateBuf == NULL ) { printf( "Warnings: GENLIB library reader cannot detect the buffer gate.\n" ); printf( "Some parts of the supergate-based technology mapper may not work correctly.\n" ); } // get inverter Mio_LibraryForEachGate( pLib, pGate ) if ( pLib->pGateInv == NULL && pGate->bFunc == bFuncInv ) { pLib->pGateInv = pGate; break; } if ( pLib->pGateInv == NULL ) { printf( "Warnings: GENLIB library reader cannot detect the invertor gate.\n" ); printf( "Some parts of the supergate-based technology mapper may not work correctly.\n" ); } // get the NAND2 and AND2 gates Mio_LibraryForEachGate( pLib, pGate ) if ( pLib->pGateNand2 == NULL && pGate->bFunc == bFuncNand2 ) { pLib->pGateNand2 = pGate; break; } Mio_LibraryForEachGate( pLib, pGate ) if ( pLib->pGateAnd2 == NULL && pGate->bFunc == bFuncAnd2 ) { pLib->pGateAnd2 = pGate; break; } if ( pLib->pGateAnd2 == NULL && pLib->pGateNand2 == NULL ) { printf( "Warnings: GENLIB library reader cannot detect the AND2 or NAND2 gate.\n" ); printf( "Some parts of the supergate-based technology mapper may not work correctly.\n" ); } Cudd_RecursiveDeref( pLib->dd, bFuncInv ); Cudd_RecursiveDeref( pLib->dd, bFuncNand2 ); Cudd_RecursiveDeref( pLib->dd, bFuncAnd2 ); } /**Function************************************************************* Synopsis [populate hash table of gates to be exlcuded from genlib] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Mio_LibraryReadExclude( Abc_Frame_t * pAbc, char * ExcludeFile, st_table * tExcludeGate ) { int nDel = 0; FILE *pEx; char buffer[128]; assert ( tExcludeGate ); if ( ExcludeFile ) { pEx = fopen( ExcludeFile, "r" ); if ( pEx == NULL ) { fprintf ( Abc_FrameReadErr( pAbc ), "Error: Could not open exclude file %s. Stop.\n", ExcludeFile ); return -1; } while (1 == fscanf( pEx, "%127s", buffer )) { //printf ("Read: '%s'\n", buffer ); st_insert( tExcludeGate, util_strsav( buffer ), (char *)0 ); nDel++; } fclose( pEx ); } return nDel; } /**Function************************************************************* Synopsis [Eliminates comments from the input file.] Description [As a byproduct, this procedure also counts the number lines and dot-statements in the input file. This also joins non-comment lines that are joined with a backspace '\'] SideEffects [] SeeAlso [] ***********************************************************************/ void Io_ReadFileRemoveComments( char * pBuffer, int * pnDots, int * pnLines ) { char * pCur; int nDots, nLines; // scan through the buffer and eliminate comments // (in the BLIF file, comments are lines starting with "#") nDots = nLines = 0; for ( pCur = pBuffer; *pCur; pCur++ ) { // if this is the beginning of comment // clean it with spaces until the new line statement if ( *pCur == '#' ) while ( *pCur != '\n' ) *pCur++ = ' '; // count the number of new lines and dots if ( *pCur == '\n' ) { if (*(pCur-1)=='\r') { // DOS(R) file support if (*(pCur-2)!='\\') nLines++; else { // rewind to backslash and overwrite with a space *(pCur-2) = ' '; *(pCur-1) = ' '; *pCur = ' '; } } else { // UNIX(TM) file support if (*(pCur-1)!='\\') nLines++; else { // rewind to backslash and overwrite with a space *(pCur-1) = ' '; *pCur = ' '; } } } else if ( *pCur == '.' ) nDots++; } if ( pnDots ) *pnDots = nDots; if ( pnLines ) *pnLines = nLines; } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// ////////////////////////////////////////////////////////////////////////