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/******************************************************************************\
* *
* SimpleCUDD library ( www . cs . kuleuven . be / ~ theo / tools / simplecudd . html ) *
* SimpleCUDD was developed at Katholieke Universiteit Leuven ( www . kuleuven . be ) *
* *
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* Copyright Katholieke Universiteit Leuven 2008 , 2009 , 2010 *
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* *
* Author : Theofrastos Mantadelis *
* File : simplecudd . c *
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* $ Date : : 2011 - 04 - 11 17 : 23 : 11 + 0200 ( Mon , 11 Apr 2011 ) $ *
* $ Revision : : 5920 $ *
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# include "simplecudd.h"
/* BDD manager initialization */
int _debug = 0 ;
int _RapidLoad = 0 ;
int _maxbufsize = 0 ;
DdManager * simpleBDDinit ( int varcnt ) {
DdManager * temp ;
temp = Cudd_Init ( varcnt , 0 , CUDD_UNIQUE_SLOTS , CUDD_CACHE_SLOTS , 0 ) ;
Cudd_AutodynEnable ( temp , CUDD_REORDER_GROUP_SIFT ) ;
Cudd_SetMaxCacheHard ( temp , 1024 * 1024 * 1024 ) ;
Cudd_SetLooseUpTo ( temp , 1024 * 1024 * 512 ) ;
if ( _debug ) Cudd_EnableReorderingReporting ( temp ) ;
return temp ;
}
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DdManager * simpleBDDinitNoReOrder ( int varcnt ) {
DdManager * temp ;
temp = Cudd_Init ( varcnt , 0 , CUDD_UNIQUE_SLOTS , CUDD_CACHE_SLOTS , 0 ) ;
Cudd_AutodynDisable ( temp ) ; // Cudd_AutodynEnable(temp, CUDD_REORDER_NONE);
Cudd_SetMaxCacheHard ( temp , 1024 * 1024 * 1024 ) ;
Cudd_SetLooseUpTo ( temp , 1024 * 1024 * 512 ) ;
if ( _debug ) Cudd_EnableReorderingReporting ( temp ) ;
return temp ;
}
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/* BDD tree travesrsing */
DdNode * HighNodeOf ( DdManager * manager , DdNode * node ) {
DdNode * tmp ;
if ( IsHigh ( manager , node ) ) return HIGH ( manager ) ;
if ( IsLow ( manager , node ) ) return LOW ( manager ) ;
tmp = Cudd_Regular ( node ) ;
if ( Cudd_IsComplement ( node ) ) return NOT ( tmp - > type . kids . T ) ;
return tmp - > type . kids . T ;
}
DdNode * LowNodeOf ( DdManager * manager , DdNode * node ) {
DdNode * tmp ;
if ( IsHigh ( manager , node ) ) return HIGH ( manager ) ;
if ( IsLow ( manager , node ) ) return LOW ( manager ) ;
tmp = Cudd_Regular ( node ) ;
if ( Cudd_IsComplement ( node ) ) return NOT ( tmp - > type . kids . E ) ;
return tmp - > type . kids . E ;
}
/* BDD tree generation */
DdNode * D_BDDAnd ( DdManager * manager , DdNode * bdd1 , DdNode * bdd2 ) {
DdNode * tmp ;
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Cudd_Ref ( bdd1 ) ;
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tmp = Cudd_bddAnd ( manager , bdd1 , bdd2 ) ;
Cudd_Ref ( tmp ) ;
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//Cudd_RecursiveDeref(manager, bdd2);
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return tmp ;
}
DdNode * D_BDDNand ( DdManager * manager , DdNode * bdd1 , DdNode * bdd2 ) {
DdNode * tmp ;
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Cudd_Ref ( bdd1 ) ;
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tmp = Cudd_bddNand ( manager , bdd1 , bdd2 ) ;
Cudd_Ref ( tmp ) ;
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//Cudd_RecursiveDeref(manager, bdd2);
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return tmp ;
}
DdNode * D_BDDOr ( DdManager * manager , DdNode * bdd1 , DdNode * bdd2 ) {
DdNode * tmp ;
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Cudd_Ref ( bdd1 ) ;
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tmp = Cudd_bddOr ( manager , bdd1 , bdd2 ) ;
Cudd_Ref ( tmp ) ;
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//Cudd_RecursiveDeref(manager, bdd2);
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return tmp ;
}
DdNode * D_BDDNor ( DdManager * manager , DdNode * bdd1 , DdNode * bdd2 ) {
DdNode * tmp ;
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Cudd_Ref ( bdd1 ) ;
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tmp = Cudd_bddNor ( manager , bdd1 , bdd2 ) ;
Cudd_Ref ( tmp ) ;
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//Cudd_RecursiveDeref(manager, bdd2);
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return tmp ;
}
DdNode * D_BDDXor ( DdManager * manager , DdNode * bdd1 , DdNode * bdd2 ) {
DdNode * tmp ;
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Cudd_Ref ( bdd1 ) ;
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tmp = Cudd_bddXor ( manager , bdd1 , bdd2 ) ;
Cudd_Ref ( tmp ) ;
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//Cudd_RecursiveDeref(manager, bdd2);
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return tmp ;
}
DdNode * D_BDDXnor ( DdManager * manager , DdNode * bdd1 , DdNode * bdd2 ) {
DdNode * tmp ;
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Cudd_Ref ( bdd1 ) ;
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tmp = Cudd_bddXnor ( manager , bdd1 , bdd2 ) ;
Cudd_Ref ( tmp ) ;
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//Cudd_RecursiveDeref(manager, bdd2);
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return tmp ;
}
/* file manipulation */
bddfileheader ReadFileHeader ( char * filename ) {
bddfileheader temp ;
char * header ;
temp . inputfile = NULL ;
temp . version = 0 ;
temp . varcnt = 0 ;
temp . varstart = 0 ;
temp . intercnt = 0 ;
temp . filetype = BDDFILE_OTHER ;
if ( ( temp . inputfile = fopen ( filename , " r " ) ) = = NULL ) {
perror ( filename ) ;
temp . filetype = BDDFILE_ERROR ;
return temp ;
}
// Read file header
if ( ! feof ( temp . inputfile ) ) {
header = freadline ( temp . inputfile ) ;
temp . version = CheckFileVersion ( header ) ;
if ( temp . version > - 1 ) temp . filetype = ( strlen ( header ) = = 5 ) * BDDFILE_SCRIPT + ( strlen ( header ) = = 7 ) * BDDFILE_NODEDUMP ;
free ( header ) ;
switch ( temp . filetype ) {
case BDDFILE_SCRIPT :
switch ( temp . version ) {
case 1 :
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case 2 :
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fscanf ( temp . inputfile , " %i \n " , & temp . varcnt ) ;
fscanf ( temp . inputfile , " %i \n " , & temp . varstart ) ;
fscanf ( temp . inputfile , " %i \n " , & temp . intercnt ) ;
break ;
default :
fclose ( temp . inputfile ) ;
temp . inputfile = NULL ;
break ;
}
break ;
case BDDFILE_NODEDUMP :
switch ( temp . version ) {
case 1 :
fscanf ( temp . inputfile , " %i \n " , & temp . varcnt ) ;
fscanf ( temp . inputfile , " %i \n " , & temp . varstart ) ;
break ;
default :
fclose ( temp . inputfile ) ;
temp . inputfile = NULL ;
break ;
}
break ;
case BDDFILE_OTHER :
fclose ( temp . inputfile ) ;
temp . inputfile = NULL ;
break ;
default :
fclose ( temp . inputfile ) ;
temp . inputfile = NULL ;
break ;
}
}
return temp ;
}
int CheckFileVersion ( const char * version ) {
if ( strlen ( version ) < 5 ) return - 1 ;
if ( strlen ( version ) = = 5 & & version [ 0 ] = = ' @ ' & & version [ 1 ] = = ' B ' & & version [ 2 ] = = ' D ' & & version [ 3 ] = = ' D ' ) return atoi ( version + 4 ) ;
if ( strlen ( version ) = = 7 & & version [ 0 ] = = ' @ ' & & version [ 1 ] = = ' N ' & & version [ 2 ] = = ' O ' & & version [ 3 ] = = ' D '
& & version [ 4 ] = = ' E ' & & version [ 5 ] = = ' S ' ) return atoi ( version + 6 ) ;
return - 1 ;
}
int simpleBDDtoDot ( DdManager * manager , DdNode * bdd , char * filename ) {
DdNode * f [ 1 ] ;
int ret ;
FILE * fd ;
f [ 0 ] = Cudd_BddToAdd ( manager , bdd ) ;
fd = fopen ( filename , " w " ) ;
if ( fd = = NULL ) {
perror ( filename ) ;
return - 1 ;
}
ret = Cudd_DumpDot ( manager , 1 , f , NULL , NULL , fd ) ;
fclose ( fd ) ;
return ret ;
}
int simpleNamedBDDtoDot ( DdManager * manager , namedvars varmap , DdNode * bdd , char * filename ) {
DdNode * f [ 1 ] ;
int ret ;
FILE * fd ;
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// Reordering until getting the optimal bdd //
/* Cudd_AutodynDisable(manager);
Cudd_ReduceHeap ( manager , CUDD_REORDER_SIFT_CONVERGE , 1 ) ; */
// better before making an ADD //
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f [ 0 ] = Cudd_BddToAdd ( manager , bdd ) ;
fd = fopen ( filename , " w " ) ;
if ( fd = = NULL ) {
perror ( filename ) ;
return - 1 ;
}
ret = Cudd_DumpDot ( manager , 1 , f , varmap . vars , NULL , fd ) ;
fclose ( fd ) ;
return ret ;
}
int SaveNodeDump ( DdManager * manager , namedvars varmap , DdNode * bdd , char * filename ) {
hisqueue * Nodes ;
FILE * outputfile ;
int i ;
if ( ( outputfile = fopen ( filename , " w " ) ) = = NULL ) {
perror ( filename ) ;
return - 1 ;
}
fprintf ( outputfile , " %s \n %i \n %i \n " , " @NODES1 " , varmap . varcnt , varmap . varstart ) ;
Nodes = InitHistory ( varmap . varcnt ) ;
for ( i = 0 ; i < varmap . varcnt ; i + + )
fprintf ( outputfile , " %s \t %i \n " , varmap . vars [ i ] , Cudd_ReadPerm ( manager , i ) ) ;
if ( bdd = = HIGH ( manager ) ) fprintf ( outputfile , " TRUE \t 0 \t TRUE \t 0 \t TRUE \t 0 \n " ) ;
else if ( bdd = = LOW ( manager ) ) fprintf ( outputfile , " FALSE \t 0 \t FALSE \t 0 \t FALSE \t 0 \n " ) ;
else SaveExpand ( manager , varmap , Nodes , bdd , outputfile ) ;
ReInitHistory ( Nodes , varmap . varcnt ) ;
free ( Nodes ) ;
fclose ( outputfile ) ;
return 0 ;
}
void SaveExpand ( DdManager * manager , namedvars varmap , hisqueue * Nodes , DdNode * Current , FILE * outputfile ) {
DdNode * h , * l ;
hisnode * Found ;
char * curnode ;
int inode ;
if ( Current ! = HIGH ( manager ) & & Current ! = LOW ( manager ) ) {
if ( ( Found = GetNode ( Nodes , varmap . varstart , Current ) ) = = NULL ) {
AddNode ( Nodes , varmap . varstart , Current , 0.0 , 0 , NULL ) ;
Found = GetNode ( Nodes , varmap . varstart , Current ) ;
}
if ( ! ( Found - > ivalue ) ) {
Found - > ivalue = 1 ;
curnode = GetNodeVarNameDisp ( manager , varmap , Current ) ;
inode = GetNodeIndex ( Nodes , varmap . varstart , Current ) ;
fprintf ( outputfile , " %s \t %i \t " , curnode , inode ) ;
h = HighNodeOf ( manager , Current ) ;
if ( h = = HIGH ( manager ) ) {
fprintf ( outputfile , " TRUE \t 0 \t " ) ;
} else if ( h = = LOW ( manager ) ) {
fprintf ( outputfile , " FALSE \t 0 \t " ) ;
} else {
if ( GetNode ( Nodes , varmap . varstart , h ) = = NULL ) AddNode ( Nodes , varmap . varstart , h , 0.0 , 0 , NULL ) ;
curnode = GetNodeVarNameDisp ( manager , varmap , h ) ;
inode = GetNodeIndex ( Nodes , varmap . varstart , h ) ;
fprintf ( outputfile , " %s \t %i \t " , curnode , inode ) ;
}
l = LowNodeOf ( manager , Current ) ;
if ( l = = HIGH ( manager ) ) {
fprintf ( outputfile , " TRUE \t 0 \n " ) ;
} else if ( l = = LOW ( manager ) ) {
fprintf ( outputfile , " FALSE \t 0 \n " ) ;
} else {
if ( GetNode ( Nodes , varmap . varstart , l ) = = NULL ) AddNode ( Nodes , varmap . varstart , l , 0.0 , 0 , NULL ) ;
curnode = GetNodeVarNameDisp ( manager , varmap , l ) ;
inode = GetNodeIndex ( Nodes , varmap . varstart , l ) ;
fprintf ( outputfile , " %s \t %i \n " , curnode , inode ) ;
}
SaveExpand ( manager , varmap , Nodes , l , outputfile ) ;
SaveExpand ( manager , varmap , Nodes , h , outputfile ) ;
}
}
}
DdNode * LoadNodeDump ( DdManager * manager , namedvars varmap , FILE * inputfile ) {
hisqueue * Nodes ;
nodeline temp ;
DdNode * ret ;
int i , pos , * perm ;
char * varnam ;
perm = ( int * ) malloc ( sizeof ( int ) * varmap . varcnt ) ;
Nodes = InitHistory ( varmap . varcnt ) ;
for ( i = 0 ; i < varmap . varcnt ; i + + ) {
varnam = freadstr ( inputfile , " \t " ) ;
pos = atoi ( freadstr ( inputfile , " \n " ) ) ;
AddNamedVarAt ( varmap , varnam , pos ) ;
perm [ pos ] = pos ;
}
temp . varname = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \t " , & temp . nodenum ) ;
temp . truevar = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \t " , & temp . truenode ) ;
temp . falsevar = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \n " , & temp . falsenode ) ;
ret = LoadNodeRec ( manager , varmap , Nodes , inputfile , temp ) ;
free ( temp . varname ) ;
free ( temp . truevar ) ;
free ( temp . falsevar ) ;
fclose ( inputfile ) ;
ReInitHistory ( Nodes , varmap . varcnt ) ;
free ( Nodes ) ;
Cudd_Ref ( ret ) ;
Cudd_ShuffleHeap ( manager , perm ) ;
for ( i = 0 ; i < varmap . varcnt ; i + + ) varmap . ivalue [ i ] = 0 ;
return ret ;
}
DdNode * LoadNodeRec ( DdManager * manager , namedvars varmap , hisqueue * Nodes , FILE * inputfile , nodeline current ) {
nodeline temp ;
DdNode * newnode , * truenode , * falsenode ;
int index ;
newnode = GetIfExists ( manager , varmap , Nodes , current . varname , current . nodenum ) ;
if ( newnode ! = NULL ) return newnode ;
falsenode = GetIfExists ( manager , varmap , Nodes , current . falsevar , current . falsenode ) ;
if ( falsenode = = NULL ) {
temp . varname = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \t " , & temp . nodenum ) ;
temp . truevar = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \t " , & temp . truenode ) ;
temp . falsevar = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \n " , & temp . falsenode ) ;
falsenode = LoadNodeRec ( manager , varmap , Nodes , inputfile , temp ) ;
free ( temp . varname ) ;
free ( temp . truevar ) ;
free ( temp . falsevar ) ;
}
truenode = GetIfExists ( manager , varmap , Nodes , current . truevar , current . truenode ) ;
if ( truenode = = NULL ) {
temp . varname = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \t " , & temp . nodenum ) ;
temp . truevar = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \t " , & temp . truenode ) ;
temp . falsevar = freadstr ( inputfile , " \t " ) ;
fscanf ( inputfile , " %i \n " , & temp . falsenode ) ;
truenode = LoadNodeRec ( manager , varmap , Nodes , inputfile , temp ) ;
free ( temp . varname ) ;
free ( temp . truevar ) ;
free ( temp . falsevar ) ;
}
index = GetNamedVarIndex ( varmap , current . varname ) ;
if ( ! varmap . ivalue [ index ] ) {
varmap . ivalue [ index ] = 1 ;
newnode = GetVar ( manager , varmap . varstart + index ) ;
//Cudd_RecursiveDeref(manager, newnode->type.kids.T);
//Cudd_RecursiveDeref(manager, newnode->type.kids.E);
newnode - > type . kids . T = Cudd_NotCond ( truenode , Cudd_IsComplement ( truenode ) ) ;
newnode - > type . kids . E = Cudd_NotCond ( falsenode , Cudd_IsComplement ( truenode ) ) ;
Cudd_Ref ( newnode - > type . kids . T ) ;
Cudd_Ref ( newnode - > type . kids . E ) ;
Cudd_Ref ( newnode ) ;
} else {
if ( _RapidLoad = = 1 ) {
newnode = cuddAllocNode ( manager ) ;
if ( newnode ! = NULL ) {
newnode - > index = varmap . varstart + index ;
newnode - > type . kids . T = Cudd_NotCond ( truenode , Cudd_IsComplement ( truenode ) ) ;
newnode - > type . kids . E = Cudd_NotCond ( falsenode , Cudd_IsComplement ( truenode ) ) ;
Cudd_Ref ( newnode - > type . kids . T ) ;
Cudd_Ref ( newnode - > type . kids . E ) ;
Cudd_Ref ( newnode ) ;
}
} else {
newnode = cuddUniqueInter ( manager , varmap . varstart + index , Cudd_NotCond ( truenode , Cudd_IsComplement ( truenode ) ) , Cudd_NotCond ( falsenode , Cudd_IsComplement ( truenode ) ) ) ;
if ( newnode ! = NULL ) {
Cudd_Ref ( newnode ) ;
} else {
newnode = cuddAllocNode ( manager ) ;
if ( newnode ! = NULL ) {
newnode - > index = varmap . varstart + index ;
newnode - > type . kids . T = Cudd_NotCond ( truenode , Cudd_IsComplement ( truenode ) ) ;
newnode - > type . kids . E = Cudd_NotCond ( falsenode , Cudd_IsComplement ( truenode ) ) ;
Cudd_Ref ( newnode - > type . kids . T ) ;
Cudd_Ref ( newnode - > type . kids . E ) ;
Cudd_Ref ( newnode ) ;
}
}
}
}
if ( newnode ! = NULL ) {
Nodes [ index ] . thenode [ current . nodenum ] . key = Cudd_NotCond ( newnode , Cudd_IsComplement ( truenode ) ) ;
return Cudd_NotCond ( newnode , Cudd_IsComplement ( truenode ) ) ;
}
return NULL ;
}
DdNode * GetIfExists ( DdManager * manager , namedvars varmap , hisqueue * Nodes , char * varname , int nodenum ) {
int index ;
if ( strcmp ( varname , " TRUE " ) = = 0 ) return HIGH ( manager ) ;
if ( strcmp ( varname , " FALSE " ) = = 0 ) return LOW ( manager ) ;
index = GetNamedVarIndex ( varmap , varname ) ;
if ( index = = - 1 * varmap . varcnt ) {
fprintf ( stderr , " Error: more variables requested than initialized. \n " ) ;
exit ( - 1 ) ;
}
if ( ( index < 0 ) | | ( index = = 0 & & varmap . vars [ 0 ] = = NULL ) ) {
index = AddNamedVar ( varmap , varname ) ;
}
ExpandNodes ( Nodes , index , nodenum ) ;
if ( Nodes [ index ] . thenode [ nodenum ] . key ! = NULL ) return Nodes [ index ] . thenode [ nodenum ] . key ;
return NULL ;
}
void ExpandNodes ( hisqueue * Nodes , int index , int nodenum ) {
int i ;
if ( Nodes [ index ] . cnt > nodenum ) return ;
Nodes [ index ] . thenode = ( hisnode * ) realloc ( Nodes [ index ] . thenode , ( nodenum + 1 ) * sizeof ( hisnode ) ) ;
for ( i = Nodes [ index ] . cnt ; i < nodenum + 1 ; i + + ) {
Nodes [ index ] . thenode [ i ] . key = NULL ;
Nodes [ index ] . thenode [ i ] . ivalue = 0 ;
Nodes [ index ] . thenode [ i ] . dvalue = 0.0 ;
Nodes [ index ] . thenode [ i ] . dynvalue = NULL ;
}
Nodes [ index ] . cnt = nodenum + 1 ;
}
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char * * GetVariableOrder ( char * filename , int varcnt ) {
FILE * data ;
char * dataread , buf , * * varname ;
int icur = 0 , maxbufsize = 10 , index = - 1 ;
if ( ( data = fopen ( filename , " r " ) ) = = NULL ) {
perror ( filename ) ;
return NULL ;
}
varname = ( char * * ) malloc ( sizeof ( char * ) * varcnt ) ;
dataread = ( char * ) malloc ( sizeof ( char ) * maxbufsize ) ;
while ( ! feof ( data ) ) {
fread ( & buf , 1 , 1 , data ) ;
if ( buf = = ' \n ' ) {
dataread [ icur ] = ' \0 ' ;
icur = 0 ;
buf = ' ' ;
if ( dataread [ 0 ] = = ' @ ' ) {
index + + ;
varname [ index ] = ( char * ) malloc ( sizeof ( char ) * strlen ( dataread ) ) ;
strcpy ( varname [ index ] , dataread + 1 ) ;
}
} else {
dataread [ icur ] = buf ;
icur + + ;
if ( icur = = _maxbufsize ) {
fprintf ( stderr , " Error: Maximum buffer size(%i) exceeded. \n " , _maxbufsize ) ;
fclose ( data ) ;
free ( varname ) ;
free ( dataread ) ;
return NULL ;
}
while ( icur > maxbufsize - 1 ) {
maxbufsize * = 2 ;
dataread = ( char * ) realloc ( dataread , sizeof ( char ) * maxbufsize ) ;
}
}
}
fclose ( data ) ;
free ( dataread ) ;
for ( icur = index + 1 ; icur < varcnt ; icur + + )
varname [ icur ] = NULL ;
return varname ;
}
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int LoadVariableData ( namedvars varmap , char * filename ) {
FILE * data ;
char * dataread , buf , * varname , * dynvalue ;
double dvalue = 0.0 ;
int icur = 0 , maxbufsize = 10 , hasvar = 0 , index = - 1 , idat = 0 , ivalue = 0 ;
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dynvalue = NULL ; varname = NULL ;
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if ( ( data = fopen ( filename , " r " ) ) = = NULL ) {
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perror ( filename ) ;
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return - 1 ;
}
dataread = ( char * ) malloc ( sizeof ( char ) * maxbufsize ) ;
while ( ! feof ( data ) ) {
fread ( & buf , 1 , 1 , data ) ;
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if ( ( buf = = ' \n ' ) & & icur = = 0 ) {
// ignore empty lines
} else if ( buf = = ' \n ' ) {
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dataread [ icur ] = ' \0 ' ;
icur = 0 ;
buf = ' ' ;
if ( dataread [ 0 ] = = ' @ ' ) {
if ( hasvar ) {
for ( index = 0 ; index < varmap . varcnt ; index + + ) {
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if ( ( varmap . vars [ index ] ! = NULL ) & & ( patternmatch ( varname , varmap . vars [ index ] ) ) ) {
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varmap . loaded [ index ] = 1 ;
varmap . dvalue [ index ] = dvalue ;
varmap . ivalue [ index ] = ivalue ;
if ( varmap . dynvalue [ index ] ! = NULL ) {
free ( varmap . dynvalue [ index ] ) ;
varmap . dynvalue [ index ] = NULL ;
}
if ( dynvalue ! = NULL ) {
varmap . dynvalue [ index ] = ( void * ) malloc ( sizeof ( char ) * ( strlen ( dynvalue ) + 1 ) ) ;
strcpy ( varmap . dynvalue [ index ] , dynvalue ) ;
}
}
}
dvalue = 0.0 ;
ivalue = 0 ;
if ( dynvalue ! = NULL ) {
free ( dynvalue ) ;
dynvalue = NULL ;
}
free ( varname ) ;
}
varname = ( char * ) malloc ( sizeof ( char ) * strlen ( dataread ) ) ;
strcpy ( varname , dataread + 1 ) ;
hasvar = 1 ;
idat = 0 ;
} else {
if ( hasvar > = 0 ) {
switch ( idat ) {
case 0 :
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if ( ! getRealNumber ( dataread , & dvalue ) ) {
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fprintf ( stderr , " Error at file: %s. Variable: %s can't have non real value: %s. \n " , filename , varname , dataread ) ;
fclose ( data ) ;
free ( varname ) ;
free ( dataread ) ;
return - 2 ;
}
idat + + ;
break ;
case 1 :
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if ( ! getIntNumber ( dataread , & ivalue ) ) {
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fprintf ( stderr , " Error at file: %s. Variable: %s can't have non integer value: %s. \n " , filename , varname , dataread ) ;
fclose ( data ) ;
free ( varname ) ;
free ( dataread ) ;
return - 2 ;
}
idat + + ;
break ;
case 2 :
dynvalue = malloc ( sizeof ( char ) * ( strlen ( dataread ) + 1 ) ) ;
strcpy ( dynvalue , dataread ) ;
break ;
}
}
}
} else {
dataread [ icur ] = buf ;
icur + + ;
if ( icur = = _maxbufsize ) {
fprintf ( stderr , " Error: Maximum buffer size(%i) exceeded. \n " , _maxbufsize ) ;
fclose ( data ) ;
free ( varname ) ;
free ( dataread ) ;
return - 2 ;
}
while ( icur > maxbufsize - 1 ) {
maxbufsize * = 2 ;
dataread = ( char * ) realloc ( dataread , sizeof ( char ) * maxbufsize ) ;
}
}
}
if ( hasvar ) {
for ( index = 0 ; index < varmap . varcnt ; index + + ) {
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if ( ( varmap . vars [ index ] ! = NULL ) & & ( patternmatch ( varname , varmap . vars [ index ] ) ) ) {
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varmap . loaded [ index ] = 1 ;
varmap . dvalue [ index ] = dvalue ;
varmap . ivalue [ index ] = ivalue ;
if ( dynvalue ! = NULL ) {
varmap . dynvalue [ index ] = ( void * ) malloc ( sizeof ( char ) * ( strlen ( dynvalue ) + 1 ) ) ;
strcpy ( varmap . dynvalue [ index ] , dynvalue ) ;
}
}
}
if ( dynvalue ! = NULL ) {
free ( dynvalue ) ;
dynvalue = NULL ;
}
free ( varname ) ;
}
fclose ( data ) ;
free ( dataread ) ;
return 0 ;
}
/* Queue for node storing to avoid loops */
hisqueue * InitHistory ( int varcnt ) {
int i ;
hisqueue * HisQueue ;
HisQueue = ( hisqueue * ) malloc ( sizeof ( hisqueue ) * varcnt ) ;
for ( i = 0 ; i < varcnt ; i + + ) {
HisQueue [ i ] . thenode = NULL ;
HisQueue [ i ] . cnt = 0 ;
}
return HisQueue ;
}
void ReInitHistory ( hisqueue * HisQueue , int varcnt ) {
int i , j ;
for ( i = 0 ; i < varcnt ; i + + ) {
if ( HisQueue [ i ] . thenode ! = NULL ) {
for ( j = 0 ; j < HisQueue [ i ] . cnt ; j + + )
if ( HisQueue [ i ] . thenode [ j ] . dynvalue ! = NULL ) free ( HisQueue [ i ] . thenode [ j ] . dynvalue ) ;
free ( HisQueue [ i ] . thenode ) ;
HisQueue [ i ] . thenode = NULL ;
}
HisQueue [ i ] . cnt = 0 ;
}
}
void AddNode ( hisqueue * HisQueue , int varstart , DdNode * node , double dvalue , int ivalue , void * dynvalue ) {
int index = GetIndex ( node ) - varstart ;
HisQueue [ index ] . thenode = ( hisnode * ) realloc ( HisQueue [ index ] . thenode , ( HisQueue [ index ] . cnt + 1 ) * sizeof ( hisnode ) ) ;
HisQueue [ index ] . thenode [ HisQueue [ index ] . cnt ] . key = node ;
HisQueue [ index ] . thenode [ HisQueue [ index ] . cnt ] . dvalue = dvalue ;
HisQueue [ index ] . thenode [ HisQueue [ index ] . cnt ] . ivalue = ivalue ;
HisQueue [ index ] . thenode [ HisQueue [ index ] . cnt ] . dynvalue = dynvalue ;
HisQueue [ index ] . cnt + = 1 ;
}
hisnode * GetNode ( hisqueue * HisQueue , int varstart , DdNode * node ) {
int i ;
int index = GetIndex ( node ) - varstart ;
for ( i = 0 ; i < HisQueue [ index ] . cnt ; i + + ) {
if ( HisQueue [ index ] . thenode [ i ] . key = = node ) return & ( HisQueue [ index ] . thenode [ i ] ) ;
}
return NULL ;
}
int GetNodeIndex ( hisqueue * HisQueue , int varstart , DdNode * node ) {
int i ;
int index = GetIndex ( node ) - varstart ;
for ( i = 0 ; i < HisQueue [ index ] . cnt ; i + + ) {
if ( HisQueue [ index ] . thenode [ i ] . key = = node ) return i ;
}
return - 1 ;
}
/* Named variables */
namedvars InitNamedVars ( int varcnt , int varstart ) {
namedvars temp ;
int i ;
temp . varcnt = varcnt ;
temp . varstart = varstart ;
temp . vars = ( char * * ) malloc ( sizeof ( char * ) * varcnt ) ;
temp . loaded = ( int * ) malloc ( sizeof ( int ) * varcnt ) ;
temp . dvalue = ( double * ) malloc ( sizeof ( double ) * varcnt ) ;
temp . ivalue = ( int * ) malloc ( sizeof ( int ) * varcnt ) ;
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temp . dynvalue = ( void * * ) malloc ( sizeof ( void * ) * varcnt ) ;
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for ( i = 0 ; i < varcnt ; i + + ) {
temp . vars [ i ] = NULL ;
temp . loaded [ i ] = 0 ;
temp . dvalue [ i ] = 0.0 ;
temp . ivalue [ i ] = 0 ;
temp . dynvalue [ i ] = NULL ;
}
return temp ;
}
void EnlargeNamedVars ( namedvars * varmap , int newvarcnt ) {
int i ;
varmap - > vars = ( char * * ) realloc ( varmap - > vars , sizeof ( char * ) * newvarcnt ) ;
varmap - > loaded = ( int * ) realloc ( varmap - > loaded , sizeof ( int ) * newvarcnt ) ;
varmap - > dvalue = ( double * ) realloc ( varmap - > dvalue , sizeof ( double ) * newvarcnt ) ;
varmap - > ivalue = ( int * ) realloc ( varmap - > ivalue , sizeof ( int ) * newvarcnt ) ;
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varmap - > dynvalue = ( void * * ) realloc ( varmap - > dynvalue , sizeof ( void * ) * newvarcnt ) ;
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for ( i = varmap - > varcnt ; i < newvarcnt ; i + + ) {
varmap - > vars [ i ] = NULL ;
varmap - > loaded [ i ] = 0 ;
varmap - > dvalue [ i ] = 0.0 ;
varmap - > ivalue [ i ] = 0 ;
varmap - > dynvalue [ i ] = NULL ;
}
varmap - > varcnt = newvarcnt ;
}
int AddNamedVarAt ( namedvars varmap , const char * varname , int index ) {
if ( varmap . varcnt > index ) {
varmap . vars [ index ] = ( char * ) malloc ( sizeof ( char ) * ( strlen ( varname ) + 1 ) ) ;
strcpy ( varmap . vars [ index ] , varname ) ;
return index ;
}
return - 1 ;
}
int AddNamedVar ( namedvars varmap , const char * varname ) {
int index = GetNamedVarIndex ( varmap , varname ) ;
if ( index = = - 1 * varmap . varcnt ) {
return - 1 ;
} else if ( ( index < 0 ) | | ( index = = 0 & & varmap . vars [ 0 ] = = NULL ) ) {
index * = - 1 ;
varmap . vars [ index ] = ( char * ) malloc ( sizeof ( char ) * ( strlen ( varname ) + 1 ) ) ;
strcpy ( varmap . vars [ index ] , varname ) ;
}
return index ;
}
void SetNamedVarValuesAt ( namedvars varmap , int index , double dvalue , int ivalue , void * dynvalue ) {
varmap . dvalue [ index ] = dvalue ;
varmap . ivalue [ index ] = ivalue ;
varmap . dynvalue [ index ] = dynvalue ;
}
int SetNamedVarValues ( namedvars varmap , const char * varname , double dvalue , int ivalue , void * dynvalue ) {
int index = GetNamedVarIndex ( varmap , varname ) ;
if ( index = = - 1 * varmap . varcnt ) {
return - 1 ;
} else if ( ( index < 0 ) | | ( index = = 0 & & varmap . vars [ 0 ] = = NULL ) ) {
index * = - 1 ;
varmap . vars [ index ] = ( char * ) malloc ( sizeof ( char ) * ( strlen ( varname ) + 1 ) ) ;
strcpy ( varmap . vars [ index ] , varname ) ;
varmap . dvalue [ index ] = dvalue ;
varmap . ivalue [ index ] = ivalue ;
varmap . dynvalue [ index ] = dynvalue ;
} else {
varmap . dvalue [ index ] = dvalue ;
varmap . ivalue [ index ] = ivalue ;
varmap . dynvalue [ index ] = dynvalue ;
}
return index ;
}
int GetNamedVarIndex ( const namedvars varmap , const char * varname ) {
int i ;
for ( i = 0 ; i < varmap . varcnt ; i + + ) {
if ( varmap . vars [ i ] = = NULL ) return - 1 * i ;
if ( strcmp ( varmap . vars [ i ] , varname ) = = 0 ) return i ;
}
return - 1 * varmap . varcnt ;
}
char * GetNodeVarName ( DdManager * manager , namedvars varmap , DdNode * node ) {
if ( node = = NULL ) return NULL ;
if ( node = = HIGH ( manager ) ) return " true " ;
if ( node = = LOW ( manager ) ) return " false " ;
return varmap . vars [ GetIndex ( node ) - varmap . varstart ] ;
}
char * GetNodeVarNameDisp ( DdManager * manager , namedvars varmap , DdNode * node ) {
if ( HIGH ( manager ) = = node ) return " TRUE " ;
if ( LOW ( manager ) = = node ) return " FALSE " ;
if ( NULL = = node ) return " (null) " ;
return varmap . vars [ GetIndex ( node ) - varmap . varstart ] ;
}
int RepairVarcnt ( namedvars * varmap ) {
while ( varmap - > vars [ varmap - > varcnt - 1 ] = = NULL )
varmap - > varcnt - - ;
return varmap - > varcnt ;
}
int all_loaded ( namedvars varmap , int disp ) {
int i , res = 1 ;
for ( i = 0 ; i < varmap . varcnt ; i + + ) {
if ( varmap . loaded [ i ] = = 0 ) {
res = 0 ;
if ( disp ) fprintf ( stderr , " The variable: %s was not loaded with values. \n " , varmap . vars [ i ] ) ; else return 0 ;
}
}
return res ;
}
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int ImposeOrder ( DdManager * manager , const namedvars varmap , char * * map ) {
int order [ varmap . varcnt ] , i , mappos , index = - 1 , ivar ;
for ( i = 0 ; i < varmap . varcnt ; i + + ) {
if ( map [ i ] ! = NULL ) {
order [ i ] = GetNamedVarIndex ( varmap , map [ i ] ) ;
index = i ;
} else {
order [ i ] = - 1 ;
}
}
index + + ;
for ( i = 0 ; i < varmap . varcnt ; i + + ) {
ivar = Cudd_ReadPerm ( manager , i ) ;
mappos = get_var_pos_in_map ( map , varmap . vars [ ivar ] , varmap . varcnt ) ;
if ( mappos = = - 1 ) {
order [ index ] = ivar ;
index + + ;
}
}
if ( index ! = varmap . varcnt )
fprintf ( stderr , " Warning possible error in: Impose Order... \n " ) ;
return Cudd_ShuffleHeap ( manager , order ) ;
}
int get_var_pos_in_map ( char * * map , const char * var , int varcnt ) {
int i ;
for ( i = 0 ; i < varcnt ; i + + ) {
if ( map [ i ] = = NULL ) return - 1 ;
if ( strcmp ( map [ i ] , var ) = = 0 ) return i ;
}
return - 1 ;
}
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/* Parser */
DdNode * FileGenerateBDD ( DdManager * manager , namedvars varmap , bddfileheader fileheader ) {
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return ( FileGenerateBDDForest ( manager , varmap , fileheader ) ) [ 0 ] ;
}
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// void unreference(DdManager *manager, DdNode ** intermediates, int count){
// // int i;
// // for(i = 0;i<count;i++){
// // if(intermediates[i] != NULL) Cudd_RecursiveDeref(manager,intermediates[i]);
// // }
// }
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DdNode * * FileGenerateBDDForest ( DdManager * manager , namedvars varmap , bddfileheader fileheader ) {
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int icomment , maxlinesize , icur , iline , curinter , iequal ;
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DdNode * Line , * * inter , * * result ;
char buf , * inputline , * filename , * subl ;
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bddfileheader interfileheader ;
// Initialization of intermediate steps
inter = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * fileheader . intercnt ) ;
for ( icur = 0 ; icur < fileheader . intercnt ; icur + + ) inter [ icur ] = NULL ;
// Read file data
interfileheader . inputfile = NULL ;
filename = NULL ; // For nested files
iequal = 0 ; // Flag for encountered = sign
icur = 0 ; // Pointer for inputline buffer location
iline = 5 ; // Current file line (first after header)
icomment = 0 ; // Flag for comments
maxlinesize = 80 ; // inputline starting buffer size
inputline = ( char * ) malloc ( sizeof ( char ) * maxlinesize ) ;
while ( ! feof ( fileheader . inputfile ) ) {
fread ( & buf , 1 , 1 , fileheader . inputfile ) ;
if ( buf = = ' ; ' | | buf = = ' % ' | | buf = = ' $ ' ) icomment = 1 ;
if ( buf = = ' \n ' ) {
if ( icomment ) icomment = 0 ;
if ( iequal > 1 ) {
fprintf ( stderr , " Error at line: %i. Line contains more than 1 equal(=) signs. \n " , iline ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
} else iequal = 0 ;
if ( icur > 0 ) {
inputline [ icur ] = ' \0 ' ;
if ( inputline [ 0 ] ! = ' L ' ) {
fprintf ( stderr , " Error at line: %i. Intermediate results should start with L. \n " , iline ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
curinter = getInterBDD ( inputline ) ;
if ( curinter = = - 1 ) {
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if ( fileheader . version < 2 ) {
if ( inputline [ 0 ] = = ' L ' & & IsPosNumber ( inputline + 1 ) ) {
curinter = atoi ( inputline + 1 ) - 1 ;
if ( curinter > - 1 & & curinter < fileheader . intercnt & & inter [ curinter ] ! = NULL ) {
if ( _debug ) fprintf ( stderr , " Returned: %s \n " , inputline ) ;
fclose ( fileheader . inputfile ) ;
result = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * 1 ) ;
result [ 0 ] = inter [ curinter ] ;
Cudd_Ref ( result [ 0 ] ) ;
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//unreference(manager, inter, fileheader.intercnt);
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free ( inter ) ;
free ( inputline ) ;
return result ;
} else {
fprintf ( stderr , " Error at line: %i. Return result asked doesn't exist. \n " , iline ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
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} else {
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fprintf ( stderr , " Error at line: %i. Invalid intermediate result format. \n " , iline ) ;
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fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
} else {
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// Support for forest
result = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * 10 ) ;
maxlinesize = 10 ;
iline = - 1 ;
for ( subl = strtok ( inputline , " , " ) ; subl ! = NULL ; subl = strtok ( NULL , " , " ) ) {
if ( subl [ 0 ] = = ' L ' & & IsPosNumber ( subl + 1 ) ) {
curinter = atoi ( subl + 1 ) - 1 ;
if ( curinter > - 1 & & curinter < fileheader . intercnt & & inter [ curinter ] ! = NULL ) {
iline + + ;
if ( iline > = ( maxlinesize - 1 ) ) {
maxlinesize * = 2 ;
result = ( DdNode * * ) realloc ( result , sizeof ( DdNode * ) * maxlinesize ) ;
}
Cudd_Ref ( inter [ curinter ] ) ;
result [ iline ] = inter [ curinter ] ;
} else {
fprintf ( stderr , " Error at line: %i. Return result asked(%s) doesn't exist. \n " , iline , subl ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
free ( subl ) ;
return NULL ;
}
} else {
fprintf ( stderr , " Error at line: %i. Invalid intermediate result format. \n " , iline ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
free ( subl ) ;
return NULL ;
}
}
if ( _debug ) fprintf ( stderr , " Returned: %s \n " , inputline ) ;
2009-03-09 00:42:12 +00:00
fclose ( fileheader . inputfile ) ;
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//unreference(manager, inter, fileheader.intercnt);
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free ( inter ) ;
free ( inputline ) ;
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free ( subl ) ;
iline + + ;
result [ iline ] = NULL ;
return result ;
2009-03-09 00:42:12 +00:00
}
} else if ( curinter > - 1 & & curinter < fileheader . intercnt & & inter [ curinter ] = = NULL ) {
if ( _debug ) fprintf ( stderr , " %i %s \n " , curinter , inputline ) ;
filename = getFileName ( inputline ) ;
if ( filename = = NULL ) {
Line = LineParser ( manager , varmap , inter , fileheader . intercnt , inputline , iline ) ;
} else {
interfileheader = ReadFileHeader ( filename ) ;
if ( interfileheader . inputfile = = NULL ) {
//Line = simpleBDDload(manager, &varmap, filename);
Line = NULL ;
} else {
Line = FileGenerateBDD ( manager , varmap , interfileheader ) ;
}
if ( Line = = NULL ) fprintf ( stderr , " Error at line: %i. Error in nested BDD file: %s. \n " , iline , filename ) ;
free ( filename ) ;
filename = NULL ;
interfileheader . inputfile = NULL ;
}
if ( Line = = NULL ) {
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
inter [ curinter ] = Line ;
icur = 0 ;
} else if ( curinter > - 1 & & curinter < fileheader . intercnt & & inter [ curinter ] ! = NULL ) {
fprintf ( stderr , " Error at line: %i. Intermediate results can't be overwritten. \n " , iline ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
} else {
fprintf ( stderr , " Error at line: %i. Intermediate result asked doesn't exist. \n " , iline ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
}
iline + + ;
} else if ( buf ! = ' ' & & buf ! = ' \t ' & & ! icomment ) {
if ( buf = = ' = ' ) iequal + + ;
inputline [ icur ] = buf ;
icur + = 1 ;
if ( icur = = _maxbufsize ) {
fprintf ( stderr , " Error: Maximum buffer size(%i) exceeded. \n " , _maxbufsize ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
while ( icur > maxlinesize - 1 ) {
maxlinesize * = 2 ;
inputline = ( char * ) realloc ( inputline , sizeof ( char ) * maxlinesize ) ;
}
}
}
fprintf ( stderr , " Error, file either doesn't end with a blank line or no return result was asked. \n " ) ;
fclose ( fileheader . inputfile ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
int getInterBDD ( char * function ) {
int i , ret ;
char * inter ;
for ( i = 0 ; i < strlen ( function ) ; i + + ) {
if ( function [ i ] = = ' = ' ) {
inter = ( char * ) malloc ( sizeof ( char ) * i ) ;
strncpy ( inter , function + 1 , i - 1 ) ;
inter [ i - 1 ] = ' \0 ' ;
if ( IsPosNumber ( inter ) ) {
ret = atoi ( inter ) - 1 ;
free ( inter ) ;
return ret ;
} else {
free ( inter ) ;
return - 1 ;
}
}
}
return - 1 ;
}
char * getFileName ( const char * function ) {
int i = 0 ;
char * filename ;
while ( function [ i ] ! = ' = ' & & ( i + 1 ) < strlen ( function ) ) i + + ;
if ( ( i + 1 ) < strlen ( function ) ) {
i + + ;
if ( function [ i ] = = ' < ' & & function [ strlen ( function ) - 1 ] = = ' > ' ) {
filename = ( char * ) malloc ( sizeof ( char ) * strlen ( function ) - i ) ;
strcpy ( filename , function + i + 1 ) ;
filename [ strlen ( function ) - i - 2 ] = ' \0 ' ;
return filename ;
}
}
return NULL ;
}
DdNode * LineParser ( DdManager * manager , namedvars varmap , DdNode * * inter , int maxinter , char * function , int iline ) {
int istart , iend , ilength , i , symbol , ivar , inegvar , inegoper , iconst ;
long startAt , endAt ;
double secs ;
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DdNode * bdd ; //, *temp;
2009-03-09 00:42:12 +00:00
char * term , curoper ;
bdd = HIGH ( manager ) ;
Cudd_Ref ( bdd ) ;
term = NULL ;
ivar = - 1 ;
curoper = ' * ' ;
istart = - 1 ;
iend = strlen ( function ) - 1 ;
ilength = - 1 ;
symbol = - 1 ;
inegvar = 0 ;
inegoper = 0 ;
iconst = 0 ;
for ( i = strlen ( function ) - 1 ; i > - 1 ; i - - ) {
if ( symbol = = - 1 & & isOperator ( function [ i ] ) ) {
symbol = i ;
istart = i + 1 ;
ilength = iend - i ;
iend = i - 1 ;
if ( ilength > 0 & & ! ( ilength = = 1 & & function [ istart ] = = ' ~ ' ) ) {
term = ( char * ) malloc ( sizeof ( char ) * ( ilength + 1 ) ) ;
strncpy ( term , function + istart , ilength ) ;
term [ ilength ] = ' \0 ' ;
} else {
fprintf ( stderr , " Line Parser Error at line: %i. An operator was encounter with no term at its right side. \n " , iline ) ;
free ( term ) ;
return NULL ;
}
}
if ( symbol ! = - 1 ) {
if ( term [ 0 ] = = ' ~ ' ) inegvar = 1 ; else inegvar = 0 ;
if ( term [ 0 + inegvar ] ! = ' L ' ) {
// Term is a variable
if ( strcmp ( term + inegvar , " TRUE " ) = = 0 ) {
iconst = 1 ;
} else if ( strcmp ( term + inegvar , " FALSE " ) = = 0 ) {
iconst = 1 ;
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inegvar = ! inegvar ;
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} else {
iconst = 0 ;
ivar = AddNamedVar ( varmap , term + inegvar ) ;
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/* if (ivar == -1) {
EnlargeNamedVars ( & varmap , varmap . varcnt + 1 ) ;
ivar = AddNamedVar ( varmap , term + inegvar ) ;
} */
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if ( ivar = = - 1 ) {
fprintf ( stderr , " Line Parser Error at line: %i. More BDD variables than the reserved term: %s. \n " , iline , term ) ;
free ( term ) ;
return NULL ;
}
}
if ( _debug ) fprintf ( stderr , " %s \n " , term ) ;
if ( _debug & & ! iconst ) fprintf ( stderr , " PNZ1:%.0f P1:%.0f S1:%i PNZ2:%.0f P2:%.0f S2:%i \n " ,
Cudd_CountPathsToNonZero ( bdd ) ,
Cudd_CountPath ( bdd ) ,
Cudd_DagSize ( bdd ) ,
Cudd_CountPathsToNonZero ( GetVar ( manager , ivar + varmap . varstart ) ) ,
Cudd_CountPath ( GetVar ( manager , ivar + varmap . varstart ) ) ,
Cudd_DagSize ( GetVar ( manager , ivar + varmap . varstart ) ) ) ;
startAt = clock ( ) ;
if ( ! iconst ) {
if ( inegvar ) bdd = BDD_Operator ( manager , NOT ( GetVar ( manager , ivar + varmap . varstart ) ) , bdd , curoper , inegoper ) ;
else bdd = BDD_Operator ( manager , GetVar ( manager , ivar + varmap . varstart ) , bdd , curoper , inegoper ) ;
} else {
switch ( curoper ) {
case ' + ' :
if ( inegvar ^ inegoper ) ; else {
bdd = HIGH ( manager ) ;
Cudd_Ref ( bdd ) ;
}
break ;
case ' * ' :
if ( inegvar ^ inegoper ) {
bdd = LOW ( manager ) ;
Cudd_Ref ( bdd ) ;
}
break ;
case ' # ' :
if ( inegvar ^ inegoper ) ; else bdd = NOT ( bdd ) ;
break ;
}
}
endAt = clock ( ) ;
secs = ( ( double ) ( endAt - startAt ) ) / ( ( double ) CLOCKS_PER_SEC ) ;
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if ( _debug ) fprintf ( stderr , " term: %s of line: %i took: %ld \n " , term , iline , endAt - startAt ) ;
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//if ((endAt - startAt) > 10000000) Cudd_AutodynDisable(manager);
if ( bdd = = NULL ) {
fprintf ( stderr , " Line Parser Error at line: %i. Error using operator %c on term: %s. \n " , iline , curoper , term ) ;
free ( term ) ;
return NULL ;
}
} else {
// Term is an intermediate result
if ( IsPosNumber ( term + inegvar + 1 ) ) ivar = atoi ( term + inegvar + 1 ) - 1 ; else {
fprintf ( stderr , " Line Parser Error at line: %i. Invalid intermediate result format term: %s. \n " , iline , term ) ;
free ( term ) ;
return NULL ;
}
if ( ivar < 0 | | ivar > maxinter | | inter [ ivar ] = = NULL ) {
fprintf ( stderr , " Line Parser Error at line: %i. Usage of undeclared intermediate result term: %s. \n " , iline , term ) ;
free ( term ) ;
return NULL ;
}
if ( _debug ) fprintf ( stderr , " %s \n " , term ) ;
if ( _debug ) fprintf ( stderr , " PNZ1:%.0f P1:%.0f S1:%i PNZ2:%.0f P2:%.0f S2:%i \n " ,
Cudd_CountPathsToNonZero ( bdd ) ,
Cudd_CountPath ( bdd ) ,
Cudd_DagSize ( bdd ) ,
Cudd_CountPathsToNonZero ( inter [ ivar ] ) ,
Cudd_CountPath ( inter [ ivar ] ) ,
Cudd_DagSize ( inter [ ivar ] ) ) ;
startAt = clock ( ) ;
if ( inegvar ) bdd = BDD_Operator ( manager , NOT ( inter [ ivar ] ) , bdd , curoper , inegoper ) ;
else bdd = BDD_Operator ( manager , inter [ ivar ] , bdd , curoper , inegoper ) ;
endAt = clock ( ) ;
secs = ( ( double ) ( endAt - startAt ) ) / ( ( double ) CLOCKS_PER_SEC ) ;
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if ( _debug ) fprintf ( stderr , " term: %s of line: %i took: %ld \n " , term , iline , endAt - startAt ) ;
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//if ((endAt - startAt) > 10000000) Cudd_AutodynDisable(manager);
if ( bdd = = NULL ) {
fprintf ( stderr , " Line Parser Error at line: %i. Error using operator %c on term: %s. \n " , iline , curoper , term ) ;
free ( term ) ;
return NULL ;
}
}
free ( term ) ;
term = NULL ;
curoper = function [ symbol ] ;
if ( curoper = = ' = ' ) return bdd ;
if ( function [ symbol - 1 ] = = ' ~ ' ) {
inegoper = 1 ;
i - - ;
iend - - ;
} else {
inegoper = 0 ;
}
symbol = - 1 ;
}
}
return NULL ;
}
DdNode * BDD_Operator ( DdManager * manager , DdNode * bdd1 , DdNode * bdd2 , char Operator , int inegoper ) {
switch ( Operator ) {
case ' + ' :
if ( inegoper ) return D_BDDNor ( manager , bdd1 , bdd2 ) ;
else return D_BDDOr ( manager , bdd1 , bdd2 ) ;
break ;
case ' * ' :
if ( inegoper ) return D_BDDNand ( manager , bdd1 , bdd2 ) ;
else return D_BDDAnd ( manager , bdd1 , bdd2 ) ;
break ;
case ' # ' :
if ( inegoper ) return D_BDDXnor ( manager , bdd1 , bdd2 ) ;
else return D_BDDXor ( manager , bdd1 , bdd2 ) ;
break ;
default :
return NULL ;
break ;
}
}
DdNode * OnlineGenerateBDD ( DdManager * manager , namedvars * varmap ) {
int icomment , maxlinesize , icur , iline , curinter , iequal , iinters , itmp , i ;
DdNode * Line , * * inter ;
char buf , * inputline , * filename ;
bddfileheader interfileheader ;
// Initialization of intermediate steps
iinters = 1 ;
inter = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * iinters ) ;
for ( icur = 0 ; icur < iinters ; icur + + ) inter [ icur ] = NULL ;
// Read file data
interfileheader . inputfile = NULL ;
filename = NULL ; // For nested files
iequal = 0 ; // Flag for encountered = sign
icur = 0 ; // Pointer for inputline buffer location
iline = 1 ; // Current file line (first after header)
icomment = 0 ; // Flag for comments
maxlinesize = 80 ; // inputline starting buffer size
inputline = ( char * ) malloc ( sizeof ( char ) * maxlinesize ) ;
do {
buf = fgetc ( stdin ) ;
if ( buf = = ' ; ' | | buf = = ' % ' | | buf = = ' $ ' ) icomment = 1 ;
if ( buf = = ' \n ' ) {
if ( icomment ) icomment = 0 ;
if ( iequal > 1 ) {
fprintf ( stderr , " Error at line: %i. Line contains more than 1 equal(=) signs. \n " , iline ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
} else iequal = 0 ;
if ( icur > 0 ) {
inputline [ icur ] = ' \0 ' ;
if ( inputline [ 0 ] = = ' @ ' ) {
if ( inputline [ 1 ] = = ' e ' ) {
free ( inter ) ;
free ( inputline ) ;
exit ( 0 ) ;
} else {
itmp = GetParam ( inputline , 1 ) ;
if ( itmp > varmap - > varcnt )
EnlargeNamedVars ( varmap , itmp ) ;
itmp = GetParam ( inputline , 2 ) ;
if ( itmp > iinters ) {
inter = ( DdNode * * ) realloc ( inter , sizeof ( DdNode * ) * itmp ) ;
for ( i = iinters ; i < itmp ; i + + ) inter [ i ] = NULL ;
iinters = itmp ;
}
}
icur = 0 ;
} else {
if ( inputline [ 0 ] ! = ' L ' ) {
fprintf ( stderr , " Error at line: %i. Intermediate results should start with L. \n " , iline ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
curinter = getInterBDD ( inputline ) ;
if ( curinter = = - 1 ) {
if ( inputline [ 0 ] = = ' L ' & & IsPosNumber ( inputline + 1 ) ) {
curinter = atoi ( inputline + 1 ) - 1 ;
if ( curinter > - 1 & & curinter < iinters & & inter [ curinter ] ! = NULL ) {
if ( _debug ) fprintf ( stderr , " Returned: %s \n " , inputline ) ;
Line = inter [ curinter ] ;
free ( inter ) ;
free ( inputline ) ;
return Line ;
} else {
fprintf ( stderr , " Error at line: %i. Return result asked doesn't exist. \n " , iline ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
} else {
fprintf ( stderr , " Error at line: %i. Invalid intermediate result format. \n " , iline ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
} else if ( curinter > - 1 ) {
if ( curinter > = iinters ) {
inter = ( DdNode * * ) realloc ( inter , sizeof ( DdNode * ) * ( curinter + 1 ) ) ;
for ( i = iinters ; i < curinter + 1 ; i + + ) inter [ i ] = NULL ;
iinters = curinter + 1 ;
}
if ( inter [ curinter ] = = NULL ) {
if ( _debug ) fprintf ( stderr , " %i %s \n " , curinter , inputline ) ;
filename = getFileName ( inputline ) ;
if ( filename = = NULL ) {
Line = OnlineLineParser ( manager , varmap , inter , iinters , inputline , iline ) ;
} else {
interfileheader = ReadFileHeader ( filename ) ;
if ( interfileheader . inputfile = = NULL ) {
//Line = simpleBDDload(manager, varmap, filename);
Line = NULL ;
} else {
Line = FileGenerateBDD ( manager , * varmap , interfileheader ) ;
}
if ( Line = = NULL ) fprintf ( stderr , " Error at line: %i. Error in nested BDD file: %s. \n " , iline , filename ) ;
free ( filename ) ;
filename = NULL ;
interfileheader . inputfile = NULL ;
}
if ( Line = = NULL ) {
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
inter [ curinter ] = Line ;
icur = 0 ;
} else if ( inter [ curinter ] ! = NULL ) {
fprintf ( stderr , " Error at line: %i. Intermediate results can't be overwritten. \n " , iline ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
} else {
fprintf ( stderr , " Error at line: %i. Intermediate result asked doesn't exist. \n " , iline ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
}
}
iline + + ;
} else if ( buf ! = ' ' & & buf ! = ' \t ' & & ! icomment ) {
if ( buf = = ' = ' ) iequal + + ;
inputline [ icur ] = buf ;
icur + = 1 ;
if ( icur = = _maxbufsize ) {
fprintf ( stderr , " Error: Maximum buffer size(%i) exceeded. \n " , _maxbufsize ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
while ( icur > maxlinesize - 1 ) {
maxlinesize * = 2 ;
inputline = ( char * ) realloc ( inputline , sizeof ( char ) * maxlinesize ) ;
}
}
} while ( 1 ) ;
fprintf ( stderr , " Error, file either doesn't end with a blank line or no return result was asked. \n " ) ;
free ( inter ) ;
free ( inputline ) ;
return NULL ;
}
DdNode * OnlineLineParser ( DdManager * manager , namedvars * varmap , DdNode * * inter , int maxinter , char * function , int iline ) {
int istart , iend , ilength , i , symbol , ivar , inegvar , inegoper , iconst ;
long startAt , endAt ;
double secs ;
DdNode * bdd ;
char * term , curoper ;
bdd = HIGH ( manager ) ;
Cudd_Ref ( bdd ) ;
term = NULL ;
ivar = - 1 ;
curoper = ' * ' ;
istart = - 1 ;
iend = strlen ( function ) - 1 ;
ilength = - 1 ;
symbol = - 1 ;
inegvar = 0 ;
inegoper = 0 ;
iconst = 0 ;
for ( i = strlen ( function ) - 1 ; i > - 1 ; i - - ) {
if ( symbol = = - 1 & & isOperator ( function [ i ] ) ) {
symbol = i ;
istart = i + 1 ;
ilength = iend - i ;
iend = i - 1 ;
if ( ilength > 0 & & ! ( ilength = = 1 & & function [ istart ] = = ' ~ ' ) ) {
term = ( char * ) malloc ( sizeof ( char ) * ( ilength + 1 ) ) ;
strncpy ( term , function + istart , ilength ) ;
term [ ilength ] = ' \0 ' ;
} else {
fprintf ( stderr , " Line Parser Error at line: %i. An operator was encounter with no term at its right side. \n " , iline ) ;
free ( term ) ;
return NULL ;
}
}
if ( symbol ! = - 1 ) {
if ( term [ 0 ] = = ' ~ ' ) inegvar = 1 ; else inegvar = 0 ;
if ( term [ 0 + inegvar ] ! = ' L ' ) {
// Term is a variable
if ( strcmp ( term + inegvar , " TRUE " ) = = 0 ) {
iconst = 1 ;
} else if ( strcmp ( term + inegvar , " FALSE " ) = = 0 ) {
iconst = 1 ;
inegvar = 1 ;
} else {
iconst = 0 ;
ivar = AddNamedVar ( * varmap , term + inegvar ) ;
if ( ivar = = - 1 ) {
EnlargeNamedVars ( varmap , varmap - > varcnt + 1 ) ;
ivar = AddNamedVar ( * varmap , term + inegvar ) ;
}
if ( ivar = = - 1 ) {
fprintf ( stderr , " Line Parser Error at line: %i. More BDD variables than the reserved term: %s. \n " , iline , term ) ;
free ( term ) ;
return NULL ;
}
}
if ( _debug ) fprintf ( stderr , " %s \n " , term ) ;
if ( _debug & & ! iconst ) fprintf ( stderr , " PNZ1:%.0f P1:%.0f S1:%i PNZ2:%.0f P2:%.0f S2:%i \n " ,
Cudd_CountPathsToNonZero ( bdd ) ,
Cudd_CountPath ( bdd ) ,
Cudd_DagSize ( bdd ) ,
Cudd_CountPathsToNonZero ( GetVar ( manager , ivar + varmap - > varstart ) ) ,
Cudd_CountPath ( GetVar ( manager , ivar + varmap - > varstart ) ) ,
Cudd_DagSize ( GetVar ( manager , ivar + varmap - > varstart ) ) ) ;
startAt = clock ( ) ;
if ( ! iconst ) {
if ( inegvar ) bdd = BDD_Operator ( manager , NOT ( GetVar ( manager , ivar + varmap - > varstart ) ) , bdd , curoper , inegoper ) ;
else bdd = BDD_Operator ( manager , GetVar ( manager , ivar + varmap - > varstart ) , bdd , curoper , inegoper ) ;
} else {
switch ( curoper ) {
case ' + ' :
if ( inegvar ^ inegoper ) ; else {
bdd = HIGH ( manager ) ;
Cudd_Ref ( bdd ) ;
}
break ;
case ' * ' :
if ( inegvar ^ inegoper ) {
bdd = LOW ( manager ) ;
Cudd_Ref ( bdd ) ;
}
break ;
case ' # ' :
if ( inegvar ^ inegoper ) ; else bdd = NOT ( bdd ) ;
break ;
}
}
endAt = clock ( ) ;
secs = ( ( double ) ( endAt - startAt ) ) / ( ( double ) CLOCKS_PER_SEC ) ;
2010-01-14 15:46:46 +00:00
if ( _debug ) fprintf ( stderr , " term: %s of line: %i took: %ld \n " , term , iline , endAt - startAt ) ;
2009-03-09 00:42:12 +00:00
//if ((endAt - startAt) > 10000000) Cudd_AutodynDisable(manager);
if ( bdd = = NULL ) {
fprintf ( stderr , " Line Parser Error at line: %i. Error using operator %c on term: %s. \n " , iline , curoper , term ) ;
free ( term ) ;
return NULL ;
}
} else {
// Term is an intermediate result
if ( IsPosNumber ( term + inegvar + 1 ) ) ivar = atoi ( term + inegvar + 1 ) - 1 ; else {
fprintf ( stderr , " Line Parser Error at line: %i. Invalid intermediate result format term: %s. \n " , iline , term ) ;
free ( term ) ;
return NULL ;
}
if ( ivar < 0 | | ivar > maxinter | | inter [ ivar ] = = NULL ) {
fprintf ( stderr , " Line Parser Error at line: %i. Usage of undeclared intermediate result term: %s. \n " , iline , term ) ;
free ( term ) ;
return NULL ;
}
if ( _debug ) fprintf ( stderr , " %s \n " , term ) ;
if ( _debug ) fprintf ( stderr , " PNZ1:%.0f P1:%.0f S1:%i PNZ2:%.0f P2:%.0f S2:%i \n " ,
Cudd_CountPathsToNonZero ( bdd ) ,
Cudd_CountPath ( bdd ) ,
Cudd_DagSize ( bdd ) ,
Cudd_CountPathsToNonZero ( inter [ ivar ] ) ,
Cudd_CountPath ( inter [ ivar ] ) ,
Cudd_DagSize ( inter [ ivar ] ) ) ;
startAt = clock ( ) ;
if ( inegvar ) bdd = BDD_Operator ( manager , NOT ( inter [ ivar ] ) , bdd , curoper , inegoper ) ;
else bdd = BDD_Operator ( manager , inter [ ivar ] , bdd , curoper , inegoper ) ;
endAt = clock ( ) ;
secs = ( ( double ) ( endAt - startAt ) ) / ( ( double ) CLOCKS_PER_SEC ) ;
2010-01-14 15:46:46 +00:00
if ( _debug ) fprintf ( stderr , " term: %s of line: %i took: %ld \n " , term , iline , endAt - startAt ) ;
2009-03-09 00:42:12 +00:00
//if ((endAt - startAt) > 10000000) Cudd_AutodynDisable(manager);
if ( bdd = = NULL ) {
fprintf ( stderr , " Line Parser Error at line: %i. Error using operator %c on term: %s. \n " , iline , curoper , term ) ;
free ( term ) ;
return NULL ;
}
}
free ( term ) ;
term = NULL ;
curoper = function [ symbol ] ;
if ( curoper = = ' = ' ) return bdd ;
if ( function [ symbol - 1 ] = = ' ~ ' ) {
inegoper = 1 ;
i - - ;
iend - - ;
} else {
inegoper = 0 ;
}
symbol = - 1 ;
}
}
return NULL ;
}
int GetParam ( char * inputline , int iParam ) {
int icoma , istart , iend , ret ;
char * numb ;
istart = 1 ;
icoma = istart ;
iend = strlen ( inputline ) ;
while ( ( inputline [ icoma ] ! = ' , ' ) & & ( icoma < iend ) )
icoma + + ;
if ( iParam = = 1 ) {
numb = ( char * ) malloc ( sizeof ( char ) * icoma ) ;
strncpy ( numb , inputline + 1 , icoma - 1 ) ;
numb [ icoma - 1 ] = ' \0 ' ;
if ( IsPosNumber ( numb ) ) {
ret = atoi ( numb ) ;
free ( numb ) ;
return ret ;
}
} else if ( iParam = = 2 ) {
numb = ( char * ) malloc ( sizeof ( char ) * ( iend - icoma + 1 ) ) ;
strncpy ( numb , inputline + icoma + 1 , iend - icoma ) ;
numb [ iend - icoma ] = ' \0 ' ;
if ( IsPosNumber ( numb ) ) {
ret = atoi ( numb ) ;
free ( numb ) ;
return ret ;
}
}
return 0 ;
}
void onlinetraverse ( DdManager * manager , namedvars varmap , hisqueue * HisQueue , DdNode * bdd ) {
char buf , * inputline ;
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int icur , maxlinesize , iline , index , iloop , iQsize , i , iRoot ; //ivalue,inQ,
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// double dvalue;
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DdNode * * Q , * * Q2 , * h_node , * l_node , * curnode ;
hisqueue * his ;
hisnode * hnode ;
iloop = 1 ;
icur = 0 ; // Pointer for inputline buffer location
iline = 1 ; // Current file line (first after header)
maxlinesize = 80 ; // inputline starting buffer size
inputline = ( char * ) malloc ( sizeof ( char ) * maxlinesize ) ;
curnode = bdd ;
iQsize = 0 ;
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iRoot = 1 ;
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Q = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * iQsize ) ;
Q2 = NULL ;
his = InitHistory ( varmap . varcnt ) ;
do {
buf = fgetc ( stdin ) ;
if ( buf = = ' \n ' ) {
inputline [ icur ] = ' \0 ' ;
if ( ( icur > 0 ) & & ( inputline [ 0 ] = = ' @ ' ) & & ( inputline [ 2 ] = = ' , ' | | inputline [ 2 ] = = ' \0 ' ) ) {
switch ( inputline [ 1 ] ) {
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case ' ? ' :
printf ( " Available instructions: \n \t @c : current node \n \t @n,[BFS, DFS] : expand and go to next node \n \t @t,[BFS, DFS] : throw and go to next node \n " ) ;
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printf ( " \t @h : high node of current \n \t @l : low node of current \n \t @v,[variable] : variable values \n \t @r restart traverse from parent node \n \t @e terminates \n " ) ;
break ;
case ' r ' :
curnode = bdd ;
iQsize = 0 ;
iRoot = 1 ;
free ( Q ) ;
Q = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * iQsize ) ;
Q2 = NULL ;
ReInitHistory ( his , varmap . varcnt ) ;
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break ;
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case ' c ' :
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if ( iRoot ) {
iRoot = 0 ;
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printf ( " bdd_temp_value('%s', %i, %p). \n " , GetNodeVarNameDisp ( manager , varmap , curnode ) , 1 , ( void * ) curnode ) ;
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} else {
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printf ( " bdd_temp_value('%s', %i, %p). \n " , GetNodeVarNameDisp ( manager , varmap , curnode ) , iQsize , ( void * ) curnode ) ;
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}
fflush ( stdout ) ;
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break ;
case ' n ' :
if ( curnode ! = HIGH ( manager ) & & curnode ! = LOW ( manager ) & & ( hnode = GetNode ( his , varmap . varstart , curnode ) ) = = NULL ) {
l_node = LowNodeOf ( manager , curnode ) ;
h_node = HighNodeOf ( manager , curnode ) ;
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iQsize + = 2 ;
Q = ( DdNode * * ) realloc ( Q , sizeof ( DdNode * ) * iQsize ) ;
Q [ iQsize - 2 ] = l_node ;
Q [ iQsize - 1 ] = h_node ;
//AddNode(his, varmap.varstart, curnode, 0.0, 0, NULL);
/* inQ = 0;
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for ( i = 0 ; ( i < iQsize / 2 ) & & ( inQ < 3 ) ; i + + )
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inQ = ( Q [ i ] = = l_node ) | | ( Q [ iQsize - i - 1 ] = = l_node ) + 2 * ( Q [ i ] = = h_node ) | | ( Q [ iQsize - i - 1 ] = = h_node ) ;
if ( ( l_node = = HIGH ( manager ) | | l_node = = LOW ( manager ) ) ) {
inQ = ( inQ & 2 ) ;
} else {
if ( ( inQ & 1 ) = = 0 ) inQ = inQ + ( GetNode ( his , varmap . varstart , l_node ) ! = NULL ) ;
}
if ( h_node = = HIGH ( manager ) | | h_node = = LOW ( manager ) ) {
inQ = ( inQ & 1 ) ;
} else {
if ( ( inQ & 2 ) = = 0 ) inQ = inQ + 2 * ( GetNode ( his , varmap . varstart , h_node ) ! = NULL ) ;
} */
/* if ((inQ & 1) == 1) inQ = inQ - (l_node == HIGH(manager) || l_node == LOW(manager));
if ( ( inQ & 2 ) = = 2 ) inQ = inQ - 2 * ( h_node = = HIGH ( manager ) | | h_node = = LOW ( manager ) ) ; */
/* inQ = 0;
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switch ( inQ ) {
case 0 :
break ;
case 1 :
iQsize + + ;
Q = ( DdNode * * ) realloc ( Q , sizeof ( DdNode * ) * iQsize ) ;
Q [ iQsize - 1 ] = h_node ;
break ;
case 2 :
iQsize + + ;
Q = ( DdNode * * ) realloc ( Q , sizeof ( DdNode * ) * iQsize ) ;
Q [ iQsize - 1 ] = l_node ;
break ;
case 3 :
break ;
default :
break ;
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} */
}
if ( inputline [ 2 ] = = ' \0 ' | | strcmp ( inputline + 3 , " DFS " ) = = 0 ) {
if ( iQsize > 0 ) {
iQsize - - ;
curnode = Q [ iQsize ] ;
Q = ( DdNode * * ) realloc ( Q , sizeof ( DdNode * ) * iQsize ) ;
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}
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} else if ( strcmp ( inputline + 3 , " BFS " ) = = 0 ) {
if ( iQsize > 0 ) {
iQsize - - ;
curnode = Q [ 0 ] ;
Q2 = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * iQsize ) ;
for ( i = 0 ; i < iQsize ; i + + )
Q2 [ i ] = Q [ i + 1 ] ;
free ( Q ) ;
Q = Q2 ;
}
} else {
fprintf ( stderr , " Error: Could not find method: %s, Correct syntax @n,[DFS, BFS]. \n " , inputline + 3 ) ;
free ( Q ) ;
free ( inputline ) ;
exit ( - 1 ) ;
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}
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break ;
case ' t ' :
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if ( inputline [ 2 ] = = ' \0 ' | | strcmp ( inputline + 3 , " DFS " ) = = 0 ) {
if ( iQsize > 0 ) {
iQsize - - ;
curnode = Q [ iQsize ] ;
Q = ( DdNode * * ) realloc ( Q , sizeof ( DdNode * ) * iQsize ) ;
}
} else if ( strcmp ( inputline + 3 , " BFS " ) = = 0 ) {
if ( iQsize > 0 ) {
iQsize - - ;
curnode = Q [ 0 ] ;
Q2 = ( DdNode * * ) malloc ( sizeof ( DdNode * ) * iQsize ) ;
for ( i = 0 ; i < iQsize ; i + + )
Q2 [ i ] = Q [ i + 1 ] ;
free ( Q ) ;
Q = Q2 ;
}
} else {
fprintf ( stderr , " Error: Could not find method: %s, Correct syntax @n,[DFS, BFS]. \n " , inputline + 3 ) ;
free ( Q ) ;
free ( inputline ) ;
exit ( - 1 ) ;
}
break ;
case ' h ' :
printf ( " bdd_temp_value('%s'). \n " , GetNodeVarNameDisp ( manager , varmap , HighNodeOf ( manager , curnode ) ) ) ;
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fflush ( stdout ) ;
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break ;
case ' l ' :
printf ( " bdd_temp_value('%s'). \n " , GetNodeVarNameDisp ( manager , varmap , LowNodeOf ( manager , curnode ) ) ) ;
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fflush ( stdout ) ;
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break ;
case ' v ' :
index = GetNamedVarIndex ( varmap , inputline + 3 ) ;
if ( index > = 0 ) {
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printf ( " bdd_temp_value([%f,%i,%s]). \n " , varmap . dvalue [ index ] , varmap . ivalue [ index ] , ( char * ) varmap . dynvalue [ index ] ) ;
fflush ( stdout ) ;
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} else {
fprintf ( stderr , " Error: Could not find variable: %s, Correct syntax @v,[variable name]. \n " , inputline + 3 ) ;
free ( Q ) ;
free ( inputline ) ;
exit ( - 1 ) ;
}
break ;
case ' e ' :
iloop = 0 ;
break ;
default :
fprintf ( stderr , " Error: Not recognizable instruction: %s. \n " , inputline ) ;
free ( Q ) ;
free ( inputline ) ;
exit ( - 1 ) ;
break ;
}
icur = 0 ;
} else {
fprintf ( stderr , " Error: Not recognizable instruction: %s. \n " , inputline ) ;
free ( Q ) ;
free ( inputline ) ;
exit ( - 1 ) ;
}
iline + + ;
} else if ( buf ! = ' ' & & buf ! = ' \t ' ) {
inputline [ icur ] = buf ;
icur + = 1 ;
if ( icur = = _maxbufsize ) {
fprintf ( stderr , " Error: Maximum buffer size(%i) exceeded. \n " , _maxbufsize ) ;
free ( Q ) ;
free ( inputline ) ;
exit ( - 1 ) ;
}
while ( icur > maxlinesize - 1 ) {
maxlinesize * = 2 ;
inputline = ( char * ) realloc ( inputline , sizeof ( char ) * maxlinesize ) ;
}
}
} while ( iloop ) ;
free ( Q ) ;
free ( inputline ) ;
}