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|
/* QMC: simplification tool (by using the Quine - McClusky process)
Copyright (C) 2000 Thomas Pollak
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of
the License, or any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
Auf Deutsch:
QMC: Vereinfachungsprogramm fuer logische Terme nach Quine - McClusky
Copyright (C) 2000 Thomas Pollak
Dieses Programm ist freie Software. Sie koennen es unter
den Bedingungen der GNU General Public License, wie von der
Free Software Foundation herausgegeben, weitergeben und/oder
modifizieren, entweder unter Version 2 der Lizenz oder
jeder spaeteren Version.
Die Veroeffentlichung dieses Programms erfolgt in der
Hoffnung, dass es Ihnen von Nutzen sein wird, aber OHNE JEDE
GEWAEHRLEISTUNG - sogar ohne die implizite Gewaehrleistung
der MARKTREIFE oder der EIGNUNG FUER EINEN BESTIMMTEN ZWECK.
Details finden Sie in der GNU General Public License.
Sie sollten eine Kopie der GNU General Public License zusammen
mit diesem Programm erhalten haben. Falls nicht, schreiben Sie
an die Free Software Foundation, Inc., 675 Mass Ave, Cambridge,
MA 02139, USA.
*/
/*
file: analyse.cc
begin: 01/2000
email: thomas@pollaknet.at
web: http://qmc.pollaknet.at
*/
//Headers
#include <cqmc>
/*
analyse
*/
//DEBUG SWITCH
//#define DEBUG
#include <iostream>
using namespace std;
bool analyse(char *expression_buffer,
unsigned char num_vars,
BOOL *BO_var,
unsigned char pos1,
unsigned char pos2)
{
//local variables
unsigned char i,/* j,*/ chksum=0, index;
bool inv=0;
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: starting function!\n<";
for(i=0;i<num_vars;i++)
{
cerr << '.' << BO_var[i].value();
}
cerr << ">\nTerm: ";
for(i=pos1;i<=pos2;i++)
{
cerr << expression_buffer[i];
}
#endif
//one char left
if((pos2-pos1)==0)
{
//search for the id
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: Var -";
#endif
i=0;
do
{
//return if equal
if(BO_var[i].getid()==expression_buffer[pos1])
{
#ifdef DEBUG
cerr << " found! " << BO_var[i].getid() << "->(" << BO_var[i].value() << ')';
#endif
return(BO_var[i].value());
}
if(expression_buffer[pos1]==SYMB_TRUE)
{
#ifdef DEBUG
cerr << " constant! (1)";
#endif
return(1);
}
if(expression_buffer[pos1]==SYMB_FALSE)
{
#ifdef DEBUG
cerr << " constant! (0)";
#endif
return(0);
}
i++;
}while(i<num_vars);
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: unknown variable found! (1) ->" << expression_buffer[pos1+1];
#endif
cout << endl << "program-error in modul analyse.cc" << endl << flush;
return(0);
}
//two chars left
if((pos2-pos1)==1)
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: two chars left!";
#endif
//check not char
if(expression_buffer[pos1]==SYMB_NOT)
{
//search for the id and invert
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: inverted BO_var -";
#endif
i=0;
do
{
//return if equal
if(BO_var[i].getid()==expression_buffer[pos1+1])
{
#ifdef DEBUG
cerr << " found! (/" << BO_var[i].value() << ')';
#endif
return(BO_var[i].value()^1);
}
//now done by preparser...
/*
if(expression_buffer[pos1]==SYMB_TRUE)
{
#ifdef DEBUG
cerr << " constant! (/1)";
#endif
return(0);
}
if(expression_buffer[pos1]==SYMB_FALSE)
{
#ifdef DEBUG
cerr << " constant! (/0)";
#endif
return(1);
}
*/
i++;
}while(i<num_vars);
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: unknown variable found! (2) ->" << expression_buffer[pos1] << expression_buffer[pos1+1];
#endif
cout << endl << "program-error in modul analyse.cc" << endl << flush;
return(0);
}
//AND control char
else
{
#ifdef DEBUG
cerr << "\n analyse.cc [analyse]: * AND without operator! (2)";
#endif
return(analyse(expression_buffer,num_vars,BO_var,pos1,pos1)&analyse(expression_buffer,num_vars,BO_var,pos2,pos2));
}
}
#ifdef DEBUG
cerr << "\n analyse.cc [analyse]: search for OR (+)";
#endif
//or section
for(i=pos1;i<pos2;i++)
{
if(expression_buffer[i]==SYMB_BEGIN_SUB)
{
chksum++;
}
if(expression_buffer[i]==SYMB_END_SUB)
{
chksum--;
}
if(chksum==0)
{
if(expression_buffer[i]==SYMB_OR)
{
#ifdef DEBUG
cerr << "\n analyse.cc [analyse]: +fount! cut: " << (unsigned short)pos1 << ' ' << i-1 << " ][ " << i+1 << ' ' << (unsigned short)pos2;
#endif
return(analyse(expression_buffer,num_vars,BO_var,pos1,i-1)|analyse(expression_buffer,num_vars,BO_var,i+1,pos2));
}
}
}
chksum=0;
//check actual char
//brackets
if( expression_buffer[pos1]==SYMB_BEGIN_SUB || expression_buffer[pos1+1]==SYMB_BEGIN_SUB )
{
#ifdef DEBUG
cerr << "\n analyse.cc [analyse]: brackets found!";
#endif
if(expression_buffer[pos1]==SYMB_NOT)
{
#ifdef DEBUG
cerr << " - inverted!";
#endif
inv=1;
}
chksum++;
for(index=pos1+1+inv;index<=pos2;index++)
{
if(expression_buffer[index]==SYMB_BEGIN_SUB)
{
chksum++;
}
if(expression_buffer[index]==SYMB_END_SUB)
{
chksum--;
}
if(chksum==0)
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: brackets OK!";
#endif
if(index+1<pos2)
{
if(expression_buffer[index+1]==SYMB_OR)
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: +or found! cut: ( " << (unsigned short)pos1+1 << ' ' << (unsigned short)index-1 << " ) ][ " << (unsigned short)index+2 << ' ' << (unsigned short)pos2 << " (mit Klammer!)";
#endif
return((analyse(expression_buffer,num_vars,BO_var,pos1+1+inv,index-1)^inv)|analyse(expression_buffer,num_vars,BO_var,index+2,pos2));
}
else if(expression_buffer[index+1]==SYMB_END_SUB)
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: brackets closed!";
#endif
return(analyse(expression_buffer,num_vars,BO_var,pos1+1+inv,index-1)^inv);
}
else if(expression_buffer[index+1]==SYMB_NOT)
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: *and found! without op cut: ( " << (unsigned short)pos1+1 << ' ' << (unsigned short)index-1 << " ) ][ " << (unsigned short)index+1 << ' ' << (unsigned short)pos2 << " (mit Klammer!)";
#endif
return((analyse(expression_buffer,num_vars,BO_var,pos1+1+inv,index-1)^inv)&analyse(expression_buffer,num_vars,BO_var,index+1,pos2));
}
else if(expression_buffer[index+1]==SYMB_BEGIN_SUB)
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: *and found! without op cut: ( " << (unsigned short)pos1+1 << ' ' << (unsigned short)index-1 << " ) ][ " << (unsigned short)index+1 << ' ' << (unsigned short)pos2 << " (mit Klammer!)";
#endif
return((analyse(expression_buffer,num_vars,BO_var,pos1+1+inv,index-1)^inv)&analyse(expression_buffer,num_vars,BO_var,index+1,pos2));
}
else
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: *and found! without op cut: ( " << (unsigned short)pos1+1 << ' ' << (unsigned short)index-1 << " ) ][ " << (unsigned short)index+2 << ' ' << (unsigned short)pos2 << " (mit Klammer!)";
#endif
return((analyse(expression_buffer,num_vars,BO_var,pos1+1+inv,index-1)^inv)&analyse(expression_buffer,num_vars,BO_var,index+2,pos2));
}
}
else if(index<pos2)
{
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: *and found! without op cut: ( " << (unsigned short)pos1+1 << ' ' << (unsigned short)index-1 << " ) ][ " << (unsigned short)index+2 << ' ' << (unsigned short)pos2 << " (mit Klammer!)";
#endif
return((analyse(expression_buffer,num_vars,BO_var,pos1+1+inv,index-1)^inv)&analyse(expression_buffer,num_vars,BO_var,index+1,pos2));
}
else
{
#ifdef DEBUG
cerr << "\n analyse.cc [analyse]: brackets closed!";
#endif
return(analyse(expression_buffer,num_vars,BO_var,pos1+1+inv,pos2-1)^inv);
}
}
}
}
#ifdef DEBUG
cerr << "\nanalyse.cc [analyse]: *and Area (End)";
#endif
chksum=0;
//no mor OR left
for(i=pos1;i<pos2;i++)
{
if(expression_buffer[i]==SYMB_BEGIN_SUB)
{
chksum++;
}
if(expression_buffer[i]==SYMB_END_SUB)
{
chksum--;
}
if(chksum==0)
{
if(expression_buffer[i]==SYMB_AND)
{
#ifdef DEBUG
cerr << "\n analyse.cc [analyse]: *and found! (standard) cut: " << (unsigned short)pos1 << ' ' << (unsigned short)i-1 << " ][ " << (unsigned short)i+1 << ' ' << (unsigned short)pos2;
#endif
return(analyse(expression_buffer,num_vars,BO_var,pos1,i-1)&analyse(expression_buffer,num_vars,BO_var,i+1,pos2));
}
}
}
//last posibility: AND operator without AND-char
if( (pos2-pos1) > 1 )
{
#ifdef DEBUG
cerr << "\n analyse.cc [analyse]: *and found! last p without op cut: " << (unsigned short)pos1 << ' ' << (unsigned short)pos1 << " ][ " << (unsigned short)pos1+1 << ' ' << (unsigned short)pos2 << " ohne Operator (letzte Instantz)";
#endif
if(expression_buffer[pos1]==SYMB_NOT)
{
return(analyse(expression_buffer,num_vars,BO_var,pos1,pos1+1)&analyse(expression_buffer,num_vars,BO_var,pos1+2,pos2));
}
else
{
return(analyse(expression_buffer,num_vars,BO_var,pos1,pos1)&analyse(expression_buffer,num_vars,BO_var,pos1+1,pos2));
}
}
#ifdef DEBUG
cerr << "\n\nanalyse.cc [analyse]: error!!";
#endif
cout << endl << "program-error in modul analyse.cc" << endl << flush;
return(0);
}
/*
invert array
*/
void invert_array(bool *barray, unsigned short int array_length)
{
for(unsigned short int index=0; index < array_length; index++)
barray[index] = !barray[index];
}
|
