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/**CFile****************************************************************
FileName [decUtil.c]
PackageName [MVSIS 2.0: Multi-valued logic synthesis system.]
Synopsis [Decomposition unitilies.]
Author [MVSIS Group]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - February 1, 2003.]
Revision [$Id: decUtil.c,v 1.1 2003/05/22 19:20:05 alanmi Exp $]
***********************************************************************/
#include "abc.h"
#include "dec.h"
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Converts graph to BDD.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
DdNode * Dec_GraphDeriveBdd( DdManager * dd, Dec_Graph_t * pGraph )
{
DdNode * bFunc, * bFunc0, * bFunc1;
Dec_Node_t * pNode;
int i;
// sanity checks
assert( Dec_GraphLeaveNum(pGraph) >= 0 );
assert( Dec_GraphLeaveNum(pGraph) <= pGraph->nSize );
// check for constant function
if ( Dec_GraphIsConst(pGraph) )
return Cudd_NotCond( b1, Dec_GraphIsComplement(pGraph) );
// check for a literal
if ( Dec_GraphIsVar(pGraph) )
return Cudd_NotCond( Cudd_bddIthVar(dd, Dec_GraphVarInt(pGraph)), Dec_GraphIsComplement(pGraph) );
// assign the elementary variables
Dec_GraphForEachLeaf( pGraph, pNode, i )
pNode->pFunc = Cudd_bddIthVar( dd, i );
// compute the function for each internal node
Dec_GraphForEachNode( pGraph, pNode, i )
{
bFunc0 = Cudd_NotCond( Dec_GraphNode(pGraph, pNode->eEdge0.Node)->pFunc, pNode->eEdge0.fCompl );
bFunc1 = Cudd_NotCond( Dec_GraphNode(pGraph, pNode->eEdge1.Node)->pFunc, pNode->eEdge1.fCompl );
pNode->pFunc = Cudd_bddAnd( dd, bFunc0, bFunc1 ); Cudd_Ref( pNode->pFunc );
}
// deref the intermediate results
bFunc = pNode->pFunc; Cudd_Ref( bFunc );
Dec_GraphForEachNode( pGraph, pNode, i )
Cudd_RecursiveDeref( dd, pNode->pFunc );
Cudd_Deref( bFunc );
// complement the result if necessary
return Cudd_NotCond( bFunc, Dec_GraphIsComplement(pGraph) );
}
/**Function*************************************************************
Synopsis [Derives the truth table.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
unsigned Dec_GraphDeriveTruth( Dec_Graph_t * pGraph )
{
unsigned uTruths[5] = { 0xAAAAAAAA, 0xCCCCCCCC, 0xF0F0F0F0, 0xFF00FF00, 0xFFFF0000 };
unsigned uTruth, uTruth0, uTruth1;
Dec_Node_t * pNode;
int i;
// sanity checks
assert( Dec_GraphLeaveNum(pGraph) >= 0 );
assert( Dec_GraphLeaveNum(pGraph) <= pGraph->nSize );
assert( Dec_GraphLeaveNum(pGraph) <= 5 );
// check for constant function
if ( Dec_GraphIsConst(pGraph) )
return Dec_GraphIsComplement(pGraph)? 0 : ~((unsigned)0);
// check for a literal
if ( Dec_GraphIsVar(pGraph) )
return Dec_GraphIsComplement(pGraph)? ~uTruths[Dec_GraphVarInt(pGraph)] : uTruths[Dec_GraphVarInt(pGraph)];
// assign the elementary variables
Dec_GraphForEachLeaf( pGraph, pNode, i )
pNode->pFunc = (void *)uTruths[i];
// compute the function for each internal node
Dec_GraphForEachNode( pGraph, pNode, i )
{
uTruth0 = (unsigned)Dec_GraphNode(pGraph, pNode->eEdge0.Node)->pFunc;
uTruth1 = (unsigned)Dec_GraphNode(pGraph, pNode->eEdge1.Node)->pFunc;
uTruth0 = pNode->eEdge0.fCompl? ~uTruth0 : uTruth0;
uTruth1 = pNode->eEdge1.fCompl? ~uTruth1 : uTruth1;
uTruth = uTruth0 & uTruth1;
pNode->pFunc = (void *)uTruth;
}
// complement the result if necessary
return Dec_GraphIsComplement(pGraph)? ~uTruth : uTruth;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
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