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/**CFile****************************************************************
FileName [msatOrder.c]
PackageName [A C version of SAT solver MINISAT, originally developed
in C++ by Niklas Een and Niklas Sorensson, Chalmers University of
Technology, Sweden: http://www.cs.chalmers.se/~een/Satzoo.]
Synopsis [The manager of variable assignment.]
Author [Alan Mishchenko <alanmi@eecs.berkeley.edu>]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - January 1, 2004.]
Revision [$Id: msatOrder.c,v 1.0 2005/05/30 1:00:00 alanmi Exp $]
***********************************************************************/
#include "msatInt.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
// the variable package data structure
struct Msat_Order_t_
{
Msat_Solver_t * pSat; // the SAT solver
Msat_IntVec_t * vIndex; // the heap
Msat_IntVec_t * vHeap; // the mapping of var num into its heap num
};
//The solver can communicate to the variable order the following parts:
//- the array of current assignments (pSat->pAssigns)
//- the array of variable activities (pSat->pdActivity)
//- the array of variables currently in the cone (pSat->vConeVars)
//- the array of arrays of variables adjucent to each(pSat->vAdjacents)
#define HLEFT(i) ((i)<<1)
#define HRIGHT(i) (((i)<<1)+1)
#define HPARENT(i) ((i)>>1)
#define HCOMPARE(p, i, j) ((p)->pSat->pdActivity[i] > (p)->pSat->pdActivity[j])
#define HHEAP(p, i) ((p)->vHeap->pArray[i])
#define HSIZE(p) ((p)->vHeap->nSize)
#define HOKAY(p, i) ((i) >= 0 && (i) < (p)->vIndex->nSize)
#define HINHEAP(p, i) (HOKAY(p, i) && (p)->vIndex->pArray[i] != 0)
#define HEMPTY(p) (HSIZE(p) == 1)
static int Msat_HeapCheck_rec( Msat_Order_t * p, int i );
static int Msat_HeapGetTop( Msat_Order_t * p );
static void Msat_HeapInsert( Msat_Order_t * p, int n );
static void Msat_HeapIncrease( Msat_Order_t * p, int n );
static void Msat_HeapPercolateUp( Msat_Order_t * p, int i );
static void Msat_HeapPercolateDown( Msat_Order_t * p, int i );
extern abctime timeSelect;
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Allocates the ordering structure.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Msat_Order_t * Msat_OrderAlloc( Msat_Solver_t * pSat )
{
Msat_Order_t * p;
p = ABC_ALLOC( Msat_Order_t, 1 );
memset( p, 0, sizeof(Msat_Order_t) );
p->pSat = pSat;
p->vIndex = Msat_IntVecAlloc( 0 );
p->vHeap = Msat_IntVecAlloc( 0 );
Msat_OrderSetBounds( p, pSat->nVarsAlloc );
return p;
}
/**Function*************************************************************
Synopsis [Sets the bound of the ordering structure.]
Description [Should be called whenever the SAT solver is resized.]
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_OrderSetBounds( Msat_Order_t * p, int nVarsMax )
{
Msat_IntVecGrow( p->vIndex, nVarsMax );
Msat_IntVecGrow( p->vHeap, nVarsMax + 1 );
p->vIndex->nSize = nVarsMax;
p->vHeap->nSize = 0;
}
/**Function*************************************************************
Synopsis [Cleans the ordering structure.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_OrderClean( Msat_Order_t * p, Msat_IntVec_t * vCone )
{
int i;
for ( i = 0; i < p->vIndex->nSize; i++ )
p->vIndex->pArray[i] = 0;
for ( i = 0; i < vCone->nSize; i++ )
{
assert( i+1 < p->vHeap->nCap );
p->vHeap->pArray[i+1] = vCone->pArray[i];
assert( vCone->pArray[i] < p->vIndex->nSize );
p->vIndex->pArray[vCone->pArray[i]] = i+1;
}
p->vHeap->nSize = vCone->nSize + 1;
}
/**Function*************************************************************
Synopsis [Checks that the J-boundary is okay.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Msat_OrderCheck( Msat_Order_t * p )
{
return Msat_HeapCheck_rec( p, 1 );
}
/**Function*************************************************************
Synopsis [Frees the ordering structure.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_OrderFree( Msat_Order_t * p )
{
Msat_IntVecFree( p->vHeap );
Msat_IntVecFree( p->vIndex );
ABC_FREE( p );
}
/**Function*************************************************************
Synopsis [Selects the next variable to assign.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Msat_OrderVarSelect( Msat_Order_t * p )
{
// Activity based decision:
// while (!heap.empty()){
// Var next = heap.getmin();
// if (toLbool(assigns[next]) == l_Undef)
// return next;
// }
// return var_Undef;
int Var;
abctime clk = Abc_Clock();
while ( !HEMPTY(p) )
{
Var = Msat_HeapGetTop(p);
if ( (p)->pSat->pAssigns[Var] == MSAT_VAR_UNASSIGNED )
{
//assert( Msat_OrderCheck(p) );
timeSelect += Abc_Clock() - clk;
return Var;
}
}
return MSAT_ORDER_UNKNOWN;
}
/**Function*************************************************************
Synopsis [Updates J-boundary when the variable is assigned.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_OrderVarAssigned( Msat_Order_t * p, int Var )
{
}
/**Function*************************************************************
Synopsis [Updates the order after a variable is unassigned.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_OrderVarUnassigned( Msat_Order_t * p, int Var )
{
// if (!heap.inHeap(x))
// heap.insert(x);
abctime clk = Abc_Clock();
if ( !HINHEAP(p,Var) )
Msat_HeapInsert( p, Var );
timeSelect += Abc_Clock() - clk;
}
/**Function*************************************************************
Synopsis [Updates the order after a variable changed weight.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_OrderUpdate( Msat_Order_t * p, int Var )
{
// if (heap.inHeap(x))
// heap.increase(x);
abctime clk = Abc_Clock();
if ( HINHEAP(p,Var) )
Msat_HeapIncrease( p, Var );
timeSelect += Abc_Clock() - clk;
}
/**Function*************************************************************
Synopsis [Checks the heap property recursively.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Msat_HeapCheck_rec( Msat_Order_t * p, int i )
{
return i >= HSIZE(p) ||
(
( HPARENT(i) == 0 || !HCOMPARE(p, HHEAP(p, i), HHEAP(p, HPARENT(i))) ) &&
Msat_HeapCheck_rec( p, HLEFT(i) ) &&
Msat_HeapCheck_rec( p, HRIGHT(i) )
);
}
/**Function*************************************************************
Synopsis [Retrieves the minimum element.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Msat_HeapGetTop( Msat_Order_t * p )
{
int Result, NewTop;
Result = HHEAP(p, 1);
NewTop = Msat_IntVecPop( p->vHeap );
p->vHeap->pArray[1] = NewTop;
p->vIndex->pArray[NewTop] = 1;
p->vIndex->pArray[Result] = 0;
if ( p->vHeap->nSize > 1 )
Msat_HeapPercolateDown( p, 1 );
return Result;
}
/**Function*************************************************************
Synopsis [Inserts the new element.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_HeapInsert( Msat_Order_t * p, int n )
{
assert( HOKAY(p, n) );
p->vIndex->pArray[n] = HSIZE(p);
Msat_IntVecPush( p->vHeap, n );
Msat_HeapPercolateUp( p, p->vIndex->pArray[n] );
}
/**Function*************************************************************
Synopsis [Inserts the new element.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_HeapIncrease( Msat_Order_t * p, int n )
{
Msat_HeapPercolateUp( p, p->vIndex->pArray[n] );
}
/**Function*************************************************************
Synopsis [Moves the entry up.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_HeapPercolateUp( Msat_Order_t * p, int i )
{
int x = HHEAP(p, i);
while ( HPARENT(i) != 0 && HCOMPARE(p, x, HHEAP(p, HPARENT(i))) )
{
p->vHeap->pArray[i] = HHEAP(p, HPARENT(i));
p->vIndex->pArray[HHEAP(p, i)] = i;
i = HPARENT(i);
}
p->vHeap->pArray[i] = x;
p->vIndex->pArray[x] = i;
}
/**Function*************************************************************
Synopsis [Moves the entry down.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Msat_HeapPercolateDown( Msat_Order_t * p, int i )
{
int x = HHEAP(p, i);
int Child;
while ( HLEFT(i) < HSIZE(p) )
{
if ( HRIGHT(i) < HSIZE(p) && HCOMPARE(p, HHEAP(p, HRIGHT(i)), HHEAP(p, HLEFT(i))) )
Child = HRIGHT(i);
else
Child = HLEFT(i);
if ( !HCOMPARE(p, HHEAP(p, Child), x) )
break;
p->vHeap->pArray[i] = HHEAP(p, Child);
p->vIndex->pArray[HHEAP(p, i)] = i;
i = Child;
}
p->vHeap->pArray[i] = x;
p->vIndex->pArray[x] = i;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
|