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/**CFile****************************************************************
FileName [extraBddTime.c]
PackageName [extra]
Synopsis [Procedures to control runtime in BDD operators.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 2.0. Started - September 1, 2003.]
Revision [$Id: extraBddTime.c,v 1.0 2003/05/21 18:03:50 alanmi Exp $]
***********************************************************************/
#include "extra.h"
ABC_NAMESPACE_IMPL_START
/*---------------------------------------------------------------------------*/
/* Constant declarations */
/*---------------------------------------------------------------------------*/
#define CHECK_FACTOR 10
/*---------------------------------------------------------------------------*/
/* Stucture declarations */
/*---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------*/
/* Type declarations */
/*---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------*/
/* Variable declarations */
/*---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------*/
/* Macro declarations */
/*---------------------------------------------------------------------------*/
/**AutomaticStart*************************************************************/
/*---------------------------------------------------------------------------*/
/* Static function prototypes */
/*---------------------------------------------------------------------------*/
static DdNode * cuddBddAndRecurTime( DdManager * manager, DdNode * f, DdNode * g, int * pRecCalls, int TimeOut );
static DdNode * cuddBddAndAbstractRecurTime( DdManager * manager, DdNode * f, DdNode * g, DdNode * cube, int * pRecCalls, int TimeOut );
static DdNode * extraTransferPermuteTime( DdManager * ddS, DdManager * ddD, DdNode * f, int * Permute, int TimeOut );
static DdNode * extraTransferPermuteRecurTime( DdManager * ddS, DdManager * ddD, DdNode * f, st_table * table, int * Permute, int TimeOut );
/**AutomaticEnd***************************************************************/
/*---------------------------------------------------------------------------*/
/* Definition of exported functions */
/*---------------------------------------------------------------------------*/
/**Function********************************************************************
Synopsis [Computes the conjunction of two BDDs f and g.]
Description [Computes the conjunction of two BDDs f and g. Returns a
pointer to the resulting BDD if successful; NULL if the intermediate
result blows up.]
SideEffects [None]
SeeAlso [Cudd_bddIte Cudd_addApply Cudd_bddAndAbstract Cudd_bddIntersect
Cudd_bddOr Cudd_bddNand Cudd_bddNor Cudd_bddXor Cudd_bddXnor]
******************************************************************************/
DdNode *
Extra_bddAndTime(
DdManager * dd,
DdNode * f,
DdNode * g,
int TimeOut)
{
DdNode *res;
int Counter = 0;
do {
dd->reordered = 0;
res = cuddBddAndRecurTime(dd,f,g, &Counter, TimeOut);
} while (dd->reordered == 1);
return(res);
} /* end of Extra_bddAndTime */
/**Function********************************************************************
Synopsis [Takes the AND of two BDDs and simultaneously abstracts the
variables in cube.]
Description [Takes the AND of two BDDs and simultaneously abstracts
the variables in cube. The variables are existentially abstracted.
Returns a pointer to the result is successful; NULL otherwise.
Cudd_bddAndAbstract implements the semiring matrix multiplication
algorithm for the boolean semiring.]
SideEffects [None]
SeeAlso [Cudd_addMatrixMultiply Cudd_addTriangle Cudd_bddAnd]
******************************************************************************/
DdNode *
Extra_bddAndAbstractTime(
DdManager * manager,
DdNode * f,
DdNode * g,
DdNode * cube,
int TimeOut)
{
DdNode *res;
int Counter = 0;
do {
manager->reordered = 0;
res = cuddBddAndAbstractRecurTime(manager, f, g, cube, &Counter, TimeOut);
} while (manager->reordered == 1);
return(res);
} /* end of Extra_bddAndAbstractTime */
/**Function********************************************************************
Synopsis [Convert a {A,B}DD from a manager to another with variable remapping.]
Description [Convert a {A,B}DD from a manager to another one. The orders of the
variables in the two managers may be different. Returns a
pointer to the {A,B}DD in the destination manager if successful; NULL
otherwise. The i-th entry in the array Permute tells what is the index
of the i-th variable from the old manager in the new manager.]
SideEffects [None]
SeeAlso []
******************************************************************************/
DdNode * Extra_TransferPermuteTime( DdManager * ddSource, DdManager * ddDestination, DdNode * f, int * Permute, int TimeOut )
{
DdNode * bRes;
do
{
ddDestination->reordered = 0;
bRes = extraTransferPermuteTime( ddSource, ddDestination, f, Permute, TimeOut );
}
while ( ddDestination->reordered == 1 );
return ( bRes );
} /* end of Extra_TransferPermuteTime */
/*---------------------------------------------------------------------------*/
/* Definition of internal functions */
/*---------------------------------------------------------------------------*/
/**Function********************************************************************
Synopsis [Implements the recursive step of Cudd_bddAnd.]
Description [Implements the recursive step of Cudd_bddAnd by taking
the conjunction of two BDDs. Returns a pointer to the result is
successful; NULL otherwise.]
SideEffects [None]
SeeAlso [Cudd_bddAnd]
******************************************************************************/
DdNode *
cuddBddAndRecurTime(
DdManager * manager,
DdNode * f,
DdNode * g,
int * pRecCalls,
int TimeOut)
{
DdNode *F, *fv, *fnv, *G, *gv, *gnv;
DdNode *one, *r, *t, *e;
unsigned int topf, topg, index;
statLine(manager);
one = DD_ONE(manager);
/* Terminal cases. */
F = Cudd_Regular(f);
G = Cudd_Regular(g);
if (F == G) {
if (f == g) return(f);
else return(Cudd_Not(one));
}
if (F == one) {
if (f == one) return(g);
else return(f);
}
if (G == one) {
if (g == one) return(f);
else return(g);
}
/* At this point f and g are not constant. */
if (f > g) { /* Try to increase cache efficiency. */
DdNode *tmp = f;
f = g;
g = tmp;
F = Cudd_Regular(f);
G = Cudd_Regular(g);
}
/* Check cache. */
if (F->ref != 1 || G->ref != 1) {
r = cuddCacheLookup2(manager, Cudd_bddAnd, f, g);
if (r != NULL) return(r);
}
// if ( TimeOut && ((*pRecCalls)++ % CHECK_FACTOR) == 0 && TimeOut < clock() )
if ( TimeOut && time(NULL) > TimeOut )
return NULL;
/* Here we can skip the use of cuddI, because the operands are known
** to be non-constant.
*/
topf = manager->perm[F->index];
topg = manager->perm[G->index];
/* Compute cofactors. */
if (topf <= topg) {
index = F->index;
fv = cuddT(F);
fnv = cuddE(F);
if (Cudd_IsComplement(f)) {
fv = Cudd_Not(fv);
fnv = Cudd_Not(fnv);
}
} else {
index = G->index;
fv = fnv = f;
}
if (topg <= topf) {
gv = cuddT(G);
gnv = cuddE(G);
if (Cudd_IsComplement(g)) {
gv = Cudd_Not(gv);
gnv = Cudd_Not(gnv);
}
} else {
gv = gnv = g;
}
t = cuddBddAndRecurTime(manager, fv, gv, pRecCalls, TimeOut);
if (t == NULL) return(NULL);
cuddRef(t);
e = cuddBddAndRecurTime(manager, fnv, gnv, pRecCalls, TimeOut);
if (e == NULL) {
Cudd_IterDerefBdd(manager, t);
return(NULL);
}
cuddRef(e);
if (t == e) {
r = t;
} else {
if (Cudd_IsComplement(t)) {
r = cuddUniqueInter(manager,(int)index,Cudd_Not(t),Cudd_Not(e));
if (r == NULL) {
Cudd_IterDerefBdd(manager, t);
Cudd_IterDerefBdd(manager, e);
return(NULL);
}
r = Cudd_Not(r);
} else {
r = cuddUniqueInter(manager,(int)index,t,e);
if (r == NULL) {
Cudd_IterDerefBdd(manager, t);
Cudd_IterDerefBdd(manager, e);
return(NULL);
}
}
}
cuddDeref(e);
cuddDeref(t);
if (F->ref != 1 || G->ref != 1)
cuddCacheInsert2(manager, Cudd_bddAnd, f, g, r);
return(r);
} /* end of cuddBddAndRecur */
/**Function********************************************************************
Synopsis [Takes the AND of two BDDs and simultaneously abstracts the
variables in cube.]
Description [Takes the AND of two BDDs and simultaneously abstracts
the variables in cube. The variables are existentially abstracted.
Returns a pointer to the result is successful; NULL otherwise.]
SideEffects [None]
SeeAlso [Cudd_bddAndAbstract]
******************************************************************************/
DdNode *
cuddBddAndAbstractRecurTime(
DdManager * manager,
DdNode * f,
DdNode * g,
DdNode * cube,
int * pRecCalls,
int TimeOut)
{
DdNode *F, *ft, *fe, *G, *gt, *ge;
DdNode *one, *zero, *r, *t, *e;
unsigned int topf, topg, topcube, top, index;
statLine(manager);
one = DD_ONE(manager);
zero = Cudd_Not(one);
/* Terminal cases. */
if (f == zero || g == zero || f == Cudd_Not(g)) return(zero);
if (f == one && g == one) return(one);
if (cube == one) {
return(cuddBddAndRecurTime(manager, f, g, pRecCalls, TimeOut));
}
if (f == one || f == g) {
return(cuddBddExistAbstractRecur(manager, g, cube));
}
if (g == one) {
return(cuddBddExistAbstractRecur(manager, f, cube));
}
/* At this point f, g, and cube are not constant. */
if (f > g) { /* Try to increase cache efficiency. */
DdNode *tmp = f;
f = g;
g = tmp;
}
/* Here we can skip the use of cuddI, because the operands are known
** to be non-constant.
*/
F = Cudd_Regular(f);
G = Cudd_Regular(g);
topf = manager->perm[F->index];
topg = manager->perm[G->index];
top = ddMin(topf, topg);
topcube = manager->perm[cube->index];
while (topcube < top) {
cube = cuddT(cube);
if (cube == one) {
return(cuddBddAndRecurTime(manager, f, g, pRecCalls, TimeOut));
}
topcube = manager->perm[cube->index];
}
/* Now, topcube >= top. */
/* Check cache. */
if (F->ref != 1 || G->ref != 1) {
r = cuddCacheLookup(manager, DD_BDD_AND_ABSTRACT_TAG, f, g, cube);
if (r != NULL) {
return(r);
}
}
// if ( TimeOut && ((*pRecCalls)++ % CHECK_FACTOR) == 0 && TimeOut < clock() )
if ( TimeOut && time(NULL) > TimeOut )
return NULL;
if (topf == top) {
index = F->index;
ft = cuddT(F);
fe = cuddE(F);
if (Cudd_IsComplement(f)) {
ft = Cudd_Not(ft);
fe = Cudd_Not(fe);
}
} else {
index = G->index;
ft = fe = f;
}
if (topg == top) {
gt = cuddT(G);
ge = cuddE(G);
if (Cudd_IsComplement(g)) {
gt = Cudd_Not(gt);
ge = Cudd_Not(ge);
}
} else {
gt = ge = g;
}
if (topcube == top) { /* quantify */
DdNode *Cube = cuddT(cube);
t = cuddBddAndAbstractRecurTime(manager, ft, gt, Cube, pRecCalls, TimeOut);
if (t == NULL) return(NULL);
/* Special case: 1 OR anything = 1. Hence, no need to compute
** the else branch if t is 1. Likewise t + t * anything == t.
** Notice that t == fe implies that fe does not depend on the
** variables in Cube. Likewise for t == ge.
*/
if (t == one || t == fe || t == ge) {
if (F->ref != 1 || G->ref != 1)
cuddCacheInsert(manager, DD_BDD_AND_ABSTRACT_TAG,
f, g, cube, t);
return(t);
}
cuddRef(t);
/* Special case: t + !t * anything == t + anything. */
if (t == Cudd_Not(fe)) {
e = cuddBddExistAbstractRecur(manager, ge, Cube);
} else if (t == Cudd_Not(ge)) {
e = cuddBddExistAbstractRecur(manager, fe, Cube);
} else {
e = cuddBddAndAbstractRecurTime(manager, fe, ge, Cube, pRecCalls, TimeOut);
}
if (e == NULL) {
Cudd_IterDerefBdd(manager, t);
return(NULL);
}
if (t == e) {
r = t;
cuddDeref(t);
} else {
cuddRef(e);
r = cuddBddAndRecurTime(manager, Cudd_Not(t), Cudd_Not(e), pRecCalls, TimeOut);
if (r == NULL) {
Cudd_IterDerefBdd(manager, t);
Cudd_IterDerefBdd(manager, e);
return(NULL);
}
r = Cudd_Not(r);
cuddRef(r);
Cudd_DelayedDerefBdd(manager, t);
Cudd_DelayedDerefBdd(manager, e);
cuddDeref(r);
}
} else {
t = cuddBddAndAbstractRecurTime(manager, ft, gt, cube, pRecCalls, TimeOut);
if (t == NULL) return(NULL);
cuddRef(t);
e = cuddBddAndAbstractRecurTime(manager, fe, ge, cube, pRecCalls, TimeOut);
if (e == NULL) {
Cudd_IterDerefBdd(manager, t);
return(NULL);
}
if (t == e) {
r = t;
cuddDeref(t);
} else {
cuddRef(e);
if (Cudd_IsComplement(t)) {
r = cuddUniqueInter(manager, (int) index,
Cudd_Not(t), Cudd_Not(e));
if (r == NULL) {
Cudd_IterDerefBdd(manager, t);
Cudd_IterDerefBdd(manager, e);
return(NULL);
}
r = Cudd_Not(r);
} else {
r = cuddUniqueInter(manager,(int)index,t,e);
if (r == NULL) {
Cudd_IterDerefBdd(manager, t);
Cudd_IterDerefBdd(manager, e);
return(NULL);
}
}
cuddDeref(e);
cuddDeref(t);
}
}
if (F->ref != 1 || G->ref != 1)
cuddCacheInsert(manager, DD_BDD_AND_ABSTRACT_TAG, f, g, cube, r);
return (r);
} /* end of cuddBddAndAbstractRecur */
/*---------------------------------------------------------------------------*/
/* Definition of static functions */
/*---------------------------------------------------------------------------*/
/**Function********************************************************************
Synopsis [Convert a BDD from a manager to another one.]
Description [Convert a BDD from a manager to another one. Returns a
pointer to the BDD in the destination manager if successful; NULL
otherwise.]
SideEffects [None]
SeeAlso [Extra_TransferPermute]
******************************************************************************/
DdNode * extraTransferPermuteTime( DdManager * ddS, DdManager * ddD, DdNode * f, int * Permute, int TimeOut )
{
DdNode *res;
st_table *table = NULL;
st_generator *gen = NULL;
DdNode *key, *value;
table = st_init_table( st_ptrcmp, st_ptrhash );
if ( table == NULL )
goto failure;
res = extraTransferPermuteRecurTime( ddS, ddD, f, table, Permute, TimeOut );
if ( res != NULL )
cuddRef( res );
/* Dereference all elements in the table and dispose of the table.
** This must be done also if res is NULL to avoid leaks in case of
** reordering. */
gen = st_init_gen( table );
if ( gen == NULL )
goto failure;
while ( st_gen( gen, ( const char ** ) &key, ( char ** ) &value ) )
{
Cudd_RecursiveDeref( ddD, value );
}
st_free_gen( gen );
gen = NULL;
st_free_table( table );
table = NULL;
if ( res != NULL )
cuddDeref( res );
return ( res );
failure:
if ( table != NULL )
st_free_table( table );
if ( gen != NULL )
st_free_gen( gen );
return ( NULL );
} /* end of extraTransferPermuteTime */
/**Function********************************************************************
Synopsis [Performs the recursive step of Extra_TransferPermute.]
Description [Performs the recursive step of Extra_TransferPermute.
Returns a pointer to the result if successful; NULL otherwise.]
SideEffects [None]
SeeAlso [extraTransferPermuteTime]
******************************************************************************/
static DdNode *
extraTransferPermuteRecurTime(
DdManager * ddS,
DdManager * ddD,
DdNode * f,
st_table * table,
int * Permute,
int TimeOut )
{
DdNode *ft, *fe, *t, *e, *var, *res;
DdNode *one, *zero;
int index;
int comple = 0;
statLine( ddD );
one = DD_ONE( ddD );
comple = Cudd_IsComplement( f );
/* Trivial cases. */
if ( Cudd_IsConstant( f ) )
return ( Cudd_NotCond( one, comple ) );
/* Make canonical to increase the utilization of the cache. */
f = Cudd_NotCond( f, comple );
/* Now f is a regular pointer to a non-constant node. */
/* Check the cache. */
if ( st_lookup( table, ( char * ) f, ( char ** ) &res ) )
return ( Cudd_NotCond( res, comple ) );
if ( TimeOut && time(NULL) > TimeOut )
return NULL;
/* Recursive step. */
if ( Permute )
index = Permute[f->index];
else
index = f->index;
ft = cuddT( f );
fe = cuddE( f );
t = extraTransferPermuteRecurTime( ddS, ddD, ft, table, Permute, TimeOut );
if ( t == NULL )
{
return ( NULL );
}
cuddRef( t );
e = extraTransferPermuteRecurTime( ddS, ddD, fe, table, Permute, TimeOut );
if ( e == NULL )
{
Cudd_RecursiveDeref( ddD, t );
return ( NULL );
}
cuddRef( e );
zero = Cudd_Not(ddD->one);
var = cuddUniqueInter( ddD, index, one, zero );
if ( var == NULL )
{
Cudd_RecursiveDeref( ddD, t );
Cudd_RecursiveDeref( ddD, e );
return ( NULL );
}
res = cuddBddIteRecur( ddD, var, t, e );
if ( res == NULL )
{
Cudd_RecursiveDeref( ddD, t );
Cudd_RecursiveDeref( ddD, e );
return ( NULL );
}
cuddRef( res );
Cudd_RecursiveDeref( ddD, t );
Cudd_RecursiveDeref( ddD, e );
if ( st_add_direct( table, ( char * ) f, ( char * ) res ) ==
ST_OUT_OF_MEM )
{
Cudd_RecursiveDeref( ddD, res );
return ( NULL );
}
return ( Cudd_NotCond( res, comple ) );
} /* end of extraTransferPermuteRecurTime */
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
|