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Diffstat (limited to 'src/misc/extra/extraUtilBdd.c')
-rw-r--r-- | src/misc/extra/extraUtilBdd.c | 1018 |
1 files changed, 1018 insertions, 0 deletions
diff --git a/src/misc/extra/extraUtilBdd.c b/src/misc/extra/extraUtilBdd.c new file mode 100644 index 00000000..32fdca2c --- /dev/null +++ b/src/misc/extra/extraUtilBdd.c @@ -0,0 +1,1018 @@ +/**CFile**************************************************************** + + FileName [extraUtilBdd.c] + + SystemName [ABC: Logic synthesis and verification system.] + + PackageName [extra] + + Synopsis [DD-based utilities.] + + Author [Alan Mishchenko] + + Affiliation [UC Berkeley] + + Date [Ver. 1.0. Started - June 20, 2005.] + + Revision [$Id: extraUtilBdd.c,v 1.0 2003/09/01 00:00:00 alanmi Exp $] + +***********************************************************************/ + +#include "extra.h" + +/*---------------------------------------------------------------------------*/ +/* Constant declarations */ +/*---------------------------------------------------------------------------*/ + +/*---------------------------------------------------------------------------*/ +/* Stucture declarations */ +/*---------------------------------------------------------------------------*/ + +/*---------------------------------------------------------------------------*/ +/* Type declarations */ +/*---------------------------------------------------------------------------*/ + +/*---------------------------------------------------------------------------*/ +/* Variable declarations */ +/*---------------------------------------------------------------------------*/ + +/*---------------------------------------------------------------------------*/ +/* Macro declarations */ +/*---------------------------------------------------------------------------*/ + + +/**AutomaticStart*************************************************************/ + +/*---------------------------------------------------------------------------*/ +/* Static function prototypes */ +/*---------------------------------------------------------------------------*/ + +// file "extraDdTransfer.c" +static DdNode * extraTransferPermuteRecur( DdManager * ddS, DdManager * ddD, DdNode * f, st_table * table, int * Permute ); +static DdNode * extraTransferPermute( DdManager * ddS, DdManager * ddD, DdNode * f, int * Permute ); + +// file "cuddUtils.c" +static void ddSupportStep ARGS((DdNode *f, int *support)); +static void ddClearFlag ARGS((DdNode *f)); + +/**AutomaticEnd***************************************************************/ + +/*---------------------------------------------------------------------------*/ +/* Definition of exported functions */ +/*---------------------------------------------------------------------------*/ + +/**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_TransferPermute( DdManager * ddSource, DdManager * ddDestination, DdNode * f, int * Permute ) +{ + DdNode * bRes; + do + { + ddDestination->reordered = 0; + bRes = extraTransferPermute( ddSource, ddDestination, f, Permute ); + } + while ( ddDestination->reordered == 1 ); + return ( bRes ); + +} /* end of Extra_TransferPermute */ + +/**Function******************************************************************** + + Synopsis [Transfers the BDD from one manager into another level by level.] + + Description [Transfers the BDD from one manager into another while + preserving the correspondence between variables level by level.] + + SideEffects [None] + + SeeAlso [] + +******************************************************************************/ +DdNode * Extra_TransferLevelByLevel( DdManager * ddSource, DdManager * ddDestination, DdNode * f ) +{ + DdNode * bRes; + int * pPermute; + int nMin, nMax, i; + + nMin = ddMin(ddSource->size, ddDestination->size); + nMax = ddMax(ddSource->size, ddDestination->size); + pPermute = ALLOC( int, nMax ); + // set up the variable permutation + for ( i = 0; i < nMin; i++ ) + pPermute[ ddSource->invperm[i] ] = ddDestination->invperm[i]; + if ( ddSource->size > ddDestination->size ) + { + for ( ; i < nMax; i++ ) + pPermute[ ddSource->invperm[i] ] = -1; + } + bRes = Extra_TransferPermute( ddSource, ddDestination, f, pPermute ); + FREE( pPermute ); + return bRes; +} + +/**Function******************************************************************** + + Synopsis [Remaps the function to depend on the topmost variables on the manager.] + + Description [] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +DdNode * Extra_bddRemapUp( + DdManager * dd, + DdNode * bF ) +{ + int * pPermute; + DdNode * bSupp, * bTemp, * bRes; + int Counter; + + pPermute = ALLOC( int, dd->size ); + + // get support + bSupp = Cudd_Support( dd, bF ); Cudd_Ref( bSupp ); + + // create the variable map + // to remap the DD into the upper part of the manager + Counter = 0; + for ( bTemp = bSupp; bTemp != dd->one; bTemp = cuddT(bTemp) ) + pPermute[bTemp->index] = dd->invperm[Counter++]; + + // transfer the BDD and remap it + bRes = Cudd_bddPermute( dd, bF, pPermute ); Cudd_Ref( bRes ); + + // remove support + Cudd_RecursiveDeref( dd, bSupp ); + + // return + Cudd_Deref( bRes ); + free( pPermute ); + return bRes; +} + +/**Function******************************************************************** + + Synopsis [Moves the BDD by the given number of variables up or down.] + + Description [] + + SideEffects [] + + SeeAlso [Extra_bddShift] + +******************************************************************************/ +DdNode * Extra_bddMove( + DdManager * dd, /* the DD manager */ + DdNode * bF, + int nVars) +{ + DdNode * res; + DdNode * bVars; + if ( nVars == 0 ) + return bF; + if ( Cudd_IsConstant(bF) ) + return bF; + assert( nVars <= dd->size ); + if ( nVars > 0 ) + bVars = dd->vars[nVars]; + else + bVars = Cudd_Not(dd->vars[-nVars]); + + do { + dd->reordered = 0; + res = extraBddMove( dd, bF, bVars ); + } while (dd->reordered == 1); + return(res); + +} /* end of Extra_bddMove */ + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Extra_StopManager( DdManager * dd ) +{ + int RetValue; + // check for remaining references in the package + RetValue = Cudd_CheckZeroRef( dd ); + if ( RetValue > 0 ) + printf( "\nThe number of referenced nodes = %d\n\n", RetValue ); +// Cudd_PrintInfo( dd, stdout ); + Cudd_Quit( dd ); +} + +/**Function******************************************************************** + + Synopsis [Outputs the BDD in a readable format.] + + Description [] + + SideEffects [None] + + SeeAlso [] + +******************************************************************************/ +void Extra_bddPrint( DdManager * dd, DdNode * F ) +{ + DdGen * Gen; + int * Cube; + CUDD_VALUE_TYPE Value; + int nVars = dd->size; + int fFirstCube = 1; + int i; + + if ( F == NULL ) + { + printf("NULL"); + return; + } + if ( F == b0 ) + { + printf("Constant 0"); + return; + } + if ( F == b1 ) + { + printf("Constant 1"); + return; + } + + Cudd_ForeachCube( dd, F, Gen, Cube, Value ) + { + if ( fFirstCube ) + fFirstCube = 0; + else +// Output << " + "; + printf( " + " ); + + for ( i = 0; i < nVars; i++ ) + if ( Cube[i] == 0 ) + printf( "[%d]'", i ); +// printf( "%c'", (char)('a'+i) ); + else if ( Cube[i] == 1 ) + printf( "[%d]", i ); +// printf( "%c", (char)('a'+i) ); + } + +// printf("\n"); +} +/**Function******************************************************************** + + Synopsis [Returns the size of the support.] + + Description [] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +int Extra_bddSuppSize( DdManager * dd, DdNode * bSupp ) +{ + int Counter = 0; + while ( bSupp != b1 ) + { + assert( !Cudd_IsComplement(bSupp) ); + assert( cuddE(bSupp) == b0 ); + + bSupp = cuddT(bSupp); + Counter++; + } + return Counter; +} + +/**Function******************************************************************** + + Synopsis [Returns 1 if the support contains the given BDD variable.] + + Description [] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +int Extra_bddSuppContainVar( DdManager * dd, DdNode * bS, DdNode * bVar ) +{ + for( ; bS != b1; bS = cuddT(bS) ) + if ( bS->index == bVar->index ) + return 1; + return 0; +} + +/**Function******************************************************************** + + Synopsis [Returns 1 if two supports represented as BDD cubes are overlapping.] + + Description [] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +int Extra_bddSuppOverlapping( DdManager * dd, DdNode * S1, DdNode * S2 ) +{ + while ( S1->index != CUDD_CONST_INDEX && S2->index != CUDD_CONST_INDEX ) + { + // if the top vars are the same, they intersect + if ( S1->index == S2->index ) + return 1; + // if the top vars are different, skip the one, which is higher + if ( dd->perm[S1->index] < dd->perm[S2->index] ) + S1 = cuddT(S1); + else + S2 = cuddT(S2); + } + return 0; +} + +/**Function******************************************************************** + + Synopsis [Returns the number of different vars in two supports.] + + Description [Counts the number of variables that appear in one support and + does not appear in other support. If the number exceeds DiffMax, returns DiffMax.] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +int Extra_bddSuppDifferentVars( DdManager * dd, DdNode * S1, DdNode * S2, int DiffMax ) +{ + int Result = 0; + while ( S1->index != CUDD_CONST_INDEX && S2->index != CUDD_CONST_INDEX ) + { + // if the top vars are the same, this var is the same + if ( S1->index == S2->index ) + { + S1 = cuddT(S1); + S2 = cuddT(S2); + continue; + } + // the top var is different + Result++; + + if ( Result >= DiffMax ) + return DiffMax; + + // if the top vars are different, skip the one, which is higher + if ( dd->perm[S1->index] < dd->perm[S2->index] ) + S1 = cuddT(S1); + else + S2 = cuddT(S2); + } + + // consider the remaining variables + if ( S1->index != CUDD_CONST_INDEX ) + Result += Extra_bddSuppSize(dd,S1); + else if ( S2->index != CUDD_CONST_INDEX ) + Result += Extra_bddSuppSize(dd,S2); + + if ( Result >= DiffMax ) + return DiffMax; + return Result; +} + + +/**Function******************************************************************** + + Synopsis [Checks the support containment.] + + Description [This function returns 1 if one support is contained in another. + In this case, bLarge (bSmall) is assigned to point to the larger (smaller) support. + If the supports are identical, return 0 and does not assign the supports!] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +int Extra_bddSuppCheckContainment( DdManager * dd, DdNode * bL, DdNode * bH, DdNode ** bLarge, DdNode ** bSmall ) +{ + DdNode * bSL = bL; + DdNode * bSH = bH; + int fLcontainsH = 1; + int fHcontainsL = 1; + int TopVar; + + if ( bSL == bSH ) + return 0; + + while ( bSL != b1 || bSH != b1 ) + { + if ( bSL == b1 ) + { // Low component has no vars; High components has some vars + fLcontainsH = 0; + if ( fHcontainsL == 0 ) + return 0; + else + break; + } + + if ( bSH == b1 ) + { // similarly + fHcontainsL = 0; + if ( fLcontainsH == 0 ) + return 0; + else + break; + } + + // determine the topmost var of the supports by comparing their levels + if ( dd->perm[bSL->index] < dd->perm[bSH->index] ) + TopVar = bSL->index; + else + TopVar = bSH->index; + + if ( TopVar == bSL->index && TopVar == bSH->index ) + { // they are on the same level + // it does not tell us anything about their containment + // skip this var + bSL = cuddT(bSL); + bSH = cuddT(bSH); + } + else if ( TopVar == bSL->index ) // and TopVar != bSH->index + { // Low components is higher and contains more vars + // it is not possible that High component contains Low + fHcontainsL = 0; + // skip this var + bSL = cuddT(bSL); + } + else // if ( TopVar == bSH->index ) // and TopVar != bSL->index + { // similarly + fLcontainsH = 0; + // skip this var + bSH = cuddT(bSH); + } + + // check the stopping condition + if ( !fHcontainsL && !fLcontainsH ) + return 0; + } + // only one of them can be true at the same time + assert( !fHcontainsL || !fLcontainsH ); + if ( fHcontainsL ) + { + *bLarge = bH; + *bSmall = bL; + } + else // fLcontainsH + { + *bLarge = bL; + *bSmall = bH; + } + return 1; +} + + +/**Function******************************************************************** + + Synopsis [Finds variables on which the DD depends and returns them as am array.] + + Description [Finds the variables on which the DD depends. Returns an array + with entries set to 1 for those variables that belong to the support; + NULL otherwise. The array is allocated by the user and should have at least + as many entries as the maximum number of variables in BDD and ZDD parts of + the manager.] + + SideEffects [None] + + SeeAlso [Cudd_Support Cudd_VectorSupport Cudd_ClassifySupport] + +******************************************************************************/ +int * +Extra_SupportArray( + DdManager * dd, /* manager */ + DdNode * f, /* DD whose support is sought */ + int * support ) /* array allocated by the user */ +{ + int i, size; + + /* Initialize support array for ddSupportStep. */ + size = ddMax(dd->size, dd->sizeZ); + for (i = 0; i < size; i++) + support[i] = 0; + + /* Compute support and clean up markers. */ + ddSupportStep(Cudd_Regular(f),support); + ddClearFlag(Cudd_Regular(f)); + + return(support); + +} /* end of Extra_SupportArray */ + +/**Function******************************************************************** + + Synopsis [Finds the variables on which a set of DDs depends.] + + Description [Finds the variables on which a set of DDs depends. + The set must contain either BDDs and ADDs, or ZDDs. + Returns a BDD consisting of the product of the variables if + successful; NULL otherwise.] + + SideEffects [None] + + SeeAlso [Cudd_Support Cudd_ClassifySupport] + +******************************************************************************/ +int * +Extra_VectorSupportArray( + DdManager * dd, /* manager */ + DdNode ** F, /* array of DDs whose support is sought */ + int n, /* size of the array */ + int * support ) /* array allocated by the user */ +{ + int i, size; + + /* Allocate and initialize support array for ddSupportStep. */ + size = ddMax( dd->size, dd->sizeZ ); + for ( i = 0; i < size; i++ ) + support[i] = 0; + + /* Compute support and clean up markers. */ + for ( i = 0; i < n; i++ ) + ddSupportStep( Cudd_Regular(F[i]), support ); + for ( i = 0; i < n; i++ ) + ddClearFlag( Cudd_Regular(F[i]) ); + + return support; +} + +/**Function******************************************************************** + + Synopsis [Find any cube belonging to the on-set of the function.] + + Description [] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +DdNode * Extra_bddFindOneCube( DdManager * dd, DdNode * bF ) +{ + char * s_Temp; + DdNode * bCube, * bTemp; + int v; + + // get the vector of variables in the cube + s_Temp = ALLOC( char, dd->size ); + Cudd_bddPickOneCube( dd, bF, s_Temp ); + + // start the cube + bCube = b1; Cudd_Ref( bCube ); + for ( v = 0; v < dd->size; v++ ) + if ( s_Temp[v] == 0 ) + { +// Cube &= !s_XVars[v]; + bCube = Cudd_bddAnd( dd, bTemp = bCube, Cudd_Not(dd->vars[v]) ); Cudd_Ref( bCube ); + Cudd_RecursiveDeref( dd, bTemp ); + } + else if ( s_Temp[v] == 1 ) + { +// Cube &= s_XVars[v]; + bCube = Cudd_bddAnd( dd, bTemp = bCube, dd->vars[v] ); Cudd_Ref( bCube ); + Cudd_RecursiveDeref( dd, bTemp ); + } + Cudd_Deref(bCube); + free( s_Temp ); + return bCube; +} + +/**Function******************************************************************** + + Synopsis [Returns one cube contained in the given BDD.] + + Description [This function returns the cube with the smallest + bits-to-integer value.] + + SideEffects [] + +******************************************************************************/ +DdNode * Extra_bddGetOneCube( DdManager * dd, DdNode * bFunc ) +{ + DdNode * bFuncR, * bFunc0, * bFunc1; + DdNode * bRes0, * bRes1, * bRes; + + bFuncR = Cudd_Regular(bFunc); + if ( cuddIsConstant(bFuncR) ) + return bFunc; + + // cofactor + if ( Cudd_IsComplement(bFunc) ) + { + bFunc0 = Cudd_Not( cuddE(bFuncR) ); + bFunc1 = Cudd_Not( cuddT(bFuncR) ); + } + else + { + bFunc0 = cuddE(bFuncR); + bFunc1 = cuddT(bFuncR); + } + + // try to find the cube with the negative literal + bRes0 = Extra_bddGetOneCube( dd, bFunc0 ); Cudd_Ref( bRes0 ); + + if ( bRes0 != b0 ) + { + bRes = Cudd_bddAnd( dd, bRes0, Cudd_Not(dd->vars[bFuncR->index]) ); Cudd_Ref( bRes ); + Cudd_RecursiveDeref( dd, bRes0 ); + } + else + { + Cudd_RecursiveDeref( dd, bRes0 ); + // try to find the cube with the positive literal + bRes1 = Extra_bddGetOneCube( dd, bFunc1 ); Cudd_Ref( bRes1 ); + assert( bRes1 != b0 ); + bRes = Cudd_bddAnd( dd, bRes1, dd->vars[bFuncR->index] ); Cudd_Ref( bRes ); + Cudd_RecursiveDeref( dd, bRes1 ); + } + + Cudd_Deref( bRes ); + return bRes; +} + +/*---------------------------------------------------------------------------*/ +/* Definition of internal functions */ +/*---------------------------------------------------------------------------*/ + +/**Function******************************************************************** + + Synopsis [Performs the reordering-sensitive step of Extra_bddMove().] + + Description [] + + SideEffects [] + + SeeAlso [] + +******************************************************************************/ +DdNode * extraBddMove( + DdManager * dd, /* the DD manager */ + DdNode * bF, + DdNode * bDist) +{ + DdNode * bRes; + + if ( Cudd_IsConstant(bF) ) + return bF; + + if ( bRes = cuddCacheLookup2(dd, extraBddMove, bF, bDist) ) + return bRes; + else + { + DdNode * bRes0, * bRes1; + DdNode * bF0, * bF1; + DdNode * bFR = Cudd_Regular(bF); + int VarNew; + + if ( Cudd_IsComplement(bDist) ) + VarNew = bFR->index - Cudd_Not(bDist)->index; + else + VarNew = bFR->index + bDist->index; + assert( VarNew < dd->size ); + + // cofactor the functions + if ( bFR != bF ) // bFunc is complemented + { + bF0 = Cudd_Not( cuddE(bFR) ); + bF1 = Cudd_Not( cuddT(bFR) ); + } + else + { + bF0 = cuddE(bFR); + bF1 = cuddT(bFR); + } + + bRes0 = extraBddMove( dd, bF0, bDist ); + if ( bRes0 == NULL ) + return NULL; + cuddRef( bRes0 ); + + bRes1 = extraBddMove( dd, bF1, bDist ); + if ( bRes1 == NULL ) + { + Cudd_RecursiveDeref( dd, bRes0 ); + return NULL; + } + cuddRef( bRes1 ); + + /* only bRes0 and bRes1 are referenced at this point */ + bRes = cuddBddIteRecur( dd, dd->vars[VarNew], bRes1, bRes0 ); + if ( bRes == NULL ) + { + Cudd_RecursiveDeref( dd, bRes0 ); + Cudd_RecursiveDeref( dd, bRes1 ); + return NULL; + } + cuddRef( bRes ); + Cudd_RecursiveDeref( dd, bRes0 ); + Cudd_RecursiveDeref( dd, bRes1 ); + + /* insert the result into cache */ + cuddCacheInsert2( dd, extraBddMove, bF, bDist, bRes ); + cuddDeref( bRes ); + return bRes; + } +} /* end of extraBddMove */ + + +/**Function******************************************************************** + + Synopsis [Finds three cofactors of the cover w.r.t. to the topmost variable.] + + Description [Finds three cofactors of the cover w.r.t. to the topmost variable. + Does not check the cover for being a constant. Assumes that ZDD variables encoding + positive and negative polarities are adjacent in the variable order. Is different + from cuddZddGetCofactors3() in that it does not compute the cofactors w.r.t. the + given variable but takes the cofactors with respent to the topmost variable. + This function is more efficient when used in recursive procedures because it does + not require referencing of the resulting cofactors (compare cuddZddProduct() + and extraZddPrimeProduct()).] + + SideEffects [None] + + SeeAlso [cuddZddGetCofactors3] + +******************************************************************************/ +void +extraDecomposeCover( + DdManager* dd, /* the manager */ + DdNode* zC, /* the cover */ + DdNode** zC0, /* the pointer to the negative var cofactor */ + DdNode** zC1, /* the pointer to the positive var cofactor */ + DdNode** zC2 ) /* the pointer to the cofactor without var */ +{ + if ( (zC->index & 1) == 0 ) + { /* the top variable is present in positive polarity and maybe in negative */ + + DdNode *Temp = cuddE( zC ); + *zC1 = cuddT( zC ); + if ( cuddIZ(dd,Temp->index) == cuddIZ(dd,zC->index) + 1 ) + { /* Temp is not a terminal node + * top var is present in negative polarity */ + *zC2 = cuddE( Temp ); + *zC0 = cuddT( Temp ); + } + else + { /* top var is not present in negative polarity */ + *zC2 = Temp; + *zC0 = dd->zero; + } + } + else + { /* the top variable is present only in negative */ + *zC1 = dd->zero; + *zC2 = cuddE( zC ); + *zC0 = cuddT( zC ); + } +} /* extraDecomposeCover */ + +/*---------------------------------------------------------------------------*/ +/* 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 * extraTransferPermute( DdManager * ddS, DdManager * ddD, DdNode * f, int * Permute ) +{ + 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 = extraTransferPermuteRecur( ddS, ddD, f, table, Permute ); + 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, ( 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 extraTransferPermute */ + + +/**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 [extraTransferPermute] + +******************************************************************************/ +static DdNode * +extraTransferPermuteRecur( + DdManager * ddS, + DdManager * ddD, + DdNode * f, + st_table * table, + int * Permute ) +{ + 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 ) ); + + /* Recursive step. */ + if ( Permute ) + index = Permute[f->index]; + else + index = f->index; + + ft = cuddT( f ); + fe = cuddE( f ); + + t = extraTransferPermuteRecur( ddS, ddD, ft, table, Permute ); + if ( t == NULL ) + { + return ( NULL ); + } + cuddRef( t ); + + e = extraTransferPermuteRecur( ddS, ddD, fe, table, Permute ); + 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 extraTransferPermuteRecur */ + +/**Function******************************************************************** + + Synopsis [Performs the recursive step of Cudd_Support.] + + Description [Performs the recursive step of Cudd_Support. Performs a + DFS from f. The support is accumulated in supp as a side effect. Uses + the LSB of the then pointer as visited flag.] + + SideEffects [None] + + SeeAlso [ddClearFlag] + +******************************************************************************/ +static void +ddSupportStep( + DdNode * f, + int * support) +{ + if (cuddIsConstant(f) || Cudd_IsComplement(f->next)) { + return; + } + + support[f->index] = 1; + ddSupportStep(cuddT(f),support); + ddSupportStep(Cudd_Regular(cuddE(f)),support); + /* Mark as visited. */ + f->next = Cudd_Not(f->next); + return; + +} /* end of ddSupportStep */ + + +/**Function******************************************************************** + + Synopsis [Performs a DFS from f, clearing the LSB of the next + pointers.] + + Description [] + + SideEffects [None] + + SeeAlso [ddSupportStep ddDagInt] + +******************************************************************************/ +static void +ddClearFlag( + DdNode * f) +{ + if (!Cudd_IsComplement(f->next)) { + return; + } + /* Clear visited flag. */ + f->next = Cudd_Regular(f->next); + if (cuddIsConstant(f)) { + return; + } + ddClearFlag(cuddT(f)); + ddClearFlag(Cudd_Regular(cuddE(f))); + return; + +} /* end of ddClearFlag */ + + +//////////////////////////////////////////////////////////////////////// +/// END OF FILE /// +//////////////////////////////////////////////////////////////////////// + + |