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Diffstat (limited to 'src/bdd/cudd/cuddAddAbs.c')
-rw-r--r-- | src/bdd/cudd/cuddAddAbs.c | 566 |
1 files changed, 566 insertions, 0 deletions
diff --git a/src/bdd/cudd/cuddAddAbs.c b/src/bdd/cudd/cuddAddAbs.c new file mode 100644 index 00000000..27039908 --- /dev/null +++ b/src/bdd/cudd/cuddAddAbs.c @@ -0,0 +1,566 @@ +/**CFile*********************************************************************** + + FileName [cuddAddAbs.c] + + PackageName [cudd] + + Synopsis [Quantification functions for ADDs.] + + Description [External procedures included in this module: + <ul> + <li> Cudd_addExistAbstract() + <li> Cudd_addUnivAbstract() + <li> Cudd_addOrAbstract() + </ul> + Internal procedures included in this module: + <ul> + <li> cuddAddExistAbstractRecur() + <li> cuddAddUnivAbstractRecur() + <li> cuddAddOrAbstractRecur() + </ul> + Static procedures included in this module: + <ul> + <li> addCheckPositiveCube() + </ul>] + + Author [Fabio Somenzi] + + Copyright [This file was created at the University of Colorado at + Boulder. The University of Colorado at Boulder makes no warranty + about the suitability of this software for any purpose. It is + presented on an AS IS basis.] + +******************************************************************************/ + +#include "util.h" +#include "cuddInt.h" + +/*---------------------------------------------------------------------------*/ +/* Constant declarations */ +/*---------------------------------------------------------------------------*/ + + +/*---------------------------------------------------------------------------*/ +/* Stucture declarations */ +/*---------------------------------------------------------------------------*/ + + +/*---------------------------------------------------------------------------*/ +/* Type declarations */ +/*---------------------------------------------------------------------------*/ + + +/*---------------------------------------------------------------------------*/ +/* Variable declarations */ +/*---------------------------------------------------------------------------*/ + +#ifndef lint +static char rcsid[] DD_UNUSED = "$Id: cuddAddAbs.c,v 1.1.1.1 2003/02/24 22:23:50 wjiang Exp $"; +#endif + +static DdNode *two; + +/*---------------------------------------------------------------------------*/ +/* Macro declarations */ +/*---------------------------------------------------------------------------*/ + + +/**AutomaticStart*************************************************************/ + +/*---------------------------------------------------------------------------*/ +/* Static function prototypes */ +/*---------------------------------------------------------------------------*/ + +static int addCheckPositiveCube ARGS((DdManager *manager, DdNode *cube)); + +/**AutomaticEnd***************************************************************/ + + +/*---------------------------------------------------------------------------*/ +/* Definition of exported functions */ +/*---------------------------------------------------------------------------*/ + +/**Function******************************************************************** + + Synopsis [Existentially Abstracts all the variables in cube from f.] + + Description [Abstracts all the variables in cube from f by summing + over all possible values taken by the variables. Returns the + abstracted ADD.] + + SideEffects [None] + + SeeAlso [Cudd_addUnivAbstract Cudd_bddExistAbstract + Cudd_addOrAbstract] + +******************************************************************************/ +DdNode * +Cudd_addExistAbstract( + DdManager * manager, + DdNode * f, + DdNode * cube) +{ + DdNode *res; + + two = cuddUniqueConst(manager,(CUDD_VALUE_TYPE) 2); + if (two == NULL) return(NULL); + cuddRef(two); + + if (addCheckPositiveCube(manager, cube) == 0) { + (void) fprintf(manager->err,"Error: Can only abstract cubes"); + return(NULL); + } + + do { + manager->reordered = 0; + res = cuddAddExistAbstractRecur(manager, f, cube); + } while (manager->reordered == 1); + + if (res == NULL) { + Cudd_RecursiveDeref(manager,two); + return(NULL); + } + cuddRef(res); + Cudd_RecursiveDeref(manager,two); + cuddDeref(res); + + return(res); + +} /* end of Cudd_addExistAbstract */ + + +/**Function******************************************************************** + + Synopsis [Universally Abstracts all the variables in cube from f.] + + Description [Abstracts all the variables in cube from f by taking + the product over all possible values taken by the variable. Returns + the abstracted ADD if successful; NULL otherwise.] + + SideEffects [None] + + SeeAlso [Cudd_addExistAbstract Cudd_bddUnivAbstract + Cudd_addOrAbstract] + +******************************************************************************/ +DdNode * +Cudd_addUnivAbstract( + DdManager * manager, + DdNode * f, + DdNode * cube) +{ + DdNode *res; + + if (addCheckPositiveCube(manager, cube) == 0) { + (void) fprintf(manager->err,"Error: Can only abstract cubes"); + return(NULL); + } + + do { + manager->reordered = 0; + res = cuddAddUnivAbstractRecur(manager, f, cube); + } while (manager->reordered == 1); + + return(res); + +} /* end of Cudd_addUnivAbstract */ + + +/**Function******************************************************************** + + Synopsis [Disjunctively abstracts all the variables in cube from the + 0-1 ADD f.] + + Description [Abstracts all the variables in cube from the 0-1 ADD f + by taking the disjunction over all possible values taken by the + variables. Returns the abstracted ADD if successful; NULL + otherwise.] + + SideEffects [None] + + SeeAlso [Cudd_addUnivAbstract Cudd_addExistAbstract] + +******************************************************************************/ +DdNode * +Cudd_addOrAbstract( + DdManager * manager, + DdNode * f, + DdNode * cube) +{ + DdNode *res; + + if (addCheckPositiveCube(manager, cube) == 0) { + (void) fprintf(manager->err,"Error: Can only abstract cubes"); + return(NULL); + } + + do { + manager->reordered = 0; + res = cuddAddOrAbstractRecur(manager, f, cube); + } while (manager->reordered == 1); + return(res); + +} /* end of Cudd_addOrAbstract */ + + +/*---------------------------------------------------------------------------*/ +/* Definition of internal functions */ +/*---------------------------------------------------------------------------*/ + + +/**Function******************************************************************** + + Synopsis [Performs the recursive step of Cudd_addExistAbstract.] + + Description [Performs the recursive step of Cudd_addExistAbstract. + Returns the ADD obtained by abstracting the variables of cube from f, + if successful; NULL otherwise.] + + SideEffects [None] + + SeeAlso [] + +******************************************************************************/ +DdNode * +cuddAddExistAbstractRecur( + DdManager * manager, + DdNode * f, + DdNode * cube) +{ + DdNode *T, *E, *res, *res1, *res2, *zero; + + statLine(manager); + zero = DD_ZERO(manager); + + /* Cube is guaranteed to be a cube at this point. */ + if (f == zero || cuddIsConstant(cube)) { + return(f); + } + + /* Abstract a variable that does not appear in f => multiply by 2. */ + if (cuddI(manager,f->index) > cuddI(manager,cube->index)) { + res1 = cuddAddExistAbstractRecur(manager, f, cuddT(cube)); + if (res1 == NULL) return(NULL); + cuddRef(res1); + /* Use the "internal" procedure to be alerted in case of + ** dynamic reordering. If dynamic reordering occurs, we + ** have to abort the entire abstraction. + */ + res = cuddAddApplyRecur(manager,Cudd_addTimes,res1,two); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res); + Cudd_RecursiveDeref(manager,res1); + cuddDeref(res); + return(res); + } + + if ((res = cuddCacheLookup2(manager, Cudd_addExistAbstract, f, cube)) != NULL) { + return(res); + } + + T = cuddT(f); + E = cuddE(f); + + /* If the two indices are the same, so are their levels. */ + if (f->index == cube->index) { + res1 = cuddAddExistAbstractRecur(manager, T, cuddT(cube)); + if (res1 == NULL) return(NULL); + cuddRef(res1); + res2 = cuddAddExistAbstractRecur(manager, E, cuddT(cube)); + if (res2 == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res2); + res = cuddAddApplyRecur(manager, Cudd_addPlus, res1, res2); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + return(NULL); + } + cuddRef(res); + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + cuddCacheInsert2(manager, Cudd_addExistAbstract, f, cube, res); + cuddDeref(res); + return(res); + } else { /* if (cuddI(manager,f->index) < cuddI(manager,cube->index)) */ + res1 = cuddAddExistAbstractRecur(manager, T, cube); + if (res1 == NULL) return(NULL); + cuddRef(res1); + res2 = cuddAddExistAbstractRecur(manager, E, cube); + if (res2 == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res2); + res = (res1 == res2) ? res1 : + cuddUniqueInter(manager, (int) f->index, res1, res2); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + return(NULL); + } + cuddDeref(res1); + cuddDeref(res2); + cuddCacheInsert2(manager, Cudd_addExistAbstract, f, cube, res); + return(res); + } + +} /* end of cuddAddExistAbstractRecur */ + + +/**Function******************************************************************** + + Synopsis [Performs the recursive step of Cudd_addUnivAbstract.] + + Description [Performs the recursive step of Cudd_addUnivAbstract. + Returns the ADD obtained by abstracting the variables of cube from f, + if successful; NULL otherwise.] + + SideEffects [None] + + SeeAlso [] + +******************************************************************************/ +DdNode * +cuddAddUnivAbstractRecur( + DdManager * manager, + DdNode * f, + DdNode * cube) +{ + DdNode *T, *E, *res, *res1, *res2, *one, *zero; + + statLine(manager); + one = DD_ONE(manager); + zero = DD_ZERO(manager); + + /* Cube is guaranteed to be a cube at this point. + ** zero and one are the only constatnts c such that c*c=c. + */ + if (f == zero || f == one || cube == one) { + return(f); + } + + /* Abstract a variable that does not appear in f. */ + if (cuddI(manager,f->index) > cuddI(manager,cube->index)) { + res1 = cuddAddUnivAbstractRecur(manager, f, cuddT(cube)); + if (res1 == NULL) return(NULL); + cuddRef(res1); + /* Use the "internal" procedure to be alerted in case of + ** dynamic reordering. If dynamic reordering occurs, we + ** have to abort the entire abstraction. + */ + res = cuddAddApplyRecur(manager, Cudd_addTimes, res1, res1); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res); + Cudd_RecursiveDeref(manager,res1); + cuddDeref(res); + return(res); + } + + if ((res = cuddCacheLookup2(manager, Cudd_addUnivAbstract, f, cube)) != NULL) { + return(res); + } + + T = cuddT(f); + E = cuddE(f); + + /* If the two indices are the same, so are their levels. */ + if (f->index == cube->index) { + res1 = cuddAddUnivAbstractRecur(manager, T, cuddT(cube)); + if (res1 == NULL) return(NULL); + cuddRef(res1); + res2 = cuddAddUnivAbstractRecur(manager, E, cuddT(cube)); + if (res2 == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res2); + res = cuddAddApplyRecur(manager, Cudd_addTimes, res1, res2); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + return(NULL); + } + cuddRef(res); + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + cuddCacheInsert2(manager, Cudd_addUnivAbstract, f, cube, res); + cuddDeref(res); + return(res); + } else { /* if (cuddI(manager,f->index) < cuddI(manager,cube->index)) */ + res1 = cuddAddUnivAbstractRecur(manager, T, cube); + if (res1 == NULL) return(NULL); + cuddRef(res1); + res2 = cuddAddUnivAbstractRecur(manager, E, cube); + if (res2 == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res2); + res = (res1 == res2) ? res1 : + cuddUniqueInter(manager, (int) f->index, res1, res2); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + return(NULL); + } + cuddDeref(res1); + cuddDeref(res2); + cuddCacheInsert2(manager, Cudd_addUnivAbstract, f, cube, res); + return(res); + } + +} /* end of cuddAddUnivAbstractRecur */ + + +/**Function******************************************************************** + + Synopsis [Performs the recursive step of Cudd_addOrAbstract.] + + Description [Performs the recursive step of Cudd_addOrAbstract. + Returns the ADD obtained by abstracting the variables of cube from f, + if successful; NULL otherwise.] + + SideEffects [None] + + SeeAlso [] + +******************************************************************************/ +DdNode * +cuddAddOrAbstractRecur( + DdManager * manager, + DdNode * f, + DdNode * cube) +{ + DdNode *T, *E, *res, *res1, *res2, *one; + + statLine(manager); + one = DD_ONE(manager); + + /* Cube is guaranteed to be a cube at this point. */ + if (cuddIsConstant(f) || cube == one) { + return(f); + } + + /* Abstract a variable that does not appear in f. */ + if (cuddI(manager,f->index) > cuddI(manager,cube->index)) { + res1 = cuddAddOrAbstractRecur(manager, f, cuddT(cube)); + if (res1 == NULL) return(NULL); + cuddRef(res1); + /* Use the "internal" procedure to be alerted in case of + ** dynamic reordering. If dynamic reordering occurs, we + ** have to abort the entire abstraction. + */ + res = cuddAddApplyRecur(manager, Cudd_addOr, res1, res1); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res); + Cudd_RecursiveDeref(manager,res1); + cuddDeref(res); + return(res); + } + + if ((res = cuddCacheLookup2(manager, Cudd_addOrAbstract, f, cube)) != NULL) { + return(res); + } + + T = cuddT(f); + E = cuddE(f); + + /* If the two indices are the same, so are their levels. */ + if (f->index == cube->index) { + res1 = cuddAddOrAbstractRecur(manager, T, cuddT(cube)); + if (res1 == NULL) return(NULL); + cuddRef(res1); + if (res1 != one) { + res2 = cuddAddOrAbstractRecur(manager, E, cuddT(cube)); + if (res2 == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res2); + res = cuddAddApplyRecur(manager, Cudd_addOr, res1, res2); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + return(NULL); + } + cuddRef(res); + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + } else { + res = res1; + } + cuddCacheInsert2(manager, Cudd_addOrAbstract, f, cube, res); + cuddDeref(res); + return(res); + } else { /* if (cuddI(manager,f->index) < cuddI(manager,cube->index)) */ + res1 = cuddAddOrAbstractRecur(manager, T, cube); + if (res1 == NULL) return(NULL); + cuddRef(res1); + res2 = cuddAddOrAbstractRecur(manager, E, cube); + if (res2 == NULL) { + Cudd_RecursiveDeref(manager,res1); + return(NULL); + } + cuddRef(res2); + res = (res1 == res2) ? res1 : + cuddUniqueInter(manager, (int) f->index, res1, res2); + if (res == NULL) { + Cudd_RecursiveDeref(manager,res1); + Cudd_RecursiveDeref(manager,res2); + return(NULL); + } + cuddDeref(res1); + cuddDeref(res2); + cuddCacheInsert2(manager, Cudd_addOrAbstract, f, cube, res); + return(res); + } + +} /* end of cuddAddOrAbstractRecur */ + + + +/*---------------------------------------------------------------------------*/ +/* Definition of static functions */ +/*---------------------------------------------------------------------------*/ + + +/**Function******************************************************************** + + Synopsis [Checks whether cube is an ADD representing the product + of positive literals.] + + Description [Checks whether cube is an ADD representing the product of + positive literals. Returns 1 in case of success; 0 otherwise.] + + SideEffects [None] + + SeeAlso [] + +******************************************************************************/ +static int +addCheckPositiveCube( + DdManager * manager, + DdNode * cube) +{ + if (Cudd_IsComplement(cube)) return(0); + if (cube == DD_ONE(manager)) return(1); + if (cuddIsConstant(cube)) return(0); + if (cuddE(cube) == DD_ZERO(manager)) { + return(addCheckPositiveCube(manager, cuddT(cube))); + } + return(0); + +} /* end of addCheckPositiveCube */ + |