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/*
* Main authors:
* Guido Tack <tack@gecode.org>
*
* Contributing authors:
* Christian Schulte <schulte@gecode.org>
* Gabor Szokoli <szokoli@gecode.org>
*
* Copyright:
* Guido Tack, 2004
* Christian Schulte, 2004
* Gabor Szokoli, 2004
*
* Last modified:
* $Date: 2017-02-21 06:45:56 +0100 (Tue, 21 Feb 2017) $ by $Author: schulte $
* $Revision: 15465 $
*
* This file is part of Gecode, the generic constraint
* development environment:
* http://www.gecode.org
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
*/
#include <iostream>
namespace Gecode { namespace Set {
class SetVarImp;
class LUBndSet;
class GLBndSet;
/**
* \brief Finite set delta information for advisors
*
*/
class SetDelta : public Delta {
friend class SetVarImp;
friend class LUBndSet;
friend class GLBndSet;
private:
int _glbMin; ///< Minimum glb value just pruned
int _glbMax; ///< Largest glb value just pruned
int _lubMin; ///< Minimum lub value just pruned
int _lubMax; ///< Largest lub value just pruned
public:
/// Create set delta as providing no information (if \a any is true)
SetDelta(void);
/// Create set delta with \a min and \a max
SetDelta(int glbMin, int glbMax, int lubMin, int lubMax);
/// Return glb minimum
int glbMin(void) const;
/// Return glb maximum
int glbMax(void) const;
/// Return lub minimum
int lubMin(void) const;
/// Return lub maximum
int lubMax(void) const;
/// Test whether delta represents any domain change in glb
bool glbAny(void) const;
/// Test whether delta represents any domain change in lub
bool lubAny(void) const;
};
}}
#include <gecode/set/var-imp/delta.hpp>
namespace Gecode { namespace Set {
/**
* \brief Sets of integers
*/
class BndSet {
private:
RangeList* first;
RangeList* last;
protected:
/// The size of this set
unsigned int _size;
/// The cardinality this set represents
unsigned int _card;
/// Set first range to \a r
void fst(RangeList* r);
/// Set last range to \a r
void lst(RangeList* r);
/// Return first range
RangeList* fst(void) const;
/// Return last range
RangeList* lst(void) const;
public:
/// Returned by empty sets when asked for their maximum element
static const int MAX_OF_EMPTY = Limits::min-1;
/// Returned by empty sets when asked for their minimum element
static const int MIN_OF_EMPTY = Limits::max+1;
/// \name Constructors and initialization
//@{
/// Default constructor. Creates an empty set.
BndSet(void);
/// Initialize as the set \f$ \{i,\dots,j\}\f$
BndSet(Space& home, int i, int j);
/// Initialize as the set represented by \a s
GECODE_SET_EXPORT BndSet(Space& home, const IntSet& s);
//@}
/// \name Memory management
//@{
/// Free memory used by this set
void dispose(Space& home);
//@}
/// \name Value access
//@{
/// Return smallest element
int min(void) const;
/// Return greatest element
int max(void) const;
/// Return \a n -th smallest element
int minN(unsigned int n) const;
/// Return size
unsigned int size(void) const;
/// Return cardinality
unsigned int card(void) const;
/// Set cardinality
void card(unsigned int c);
//@}
/// \name Tests
//@{
/// Test whether this set is empty
bool empty(void) const;
/// Test whether \a i is an element of this set
bool in(int i) const;
//@}
/// \name Update operations
//@{
/// Make this set equal to \a s
void become(Space& home, const BndSet& s);
//@}
/// \name Range list access for iteration
//@{
/// Return range list for iteration
RangeList* ranges(void) const;
//@}
protected:
/// Overwrite the ranges with those represented by \a i
template<class I> bool overwrite(Space& home,I& i);
public:
/// \name Cloning
//@{
/// Update this set to be a clone of set \a x
void update(Space& home, BndSet& x);
//@}
/// Check whether internal invariants hold
GECODE_SET_EXPORT bool isConsistent(void) const;
};
/**
* \brief Range iterator for integer sets
*
*/
class BndSetRanges : public Iter::Ranges::RangeList {
public:
/// \name Constructors and initialization
//@{
/// Default constructor
BndSetRanges(void);
/// Initialize with BndSet \a s
BndSetRanges(const BndSet& s);
/// Initialize with BndSet \a s
void init(const BndSet& s);
//@}
};
/**
* \brief Growing sets of integers
*
* These sets provide operations for monotonically growing the set.
* Growing sets are used for implementing the greatest lower bound of
* set variables.
*/
class GLBndSet : public BndSet {
private:
/// Include the set \f$\{i,\dots,j\}\f$ in this set
GECODE_SET_EXPORT bool include_full(Space& home,int,int,SetDelta&);
public:
/// \name Constructors and initialization
//@{
/// Default constructor. Creates an empty set.
GLBndSet(void);
/// Default constructor. Creates an empty set.
GLBndSet(Space&);
/// Initialize as the set \f$ \{i,\dots,j\}\f$
GLBndSet(Space& home, int i, int j);
/// Initialize as the set represented by \a s
GLBndSet(Space& home, const IntSet& s);
/// Initialize as the empty set
void init(Space& home);
//@}
/// \name Update operations
//@{
/// Include the set \f$\{i,\dots,j\}\f$ in this set
bool include(Space& home,int i,int j,SetDelta& d);
/// Include the set represented by \a i in this set
template<class I> bool includeI(Space& home,I& i);
//@}
private:
GLBndSet(const GLBndSet&);
const GLBndSet& operator =(const GLBndSet&);
};
/**
* \brief Shrinking sets of integers
*
* These sets provide operations for monotonically shrinking the set.
* Shrinking sets are used for implementing the least upper bound of
* set variables.
*/
class LUBndSet: public BndSet{
private:
GECODE_SET_EXPORT bool exclude_full(Space& home, int, int, SetDelta&);
GECODE_SET_EXPORT bool intersect_full(Space& home, int i, int j);
public:
/// \name Constructors and initialization
//@{
/// Default constructor. Creates an empty set.
LUBndSet(void);
/// Initialize as the full set including everything between Limits::min and Limits::max
LUBndSet(Space& home);
/// Initialize as the set \f$ \{i,\dots,j\}\f$
LUBndSet(Space& home, int i, int j);
/// Initialize as the set represented by \a s
LUBndSet(Space& home, const IntSet& s);
/// Initialize as the full set including everything between Limits::min and Limits::max
void init(Space& home);
//@}
/// \name Update operations
//@{
/// Exclude the set \f$\{i,\dots,j\}\f$ from this set
bool exclude(Space& home, int i, int j, SetDelta& d);
/// Intersect this set with the set \f$\{i,\dots,j\}\f$
bool intersect(Space& home, int i, int j);
/// Exclude all elements not in the set represented by \a i from this set
template<class I> bool intersectI(Space& home, I& i);
/// Exclude all elements in the set represented by \a i from this set
template<class I> bool excludeI(Space& home, I& i);
/// Exclude all elements from this set
void excludeAll(Space& home);
//@}
private:
LUBndSet(const LUBndSet&);
const LUBndSet& operator =(const LUBndSet&);
};
/*
* Iterators
*
*/
/**
* \brief A complement iterator spezialized for the %BndSet limits
*
* \ingroup TaskActorSet
*/
template<class I>
class RangesCompl :
public Iter::Ranges::Compl<Limits::min, Limits::max, I> {
public:
/// \name Constructors and initialization
//@{
/// Default constructor
RangesCompl(void);
/// Initialize with iterator \a i
RangesCompl(I& i);
/// Initialize with iterator \a i
void init(I& i);
//@}
};
/**
* \brief Range iterator for the least upper bound
*
* This class provides (by specialization) a range iterator
* for the least upper bounds of all set views.
*
* Note that this template class serves only as a specification
* of the interface of the various specializations.
*
* \ingroup TaskActorSet
*/
template<class T> class LubRanges {
public:
/// \name Constructors and initialization
//@{
/// Default constructor
LubRanges(void);
/// Initialize with least upper bound ranges for set variable \a x
LubRanges(const T& x);
/// Initialize with least upper bound ranges for set variable \a x
void init(const T& x);
//@}
/// \name Iteration control
//@{
/// Test whether iterator is still at a range or done
bool operator ()(void) const;
/// Move iterator to next range (if possible)
void operator ++(void);
//@}
/// \name Range access
//@{
/// Return smallest value of range
int min(void) const;
/// Return largest value of range
int max(void) const;
/// Return width of range (distance between minimum and maximum)
unsigned int width(void) const;
//@}
};
/**
* \brief Range iterator for the greatest lower bound
*
* This class provides (by specialization) a range iterator
* for the greatest lower bounds of all set views.
*
* Note that this template class serves only as a specification
* of the interface of the various specializations.
*
* \ingroup TaskActorSet
*/
template<class T> class GlbRanges {
public:
/// \name Constructors and initialization
//@{
/// Default constructor
GlbRanges(void);
/// Initialize with greatest lower bound ranges for set variable \a x
GlbRanges(const T& x);
/// Initialize with greatest lower bound ranges for set variable \a x
void init(const T& x);
//@}
/// \name Iteration control
//@{
/// Test whether iterator is still at a range or done
bool operator ()(void) const;
/// Move iterator to next range (if possible)
void operator ++(void);
//@}
/// \name Range access
//@{
/// Return smallest value of range
int min(void) const;
/// Return largest value of range
int max(void) const;
/// Return width of range (distance between minimum and maximum)
unsigned int width(void) const;
//@}
};
/**
* \brief Range iterator for the unknown set
*
* This class provides a range iterator
* for the unknown set of all set views. The unknown set is the
* difference between least upper and greatest lower bound, i.e.
* those elements which still may be in the set, but are not yet
* known to be in.
*
* \ingroup TaskActorSet
*/
template<class T>
class UnknownRanges : public Iter::Ranges::Diff<LubRanges<T>, GlbRanges<T> >{
private:
LubRanges<T> i1;
GlbRanges<T> i2;
public:
/// \name Constructors and initialization
//@{
/// Default constructor
UnknownRanges(void);
/// Initialize with unknown set ranges for set variable \a x
UnknownRanges(const T& x);
/// Initialize with unknown set ranges for set variable \a x
void init(const T& x);
//@}
};
}}
#include <gecode/set/var-imp/integerset.hpp>
#include <gecode/set/var-imp/iter.hpp>
namespace Gecode { namespace Set {
/**
* \brief Finite integer set variable implementation
*
* \ingroup Other
*/
class SetVarImp : public SetVarImpBase {
friend class LubRanges<SetVarImp*>;
friend class GlbRanges<SetVarImp*>;
private:
/// The least upper bound of the domain
LUBndSet lub;
/// The greatest lower bound of the domain
GLBndSet glb;
protected:
/// Constructor for cloning \a x
SetVarImp(Space& home, bool share, SetVarImp& x);
public:
/// \name Constructors and initialization
//@{
/// Initialize with empty lower and full upper bound
SetVarImp(Space& home);
/**
* \brief Initialize with given bounds and cardinality
*
* Creates a set variable \f$s\f$ with
* \f$\mathit{glb}(s)=\{\mathit{glbMin},\dots,\mathit{glbMax}\}\f$,
* \f$\mathit{lub}(s)=\{\mathit{lubMin},\dots,\mathit{lubMax}\}\f$, and
* \f$\mathit{cardMin}\leq |s|\leq\mathit{cardMax}\f$
*/
SetVarImp(Space& home,int glbMin,int glbMax,int lubMin,int lubMax,
unsigned int cardMin = 0,
unsigned int cardMax = Limits::card);
/**
* \brief Initialize with given bounds and cardinality
*
* Creates a set variable \f$s\f$ with
* \f$\mathit{glb}(s)=\mathit{glbD}\f$,
* \f$\mathit{lub}(s)=\{\mathit{lubMin},\dots,\mathit{lubMax}\}\f$, and
* \f$\mathit{cardMin}\leq |s|\leq\mathit{cardMax}\f$
*/
SetVarImp(Space& home,const IntSet& glbD,int lubMin,int lubMax,
unsigned int cardMin,unsigned int cardMax);
/**
* \brief Initialize with given bounds and cardinality
*
* Creates a set variable \f$s\f$ with
* \f$\mathit{glb}(s)=\{\mathit{glbMin},\dots,\mathit{glbMax}\}\f$,
* \f$\mathit{lub}(s)=\mathit{lubD}\f$, and
* \f$\mathit{cardMin}\leq |s|\leq\mathit{cardMax}\f$
*/
SetVarImp(Space& home,int glbMin,int glbMax,const IntSet& lubD,
unsigned int cardMin,unsigned int cardMax);
/**
* \brief Initialize with given bounds and cardinality
*
* Creates a set variable \f$s\f$ with
* \f$\mathit{glb}(s)=\mathit{glbD}\f$,
* \f$\mathit{lub}(s)=\mathit{lubD}\f$, and
* \f$\mathit{cardMin}\leq |s|\leq\mathit{cardMax}\f$
*/
SetVarImp(Space& home,const IntSet& glbD,const IntSet& lubD,
unsigned int cardMin,unsigned int cardMax);
//@}
/// \name Value access
//@{
/// Return current cardinality minimum
unsigned int cardMin(void) const;
/// Return current cardinality maximum
unsigned int cardMax(void) const;
/// Return minimum of the least upper bound
int lubMin(void) const;
/// Return maximum of the least upper bound
int lubMax(void) const;
/// Return \a n -th smallest element in the least upper bound
int lubMinN(unsigned int n) const;
/// Return minimum of the greatest lower bound
int glbMin(void) const;
/// Return maximum of the greatest lower bound
int glbMax(void) const;
/// Return the size of the greatest lower bound
unsigned int glbSize(void) const;
/// Return the size of the least upper bound
unsigned int lubSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether variable is assigned
bool assigned(void) const;
/// Test whether \a n is contained in greatest lower bound
bool knownIn(int n) const;
/// Test whether \a n is not contained in least upper bound
bool knownOut(int) const;
//@}
private:
/// \name Domain update by range iterator, implementations
//@{
/// Include set described by \a i in the greatest lower bound
template<class I> ModEvent includeI_full(Space& home,int mi, int ma, I& i);
/// Exclude set described by \a i from the least upper bound
template<class I> ModEvent excludeI_full(Space& home,int mi, int ma, I& i);
/// Exclude everything but set described by \a i from the least upper bound
template<class I> ModEvent intersectI_full(Space& home,int mi, int ma, I& i);
//@}
GECODE_SET_EXPORT ModEvent processLubChange(Space& home, SetDelta& d);
GECODE_SET_EXPORT ModEvent processGlbChange(Space& home, SetDelta& d);
/// \name Cardinality update implementation
//@{
/// Restrict cardinality to be at least n
GECODE_SET_EXPORT ModEvent cardMin_full(Space& home);
/// Restrict cardinality to be at most n
GECODE_SET_EXPORT ModEvent cardMax_full(Space& home);
//@}
public:
/// \name Domain update by value
//@{
/// Include \a n in the greatest lower bound
ModEvent include(Space& home,int n);
/// Include the range \f$\{i,\dots,j\}\f$ in the greatest lower bound
ModEvent include(Space& home,int i,int j);
/// Exclude \a n from the least upper bound
ModEvent exclude(Space& home,int n);
/// Exclude the range \f$\{i,\dots,j\}\f$ from the least upper bound
ModEvent exclude(Space& home,int i,int j);
/// Exclude everything but \a n from the least upper bound
ModEvent intersect(Space& home,int n);
/// Exclude everything but the range \f$\{i,\dots,j\}\f$ from the least upper bound
ModEvent intersect(Space& home,int i,int j);
/// Restrict cardinality to be at least n
ModEvent cardMin(Space& home,unsigned int n);
/// Restrict cardinality to be at most n
ModEvent cardMax(Space& home,unsigned int n);
//@}
/// \name Domain update by range iterator
//@{
/// Include set described by \a i in the greatest lower bound
template<class I> ModEvent includeI(Space& home,I& i);
/// Exclude set described by \a i from the least upper bound
template<class I> ModEvent excludeI(Space& home,I& i);
/// Exclude everything but set described by \a i from the least upper bound
template<class I> ModEvent intersectI(Space& home,I& i);
//@}
public:
/// \name Dependencies
//@{
/**
* \brief Subscribe propagator \a p with propagation condition \a pc to variable
*
* In case \a schedule is false, the propagator is just subscribed but
* not scheduled for execution (this must be used when creating
* subscriptions during propagation).
*/
GECODE_SET_EXPORT void subscribe(Space& home, Propagator& p, PropCond pc, bool schedule=true);
/// Re-schedule propagator \a p with propagation condition \a pc
GECODE_SET_EXPORT void reschedule(Space& home, Propagator& p, PropCond pc);
/** \brief Subscribe advisor \a a to variable
*
* The advisor \a a is only subscribed if \a assigned is false.
*
* If \a fail is true, the advisor \a a is also run when a variable
* operation triggers failure. This feature is undocumented.
*
*/
GECODE_SET_EXPORT void subscribe(Space& home, Advisor& a, bool fail);
//@}
private:
/// Return copy of not-yet copied variable
GECODE_SET_EXPORT SetVarImp* perform_copy(Space& home, bool share);
public:
/// \name Cloning
//@{
/// Return copy of this variable
SetVarImp* copy(Space& home, bool share);
//@}
/// \name Delta information for advisors
//@{
/// Return minimum value just pruned from glb
static int glbMin(const Delta& d);
/// Return maximum value just pruned from glb
static int glbMax(const Delta& d);
/// Test whether arbitrary values got pruned from glb
static bool glbAny(const Delta& d);
/// Return minimum value just pruned from lub
static int lubMin(const Delta& d);
/// Return maximum value just pruned from lub
static int lubMax(const Delta& d);
/// Test whether arbitrary values got pruned from lub
static bool lubAny(const Delta& d);
//@}
};
class SetView;
}}
#include <gecode/set/var-imp/set.hpp>
// STATISTICS: set-var
|