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/*
* Main authors:
* Guido Tack <tack@gecode.org>
*
* Contributing authors:
* Christian Schulte <schulte@gecode.org>
*
* Copyright:
* Guido Tack, 2004
* Christian Schulte, 2004
*
* Last modified:
* $Date: 2011-08-19 16:47:28 +0200 (Fri, 19 Aug 2011) $ by $Author: tack $
* $Revision: 12318 $
*
* 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 {
/**
* \defgroup TaskActorSetView Set views
*
* Set propagators and branchings compute with set views.
* Set views provide views on set variable implementations,
* set constants, and integer variable implementations.
* \ingroup TaskActorSet
*/
/**
* \brief %Set view for set variables
* \ingroup TaskActorSetView
*/
class SetView : public VarImpView<SetVar> {
protected:
using VarImpView<SetVar>::x;
public:
/// \name Constructors and initialization
//@{
/// Default constructor
SetView(void);
/// Initialize from set variable \a y
SetView(const SetVar& y);
/// Initialize from set variable implementation \a y
SetView(SetVarImp* y);
//@}
/// \name Value access
//@{
/// Return minimum cardinality
unsigned int cardMin(void) const;
/// Return maximum cardinality
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 n-th smallest element of 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 number of elements in the greatest lower bound
unsigned int glbSize(void) const;
/// Return the number of elements in the least upper bound
unsigned int lubSize(void) const;
/// Return the number of unknown elements
unsigned int unknownSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether \a i is in the greatest lower bound
bool contains(int i) const;
/// Test whether \a i is not in the least upper bound
bool notContains(int i) const;
//@}
/// \name Domain update by value
//@{
/// Restrict cardinality to be greater than or equal to \a m
ModEvent cardMin(Space& home, unsigned int m);
/// Restrict cardinality to be less than or equal to \a m
ModEvent cardMax(Space& home, unsigned int m);
/**
* \brief Update greatest lower bound to include all elements
* between and including \a i and \a j
*/
ModEvent include(Space& home,int i,int j);
/**
* \brief Restrict least upper bound to not contain all elements
* between and including \a i and \a j
*/
ModEvent exclude(Space& home,int i,int j);
/// Update greatest lower bound to contain \a i
ModEvent include(Space& home,int i);
/// Restrict least upper bound to not contain \a i
ModEvent exclude(Space& home,int i);
/**
* \brief Update least upper bound to contain at most all elements
* between and including \a i and \a j
*/
ModEvent intersect(Space& home,int i,int j);
/// Update least upper bound to contain at most the element \a i
ModEvent intersect(Space& home,int i);
//@}
/// \name Domain update by range iterator
//@{
/// Remove range sequence described by \a i from least upper bound
template<class I> ModEvent excludeI(Space& home, I& i);
/// Include range sequence described by \a i in greatest lower bound
template<class I> ModEvent includeI(Space& home, I& i);
/// Intersect least upper bound with range sequence described by \a i
template<class I> ModEvent intersectI(Space& home, I& iter);
//@}
/// \name Delta information for advisors
//@{
/// Return modification event
static ModEvent modevent(const Delta& d);
/// Return minimum value just pruned from glb
int glbMin(const Delta& d) const;
/// Return maximum value just pruned from glb
int glbMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from glb
bool glbAny(const Delta& d) const;
/// Return minimum value just pruned from lub
int lubMin(const Delta& d) const;
/// Return maximum value just pruned from lub
int lubMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from lub
bool lubAny(const Delta& d) const;
//@}
};
/**
* \brief Print set variable view
* \relates Gecode::Set::SetView
*/
template<class Char, class Traits>
std::basic_ostream<Char,Traits>&
operator <<(std::basic_ostream<Char,Traits>& os, const SetView& x);
// Forward declarations for friends
class ConstSetView;
bool same(const ConstSetView&, const ConstSetView&);
bool before(const ConstSetView&, const ConstSetView&);
/**
* \brief Constant view
*
* A constant set view \f$x\f$ for a set \f$s\f$ provides operations such
* that \f$x\f$ behaves like \f$s\f$.
* \ingroup TaskActorSetView
*/
class ConstSetView : public ConstView<SetView> {
friend class LubRanges<ConstSetView>;
friend class GlbRanges<ConstSetView>;
friend bool Gecode::Set::same(const Gecode::Set::ConstSetView&,
const Gecode::Set::ConstSetView&);
friend bool Gecode::Set::before(const Gecode::Set::ConstSetView&,
const Gecode::Set::ConstSetView&);
private:
int *ranges;
int size;
unsigned int domSize;
public:
/// \name Constructors and initialization
//@{
/// Default constructor
ConstSetView(void);
/// Construct with \a s as the domain
ConstSetView(Space& home, const IntSet& s);
//@}
/// \name Value access
//@{
/// Return minimum cardinality
unsigned int cardMin(void) const;
/// Return maximum cardinality
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 n-th smallest element of 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 number of elements in the greatest lower bound
unsigned int glbSize(void) const;
/// Return the number of elements in the least upper bound
unsigned int lubSize(void) const;
/// Return the number of unknown elements
unsigned int unknownSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether \a i is in the greatest lower bound
bool contains(int i) const;
/// Test whether \a i is not in the least upper bound
bool notContains(int i) const;
//@}
/// \name Domain update by value
//@{
/// Restrict cardinality to be greater than or equal to \a m
ModEvent cardMin(Space& home, unsigned int m);
/// Restrict cardinality to be less than or equal to \a m
ModEvent cardMax(Space& home, unsigned int m);
/**
* \brief Update greatest lower bound to include all elements
* between and including \a i and \a j
*/
ModEvent include(Space& home,int i,int j);
/**
* \brief Restrict least upper bound to not contain all elements
* between and including \a i and \a j
*/
ModEvent exclude(Space& home,int i,int j);
/// Update greatest lower bound to contain \a i
ModEvent include(Space& home,int i);
/// Restrict least upper bound to not contain \a i
ModEvent exclude(Space& home,int i);
/**
* \brief Update least upper bound to contain at most all elements
* between and including \a i and \a j
*/
ModEvent intersect(Space& home,int i,int j);
/// Update least upper bound to contain at most the element \a i
ModEvent intersect(Space& home,int i);
//@}
/// \name Domain update by range iterator
//@{
/// Remove range sequence described by \a i from least upper bound
template<class I> ModEvent excludeI(Space& home, I& i);
/// Include range sequence described by \a i in greatest lower bound
template<class I> ModEvent includeI(Space& home, I& i);
/// Intersect least upper bound with range sequence described by \a i
template<class I> ModEvent intersectI(Space& home, I& iter);
//@}
/// \name Cloning
//@{
/// Update this view to be a clone of view \a y
void update(Space& home, bool share, ConstSetView& y);
//@}
/// \name Delta information for advisors
//@{
/// Return minimum value just pruned from glb
int glbMin(const Delta& d) const;
/// Return maximum value just pruned from glb
int glbMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from glb
bool glbAny(const Delta& d) const;
/// Return minimum value just pruned from lub
int lubMin(const Delta& d) const;
/// Return maximum value just pruned from lub
int lubMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from lub
bool lubAny(const Delta& d) const;
//@}
};
/**
* \brief Print constant set view
* \relates Gecode::Set::ConstSetView
*/
template<class Char, class Traits>
std::basic_ostream<Char,Traits>&
operator <<(std::basic_ostream<Char,Traits>& os, const ConstSetView& x);
/** \name View comparison
* \relates Gecode::Set::ConstSetView
*/
//@{
/// Test whether views \a x and \a y are the same
bool same(const ConstSetView& x, const ConstSetView& y);
/// Test whether view \a x comes before \a y (arbitrary order)
bool before(const ConstSetView& x, const ConstSetView& y);
//@}
/**
* \brief Constant view for the empty set
*
* A constant set view \f$x\f$ for the empty set provides operations such
* that \f$x\f$ behaves like the empty set.
* \ingroup TaskActorSetView
*/
class EmptyView : public ConstView<SetView> {
public:
/// \name Constructors and initialization
//@{
/// Default constructor
EmptyView(void);
//@}
/// \name Value access
//@{
/// Return minimum cardinality
unsigned int cardMin(void) const;
/// Return maximum cardinality
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 n-th smallest element of 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 number of elements in the greatest lower bound
unsigned int glbSize(void) const;
/// Return the number of elements in the least upper bound
unsigned int lubSize(void) const;
/// Return the number of unknown elements
unsigned int unknownSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether \a i is in the greatest lower bound
bool contains(int i) const;
/// Test whether \a i is not in the least upper bound
bool notContains(int i) const;
//@}
/// \name Domain update by value
//@{
/// Restrict cardinality to be greater than or equal to \a m
ModEvent cardMin(Space& home, unsigned int m);
/// Restrict cardinality to be less than or equal to \a m
ModEvent cardMax(Space& home, unsigned int m);
/**
* \brief Update greatest lower bound to include all elements
* between and including \a i and \a j
*/
ModEvent include(Space& home,int i,int j);
/**
* \brief Restrict least upper bound to not contain all elements
* between and including \a i and \a j
*/
ModEvent exclude(Space& home,int i,int j);
/// Update greatest lower bound to contain \a i
ModEvent include(Space& home,int i);
/// Restrict least upper bound to not contain \a i
ModEvent exclude(Space& home,int i);
/**
* \brief Update least upper bound to contain at most all elements
* between and including \a i and \a j
*/
ModEvent intersect(Space& home,int i,int j);
/// Update least upper bound to contain at most the element \a i
ModEvent intersect(Space& home,int i);
//@}
/// \name Domain update by range iterator
//@{
/// Remove range sequence described by \a i from least upper bound
template<class I> ModEvent excludeI(Space& home, I& i);
/// Include range sequence described by \a i in greatest lower bound
template<class I> ModEvent includeI(Space& home, I& i);
/// Intersect least upper bound with range sequence described by \a i
template<class I> ModEvent intersectI(Space& home, I& iter);
//@}
/// \name Delta information for advisors
//@{
/// Return minimum value just pruned from glb
int glbMin(const Delta& d) const;
/// Return maximum value just pruned from glb
int glbMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from glb
bool glbAny(const Delta& d) const;
/// Return minimum value just pruned from lub
int lubMin(const Delta& d) const;
/// Return maximum value just pruned from lub
int lubMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from lub
bool lubAny(const Delta& d) const;
//@}
};
/**
* \brief Print empty set view
* \relates Gecode::Set::EmptyView
*/
template<class Char, class Traits>
std::basic_ostream<Char,Traits>&
operator <<(std::basic_ostream<Char,Traits>& os, const EmptyView& x);
/** \name View comparison
* \relates Gecode::Set::EmptyView
*/
//@{
/// Test whether views \a x and \a y are the same
bool same(const EmptyView& x, const EmptyView& y);
//@}
/**
* \brief Constant view for the universe
*
* A constant set view \f$x\f$ for the universe provides operations such
* that \f$x\f$ behaves like the universe.
* \ingroup TaskActorSetView
*/
class UniverseView : public ConstView<SetView> {
public:
/// \name Constructors and initialization
//@{
/// Default constructor
UniverseView(void);
//@}
/// \name Value access
//@{
/// Return minimum cardinality
unsigned int cardMin(void) const;
/// Return maximum cardinality
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 n-th smallest element of 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 number of elements in the greatest lower bound
unsigned int glbSize(void) const;
/// Return the number of elements in the least upper bound
unsigned int lubSize(void) const;
/// Return the number of unknown elements
unsigned int unknownSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether \a i is in the greatest lower bound
bool contains(int i) const;
/// Test whether \a i is not in the least upper bound
bool notContains(int i) const;
//@}
/// \name Domain update by value
//@{
/// Restrict cardinality to be greater than or equal to \a m
ModEvent cardMin(Space& home, unsigned int m);
/// Restrict cardinality to be less than or equal to \a m
ModEvent cardMax(Space& home, unsigned int m);
/**
* \brief Update greatest lower bound to include all elements
* between and including \a i and \a j
*/
ModEvent include(Space& home,int i,int j);
/**
* \brief Restrict least upper bound to not contain all elements
* between and including \a i and \a j
*/
ModEvent exclude(Space& home,int i,int j);
/// Update greatest lower bound to contain \a i
ModEvent include(Space& home,int i);
/// Restrict least upper bound to not contain \a i
ModEvent exclude(Space& home,int i);
/**
* \brief Update least upper bound to contain at most all elements
* between and including \a i and \a j
*/
ModEvent intersect(Space& home,int i,int j);
/// Update least upper bound to contain at most the element \a i
ModEvent intersect(Space& home,int i);
//@}
/// \name Domain update by range iterator
//@{
/// Remove range sequence described by \a i from least upper bound
template<class I> ModEvent excludeI(Space& home, I& i);
/// Include range sequence described by \a i in greatest lower bound
template<class I> ModEvent includeI(Space& home, I& i);
/// Intersect least upper bound with range sequence described by \a i
template<class I> ModEvent intersectI(Space& home, I& iter);
//@}
/// \name Delta information for advisors
//@{
/// Return minimum value just pruned from glb
int glbMin(const Delta& d) const;
/// Return maximum value just pruned from glb
int glbMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from glb
bool glbAny(const Delta& d) const;
/// Return minimum value just pruned from lub
int lubMin(const Delta& d) const;
/// Return maximum value just pruned from lub
int lubMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from lub
bool lubAny(const Delta& d) const;
//@}
};
/**
* \brief Print universe set view
* \relates Gecode::Set::UniverseView
*/
template<class Char, class Traits>
std::basic_ostream<Char,Traits>&
operator <<(std::basic_ostream<Char,Traits>& os, const UniverseView& x);
/** \name View comparison
* \relates Gecode::Set::UniverseView
*/
//@{
/// Test whether views \a x and \a y are the same
bool same(const UniverseView& x, const UniverseView& y);
//@}
/**
* \brief Singleton set view
*
* A singleton set view \f$s\f$ for an integer view \f$x\f$ provides
* operations such that \f$s\f$ behaves like the singleton set \f$\{x\}\f$.
* \ingroup TaskActorSetView
*/
class SingletonView :
public DerivedView<Gecode::Int::IntView> {
protected:
using DerivedView<Gecode::Int::IntView>::x;
/// Convert set variable PropCond \a pc to a PropCond for integer variables
static PropCond pc_settoint(PropCond pc);
/// Convert integer variable ModEvent \a me to a ModEvent for set variables
static ModEvent me_inttoset(ModEvent me);
/// Convert set variable ModEvent \a me to a ModEvent for integer variables
static ModEvent me_settoint(ModEvent me);
public:
/// \name Constructors and initialization
//@{
/// Default constructor
SingletonView(void);
/// Initialize with integer view \a y
SingletonView(Gecode::Int::IntView& y);
/// Initialize with integer variable \a y
SingletonView(const Gecode::IntVar& y);
//@}
/// \name Value access
//@{
/// Return minimum cardinality
unsigned int cardMin(void) const;
/// Return maximum cardinality
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 n-th smallest element of 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 number of elements in the greatest lower bound
unsigned int glbSize(void) const;
/// Return the number of elements in the least upper bound
unsigned int lubSize(void) const;
/// Return the number of unknown elements
unsigned int unknownSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether \a i is in the greatest lower bound
bool contains(int i) const;
/// Test whether \a i is not in the least upper bound
bool notContains(int i) const;
//@}
/// \name Domain update by value
//@{
/// Restrict cardinality to be greater than or equal to \a m
ModEvent cardMin(Space& home, unsigned int m);
/// Restrict cardinality to be less than or equal to \a m
ModEvent cardMax(Space& home, unsigned int m);
/**
* \brief Update greatest lower bound to include all elements
* between and including \a i and \a j
*/
ModEvent include(Space& home,int i,int j);
/**
* \brief Restrict least upper bound to not contain all elements
* between and including \a i and \a j
*/
ModEvent exclude(Space& home,int i,int j);
/// Update greatest lower bound to contain \a i
ModEvent include(Space& home,int i);
/// Restrict least upper bound to not contain \a i
ModEvent exclude(Space& home,int i);
/**
* \brief Update least upper bound to contain at most all elements
* between and including \a i and \a j
*/
ModEvent intersect(Space& home,int i,int j);
/// Update least upper bound to contain at most the element \a i
ModEvent intersect(Space& home,int i);
//@}
/// \name Domain update by range iterator
//@{
/// Remove range sequence described by \a i from least upper bound
template<class I> ModEvent excludeI(Space& home, I& i);
/// Include range sequence described by \a i in greatest lower bound
template<class I> ModEvent includeI(Space& home, I& i);
/// Intersect least upper bound with range sequence described by \a i
template<class I> ModEvent intersectI(Space& home, I& iter);
//@}
/// \name View-dependent propagator support
//@{
/// Schedule propagator \a p with modification event \a me
static void schedule(Space& home, Propagator& p, ModEvent me);
/// Return modification event for view type in \a med
static ModEvent me(const ModEventDelta& med);
/// Translate modification event \a me to modification event delta for view
static ModEventDelta med(ModEvent);
//@}
/// \name Dependencies
//@{
/**
* \brief Subscribe propagator \a p with propagation condition \a pc to view
*
* 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).
*/
void subscribe(Space& home, Propagator& p, PropCond pc, bool schedule=true);
/// Cancel subscription of propagator \a p with propagation condition \a pc to view
void cancel(Space& home, Propagator& p, PropCond pc);
/// Subscribe advisor \a a to view
void subscribe(Space& home, Advisor& a);
/// Cancel subscription of advisor \a a
void cancel(Space& home, Advisor& a);
//@}
/// \name Delta information for advisors
//@{
/// Return modification event
static ModEvent modevent(const Delta& d);
/// Return minimum value just pruned from glb
int glbMin(const Delta& d) const;
/// Return maximum value just pruned from glb
int glbMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from glb
bool glbAny(const Delta& d) const;
/// Return minimum value just pruned from lub
int lubMin(const Delta& d) const;
/// Return maximum value just pruned from lub
int lubMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from lub
bool lubAny(const Delta& d) const;
//@}
};
/**
* \brief Print singleton set view
* \relates Gecode::Set::SingletonView
*/
template<class Char, class Traits>
std::basic_ostream<Char,Traits>&
operator <<(std::basic_ostream<Char,Traits>& os, const SingletonView& x);
/**
* \brief Complement set view
*
* A complement set view \f$s\f$ for a set view \f$t\f$ provides
* operations such that \f$s\f$ behaves like the complement of \f$\{t\}\f$.
* The complement is defined in terms of the set universe.
* \ingroup TaskActorSetView
*/
template<class View>
class ComplementView
: public DerivedView<View> {
protected:
using DerivedView<View>::x;
public:
/// Negate the propagation condition \a pc
static PropCond pc_negateset(PropCond pc);
/// Negate the modification event \a me
static ModEvent me_negateset(ModEvent me);
/// \name Constructors and initialization
//@{
/// Default constructor
ComplementView(void);
/// Initialize with set view \a y
explicit ComplementView(View& y);
//@}
/// \name Value access
//@{
/// Return minimum cardinality
unsigned int cardMin(void) const;
/// Return maximum cardinality
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 of 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 number of elements in the greatest lower bound
unsigned int glbSize(void) const;
/// Return the number of elements in the least upper bound
unsigned int lubSize(void) const;
/// Return the number of unknown elements
unsigned int unknownSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether \a i is in the greatest lower bound
bool contains(int i) const;
/// Test whether \a i is not in the least upper bound
bool notContains(int i) const;
//@}
/// \name Domain update by value
//@{
/// Restrict cardinality to be greater than or equal to \a m
ModEvent cardMin(Space& home, unsigned int m);
/// Restrict cardinality to be less than or equal to \a m
ModEvent cardMax(Space& home, unsigned int m);
/**
* \brief Update greatest lower bound to include all elements
* between and including \a i and \a j
*/
ModEvent include(Space& home,int i,int j);
/**
* \brief Restrict least upper bound to not contain all elements
* between and including \a i and \a j
*/
ModEvent exclude(Space& home,int i,int j);
/// Update greatest lower bound to contain \a i
ModEvent include(Space& home,int i);
/// Restrict least upper bound to not contain \a i
ModEvent exclude(Space& home,int i);
/**
* \brief Update least upper bound to contain at most all elements
* between and including \a i and \a j
*/
ModEvent intersect(Space& home,int i,int j);
/// Update least upper bound to contain at most the element \a i
ModEvent intersect(Space& home,int i);
//@}
/// \name Domain update by range iterator
//@{
/// Remove range sequence described by \a i from least upper bound
template<class I> ModEvent excludeI(Space& home, I& i);
/// Include range sequence described by \a i in greatest lower bound
template<class I> ModEvent includeI(Space& home, I& i);
/// Intersect least upper bound with range sequence described by \a i
template<class I> ModEvent intersectI(Space& home, I& iter);
//@}
/// \name View-dependent propagator support
//@{
/// Schedule propagator \a p with modification event \a me
static void schedule(Space& home, Propagator& p, ModEvent me);
/// Return modification event for view type in \a med
static ModEvent me(const ModEventDelta& med);
/// Translate modification event \a me to modification event delta for view
static ModEventDelta med(ModEvent);
//@}
/// \name Dependencies
//@{
/**
* \brief Subscribe propagator \a p with propagation condition \a pc to view
*
* 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).
*/
void subscribe(Space& home, Propagator& p, PropCond pc, bool schedule=true);
/// Cancel subscription of propagator \a p with propagation condition \a pc to view
void cancel(Space& home, Propagator& p, PropCond pc);
/// Subscribe advisor \a a to view
void subscribe(Space& home, Advisor& a);
/// Cancel subscription of advisor \a a
void cancel(Space& home, Advisor& a);
//@}
/// \name Delta information for advisors
//@{
/// Return modification event
static ModEvent modevent(const Delta& d);
/// Return minimum value just pruned from glb
int glbMin(const Delta& d) const;
/// Return maximum value just pruned from glb
int glbMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from glb
bool glbAny(const Delta& d) const;
/// Return minimum value just pruned from lub
int lubMin(const Delta& d) const;
/// Return maximum value just pruned from lub
int lubMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from lub
bool lubAny(const Delta& d) const;
//@}
};
/**
* \brief Print complement set view
* \relates Gecode::Set::ComplementView
*/
template<class Char, class Traits, class View>
std::basic_ostream<Char,Traits>&
operator <<(std::basic_ostream<Char,Traits>& os,
const ComplementView<View>& x);
template<class View> class LubDiffRanges;
template<class View> class GlbDiffRanges;
/**
* \brief Cached set view
*
* A cached set view \f$s\f$ for a set view \f$t\f$ adds operations
* for cacheing the current domain of \f$t\f$ and comparing the current
* domain to the cached domain. Cached views make it easy to implement
* incremental propagation algorithms.
*
* \ingroup TaskActorSetView
*/
template<class View>
class CachedView
: public DerivedView<View> {
friend class LubDiffRanges<View>;
friend class GlbDiffRanges<View>;
protected:
using DerivedView<View>::x;
/// The cached least upper bound
LUBndSet lubCache;
/// The cached greatest lower bound
GLBndSet glbCache;
public:
/// \name Constructors and initialization
//@{
/// Default constructor
CachedView(void);
/// Initialize with set view \a y
explicit CachedView(const View& y);
//@}
/// \name Value access
//@{
/// Return minimum cardinality
unsigned int cardMin(void) const;
/// Return maximum cardinality
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 of 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 number of elements in the greatest lower bound
unsigned int glbSize(void) const;
/// Return the number of elements in the least upper bound
unsigned int lubSize(void) const;
/// Return the number of unknown elements
unsigned int unknownSize(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether \a i is in the greatest lower bound
bool contains(int i) const;
/// Test whether \a i is not in the least upper bound
bool notContains(int i) const;
//@}
/// \name Domain update by value
//@{
/// Restrict cardinality to be greater than or equal to \a m
ModEvent cardMin(Space& home, unsigned int m);
/// Restrict cardinality to be less than or equal to \a m
ModEvent cardMax(Space& home, unsigned int m);
/**
* \brief Update greatest lower bound to include all elements
* between and including \a i and \a j
*/
ModEvent include(Space& home,int i,int j);
/**
* \brief Restrict least upper bound to not contain all elements
* between and including \a i and \a j
*/
ModEvent exclude(Space& home,int i,int j);
/// Update greatest lower bound to contain \a i
ModEvent include(Space& home,int i);
/// Restrict least upper bound to not contain \a i
ModEvent exclude(Space& home,int i);
/**
* \brief Update least upper bound to contain at most all elements
* between and including \a i and \a j
*/
ModEvent intersect(Space& home,int i,int j);
/// Update least upper bound to contain at most the element \a i
ModEvent intersect(Space& home,int i);
//@}
/// \name Domain update by range iterator
//@{
/// Remove range sequence described by \a i from least upper bound
template<class I> ModEvent excludeI(Space& home, I& i);
/// Include range sequence described by \a i in greatest lower bound
template<class I> ModEvent includeI(Space& home, I& i);
/// Intersect least upper bound with range sequence described by \a i
template<class I> ModEvent intersectI(Space& home, I& iter);
//@}
/// \name View-dependent propagator support
//@{
/// Schedule propagator \a p with modification event \a me
static void schedule(Space& home, Propagator& p, ModEvent me);
/// Return modification event for view type in \a med
static ModEvent me(const ModEventDelta& med);
/// Translate modification event \a me to modification event delta for view
static ModEventDelta med(ModEvent);
//@}
/// \name Dependencies
//@{
/**
* \brief Subscribe propagator \a p with propagation condition \a pc to view
*
* 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).
*/
void subscribe(Space& home, Propagator& p, PropCond pc, bool schedule=true);
/// Cancel subscription of propagator \a p with propagation condition \a pc to view
void cancel(Space& home, Propagator& p, PropCond pc);
/// Subscribe advisor \a a to view
void subscribe(Space& home, Advisor& a);
/// Cancel subscription of advisor \a a
void cancel(Space& home, Advisor& a);
//@}
/// \name Delta information for advisors
//@{
/// Return modification event
static ModEvent modevent(const Delta& d);
/// Return minimum value just pruned from glb
int glbMin(const Delta& d) const;
/// Return maximum value just pruned from glb
int glbMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from glb
bool glbAny(const Delta& d) const;
/// Return minimum value just pruned from lub
int lubMin(const Delta& d) const;
/// Return maximum value just pruned from lub
int lubMax(const Delta& d) const;
/// Test whether arbitrary values got pruned from lub
bool lubAny(const Delta& d) const;
//@}
/// \name Domain cache operations
//@{
/// Initialize cache to bounds \a glb and \a lub
void initCache(Space& home, const IntSet& glb, const IntSet& lub);
/// Update greatest lower bound cache to current domain
void cacheGlb(Space& home);
/// Update least upper bound cache to current domain
void cacheLub(Space& home);
/// Check whether greatest lower bound cache differs from current domain
bool glbModified(void) const;
/// Check whether least upper bound cache differs from current domain
bool lubModified(void) const;
//@}
/// \name Cloning
//@{
/// Update this view to be a clone of view \a y
void update(Space& home, bool share, CachedView<View>& y);
//@}
};
/**
* \brief Print cached set view
* \relates Gecode::Set::CachedView
*/
template<class Char, class Traits, class View>
std::basic_ostream<Char,Traits>&
operator <<(std::basic_ostream<Char,Traits>& os,
const CachedView<View>& x);
/**
* \brief %Range iterator for difference of greatest lower bound and cache
* \relates Gecode::Set::CachedView
*/
template<class View>
class GlbDiffRanges
: public Iter::Ranges::Diff<GlbRanges<View>,BndSetRanges> {
protected:
/// Lower bound iterator
GlbRanges<View> gr;
/// Cached lower bound
BndSetRanges cr;
public:
/// Constructor
GlbDiffRanges(const CachedView<View>& x);
};
/**
* \brief %Range iterator for difference of least upper bound and cache
* \relates Gecode::Set::CachedView
*/
template<class View>
class LubDiffRanges
: public Iter::Ranges::Diff<BndSetRanges,LubRanges<View> > {
protected:
/// Cached upper bound
BndSetRanges cr;
/// Upper bound iterator
LubRanges<View> lr;
public:
/// Constructor
LubDiffRanges(const CachedView<View>& x);
};
}}
#include <gecode/set/var/set.hpp>
#include <gecode/set/view/set.hpp>
#include <gecode/set/view/const.hpp>
#include <gecode/set/view/singleton.hpp>
#include <gecode/set/view/complement.hpp>
#include <gecode/set/view/cached.hpp>
#include <gecode/set/view/print.hpp>
#include <gecode/set/var/print.hpp>
// STATISTICS: set-var
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