/usr/include/gecode/int/var-imp.hpp is in libgecode-dev 3.7.1-3.
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/*
* Main authors:
* Christian Schulte <schulte@gecode.org>
*
* Contributing authors:
* Guido Tack <tack@gecode.org>
*
* Copyright:
* Christian Schulte, 2002
* Guido Tack, 2004
*
* Last modified:
* $Date: 2010-06-02 21:01:00 +0200 (Wed, 02 Jun 2010) $ by $Author: schulte $
* $Revision: 11008 $
*
* 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 <cmath>
namespace Gecode { namespace Int {
class IntVarImp;
class BoolVarImp;
/**
* \brief Integer delta information for advisors
*
* Note that the same delta information is used for both
* integer and Boolean variables and views.
*/
class IntDelta : public Delta {
friend class IntVarImp;
friend class BoolVarImp;
private:
int _min; ///< Minimum value just pruned
int _max; ///< Largest value just pruned
public:
/// Create integer delta as providing no information
IntDelta(void);
/// Create integer delta with \a min and \a max
IntDelta(int min, int max);
/// Create integer delta with \a min
IntDelta(int min);
private:
/// Return minimum
int min(void) const;
/// Return maximum
int max(void) const;
/// Test whether any domain change has happened
bool any(void) const;
};
}}
#include <gecode/int/var-imp/delta.hpp>
namespace Gecode { namespace Int {
class IntVarImpFwd;
class IntVarImpBwd;
/**
* \brief Integer variable implementation
*
* \ingroup Other
*/
class IntVarImp : public IntVarImpBase {
friend class IntVarImpFwd;
friend class IntVarImpBwd;
protected:
/**
* \brief Lists of ranges (intervals)
*
* Range lists are doubly-linked storing the pointer to both
* the next and the previous element in a single pointer.
* That means that the next element is only available when
* the previous element is supplied as additional information.
* The same holds true for access to the previous element.
*/
class RangeList : public FreeList {
protected:
/// Minimum of range
int _min;
/// Maximum of range
int _max;
public:
/// \name Constructors
//@{
/// Default constructor (noop)
RangeList(void);
/// Initialize with minimum \a min and maximum \a max
RangeList(int min, int max);
/// Initialize with minimum \a min and maximum \a max and predecessor \a p and successor \a n
RangeList(int min, int max, RangeList* p, RangeList* n);
//@}
/// \name Access
//@{
/// Return minimum
int min(void) const;
/// Return maximum
int max(void) const;
/// Return width (distance between maximum and minimum)
unsigned int width(void) const;
/// Return next element (from previous \a p)
RangeList* next(const RangeList* p) const;
/// Return previous element (from next \a n)
RangeList* prev(const RangeList* n) const;
//@}
/// \name Update
//@{
/// Set minimum to \a n
void min(int n);
/// Set maximum to \a n
void max(int n);
/// Set previous element to \a p and next element to \a n
void prevnext(RangeList* p, RangeList* n);
/// Set next element from \a o to \a n
void next(RangeList* o, RangeList* n);
/// Set previous element from \a o to \a n
void prev(RangeList* o, RangeList* n);
/// Restore simple link to next element (so that it becomes a true free list)
void fix(RangeList* n);
//@}
/// \name Memory management
//@{
/**
* \brief Free memory for all elements between this and \a l (inclusive)
*
* \a p must be the pointer to the previous element of \c this.
*/
void dispose(Space& home, RangeList* p, RangeList* l);
/**
* \brief Free memory for all elements between this and \a l (inclusive)
*
* This routine assumes that the list has already been fixed.
*/
void dispose(Space& home, RangeList* l);
/// Free memory for this element
void dispose(Space& home);
/// Allocate memory from space
static void* operator new(size_t s, Space& home);
/// Placement new
static void* operator new(size_t s, void* p);
/// No-op (for exceptions)
static void operator delete(void*);
/// No-op (use dispose instead)
static void operator delete(void*, Space&);
/// No-op (use dispose instead)
static void operator delete(void*, void*);
//@}
};
/**
* \brief Domain information
*
* Provides fast access to minimum and maximum of the
* entire domain and links to the first element
* of a RangeList defining the domain.
*/
RangeList dom;
/// Link the last element
RangeList* _lst;
/// Return first element of rangelist
RangeList* fst(void) const;
/// Set first element of rangelist
void fst(RangeList* f);
/// Return last element of rangelist
RangeList* lst(void) const;
/// Set last element of rangelist
void lst(RangeList* l);
/// Size of holes in the domain
unsigned int holes;
protected:
/// Constructor for cloning \a x
IntVarImp(Space& home, bool share, IntVarImp& x);
public:
/// Initialize with range domain
IntVarImp(Space& home, int min, int max);
/// Initialize with domain specified by \a d
IntVarImp(Space& home, const IntSet& d);
/// \name Value access
//@{
/// Return minimum of domain
int min(void) const;
/// Return maximum of domain
int max(void) const;
/// Return assigned value (only if assigned)
int val(void) const;
/// Return median of domain (greatest element not greater than the median)
GECODE_INT_EXPORT int med(void) const;
/// Return size (cardinality) of domain
unsigned int size(void) const;
/// Return width of domain (distance between maximum and minimum)
unsigned int width(void) const;
/// Return regret of domain minimum (distance to next larger value)
unsigned int regret_min(void) const;
/// Return regret of domain maximum (distance to next smaller value)
unsigned int regret_max(void) const;
//@}
private:
/// Test whether \a n is contained in domain (full domain)
GECODE_INT_EXPORT bool in_full(int n) const;
public:
/// \name Domain tests
//@{
/// Test whether domain is a range
bool range(void) const;
/// Test whether variable is assigned
bool assigned(void) const;
/// Test whether \a n is contained in domain
bool in(int n) const;
/// Test whether \a n is contained in domain
bool in(double n) const;
//@}
protected:
/// \name Range list access for iteration
//@{
/// Return range list for forward iteration
const RangeList* ranges_fwd(void) const;
/// Return range list for backward iteration
const RangeList* ranges_bwd(void) const;
//@}
private:
/// Test whether \a n is closer to the minimum or maximum
bool closer_min(int b) const;
/// \name Domain update by value (full domain)
//@{
/// Restrict domain values to be less or equal than \a n
GECODE_INT_EXPORT ModEvent lq_full(Space& home, int n);
/// Restrict domain values to be greater or equal than \a n
GECODE_INT_EXPORT ModEvent gq_full(Space& home, int n);
/// Restrict domain values to be equal to current minimum of domain
GECODE_INT_EXPORT ModEvent eq_full(Space& home, int n);
/// Restrict domain values to be different from \a n
GECODE_INT_EXPORT ModEvent nq_full(Space& home, int n);
//@}
public:
/// \name Domain update by value
//@{
/// Restrict domain values to be less or equal than \a n
ModEvent lq(Space& home, int n);
/// Restrict domain values to be less or equal than \a n
ModEvent lq(Space& home, double n);
/// Restrict domain values to be greater or equal than \a n
ModEvent gq(Space& home, int n);
/// Restrict domain values to be greater or equal than \a n
ModEvent gq(Space& home, double n);
/// Restrict domain values to be different from \a n
ModEvent nq(Space& home, int n);
/// Restrict domain values to be different from \a n
ModEvent nq(Space& home, double n);
/// Restrict domain values to be equal to \a n
ModEvent eq(Space& home, int n);
/// Restrict domain values to be equal to \a n
ModEvent eq(Space& home, double n);
//@}
/**
* \name Domain update by iterator
*
* Variable domains can be both updated by range and value iterators.
* Value iterators do not need to be strict in that the same value
* is allowed to occur more than once in the iterated sequence.
*
* The argument \a depends must be true, if the iterator
* passed as argument depends on the variable implementation
* on which the operation is invoked. In this case, the variable
* implementation is only updated after the iterator has been
* consumed. Otherwise, the domain might be updated concurrently
* while following the iterator.
*
*/
//@{
/// Replace domain by ranges described by \a i
template<class I>
ModEvent narrow_r(Space& home, I& i, bool depends=true);
/// Intersect domain with ranges described by \a i
template<class I>
ModEvent inter_r(Space& home, I& i, bool depends=true);
/// Remove from domain the ranges described by \a i
template<class I>
ModEvent minus_r(Space& home, I& i, bool depends=true);
/// Replace domain by values described by \a i
template<class I>
ModEvent narrow_v(Space& home, I& i, bool depends=true);
/// Intersect domain with values described by \a i
template<class I>
ModEvent inter_v(Space& home, I& i, bool depends=true);
/// Remove from domain the values described by \a i
template<class I>
ModEvent minus_v(Space& home, I& i, bool depends=true);
//@}
/// \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).
*
*/
void subscribe(Space& home, Propagator& p, PropCond pc, bool schedule=true);
/// Cancel subscription of propagator \a p with propagation condition \a pc
void cancel(Space& home, Propagator& p, PropCond pc);
/// Subscribe advisor \a a to variable
void subscribe(Space& home, Advisor& a);
/// Cancel subscription of advisor \a a
void cancel(Space& home, Advisor& a);
//@}
/// \name Variable implementation-dependent propagator support
//@{
/// Translate modification event \a me to modification event delta for view
static ModEventDelta med(ModEvent me);
//@}
private:
/// Return copy of not-yet copied variable
GECODE_INT_EXPORT IntVarImp* perform_copy(Space& home, bool share);
public:
/// \name Cloning
//@{
/// Return copy of this variable
IntVarImp* copy(Space& home, bool share);
//@}
/// \name Delta information for advisors
//@{
/// Return minimum value just pruned
static int min(const Delta& d);
/// Return maximum value just pruned
static int max(const Delta& d);
/// Test whether arbitrary values got pruned
static bool any(const Delta& d);
//@}
};
/**
* \brief Range iterator for ranges of integer variable implementation
*
*/
class IntVarImpFwd {
private:
/// Previous range
const IntVarImp::RangeList* p;
/// Current range
const IntVarImp::RangeList* c;
public:
/// \name Constructors and initialization
//@{
/// Default constructor
IntVarImpFwd(void);
/// Initialize with ranges from variable implementation \a x
IntVarImpFwd(const IntVarImp* x);
/// Initialize with ranges from variable implementation \a x
void init(const IntVarImp* 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 Backward iterator for ranges of integer variable implementations
*
* Note that this iterator is not a range iterator as the ranges
* are not iterated in increasing but in decreasing order.
*
*/
class IntVarImpBwd {
private:
/// Next range
const IntVarImp::RangeList* n;
/// Current range
const IntVarImp::RangeList* c;
public:
/// \name Constructors and initialization
//@{
/// Default constructor
IntVarImpBwd(void);
/// Initialize with ranges from variable implementation \a x
IntVarImpBwd(const IntVarImp* x);
/// Initialize with ranges from variable implementation \a x
void init(const IntVarImp* x);
//@}
/// \name Iteration control
//@{
/// Test whether iterator is still at a range or done
bool operator ()(void) const;
/// Move iterator to previous 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;
//@}
};
}}
#include <gecode/int/var-imp/int.hpp>
namespace Gecode {
class IntVar;
class BoolVar;
}
namespace Gecode { namespace Int {
/// Type for status of a Boolean variable
typedef unsigned int BoolStatus;
/**
* \brief Boolean variable implementation
*
* \ingroup Other
*/
class BoolVarImp : public BoolVarImpBase {
friend class ::Gecode::BoolVar;
private:
/**
* \brief Domain information
*
* - The bit at position 0 corresponds to the minimum
* - The bit at position 1 corresponds to the maximum
* - Interpreted as an unsigned, that is: 0 represents
* a variable assigned to 0, 3 represents a variable
* assigned to 1, and 2 represents an unassigned variable.
* - No other values are possible.
*/
GECODE_INT_EXPORT static BoolVarImp s_one;
GECODE_INT_EXPORT static BoolVarImp s_zero;
/// Constructor for cloning \a x
BoolVarImp(Space& home, bool share, BoolVarImp& x);
/// Initialize static instance assigned to \a n
BoolVarImp(int n);
public:
/// Initialize with range domain
BoolVarImp(Space& home, int min, int max);
/// \name Domain status access
//@{
/// How many bits does the status have
static const int BITS = 2;
/// Status of domain assigned to zero
static const BoolStatus ZERO = 0;
/// Status of domain assigned to one
static const BoolStatus ONE = 3;
/// Status of domain not yet assigned
static const BoolStatus NONE = 2;
/// Return current domain status
BoolStatus status(void) const;
//@}
/// \name Value access
//@{
/// Return minimum of domain
int min(void) const;
/// Return maximum of domain
int max(void) const;
/// Return assigned value (only if assigned)
int val(void) const;
/// Return median of domain (greatest element not greater than the median)
int med(void) const;
/// Return size (cardinality) of domain
unsigned int size(void) const;
/// Return width of domain (distance between maximum and minimum)
unsigned int width(void) const;
/// Return regret of domain minimum (distance to next larger value)
unsigned int regret_min(void) const;
/// Return regret of domain maximum (distance to next smaller value)
unsigned int regret_max(void) const;
//@}
/// \name Boolean domain tests
//@{
/// Test whether variable is assigned to zero
bool zero(void) const;
/// Test whether variable is assigned to one
bool one(void) const;
/// Test whether variable is not yet assigned
bool none(void) const;
//@}
/// \name Domain tests
//@{
/// Test whether domain is a range
bool range(void) const;
/// Test whether variable is assigned
bool assigned(void) const;
/// Test whether \a n is contained in domain
bool in(int n) const;
/// Test whether \a n is contained in domain
bool in(double n) const;
//@}
/// \name Domain update by value
//@{
/// Restrict domain values to be less or equal than \a n
ModEvent lq(Space& home, int n);
/// Restrict domain values to be less or equal than \a n
ModEvent lq(Space& home, double n);
/// Restrict domain values to be greater or equal than \a n
ModEvent gq(Space& home, int n);
/// Restrict domain values to be greater or equal than \a n
ModEvent gq(Space& home, double n);
/// Restrict domain values to be different from \a n
ModEvent nq(Space& home, int n);
/// Restrict domain values to be different from \a n
ModEvent nq(Space& home, double n);
/// Restrict domain values to be equal to \a n
ModEvent eq(Space& home, int n);
/// Restrict domain values to be equal to \a n
ModEvent eq(Space& home, double n);
//@}
/**
* \name Domain update by iterator
*
* Variable domains can be both updated by range and value iterators.
* Value iterators do not need to be strict in that the same value
* is allowed to occur more than once in the iterated sequence.
*
* The argument \a depends must be true, if the iterator
* passed as argument depends on the variable implementation
* on which the operation is invoked. In this case, the variable
* implementation is only updated after the iterator has been
* consumed. Otherwise, the domain might be updated concurrently
* while following the iterator.
*
*/
//@{
/// Replace domain by ranges described by \a i
template<class I>
ModEvent narrow_r(Space& home, I& i, bool depends=true);
/// Intersect domain with ranges described by \a i
template<class I>
ModEvent inter_r(Space& home, I& i, bool depends=true);
/// Remove from domain the ranges described by \a i
template<class I>
ModEvent minus_r(Space& home, I& i, bool depends=true);
/// Replace domain by values described by \a i
template<class I>
ModEvent narrow_v(Space& home, I& i, bool depends=true);
/// Intersect domain with values described by \a i
template<class I>
ModEvent inter_v(Space& home, I& i, bool depends=true);
/// Remove from domain the values described by \a i
template<class I>
ModEvent minus_v(Space& home, I& i, bool depends=true);
//@}
/// \name Boolean update operations
//@{
/// Assign variable to zero
ModEvent zero(Space& home);
/// Assign variable to one
ModEvent one(Space& home);
/// Assign unassigned variable to zero
GECODE_INT_EXPORT ModEvent zero_none(Space& home);
/// Assign unassigned variable to one
GECODE_INT_EXPORT ModEvent one_none(Space& home);
//@}
public:
/// \name Dependencies
//@{
/**
* \brief Subscribe propagator \a p to variable with propagation condition \a pc
*
* 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).
*
* The propagation condition \a pc can be a propagation condition
* for integer variables, which will be mapped to PC_BOOL_VAL.
*/
void subscribe(Space& home, Propagator& p, PropCond pc, bool schedule=true);
/**
* \brief Cancel subscription of propagator \a p with propagation condition \a pc
*
* The propagation condition \a pc can be a propagation condition
* for integer variables, which will be mapped to PC_BOOL_VAL.
*/
void cancel(Space& home, Propagator& p, PropCond pc);
/// Subscribe advisor \a a to variable
void subscribe(Space& home, Advisor& a);
/// Cancel subscription of advisor \a a
void cancel(Space& home, Advisor& a);
//@}
/// \name Variable implementation-dependent propagator support
//@{
/**
* \brief Schedule propagator \a p with modification event \a me
*
* The modfication event \a me can be a modification event for
* integer variables, however \a me will be ignored if it is not
* ME_INT_VAL (or ME_BOOL_VAL).
*/
static void schedule(Space& home, Propagator& p, ModEvent me);
/// Translate modification event \a me to modification event delta for view
static ModEventDelta med(ModEvent me);
//@}
/// \name Support for delta information for advisors
//@{
/// Return modification event
static ModEvent modevent(const Delta& d);
/// Return minimum value just pruned
static int min(const Delta& d);
/// Return maximum value just pruned
static int max(const Delta& d);
/// Test whether arbitrary values got pruned
static bool any(const Delta& d);
/// Test whether a variable has been assigned to zero
static bool zero(const Delta& d);
/// Test whether a variable has been assigned to one
static bool one(const Delta& d);
//@}
/// \name Cloning
//@{
/// Return copy of this variable
BoolVarImp* copy(Space& home, bool share);
//@}
};
}}
#include <gecode/int/var-imp/bool.hpp>
// STATISTICS: int-var
|